1991_Lite On_Optoelectronics_Data_Book 1991 Lite On Optoelectronics Data Book

User Manual: 1991_Lite-On_Optoelectronics_Data_Book
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LITE[']~I

Optoelectronics
Data Book 1991- 1992

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LITE-ON LIGHTING THE WAY
IN OPTOELECTRONICS
As one of the world's largest independent manufacturers of optoelectronic
products, LITE-ON INC. offers a wide range of reliable and economical optoelectronic
design solutions.
We produce high quality LEDs, single, dual and mUlti-digit displays, visible and
ipfrared discrete components, customer display modules and over 40% of the world's
clock displays.
Our fully automated production facilities in Taiwan include approximately
300,000 sq, ft. of space and are capable of producing monthly orders of up to "50
million lamps, 7 million displays, 2.5 million clock displays, 5 million infrared
discrete components and big capacity for customer OEM models."
It also features the very latest in production equipment - much of which was
designed by Lite-On engineers - and provides the most comprehensive reliability test
facilities in the industry.
Finally, the Lite-On product line is backed by a team of experienced support
specialists. So you can be assured that your problems and questions will be met with
professionalism and expediency.
For more information about Lite-On or Lite-On products, call (408) 946-4873.
Or write to LITE-ON, INC. Semiconductor Division, 720 S. Hillview Drive, Milpitas,
CA 95035.
You may also wish to contact one of our national representatives. (See inside
back cover).

TABLE OF CONTENTS
A. PHOTOCOUPLERS
A) PHOTOCOUPLERS CLASSIF ICATION CHART . . . . . . . . . . . . . . . . . . . . . . . . . . .
B) PHOTOCOUPLERS COMPARISON TABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
C) QUICK REFERENCE GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D) (LTV4N SERIES) ... GENERAL PURPOSE 4N SER IES . . . . . . . . . . . . . . . . . . . . . .
E) (LTK6N SERIES) ... GENERAL PURPOSE 6N SERIES . . . . . . . . . . . . . . . . . . . . . .
F) (LTV700 SERIES) .. 6-PIN DIP VISO:5KVRMS TyPE . . . . . . . . . . . . . . . . . . . . . . .
G) (LTV800 SER IES) ..4-PIN OR MULTI-CHANNEL TYPE . . . . . . . . . . . . . . . . . . . . .

A-1
A-2
A-3
A-5
A-23
A-56
A-82

B. LCD BACK LIGHT
A)

LCD BACK LIGHT QUICK REFERENCE GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . B-1

C. LIGHT SOURCE
A)

LIGHT SOURCE QUICK REFERENCE GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1

D. MUL TICOLOR LED BLOCK MODULES FOR GRAPHIC DISPLAYS & SIGN
BOARD DISPLAYS
A)
B)

LTM-8711-1 DISPLAY MOUDLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
LTM-8843-1 LONG MOVING SIGN MODULE . . . . . . . . . . . . . . . . . . . . . . . . . . " D-8

1. INFRARED PRODUCTS
A)
B)
C)
D)
E)
F)

SELECTION GUIDE ................................................
INFRARED EMITTING DIODES ., . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "
PHOTOTRANSISTORS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PHOTODIODES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TRANSMISSIVE SWITCH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
OPTIC RECEIVER MODULES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-1
1-5
1-32
1-44
1-60
1-66

2. LED LAMPS

2

A) SELECTION GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
B) HOW TO USE L1TON LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
C) CROSS REFERENCE GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D) RESISTOR LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
E) FLASH LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F) AXIAL LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
G) SURFACE MOUNT ASSEMBLY LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . .
H) BIG LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I) ULTRA BRIGHT LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . " ..
J) LOW CURRENT LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
K) STANDARD LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
L) SPECIAL LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
M) DUAL COLOR LED LAMPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
N) TAPE AND REEL
• RADIAL TAPE AND REEL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
• SURFACE MOUNT TAPE AND REEL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
0) PANEL MOUNTING GROMMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
P) LED CIRCUIT BOARD AND SNAP-IN INDICATORS .......................

2-1
2-22
2-27
2-35
2-52
2-57
2-62
2-72
2-82
2-100
2-106
2-159
2-278
2-302
2-306
2-309
2-312

3. LED LIGHT BARS & BAR GRAPH ARRAYS
A) SELECTION GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
B) LED LIGHT BARS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
C) LED BAR GRAPH ARRAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15

4. PROGRAMMABLE DISPLAY & LED DISPLAYS WITH DRIVER IC
BUILT-IN
A)
B)
C)

SELECTION GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
PROGRAMMABLE DISPLAY (DISCONTINUED) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
LED DISPLAY WITH DRIVER IC BUILT-IN ... '" ............. , ., .. " .. 4-6

5. SEVEN-SEGMENT LED DISPLAYS & ALPHANUMERIC DISPLAYS
A)
B)
C)
D)
E)
F)
G)
H)
I)
J)

K)

SELECTION GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ,
CROSS REFERENCE GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SINGLE COLOR ULTRALARGE SEVEN-SEGMENT LED DISPLAYS ....... " ..
MULTICOLOR ULTRALARGE SEVEN-SEGMENT LED DISPLAYS ... , ....... ,
SINGLE COLOR SINGLE DIGIT NUMERIC DISPLAYS . . . . . . . . . . . . . . . . . . . ,
MULTICOLOR SINGLE DIGIT NUMERIC DISPLAYS . . . . . . . . . . . . . . . . . . . . . .
DUAL DIGIT NUMERIC DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
THREE-DIGIT NUMERIC DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FOUR-DIGIT NUMERIC DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ALPHANUMERIC DISPLAYS SELECTION GUIDE . . . . . . . . . . . . . . . . . . . . . . . .
MULTIDIGIT LED DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ,

5-1
5-10
5-20
5-20
5-34
5-86
5-92
5-137
5-146
5-155
5-165

6. DOT MATRIX DISPLAYS
A)
B)
C)
D)
E)
F)
G)
H)
I)
J)

SELECTION GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HOW TO USE LlTON LED DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4X4 SINGLE COLOR DOT MATRIX DiSPLAyS . . . . . . . . . . . . . . . . . . . . . . . . .
4X4 MULTICOLOR DOT MATRIX DiSPLAyS .......... , ......... , ......
5X7 SINGLE COLOR DOT MATRIX DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . .
5X7 MULTICOLOR DOT MATRIX DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . .
5X8 SINGLE COLOR DOT MATRIX DISPLAYS ........ , ........... , .. , .
5X8 MULTICOLOR DOT MATRIX DiSPLAyS . . . . . . . . . . . . . . . . . . . . . . . . . . .
8X8 SINGLE COLOR DOT MATRIX DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . ,
8X8 MULTICOLOR DOT MATRIX DiSPLAyS . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1
6-5
6-11
6-11
6-17
6-31
6-55
6-55
6-63
6-63

7. LED CLOCK & FREQUENCY DISPLAYS
A)
B)

SELECTION GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1
CLOCK & FREQUENCY DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2

8. APPENDIX
A) LlTON'S PRODUCTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1
B) THE LlTON GROUP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2
C) REPRESENTATIVES OR AGENT, DISTR IBUTORS & BRANCH OFFICE ......... 8-3

3

ALPHANUMERIC INDEX
LTA-1000E ..
LTA-1000G . . .
L T A- 1OOOH R . .
L TA-1 OOOP .
L TA-1 OOOR .
LTA-1000Y.
LTB-0022 .
L TB-0028 .
LTB-0038 .
L TB-0047 .

3-15
3-15
3-15
3-15
3-15
3-15
5-165
5-165
5-165
5-165

LTC-3718P
LTC-3718R.
LTC-3718Y
LTC-3730GL Y-1 ..
LTC-3730PMA-1 ..
LTC-3808SG . . . .
LTC-3808SP
L TC-4401 PAA2 ..
LTC-5336E
LTC-5336G

L TB-1466 .
LTB-1478 ..
LTB-1488 ..
LTB-1498 ...
L TB-402.
LTC-14401A1G-2
L TC-14401 A1 P-2
L TC-14403A 1G-2
L TC-14403A 1P-2
L TC-14501 A1 G-2

5-165
5-165
5-165
5-165
5-165
7-26
7-26
7-26
7-26
7-48

LTC-5336HR
LTC-5336P
LTC-5336R
LTC-5336Y
LTC-5337E
LTC-5337G
LTC-5337HR
LTC-5337P
L TC-5337R
LTC-5337Y .

7-48
7-52
7-52
7-52
7-52
7-52
7-52
7-52
7-52
7-57

LTC-5502A 1G-12S.
LTC-5502A 1P-12S .
LTC-5612ELM.
LTC-5836E . . .
LTC-5836G ...
LTC-5836HR ..
LTC-5836P . . .
LTC-5836R . . .
LTC-5836Y .
LTC-5837E

L TC-25601 PAK
LTC-3137A1G-12
LTC-3137A1G-24
L TC-3137 A 1P-12
L TC-3137 A 1P-24
LTC-3137A3P
L TC-3614MSJ
LTC-3702SG
L TC-3702SP
L TC-3708SG

7-57
7-18
7-18
7-18
7-18
7-18
7-18
7-18
7-18
7-18

LTC-5837G
LTC-5837HR
LTC-5837P .
LTC-5837R
L TC-5837Y .
LTC-612D1G ..
LTC-612D1P.
L TC-617D1G .
LTC-617D1P .
LTC-627D1G

5-146
5-146
5-146
5-146
5-146
7-36
7-36
7-36
7-36
7-36

LTC-3708SP
LTC-3710E
LTC-3710G.
LTC-3710HR
LTC-3710P
L TC-371 OR .
LTC-3710Y.
L TC-3718E .
LTC-3718G.
LTC-3718HR.

7-18
7-2
7-2
7-2
7-2
7-2
7-2
7-2
7-2
7-2

LTC-627D 1P ..
LTC-637C1G
LTC-637C1 G-12
L TC-637C1 P
LTC-637C1P-12
LTC-637D1G
LTC-637D 1G-12
LTC-637D1G-12S
LTC-637D1G-S.
LTC-637D1P .

7-36
7-36
7-36
7-36
7-36
7-36
7-36
7-36
7-36
7-36

L TC-14501 A 1P-2
LTC-18501A1G
L TC-18501 A1G-2
L TC-18501 A 1G-4
LTC-18501 AlP ..
LTC-18501A1P-2
L TC-18501 A 1P-4
L TC-1867TA1G-2
L TC-1867TA1 P-2
L TC-25501 PAK

4

...

... ... , .

,

.

,

,

.
..
,

,

.

,

.. , ..

,

,

,

,
,

.
...
.
,

,

. . . . . . . .
..........

........
,

......

.......
...

...

., .

.....

. .........
......
,

......

7-2
7-2
7-2
7-18
7-18
7-18
7-18
7-26
5-137
5-137
5-137
5-137
5-137
5-137
5-146
5-146
5-146
5-146
5-146
5-146
7-31
7-31
7-31
5-137
5-137
5-137
5-137
5-137
5-137
5-146

7-36
7-36
7-36
7-36
7-36
7-36
7-36
7-36
7·44
7-44

LTD-585R
LTD-585Y
LTD-6410G
LTD-6430G.
LTD-6440G ...
LTD-6450G.
LTD-6610E
LTD-6630E .
LTD-6640E
LTD-6650E . . . . .

5-110
5-110
5-128
5-128
5-128
5-128
5-128
5-128
5'·128
5-128

L TC-937S1 P . . . . . . . . . . . . . . . . . .
LTC-937S1P-12 . . . . . . . . . . . . . . . . . . .
L TD-322G . . . . . . . . .
. . . . ..
LTD-322P ..
LTD-322R .
LTD-323G
LTD-323P . . . . . . . . . . . . . . . . . . . .
LTD-323R.
. . . . . . .. . . . . . . .
LTD-432EC.
. ..... .
LTD-432GC.

7-44
7-44
5-92
5-92
5-92
5-92
5-92
5-92
5-98
5-98

LTD-6710P ..
LTD-6710R ..
LTD-6730P ..
LTD-6730R ..
LTD-6740P .
LTD-6740R
LTD-6750P
LTD-6750R
LTD-6810Y.
LTD-6830Y

5-128
5-128
5-128
5-128
5-128
5-128
5-128
5-128
5-128
5-128

LTD-432PC.
LTD-432RC.
LTD-482EC.
LTD-482GC.
LTD-482PC.
LTD-482RC.
LTD-524G .
L TD-524P ..
LTD-5250E .
LTD-5250G.

5-98
5-98
5-98
5-98
5-98
5-98
5-105
5-105
5-119
5-119

LTD-6840Y.
LTD-6850Y . . . . .
LTD-6910HR
LTD-6930H R . .
LTD-6940HR . . . . . . . . . .
LTD-6950H R .
LTE-209. . . . . . . .. . . . . . . .
LTE-209C ..
L TE-239 . . . . . . . . . . . . . . . . . . . . .
LTE-239C . . . . . . . . . . . . . . . . . . . . . . .

5-128
5-128
5-128
5-128
5-128
5-128
1-5
1-5
1-8
1-8

L TD-5250H R . . . . . . . .. . . . . . . .
.... . . . . . . . . . . .
L TD-5250P .
.... . . . . . . . . . . . .
L TD-5250R .
. . . . . . . . . . .
L TD-5250Y .
L TD-5260E .
'" . . . . . . . . . . . . . . . .
LTD-5260G . . . . . . . . . . . . . . . . . . . . . .
LTD-5260HR . . . . . _ . . . . . . . . . . .
. . . . . . . . . . . . . .
L TD-5260P .
LTD-5260R .
LTD-5260Y.

5-11 9
5-119
5-119
5-119
5-119
1-119
5-119
5-119
5-119
5-119

LTE-2871 . . . . . . . . . . . . . . . . . . . . . .
LTE-2871C . . . . . . . . . . . . . . . . . . . . .
LTE-302 . . . . . . . . . . . . . . . . . . . . . . .
LTE-4206 . . . . . . . .
. .......
LTE-4206C .
. ............ .
LTE-4208. .
. ...... .
LTE-4208C .
. .... .
LTE-4238 ..
LTE-4238C .
LTE-5208A .

1-26
1-26
1-29
1-23
1-23
1-11
1-11
1-14
1-14
1-17

LTD-535E.
. ........... .
LTD-535G.
. . . . .. . . . . . . . . .
L TD-535HR ..
. ...........
LTD-535P. . . . . . . . . . . . .. . . . . . . .
LTD-535R .
. .......
LTD-535Y .
LTD-585E. .
. ..........
LTD-585G.
. ......... .
LTD-585HR . . . . . . . . . . . . . . . . . . .
LTD-585P . . . . . . . . . . . . . . . . . .

5-110
5-110
5-110
5-110
5-110
5-110
5-110
5-110
5-110
5-110

LTE-5208AC . . . . . . . .
LTE-5238A . .. . . . . . . .
L TE-5238AC . . . . . . . . . .
LTF-216141A1 . . . . . . .
LTF-216141A1P . . . . .
LTF-804-08. . . . . . . .
LT F -804-08P
L TF-804-12 . . . . . . . .
LTF-804-12P . . . . . . . .
LTH-301-07 . . . . . . . . . .

LTC-637D1P-12 . . . , . . . . . . .
LTC-637D1P-12S . . . . . . . . .
L TC-637D1 P-S .
L TC-637D1 poW .
LTC-674D1G.
LTC-674D1G-12
L TC-674D1 P ..
L TC-674D 1P-12
L TC-937S 1G . . . . . . . . . . . . .
L TC-937S1 G-1 2 . . . . . . . . . . .

.
.

.
.

.
.
.
.
.

.
.
.
.

.
.
.
.

1-17
1-20
1-20
5-170
5-170
5-170
5-170
5-170
5-170
1-63
5

1-60
2-77
2-77
2-77
A-23
A-30
A-37
A-44
A-49
A-90

LTL-213 .. , . . . . . . . . . , . . . , . , . , , .. 2-128
L T L-219 . . . , , , , .. , . , , .. , . , ,
2-123
2-183
LTL-2201AL .. , , .. .
2-189
LTL-2203A ... , . . . .
2-106
LTL-221 ... , ... , .. .
2-183
LTL-2211AL .. , .. , . ,
2-189
LTL-2213A ...
2-194
LTL-2214RT , . , ,
2-194
LT L-2214WC . . . .
2-183
L TL-2221 AL

A-90
2-309
2-309
2-311
2-144
2-144
2-144
2-144
2-144
2-144

L TL-2223A
L TL-2224RT
LTL-223 . . . . . . .
LTL-2231AL . , . , . . . . . . . . . , . . . , ..
LTL-2233A. . .
, .............. ,
LTL-2234GT . . . . , , . , .. , , , . . . . , ..
........ , .
LTL-2234WC .. , ,
LTL-224 . . . . , . , . , . . . , ... , . . . . , .
LTL-2251AL ., . . . . , ... , .. ,'
L TL-2253A . . . . , . . . . , , , .. , ..

LTL-l0233W .
LTL-l0253 ...
LTL-l0253W .
L TL-l0263W ..
LTL-l0293W . . . .
LTL-1204A . . . . . . .
LTL-1214A . . . . : ..
LTL-1224A .. .
LTL-1234A . . . . . . .
LTL-1254A ..

2-144
2-144
2-144
2-94
2-144
2-159
2-159
2-159
2-159
2-159

LTL-2254WC , . , , . . . . . . . . . . . .
.. , . , . , . . . . , . . . . .
L TL-2254YT
LTL-2271AL
LTL-229 ...
LTL-2291AL
... , . , , . . .
L TL-2293A . . . . . . . . . . . , . . . . .
........ , . . .
LTL-2294WC
L TL-2300HR .. , . . . . . . . . . . , . . . , , . ,
LT L -231 , . . . . . . , , , , . . . , , , . . . . . . .
LTL-23201AL . , . . . . . . . . . . . . . . . .

2-194
2-194
2-183
2-123
2-183
2-189
2-194
3-8
2- 106
2-245

LTL-1274A.. . . . . . . . . . .
LTL-1294A . . . . .
LTL-13215A
LTL-13218A
L TL-13219B
L TL-13225A
LTL-13235A
LTL-13238A
LTL-13239B
LTL-13255A

2-159
2-159
2-235
2-230
2-240
2-235
2-235
2-230
2-240
2-235

LTL-23203A
LTL-23211AL
LTL-23213A
LTL-23214A . . . . . . . . . . . . . . . . . ,
LTL-23216A . . . . . ,
L TL-23221 AL . , , ,
LTL-23223A , . . . . .
LTL-23231AL .. , . ,
LTL-23233A
L TL-23234A .

2-209
2-245
2-209
2-250
2-260
2-245
2-209
2-245
2-209
2-250

LTL-13258A
LTL-13259B
LTL-13278A
L TL-13279B
LTL-13295A
L TL-201 . . .
L TL-203 ..
LTL-204 . . . . ,
... , .... , ,
LTL-209"
.. ,""
LTL-211 . . . . . . . . . . . . . . . .

2-230
2-240
2-230
2-240
2-235
2-106
2-128
2-128
2-123
2-106

L TL-23236A
LTL-23251AL
L TL-23253A
LTL-23254A
LTL-23256A
LTL-23273A
L TL-23274A
l_TL-23276A
LTL-23291AL
L TL-23293A

2-260
2-245
2-209
2-250
2-260
2-209
2-250
2-260
2-245
2-209

LTH-301A . . . . . .
L TJ-811G . . . . . . .
L T J-811 HR . . . . . .
LTJ-811Y . . . . . . .
LTK-6N135.
LTK-6N136.
LTK-6N137.
LTK-6N138.
L TK-6N139.
L TK-829

.
.
.
.

L TK-849
LTL-001B . . . . . . . . . .
LTL-001C.
L.TL-004B . . . . . . . . . . . . . . . . .
L TL-l0203 .. .
LTL-l0203W . . . . . . . . . . . . . . .
LTL-l0213 . . . . . . . . . . . . . . . .
LTL-l0223 . . . . . . . . . . . . . . . .
L TL-l 0223W .
LTL-l0233 . . . . . . . . . . . . . . .

6

.
.
.
.

.
,
.
,
,

2-189
2-194
2-128
2-183
2-189
2-194
2-194
2-128
2-183
2-189

LTL-23296A ..
LTL-233 . . . . .
L TL-234 . . . . .
L TL-2350HR . . . .
L TL-239 . . . . . . . . .
L TL-2400Y .
L TL-2450Y .
LTL-2500G .
L TL-251 .
LTL-253.

2-260
2-128
2-128
3-8
2-123
3-8
3-8
3-8
2-106
2-128

LTL-3217A.
LTL-3218A
LTL-3221 A .
LTL-3223A .
LTL-3231A
L TL-3233A .
LTL-3235S
LTL-3237A
L TL-3238A .
LTL-3251A.

L TL-254.
LTL-2550G . . . . . . .
L TL-259 . . . .
LTL-2600HR . . . . . .
LTL-2620HR . . . . . . . .
LTL-2655HR . . . . . . . . . .
L T L-2685H R . . . . . . . . . .
L TL-2700Y . . . . . . . . . . .
LTL-2720Y.
LTL-2755Y.

2-128
3-8
2-123
3-8
3-8
3-8
3-8
3-8
3-8
3-8

LTL-3253A
LTL-3255S
LTl_-3257A
LTL-3258A
LTL-3271A.
LTL-3277A .
L TL-3278A .
LTL-327A.
L TL-327EA .
LTL-327G

L TL-2785Y .
L TL-2800G .
LTL-2820G .
LTL-2855G.
L TL-2885G .
LTL-291 .. .
LTL-293 .. .
L.TL-293SJ .
L.TL.-294 .. .
l_TL.-298E . . . .

3-8
3-8
. . . . 3-8
3-8
3-8
2-106
2-128
2-287
2-128
2-278

2-281
LTL-298VJ .
2-284
LTL-298WJ.
2-123
LTL-299 . . .
LTL-307C . . . . . . . . . . . . . . . . . . . . . . . 2-85
2-85
L TL-307CE . . . . . . .
2-85
L TL-307CK . . . . . . . . . . . . . . . .
2-134
LTL-307E .. .
LTL-307EA . . . . . . . . . . . . . . . . . . . . . . 2-134
2-134
LTL-307EE
2-103
LTL'307ELC
LTL-307G . . . .
L TL-307GE .. .
LTL-307P ..
LTL-307PE
LTL-307Y ..
L T L-313SJ . . . . . . . . . . . . . . . . . . . . .
LTL-3201A . . . . . . . . . . . . . . . . . . . . .
LTL-3211 A . . . . . . . . . . . . . . . . . . . . .
LTL-3213A . . . . . . . . . . . . .
LT L-3215S . . . . . . . . . . . . . . . . . . . . .

.
,
.
.

2-134
2-134
2-134
2-134
2-134
2-290
2-209
2-209
2-255
2-220

2-225
2-225
2-209
2-255
2-209
2-255
2-220
2-225
.2-225
2-209

·.

·.

..
.

·.

LTL-327HR . . . . . . . .
LTL-327Y . . . . . . . . .
LTL-3291A . . . . . .
LTL-3293A
LTL-3295S
l_TL-3297A.
LTL-33221 AA
LTL-33231AA . . . . .
LTL-33251 AA . . . . .
L TL-353CK . . . . . . .

.

2-255
2-220
2-225
2-225
2-209
2-225
2-225
2-72
2-72
2-72
2-72
2-72
2-209
2-255
2-220
2-225
2-274
2-274
2-274
2-82

2-204
LTLA03A.
2-204
LTL-403G . . . . . . . . . . . .
2-204
LT~403P . . . . . . . . . . . .
2-204
LTLA03Y . . . . . . . . . . . .
2-112
L TL-4201 . . . . . . . . . . . . . .
LTLA201-R1 . .
. . . . . . . . . . . . . . . 2-35
LTLA201-R2. . . . . .. . . . . . . . . . . . . . 2-35
LTL-4201N . . . . . . . . . . . . . . . . . . . . . . 2-112
2-112
LTL-4202 . . . . . . . . . . . . . . . . . .
2-112
LTL-4202N .
LTL-4203 . . . . . . .
L T L-4203-R 1 .
L TL-4203-R2 ..
L TL-4204 . . . . . .
LTL-4206 . . . .
LTL-4208 . . . . . . . . . .
L TL-4211 . . . . . . . . . .
LTL-4211-R1 . . . . . . . . .
LTL-4211-R2 ..
LTL-4211N . . .

2-134
2A3
2-43
2-134
2-112
2-134
2-112
2-35
2-35
2-112
7

2-134
2-52
2-43
2-43
2-134
2-112
2-112
2-100
2-112
2-112

LTL-4268L1
LTL-4268L2
LTL-4291 ..
LTL-4291.R1 . . . . . . . . . . . .
LTL-4291-R2 . . . . . . . . . . . .
LTL·4291N . . . . . .
LTL-4292 . . . . . .
LTL-4292N . . . . . . .
LTL-4293-R1 . . . . .
L TL·4293·R2 . . . . .

2·88
2-88
2-112
2·35
2-35
2-112
2·112
2-112
2-43
2-43

LTL-4223 ...
LTL-4223-R1 .
LTL-4223-R2.
LTL-4224 .. .
L TL-4231 .. .
LTL-4231-R1 . . . . . . . . . .
L TL-4231-R2 . . . . . . . . . .
L TL-4231 N . . . . . .
L TL-4232 . . . . . .
L TL-4232N·· . . . . . . . . . . . . . . . . .

2-134
2-43
2-43
2-134
2-112
2-35
2-35
2-112
2-112
2·112

LTL-4294 . . . . . . . .
LTL-4296 . . . . . . . .
LTL-4296N . . . . . . . . . . .
LTL-433A. . . . . . .
. .... .
LTL-433EA . . . . . . . . . . . . . . . . .
LTL-433G . . . . . . . . . . . . . . . . . .
LTL-433HR . . . . . . ,. ,
LTL.-433P . . . . . . . . . . . . . . . . . . • . . . .
L. TL.-433R . . . . . . . .
LTL.-433Y . . . . . . . .

2-134
2-112
2·112
2-215
2-215
2-215
2-215
2-215
2-215
2·215

LTL-4233 . . . .
L T L-4233-F L .
LTL-4233-R1 ..
L TL-4233-R2 ..
L TL-4234 ... .
L TL-4236N .. .
L T L-4238-R 1 .
L TL-4238-R2 . . . . .
LTL-4251 . . . . .
LTL-4251-R1 ..

2-134
2·52
2-43
2·43
2·134
2·112
2·43
2-43
2-112
2-35

LTL-472G . . . .
LTL-472P ..
LTL-472Y . . . .
LTL-503-11 .. .
LTL-503-14 . . . . . . . . .
LTL-5203 . . . . . . . . . .
LTL·5223 ..
LTL-5233 ..
LTL·5253 . . . . , .. .
..... .
LTL-52DG

2-265
2-265
2-265
2-316
2-316
2-150
2-150
2-150
2·150
2·299

LTL-4251-R2.
L TL-4251 N .. .
LTL-4252 ... .
LTL-4252N . . . . .
L TL-4253 .. .
L TL-4253-R1 .
L TL-4253-R2 .
L TL-4254 .. .
LTL-4256N ... , , . ,
LTL-4261N . . . . , '

2-35
2-112
2·112
2·112
2·134
2-43
2-43
2·134
2·112
2·91

LTL-52EG . . . . . . . . .
LTL-52RG . . . . . . . . .
LTL-53173Y . . . . . . . .
LTL-533-11 . . . . . . . . . . . . . . . . . . . . .
LTL-533-14 . . . . . . . . . . . . . . . . . . .
LTL-54173G . . . . . . . . . . . . . . . . . . . .
LTL-553-11 . . . . . . . . . . . . . . . . . . . . .
L TL-553-14 . . . . . . . . . . . . . . . . . . . . .
LTL·57173HR . . . .
. ...... .
LTL-603-1 . . . . . . . . . . . . . . . . . . . .

2·293
2-296
3-3
2-316
2-316
3-3
2-316
2·316
3·3
2-312

L TL-4262N ..
LTL-4263 .
L TL-4263-FL ,
LTL-4264H3 . , . . . . . .
LTL-4264H4
LTL-4264L 1
LTL-4264L2
LTL-4266N
LTL-4268H3
L TL-4268H4

2-91
2-88
2·52
2·88
2-88
2-88
2-88
2-91
2·88
2-88

LTL-6203LN
LTL-6213LN
L TL·6223LN
L TL·6233LN
LTL-6253LN
L TL-6293LN
LTL·633·1 . . . . . . . . . . . . . . . . . .
LTL-653-1 . . . . . .
. .... .
L TL-709E.
L TL-709EA. .. . . . . . . . . .

LTL-4213. ..
. ............... .
LTL-4213-FL.
. ................ .
LTL-4213-R1 .
. ............ .
L TL-4213-R2 . . . . . . . . . . . . . . . . . . . .
LTL-4214 . . . . . . . . . . . . . . . . . . . . . .
LTL-4221 . . . . . . . . . . . . . . . . . . . .
LTL-4221N . . . . . . . . . . . . . . . . . . . . .
LTL-4221NLC . . . . . . . . . . . . . . . . . . .
LTL-4222 . . . . . . . . . . . . . . .. . . . . .
LTL-4222N . . . . . . . . . . . . . . . . . . . . .

8

.
.
.
.

.
.
.
.
.
.

2-199
2-199
2-199
2·199
2-199
2-199
2-312
2·312
2-154
2·154

2-57
2-57
2-57
2-57
2-57
4-2
4-6
4-6
4-24
4-24

2-154
LTL-709L . . . . . . .
2-154
LTL-709R . . . .
2-154
LTL-709Y . . . . . . . . . .
2-159
LTL-717A.. .. .. .. ..
.. .. ..
2-159
LTL-717G . . . . . . . . . . . . . . . . . . . . . .
2-159
LTL-717HR . . . . . . . . . . . . . . . . . .
LTL-717P . . . . . . . . . . . . . . . . . . . . . . . 2-159
LTL-717R.
. . . . . . . . . . . . . . . . . . . 2-159
2-159
LTL-717Y.
. . . . . . . . . . . . ..
2-165
LTL-723A.

LTL-93BGA1 . . . . . . . . .
LTL-93BG K 1 ... .
LTL-93BHRA1.
LTL-93BYA1 ... .
LTL-93BYK1 ... .
LTM-2416 (DISCONTINUED)
LTM-8328GKR-04 .. .
LTM-8328PK R -04 . . . . . . .
L TM-8522E .
LTM-8522G . . . . . . . . . . .

LTL-723G . . . . . . . . . . . . . . . . . . . . . . .
LTL-723HR . . . . . . . . . . . . . . . . . . . . . .
LTL-723P.
LTL-723R.
LTL-723Y.
L TL-757E .
LTL-757G.
LTL-757P.
LTL-757Y.
LTL-767E.

2-165
2-165
2-165
2-165
2-165
2-170
2-170
2-170
2-170
2-174

4-24
LTM-8522HR ..
L TM-8522P . . . . . . . . . ..
. . . . . . . . . 4-24
4-24
LTM-8522R. . . . . . . . . ..
. .... .
LTM-8522Y . . . . . . . . . . . . . . . . . . . . . . 4-24
LTM-8529E . . .
. . . . . . . . . . . . . . . 4-24
4-24
LTM-8529G . . . . . . . . . . . . . . . .
4-24
LTM-8529H R . . . . . . . . . . .
4-24
LTM-8529P . . . . . . . . . . . . . . .
4-24
L TM-8529R . . . . . . . . . . . . . . .
4-24
LTM-8529Y . . . . . . . . . . . . . . .

L TL-767G .
LTL-767P.
LTL-767Y . . . . . . . . . .
LTL-8212A . . . . . . . . .
LTL-8222A.
LTL-8232A.
L TL-8252A .
LTL-8292A.
LTL-907CK.
L TL-907EK .

2-174
2-174
2-174
2-178
2-178
2-178
2-178
2-178
2-97
2-62

LTM-8530E . . . . . . . . . . . . .
LTM-8530G . . . . .
LTM-8530HR . .
. ...... .
LTM-8530P . . . . . . . . . . . . . . .
LTM-8530R . . . . . . . . . .
LTM-8530Y . . . . . . . . . . . . .
L TM-8631 GMH . . . . . . . . . .
........ .
LTM-8631 RMH
LTM-8647AE .
LTM-8647 AG ..

LTL-907HK.
L TL-907JK .
LTL-907LK.
LTL-907NK
L TL-907PK .
LTL-907TA.
LTL-907TB .
L TL-9212A .
LTL-9213A.
LTL-9222A.

2-67
2-67
2-62
2-67
2-62
2-306
2-306
2-269
2-269
2-269

4-17
LTM-8647AHR. . .
. .... .
4-17
LTM-8647 AP . . . . . . . . . . . . . . . .
4-17
LTM-8647 AR . . . . . . . . . . . . . . . .
1-66
LTM-8705A . . . . . . . . . . . . . . . . .
1-67
LTM-8705B . . . . . . . . . . . . . . . . .
1-68
LTM-8705C . . . . . . . . . . . . . . . . .
1-69
LTM-87050 . . . . . . . . . . . . . . . . .
LTM-8711-1 . . . . . . . . . . . . . . . . . . . . . 0-1
1-73
LTM-8834 . . . . . . . . .
1-73
LTM-8834-1

LTL-9223A . . . . . . . . . . . . . . . . . . . . . .
LTL-9232A . . . . . . . . . . . . . . . . . . . . . .
LTL-9233A . . . . . . . . . . . . . . . . . . . . . ,
LT L-9252A . . . . . . . . . . . . . . . . . . . . . .
LTL-9253A . . . . . . . . . . . . . . . . . . . . .
L TL-9272A . . . . . . . . . . . . . . . . . . . . . .
LTL-9273A . . . . . . . . . . . . . . . . . . . . . .
LTL-9292A. . . . . . . . . . . . . . . . . . .
LTL-9293A. . . . . . . . . . . . . . . . . . .
LTL-93BEK1 . . . . . . . . . . . . . . . . . . . . .

2-269
2-269
2-269
2-269
2-269
2-269
2-269
2-269
2-269
2-57

1-73
LTM-8834-2
1-73
L TM-8834-3
1-73
LTM-8834-4
1-73
LTM-8834-5
1-77
LTM-8835 . . . . . . . . . . . . . . .
LTM-8836 . . . . . . . . . . . . . . . . . . . . . . . 1-78
LTM-8837 . . . . . . . . . . . . . . . . . . . . . . . 1-82
0-8
LTM-8843-1 . . . . . . . . . . . . . . . .
1-86
LTM-8848 . . . . . . . . . . . . . . . . . .
1-87
LTM-8848A . . . . . . . . . . . . . . . . .

4-24
4-24
4-24
4-24
4-24
4-24
4-12
4-12
4-17
4-17

9

.

w_

10

,~

••

.

_.,~~

o. ,..
~_~H

L TM-88X 18. . . . . . . . . . . . . . . . . . . . . .
L TM-88X20. .. . . . . . . . . . . . . . . . . . .
L TM-88X21 . . . . . . . . . . . . . . . . , .. , . .
L TM-88X27 , , , .. , . . . . . , , . . . . . . . . .
L TM-88X28. . . . . . . . . . . . . . . . . . . . . .
L TM-88X29. . . . . . . . . . . . . . . . . . . . . .
LTM-88X30. . . . . . . . . . . . . . . . . . . . . .
LTM-88X32. . . . . . . . . . . . . . . . . . . . . .
L TM-88X38. . . . . . . . . . . . . . . . . . . . . .
L TM-88X55. . . . . . .. . . . . . . . . . . . . .

B-2
B-5
B-8
C-2
C-6
C-l0
B-ll
B-14
B-1 7
C-14

L TP-2188A . . . . . . . . . . . . . . . . . . . . . .
L TP-2344E
LTP-2344G . . . . . . . . . . . . . . . . . . . . . .
LTP-2344Y . . . . . . . . . . . . . . . . . . . . . .
L TP-2458AA . . . . . . . . . . . . . . . . . . . . .
L TP-2558AA . . . . . . . . . . . . . . . . . . . . .
L TP-2657AA . . . . . . . . . . . . . . . . . . . . .
L TP-275 7 AA . . . . . . . . . . . . .. . . . . .
L TP-305G . . . . . . . . . . . . . . . . . . . . . . .
LTP-305HR . . . . . . . . . . . . . . . . . . . . . .

6-68
6-11
6-11
6-11
6-55
6-55
6-39
6-39
6-17
6-17

L TM-89X03. . . . . . . . . . . . . . . . . . . . . .
L TM-89X04. . . . . . . . . . . . . . . . . . . . . .
L TM-89X06. . . . . . . . . . . . . . . . . . . . . .
L TM-89X 10. . . . . . . . . . . . . . . . . . . . . .
LTM-89X12 . . . . . . . . . . . . . . . . , . . . . .
LTM-89X18 . . . . . . . . , . . . . . . . . . . . . .
L TP-1257AA . . . . . . . . . . . . . . . . . . . . .
LTP-1357AA . . . . . . . . . . . . . . . . . . . . .
LTP-1457AE . . . . . . . . . . . . . . . . . . . . .
LTP-1457AG . . . . . . . . . . . . . . . . . . . . .

B-20
B-23
B-26
B-29
C-18
B-32
6-31
6-31
6-31
6-31

L TP-305R . . . . . . . . . . . . . . . . . . . . . . .
.....................
L TP-3784E
L TP-3784G
LTP-3784R
.....................
L TP-3785E
L TP-3785G
.....................
.....................
L TP-3785R
L TP-4057AE . . . . . . . . . . . . . . . . . . . . .
L TP-4057 AG . . . . . . . . . . . . . . . . . . . . .
L TP-4057AHR . . . . . . . . . . . . . . . . . . . ,

6-17
5-156
5-156
5-156
5-156
5-156
5-156
6-47
6-47
6-47

LTP-1457AHR . . . . . . . . . . . . . . . . . . . .
LTP-1457AY . . . . . . . . . . . . . . . . . . . . .
LTP-1557AE . . . . . . . . . . . . . . . . . . . . .
LTP-1557AG . . . . . . . . . . . . . . . . . . . . .
L TP-1557AHR . . . . . . . . . . . . . . . . . . . .
LTP-1557AY . . . . . . . . . . . . . . . . . . . . .
L TP-18088E . . . . . . . . . . . . . . . . . . . . .
L TP-18088G . . . . . . . . . . . . . . . . . . . . .
LTP-18188A
L TP-2044A3

6-31
6-31
6-31
6-31
6-31
6-31
6-63
6-63
6-63
6-11

L TP-4057 A Y . . . . . . . . . . . . . . . . . . . . .
LTP-4157AE . . . . . . . . . . . . . . . . . . . . .
LTP-4157AG . . . . . . . . . . . . . . . . . . . . .
LTP-4157AHR . . . . . . . . . . . . . . . . . . . .
L TP-4157A Y . . . . . . . . . . . . . . . . . . . . .
L TP-4257 AA . . . . . . . . . . . . . . . . . . . . .
L TP-4357 AA . . . . . . . . . . . . . . . . . . . . .
L TP-537E . . . . . . . . . . . . . . . . . . . . . . .
LTP-537G . . . . . . . . . . . . . . . . . . . . . .
LTP-537HR . . . . . . . . . . . . . . . . . . . . . .

6-47
6-47
6-47
6-47
6-47
6-47
6-47
5-156
5-156
5-156

LTP-2057AE . . . . . . . . . . . . . . . . . . . . .
LTP-2057AG . . . . . . . . . . . . . . . . . . . . .
LTP-2057AHR . . . . . . . . . . . . . . . . . . . .
LTP-2057AY . . . . . . . . . . . . . . . . . . . . .
L TP-2058AE . . . . . . . . . . . . .. . . . . . .
L TP-2058AG . . . . . . . . . . . . . . . . . . . . .
L TP-2058AHR . . . . . . . . . . . . . . . . . . . .
L TP-2058A Y . . . . . . . . . . . . . . . . . . . . .
L TP-2088AE . . . . . . . . . . . . . . . . . . . . .
L TP-2088AG .

6-39
6-39
6-39
6-39
6-55
6-55
6-55
6-55
6-68
6-68

L TP-537P . . . . . . . . . . . . . . . . . . . . . .
LTP-537R . . . . . . . . . . . . . . . . . . . . . .
L TP-537Y . . . . . . . . . . . . . . . . . . . . . .
L TP-587E . . . . . . . . . . . . . . . . . . . . . .
L TP-587G . . . . . . . . . . . . . . . . . . . . . .
L TP-587HR . . . . . . . . . . . . . . . . . . . . .
L TP-587P . . . . . . . . . . . . . . . . . . . . . .

5-156
5-156
5-156
5-156
5-156
5-156
5-156

LTP-587R . . . . . . . . . . . . . . . . . . . . . . . 5-156
L TP-587Y . . . . . . . . . . . . . . . . . . . . . . . 5-156
L TP-747E . . . . . . . . . . . . . . . . . . . . . . . 6-23

L TP-2088AHR . . . . . . . . . . . . . . . . . . . .
L TP-2088A Y . . . . . . . . . . .. . . . . . . . .
LTP-2157AE .. ... . . . . . . . . . . . .
..................
L TP-2157 AG "
LTP-2157AHR ..
LTP-2157AY . . . . . . . . . . . . . . . . . . . . .
LTP-2158AE . . . . . . . . . . . . . . . . . . . . .
L TP-2158AG .
. . . . . . . . . . .
L TP-2158AH R
. . . . . . . .
L TP-2158A Y . . . . .

6-68
6-68
6-39
6-39
6-39
6-39
6-55
6-55
6-55
6-55

L TP-747G . . . . . . . . . . . . . . . . . . . . . . .
LTP-7474HR . . . . . . . . . . . . . . . . . . . . .
L TP-7474R . . . . . . . . . . . . . . . . . . . . . .
L TP-747Y . . . . . . . . . .
L TP-757E . . . . . . . . . . . . . . . . . . . . . . .
L TP-757G . . . . . . . . . . . . . . . . . . . . . . ,
L TP-757HR . . . . . . . . . . . . . . . . . . . . . .
L TP-757R . . . . . . . . . . . . . .. . . . . . . .
L TP-757Y ..
LTR-209 . . . . . . . . .

.
.
.
.
.
.
.

6-23
6-23
6-23
6-23
6-23
6-23
6-23
6-23
6-23
1-32

LTR-301 ..
LTR-3208 ..
L TR-3208E . . . . . . . . . . . . .
L TR-4206 . . . . . . . . . . . . . . . . . .
L TR-4206E .
LTR-516AD
LTR-526AD
LTR-536AD
LTR-546AD
L TS-10304E

1-38
1-35
1-35
1-41
1-41
1-44
1-48
1-52
1-56
5-86

LTS-316AP
LTS-316AR.
LTS-316AY.
L TS-3401 LE
LTS-3401 LG
LTS-3401 LP
LTS-3401 LR
LTS-3401 LY
LTS-3401 U:
L TS-3403LG

LTS-30304G
L TS-10304Y
LTS-10305A
LTS-10804E
LTS-10804G
LTS-10804Y
LTS-10805A
LTS-30301G
L TS-30301 HRB . . . . . . . . . . . . . . . . . . .
L TS-30302A . . . . . . . . . . . . . . . . . .

5-86
5-86
5-86
5-86
5-86
5-86
5-86
5-20
5-20
5-20

LTS-3403LP
LTS-3403LR
L TS-3403L Y
LTS-3406LE
LTS-3406LG
LTS-3406LP
LTS-3406LR
LTS-3406LY
LTS-360E · .
LTS-360G ..

L TS-30801 G . . . . . . . . . . . . . . . . . .
L TS-30801 HRB . . . . . . . . . . . . . . . . . . .
L TS-30802A . . . . . . . . . . . . . . . . . . . . .
L TS-311 AE . . . . . . . . . . . . . . . . . . . . . .
L TS-311 AG . . . . . . . . . . . . . . . . . . . . . .
L TS-311 AH R . . . . . . . . . . . . . . . . . . . . .
L TS-311 AP . . . . . . . . . . . . . . . . . . . . . .
...................
L TS-311 AR "
L TS-311AY . . . . . . . . . . .
. ........
L TS-312AE . . . . . . . . .
. . . . . . .

5-20
5-20
5-20
5-34
5-34
5-34
5-34
5-34
5-34
5-34

L TS-360HR
LTS-360P · .
L TS-360R ..
L TS-367E
LTS-367G.
LTS-367HR
L TS-367P
L TS-367R .
LTS-368E · .
LTS-368G ..

L TS-312AG . . . . . . . . . . . . . . . . . . . . . .
L TS-312AHR . . . . . . . . . . . . . . . . . . . . .
LTS-312AP .
LTS-312AR.
LTS-312AY.
LTS-313AE.
LTS-313AG.
LTS-313AH R ..
LTS-313AP .. .
LTS-313AR .. .

5-34
5-34
5-34
5-34
5-34
5-34
5-34
5-34
5-34
5-34

LTS-368HR.
LTS-368P · .
L TS-368R ..
LTS-4505AG
LTS-4510AG
LTS-4530AG
LTS-4540AG
LTS-4580AG
LTS-4605AE
L TS-4610AE

LTS-313AY .. .
LTS-315AE .. .
LTS-315AG .. .
L TS-315AH R ..
LTS-315AP .. .
LTS-315AR .. .
LTS-315AY .. .
LTS-316AE . . . . . . .
LTS-316AG .. .
L TS-31 6AH R . . . . . . . . . .

5-34
5-34
5-34
5-34
5-34
5-34
5-34
5-34
5-34
5-34

LTS-4630AE
L TS-4640AE
LTS-4680AE
L TS-4705AP
LTS-4705AR
LTS-4710AP
L TS-471 OAR
L TS-4730AP
LTS-4730AR
LTS-4740AP

5-34
5-34
5-34
5-78
5-78
5-78
5-78
5-78
5-78
5-78

·.
..
..

·.
·. .
·. ·. ·.
·.
·.
·

.

·.

·.

.

..
·. ·.
·.
·.
·

·.

.

·.

·.
..
·.
·.

·.

·.
..
·.

.

·

.

·.

.
·.
·.

...
.. ·.

·

.

·.

·.
·.
·.

5-78
5-78
5-78
5-78
5-78
5-78
5-78
5-78
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-43
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
11

12

L TS-4740AR
L TS-4780AP
L TS-4780AR
LTS-4805AY
LTS-4810AY
L TS-4830A Y . . . . . . . . . . ..
L TS-4840A Y . . . . . . . . .
L TS-4880A Y . . . . . . . . .
L TS-4905AHR
L TS-4940AHR

5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51
5-51

LTS-6695E
LTS-6760P
L TS-6760R
L TS-6775P
L TS-6775R
L TS-6780P
LTS-6780R
L TS-6795P
LTS-6795R
L TS-6860Y

5-69
5-69
5-69
5-69
5-69
5-69
5-69

L TS-4930AHR
L TS-4980A H R
L TS-4980AHR
L TS-50301 G . . . . . . . . . . . . . . . . . . . .
L TS-50301 HRB . . . . . . . . . . . . . . . . . .
L TS-50302A . . . . . . . . . . . . . . . . . . . .
L TS-50801 G .. . . . . . . . . . . . . . . . . .
L TS-50801 HRB . . . . . . . . . . . . . . . .
L TS-50802A
L TS-546AE . . . . .

5-51
5-51
5-51
5-27
5-27
5-27
5-27
5-27
5-27
5-60

LTS-6875Y
LTS-6880Y
LTS-6895Y
LTS-6960HR
L TS-6975HR
L TS-6980HR
LTS-6995HR
LTV-4N25
LTV-4N26
LTV-4N27

5-69
5-69
5-69
5-69
5-69
5-69
5-69
A-5
A-5
A-5

LTS-546AG ..
L TS-546AH R .
L TS-546AP .
LTS-546AR.
LTS-546AY.
L TS-547AE .
LTS-547AG.
L TS-547AHR .
L TS-547AP .
LTS-547AR.

5-60
5-60
5-60
5-60
5-60
5-60
5-60
5-60
5-60
5-60

LTV-4N28
LTV-4N32
LTV-4N33
LTV-4N35
LTV-4N37
LTV-702V
LTV-703V
LTV-713V
LTV-814
LTV-817

A-5
A-ll
A-ll
A-17
A-17
A-56
A-62
A-69
A-76
A-82

LTS-547AY.
LTS-548AE.
L TS-548AG .
L TS-548AHR . . . .
L TS-548AP .
L TS-548AR ..
LTS-548AY .
L TS-549AE ..
LTS-549AG . . . . . . . . . . .
L TS-549AHR . . . . . .

5-60
5-60
5-60
5-60
5-60
5-60
5-60
5-60
5-60
5-60

LTV-827
LTV-847.
OPTION CODE.Qll
OPTION CODE.Q21
OPTION CODE.Q02
OPTION CODE.Q12
OPTION CODE 022

A-82
A-82
2-302
2-302
2-302
2-302
2-302

LTS-549AP
LTS-549AR ...
LTS-549AY
LTS-6460G
LTS-6475G
LTS-6480G
LTS-6495G
LTS-6660E
L TS-6675E
L TS-6680E

5-60
5-60
5-60
5-69
5-69
5-69
5-69
5-69
5-69
5-69

.
.
.
.

5-69
5-69
5-69

.. .
........ .
.
.
.

13

A. Photocouplers
•
•
•
•

PHOTOCOUPLERS CLASSIFICATION CHART
PHOTOCOUPLERS COMPARISON TABLE
QUICK REFERENCE GUIDE
(LTV4N SERIES) ... GENERAL PURPOSE
4N SERIES
• (LTK6N SERIES) ... GENERAL PURPOSE
6N SERIES
.• (L TV700 SERIES) ... 6-PIN DIP VISO:
5KVRMS TYPE
• (LTV800 SERIES) ... 4 -PIN OR
MULTI-CHANNEL TYPE

Photocouplers Classification Chart

High speed

LTV 4N25

LTV 4N26

eTR 20% Min

CTR 20% Min

LTV 4N27

LTV 4N28

CTR 10% Min

CTR 10% Min

LTV 4N Senes

LTV 4N35

LTV 4N37

6 PIN DIP

CTR 100% Min

CTR 100% Min

High sensitivity

LTV 4N32

LTV 4N33

CTR 500% Min

CTR 500% Min

LTK 6N135

LTK 6N136

eTR 7% Mm

eTR 19% Min

Computers

High Speed signal transmiSSion

High speed
LTK 6N137

CTR 700% TYP

LTK 6N Series
8 PIN DIP
Isolation Voltage

High sensitivity

(Visa 2 5K Vrmsl

LTV 700 Series

High speed

6 PIN DIP

LTK 6N138

LTK 6N139'

CTR 300% Min

CTR 500% Min

LTV 702 V

LTV 703 V

LTV 713 V

CTR 40% Min

CTR 40% Min

CTR 50% Min

LTV 817

LTV 827

LTV 847

General
computer terminal Interfaces

2~channel

4-channel

LTK 829

LTK 849

symmetrical terminal
configuration 2-channel

4-channel

HIOh Isolation
voltage
(Visa 50KVrms)

LTV 800 Series
Compact
Multichannel

High speed

4 PIN DIP
High Isolation
voltage
(Visa 50KVrmsi

LTV 814
AC Input

A-1
16

response
programmable controllers

Input Interface

Telephone EqUipment
crosspoint sWitch

Photocouplers Comp211risOll1l falbfte
LlTEON
MODEL NO

GE
MODEL NO

LTV702V

HllA2
HllA3
HllA520

-

CNY17-l

CNY17-l

CNY17-2

LTV702VA
LTV702VB
LTV702VC
LTV702VD

LTV703V

OPTRON
MODEL NO

TELEFUNKEN
MODEL NO

SIEMENS
MODEL NO

TOSHIBA
MODEL NO

MATSUSHITA
MODEL NO

NEC
MODEL NO

-

-

-

-

-

-

CNY17-l

CNY17/l
OP12253

-

-

-

-

CNY17-2

CNY17-2

CNY17/2

CNY75A

CNY17-2

-

-

-

CNY173

CNY17-3

CNY17-3

CNY17/3

CNY75B

CNY17-3

-

-

-

CNY17-4

CNY17-4

-

CNY17/4
OP12l00

CNY75C

CNY17-4

-

-

-

CNY47A
GEPS2001
HllA5
GFH60l-l

GI
MODEL NO

MOTOROLA
MODEL NO
HllA2
HllA3

-

-

LTV703VB

GFH600-l
GFH601-2

MCT2202

MCT2202

LTV703VC

GFHBOO-2
GFH601-3

MCT275

MCT275

MCT2l0

LTV703VD

GFH600-3
GFH601-4
MCT2l0

LTV7l3V

HllAl
HllA550

HllAl
MCT270

LTV703VA

HllAl

-

-

-

-

SFH600·0
SFH601·1

-

-

SFH600-l
SFH601-2

-

-

-

-

-

SFHBOO-2
SFH601·3

-

-

-

-

-

SFH600-3
SFH601-4

-

-

-

COY80N

ILl
IL74

-

ON3l00

-

TLP52l-l
LTP621

ON3l6l

PS240l-l

-

TLP521-2
TLP621-2

ON3112
ON3162

PS2401-2

-

-

UN3164

PS2401-4

-

-

-

-

LTV827

-

-

-

-

LTK829

-

MCT6
MCT66

-

-

LTV847

-

-

-

-

LTK849

-

-

-

-

4N25

4N25

4N25

4N26

4N26

4N28

LTV4N26
LTV4N2B
LTV4N32
LTV4N33
LTV4N35
LTV4N37
LTK6N135

CNY17-l

K827P
CNY74-2

K847P

-

IL-CT6
ILD-1
ILD·74

-

-

-

-

-

-

-

TLP521-4
TLP621-4
TLP504A·2

4N25

4N25

4N25

4N25

4N26

4N26

4N26

4N26

4N26

4N28

4N28

4N2B

4N28

4N28

4N28

4N32

4N32

4N32

4N32

4N32

4N32

4N32

4N33

4N33

4N33

4N33

4N33

4N33

4N33

4N35

4N35

4N35

4N35

4N35

4N35

4N35

4N37

4N37

4N37

4N37

4N37

4N37

4N37

-

-

LTK6N136

-

LTK6N139

-

6N136
6N139

-

-

NJL5l21DB

-

-

-

NJL5l21DA

-

6N135
6N136

-

6N139

-

6N139

NJL5l21DC
NJL5l21DB

-

-

-

-

NJL5l21D

-

-

PC-17T1
PC-17T2

TLP504A

ILO·1
ILO-74

6N135

NJL5l21DC

NJL5l21DA

CNY74-4

-

-

NJL5l21D

LTVB17

LTV4N25

KODENSHI
MODEL NO

NJL5l21D

HllA5

-

JRC
MODEL NO

6N135
6N136
6N139

-

-

PC-17T4

-

-

-

-

4N25
PS2010

NJL5l02D

-

-

-

-

-

-

-

-

-

PS2012
PS2022

-

-

-

-

-

-

PS2021

NJL5104D

-

-

-

-

-

-

-

-

-

-

-

-

4N25

PS2021

6N136

-

-

A-2
17

Quick Reference Guide
• (LTV 4N Series) ... General Purpose 4N Series
Model No.
LTV4N25

General purpose
type

LTV4N26

General purpose
type

LTV4N27

General purpose
type

LTV4N28

General purpose
type

LTV4N32

effiCiency type

S·pin
DIP

SPT

0
0
0
0
0
0
0
0

0
0
0
0

High transfer
High transfer

LTV4N33

efflClencv type

LTV4N35

General purpose
type

LTV4N37

General purpose
type

With Isolation Collector.
Base Voltage emitter
Viso
Voltage
Tenmi·
(Vrms) VCEO (V)
nal

• 1 Output

Package
Features

DPT

0
0
0
0
0
0
0
0

0
0
0
0

Current Transfer
Response Time tr Turn·on Time ton
Ratio CTR
,.-TYP. ~ MAX. ~ Page
MIN.
IF
rnA)
(JLs)
(JLs) (rnA)
(0)
(%)

2,500

30

20

10

3

100

-

-

1,500

30

20

10

3

100

-

-

A·5

1,500

30

10

10

3

100

-

-

A-5

A·5

500

30

10

10

3

100

-

-

A-5

2,500

30

500

10

-

-

5

50

A-11

1,500

30

500

10

-

-

5

50

A-11

3,550

30

100

10

-

-

3

2

A-17

1,500

30

100

10

-

-

3

2

A-17

• (L TV6N Series) ... General Purpose 6N Series
Package
Model No.
LTK6N135

Features

DP
0
0
0
0
0

High speed, high

LTK6N137

nOise reduction type
High speed, high
nOise reduction type
Ultra High speed,
Low Input current

LTK6N138

~:g~ ~~~:~rtyeg!clencY'1

LTK6N139

High transfer effiCiency,
high speed type

LTK6N136

8.~in

Output
Pho1cdlode

+

TranSistor

Phot~dlode

Photodlode

Darlington

tch'PP~oto Ie

tranSistor

With Isolation Current Transfer
Propagation Time
Ratio CTR
Base Voltage
,--, - - - Page
tpHL
tpLH
Visa
MIN.
Termi·
IF (mA) TYP.(~s) TYP. (~s) RL(kO)
(Vrms)
(%)
nal

0
0

0
0
0
0
0

0
0

2,500

7

16

0.4

07

41

A-23

2,500

19

16

03

05

1.9

A-30
A-37

700

2,500

(TYP)

5

45ns

45ns

350n

2,500

300

16

2

7

2.2

A-44

2,500

500

1.6

5

5

4.7

A-49

Response Time t,
,--IF
TYP.
RL
(rnA) (I's)
(n)

Page

• (L TV700 Series) ... 6-pin DIP Viso: 5kVrms Type
Package
Model No.

Features

LTV702V

Hlgtl collccloremlltf'r VOlTage 1ype

LTV703V

High collocloromlTt(>r volT.:.lge lypc

LTV713V

G(>n(>r.ll purpo<;(' IYf"l('

• 1 Output

6·pin
DIP

SPT

0
0
0

0
0
0

DPT

With Isolation
Base Voltage
VISO
Termi·
nal
(Vrms)

0
0
0

Collector·emitter
voRage

urrent Transfer RatIO eTR

(V)

MIN.
(%)

5,000

70

40

10

2

75

A-56

5,000

70

40

10

4

100

A-62

5,000

35

50

5

4

100

A-69

VCEO

• (LTV800 Series) ... 4-pin DIP or Multi-channel Type
Model No.
LTV814

AC Input type
(1·channel)

18

4-pin
DIP

LTV817
LTV827

General purpose type
(2 channel)

LTV847

General purpose type
(4·channel)

LTK829

Symmetncal terminal
configuratIOn type (2.channel)
Symmetrical terminal coniLguratlon
Iype (4 channel)

• 1 SPT SIngle transistor output

Package
"1 Ouput
B-pin 16·pin
SPT OPT
DIP
DIP

0
0

General purpose
type (1 channel)

LTK849
A-3

Features

0
0
0
0

OPT Darlington transistor output

0
0
0
0
0
0

Isolalion
Vollage
Vise
(Vrms)

Current Transfer RatiO CTR

-

Response time t,

r - - Page
R()
L {J

(%)

IF
(rnA)

TYP.

20

±1

4

100

5,000

50

5

4

100

A-82

5,000

50

5

4

100

A-82

5,000

50

5

4

100

A-82

5,000

50

5

4

100

A-90

5,000

50

5

4

100

A-90

5,000

MIN.

(JLs)

A-76

Table of Models with UL Approval
• PHOTOCOUPLERS
Model No.

UL

LTV4N25

0

LTV4N26

0

LTV4N27

0

LTV4N28

0

LTV4N32

0

LTV4N33

0

LTV4N35

0

LTV4N37

0

LTK6N136

0

LTK6N137

0

LTK6N138

0

LTK6N139

0

LTV702V

0

LTV703V

0

LTV713V

0

LTV814

0

LTV817

0

LTV827

0

LTV847

0

LTK829

0

LTK849

0

Remark

UL file No. E113898 (8)

A-4

19

ILlTE['] ~ II

General Purpose Type Photo coupler

LTV4N25/LTV4N26/LTV4N27/LTV4N28 .

• FEATURES
1. Response time
tr: TYP. 3/-1s at VCE= 10V, Ic=2mA, RL= 1000
2. UL approved (No. E113898(s))

• APPLICATIONS
1 . I/o interfaces for computers
2. System appliances, measuring instruments
3. Signal transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT:

mm)
*3 Model No.

Pin No. and Internal
connection dIagram

6

Anode mark

2
Lot No. *1

3

1 Anode
2 Cathode

4 Emitter
5. Collector

3. NC

6. Base

Factory Identification mark *2

7.62 ±O.3
(.3)

9

0.5±0.1

2.54±O.251--~-t-~_i<"54±0.25

1.1 1

A-5
20

9= 0-13°

(.1)

*1 2-dlglt number m~rked according to DIN standard
*2 Factory Identification mark shall be or shall not be marked.

* Model No.

LTV4N25
LTV4N26
LTV4N27
LTV4N28

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Parameter

Symbol

Rating

Unit

Forward current

IF

80

mA

* 1 Peak forward current

IFM

3

A

Reverse voltage

VR

6

V

P

150

mW

Collector-emitter voltage

VCEO

30

V

Collector-base voltage

VCBO

70

V

Emitter-collector voltage

VECO

7

V

Collector current

IC

100

mA

Collector power dissipation

Pc

150

mW

Ptot

250

mW

Input

Power dissipation

Output

Total power dissipation
LTV4N25

2,500
1,500

LTV4N26
*2 Isolation voltage
LTV4N27

Viso

LTV4N28

V rms
1,500
500

Operating temperature

Topr

-55 -

+100

°c

Storage temperature

Tstg

-55 -

+ 150

°c

*3 Soldering temperature

Tsol

260

°c

* 1 Pulse width :$ I/ls, Duty ratio 0 001
*2 AC for 1 minute,40 - 60% R.H.
*3 For 10 seconds

A-6

21

'.-

","'" -,;:.

,

• Electro-optical characteristics
Parameter

'S

0-

Min.

Typ.

Max.

Unit

Conditions

Forward voltage

VF

-

1.2

1.5

V

Reverse current

IR

-

-

10

p,A

VR=4V

Terminal capacitance

Ct

-

50

-

pF

V=O, F=1kHz

-

-

50

-'=

Collector
dark
current

'S
0'S
0

Symbol

LTV4N25/26

nA

ICEO
LTV4N28

-

-

IF= 10mA

VCE= 10V
IF=O

100

Collector-emitter
breakdown voltage

BVCEO

30

-

-

V

IC=0.1mA, IF=O

Emitter-collector
breakdown voltage

BVECO

7

-

-

V

IE=10p,A,IF=0

-Collector-base
breakdown voltage

BVCBO

70

-

-

V

IC=0.1mA, IF=O

2

-

-

*1
Collector
current

LTV4N25/26

IF= 10mA
mA

IC
LTV4N27/28

VCE=10V

' 1

-

-

-

0.1

0.5

V

IF = SOmA, IC = 2mA

-

n

DC500V,40-60%R.H.
V=O, f=1MHz

C/)
()

~

~

13

Collector -emitter
saturation voltage

VCE (sat)

ell

m

s::.
()

Isolation resistance

RISO

5 x 10 10 1 x 10 11

CD

1ii
c
ell

~

Floating capacitance

Cf

-

1.0

-

pF

Response time (Rise)

tr

-

3

-

p,s

Response time (Fall)

tf

-

3

-

p,S

*1 Pulse test: input pulse width = 300p,s, Duty ratio =:;0.02 , eTR =

A-7

22

:~

x 100%

VCF=10V, 'RBE=oo
RL =100n, IC=2mA

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) short between anode and cathode on the primary side and between collector. emitter and base
on the secondary side.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.
• Inspection standard
Outgoing inspection standard for LlTON products are shown below.

(1) A single sampling plan. normal inspection level II based on MIL-STD-105D is applied. The AQL
according to the inspection items are shown below.
Defect

Inspection item

Major defect

• Electrical characteristics
o Unreadable marking

AQL(DAI)

0.25
Depend on the
specification

• Open, short
Minor defect

• Appearance
• Dimension

Judgement

0.4

A-8

23

Fig. 1

Forward Current vs.
Ambient Temperature

Fig. 2

Collector Power Dissipation vs.
Ambient Temperature

200

100

~
.§.
80

~

\

.§.
..!:

60

E

~

~

u

40

"E
III

~

0

u.

20

,

U

D.

c

150

1\

0

iiiD.

1\
1\

iii

en

'6

1'1.

100

\

Q;

;;:

0
D.

(;

'\\

50

.t5
~

0

()

o

-55 -25

0

25

50

75

o

JOO 125

-55

Ambient temperature Ta (0C)

Fig. 3

Fig. 4

500
200 I-- Ta = 75;C
50'C"
100

I

r/~~
r----25'C
'I

~

2...

o·c~

,

50

50

75

100 125

Current Transfer Ratio vs. Forward Current

a:

I-

25'C=
'-

()
0

30

10

Q;
'lii
c

20

5

E

~

20

25

50r--r-rTnTmr--r-rrnnrr--r-----,
VeE =10V
Ta=25'C
40

I

II

0

Ambient temperature Ta (0C)

Forward Current vs. Forward Voltage

I

25

fl

~
E!

10

:;

()

0.5

1.0

1.5

2.0

2.5

3.0

0.1 0.2

Forward voltage VF (V)

Fig. 5

Collector Current vs.
Collector-emitter Voltage
13
Ta=25'C

r

-

30mA
_u

10

E
~
:::l

Fig. 6

\Pc(MAX.)
IF =40mA p-,

1---""';';;';;'

",
"~

~

24

20

0

~
Q;
'lii
c

200

.......

""~

E!

.........
~

:;

5

u

(I)

10

Collector-emitter voltage VeE (V)

100

>

lOrnA

5

10

h--10mA
V ch =10V

~

E

.........
...... r--.,

iii

Qi
0:

5mA
A-9

300

~

20mA

o()

5

Relative Current Transfer Ratio vs.
Ambient Temperature

2...

U

(;

2

0.5

Forward current IF (mA)

15

o
-55

-25

o

25

50

75

Ambient temperature Ta (0C)

100

50 100

Collector-emitter Saturation Voltage vs.
Ambient Temperature

Fig. 7

~

0.3

I F =50mA
Ic=2mA

0.2
.~

---

::l

m
en

~
E
OJ

0.1

£

l.--

V

V

c
o

i-"'""

/

/

Collector Dark Current vs.
Ambient Temperature

Fig. 8

10- 7

/

5 VeE

/

5
5
L

0

o

(5

/

5

o

25

50

75

10- 1 3
-55

100

Ambient temperature Ta (0C)

Fig. 9

/

Response Time vs. Load Resistance

Fig. 10

~~

~

~

2

V CE - 5 V
Ic= 2mA
Ta=25°C

~
>


0.5

1 kQ

R L -10kQ\

0,5 1

2

5

10

20

50

Load resistance RL(kO)

~

7

~w

6

'"
o

OJ

5

.....

~

4

U

>

~

..:.:
E

..:.: ..:.: ..:.:
E E E
.-<

""

..:.:
~
. E
"'-t-

0,5

2

5 10 20

50 100 200 500

Frequency· f (kHz)

Collector-emitter Saturation Voltage vs.
Forward Current

Fig. 11

1\

-20

0.1 0.2

VOOQ

\

-15

0.2
0.1

I

l\

1\ 1\

~

01

t,

OJ

100 125

fii'

'"OJ
UJ

75

Frequency Response

0

t,

10

0

50

tf

E

Q.
UJ

25

5

VeE lOV
50 Ie 2mA,
Ta 25°C
20

c

o

25

Ambient temperature Ta (0C)

100

OJ

/

1

-25

-55

()

.5

L

5

5

.!!!

en

10V

I Ta=25°C

"?-

II

Test Circuit for Response Time

. Input
Output

c

o

§
::l
m
UJ
Q;

3

2

Test circuit for ,Frequency Response

~OJ

~
(5

()

5

10

15

20

Forward current IF (mA)

25

30

A-10

25

High Transfer Efficiency,
General Purpose Type Photocoupler
LTV4N32/LTV4N33

ILlTE[') ~ II
• FEATURES

1. High current transfer ratio
LTV4N32, LTV4N33
(CTR:MIN. 500% at IF=10mA, VCE=10V)
2. Response time ton:MAX. 5p.s at IF = 200mA
Vcc= 10V, Ic=50mA
3. UL approved (No E113898 (S))

• APPLICATIONS

1. 110 interfaces for computers
2. System appliances, measuring instruments
3. Signal transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT: mm)
*3 Model No

0.9±o.2 t

Pm No and mternal
connection diagram

6

LTV4Ne][]
Anode mark

I

4

6.5±0.5

I-;.....---...t,-;""'--l,-l--=r
3
Lot No. *1

1. Anode
2. Cathode
3. NC

4. Emitter
5 Collector
6. Base

Factory Identification mark .. 2

7.62 :!:0.3
(.3)

e

0.5±0.1
2.54±O.251---_-1-----j2.54±0.25
~l
~)

6= 0-13"
*3 Model No.

A-11

26

*1 2-dlglt number marked accordmg to DIN standard
*2 Factory Identification mark shall be or shall not be marked

LTV4N32
LTV4N33

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Symbol

Rating

Unit

IF

80

mA

IFM

3

A

VR

6

V

P

150

mW

Collector-emitter voltage

VCEO

30

V

Collector-base voltage

VCBO

30

V

Emitter-collector voltage

VECO

5

V

Collector current

IC

100

mA

Collector power dissipation

Pc

150

mW

Ptot

250

mW

Parameter
Forward current

* 1 Peak forward current
Input
Reverse voltage

Power dissipation

Output

Total power dissipation

* 2 Isolation voltage

I

1

LTV4N32
LTV4N33

2500
VISO

1500

Vrms

Operqtmg temperature

Topr

-55- + 100

°c

Storage temperature

Tstg

-55- + 150

°c

Tsol

260

°c

* 3 Soldering temperature

* 1 Pulse width,;; 1 1'-8 Duty radio 0 001
*2 AC for 1 minute 48 -60% R_H:
* 3 For 10 seconds

A-12

27

• Electro-optical characteristics

"'5
0.
E

"'5
0.
"'5
0

en
u

Conditions

Symbol

Min.

Typ.

Max.

Unit

Forward voltage

VF

-

1.2

1.5

V

IF=10mA

Reverse current

IR

-

-

10

p,A

VR=4V

Terminal capacitance

Ct

-

50'

-

pF

V=O, f=1 kHz

Collector dark current

ICEO

-

-

100

nA

VCE=10V,IF=0

Collector-emitter
breakdown voltage

BVCEO

30

-

-

V

Emitter-collector
breakdown voltaqe

BVECO

5

-

-

V

Collector-base
breakdown voltage

BVCBO

30

-

-

V

* 1 Collector current

IC

50

-

-

mA

-

-

1.0

V

Parameter

Collector-emitter
saturation voltage

VCE(sat)

IC=0.1mA
IF=O
IE= 10p,A
IF=O
IC=0.1mA
IF=O
IF=10mA
VCE=10V
IF=8mA
Ic=2mA

:m
.;::

~

Riso

5 x 1010

1 X 1011

-

n

Floating capacitance

Cf

-

1.0

-

pF

Response time
(Turn-on time)

ton

-

-

5

p,s

Isolation resistance

C\l

DC500V
40-60% R.H.

.c
u

~

'*
c:

V=O, f=1MHz

~
I-

Response time
(Turn-off time)

IF=200mA (tw"" 1.0mS)
VCC= 10V IC=50mA
toff

-

-

* 1 Pulse test: Input pulse width = 300p,s Duty ratios 0.02 , CTR =
A-13

28

100

:~

x 100%

p,s

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.

.

(1) Short between anode and cathode on the primary side and between collector, emitter and base on the
secondary side.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.

• Inspection standard
Outgoing inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STD-105D is applied. The AQL according
to the inspection items are shown below.

Defect

Inspection item

AQL(%)

Major defect

• Electrical characteristics
• Unreadable marking
• Open,short

0.25

Minor defect

o Appearance
• Dimension

Judgement criterion

Depend on the
specification

0.4

A-14

29

Fig. 1 Forward Current vs. Ambient Temperature

Fig. 2 Collector Power Dissipation vs.
Ambient Temperature
200

100

~

:;(

.s.

80

c

60

.s.

~

a:'
c

\

..!!-

0

"'~

\

-al0.

.\

::;
"E

150

o

40

ili
iJ

20

\

~

1\

0

ll..

100

[\

0.

o

50

\

~

"0
()

o

-55

o

-25

25

50

75

o

-55

100 125

Fig. 3 Forward Current vs. Forward Voltage

50

::;

20

~

f--Ta

75°C
50°C .......
........

-

10

0

5

"'~

I , ....

§

~/¥t::.25°C
O°C=

~

a:

I-

25°C~

()

1200

V

1000

~

800

ff

c

600

C

400 I-RSE=OO

~

::;

ll..

()

10

0.5

/

11111

"*~

1.0

1.5

2.0

2.5

/

200

./

o0.1

3.0

\ Pc I(

.s.

50

0.5

c

~

::;
0

~
.!!1

"0

40
30
20

()

10
A-15
30

)()

20

IF=lOmA
VCE=lOV

Ta=25°C
~

~

\

1'-00..

0

~
100

\

\

-- ......

c

"*~

\

Ii0mA ~,

/'

~

~

::;
0

'"

5mA
2mA

4

"""'- -.........

C

'" .........

2

5

2

150

MA~c) /'

20mA ~

rr

:tI

./

Ambient Temperature

70

.9

IIiII

Fig. 6 Relative Current Transfer Ratio vs

Voltage

h=

"'-...

Forward current IF (mA)

Fig. 5 Collector Current vs. Collector-emitter

60

I'\..

V

,

0.2

I

500kQhOOkQ

Forward voltage VF (V)

:;(

Vl"F=l OV
Ta=25°C

/

0

0

"E

100 125

1400

:;( 100

..!!C

75

50

Fig. 4 Current Transfer Ratio vs. Forward Current

500

.s.

25

Ambient temperature Ta (0C)

Ambient temperature Ta (0C)

200

o

-25

6

8

--- -10

12

Collector-emitter voltage VeE (V)

50

Q)

>

-al

Qi

a:
14

o

-55

-25

o

25

50

75

Ambient temperature Ta (0C)

100

50

100

Fig. 7 Collector-emitter Saturation Voltage vs.
Ambient Temperature

2::
~
LTI-

10-(;

1.2

IF=8mA
Ic=2mA

1.1

u

>

OJ

~

~

Fig. 8 Collector Dark Current vs.
Ambient Temperature

1.0

0.9

0

r--..

--- --- ----

0.7

0.6

0.4
-55

C

~

:;

8

1O-!J

0
~

til 10- 10

"0

~

10- 11

2

"0

0.5

U

o

-25

25

50

75

10- 12
10- 13
-55

100

Ambient temperature Ta (0C)

c

VCE=2V
Ic=lOmA
Ta=25'C

~i\

r\

-5

(ij
OJ

~ -10
$
"0

RL=lkQ

..... r-.

\

5 10 20

Fig.11 Test Circuit for Response Time

Rn

.,-t---+,

100

6

~ I.~ ~ ~ ~-+_-I----+_t-T_a_=r-2_5'C--I
Ii',,",::;~g

5

~'H-r-~r--+--~--+---r-~r--;

4~++-+~-4--4---t---r--+--i

o

3r1r+-rH\~~---~~-~-+--4

~:::J

m

"'

~

\

50 100 200 500

Frequency f (kHz)

In put <>-'I"N_--'-,

75

~
c

\

IF=200mA Vec
(tw== 1ms)

50

$

100Q 1\ 1OQ;\

1\

w

OJ
OJ

-15

2

25

7~rT-r~~--'---.--r-----'

{;?

>

-20
0.5

0

Fig. 10 Collector-emitter Saturation Voltage vs.
Forward Current

'.
o

-25

Ambient temperature Ta (0C)

Fig. 9 Frequency Response

~

lOV

~ 10- 7

.9 10-

0.8

ill
:E?.

VeE

2~~~~H---+---+---+---+--i
\,

\

E
OJ

~

o

u

Forward current IF (mA)

Fig. 12 Test Circuit for Frequency Response

Vcc
Output

A-16

31

ILlTE[']~11

General Purpose Type Photocoupler

LTV4N3S/LTV4N37

• FEATURES
1. High current transfer ratio
(CTR:MIN. 100% at IF=10mA, VCE=10V)
2. Response time
ton:TYP. 3,.s at Vcc= 10V, Ic=2mA, RL = 100n
3. Input-output isolation voltage: LTV4N35 (Viso:3,550Vrms)
LTV4N37 (Viso 1,500Vrms)
4. UL approved (No. E113898 (S))

• APPLICATIONS
1. 1/0 interfaces for computers
2. System appliances, measuring instruments
3. Signal transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT: mm)
0.9±0.2

-3 Model No.

1

Pin No. and mternal
connection diagram

Anode mark

2

lot No. *1

Factory Identification mark *2

1 Anode
2 Cathode
3 NC

7.62:!:0.3

0.5±0.1
2.54±o.25'1--~-J---t~±0.25
~)
~J
*1 2·d'git number marked according to DIN standard

A-17

32

*2 Factory Identification mark shall be or shall not be marked.

3

4. Emitter
5. Collector
6. Base

9=0-13'
*3 Model No,

lTV4N35
LTV4N37

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Parameter

Symbol

Rating

Unit

IF

60

mA

IFM

3

A

VR

6

V

P

100

mW

Collector-emitter voltage

VCEO

30

V

Collector-base voltage

VCBO

70

Forward current

* 1 Peak forward current
Input
Reverse voltage

Power dissipation

V

--Output

Emitter-collector voltage

VECa

I

.. _-

V

--_. -------

Collector current

IC

100

mA

Collector power dissipation

Pc

300

mW

Ptot

350

mW

Total power dissipation

3,550

LTV4N35
* 2 Isolation voltage

Vrms

VISO
1,500

LTV4N37

Operating temperature

Topr

-55- +100

°c

Storage temperature

Tstg

-55- +150

°c

Tsol

260

°c

* 3 Soldering temperature

*1 Pulse width :5 1 /ls, Duty radio 0,001
*2 AC for 1 minute 40-60%R.H.
* 3 For 10 seconds

A-18

33

• Electro-optical characteristics

S

0.

Conditions

Symbol

Min.

Typ.

Max.

Unit

Forward voltage

VF

-

1.2

1.S

V

Reverse current

IR

-

-

10

p.A

VR=4V

Termin.al capacitance

Ct

-

so

-

pF

V=O,f=1 MHz

-

-

SO

nA

VCE=10V,

-

-

SOO

p.A

VCE=30V

30

-

-

V

Parameter

IF=10mA

.5

Collector
dark
current

S
0.
S

0

Ta=2SoC
ICEO
Ta= 100°C

Collector-emitter
breakdown voltage

BVCEO

Emitter-collector
breakdown voltage

BVECO

Collector-base
breakdown voltage

BVCBO

Ic=0.1mA
IF=O

-

7

-

V

IE=10p.A
IF=O

-

70

-

V

Ic=0.1mA
IF=O "

..

Ta=2SoC

10

-

-

4

-

-

*1
Collector
Current

Ta= -SsoC

IC

mA

VCE=10V

..
en

IF=10mA

Ta=100°C

0t5u

4

-

-

-

-

0.3

V

IF = SOmA
Ic=2mA

-

n,

DCSOOV, 40 - 60% R.H.

.;:;

~

til

Collector-emitter
satura~ion voltage

VCE(sat)

.c
u

~

'*

Isolation resistance

Riso

S X 1010

1 x 1011

c

~
I-

...

Floating capacitance
Response time
(Turn-on time)

Cf

-

1.0

ton

-

3

2.S

pF

V=O, f=1MHz

10, ..

P.s

VCC=10V
RBE=oo "
RL = 1000
.lc=2mA

..

Response time
(Turn-off time)

toff

-

*1 Pulse test: Input pulse width = 300p.s Duty ratio:5 0.02
A-l~

34

.

3

,

CTR =

10

J£..
x
IF

100%

p's

."

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) Short between anode and cathode on the primary side and between collector, emitter and base on the
secondary side.
(2) The isolation voltage tester with zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.

• Inspection standard
Incoming inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STO-10S0 is applied. The AQL according
to the inspection items are shown below.

Defect

Inspection item

AQL(%)

Major defect

• Electrical characteristics
• Unreadable marking
e Open short

0.25

Minor defect

• Appearance
• Dimension

0.4

Judgement criterion

Depend on the
specification

A-20

35

Fig. 1 Forward Current vs. Ambient Temperature

Fig. 2 Collector Power Dissipation vs.
Ambient Temperature

400

80
§"
~

.s

.s

60

\

.!!-

c

~

:;
u

tP

40

0

u...

a.

\
o

25

200

!
i

100

"

a.

\

-55 -25

~

i5

20

o

1\

~
~

~
~

300

c

o

75

50

""15
U

\

o

Ambient temperature Ta (0C)

r- '-Ta

200
~

.s

75"C
50t

100

l

50

.

:;
u

20

In u

~

10

~

0

''-25·b- ra:

25t ~

t;

100 125

o

~

W

140~'-rT~~-+~H+~~~++~

/~

120 1--+-t-H+++H-+-Hfi'fifu'~~tttHi
~

100 1--+-t-HH-I+H----HH+++J~_+_++¥tHi
RSE=oo
80 1---If--H=fi-tttt-V-+t-c,tl-tttHtt-+-H-Htttl
60r-~r+~~-+~~~~-+++~

401--lf--H*Hf+-+/-I-+-l-+ttttt--t-++ttftH

~

20, """

5~~f~

I-"""

0.5

1.0

1.5

2.0

2.5

0.1 0.2

/

20

if

/100kQ
2
5 10 20

50 100

Fig. 6 -Relative Current Transfer Ratio
Ambient Temperature

Voltage

~

0.5

Forward current IF (mA)

Fig. 5 Collector Current vs. Collector·emitter
30

11

O~~~~~~~~~~~~

3.0

Forward voltage VF (V)

.s.y

75

Fig. 4 Current Transfer Ratio vs. Forward Current

5

u...

50

180 r------mrr--r-rr-rrrrrr--,-TTT1TIm
160 V CE = 10V f+H.-H-H-++tH--+-H1-tt1tH
Ta=25·C

l 'I~
':' , No·c

.!!C
~

I,

25

1\\

Ambient temperature Ta (0C)

Fig. 3 Forward Current vs. Forward Voltage
500

o

-55 -25

100 125

~

~
~

(Ta=25·C)
\PdMAX.)

,,

,

~

-

~,

0

p,

-w;;;r-

150

~
~c

100

~

IF-lOrnA
VCE=lOV

-- --

..............
.............

C

~

~

:;
u

50

CD

f

>

5rnf'

-ai

a;

a:
A-21

36

o

2rnA
5

10

Collector-emitter voltage VCE (V)

15

-55

-25

o

25

50

75

Ambient temperature Ta (0C)

100

Fig. 7 Collector-emmitter Saturation Voltage vs.

Fig. 8 Collector Dark Current vs.

Ambient Temperature

!w

u
>
OJ

0.14

Dl

0.10
0.08

§
:::J
m

0.06

....- V

iE
OJ

f--- ~
0.04

10- 8
10- 9

I-"""

10- 10
10- 1 1

0.02

c5

U
.!!1
"0

10- 12

o

-55

U

o

-25

25

50

75

10- 13
-55

100

Ambient temperature Ta (0C)

E

10

tl

t,v

C



t,

0.5

~

iii

V

-15
2

5 10 20

100

I'l"

f"-,I'\

«> -5
c

td

5


c

J1l

Ambient Temperature

50

-20
0.5

Load resistance RL (kll)

2

5

ik (I

1\,
~

10 20

1\

VOOQ

ll~

50 100 200 SOO

Frequency f (KHz)

Fig. 11 Collector-emitter Saturation Voltage vs.

Test Circuit for Response Time

Forward current
7
w

~

Ie 0.5mA ITa-25°C
ImA
2mA

6

3inA

OJ

~

5

c

4

~

Vee
Input

RD

f--5mA
--7mA

Input
Output

o

'§
:::J

m

3

Test Circuit for Frequency Response



c
:B

E

w

Q)

-0

*3 Peak transient forward current
Reverse voltage

Emitter-base' reverse withstand
voltage (5 - 7 pin)

iii
0>

c

tlQ)
Q5

0

*5 Output power dissipation
Operating temperature
. Storage temperature

i

*1 Decreases at the rate of 0:8mAJoe If the atmospheric temprature IS higher than 70 0 e
* 2 Duty cycle = 50%, pulse width = 1ms. Decreases at the rate of 1.6mA/oe if the atmospheric temperature is higher
than 70 0 e
*3 Pulse width :51,.S, 300pps.
*4 Decreases at the rate of 0.9mW/oe if the atmospheric temperature is higher than lOoe.
'-*5 Decreases at the rate of 2.0mW/oe if the atmospheric temperature is higher than 70 o e.
*6 Ae or 1 minute. 40-60%R.H.
* 7 For 10 seconds.

A-24

39

• Electro-optical characteristics
Parameter

(Unless otherwise specified Ta = 0 - 70°C)

Min.

Typ.

Max.

Unit

7

18

-

%

5

13

-

%

-

0.1

0.4

V

Ta=25°C
IF=OmA, VCC=VO=5.5V

-

3.0

500

nA

IOH(2)

Ta=25°C
IF=OmA, VCC=VO=15V

-

0.01

1.0

/LA

IOH(3)

IF=OmA, VCC=VO= 15V

-

-

50

/LA

-

70

-

/LA

Symbol
CTR (1)

* 1 Current transfer ratio
CTR (2)

Condition
Ta=25°C, IF= 16mA
VO=O.4V, VCC=4.5V
i"F= 16mA
VO=0.5V, VCC=4.5V
IF=16mA

logic (0) output voltage

VOL

IOH(1)
logic (1) output current

logic (0) supply current

IF 16mA
ICCl

Input forward voltage
temperature coefficient

Vo open, VCC= 15V

ICCH(1)

Ta=25°C,IF=OmA
Vo=open, VCC= 15V

-

0.02

1.0

/LA

ICCH(2)

IF=OmA
Vo=open, VCC=15V

-

-

2.0

/LA

VF

Ta=25°C,IF=16mA

-

1.7

1.95

V

IF=16mA

-

-1.9

logic (1) supply current

Input forward voltage

VCC=4.5V,IO=1.1mA

t:,. VF
t:,. Ta

BVR

Ta=25°C,IR=10/LA

5.0

-

-

V

Input capacitance

CIN

VF=O, f=1 MHz

-

60

-

pF

*2 leak current (input-output)

11-0

Ta=25°C, 45%R.H. t=5s
VI_0=3kV, dc

-

-

1.0

p.A

*2 Isolation. resistance (input-output)

RI-O

*2 Capacitance (input-output)

CI-O
hFE

-

1012

-

!}

f= 1MHz

-

0.6

-

pF

VO=5V,10=3mA

-

100

-

-

VI_0=500V, dc

Note: Typical value Ta=25°C
* 1. Current transfer ratio is defined as the ratio of input current to output current expressed in %
* 2. measured as a 2-pin element (Short 1.2.3 and 4 Short 5.6.7 ,and 8)
A-25

mV/oC

Input reverse voltage

Transistor current amplification factor

40

-

• Switching characteristics
Parameter
* 2

(Ta=25°C, VCC=5V, IF=16mA)

Symbol

Conditions

Min.

Typ.

Max. Unit

Propagation delay time
Output (1) -l>(0)

tpHL

RL =4.1kO

-

0.4

1.5

p'S

Propagation delay time
Output (0) ~(1)

tpLH

RL =4.1kO

-

0.7

1.5

P.s

immunity at logic (1) output

CMH

IF=OmA, VCM=10Vp_p
RL =4.1kO

-

1000

-

V/p.s

• 1,2 Common mode transient
immunity at logic (0) output

CML

VCM=10Vp_p,IF=16mA
RL =4.1kO

-

-1000

-

V/p.s

RL = 1000

-

2.0

-

MHz

* 2

* 1,2 Common mode transient

• 3

Bandwidth

BW

* 1 Common mode transient immunity in logic (1) is defined as a common mode voltage variation that can hold the output
at level (1) (VO>2.0V).
Common mode transient immunity in logic (0) is defined as a common mode voltage variation that can hold the output
at level (0) (VO<0.8)
* 2 RL = 4.1 kO is equivalent to one TTL and 5.6kO pull- up resistor
* 3 Bandwidth denotes a point 3 dB down with AC input

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) Short between pin 1 and 4 on the primary side and between pin 5 and 8 on the secondary side.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.

• Inspection standard
Outgoing inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STD-1050 is applied. The AQL according to the
inspection items are shown below.

Defect

Inspection item

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

Minor defect

• Appearance
• Dimension

AQL(%)

Judgement criterion

0.25
Depend on the
specification
0.4

A-26

41

• 1 Test Circuit for propagation delay time
I

Pulse
mput
Pulse
width

~-~
5V

I

VCC

= 101'8

I

Duty
rallo

VO --""'"

= 1/10

Vo
VOL

IF

tpLH

tpHL

• 2 Test circuit for CMH and CML
tr, tf = Bns

VCC = 5V

10V

- - - r90%

10%-

>- 90%

OV 10%..jL

tf

tr
CM H V

,?

0
IF = OmA

o 8V

CM L Vo
IF = 16mA

A-27
42

2V

A

5V
V FF

1----'---0 Vo

~

-=-

~VOL
":'

Fig. 2 Power Dissipation vs.
Ambient Temperature

Fig. 1 Forward Current vs.
Ambient Temperature
30

120

,

~

g
0

0..

\
\
\

c

~

::;
u

"E
~
a

10

LL

\
1\

80

'\

0.:
c

a

'iiiQ.

60

'05

45
40

en

'6

'\

P

~

iii
3

a

0..

\

11
\1

Po

100

20
II

o

100
Ambient temperature Ta (0C)
25

Ir

125

75

50

o

7S
25
50
100
Ambient temperature Ta (0C)

Fig. 4 Relative Current Transfer Ratio vs.
Forward Current
150

Fig. 3 Forward Current vs. Forward Voltage
100

"...

Ta 70"C-50"C-,( Vn-~5"C
O"C

10

a

.~

g

Ta~25°C

I

Vcc~5V

I
I

~

100

./

I

~

l

"

III

C

!

Vo~O.4\"

;:{
...!!-

125

I,

:;
()

D

50

til

1:0

JIll I

0.1

LL

0.011.0

1.2

If I

o

1.4
1.6
1.8
2.0
Forward voltage VF (V)

2.2

0.1

11111'

I 11111111

Broken line shows
pulse charact~ristics.

Vl l =5V
Ta=25"C

ii

I I II

10
Forward current IF (mA)

Fig. 6 Logic (1) Output Current vs.
Ambient Temperature

Fig. 5 Output current vs. Output Voltage
12

I,

Current transfer ratio
at IF ~ 16rnA defines 100°0.

II I

Vo 5V

Vee

10

7

I
;:{

g

8

..9
C

~

6

:;()

'5
a.
'5

-- -- -- --

-- --- ,,-- -- --

/

I~·-40mA

--r57n-A
--raffiA

--t-- 1--- --;r5~A

20mA
15mA

4

./

lOrnA

0

2

5mA

4

6

8

10

12

Output voltage Vo (V)

14

16

/

0

/
10- 1 1
--60 -40 -20

A-28

0

20

40

60,

Ambient temperature Ta (0C)

80

100

43

Fig. 7 Relative Current Transfer Ratio vs.

Fig. 8 Propagation Delay Time vs.

Ambient Temperature

Ambient Temperature

110

s~
0
'§

100

I

CD

Ui
c

g

90

.~

80

()
Q)

>
~

CD

a:

V

70

600

Q)

»
C\l
CD

'0

c

0

OJ
C\l

0

r

I

20

40

60

200

, V

V

V

/

~

/'"

~V'V
tpw

ct

Current transfer ratio
at T a = T50C ~efines 100%.
0

-:::::

400

cij
Q.

60
-60 -40 -20

lS

E
..."

/

II

IF= 16mA
Vcc=5V
RL=4.1Kn

(jj'

.s

""1'\

V

C

::;

800

IF=16mA
Vo=O.4V
Vcc=5V

I

o

80 100

-60 -40 -20

Ambient temperature Ta (0G)

0

20

40

60

80

100

Ambient temperature Ta (0G)

• Test Circuit for Frequency Response

Fig. 9 Frequency Response
)

10
>

o-j

Vo

c

'ro

;g
'0

>

R, =100iV

brv'

2,OV)
Common mode transient immunity in logic (0) is defined as a common mode voltage variation that can hold the output
at level (0) (VO<0.8V)~
* 2 RL = 1.9kO is equivalent to one TIL and 5.6kO pull- up resistor.
*3 Bandwidth denotes a point 3 dB down with AC input.

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) Short between pin 1 and 4 on the primary side and between pin '5 and 8 on the secondary side.
(2) The 'isolation voltage tester with a zero-cross circuit shall be used.
(3~ The waveform of applied voltage shall be a sine wave.

• Inspection standard
Outgoing inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STD-105D is applied. The AQL according
to the insecption items are shown below.

Defect

Inspection item

AQL(%)

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

0,25

• Appearance
• Dimension

0.4

Minor defect

A-33

48

Judgement criterion

Depend on the
specification

-1 Test circuit for propagation delay time
I

~-.=J
I

SV

I
I

Va --,.-,..

Pulse
Input
Pulse
width
; 1OI'S
Duty
ratio

J---._ _,....oV CC

; 1/10
1---'---.,....0 Va
CL ; 1SpF

-2 Test circuit for CMH and CML
tr, tf = 8ns

VCC ; SV
10V

- - ,--:r90%

100/~

OV 10%,It

CM H Va

;::
\- 90%

----'-;.::..;.,r~:::::=::_;J--- SV
IF ;

OmA

2V

CM L Va _ _ _ _ _...:0:...:8:...:V~==~
~VaL
IF ; 16mA

A-34

49

Fig. 2 Power Dissipation vs. Ambient Temperature

Fig. 1 Forward Current vs. Ambient Temperature

120

30

,



CD

a:

70

f

60

80

100

CD
D

c::

400

-

0

~

OJ

co

D.
0

c::

/'

200

o

-60 -40 -20

~ tpLII

V

0

20

40

60

80

100

Ambient temperature Ta (0G)

Fig. 10 Frequency Response

o
-5
AC input

-

/

Ambient temperature Ta (0G)

Test circuit for Frequency Response

~~

V
V

1

co

"

40

600

>.

Current transfer ratio
at ~a = 5 °C Idefiles 170%.
20

u;-

..,E

~

I
0

IF= 16mA
Vcc=5V
RL=1.9K!l

OJ

/

60
-60 -40 -20

800

.s

OJ
.~

Ambient Temperature

h'=16mA
Vo=OAV
Vcc=5V

I--

100

"§

~c::

Fig. 8 Propagation Delay Time vs.

Relative Current Transfer Ratio vs.
Ambient Temperature

~

'\

RI.=1000/

o-j

I,.

~16mA

Ta = 25°C

~~

1

1~20W' V\
5

4700.'"

V ~~

V
lkO"

~~

~

0

-2 5
-3 0 0.1

1.0

10

Frequency f (MHz)

• PRECAUTION FOR USE
The minute design makes the transistor on the bipolar structured detector vulnerable to static electricity.
To prevent damages and degradation in characteristics due to static electricity. take general measures against
static electricity.

A-36

51

GalAs IRED & PHOTO Ie
LTK6N137

.ILlTE[')~11
• FEATURES

1. LSTTLITTL Compatible: 5V Supply
2. Ultra High Speed
3. High Isolation Voltage: 2500 Vrms
4. UL approved (No. E 113898(5»

• APPLICATIONS
1. Computer interfacing.
2. Tele communication.
3. Analog data equipment control.

(

,

, f· / . :
I

• OUTLINE DIMENSIONS (UNIT: mm)
Pin No. and Internal
connection diagram

Vee

GND

B

5

I

6.5±O.5
(.256)

~...t---r-IrI~

O.B:!:O.2

9.22:!:O.5
(.363)
Factory Identification mark *2

O.5:!:O.1

A-37

52

2.54:!:O.25
(.1)

.. 1 2-dlQlt number marked according to DIN standard
'"2. Factory Identification mark shall be or shall not be marked.

4
NC

Anode

Cathode

NC

•

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Symbol

Rating

Unit

IF

20

mA

IF

40

mA

VR

5

V

*2 Supply voltage

Vee

7

V

*3 Enable voltage

VE

5.5

V

Output current

10

50

mA

Output voltage

Vo

7

V

DIssipation current (Output collector)

Pe

85

mW

Operating temperature

Topr

0- +70

°e

Storage temperature

Tstg

-55- + 125

°e

* 4 Isolation voltage

Viso

2500

Vrms

*5 Soldering temperature

Tsol

260

°e

Parameter
,
Forward current

Emitting
side

* 1 Peak forward current

Reverse voltage

Detecting
side

* 1. Pulse width ,;; 1 msec.
*2. For 1 minute (MAX.)
*3. It shall not exceed 500mV or more over supply voltage (Vee).
*4 Ae for 1 minute, 40-60% R.H.
*5 10 sec. or less, 2mm or more from the root of lead pins.
A·38
53

(Unless otherwise specified Ta=0-70°C)

• Electro-optical characteristics
Symbol

M·in.

Typ.

Max.

Unit

logic (1) output current

10H

-

2

250

/LA

VCC=VO= 5.5V
IF=250/LA, VE=2.0V

logic (0) output voltage

VOL

-

0.4

0.6

V

VCC=5.5V, IF=5mA
VEH=2.0V
10l (sinking) = 13mA

logic (1) enable current

IEH

-

-0.8

-

mA

VCC=5.5V, VE=2.0V

logic (0) enable current

IEl

-

-1.2

-2.0

mA

VCC = 5.5V, VE = 0.5V

Logic (1) supply current

ICCH

-

7

15

mA

VCC=5.5V,IF=OmA
VE=0.5V

Logic (0) supply current

ICCl

-

13

18

mA

VCC=5.5V,IF=10mA
VE=0.5V

* 1 leak current

11-0

-

-

1.0

p.A

Relative humidity=45%
Ta=25°C, t=5s
VI-O = 3000Vdc

* 1 Isolation resistance
(Input-Output)

RI-O

-

1012

-

0

VI_0=500V, Ta=25°C

*1 Capacitance (Input-Output)

CI-O

-

0.6

-

pF

f=1MHz, Ta=25°C

VF

-

1.6

1.75

V

IF=10mA, Ta=25°C

Parameter

*2 Input forward voltage

Conditions

Input reverse breakdown voltage

BVR

5

-

-

V

IR= 10/LA, Ta=25°C

Input capacitance

CIN

-

60

-

pF

VF=O, f=1MHz

*3 Current transfer ratio

CTR

-

700

-

%

IF=5.0mA, Rl=1000

Note: All typical value shall be at VCC=5V, Ta=25°C
*1 Device considered a 2 terminal device: pins 2 and 3 shorted together, and pins 5, 6, 7 and 8 shorted together.
*2 At lin = 10mA, VF decreases with increasing temperature at the rate of 1.6mV/oC
*3 DC current transfer ratio is defined as the ratio of the output collector current to the forward bias input current.
A-39

54

• Switching characteristics

Parameter

*1 Propagation delay time
Output

(0)~(1)

*2 Propagation delay time
Output (1)-.;0(0)

Output rise-fall time (10%-90%)

Symbol

MIN.

TYP.

MAX.

Unit

tpLH

-

45

75

ns

RL = 3500, CL = 15pF
IF=7.5mA

tpHL

-

tr, tf

-

45

75

ns

RL = 3500, CL = 15pF
IF=7.5mA

20, 30

-

ns

RL =3500, CL = 15pF
IF=7.5mA

*3 Propagation delay time
of enable (1 )-(0)

Conditions

tELH

-

40

-

ns

RL = 3500, CL = 15pF
IF=7.5mA, VEH=3.0V
VEL =0.5V

*4 Propagation delay time
of enable (0)~(1)

RL = 3500, CL = 15pF
tEHL

-

15

-

ns

IF=7.5mA, VEH=3.0V
VEL =0.5V

*5 Common mode transient
immunity at logic (1) output

CMH

-

500

-

V/p.s

VCM = 1~V, RL =3500
Vo (MIN.)=2V, IF=OmA

*5 Common mode transient
immunity at logic (0) output

CML

-

-500

-

V/p.s

VCM=10V, RL=3500
Vo (MAX.)=0.8V
IF=5mA

* 1 *2 Refer to the Fig. 1
*3 *4 Refer to the Fig. 2
*5
Common mode transient immunity in logic (1) output is the maximum tolerable (positive) dVCM/dt on the leading edge
of the common mode pulse, VCM, to assure that the output will remain in a Logic (1) state.
Common mode transient immunity in logic (0) output is the maximum tolerable (negative) dVCM/dt on the trailing edge
of the common mode pulse signal, VCM, to assure that the output will remain in a Logic (0) state.
A-40

55

• Recommended operating conditions
Symbol

Min.

Max.

Unit

Input current, Low level each channel

IFL

0

250

p.A

Input current: High level each channel

IFH

6.3'

15

mA

High level enable voltage

VEH

2.0

Vee

V

Low level enable" voltage

VEL

0

0.8

V

Supply voltage

Vee

4.5

5.5

V

N

-

8

Parameter

Fan out (TIL load)

Operating temperature

70

0

Topr

-

°e

1. No external pull-up is required in the condition of high level of enable input.
2. Ceramic capacitor (0.01 -0.1 p.A) for bypass shall be connected between Vee and GND at the position of 1cm from terminals.
3. ·6.3mA condition permits at least 20% eTR degradation guardband. Initial switching threshold is 5mA or less.

• Block diagram of circuit, Truth table

r-- --------------

::@

Vee

1

ve (enable)

21

Anode
Cathode

3

I

-

-

I
L
___________________ J 5

A-41

56

Input

Enable

Output

H

H

L

L

H

H

H

L

H

L

L

H

GND

L: Logic (0)
H: Logic (1)

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) Short between pm 1 and 4 on the primary side and between pin Sand 8 on the secondary side.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.

• Inspection standard
Outgoing inspection standard for LlTON products are shown below ...... .
(1) A single sampling plan, normal inspection level" based on MIL-STO-10S0. is applied. The AQL according to the inspection items are shown below.

Defect

Inspection item

AQL(O/O)

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

0.25

Minor defect

• Appearance
• Dimension

0.4

Judgement criterion

Depend on the
specification

A·42

57

Fig. 1 Test circuit for tpLH and tpHL
+5V
Pulse

J.-'-----~ I

\:

generator

Zo

= 50n

'Input lin

tA = 5ns

--I

I-t----~'--o V out

47n

tPHL

r-

-175mA (IF=375mAl

--l tPLH r--

I

Output
,Vout

1

MOOitoring node

I

350mA (IF = 75mAl

I
I

I

Output
monltonng node

*ClIS approximately 15pF, which ntcludes probe and sttay'wlrlng capaCitance,

Fig. 2 Test circuit for tELH and tEHL
VE
Input mOnitOring node

Pulse

.Tti______

generator

Zo = 50n
tR = 5ns
L..._ _ _ _-'7.5mA

IF

---t IEHL t---

I-t----~:_-o Vout

I

Output

-=

approximately 15pF, which Includes probe and stray

I
I

r---VOH

_ _ _ _ 1.5V

'--------- -

_Output
man Itorlng node
IS

---l tELH r--

I

" Vout

fC L

~~~~~·:VV

-

--l(tlL

Wiring capacitance

Fig. 3 'Test circuit for transiet immunity and.,typical waveforms
t, = 160n,

,v CM lbv---

If = 55n,

10%

OV

9Ol!>

+5V
011lF
BYPASS

tr

If

RL
Va

A

Va

'.pULSE GEN
Zo ~

son

+

'=

58

IF = OmA

SWITCH AT B

IF = 5mA

, 'V o

VCM

~----~------~~JL.r---~-----,

A-43

-.........::::SWITCH AT A

~

ILlTE['] ~ II

High Sensitivity High Speed OPIC
Photocoupler
LTK6N138

• FEATURES
1. High current transfer ratio
(CTR: MIN, 500% at IF = 1.6 mAl
2. High speed response
(tpHL:TYP. 0.21's at RL = 270n)
3. Instantaneous common mode rejection lIoltage
(CM H: TYP. 500V/l's)
4. Directly interfaces to TTL
5. Overseas standard model
6. UL approved (No. E113898(s))

• APPLICATIONS
1.
2.
3.
4.

Interfaces for computer peripherals
Computers measuring instruments, control equipment
Telephone sets
Signal transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT: mm)
PIn No. and mternal
connection diagram

Vee

L T

K

6N 1 3 8

I

VB

Vo

8

6.5±0.5
(.256)

J
0.8 !O.2

NC

2

3

4

Anode

Cathode

NC

Factory Identification mark *2

(.3)

R--- -E

* 1 2·dlgll number marked accordmg to DIN standard.

*2 Factory Identification mark shall be or shall not be marked

A-44

59

,.;,

.

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Parameter

Symbol

Rating

Unit

*1 Forward current

IF

20

mA

*2 Peak forward current

IF

40

mA

IFM

1

A

VR

5

V

* 4 Input power dissipation

P

35

mW

*5 Average output current

10

60

mA

VEBO

0.5

V

Supply voltage

Vee

-0.5- + 7

V

Output voltage

Va

-0.5- + 7

V

Po

100

mW

Operating temperature

Topr

0- +70

°e

Storage temperature

Tstg

-55- + 125

°e

* 7 Isolation voltage

Visa

2500

Vrms

*8 Soldering temperature

Tsol

260

°e

Q)

"0

'(jj

OJ

c

.~

*3 Peak transient forward current

l.U

Reverse voltage

Emitter-base reverse withstand
voltage (5 - 7 Pin)

Q)

"0

'(jj

OJ

c

"i5Q)
Q5

0

*6 Output power dissipation

*1
*2
*3
*4
*5
*6
*7
*8

Decreases at the rate of 0 4mA/oe if the atmospheric temperature IS higher than 50°C
Duty cycle = 50%, pulse width = 1ms
Pulse width:51!Ls, 300pps
Decreases at the rate of 0.7mW/oe if the atmospheric temperature is higher than 50°C
Decreases at the rate of 0 7mA/oe if the atmospheric temperature IS higher than 25°C
Decreases at the rate of 2 OmW/oe If the atmospheric temperature IS higher than 25°C
Ae for 1 minute, 40-60% R.H.
For 10 seconds.

A-45

60

I.

'.

• Electro-optical characteristics

(Unless otherwise specified Ta=0-700C)

Conditions

Symbol

Min.

Typ.

Max.

Unit

CTR

300

1500

-

%

IF=1.6mA
VO=O.4V, VCC=4.5V

logic (0). output voltage

VOL

-

0.1

0.4

V

IF= 1.6mA
10 =4.BmA
VCC=4.5V

logic (1) output' current

10H

-

0.1

250

p.A

IF=OmA, VCC=VO=7V

logic (0) supply current

ICCl

-

0.2

-

mA

IF=1.6mA, VO=open
VCC=5V

logic (1) supply current

ICCH

-

10

-

nA

IF=OmA, Vo=open
VCC=5V

VF

-

1.5

1.7

V

Ta=25°C,IF=1.6mA

Input forward voltage
temperature coefficient

/:':"VF
-/:':"Ta

-

-1.9

Input reverse voltage

BVR

5.0

Input capacitance

CIN

*2 leak current (Input-Output)

Parameter

* 1 Current transfer ratio

Input forward current

IF=1.6mA

-

mV/oC

-

-

V

Ta=25°C,IR=10p.A

-

60

-

pF

VF=O, f=1MHz

11-0

-

-

1.0

p.A

Ta= 25°C, 45%R.H.
t=5s, VI_0=3kV dc

*2 Isolation resistance
(Input-Output)

RI-O

-

10'2

-

0

VI_0=500V dc

*2 Capacitance (Input-Output)

CI-O

-

0.6

-

pF

f=1MHz

Note: All typical value shall be at Ta=25°C, Vcc=5V
*1 Current transfer ratio is defined as the ratio of input current to output current expressed in %.
*2 Device considered a 2 terminal device: pins 1, 2, 3 and 4 shorted together, and pins 5, 6, 7 and 8 shorted together.
A-46

61

• Switching characteristics
Parameter

Symbol

Propagation delay time
Output (1)-+(0)

tpHL

Propagation delay time
Output (0)-+(1)

(Ta=25°C, VCC=5V)

Conditions

Min.

Typ.

Max.

Unit

IF = 1.BmA, RL = 2.2kO

-

2

10

p's

tpLH

IF = 1.BmA, RL = 2.2kO

-

7

35

p's

CMH

IF=OmA, VCM=10Vp-p
RL =2.2kO

-

500

-

V/p.s

CML

VCM= 10Vp-p
IF=1.BmA
RL =2.2kO

-

-500

-

V/p.s

* 1 Common mode transient

immunity at logic (1)
output
* 1 Common mode transient

immunity at logic (0)
output

* 1 Common mode transient immunity in logic (1) is defined as a common mode voltage fluctuation that can hold the outptJt
at level (1) (VO>2.0V).
Common mode transient immunity in logic (0) is defined as a common mode voltage fluctuation that can hold the output
at level (0) (VO<0.8V)

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) Short between pin 1 and 4 on the primary side and between pin 5 and 8 on the secondary side.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.

• Inspection Standard
Outgoing inspection standard for UTON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STD-105D is applied. The AQL according to
the inspection items are shown below.

Defect

Inspection item

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

Minor defect

A-47

62

• Appearance
• Dimension

AQL(%)

Judgement criterion

0.25
Depend on the
specification
0.4

-1 Test circuit for propagation delay time

Pulse
input.

5V

1---1_--0 V CC

Duty ratio
=1/10

1.5V

-2 Test circuit for CMH and CML
tro tf = 16nS

V CM

OV

10V - - -_...,..---_ 10%
90%

VCC = 5V

_'-;'';;';';'J

tr
CM H

Vo - - - - - - ....- - - - - - 5V
IF=O ~2V
rnA

A-48

63

ILITE(')~II

High Sensitivity, High .· Speed. QPIC

.PhQ.~ocoupler:
LTK6N139.····· ...

• FEATURES
1. High current transfer ratio
(CTR: MIN, 500% at IF = 1.6 mAl
2. High speed response
(tpHL:TVP. 0.2Jls at RL = 2700)
3. Instantaneous common mode rejection voltage
(CM H : TYP. 500V//lS)
4. Directly interfaces to TTL
5. Overseas standard model
6. UL approved (No. E113898(s))

• APPLICATIONS
1.
2.
3.
4.

Interfaces for computer peripherals
Computers, measuring instruments, control equipment
Telephone sets
Signal transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT: mm)
Pin No. and Internal
connection diagram

Vee
8

L T K
6 N 1 3 9

I

6.5±0.5
(.256)

~-.l.--rhlJ
J \ '0.8:':0.2

9.22:':0.5

F

NC

2

3

4

Anode

Cathode

NC

(.363) \-LOI No. ·1
Factory Identification mark ·2

(.3)

9

A-49
64

.. 1 2-dlglt number marked according to DIN standard.
*2 Factory Identification mark shall be or shall not be marked

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Parameter

Symbol

Rating

Unit

"1 Forward current

IF

20

mA

"2 Peak forward current

IF

40

mA

IFM

1

A

VR

5

V

"4 Input power dissipation

P

35

mW

"5 Average output current

10

60

mA

VEBO

0.5

V

Supply voltage

VCC

-0.5- +18

V

Output voltage

Vo

-0.5- +18

V

Po

100

mW

Operating temperature

Topr

0- +70

°c

Storage temperature

Tstg

-55- +125

°c

* 7 Isolation voltage

Viso

2500

Vrms

"8 Soldering temperature

Tsol

260

°c

Q)

u

iii
Cl

c:

E

"3 Peak transient forward current

E

UJ

Reverse voltage

Emitter-base reverse withstand
voltage (5 - 7 pin)

Q)

u

'iii
Cl

c:

U
Q)
Qi

0

"6 Output power dissipation

"1
*2
*3
*4
*5
*6
*7
*8

Decreases at the rate of OAmA/oC if the atmospheric temperature is higher than 50°C.
Duty cycle = 50%, pulse width = 1ms.
Pulse width:S 1J.ls, 300pps
Decreases at the rate of 0.7mW/oC if the atmospheric temperature is higher than 50°C
Decreases at the rate of 0.7mAloC if the atmospheric temperature is higher than 25°C
Decreases at the rate of 2.0mW/oC if the atmospheric temperature is higher than 25°C
AC for 1 minute, 40 - 60% R.H.
For 10 seconds.
A-50

65

• Electro-optical characteristics
Parameter

(Unless otherwise specified Ta = 0 - 70°C)

Symbol

Min.

Typ.

Max.

Unit

CTR (1)

IF=0.5mA
VO=O.4V, VCC=4.5V

400

1200

-

%

CTR (2)

IF=1.6mA
VO=O.4V, VCC=4.5V

500

1500

-

%

VOL (1)

10=6.4mA
IF = 1.6mA, VCC = 4.5V

-

0.1

0.4

V

VOL (2)

10= 15mA
IF=5mA, VCC=4.5V

-

0.1

0.4

V

VOL (3)

10 = 24mA
IF= 12mA, VCC=4.5V

-

0.2

0.4

V

*1 Cu rrent transfer ratio

logic (O)·output voltage

Condition

logic (1) output current

10H

IF=OmA
VCC=VO=1BV

-

0.05

100

p.A

logic (0) supply current

ICCl

IF=1.6mA
Vo=open, VCC=5V

-

0.2

-

mA

logic (1) supply current

ICCH

IF=OmA
Vo=open, VCC=5V

-

10

-

nA

Ta=25°C,IF=1.6mA

-

1.5

1.7

V

-1.9

-

mV/oC

"

Input forward voltage

VF

Input forward voltage
temperature coefficient

6VF
6Ta

IF=1.6mA

-

Input reverse voltage

BVR

Ta=25°C, IR=10p.A

5.0

-

-

V

Input capacitance

CIN

VF=O, f=1MHz

-

60

-

pF

*2 leak current (input-output)

11-0

Ta=25°C, 45%R.H.t=5s
VI_0=3kV, dc.

-

-

1.0

p.A

*2 Isolation resistance (input-output)

RI-O

V1-0 = 500V, dc.

-

1012

-

n

*2 Capacitance (input-output)

CI-O

f=1MHz

-

0.6

-

pF

Note: Typical value: Ta=25°C, VCC=5V
*1 Current transfer ratio is defined as the ratio of input current to output current expressed in %.
*2 Measured as a 2-pin element (Short 1, 2, 3, and 4, short 5, 6, 7 and B).
A-51

66

• Switching characteristics
Parameter
Propagation delay time
Output (1) ~ (0)

(Ta=25°C, VCC=5V)

Symbol

Condition

Typ.

Max.

IF=0.5mA, RL =4.7kO

-

5

25

IF = 12mA, RL = 2700

-

0.2

1

IF=0.5mA, RL =4.7kll

-

5

60

IF = 12mA, RL = 2700

-

1

7

-

500

-

V/fLS

-

-500

-

V/fLS

fLs

tpHL

Propagation delay time
Output (0) -? (1)

tpLH

*1 Common mode transient
immunity at logic (1)
output

CMH

IF=OmA, VCM=10V p_p
RL=22kO

CML

IF=1.6mA, VCM=10V p _p
RL =2.2kO

* 1 Common mode transient
immunity at logic (0)
output

Unit

Min.

fLS

,

*1 Common mode transient immunity in logic (1) is defined as a common mode voltage fluctuation that can hold the output
at level (1) (VO>2.0V)
common mode transient immunity in logic (0) is defined as a common mode voltage fluctuation that can hold the output
at level (0) (VO<0.8V)

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) Short between pin 1 and 4 on the primary side and between pin 5 and 8 on the secondary side.
(2) The isolation voltage tester with a zero -cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.

• Inspection standard
Outgoing inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal, inspection level II based on MIL-STD-105D is applied. The AQL according
to the inspection items are shown below.

AQL(%)

Defect

Inspection item

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

0.25

Minor defect

• Appearance
• Dimension

0.4

Judgement criterion

Depend on the
specification

A-52

67

-1 Test circuit for propagation delay time
Pulse
5V

input.
Duty ratio

= 1/10
IF

monitor

-2 Test circuit for CMH and CML

i

t r • tf = 16nS
Vee = 5V

10V--

ov

10%

A

tr
B

A-53

68

Fig. 1 Forward Current vs. Ambient Temperature

Fig. 2 Power Dissipation vs. Ambient Temperature

30

120
Po

100

~

!\

g
0

0

80

c..

l\\

c
0

60

iiiD.
c;;

Ul

iJ
Q;

50

7075

!\

40
35

;;:
0
c..

25

\\

c.:

20

100

25

Ambient temperature Ta (0C)

60
Vcc=5V
Ta=25'C

Ta 70'C_ ,.",

1")1

<-

....

g

~ I..-

40

~ ~ I--

C

L

~

:;

~V
'I; ,-

30

()

:5
a.
:5

1111

0.1~~~

0

10

III
0.01 ~1.-::-0-.,.J1.1::-2--L.L1~.4:-'---:-1'"".6--c1'"".8:C----;;2'"".0---;;'2.2

t)

I '< 25'C ttt--t-t-+H-tttl
f---+-+-++HOO--I¥-l,*O'C:.+tt-H-++tttti

10

r----

l.OmA
0.5rr:A

-.l I
2

III

!IIIIII

:::CIl
::J

ilII

!IIIII/

I - Ta~7t)'C

Jl1l)J

IJ

.

()

~

t)

~

50

.Q

a:

7075

Fig. 4 Output Current vs. Output Voltage

100~~~~!~~~a~~~~
~

1000 1--+-l-HH+lfI-~-lo,I-++~ ~

50

Ambient temperature Ta (0C)

Fig. 3 Forward Current vs. Forward Voltage

Forward voltage VF

~
.~

P

400

I III
I
IIII'

'/1

:5
D.
:5

~\

O'C

1/

0.01
2000.1

10
Forward current IF (mA)

25'C

0.1

0

100

o.oo~

~

0.01

0.1

Vce 5.0V
Vo O. 4V
10
100

Forward current IF (mA)

A-54

69

Fig. 8 Propagation Delay Time vs.

Fig. 7 Propagation Delay Time vs.
Ambient Temperature (1)
2

Q)

E

'"

--

l--

tl'Ll1

V

Ambient Temperature (2)
10

I F=12mA
R L =2700
I/f= lOOps

-- --

IF-0.5mA
RL =4.7kO
l/,f=lms

V

L

./'V

tl'Llf

Q)

E

5

f-'"""

""

V

tl'IIL

...........

~

tl'HL

10

20

30

40

50

60

0

o

70

10

Ambient temperature Ta (0C)

IO- b

VOL - 2V,

*.7

25"C

(j)

.5
~

.5-

40

50

60

70

Ambient Temperature

Adjust IF to
Ta

30

Fig. 10 Logic (1) Supply Current vs.

Fig. 9 Rise Time, Fall Time vs. Load Resistance
1000

20

Ambient temperature Ta (0C)

IF OmA
Vee 15V
Vo OPEN

/ ' '"

100

Q)

E

/'

'"

/'

J§
 Vo
IF monitor

• PRECAUTION FOR USE
A-55
70

The minute design makes the transistor on the bipolar structured detector vulnerable to static electricity.
To prevent damages and degradation in characteristics due to static electricity, take general measures against
static electricity.

ILlTE['J~1I

High Collector-emitter Voltage Type'
LTV702V

II FEATURES
1. High collector-emitter voltage (VCEO:70V)
2. High input-output isolation voltage
(Viso:5,OOOVrms)
3. Directly connectable to TTL
4. UL approved (No. E113898(S))

• APPLICATIONS
1. Telephone sets, telephone exchangers
2. System appliances, measuring instruments
3. Signal transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT: mm)
Termmal No. and
Internal connectIOn
Pin No. and Internal
connection diagram

LTV702V

Anode mark

LlTE(']~1

2

Lot No *1

1. Anode
2. Cathode
Rank mark

Factory Identification mark *2

3 NC

3

4. emitter
5. Collector
6. Base

7.62±0.3
(.3)

7.12:!:0.5
(.280)

1

3.5±0.5

=~:t...

1
0.5TYP.,-:;:1:f:

It

3.7±o.5

i
0.5:!:0.1
2.54 :!:0.25,I--_.-J-_ _-I4"4±0.25
(~)

(~)

Note ., 2~dlglt number shall be marked according to DIN standard
*2 Two version available, one with factory Identification mark and the other without

6=0-13°

A-56

71

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Symbol

Rating

Unit

IF

60

mA

IFM

1.5

A

VR

6

V

P

105

mW

Collector-emitter voltage

VCEO

70

V

Emitter-collector voltage

VECO

6

V

Collector current

IC

50

mA

Collector power dissipation

Pc

160

mW

Collector-base voltage

VCBO

70

V

Emitter-base voltage

VEBO

6

V

Total power dissipation

Ptot

200

mW

Operating temperature

Topr

-55-+100

°c

Storage temperature

Tstg

-55- +150

OC

*2 Isolation voltage

Viso

5

kVrms

*3 Soldering temperature

Tsol

260

°c

Parameter

Forward current

*1 Peak forward current
Input
Reverse Voltage

Power dissipation

Output

*1 Pulse width :5 10/Ls, Duty ratio: 0.0004
*2 AC for 1 minute, R.H.=40-60%
*3 For 10 seconds
A-57

72

• Electro-optical characteristics
Parmeter

S

D.

.5

S
D.
S

0

Symbol

Min.

Typ.

Max.

Unit

Conditions

Forward voltage

VF

-

1.4

1.7

V

IF=60mA

Reverse current

IR

-

-

10

pA

VR=6V

Terminal capacitance

Ct

-

30

250

pF

V=O, f=1kHz

Collector dark current

ICEO

-

-

50

nA

VCE=10V, IF=O

Collector-emmitter
breakdown voltage

BVCEO

70

-

-

V

Ic=0.1mA, IF=O

Emitter collector
breakdown voltage

BVECO

6

-

-

V

IE=10pA, IF=O

Collector-base
breakdown voltage

BVCBO

70

-

-

V

Ic=0.1mA, IF=O

Collector current

IC

4

-

32

mA

Collector-emitter
saturation voltage

VCE (sat)

-

0.25

0.4

V

IF=10mA, IC=2.5mA

RISO

5x101O

1x1011

-

0

DC500V, 40 - 60%R.H

pF

V=O, f=1MHz

.
IF=10mA, VCE=5V

rJJ

u

:m
~

Isolation resistance

1:5
~

til

.r::.
u
.....

.gj

Floating capacitance

Cf

-

0.6

1.0

Cui-off frequency

fc

-

150

-

Response time (Rise)

tr

-

2

7

p's

Response time (Fall)

tf

-

2

8

p's

c:

~

'CTR

=~x
IF

100%

KHz

VCC=5V, IF=10mA
RL =750, -3dB

VCC=5V, IF=10mA
RL =750

A-58

73

• SUPPLEMENT
• Isolation voltage shall be measured in the following method
(1) Anode and cathode on input side, collector and emitter on output side shall be shortened individually.
(2) Isolation voltage tester with a zero-cross circuit shall be used.
(3) Waveform of applied voltage shall be a sine wave.
(It is reCQ;nmended that the isolation voltage shall be measured in insulation oil.)

• Collector current IC is classified as follows.
Model No_

Rank mark

Ie (rnA)

LTV702V A

A

4.0-8.0

LTV702V B

B

6.3-12.5

LTV702V C

C

10-20

LTV702V D

D

16-32

A or B or C or D

4.0-32

LTV702V

IF=10mA
Conditions

VCE=5V
Ta=25°C

• Inspection standard
Outgoing inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STD-105D is applied. The AQL according to the inspection items are shown below.

Defect

Inspection item

AQL(O/O)

Major defect

• Electrical characteristics
• Unreadable marking
• Open,short

0.25

• Appearance
• Dimension

Minor defect

Fig. 1 Forward Current vs. Ambient Temperature

Judgement criterion

Depend on the
specification

0.4

Fig. 2 Collector Power Dissipation vs.
Ambient Temperature

«

.s
,g.

80

200

60

150

160

\

C'
~

:s

40

(.)

12
ro
~

0

u...
A-59

74

20

o

-55 -25

0

25

50

1\
75

100 125

Ambient temperature Ta (0C)

\

100

1\
\

50

o

-55 -25

0

25

50

1\
75

100 125

Ambient temperature Ta (OC)

Fig. 4 Forward Current vs. Forward Voltage

Fig. 3 Peak Forward Current vs. Duty Ratio

500

«
.s

Pu lse width~10Jis
Ta =25'C

2000

:2 1000

.!!C

:;

200

0

"E
t1l

100

2:

.E

«

-

500

~

200

.s

50

:;

20

r-----

25'C==
~I

0

~
2:
0

50

.",

r,'{Z:. ;-25'C
-O'C

50'C~

100

.!!C
~

.........

I",

_Ta-75'C

t1l

10
5

L.L

(J)

a.

20

10

3

2

5

2

10°

Duty ratio

10

0.5

1.0

1.5

2.0

2.5

3.0

Forward voltage VF (V)

Fig. 5 Current Transfer Ratio vs. Forward Current

Fig. 6 Collector Current vs.
Collector-emitter Voltage

~
~

a:
Iu

200

45

VCE=5V
180 Ta=25'C
160

40
~

140

0

~

100

"*~c:
c

~
:::>
u

/

80

,

.2

C

25

:;

0

1500kQ

(;
t3
.!!!

100kQ

0

u

/

/

20
15
10

5

10

//
1/
II

Q;
c:

100

-

.......

~

~
~
ta

~

8

10

~

............

.........

0.12

N

0.10
0.08
0.06

50

(J)

0.04

>
~

Qi

IF=10mA
Ic=2.5mA

0.14

u
>Q)

g

............

0.16

C
:::>
0

6

Fig. 8. Collector-emitter Saturation Voltage vs.

IF-lOrnA
VCE=5V

0;

"
4

Ambient Temperature

150

~

..... "':;......

5mA

2

Ambient Temperature

0

....

Collector·emltter voltage VCE (V)

Fig. 7 Relative Current Transfer Ratio vs.

e:.

'

2mA

Forward current IF (mA)

'0"

,

\

lOrnA

'/"

50

20

ITa=25'C

,

/V 20mA ~,
'-, Pc(MAX.)
~
.........
...,

5

j
2

IF=30mA/

35
30

~

/

/
60
/
/
40
20

/

RBE=OOL'

~~

/

/

120

«
.s

),

---

/

/'"

/"

V

/'

V

0.02

a:

o

-55

-25

o

25

50

75

Ambient temperature Ta (0G)

100

o

-55

25

o

25

50

75

·Amblent temperature Ta (0G)

100

A·60

75

Fig. 9 Collector Dark Current vs.

Fig. 10 Collector·emitter Saturation Voltage vs.

Ambient Temperature
10- 6
~

@

9

c

6

10V

10- 7

10- 9

~

10-10

2mA

f-- I- 3mA

4

I- 5mA

/

3

-0

.§

Ic- 0.5mA IT -25"C
1mA
a

5

10- 8

~

~

VCE

Forward Current

2

10-;-1 1

CD

;3

10- 12
10- 13
-30

'-

o

20

40

60

80

100

Fig. 12. Frequency Response

Fig. 11 Response Timevs. Load Resistance

"ii)

5
~:, t--f/tf

CD
CD

0

~

:g,
>
<{
c
OJ

Cl
CD
Cl

2

0
D-

19
>

en

(5

CD

a:

IF = lOrnA
Vcc=5V
Ta:=25"C
-,

-'

~

1D

E
.;=;
en
c

2

IF lOrnA
Vcc 5V
Ta=25"C

-5

-2

. ' 1\

-4

l\

1\

Ri.--;--200Q 150Q\ 75Q

-6

\1\\

-8
0.5
0.02

0.05

0.1

0.2

Load resistance RL (kO)

Test Circuit for Response Time
Vcc
Input

RD

A-51

75

Input
Output

12.5

Forward current IF (mA)

Ambient temperature Ta (0C)

10

10.0

7.5

5.0

2.5

0.5

-10
0.5

2

5 10 20

50 100 200 500

Frequency f (kHz)

Test Circuit for Frequency Response

Output

ILlTE['J~11

High Collector-emitter Voltage
Type Photoconpler
LTV703V

• FEATURES
1. High collector-emitter voltage (VCEO: 70V)
2. High input-output isolation voltage
(V ISO : 5,000 Vrms)
3. Directly connectable to TTL
4. UL approved (No. E113898 (s»

• APPLICATIONS
1. Telephone sets, telephone exchanges
2. System appliances, measuring instruments
3. Signal'transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT:

mm)

Pin No. and Internal
connection diagram

LTV703V
Anode mark

LlTE('J~1

2

Lot No *1

Rank mark
Factory Identification mark .. 2

1 Anode
2 Cathode
3. NC

3
4 Emitter
5. Collector
6. Base

(.3)

O.5±O.1

2054±O.251---_..J----f'-~±0.25
~l
~l
*1 2-dlglt number marked accordmg to DIN standard
*2 Factory Identification mark shall be or shall not be marked

e
e=0-13'

A-62

77

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Symbol

Rating

Unit

IF

50

mA

IFM

1

'A

VR

6

V

P

70

mW

Collector-emitter voltage

VCEO

70

V

Emitter-collector voltage

VECO

6

V

Collector current

IC

50

mA

Collector power dissipation

Pc

160

mW

Collector-base voltage

VCBO

70

V

Emitter-base voltage

VEBO

6

V

Total power dissipallon

Ptot

200

mW

Operating temperature

Topr

-30- + 100

°c

Storage temperature

Tstg

-55- +125

°c

* 2 Isolation voltage

VISO

5

kVrms

*3 Soldering temperature

Tsol

260

°c

Parameter
Forward current

* 1 Peak forward current
Input
Reverse voltage

Power dissipation

Output

* 1 Pulse width::51 OOI-lS, Duty ratio: 0.001
*2 AC for 1 minute, 40-60% R_H.
*3 For 10 seconds

A-63

78

• Electro-optical characteristics
Conditions

Symbol

Min.

Typ.

Max.

Unit

VF

-

1.2

1.4

V

IF=20mA

VFM

-

-

3.0

V

IFM=0.5A

Reverse current

IR

-

-

10

p.A

VR=4V

Terminal capacitance

Ct

-

30

250

pF

V=O, f=1kHz

Collector dark current

ICEO

-

-

100

nA

VCE=20V,IF=0

Parameter

Forward voltage

Peak forward voltage

S

D..

E

S
D..
S

0

Collector·emitter
breakdown voltage

BVCEO

70

-

-

V

Ic=0.1mA,IF=0

Emitter·collector
breakdown voltage

BVECO

6

-

-

V

IE=10p.A,IF=0

Collector·base
breakdown voltage

BVCBO

70

-

-

V

Ic=0.1mA, IF=O

Collector current

IC

4

-

32

mA

IF= 10mA, VCE=5V

Collector·emitter
saturation voltage

VCE (sat)

-

0.1

0.2

V

IF=20mA, VC=1mA

RISO

5x 1010

1011

-

D

DC500V, 40-60% RH

Floating capacitance

Cf

-

0.6

1.0

pF

V=0,f=1 MHz

Cut·off frequency

fc

-

80

-

kHz

VCE=5V, Ic=2mA, -3dB
RL=100D

Response time (Rise)

tr

-

4

15

.

en

()

~

Isolation resistance

~
~

ctl

.r:
()

.~

'*
c

ctl

~

p's

VCE = 2V, IC = 2mA,
RL = 100D
Response time (Fall)

'CTR

=.!£..x
IF

100%

tf

-

3

15

p's

A-64

79

• SUPPLEMENT
• Isolation voltage shall be measured in the following method.
(1) Short between anode and cathode on the, primary side and between collector and emitter on the secondary side.
'
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.
(It is' recommended that the isolation voltage shall be measured in insulation oil.)

• Rank table of collector current Ic
Model No.

Rank mark

Ie (rnA)

LTV703VA

A

4.0-8,0

LTV703VB

B

6.3-12.5

LTV703VC

C

10-20

l TV703VD

D

16-32

LTV703V

A or B or Cor D

4.0-32

IF=10mA
Conditions

VCE=5V
Ta=25°C

• Inspection standard
Outgoing inspection standard for lITON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STD-10SD is applied. The AQL According
to the inspection items are shown below.

A-65

80

Defect

Inspection item

AQL(%)

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

0,25

Minor defect

• Appearance• Dimension

0.4

Judgement criterion

Depend on the
specification

\
Fig. 2 Collector Power Dissipation vs.

Fig. 1 Forward Current vs. Ambient Temperature
60

I

50

~

5.!!C

40

:;

30

~

u

200

tP

160

o

I"'--

c.

gj 100

1\

:

150

~

1\

I'\.

20

0
LL

~c.

50

i

.Q 30

(5

10

o

o

20

40

l'..

r--..

80

60

40

20

100

Ambient temperature Ta (0C)

,

-30

.........

"""

()

o

"- i'..

is

!\

"E

'"1:

!
c:

\

Ambient Temperature

60

80

100

Ambient temperature Ta (Oe)

Fig. 4 Forward Current vs. Forward Voltage

Fig. 3 Peak Forward Current vs. Duty Ratio
Puis e width ;;;; 1ool1s
Ta=25"C

2000

~

"

5-

1000

:2
.!!C

500

:;

200

~

r-....

1:

.!!-

100

c~

50

~Ta

I

75T---.

';7i ~25'C

50'C--, '/~'r ---Io'C
25-C=

'il,

u

I

50

.9

200

:;

I"'--.

100

(ij

~

5-

'I

U

-0

500

III1J

"E

20

'"1:o

0

IIIIIJ

LL

'"'"
(I)

20

0..

10

5

,

i

10- ~ 2

5

10

2

2

10- 1 2

2

10°

I
Duty ratio

Fig. 5 Current Transfer Ratio vs. Forward Current

o

0.5

1 0 1.5 2.0
Forward voltage VF

2.5

30

M

Fig. 6 Collector Current vs. Collector-emitter
Voltage

200

~

a:

I-

()

0

~
:;;
'li;

C

60

1/

/

100

/

/

:;
u

20

(;

t5

~

(5
()

f7

10

/ .....V
II
II

,,

RSE=oo
Ta=25"C

,,

1,

PdMAX.)

... ...

...

...... ...

lOrnA

'/

5mA
2mA

I
2

30

c

~

\

/V 2OmA

S)

I'

~

V

o1

5-

V

11/
40
20

~

~

1%0k~ ~~

1/

120
80

:;

-

- 1,/ ,

I F -30mA

"

~Q

140

c:

()

RBE=oo

160

~
~

II II

VcE =5V
Ta=25"C

180

40

5

10

Forward current IF (mA)

20

50

o
o

I

2

4

6

10

8

eolle;tor-emllter voltage VeE

M

A-66
81

Fig. 8 Collector-emmitter Saturation Voltage vs.

Fig. 7 Relative Current Transfer Ratio vs

Ambient Temperature

Ambient Temperature

~

150
~
g...
0
.~
~

'~*

0.14

~

IF = 10mA
V cE =5V
RBE=oo

h=20mA
0.12 Ic=lmA
RBE=oo

UJ

~
Q)

100

E

.............

c

~

............

j...-- ~

~

::J

u

!........

0.08

I"'-...

'E

t..,...-

0.10

0.06

50

Q)

~

V

V

l.--- ~

~

>

ia

0.04

(jj

a:

o

o

-30

50

25

75

0.02
-30

100

Ambient temperature Ta (0C)

o

20

40

60

80

100

Ambient temperature Ta (0C)

Fig. 10 Response Time vs. Load Resistance

Fig. 9 Collector Dark Current vs.
Ambient Temperature
10- 6
5

:s:

10- 7
5

, 100
VeE 20V
RBE 00

en

.5)

10-:

'E

10- 9

"'"

5

c

0

UJ

~
::J
U

-"

(;j

"0

.9
U

.!!l

0
0

.5
Q)

E
Q)

II)

0

Q.

/

10- 10

VCE 2V
Ic 2mA
20 RBE=oo
Ta=25"C
10

50

/

I

1/

5 t,
2

II)

td

tf

Q)

5

a:

10- 11

0.5

1O-1~

0.2
0.1
O.oI

5

10- 13
-30

o

20

40

60

80

100

t,

""
10

0.1
Load resistance RL(kD)

Ambient temperature Ta (0C)

Fig. 12 Collector-emitter Saturation Voltage vs.

Fig. 11 Frequency Response

Forward Current
6

iD

0

:g.
>



-8
-10

1,\
100Q

82

~ ioh l

1

5

10

20

~~

50 100 200

UJ

5

Q)

E

4

c

3

r--

o

RBE 00
Ta 25"C

5mA

~.

1ii
en

500 1000

Ic 0.5mA
ImA
2mA
3mA

~

ia
:;

111
Frequency f (KHz)

A-67

V cE =5V
Ic=2mA
RBE=oo
Ta=25"C

2

.~

E
Q)

~

8

o
o

2.5

5

7.5

10

Forward current IF (mA)

12.5

15

Test Circuit for Response Time

Test Circuit for Frequency Response

Vee

Input Ro

Vee
Input
Output

Output

A-58

83

High Isolation Voltage Type,
General Purpose Photo coupler
LTV713V

I:LlTE(I) ~ II
I

:/

• FEATURES
1. Directly connectable to TTL
2. Current transfer ratio
CTR: MIN. 50% at IF = 5mA, VCE = 5V
3. Low collector dark current
(lCEO: MAX. 10·'A at VCE = 20V)
4. High input-output isolation voltage
(V ,SO : 5,OOOVrms)
5. UL approved (No. E113898 (s»

• APPLICATIONS
1.
2.
3.
4.
5.

System appliances, measuring instruments
Registers, copiers, automatic vending machines
Electric home appliances such as fan heaters
Medial instruments, physical and chemical equipment
Signal transmission between circuits of different
potentials and impedances

• OUTLINE DIMENSIONS (UNIT: mm)
Pin No. and Internal
connection diagram

LTV713V

Anode mark

LlTE('] ~ I

I
6.5±0.5

t--+----'l--~~ ~)
Lot No. *1

2
1. Anode
2. Cathode
3. NC

Factory Identification mark ·2

7.62 ±O.3
(.3)

O.5±O.1
2.54±o.251----_-!----¥':54±O.25
l.l)

A-59

84

l·l)

*1 2·dlglt number marked according to DIN standard
*2 Factory Identification mark shall be or shall not be marked.

e~

3

4 Emitter
5. Collector
6. Base

0-13'

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Symbol

Rating

Unit

IF

50

mA

IFM

1

A

VR

6

V

P

70

mW

Collector-emitter voltage

VCEO

35

V

Emitter-collector voltage

VECO

6

V

Collector current

IC

50

mA

Collector power dissipation

Pc

150

mW

Collector-base voltage

VCBO

35

V

Emitter-base voltage

VEBO

6

V

Total power diSSipation

Ptot

170

mW

Operating temperature

Topr

-25- +100

°c

Storage temperature

Tstg

-40- + 125

°c

Viso

5

kVrms

260

°c

Parameter
Forward current

* 1 Peak forward current
Input
Reverse voltage

Power dissipation

Output

"

,

"

;

* 2 Isolation voltage

*3 Soldering temperature

, Tsol

'1 Pulse wldth:s 1001's. Duty ratio: 0,001
*2 AC for 1 minute. 40-60%
*3 .For ,10 secondsR.H.

A-70

85

• Electro-optical characteristics
Conditions

Symbol

Min.

Typ.

Max.

Unit

VF

-

1.2

1.4

V

IF=20mA

VFM

-

-

3.0

V

IFM=0.5A

Reverse current

IR

-

-

10

/LA

VR=4V

Terminal capacitance

Ct

-

30

250

pF

V=O, f=1kHz

Collector dark current

ICEO

-

-

100

nA

VCE=20V, IF=O

Collector-emitter
breakdown voltage

BVCEO

35

-

-

V

IC=0.1mA, IF=O

Emitter-collector
breakdown voltage

BVECO

6

-

-

V

IE= 10JLA, IF=O

Collector-base
breakdown voltage

BVCBO

35

-

-

V

Ic=0.1mA, IF=O

CTR

50

100

600

%

IF=5mA, VCE=5V, RBE=oo

Collector current

IC

2.5

-

30

mA

IF=5mA,VCE=5V

Collector-emitter
saturation voltage

VCE (sat)

-

0.1

0.2

V

IF=20mA, Ic=1mA

RISO

5x 10 10

1011

-

0

DC500V,40-60%R.H.

Floating capacitance

Cf

-

0.6

1.0

pF

V=O, f=1 MHz

Cut-off frequency

fc

-

80

-

kHz

VCE=5V,IC=2mA, -3dB
RL = 1000 RBE =00

Response time (Rise)

tr

-

4

18

Parameter
Forward voltage

Peak forward voltage

"5

a.
E

"5
a.
"5

0

Current transfer ratio

.
en

()
.~

I
co

.c
()

Isolation resistance

~

1llc
['!

,

I-

Response time (Fall)
A-71

86

'CTR =£x 100%
IF

tf

-

..

/Ls

VCE=2V, IC=2mA,
RL = 1000 RBE =00
3

18

/Ls

• SUPPLEMENT
• Isolation voltage shall be measured in the following method
(1) Short between anode and cathode on the primary side and between collector and emitter on the
secondary side.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be sine wave.
(It is recommended that the isolation voltage shall be measured in insulation oiL)

• Rank Table of Collector current Ic
Model No.

Rank mark

Ie (mA)

LTV713VA

A

4.0-8.0

LTV713VB

B

6.5-13

LTV713VC

C

10-20

LTV713V

A or B or C or No mark

2.5-30

IF=5mA
Conditions

VCE=5V
Ta=25°C

• Inspection standard
Outgoing inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal insection level II based on MIL-STD-105D is applied. The AQL according to
the inspection items are shown below.

Defect

Inspection item

AQL (0/0)

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

0.25

• Appearance
• Dimension

0.4

Minor defect

Judgement

crit~rion

Depend on the
specification

A-72

87

Fig. 1 Forward Current

VS.

Fig. 2 Collector Power Dissipation

Ambient Temperature

VS.

Ambient Temperature
60

200

~

50

.s

'\

40

()

0..

c

\

~

~

C.

'\

30

150

0

'in

rn

i5

\

20

100

~

"'""

(j;

3
0
c.

5

U

10

50

.!!1
(5
()

0
-25

o

25

50

75

100

~25

125

o

VS.

Fig. 4 Forward Current

Duty Ratio

1000

200

-

«
.s

500

......

.....

50

::;

20

"

10

20

lL

5

~0

5

10- 2 2

5

Forward Voltage

'Y.~~

'"

25'C=

!t.

50

5 10-32

100

2~IC50'C --, /';j.. ---O'C

100

.!!C

~

10

VS.

Ta-r)'C

200

!l!

I'-.....

100

75

500

Pulse width;;;: lOOl1s
Ta=25'C

2000

50

Ambient temperature Ta (0C)

Ambient temperature Ta (0C)

Fig. 3 Peak Forward Current

25

1/1//
111111

2

10- 1 2

1

Duty ratio

o

0.5

1.0

1.5

2.0

2.5

3.0

Forward voltage VF (V)

Fig. 5 Current Transfer Ratio

VS.

Forward Current

Fig. 6 Collector Current

VS.

Collector-emitter

Voltage
30

200

£'
g..

180

a:
f-

160

0

140

()

~

V cE =5V
Ta=25'C

«

.s

.Y

120

1ii
c

100

!o

80

co

/

!l!

60

/'

()

40

/'

C

::;

88

I---" ~~J

V

I-'"

15
10

U
Q)

'3

V

o1

100kQ

IJ

1I
2

5

10

20

Forward current IF (mA)

50

J

20

"5

::;

--~

25

!l!

()

20
A-73

c

. RBE=oo

(j;

IF=30~ I---~.,

5

.' 0

j

~

VI

RBE=oo
Ta=25'C

,

",PC

«

I"""

c

rtl

'(ij
OJ

I\R L =10kQ

-10

1\

OJ

.!!!

2
1
0.5

1/;;

1\
\

I\.

0

>
I

1\

-20

I

lkQ\~oJQL

\.

: 1""-25·C
'I'
O·C=
25·C~

I

20
10

50

5

20

10

500

10

5

,3

10 22

5

2

10- 1 2

5

5 10"

2
1

o

Duty ratio

0.5

1.0

1.5

2.0

2.5

Forward voltage VF

Fig. 5 Current Transfer Ratio vs. Forward Current

3.0

M

Fig. 6 Collector Current vs. Collector-emitter
Voltage

140
~

120

a:
[)

100

~

VCE-5V
T a =25·C

50 j
I--I F 30mA
40

Ta=25·C

J,
\

1//

1/

80

I.

30

1/

VI

/

60

1/

20

l TJ

40
]..;

20

0.1 0.2

,,

v '1IlmA "
5~A

10

V

oV

\

20mA\ PdMAX.)

2

0.5

5

10

20

50 100

...

,

l~A

o0 1 2 3 4 5 6 7 8 9 1 0

Forward current IF (mA)
Collector·emltter voltage VCE (V)

Fig. 7 Relative Current Transfer Ratio vs.

Fig. 8 Collector-emmitter Saturation Voltage vs.
Ambient Temperature

Ambient Temperature

0.1

150

IF=20mA
0.09 Ic=lmA

h=lmA
VCE=5V

-...........

0.08

1'-.

vV

0.07

..........

100

"

1'-.

0.06
.........

0.05

""'"

50

VV

vI.-I.--

0.04
0.03

0.0 2
0.0 1

o
-30

o

25

50

75

100

Ambient temperature Ta (0C)

0
-30

o

20 40 60 80 100

Ambient temperature Ta (0C)

A-80

95

Fig. 10 Response Time vs. Load Resistance

Fig. 9 Collector Dark Current vs.
Ambient Temperature

100

10-6
VCE 20V

g

SO

o

UJ

.9

'Cii'

20

(])

10

..:!.

E

VeE 2V
Ic 2mA
Ta=2S"C

t,
1/

).td

5

""
(])
(J)

c

a

2

a.
(J)

v

t,

(])

1

a:

O.S

o

0.2
0.1

ZO 40 60 80 100

0.1 0.2 O.S 1

5 10

2

Load resistance RL(k{})

.\. Ambient temperature Ta (0C)

Fig. 11 Frequency Response

Fig. 12 Collector-emitter Saturation Voltage vs.
Forward Current
VCE-5V
Ic=2mA
T,,=2S"C

0

ill
:g.

""""

'-5

«>
c

iii

Ol

-10

i>

'"

\

5

10

20

~

l
0

III J

Ta=2S"C

~~'{

4
)OQ

50 100 200

3
2

~ \\

-20
2

6

II

-15

0.5

7

S ..:i

R =1 kQ

(])

!

,\

\..

o
o

1

500

234

5

678

Forward current IF (mA)

Frequency f (KHz)

Test Circuit for Frequency Response

Test Circuit for Response Time

Vee

Vee
Input

Input

A-81

96

Ro

Output

Ro
Output

9

10

flHgh Density IVifQJ)IDlntiB1lg Type
Photocoupier
LTV817 ILTV827 ILTV847
II FEATURES
1. Cu rrent transfer ratio
CTR: MIN. 50% at IF=5mA, VcE =5V
2. High input-output isolation voltage
(Visa: 5,000 Vrms)
3. Compact dual-in-line package
LTV817: 1-channel type, LTV827: 2-channel type
LTV847: 4-channel type
4. UL. approved (No. E 113898(s))

• APPLICATIONS
1.
2.
3.
4.
5.
6.

Computer terminals
System appliances, measuring instruments
Registers, copiers, automatic vending machines
Electric home appliances such as fan heaters, etc.
Medical instruments, physical and chemical equipments.
Signal transmission between circuits of different potentials
and impedances

• OUTLINE DIMENSIONS (UNIT: mm)

Rank mark

Factory Identification mBrk *2
Pm No. and mternal

1nn4
connection diagram

2~3
1. Anode

6.5±O.5

2 Cathode
3 Emitter
4 Collector

(.256)

7.62±O.3
(.3)

e =0

- 13 0

O.26±O.1

* 1 2.dlglt number marked according to DIN standard

*2 Two versions available, one with factory Identification mark and the other without

A-82

97

Pin No and Internal
connection chagram

1 3 Anode
2 4 Cathode

7.62tO.3

5 7 Emllter
6 B Collector

966±0.5
(.380)

(.3) -

9=0-13"

Note '1 Anode mark
Pm No and Internal

"

connection diagram

2
3

14

4

13

5

12

6

11

7

10

B

'-----

9

1 3 5 7Anode

2 4 6 8 Cathode
911 1315 Emitter
10 12 14 16 Collector

1982±0.5

~780)

,

,
_

_

_

~~~
t-fi
Ilo.5±0.,

A-83

e =0-13°

98
Nole '1 Anode mark

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Symbol

~ating

Unit

Forward current

IF

50

mA

*1 Peak forward current

IFM

1

A

VR

6

V

P

70

mW

Collector-emitter voltage

VCEO

35

V

'Emitter-collector voltage

VECO

6

V

Collector current

IC

50

mA

Collector power dissipation

Pc

150

mW

Total power dissipation

Ptot

200

mW

Operating temperature

Topr

-30 -

Storage temperature

Tstg

-55- +125

°c

* 2 Isolation voltage

Vi so

5

kVrms

*3 Soldering temperature

Tsol

260

°c

Parameter

Input
Reverse voltage

Power dissipation

Output

+100

°c

*1 Pulse width:;;100,.s, Duty ratio: 0.001
*2 AC for 1 minute, 40-60% R.H.
*3 For 10 seconds

A-84

99

• Electro-optical characteristics

(Ta=25°C)

Symbol

Min.

Typ.

Max.

Unit

VF

-

1.2

1.4

V

IF=20mA

VFM

-

-

3.0

V

IFM=0.5A

Reverse current

IR

-

-

10

p.A

VR=4V

Terminal capacitance

Ct

-

30

250

pF

V=O, f=1kHz

Collector dark current

ICEO

-

-

100

nA

VCE = 20V, IF = 0, RBE = 00

Collector-emitter
breakdown voltage

BVCEO

35

-

-

V

IC=0.1mA, IF=O

Emitter-collector
breakdown voltage

BVECO

6

-

-

V

IE=10p.A,IF=0

Collector current

IC

2.5

-

30

mA

Collector-emitter
saturation voltage

VCE (sat)

-

0.1

0.2

V

IF=20mA, IC=1mA

RISO

5 x 10' •

10"

-

0

500V DC, 40-60%R.H.

Floating capacitance

Cf

-

0.6

1.0

pF

V=O, f=1 MHz

Cut-off frequency

fc

-

80

-

kHz

VCE =5V, Ic=2mA
RL = 1000, -3dB

Response time (Rise)

tr

-

4

Parameter

Forward voltage

Peak forward voltage

Conditions

S

Q.

E

S
Q.
S

0

.
en
0
"-t5

Isolation resistance

.~

IF=5mA, VCE=5V

t5
~

Cll

.c
0

~

JQ

en
c

~
I-

18

p's

VCE = 2V, IC = 2mA,
RL = 1000
Response time (Fall)
A-85

100

'CTR

=£x
IF

100%

tf

-

3

18

p's

1m SUPPLEMENT
o Isolation voltage shall be measured in the following method.
(1) Anode and cathode on input side, collector and emitter on output side shall be shortened individually.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.
(It is recommended that the isolation voltage shall be measured in insulation oil.)

o

Rank table of collector current Ie (for LTV 817 only)
Model No.

Rank mark

Ie (mA)

LTV817A

A

4.0-B.O

LTV817B

B

6.5-13

LTVB17C

C

10-20

LTV817D

0

15-30

A, B, C, D or No mark

2.5-30

LTV817

IF=5mA
Conditions

VCE=5V
Ta=25°C

• Inspection standard
Outgoing inspection standard for L1TON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STO-1050 is applied. The AQL according to
the inspection items are shown below.

Defect

Inspection item

AQL (OAI)

Major defect

• Electrical characteristics
• Unreadable marking
• Open, short

0.25

Minor defect

• Appearance
o Dimension

0.4

Judgement criterion

Depend on the
specification

A-86
101

Fig. 2 Collector Power Dissipation vs.

Fig. 1 Forward Current vs. Ambient Temperature

Ambient Temperature
60

«

.s

.!!C

~

50

(,)
CL

\

40

c
0

\

U)

-0

\

()

2:

I~ ~

c-

Ui

1\

:; 30


Q)

0.12

V

OJ

100

.l!!

...............

"'"

jg

C

~

::>
0

~

t--....

o>

0.10

§

0.08

~

0.06

jjj

~

50

V
../'
../'

V

(J)

Q)

0.04

>

"5j
Qj

0.02

a:

o
-25

o

o

25

50

-25

100

75

o

25

75

50

100

Ambient temperature Ta (0C)

Ambient temperature Ta (0C)

Fig. 10 Response Time vs. Load Resistance

Fig. 9 Collector Dark Current vs.
Ambient Temperature

500

10-5

20'

5 VCE

g

ow 10-;

9

7
"iii

10-7

.5

5

...E

Q)

10-8

(J)

c
0

c.
en

10-9

Q)

/

5
5

Q)

/

5

10- 10

a:

/

10-11
-25

VCE 2V
IL=2mA
100 T a -25"C
50
Z~

0

25

50

75

V

20

rtf

10
5
2
1
0.5

V
1/

0.2
0.1

100

0.1 0.2 0.5 1 2

Ambient temperature Ta (0C)

5 10

Load resistance RL (kO)

Fig. 12 Collector-emitter Saturation Voltage vs.

Fig. 11 Frequency Response

Forward Current

m

0

f'...

"

~

«>

c
iii

OJ
Q)

VCF.=2V
Ic=2mA
Ta=25"C

10

.l!!

\.

0

\

1kQ

100Q

3

,

2

1\

I\,

I\,

\

1

2

5

10

20

'"

~

ll>

Ta=25"C

\

\

20
0.5

~~

4

\.

>

iJ ]
~I

I\'RL-10kQ

OJ

5

50

Frequency f (KHz)

100 200

'-\. ~
500

5

10

15

A-SS

103
Forward current IF (rnA)

Test Circuit for Response Time

Test Circuit for Frequency Response

Vee
RL
nput

A-8S

104

Rn

Input
Output Output

Vee
RL

Rn

Output

High Den§iity Mounting Type
Photoconpler
LTK829 ILTK849

IlITE(']~11
III FEATURES

1. Symmetrical terminal configuration
LTK829: 2-channel type
LTK849: 4-channel type
2. High current transfer ratio
(CTR: MIN. 50% at IF =5mA, VcE =5V)
3. High input-output isolation voltage
(VISa: 5,000 Vrms)
4. UL approved (No. E113898(s»

a

APPLICATIONS

1.
2.
3.
4.

Telephone exchanges
Computer terminal
System appliances, measuring instruments
Signal transmission between circuits of different
potentials and impedances

rill OUTLINE DIMENSIOI\IS (UNIT: mm)

.,

Pm No and internal
connection diagram

-UL

-dI

1.2±03

ur-

J,,--:I

8

2

7

3

6

4

5

!

1''1"'+

1!'==-I--6-.5-±-0.-5-~
(.256)

7.62±0.3
(.3)

e=

1 3 Anode
2 4 Cathode

I'

5 7 Emitter
6 8 Collector

9.66+0.5
(.380)

'j

0 -13"

A-90
Note "'1 Anode mark

105

Pin No and mternal

'1

connection diagram

6.5±0.5
(.256)

145BAnode
2 3 6 7 Cathode

1316 Emitter

912 1415 Collector
101}

19.82±0·5
(.780)

9=0 -13 0
Note • 1 Anode mark

A-91

106

"I

• RATINGS AND CHARACTERISTICS
• Absolute maximum ratings
Parameter

Symbol

Rating

Unit

Forward current

IF

50

mA

IFM

1

A

VR

6

V

P

70

mW

Collector-emitter voltage

VCEO

35

V

Emitter-collector voltage

VECO

6

V

Collector current

IC

50

mA

Collector power dissipation

Pc

150

mW

Total power dissipation

Ptot

170

mW

Operating temperature

Topr

-25- +100

°c

Storage temperature

Tstg

-40- +125

°c

*2 Isolation voltage

Viso

5

kVrms

*3 Soldering temperature

Tsol

260

°c

*1 Peak forward current
Input
Reverse voltage

Power dissipation

Output

*1 Pulse width:s 100",s, Duty ratio: 0.001
*2 AC for 1 minute, 40-60% R.H.
* 3 For 10 seconds
A-92

107

• Electro-optical characteristics
Parameter

Symbol

Min.

Typ.

Max.

Unit

Forward voltage

VF

-

1.2

1.4

V

IF=20mA

VFM

-

-

3.0

V

IFM=O 5A

Reverse current

IR

-

-

10

p.A

VR=4V

Terminal capacitance

Ct

-

30

250

pF

V=O, f=1 kHz

Collector dark current

ICEO

-

-

100

nA

VCE=20V,IF=0

Collector-emitter
breakdown voltage

BVCEO

35

-

-

V

Ic=0.1mA, IF=O

Emitter-collector
breakdown voltage

BVECO

6

-

-

V

IE = 10p.A, IF=O

Collector current

IC

2.5

-

20

mA

IF=5mA, VCE=5V

Collector-emitter
saturation voltage

VCE(sat)

-

0.1

0.2

V

IF = 20mA, IC = 1mA

10 11

-

n

DC500V,40-60%R.H.

Peak forward voltage

Conditions

'5

D.

E

'5
D.
'5

0

en
u

Isolation resistance

'ffi
·c

RISO

5 x 10 10

~
~

ct!

.r::

Floating capacitiance

Cf

-

0.6

1.0

pF

V=O, f=1MHz

Cut off frequency

fC

-

80

-

kHz

VCE = 5V, IC = 2mA
RL = 100n, -3dB

Response time (Rise)

tr

-

4

-

p's

Response time (Fall)

tf

-

3

-

p's

u

~

*
c
~
I-

A-93

108

'CTR

=~x
IF

100%

VCE=2V, Ic=2mA
RL = 100n

• SUPPLEMENT
o Isolation voltage shall be measured in the following method.

(1) Anode and cathode on input side, collector and emitter on output side shall be shortened individually.
(2) The isolation voltage tester with a zero-cross circuit shall be used.
(3) The waveform of applied voltage shall be a sine wave.
(It is recommended that the isolation voltage shall be measured in insulation oiL)
o

Outgoing inspection standard for LlTON products are shown below.
(1) A single sampling plan, normal inspection level II based on MIL-STD-105D is applied. The AQL
according to the inspection items are shown below.

Deiect

Inspection item
o

Major defect

o
o

o

Minor defect

o

Judgement criterion

AQL (%)

Electrical characteristics
Unreadable marking
Open, short

025

Appearance
Dimension

0.4

Depend on the
specification

Fig. 2 Collector Power Dissipation vs.

Fig. 1 Forward Current vs. Ambient Temperature

Ambient Temperature
60

200

§'

«

.s

..!:-

50

\

40

C

"
2:

20

<.)

<.)

Q.

c

'\

in



-.... f""'-.....

100

r.....
50

A-95
110

o

-25

o

25

50

"

75

Ambient temperature Ta (0G)

100

"'§

0.10

:5

0.08

::J

0.06

~

0.04

~

0.02

~

"gj

~

o
u

o
J..25

- ---

1..--""""

~

l.---""

o

25

50

Ambient temperature Ta (0G)

75

1C

Fig. 10 Response Time vs.

Fig. 9 Collector Dark Current vs.
Ambient Temperature

Load Resistance
200
100
50

"'

10-8

Q)

~

,/

10
5

E

-'"
Q)

_

t
/

20

..5

1O-1~

VCE=2V
Ic=2mA
Ta=25°C

UJ

tf
td
t,

C

0

2

0.
UJ

/

Q)

a:

0.5

1O-10_~~~

0.2 IL"

10- 11 ~-L._-L_-'-.--J~---'
-25 0 25 50 75 100

0.1

0.1 0.2 0.5 1 2

Load resistance RL

Ambient temperature Ta (0G)

Fig. 11 Frequency Response

5 10

(kO)

Fig. 12 Collector-emitter Saturation Voltage vs.
Forward Current

fiJ

~

«>
c
m
Ol
Q)

0

I"--r-.

........ :--.

RL=1Ok Q\.

-10

g

1k?\

\

-15
0.5 1

2

5 10 20

~obJ
\

\

-20
0.2

Ta=25°C

w

~

5

EiEi Ei Ei

Q)

-5

Ol

.l!!

VcE =5V
Ic=2mA
Ta=25°C

\

Ol

co

"5
>

..... M

4

In

r-

~

3d

II

\

..!:;

2

\' -

50 100 200 500 1000

Frequency f (KHz)

\...

10

5
Forward current

Test Circuit for Response Time

15

'F (mA)

Test Circuit for Frequency Response

Input

Input

Rn

Output

RL

Output

Output

A-96

111

B . LCD Back Light
• LCD BACK LIGHT QUICK REFERENCE GUIDE

·..'

,,' "

LCD BACK LIGHT
LCD BACK LIGHT QUICK REFERENCE GUIDE
DEVICE

PACKAGE
DIMENSION

PAGE
NO.

LTM-88X18

Yellow
(585 nm)

Eneap

250ed/m 2

4.3 V

FIG. 1-1

8·2

169.0mm L
19.5mm W
5.5mm H

LTM-88X20

Green
(565 nm)

Eneap

50ed/m 2

4.1 V

FIG. 1·2

8·5

109.0mm L
18.0mm W
3.0mm H

LTM·88X21

Creen
(565 nm)

Side Look

20 ed/m2

4.1 V

FIG. 1·3

8·8

169.Omm L
19.5mmW
5.5mm H

LTM·88X30

Yellow
(585 nml

Encap

50ed/m 2

4.1 V

FIG. 1·4

B·l1

165.0mm L
21.5mm W
3.2mm H

LTM·88X32

Green
(565 nm)

Coating

45ed/m 2

4.1 V

FIG. 1·5

8·14

LTM·88X38

Green
(565nml

Air

30ed/m 2

4.2 V

FIG. 1·6

8·17

80.0mm L
24.0mmW
3.2mm H

LTM·89X03

Green
(565 nml

Side look
Coating

26 ed/m 2

4.2 V

FIG.

'·7

8·20

100.0mm L
24.0mmW
3.2mm H

LTM·89X04

Green
(565nm)

Side Look
Coating

23 ed/m2

4.2V

FIG. 1·8

B·23

178.5mm l
35.5mmW
5.5mm H

LTM·89X06

Green
{5650ml

Coating

100ed/m'

4.1 V

FIG. 1·9

B·26

80.0mm L
.67.0mmW
3.0mm H

LTM·89Xl0

Orange
(635nm)

Side Look
Coating

4ed/m2

8.2 \(

FIG. 1·10

B·29

LTM·89X18

Yellow
(585 nm)

Eneap

30ed/m'

4.0 V

FIG. 1-11

8·32

!/>20.2mm L
6.8mm H

107.65mm L
22.OmmW
7.0mm H

B-1

SUPPLY
VOLTAGE

COLOR

77.5mm L
. 24.0mmW
6.0mm H

TYPE

LUMINOUS
INTENSITY
Iv TYP.

PART NO.

PACKAGE

114

DESCRIPTION

ILlTE['J~11

LCD BACK LIGHT
LTM·88X18

FEATURES
• FREE DESIGN ACCORDING TO INSTALL IN
"LCD" FIXTURE AND FURNISHED EASILY.
• MECHANICALLY AND SPECTRALLY MATCHED
TO THE "LCD" EQUIPMENT.
• EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
• CONCENTRATE CONFIGURATION DESIGNED TO
REDUCED THICKNESS.
• RELIABLE PERFORMANCE CHARACTERISTICS
AND GUARDED EQUIPMENT.

PACKAGE DIMENSIONS

L

'M'"

2r-~ - - -

L

(.9

"I

77.5

'.".'00'
!~~o

I

-~- ------~.. ~

!-_1------------------ ----

I

•

70.4

(2.7711

•

I
0.8

(.031)

9,·~~,
FIG. 1·1

NOTES:
1. All dImensions are in millimeters {inches.!
2. Tolerance IS ±0.25mm (,01O") unless otherwise
noted.

8-2
115

1. SCHEMATIC CIRCUIT DIAGRAM

I

I

...I

I

l T
.., ..,T l

1

T I

T

...............

...I
T

..,I

0

...I

A
A = ANODE
C= CATHODE

T

T

T Lf

0

c

2 x 15 = 30 (LED NUMBERS)

2. OPTICAl- CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-1 TESTING CIRCUIT

I

I

~

I

I

T T ..............

~

I

~

I

~

I

1

(f)

~

A

~

T~~T~T~T~_________~T~T_~~

c

Current: IF = 200mA
Ambient Temperature: TA = 25°C
2~

MEASURED METHOD
"HOLE" DIAMETER 3

I

I

8i

0

1

*(Effectlve Spatial Destribution)
* 1 to 5 per-position Measured Luminous Intensity.

2-3 RATING
RATING
ITEM
TYP.

MAX.

Luminous Intensity

160

250

-

cd/m 2

luminous Tolerance

-

-

50

%

8·3

116

UNIT
MIN.

* Index(ll LumJnousToierance=

B(MAX) - B(MIN}
B(MAX}
x 100%

REFERANCE

index(1}

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

RATING

TEST CONDITION

Peak Forward Current

IF

300 (mA)

index 2

Reverse Voltage

VR

8(V)

index 2

Power DIsSipation

Po

1.4 (W)

index 2

te)

Operating Temperature

Topr

-20 to +70

Storage Temperature

Tsto

-40 to +80 (OC)

* Index (2)ATTA

= 25°C

4. FORWARD CURRENT DERATING CURVE

300

1""-

~

.s

~

-"

c
~

5

u
"E

200

1""- ~

~

5

u.

-20

70

25

Ambient Temperature TA 1°C)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL
MIN.

TYP.

MAX.

TEST CONDITION

REF.

Forward Voltage

VF

4.1 V

43V

4.5 V

IF = 200 mA

TA = 25°C

Peak Emission Wavelength

:\p

-

585

-

IF = 200 mA

Index (3)

Reverse Current

IR

-

-

0.2mA

VR = 20 V

TA = 25°e

Spectral Line Half Width

Ll.:\

-

35

-

-

* Index (3)

Source Color (Yellow DICE)

8-4
117

ILlTErl] ~ II

LCD BACK UGHT
LTM·88X20

FEATURES
- FREE DESIGN ACCORDING TO INSTALL IN
"LCD" FIXTURE AND FURNISHED EASI L Y.
-MECHANICALLY AND SPECTRALLY MATCHED
TO THE "LCD" EQUIPMENT.
- EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
-CONCENTRATE CONFIGURATION DESIGNED TO
REDUCED THICKNESS.
- RELIABLE PERFORMANCE CHARACTERISTICS
AND GUARDED EQUIPMENT.

PACKAGE DIMENSIONS

169.0

..

(6.260)

•

"i~r='--------------------"~::;;:1":~'
FIG. 1-2

NOTES:
1. All dimensions arc in millimeters (inches.)
2. Tolerance is ±0.30mm (.012") unless otherwise
noted.
8-5

118

1. SCHEMATIC CIRCUIT DIAGRAM

I
T

T

'Y

L

I
T

I
'Y

T

T

I
T

I
T

T

liT

•

t

.................

T

T

-'Y

T

I
T

T

0

I
'Y

A
A= ANODE
C= CATHODE

T
T

TT

0

C

2 x 26 = 52 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-' TESTING CIRCUIT

I
'Y

T
T

I
'Y

I
'Y

T

T

T

T

1 T T

I
T

$1

A

I

I

T

T J T o~ c

I

~ .................... T~, TT

~
T

Current: IF = 180mA
Ambient Temperature: TA = 25°C

2~

MEASURED METHOD
"HOLE" DIAMETER 3cp

*( Effective Spatial Destributlon)

* 1 to 5 per-position Measured Luminous Intensity_

2-3 RATING
RATING.
ITEM

UNIT
MIN.

TYP.

MAX.

Luminous Intensity

30

50

-

cd/m l

Luminous-Tolerance

-

-

50

%

_
B(MAX) - B(MIN)
* I ndex( 1) Luminous Tolerance =
B(MAX)
x 100%

.

REFERANCE

index(1}
8-6
119

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

RATING

TEST CONDITION

Peak Forward Current

IF

520 (mA)

index 2

Reverse Voltage

VR

8 (V)

index 2

Power Dissipation

Po

2.3(W)

index 2

Operating Temperature

Topr

-20 to +70 (oe)

Storage Temperature

Tsto

-40 to +80 (OC)

* Index (2) AT TA '" 25°C

4. FORWARD CURRENT DERATING CURVE

520

1"'- ~

::t

.s
-"

1:
~

:;

u
"E

260

'"

~

(;

""

u.

-20

25

70

Ambient Temperature TA (OC)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL

120

TYP.

MAX.

TEST CONDITION

REF.

Forward Voltage

VF

3.8 V

4.1 V

4.4 V

IF "'260mA

TA= 25°C

Peak Emission Wavelength

AP

565

-

IF = 260mA

Index {3}

Reverse Current

IR

-

2.6mA

VR =8V

Spectral Une Half Width

AA

-

35

-

IF'" 260mA

* Index (3): Source Color (Yellow Green DICE)

8·7

MIN.

TA

= 25°C

LCD RACK LIGHT
LTM·88X21

FEATURES
o FREE DESIGN ACCORDING TO INSTALL IN
"LCD" FIXTURE AND FURNISHED EASI LY.
o LOW POWER REQUIREMENT.
oSOLID STATE RELIABILITY.
o EXCELLENT
CHARACTERS
APPEARANCE.

PACKAGE DIMENSIONS

b

109.0

«.,,"

J

t

18.0
(-709)

t

FIG. 1-3

NOTES:
1. All dimensions are in millimeters (inches.)
2. Tolerance is ±0.30mm ('012") unless otherwise
noted.
B-8

121

'

,~

'"

..

,

.. .

."

".

~

..
..

..

~

,

-,'

.

, .,,'

.''''-

1. SCHEMATIC CIRCUIT DIAGRAM

...I

...I

...I

I

T

TT TT

T

...

T

T

...I
...T

...I
T

... T
...

T

...I

...I

...I

...I

...I

I

TT TTT

T

T

T

...

T

T

0

A

0

C

... T
...

T

A= ANODE
C= CATHODE

2 x 12 = 24 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-', TESTING CI RGUIT

...I

...I

...T

...I

...I

...I

...I

...I

...I

...I

I

T

...I

$1
T
I

...
,1
T T T T T T T T T T o-J
T

T

T '.T

T

T

T

T

T

T

A

c

Current: IF = 120mA
Ambient Temperature: TA = 25c C
2~

MEASURED METHOD
"HOLE'" DIAMETER 3cjJ

* (Effective Spatial

Destribution)

* 1 to 5 per-position Measured Luminous Intensity.

2-3 RATING
RATING :' ":',: ','

'\,'
I,"~\"~

',' iTEM'

','

>\,"

UNIT

REFERANCE

MIN.
Lurriinous Intensity ,

15

20

Luminous'Tolerance
8-9
122

' .

* Index(1) Luminous Tolerance =

50.
50

B(MAX) - B(MIN)
B(MAX)
x 100%

%

index(p'

3. ABSOLUTE MAXIMUM RATING
SYMBOL

RATING

TEST CONDITION

IF

180 (mA)

index 2

VR

8(V)

index 2

Po

0.8(W)

index 2

Operating Temperature

Topr

-20 to +70 (OC)

Storage T,emperature

Tsto

-40 to +80 (OC)

PARAMETER
.-

Peak Forward Current

..

Reverse Voltage
Power Dissipation

* Index (2}ATTA = 25°C

4. FORWARD CURRENT DERATING CURVE

180

""

«
E
...
E
~

5

u

f'.,

1"'- f'.,

120

"0

;;;

;:
0

LL

70

25

-20

Ambient Temperature TA (OC)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

'>0-

SYMBOL
MIN.

TYP.

MAX.

TEST CONDITION

REF.

Forward Voltage

VF

3.8 V

4.1 V

4.4 V

IF'" 120 mA

TA '" 25°C

Peak Emission WaveleQgth

i\p

-

565

-

IF'" 120 mA

Index (S)

Reverse Current

IR

-

-

2.6mA

VR=8V

TA'" 25°C

Spectral linE! Half Width

Ai\.

-

35

-

'.

. IF'" 120mA

"

* Index (3): Source Color (Green DICE)
8-10
123

ILlTErl] ~ II

LCD BACK LIGIIT
LTM-88X30

FEATURES
• FREE DESIGN ACCORDING TO INSTALL IN
"LCD" FIXTURE AND FURNISHED EASILY.
• MECHANICALLY AND SPECTRALLY MATCHED
TO THE "LCD" EQUIPMENT.
• EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
• CONCENTRATE CONFIGURATION DESIGNED TO
REDUCED THICKNESS.
• RELIABLE PERFORMANCE CHARACTERISTICS
AND GUARDED EQUIPMENT.

\

~

'.~

",

"'-"
"f

.t!,>

I,f ,",

<

""

,>

>

>

""'~~,"":::'-----"-

;~..-J_"'"

I

PACKAGE DIMENSIONS

169.0

"I

'M~'

[0

rnJ

'!-.5---!1ilc=:::;::tC
-;::1=::-:-:,,-=======-::-====~-======;-11
A
(.71;_B)_ _

~~=+_====-========::.....::======:..:....:=========I~IlI~9)
I.
(5.929)
•I
159.0

FIG. '-4

NOTES:
1. All dimenSions are In millimeters (inches.)
2. Tolerance IS ±O.30mm (.012") unless otherwise
noted.
B-l1
124

0

.---r---,----y-------------r---,---,-------'O

A
A = ANODE
C= CATHODE

L -__

~

__

~

____L __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

~

_____L __ _J __ _ _ _ _ _ _ _ _ _

()

$1
L-.---'---~---1-------'----l.---'-_HO ~

c

A

c

Current: IF = 180mA
AmblCnt Temperature: TA = 25°C
2~

MEASURED METHOD
"HOI F" nlAMFTER 3cb

!8

8!

Gi

10
*(Effectlve Spatial Destribution)
* 1 to 5 per-position Measured Luminous IntenSity,

2-3 RATING
RATING
ITEM

UNIT
MIN.

TYP.

MAX.

Luminous Intensity

30

50

-

cd!m Z

Luminous Tolerance

-

-

50

%

,
B(MAX) - B(MIN)
• Index(1) Luminous Tolerance =
B(MAX)
x 100%

REFERANCE

index(1)
B-12
125

• •• "
••

••••

";

~'

-<

'7

..... -

••

.~ -.~-

3. ABSOLUTE MAXIMUM RATING
.,
PARAMETER

SYMBOl,

RAtiNG

TeST CONDITION

480 (mA)

Index 2

,8 (V)

Index 2

'.

Peak Forward Current

IF

Reverse Voltage

VR,

,

.~

.

,

..

2.3(W)

Power D.issipatlon

' Po

Operating Temperature

Topr "

index 2

-

-20 to +70 (oC)
" . . >0'

Tsto

Storage Temperature

-40

"

, ,

to +80 (0 Cl

* Index (2)ATTA =25°C

4. FORWARD CURRENT DERATING CURVE

480

i" ~

~

.s
-'"
E
~

240

:0

U

-e
;:"

:f

" "'i

70

25

-20

Ambient Temperature TA rOC)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
"

,

.

<'
"

PAIiAMETER
,'"

,

;

"

"

SYMBOL

MiN.

RATfNG
"TEST CONDITION'

TYP.

MAX.

RE~.

",

"

"

Forward .Volt8ge
Peak Emission Wavelength

:

3,~ V

4,' V

4AV

IF =240 mA

1-.p'.'

-

585

-

IF = 240 mA

Index (3)

IR

..;

-

2.6mA

VR=8V

TA = 25"C

'6.1.

-

35

.:..

,

Rever~ Current
, ,Spectral Line Half Width
', .... -

,,-

VF'

* Index (3): Source Color (Yellow DICE)
8-13

126

;i

IF

=240mA

"'TA= 25°C

ILITE(')~II

LCD BACK'LIGlIT
.
,

,

LTM·88X32',

FEATURES
-THE SOLID LIGHT SOURCE BE ABLE
REDUCE MECHANICAL STRUCTURE.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- LONG L1FE·SOLID STATE RELIABILITY.

TO

PACKAGE DIMENSIONS

_
I

,J:.

165.0
(6.4961

-I

~:::::::::::::::::=~]
__________________________________~I,-1
I
i---

~1

26

r.

u i2 1

FIG. 1-5

NOTES:

1. All dimensions are in millimeters (inches.)
2. Tolerance is ±0.30mm (.012") unless otherwise
noted.

8-14
127

1. SCHEMATIC CIRCUIT DIAGRAM

~rl~I~I--------_I~~1~I----o

A

~~~~ .............. ~~~

A =ANODE
C= CATHODE

1 .-'--1----1..1---11____-----1..1---1.1_1'-----__

0

C

2 x 17 = 34 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensi't¥ and Luminous Tolerance.)
2-1 TESTING CIRCUIT

I

I
'f'

I

1- 1-'f'
1- T

I

I

1-

............... ~

T T"

T

T

'f'

'f'



*( Effective Spatial Destributlon)
* 1 to 9 per-position Measured Luminous Intensity.

2-3 RATING
RATING
UNIT

ITEM
MIN.

TYP.

MAX.

Lum inous Intensity

35

45

-

Cd/m2

Luminous Tolerance

-

-

60

%

8-15
128

* I ndex( 1) Luminous Tolerance =

B(MAX) - B(MIN)
B(MAX)
x 100%

REFERANCE

index(1)

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

RATING

TEST CONDITION

Peak Forward Current

IF

310 (mA)

index 2

Reverse Voltage

VR

8 (V)

index 2

Power Dissipation

Po

1.33 (W)

index 2

Operating Temperature

Topr

-20 to +70 (OC)

Storage Temperature

Tsto

-40 to +80 (0 C)

* Index (2)ATTA

=

25°C

4. FORWARD CURRENT DERATING CURVE

310

1""'-..

~

.§.
-"

E
~
:;

200

'"

!""'-..

U
-0

ro

~
0

'"

u.

25

-20

70

AmbIent Temperature TA tOe)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL

TEST CONDITION

REF.

4.3 V

IF = 200mA

TA = 25°C

565

-

IF = 200 mA

Index (3)

-

0.1 mA

VR =8V

TA'" 25°C

35

-

IF=200mA

MIN.

TYP.

MAX.

4.1 V

Forward Voltage

VF

-

Peak Emission Wavelength

Xp

Reverse Cu rrent

IR

-

Spectral Line Half Width

AX

-

* Index (3)' Sourse Color (Green 01 CE)

8-16
129

ILlTErl] ~ II

LCD BACK LIGHT
LTM-88X38

FEATURES
-THE SOLID LIGHT SOURCE BE ABLE TO
REDUCE MECHANICAL STRUCTURE.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- HIGH
BRIGHTNESS
&
LONG
LIFE-SOLID
STATE RELIABI LlTY.

,.-::;

PACKAGE DIMENSIONS

jlJ,20.2
(.795 )

FIG. '-6

8-17

130

NOTES:
1. All dimensions are in millimeters (inches,)
2. Tolerance IS ±0.25mm (.010") unless otherwise
noted.

1. SCHEMATIC CIRCUIT DIAGRAM

..
..
..
..1 .T ..T .T
I
y

I I

T

T

1

I

T

A

-

T

A = ANODE
C = CATHODE

Jc

2 x 4 = 8 (LED NUMBERS)

2. OPTICI;\L CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-1 TESTING CIRCUIT

A

C

Current: IF = 24mA
Ambient Temperature: TA = 25° C
2~

MEASURED METHOD

* (Effective Spatial Destribution)

2-3 RATING
RATING
UNIT

REFERANCE

-

cd/m1

IF=24mA

60

%

index(1 )

ITEM
MIN.

TYP.

MAX.

Luminous Intensity

20

30

Luminous Tolerance

-

-

.
B(MAX) - B(MIN)
* Index(1) Luminous Tolerance =
B(MAX)
x 100%

B-18
131

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

Peak Forward Current

::~ ~.

RATING

TEST CONDITION

IF

120 (mA)

index 2

Reverse Voltage

VR

8(V)

index 2

Power Dissipation

Po

Operating Temperature

Topr

-20 to +70 (OCl

Storage Temperature

Ts!o

-40 to +80 (DC)

* Index (2) AT T A

. index 2

0.38 (Wl

25° C

=

4. FORWARD CURRENT DERATING CURVE

120

"'" "'-1"'-

~

.s
-"

E
~
:;

9D

u
"E

~

0
L1.

25

-20

'"
70

Ambient Temperature TA (OC)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

132

REF.

4.2 V

IF .. 90mA

TA'" 25°C

585

-

IF "'90 mA

Index (3)

-

0.2mA

VR =8V

TA'" 25°C

35

-

IF = 90mA

MIN.

TYP.

MAX.

3.8 V

4.0 V

Forward Voltage

VF

Peak Emission Wavelength

i\.p

Reverse Current

IR

-

Spectral Line Half Width

Ai\.

-

* Index (3): Source Color (Yellow DICE)

8-19

TEST CONDITION

SYMBOL

ILlTE[')~11

LCD BACK LIGHT
LTM·89X03

FEATURES
-THE SOLID LIGHT SOURCE BE ABLE
REDUCE MECHANICAL STRUCTURE.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- LONG LIFE-SOLID STATE RELIABILITY.

I

TO

!,
,

PACKAGE DIMENSIONS

r

,. , '
80.0

"I

FIG. 1-7

NOTES:
1. All dimensions are in millimeters (inches.!
2. Tolerance is ±0.30mm (.012") unless otherwise
noted.
B-20

133

1. SCHEMATIC CIRCUIT DIAGRAM

I

...IT...

T

~

I

o

I
~

T
_T-L.----LT_T..L-_

T

IT

A
A = ANODE
C = CATHODE

--0

C

2 x B = 16 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-1 TESTING CIRCUIT

I ...I I ...I I I
...T T... ...~ ...T ~ ...T ...~ ...~
T T T
T T T T

...I

...I

T

ffi

-1.

e~

A

c
Current: IF = BOmA
Ambient Temperature: TA = 25°C

2~

MEASURED METHOD

*(Effective Spatial Destribution)
* 1 to 9 per-position Measured Luminous IntenSity.

2-3 RATING
RATING
ITEM

8-21

134

UNIT
MIN.

TYP.

MAX.

Luminous Intensity

23

26

-

cd/m2

Luminous Tolerance

-

-

50

%

_
B(MAX) - B(MIN)
* Index(l) LummousTolerance=
B(MAX)
x 100%

REFERANCE

I ndex (1)

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

RATING

TEST CONDITION

Peak Forward Current

IF

160 (rnA)

index 2

Reverse Voltage

VR

8 (V)

index 2

Power Dissipation

Po

0.7 (W)

index 2

Operating Temperature

Topr

-20 to +70 (oC)

Storage Temperature

Tsto

-40 to +80 (OC)

* Index (2) ATTA '" 25°C

4. FORWARD CURRENT DERATING CURVE

160

~

<"
E

~

"'-

-'"

1:
~

'5

u

60

"E

~

0

"

1,1.

-20

70

25
Ambient Temperature TA (Oel

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL
MIN.

TYP.

MAX.

TEST CONDITION

REF.

Forward Voltage

VF

4.0 V

4.2 V

4.4 V

IF "'80 mA

TA'" 25°C

Peak Emission Wavelength

;\p

-

565

-

IF "'80 rnA

Index (3)

Reverse Current

IR

-

-

0.2mA

VA =8 V

TA = 25°C

Spectral Line Half Width

"';\

-

35

-

IF "'80 rnA

* Index (3): Source Color (Green 01 CE)
8-22
135

ILITEr.) ~ II

LCD BACK LIGHT
LTM·89X04

FEATURES
-THE SOLID LIGHT SOURCE BE ABLE
REDUCE MECHANICAL STRUCTURE.
- LOW POWER REQUIREMENT.
_ EXCELLENT CHARACTERS APPEARANCE.
_ LONG LlFE-50LlD STATE RELIABILITY.

TO

PACKAGE DIMENSIONS

I

~

IO~O

(3.937l

.1

<.~.1, [:::::::::~~:::::::::l
I~""''''''''''''''''''''''''''''''''''''''''''''''''''''''''~I~

FIG. '-8

NOTES:
1. All dimenSions are in millimeters (inches.)
2. Tolerance is ±0.30mm (.012") unless otherwise
noted.
8-23
136

26

1,1.,021

I

1. SCHEMATIC CIRCUIT DIAGRAM

...11...

T

...

...I

T

...I

.

T

...

Y

T T T

T

...I

...I

...I

...I

...I

0

A

...I

...I

1

T

I

I

ffi

1

A

TT

VI

e-J

c

A= ANODE
C = CATHODE

... ... ... ... ... ... ...
T

T

T

T

T

T

T T T T

.l~

T

0

c

2 x 11 = 22 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-' TESTING CIRCUIT

I
'V

I IV
V

T

T

_______..1

T

\iT

T

'fI
1

'W

-

I
V

T

'\f1

I ....I
W
T

T

V

V

I
V

I ...,I
'Y

V

V

T

T

T T T T T

"T "T

T

\"

T

Current: 1= 110mA
Ambient Temperature: T A = 25° C
2~

MEASURED METHOD

o
o(6)
* (Effective Spatial Destribution)
* 1 to 9 per-position Measured Luminous Intensity.

2-3 RATING
RATING
UNIT

ITEM
MIN.

TYP.

MAX.

Luminous Intensity

18

23

-

cd/m 2

LuminOUS Tolerance

-

-

50

%

* Index(l) Luminous Tolerance =

B(MAX) - S(MIN)
S(MAX)
x 100%

REFERANCE

index(l)
6-24
137

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

RATING

TEST CONDITION

Peak Forward Current

IF

220 (mA)

index 2

Reverse Voltage

VR

8(V)

index 2

Power Dissipation

Po

0.968 (W)

index 2

Operating Temperature

Topr

-20 to +70 (OC)

Storage Temperature

Tsto

-40 to +80 (oC)

* Index (2) AT TA

=

25° C

4. FORWARD CURRENT DERATING CURVE

220

""'-

~

.s
-'"

""-

~

c,

~'

:;

110

""'- ~

<.>

'E

'"~
0

u..

70

25

-20

Ambient Temperature TA (OCl

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL

138

TVP.

MAX.

TEST CONDI,TION

REF.

Forward Voltage

VF

4.0V

4.2 V

4.4 V

IF"" 1l0mA

TA = 25°C

Peak Emission Wavelength

~p

-

565

-

IF=110mA

Index (3)

Reverse Current

IR

-

-

0.2mA

VR"'8V

TA= 2~C

Spectral Une Half Width

6A

-

35

-

IF=110mA

* Index (3): Source Color (Green DICE)
8-25

MIN.

ILITEr.] ~ II

LCD BACK LIGHT
LTM·89X06

FEATURES
• FREE DESIGN ACCORDING TO INSTALL IN
"LCD" FIXTURE AND FURNISHED EASILY.
• MECHANICALLY AND SPECTRALLY MATCHED
TO THE "LCD" EQUIPMENT.
• EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
• CONCENTRATE CONFIGURATION DESIGNED TO
REDUCED THICKNESS.
• RELIABLE PERFORMANCE CHARACTERISTICS
AND GUARDED EQUIPMENT.

PACKAGE DIMENSIONS

I"

·i

".,'"'
178.5

III
"I~I
(~r8) .~~I======~~========~~========~======~l~~O)
I

I.

163.5
(6.4371

.I

0

35.0

l

L--------------------......t:==1 (.g2~1
FIG. '-9

NOTES:
1. All dimensions are in millimeters (inched
2. Tolerance is ±O.30mm ('012") unless otherwise
noted.

8-26
139

1. SCHEMATIC CIRClJlT DIAGRAM

I
y
T
Y

T

I

..,I

I
y

T

T

I
y

I
y

~ T... T .............. Ty

T

0

I

~
y

T

A= ANODE
C= CATHODE

TT

T

A

0

C

2x48=96 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-' TESTING CIRCUIT

...I

I
y

...I

...I

I

...I

I

~ T...
~ ................ T... ...
T T T
T T T

...

T

...

T
y

T

T

ffi

1
--

e~

A

c

Current: IF = 500 mA
Ambiont Tomporaturo: TA = 25o.C

2-2 MEASURED METHOD
"HOLE" DIAMETER 3if;

18

--

0

0)
~

--

--

8!
01

0)

0

--

--

Ci

0

0i

*(Effoctlve Spatial Destnbutlonl
* 1 to 9 per-posItIon Measured LumInous Intenslty_

2-3 RATING
RATING
UNIT

ITEM
MIN.

TYP.

MAX.

Luminous Intensity

80

100

-

cd/m2

Luminous Tolerance

-

-

50

%

B-27
140

* Index(ll LummousTolerance=

B(MAX) - B(MIN)
B(MAX)
x 100%

REFERANCE

index!1 )

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

Peak Forward Current

IF

Reverse Voltage

VR

8 (V)

Index 2

Power Dissipation

Po

4.3 (W)

Index 2

Operating Temperature

Topr

-20 to +70 (oC)

Storage Temperature

Tsto

-40 to +80 (oC)

RATING

TEST CONDITION

1000 (rnA)

index 2

* Index (2) AT TA = 25°C

4. FORWARD CURRENT DERATING CURVE

1000

"'"I'-..

«
.s
-"

t:
~

"

u

500

'C

""

~

0;

S

0

u..

-20

70

25

AmbIent Temperature TA 1°C)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL
MIN.

TYP.

MAX.

TEST CONDITION

REF.

Forward Voltage

VF

40V

4.1 V

4.3 V

IF = 500 rnA

TA = 25°C

Peak Emission Wavelength

Xp

-

565

-

IF = 500 mA

Index (3)

Reverse Current

IR

-

-

0.1 mA

VR =8 V

TA = 25°C

Spectral Line Half Width

DX

-

35

-

IF=500mA

* Index (3): Source Color (Green 01 CE)

6-28
141

ILITEr.) ~ II

LCD BACK. LIGHT
LTM·89X10

FEATURES
-THE SOLID LIGHT SOURCE BE ABLE
REDUCE MECHANICAL STRUCTURE.
- LOW POWER REQUIREMENT.
_ EXCELLENT CHARACTERS APPEARANCE.
_ LONG LIFE-SOLID STATE RELIABILITY.

TO

PACKAGE DIMENSIONS
80.0

67.0
(2.638)

v
v
v

~

V

/
/

V

V
V

-

/
/

L

~~

~

V

/

~

/

V

~I------------------------~I~
I
I
"'i8)

f

FIG. 1-10

8-29
142

NOTES:
1. All dimensions are in millimeters (inches.)
2. Tolerance is ±0.30mm (.012") unless otherwise
noted.

30

1. SCHEMATIC CIRCUIT DIAGRAM

A

t--·----

I

0

fT

c

o -

O

C

i
i
i

f
___--...IT

A = ANODE
C= CATHODE

I'-- - - - 0

A

2 x 4 = 8 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-1 TESTING CIRCUIT

A

1
Current: f F = 30mA
Ambint Ambient Temperature: TA = 25°C

C
2~

A
MEASURED METHOD

o

()

*(Effective Spatial Destribution)

* 1 to 9 per-position Measured Luminous Intensity.

2-3 RATING
RATING
ITEM

UNIT
MIN.

TYP.

MAX.

Luminous Intensity

2

4

-

cd!m z

Luminous Tolerance

-

-

50

%

* Index(l) Luminous Tolerance -

B(MAX) - B(MIN)
B!MAX)
x 100%

REFERANCE

index(1)
8-30
143

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

RATING

TEST CONDITION

Peak Forward Current

IF

50 (rnA)

index 2

Reverse Voltage

VR

16 (V)

index 2

Power Dissipation

Po

0.4 (W)

index 2

Operating Temperature

Topr

-20 to +70 (oC)

Storage Temperature

Tsto

-40 to +80 (0 C)

* Index (2) AT TA

=

25°C

4. FORWARD CURRENT DERATING CURVE

50

1""-

~

..s
-"

~

E
~

~

u

1""-

30

.~

"E
0

"

Ll.

-20

25

70

Ambient Temperature TA (Oe)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL

144

TYP.

MAX.

TEST CONDITION

REF.

Forward Voltage

VF

8.0V

8.2 V

8.4 V

IF =SOmA

TA= 25°C

Peak Emission Wavelength

1\p

-

635

-

IF =SOmA

Index (3)

Reverse Cu rrent

IR

-

-

0.2 rnA

VR'" 16 V

TA'" 25°C

Spectral Line Half Width

61\

-

40

-

IF =30mA

* Index (3): Source Color (Orange DICE}
8-31

MIN.

ILlTE(']~11

LCD BACK LIGHT
LTM·89X18

II

FEATURES
• FREE DESIGN ACCORDING TO INSTALL IN
"LCD" FIXTURE AND FURNISHED EASILY.
• MECHANICALLY AND SPECTRALLY MATCHED
TO THE "LCD" EQUIPMENT.
o EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABI LlTY.
• CONCENTRATE CONFIGURATION DESIGNED TO
REDUCED THICKNESS.
o RELIABLE PERFORMANCE CHARACTERISTICS
AND GUARDED EQUIPMENT.

--\

"

PACKAGE DIMENSIONS

10765

(4.238)

f

I'

2 2.0

C. 866!

+

I
I

I~

IJ!l1
103.9

UL-_ _ _ _ _ _ _l!::=IL--1
-

--

0.6

t(·0241

FIG. 1-11

NOTES:
1. All dimenSions are In millimeters (Inches.)
2. Tolerance is ±0.30mm (.012") unless otherwise
noted.

B-3;

145

1. SCHEMATIC CIRCUIT DIAGRAM

II

:r

:rI

~

T

L~

I

~

T

I

I

~

~

T

T

~ ~
L_J_L

I

0

I

A

:r

~

T

A= ANODE
C= CATHODE

~

TT

T

--0

c

2 x 8 = 16 (LED NUMBERS)

2. OPTICAL CHARACTERISTICS.
(Luminous Intensity and Luminous Tolerance.)
2-1 TESTING CIRCUIT

A

c
Curent: IF = 90 mA
Ambient Temperature: TA = 25° C

2~

MEASURED METHOD
"HOLE" DIAMETER 3rp

o
o
o

18
:0

10

• (Effective Spatial Destribution)
* 1 to 9 per-position Measured Luminous Intensity.

2-3 RATING
RATING
UNIT

ITEM
MIN.

TYP.

MAX.

Luminous Intensity

25

30

-

cdfm'

Luminous Tolerance

-

-

50

%

8-33
146

.

* Index(1) Luminous Tolerance =

B(MAX) - B(MIN)
B(MAX)
x 100%

REFERANCE

index(1)

3. ABSOLUTE MAXIMUM RATING
PARAMETER

SYMBOL

RATING

TEST CONDITION

Peak Forward Current

IF

40 (mA)

index 2

F.leverse Voltage

VR

8(V)

index 2

Power Dissipation

Po

0.17 (W)

index 2

Operating Temperature

Topr

-20 to +70 (OC)

Storage Temperature

Tsto

-40 to +80 (oC)

* Index (2) ATTA = 25°C

4. FORWARD CURRENT DERATING CURVE

40

""

~

.s
""E
~

:;

~

""'"

24

u
'E

'"s:(;

.LL

-20

25

70

Ambient Temperature TA (OC)

5. ELECTRICAL/OPTICAL CHARACTERISTICS
RATING
PARAMETER

TEST CONDITION

REF.

4.4 V

IF=24mA

TA = 25°C

-

IF=24mA

Index (3)

VR =8 V

TA" 25°C

SYMBOL
MIN.

TYP.

MAX.

4.2V

Forward Voltage

VF

4.0 V

Peak Emission Wavelength

AP

-

Reverse Current

IR

-

-

0.1 mA

Spectral Line Half Width

AX

-

35

-

565.

* Index (3): Source Color (Green 01 CE)
6-34

147

C •Light Source
• LIGHT SOURCE QUICK REFERENCE GUIDE

LIGHT . SOURCE',
LIGHT SOURCE QUICK REFERENCE GUIDE
DEVICE
PACKAGE

C-l
150

DESCRIPTION
TYPE

EFFECTIVE
LENGTH

SUPPLY
VOLTAGE

PACKAGE
DIMENSION

PAGE
NO.

PART NO.

COLOR

243mm L

LTM-88X27

Green
(565 nm)

1/14
Transparent

216mm

12.0 V

FIG. 2·1

C-2

284mm L

LTM·88X28

Green
(565 nm)

1/14
Transparent

263mm

12.0 V

FIG. 2-2

C·6

75mm L

LTM·88X29

Ultra
Bright
(660 nm)

4

128mm

12.Q V

FIG. 2·4

C-14

125mm L

LTM·89X12

Green
(565 nm)

4>4
Transparent

106mm

12.0 V

FIG. 2·5

C-18

Transparent

ILlTE[']~11

LIGHT SOURCE
LTM-88X27

-.

.

FEATURES
_ EXCELLENT CHARACTERS APPEARANCES.
LOW POWER REQUIREMENT.
_ MECHANICALLY AND SPECTRALLY MATCHED
TO THE 92 PCS OF LED.
_HIGH RELIABILITY & LONG LIFE.
_SUITABLE AS A LIGHT SOURCE OF THE
FOLLOWING APPLICATIONS FACSIMILE. IMAGE.
SCANNER.

PACKAGE DIMENSIONS

243.0
(9.5671

0000000

000000000000

110.0

110.0

(4.3311

FIG. 2·1

NOTES:
1. All dimensions are in millimeters (inches.)
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.

C-2
1.51

._-_.,

1. SCHEMATIC CIRCUIT

,

,

o

A

- 0

c

T T T

............................ T T T

TTT

f··

_ _ _ _-----I-----L-T---L-T
A = ANODE
C = CATHODE

4 x 23 = 92 (LED NUMBERS)

2. ABSOLUTE MAXMUM RATING
PARAMETER

SYMBOL

RATING

Forward Voltage

VDD

13(V)

Reverse Voltage

VR

16 (V)

Power Disipation

Po

5.6 (W)

Operating Temperature

Topr

-10to+50(OC)

Storage Temperature

Tsto

-20 to +60 (oC)

3. ELECTRICALL CHARACTERISTICS (Ta = 2SoC)
RATING
PARAMETER

;'3

52

SYMBOL

TEST CONDITION

UNIT
MIN.

TYP.

MAX.

Forward Current

100

VDD = 12V

-

370

430

mA

Reverse Current

IR

VR = l6V

-

-

100

/lA

4. OPTICAL CHARACTERISTICS
RATING
SYMBOL

PARAMETER

TEST CONDITION

UNIT
MIN.

TYP.

MAX.

1000

-

-

Lx

2.05

2.1

2.37

mm

Peak Luminous

Lvp

Condensing Light Half Width

c.L

Peak Emission Wavelength

AP

IF=20mA

-

565

-

nm

Spectral Line Half Width

AA

IF = 20mA

-

25

-

nm

VDD = 12 V
NOTE 1.

TEST DIAGRAM

D- - - ) DtVDD=12V

SPEED :8±2mm/s.

------)

>

-----)

LED ARRAY

CURRENT
METER

VOLTAGE
RECORDER

1------>

DETECTOR

* NOTE 1. Peak Luminous (Lvp), Condensing Light Half Width (c.H L), Condensing Irradiation Width (c.Ll
Measurement:

(1) Condensing Light Half

Measure Position

PHOTO
DETECTOR
LENS LINE

(2) Condensing Irradiation Width

E

E
o

E
E
CO

N

Lvp

Lvp

100%

Lvp

2'"
DL

Luminous Matching

216 mm
150%
lvp MIN 100%

C-4
153

IDD-VDD

500
450
400
350
300
250
200
150
100
50

~

~

-;
o

C
~

c3
"0

Co

~

~

r = 6.0mm
TA
25°C
LVP-VDD

2000

en

/'
V

::l

0

/

8

500

'E

200

....J

07

9 10 11 12 13

VDD = 12V
r=6.0mm
TA = 25°C

.s

LV-L-L

....J

VDD = 12V
TA = 25°C
L-HL-r

..s:::.

( I,

1.0

.iii

cQ)

+-'

"0

~

::!::

+-'

C

co
I

0.5

Q)

1/

>
.;::;

\

~

co

9 10 11 12 13

E

+-'

4

.." ~

1--

~

+-'

..s:::.
Cl

~

:.:::i

Q)

c::

2

Cl

o -3

-2 -1

0

2

c
c

.iii

3

Q)

. Condensing Light Width L-L (mm)

"0
C

0

u

VDD=12V
TA = 25°C LVP-r
'a..

. ....J
> 1500

r- t-...

........

>+-'

.iii
c

r"-

u

r-....

0

~

...
::l
co
...
Q)

+-'

Q)

C 1000

Q)

0.

E
Q)
I-

o
154

8

-

V

Forward Voltage VDD (V)

I

>
....J

L
V

V

::l

Forward Voltage VDD (V)

C.!;

L

c

V

07

V

a..
1000
>
....J

/

/

L.

j 1500

L

4.0

6.0

8.0

10.0

Lens Detecte Distance r (mm)

o

4.0

6.0

8.0

10.0

Lens Detecte Distance r (mm)

55
50
45
40
35
3D
25

L
,/

.L

L

,...,.,. / '
~

100 150 200 250 300 350 400 450
Forward Current IF

ILlTE(.]~11

LIGHT SOURCE
LTM·88X28

FEATURES
• EXCELLENT CHARACTERS APPEARANCES.
• LOW POWER REQUIREMENT.
• MECHANIGALL Y AND SPECTRALLY MATCHED
TO THE 92 PCS OF LED.
• HIGH RELIABI LlTY & LONG LIFE .
• SUITABLE AS A LIGHT SOURCE OF THE
COPIER. APPLICATIONS FACSIMICE.

PACKAGE DIMENSIONS

284.0

I

FIG. 2-2

NOTES:
1. All dimensions are in millimeters (inches.)
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.

C-6

155

1. SCHEMATIC CIRCUIT

...I

I

... ~~
... T...
...

T
T
T

I

I

T
...T T
...
T

...T T...
...

...I

.....................................

A

0

C

T

TI T

TI TT

0

T
...T
~
T
... ... ...
T T T
... ...

T
II.

I

A= ANODE
C = CATHODE

4 x 7 4 x 27 = 108 (LED NUMBERS)

2. ABSOLUTE MAXMUM RATING
PARAMETER

SYMBOL

RATING

Forward Voltage

VDD

13 (VI

Reverse Voltage

VR

16 (V)

Power Oisipation

Po

5.98(WI

Operating Temperature

Topr

-10 to +50 (oC)

Storage Temperature

Tsto

-20 to +60 (0 C)

-

3. ELECTRICALL CHARACTERISTICS (Ta = 25°C)
RATING
PARAMETER

C-7

156

SYMBOL

TEST CONDITION

UNIT
MIN.

TYP.

MAX.

Forward Current

100

VOl;> = 12V

-

410

460

mA

Reverse Current

IR

VR = l6V

-

-

100

p.A

4. OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL

UNIT

TEST CONDITION
MIN.

TYP.

MAX.

1000

-

-

Lx

2.05

2.1

2.37

mm

Peak Luminous

Lvp

Condensing light Half Width

t>L

Peak Emission Wavelength

;\p

IF = 20 mA

-

565

-

nm

Spectral Line Half Width

t>;\

IF = 20 mA

-

25

-

nm

VDD = 12 V
NOTE 1.

TEST DIAGRAM

O- - - ) DtVDD=12V

SPEED:8±2mm/s.

------)

>

CURRENT
METER

-----)

LED ARRAY

VOLTAGE
RECORDER

1----->

DETECTOR

* NOTE 1. Peak Luminous (Lvp), Condensing Light Half Width

(t> HL) ,

Measurement:

Measure Position

(2) Condensing Irradiation Width

(1) Codensing'Light Half

Width (t>HL),

PHOTO
DETECTOR

E
E

o

cO

LENS

E
E

LlNE~~

g--=-

Lvp

Lvp

100%

Lvp

2
~L

Luminous Matching

263 mm

....-1-.::----150%
--~~=------1~----100%

Lvp MIN
C-8

157

~

~

-;;
o

1:
~

c3
"0

Co

~

&

500
450
400
350
300
250
200
150
100
50
07

r = 6.0mm
TA
25°C
LVP-VDD

IDD-VDD

2000
j

/
V

III

:::J
0

/

500

c

'E

V
8

200

:::J

07 8

9 10 11 12 13

VDD = 12V
r=6.0mm
TA = 25°C

V

E

.s

LV-6L

1.0

....I

VDD = 12V
TA = 25°C
6HL-r

..c
+"

( "'\

+"

.iii

cQ)

"0

~

:!::

co

+"

C

-- -

4

I

0.5

Q)

V
./

>
.';:;
co

a;
a:

V

9 10 11 12 13

-

/

Forward Voltage VDD (V)

I

>
• ....1

\

./

+"

..c

Cl

:.:i

2

v

Cl

o -3

-2 -1

0

2

c
cQ)

.iii

3

Condensing Light Width 6L (mm)

"0
C
0

u

VDD=12V
TA = 25°C LVP-r

><

....I

a...

1500
>
....I

r- '-

........

>-

.~

~

j'-... ~

III

C

1000

Q)

a.

E
Q)

:::J

0

I-

c

·E
:::J

....

co
....

III

....I

Q)

+"

Q)

+"

u
°

:::J

C

158

/
V

....I

Forward Voltage VDD (V)

C-9

/

a... 1000
>
....I

./

/'
V

/'

1500

o

4.0

6.0

8.0

10.0

Lens Detecte Distance r (mm)

o

4.0

6.0

8.0

10.0

Lens Detecte Distance r (mm)

55
50

/

45
40
35
30
25

/

~

-'"

V

V

/'

100 150 200 250 300 350 400 450
Forward Current IF

ILlTErl) ~ II

LIGHT SOURCE
LTM-88X29

FEATURES
• EXCELLENT CHARACTERS APPEARANCES.
• LOW POWER REQIREMENTS.
• MECHANICALLY AND SPECTRALLY MATCHED
TO THE 10 PCS OF LED.
• HIGH RELIABILITY & LONG LIFE.
• SUITABLE AS A LIGHT SOURCE OF THE FOLLOWING APPLICATIONS FACSIMILE, IMAGE
SCANNER.

PACKAGE DIMENSIONS

64.0
(2.520)

t

(.236)

FIG. 2-3

NOTES:

1. All dimensions are In millimeters (inches.)
2. Tolerance is ±0:25mm (.010") unless otherwise
noted.
C-10

159

1. SCHEMATIC CIRCUIT
,-----------r ----,------- ----,--------T----------------()

I
..

-;-

-r"

I
...

-,

"-:

I

-r.,

..T

..
I

A

I

y

T

...
--j-

T

T ___ .___.__ ••_ _ _ ()
._L...

L ______ ---'- _______ . ____ --'---______ --' __._ .. _____

A = ANObE
C = CATHODE
(:

2 x 5 = 10 (LED NUMBERS)

2. ABSOLUTE MAXMUM RATING
PARAMETER

SYMBOL

RATING

Forward Vo"ltege

VOD

5 (V)

Reverse Voitage

VR

8 (V)

Power Oisipation

Po

0,4 (WI

Operating Temperature

Topr

-10to -50 (oC)

Storage Temperature

Tsto

-20 to +60 (0 C)

3. ELECTRICALL CHARACTERISTICS (Ta

= 25°C)
RATING

PARAMETER

C-11
160

SYMBOL

Forward Current

fOO

Reverse Current

fR

TEST CONDITION

UNIT
MIN.

TYP.

VOO= 5V

-

50

80

mA

VR =8V

-

-

100

IJ.A

MAX.

4. OPTICAL CHARACTERISTICS
RATING
PARAMETER

SYMBOL

TEST CONDITION

UNIT
MIN.

TYP.

MA)('

1000

-

-

mv

-

7.5

-

mm

Peak luminous

lvp

Condensing Light Half Width

Al

VDD = 5V
NOTE 1.

Peak Emission Wavelength

Xp

IF

= 50mA

-

660

-

nm

Spectral Line Half Width

AX

IF

= 50mA

-

20

-

rim

D- - - ) DtTEST DIAGRAM
VDD =5V

SPEED:8±2mm/s.

------)

>

CURRENT
METER

------)

LED ARRAY

1----->

VOLTAGE
RECORDER

DETECTOR

" NOTE 1. Peak Luminous (Lvp), Condensing Light Half Width (AL)
Measurement:
Peak Luminous, Condensing Light Half Width

~ ~l

PHOTO DETECTOR
LENS LINE

LC')

E
E

...

c:.I:!
.-

II

g-'-

Lvp
2

Lvp

Luminous Matching

35± 10mm
150%

---..I...

1 00% _ _I----+_-+-=-+-_~
Lvp MIN

C-12
161

r = 5.0mm
TA = 25°C
LVP-Voo

loo-Voo

«

E
Cl
Cl

....c

~
::J

u

"E
co

;::

a

I.L

50
45
40
35
30
25
20
15
10
5
0

/

/

/

;;
E
c...

/

V

/

Y

>
...J

/

en

::J

0

c

'E
::J

...J

1000
900
800
700
600
500
400
300
200
100
0

3.6 4.0 4.3 '4.7 5.0

./

V

E

E

LV-6L

1.0

/

3.4

'00

/

c

....Q)
Q)

>
'';:;

0.5

co

...J

~

1\

/

V

5.0 5.4

Voo = 5V
TA = 25°C

L';L-r

B.O

-

I

.E 6.0

1\

o-12-10-8-6-4-20

:.:J
OJ

.~

"

2 4 6 8 1012

LVP-r

250

E

c... 200

>
....>- 150
'00
...J

c

....c
Q)

100

en

::J

0

c

'E
::J

...J

50
0

-2.0

-3.0

4.0

2.0

Q)

Voo = 5V
TA = 25°C

;;

4.0

c

Condensing Light Width L';L (mm)

162

3.8 4.2 4.6

OJ

m
0:

C-13

L

v "'\

....>-

..5

/

/


...J

/

Forward Voltage Voo (V)

Forward Voltage Voo (V)
Voo = 5V
r=5.0mm
TA = 25°C

V

5.0

Lens Detecte Distance r (mm)

-g
o

U

0
2.0

3.0

4.0

Lens Detecte Distance r (mm)

5.0

ILITEr.) ~ II

LIGHT SOURCE
LTM·88X55

FEATURES
o EXCELLENT CHARACTERS APPEARANCES.
LOW POWER REQUIREMENT.
o MECHANICALLY AND SPECTRALLY MATCHI::D
TO THE 56 PCS OF LED.
oHIGH RELIABILITY & LONG LIFE.
oSUITABLE AS A LIGHT SOURCE OF
I)

APPLICATIONS IMAGE SCANNER.

,~~~/',

:::::-

~~- "

.

PACKAGE DIMENSIONS

I-

I.
CI

148.0
(5.827 J

,r
.:[

0

701)

( 2.756)

"

It

"Id---l

oj P=-rf·t)
~

(0.059)

L

85.0
( 3,346)

6.0

~

0-

j=i

f

120

6.2

( .244)

1.2
f.047)

+

FIG. 2-4

NOTES:
1. All dimensions are in millimeters (Inches.)
2. Tolerance IS- ±0.25mm (.010") unless otherwise
noted.

C-14

163

1. SCHEMATIC CIRCUIT

...I I

T

l...

...I

...I

-

...I

I

..,I

T T
T
... T T T
... T

.

TI TTf

T

I
y

...I

I
y

I
y

...I

0

A

0

C

~ ..,
T T T T T T
...
...
T T ~ T T T T
...

T ~ T T
...
T T ...T ...T T

T

...I

I

y

..

T T

I TI

...T T T T T T
...

j j j Tj j

4 x 14 = 56 (LED NUMBERS)

A= ANODE
C = CATHODE

2. ABSOLUTE MAXMUM RATING
·SYMBOL

RATING

Forward Voltage

VDD

13 (V)

Reverse Voltage

VR

16 (V)

Power Disipation

Po

4.9 (W)

Operating Temperature

Topr

-10to+50 (Oe)

Storage Temperature

Tsto

-20 to +60 (oC)

PARAMETER

3. ELECTRICALL CHARACTERISTICS (Ta

=2S0C)
RATING

PARAMETER

C-15

164

SYMBOL

UNIT

TEST CONDITION
MIN.

TYP.

MAX.

= 12V

-

300

350

mA

= 16V

-

-

100

IJ,A

Forward Current

100

VDD

Reverse Current

IR

VR

4. OPTICAL CHARACTERISTICS
RATING
SYMBOL

PARAMETER

UNIT

TEST CONOITION
MIN.

TYP.

MAX.

1000

-

-

Lx

-

1.7

-

mm

Peak Luminous

Lvp

Condensing Light Half Width

':;L

Peak Emission Wavelength

Xp

IF = 20 mA

-

565

-

nm

Spectral Line Half Width

':;X

IF = 20 mA

-

25

-

nm

VDD = 12 V
NOTE 1.

TEST DIAGRAM

D- - - ) [}-fVDD=12V

SPEED:8±2mm/s.

------)

CURRENT
METER

:>

-----)

LED ARRAY

1-----:>

VOLTAGE
RECORDER

DETECTOR

* NOTE 1. Peak Luminous (Lvp),Condensmg light Half Width

(,:;L)

Measu rement:
Measure Position

,=3]

Peak Luminous, Condensing Light Half Width

EIA"

PHOTO DETECTOR
LENS LINE

E

E

":
r--.

E

~ ~

Lvp

Lvp

2

g~.
Luminous Matching

12B± 10 mm
150%
100%
Lvp MIN
C-16
165

r = 7.7mm
TA = 25°C

IDD-VDD

500
« 450
400
Cl
Cl 350
'E 300
~ 250
u:J 200
"'0 150
ro 100
~ 50
tf 0 7
~

/

.s

>E

V
/

a..

V
V
V

>
....J

/

CIl

:J

0

/

400

:J

....J

9

10

>
....J
....>
'00

o

7

11 12 13

(

c

/

c

i
I

0.5

Q)

\\

I

>

'+"

~

o -3
>
a..

>

:t=
CIl

~

,

0

2

3

LVP-r

400 I--I---iF-'-lr.--:-f--i--l--l
300r-r-+-+-+-+-~~

200 r-t--I--I---I--I-f---I

CIl

E
::l

....J

100r-+-+-~~-+-4~
OL-L-L-l-l-~~....J

5.0

6.0

7.0

8.0

Lens Detecte Distance r (mm)
C-17
166

6L-r

2.0

~

1.5

g'

1.0

~

0.5

1-I---

"'0
C

(3

0

5.0

6.0

I-- ~

7.0

8.0

Lens Detecte Distance r (mm)

Q)

5c

....

.!:

C

....c

VDD= 12V
TA=25°C

....

E 500 ,--,--,-----,,---r,---r----,----,

>
....J

9 10 11 12 13

"'0

Condensing Light Width 6L (mm)
VDD = 12V
TA = 25°C

8

.!:

Q)

-2 -1

1/

Forward Voltage VDD (V)

E
E

Q)

a:

/

E 100

VDD= 12V
r=6.0mm
TA = 25°C LV-6L

Q)

/

200

Forward Voltage VDD (V)

....

/

300

.!::

/
8

LVP-VDD

500

ILlTE[')~11

LIGHT SOURCE
LTM-89X12

FEATURES
• EXCELLENT CHARACTERS APPEARANCES.
• LOW POWER REQUIREMENT .
• MECHANICALLY AND SPECTRALLY MATCHED
TO THE 48 PCS OF LED.
• HIGH RELIABI LlTY & LONG LI FE .
• SUITABLE AS A LIGHT SOURCE OF
APPLICATIONS IMAGE SCANNER.

PACKAGE DIMENSIONS

cjF=====~~========~tT======================================~:J~~)
1.2

(.047 )

FIG. 2-5

NOTES:
1. All dimensions are in millimeters (Inches.)
2. Tolerance is ±0.25mm (.010") unless otherWise
noted.

C-18

167

1. SCHEMATIC CIRCUIT

...Tr ...TI T...I TI lI lI fI ...TI T...I T...I fI lI
... ... ... ...
... ... ...
...
...
T T T T T T T T T T f T
...
...
... ...
...
...
T T T T f T f T T T T l
...

0

A

0

C

y

y

y

y

fff
I

I

y

T If

y

y

f TI II
t

4 x 12 = 48 (LED NUMBERS)

j

A = ANODE
C= CATHODE

2. ABSOLUTE MAXMUM RATING
SYMBOL

RATING

Forward Voltage

VOO

13 (V)

Reverse Voltage

VR

16 (V)

Power Oislpation

Po

3.25(W)

Operating Temperature

Topr

-10 to +50 (OC)

Storage Temperature

Tsto

-20 to +70 (OC)

PARAMETER

3. ELECTRICALL CHARACTERISTICS (Ta = 2S0C)
RATING
PARAMETER

C-19

168

SYMBOL

TEST CONDITION

UNIT
MIN.

TYP.

MAX.

= 12V

-

230

250

mA

= 16V

-

-

100

p.A

Forward Current

100

VOO

Reverse Cu rrent

IR

VR

4. OPTICAL CHARACTERISTICS
RATING
PARAMETER

TEST CONDITION

SYMBOL

UNIT
MIN.

TYP.

MAX.

1300

-

-

Lx

-

1.6

-

mm

Peak Luminous

Lvp

Condensing Ught Half Width

"'L

Peak Emission Wavelength

AP

IF=20mA

-

565

-

nm

Spectral Line Half Width

"'A

IF = 20 mA

-

25

-

nm

D- - - ) D+-

VDD = 12 V
NOTE 1.

TEST DIAGRAM

VDD=12V

SPEED:8±2mm/s.

------)

>

------)

LED ARRAY

CURRENT
METER

1----->

VOLTAGE
RECORDER

DETECTOR

* NOTE 1 Peak Luminous (Lvpl, CondenSing Light Half Width ("'Li
Measurement.
Measure Position

PHOTO DETECTOR
LENS LINE

Peak Luminous, Condensing Light Half Width

E
E

E
E
N
N

Lvp

Lvp

2

Luminous Matching

105± 10 mm
150%
100%
Lvp MIN
C-20

169

r = 6.0mm
TA = 25°C

IDD-VDD

«

500
450
400
350
300
250
200
150
100
50

E
--;o

1:
~

<3
"E
~
o
u..

2000

~
./

en

j,-"

:::J
0

:::J
-l

./

v
8

9

10

11 12

13

TA = 25°C

1.0

>-

en

c

Ql
+-'

oS

0.5

Ql

LV-~L

,V

>

'';::;

co

-l

~
+-'

-c

~

VDD = 12V
TA = 25°C

~HL-r

4
2

I............

.,. V

Cl

:.J
Cl

c

0

'Vi

-3 -2 -1 0
2 3
Condensing Light Width ~L (mm)

ffi

-c

c

o

VDD
X
:::J

a..
~

TA =

1500

>-

+-'

C
Ql

.E

=

U

12V
25°C

6.0
10.0
8.0
4.0
Lens Detecte Distance r (mm)

LVP-r

l - t---

.......

j'-....

1"-

-

1000

u
0

~

50
45

:::J

40

co
Q;

35

-I-'

L
/

0.

en

E
30
Ql

:::J

o
c

f-

'E
:::J
-l

0

55

'Vi

170

8 9 10 11 12 13
Forward Voltage VDD (V)

'+-

iii
I
+-'
..c:

0::

C-21

o

/

L

..c:

\ ..

Ql

/

V

LV
V

./

E

.s

("

:~

200
7

Forward Voltage VDD (V)
VDD = 12V
r = 6.0mm

500

c

'E

./

07

>
-l

1500

a.. 1000
>
-l

./

LVP-VDD

4.0
6.0
8.0
10.0
Lens Detecte Distance r (mm)

25

1-

......... / '

~

L

100 150 200 250 300 350 400 450
Forward Current IF

•

C-22
171

D . Multicolor LED Block

Modules for Graphic
Displays & Sign Board
Displays
• LTM~8711 ~ 1 DISPLAY MODULE
• LTM~8843~ 1 LONG MOVING SIGN MODULE

ILlTErl] ~ II

LTM-8711-1 DISPLAY MODULE
SPECIFICATION

1. SCOPE
Tho L TM-8711-1 5q. display modulo consists of CPU
memory, driver, and dot matrix display. There are
three colors in the module, red, green, and yellow.
It IS an intelligent display module that can be expanded
to as I arge as you need.
The data is transfered by the personal computer with
a particular interface card. Whatever it is character
mode or graphic mode. It is colorful & changeable
display.

2. FEATURES
-SIZE: 16 X 32 DOTS, 24CM (WIDE) X 12CM
(HIGHT).
- COLOR: RED, GREEN, YELLOW.
-WIDE VIEWING ANGLE.
-CONTENT: CONTROLER, MEMORY, DRIVER
AND DOT MATRIX DISPLAY.
-INPUT, OUTPUT: TTL COMPATIBLE.

3. MECHANIC
±1
242

Outline dimension (F IG.1)

~I

1
±1
121

~-'------L-----,l
\ + - - - - - 242 ±1 -----~~I

4XM3

!D

DD

DI

0-1
174

4. ELECTRONIC CHARACTERISTIC
Absolute maximum rating at T = 25° C
Parameter
Supply Voltage
Input Voltage
Power Dissipation
Operating Temperature Range (At Case)
Storage Temperature Range

Symbol

Min,

VDD
VI
PO
TOP
TSTG

-0.3

9
5.5
30

W

0
-20

45
+60

°c
°c

Max,

Units
V
V

Operation condition at T = 25°C
Parameter

Symbol

Min.

Tpy.

Max.

VDD

7

7.2

8

Supply Voltage
Supply Current
Transmission Speed (Per Module)
I/O Connector
Input Voltage
Output Voltage
Output Current

V
A
mS

3
3

100

VIH
Vil
VOH
VOL
10H
10l

Units

V
V
V
V
mA
mA

2.0
0,8
2.0
0.8
0.5
2.0

Optical characteristic at T = 25° C
Parameter

Symbol

Tpy.

I

3000
565
630

Average luminous Intensity
Peak Emission Wave length (Green)
Peak Emission Wave length (Red)
luminous Intensity Matching Ratio

AP
AP

Max.

Test
Condition

units

At Vctd
'" 7.2V

}.Lcd

mm
mm
2:1

5. CONNECTOR PIN ASSIGNMENT
Input connector (Type: 3M 3428-6302 or equivalent)
Pin No,

Connection

Pin No.

Connection

1

DATA 80

11

ADDR.80

2

DATA 81

12

ADDR 81

3

DATA 82

13

ADDR,82

4

DATA 83

14

ADDR 83

5

DATA 84

15

ADDR 84

6

DATA B5

16

ADDR,85

7

DATA B6

17

ADDR,86

8

DATA 87

18

ADDR,87

9

INPUT

19

GND

OUTPUT

20

GND

10

D-2

175

Output Connector (Type: 3M 3428-6302 or equivalent)

PinNa.

Connection

PinNa.

Connection

1

DATA 80

11

ADDR BO

2

DATA 81

12

ADDR. 81

3

DATA 82

13

ADDR.82

4

DATA 83

14

ADDR.83

5

DATA 84

15

ADDR.84

6

DATA 85

16

ADDR. B5
ADDR.86

7

DATA B6

17

8

DATA 87

18

ADDR.87

9

OUTPUT

19

GND

INPUT

20

GND

10

Power connector (Type: mates with molex 70156 lOP or 8981-4p connector)

Pin No.

Connection

Pin No.

Connection

1

VDD

3

GND

2

GND

4

VDD

6. SETTING OF ADDRESS SWITCH
"ADDR SW1" Setting
ADDR SW,

VALUE (OFF = ",")
OFF

ON

~~~~~~~~
12345678

D-3

176

ON

0
0
0
0
0

2

2

3

4

4
5
6
7

8
16
32

64

a
a

8

128

0

Example. If we want to set address no.

->

100

ON

~~~~~~~~

12345678

zz!±:zz!±:!±:z

00000000

OO~OOC\J~O

C1J(()

0
0

+ "

.. ADDR SW2" Setting (brightness)

ON

~~~~~~~~

12345678

Red

Green

SW2·5

SW2·6

SW2·7

SW2·8

SW2·2

SW2·3

0

ON

ON

ON

X

ON

ON

ON

X

1

OFF

ON

ON

X

OFF

ON

ON

X

SW2·1

SW2·4

2

ON

OFF

ON

X

ON

OFF

ON

X

3

OFF

OFF

ON

X

OFF

OFF

ON

X

4

ON

ON

OFF

X

ON

ON

OFF

X

5

OFF

ON

OFF

X

OFF

ON

OFF

X

6

ON

OFF

OFF

X

ON

OFF

OFF

X

7

OFF

OFF

OFF

X

OFF

OFF

OFF

X

X Don't -care

D·4

177

7. ENVIRONMENTAL CONDITION
Min.

Max.

Units

0

+45

-20

+60

°c
°c

0
0

90
95

%
%

2400
9100

m
m

7-1 Operation temperature range (at case)
7-2 Storage temperature range
7-3 Humidity

Operation
Non-operation

7-4 Altitude

Operation
Non-operation

8. APPLICATION
The big display system allow more efficient use of
A.

The plate of adverising, for example
-

B.

Theater
I ntroduce productions

Information service

-

Securities
Exchange rate
Other money market

C.

To display the Information of hospital.

D.

To display trains destination.

E.

Information system of raJiroad.

FROM
IBM AT DR
LAST MODULE

I DATA.

r-----------------------------------------,
I
I

BUS>

I ADDR.

BUS>

INPUT
PORT

--

CONTROLLER -

-~

I
I
I
I
I
I
I
I
I
I
I
I

TO
NEXT
MODULE

DATA. BUS

<

ADDR. BUS

:

I

-1

DISPLAY
L TP-2188AA-NB

DRIVER

178

I
I
I
I

OUTPUT
PORT

I- ~

ADDRESS
SETTING

I

REGULATOR

I
I
IL __________________________________

D-5

xsl

FIG.2 MODULE BLOCK DIAGRAM

~

FROM
PO'w'ER SUPPLY

PO'w'ER LINE

I
I
I
I
I
______ I
~

l

FRO M INTERF ACE
CAR D

I

INPUT

" .1.
I

MODULE 1
I OUTPUT

l-

H

INPUT

I

, - T O NEXT MODULE

MODULE 2
IOUTPUTt--

--

~~

L"

r

FR~OM
LAST MODULE

INPUT

I

1--1

INPUT

I

MODULE N·1

MODULE N

I OUTPUTI-

IOUTPUT I

"

.1.

DISPLAY

MODULE

ARRAY

FIG. 3 DISPLAY MODULE ARRAY

CRT

~__~

IBM PC/AT
or COMPATIBLE

DISPLAY MODULE
ARRAY

FIG. 4 SYSTEM BLOCK DIAGRAM

D-6

179

r-----------------------,

I
I

IL

_______________________

I
I
I
I
I
I
I
I
I
I
I
I
I
I

~

CONTROL CENTER
TRAIN
CONTROL
SYSTEM
STATION

I
TRAIN

DISPLAY
ARRAY

+
LAST
CARRIAGE

FIG. 5 APPLICATION BLOCK DIAGRAM

D-7

180

I
t

I

DISPLAY
ARRAY

I

ILlTE(']~11

LTM-8843-1 LONG MOVING SIGN
MODULE
SPECIFICATIONS

1. SCOPE
r - --;---.------------------

I.

LTM-8843-1 consists of CPU. memory, driver circuit
and Dotmatrlx display. There are three colors In the
dotmatrlx display. The display module IS an intelligent
module that can expand as large as you need (It
connects module by module. Pis refer to FlG 1)
The data IS transfered by personal computer with a
particular Interface card, and there are two forms of
data, character or graphic, that you can choose.

I,
I

2. FEATURES
• Size: 16*32 dots, 12cm (hlght) i24cm (wide) 5.5cm
(deep).
• Color: Red, Green, Yellow.
• Content: Control unit, memory, driver cirCUit,
dotmatrlx display.
o Speed: High speed - 200 column/sec.
Middle speed - 100 column/sec
Low speed - 50 column/sec.

3.

MECHANIC
±1
242

I~
OCX)llCXXXl

~~8B ~

~8888§§

888888

oj

___

1
±1
121

j
242 ± 1 - - - - 4

"'oeo...

+I~~~L.\~----------------_+~-----

Tolerance: ±0.3mm
Unit: mm
FIG.1
Weight: 1.0Kg

D-8
181

4. CONNECTOR PIN ASSIGNMENT
Input Connector (Type: 3M 3428-6302 or equivalent)
Pin No.

-Pin No.

Connection

1
2

NOT USE
NOT USE
NOT USE
NOT USE
NOT USE
NOT USE
NOTUSE
NOT USE
ROW SCANNING IN
FUNCTION IN

3
4

5
6
7
8

9
10

Connection

DATA
DATA
DATA
DATA
DATA
DATA
DATA
DATA
GND
GND

11
12
13
14
15
16
17
18
19
20

BO
B1
82
B3
84
85
B6
B7

Output Comector (Type: 3M 3428-6302 or eqUivalent)
Pin No.

Connection

Pin No.

1
2

NOT USE
NOT USE
NOT USE
NOT USE
NOT USE
NOT USE
NOT USE
NOT USE
ROW SCANNING OUT
FUNCTION OUT

11
12
13
14
15
16
17
18

3
4
5
6
7
8
9

10

Connection

DATA
DATA
DATA
DATA
DATA
DATA
DATA
DATA
GND
GND

19
20

BO
B1
82
B3
B4
B5
B6
87

POWER CONNECTOR (Type: mates with molex 70156 lOP or 898l-4P Connector)
Pin No.

Connection

Pin No.

Connection

1
2

VDD
GND

3
4

GND
VDD
\

5. ABSOLUTE MAXIMUM RATING AT T = 25°C
Parameter

0-9
182

Supply Voltage
Input Voltage {Singa!l
Power DiSliipation
Operating Temperature Range (At' Case)
Storage Temperature Range

Symbol

Min.

Max.

Units

VDD
VI
PD
TOP
TSTG

-0.3

9
5.5
30

V
V
W

0
:-20

45
+60

°c

QC

6. OPERATION CONDITION AT T
Parameter

= 2SoC

Symbol

Supply Voltage
Supply Cu rrent
Transmission Speed (Fast Speed)
Transmission Speed (Middle Speed)
Transmission Speed (Slow Speed)
1;0 Connector
Input Voltage
Output Voltage

Min.

VDD
100

7

VIH
VIL
VOH

2

Typ.

Max.

7.2

8

3
200
100
50

0.8
2

VOL

0.8

0.5

10H
10L

Output Current

2

7. ELECTRICAL/OPTICAL CHARACTERISTICS AT T
Parameter
Average Luminous Intensity
Peak Emission Wave Lengh (Green)
Peak Emission Wave Lengh (Red)
Luminous Intensity Matching Ratio

Symbol
I

"p
"p

Min.

Typ.

Units
V
A
COLUMN/SEC
COLUMN/SEC
COLUMN/SEC
V
V
V
V
V
mA
mA

= 2SoC
Max.

units

3000

!lcd

565
630

mm
mm

Test
Condition
atVDD
'" 7.2V

2:1

8. APPLICATION
L TM·8843·1 moving sign system allow more efficient
use of
A.

The plate of advertising, for example
-

B.

Theater
I ntroduce productions

Information service
Secu rlties
Exchange rate
Other money market

C.

To display the Information of hospital.

E.

To display trains destination.

F.

Information system of railroad.
D·l0
183

FROM
INTERFACE CARn 0 R
LAST MODULE

~---------------------------------------------~
I
ADOR. BUS

INPUT

DATA. BUS

PORT

CONTROLLER

I---

I

DISPLAY
LTP-2188A-NB

I
I
I
I
I
I
I
I
I
TO

NEXT
MODULE

XB

I

DRIVER



LTE·239

880nm

Water Clear 0.6 mw/cml

16"

1.3V
1-8

;

LTE-239C

880nm

Smoke

0.6 mw/cm2

16"

1.3 V

LTE-4208

940nm

Water Clear

1.4 mw!cm2

'2SJ0

1.2 V
1-11

T·l*
Standard
1" Lead
51/>

LTE·4208C

940nm

Smoke

1.4 mw!cm 2

'2SJ0

1.2 V

LTE·4238

880nm

Water Clear

1.4 mw/cm 2

20°

1.3 V

r--.

1·14

~ r= )

LTE·4238C

880nm

Smoke

1.4 mw/cm 2

20°

1.3 V

LTE·5208A

940nm

Water Clear

1.0 mw/cm 2

40°

1.2 V
1-17

T·1*
Wide
Viewing
Angle
51/>

L TE·5208 AC

940nm

Smoke

1.0 mw/cm 2

40°

1.2 V

LTE·5238A

880nm

Water Clear

1.0 mw/cm 2

40°

1.3 V
1-20

LTE·5238AC

880nm

Smoke

1.0 mw/cm 2

1-1
188

Note: ... 211% is the off-axis angle at which the radiant intensity is half the aXial radiant intensity.

40°

1.3V

• INFRARED EMITTING DIODES
DEVICE

DESCR IPTION

DUTLINE
PACKAGE

~

T-l
Standard
1" Lead
3<{J

APERTURE
RADIANT
INCIDANCE
EeTYP.
@20mA

TYPICAL
VIEWING
ANGLE
28%*

Vf TYP. PAGE
@20mA
No.

PART NO.

WAVELENGTH
i\P

LENS

L TE-4206

940 nm

Wator Clear

07mw/cm'

20 0

12V

LTE-4206C

940 nm

Smoke

0701w!cm'

20°

12V

LTE-2871

940n01

Water Clear

16mw/c01'

16°

1.2V

1-23

n

~

ij

T-1%
Narrow
Viewing
Angle
1" Lead
5<1>

Side
Look

1-26
LTE-2871C

940nm

Smoke

1.6 mw!r.m'

160

12V

LTE-302

940 nrn

Water Clear

015mw!Grn'

40°

12V

1-29

• PHOTOTRANSISTORS
DEVICE
OUTLINE
PACKAGE

i

Q
0

ij
R

T-1
Modified
0_05:: Pitch
0.5" Lead

PART NO.

LIGHT
CURRENT
TYP.
@Ee= 1

mw/em'

DARK
CURRENT
MAX.
@VCE = 10V

VCE (SAT)
MAX.
@Ic '" 0.5 mA

VCEoMIN.
@Ic '" 1 rnA

LTR-209

2mA

100 nA

0.4 V

30 V

T-1%
Standard
0.5" Lead

LTR-3208

401A

100 nA

0.4 V

30 V

5<{J

LTR-3208E

2mA

100nA

0.4 V

30V

Side
Look

LTR-301

lO1A

100 nA

04V

30 V

LTR-4206

4mA

100nA

0.4 V

30V

LTR4206E

2 rnA

100nA

04V

30 V

PAGE
No.

1-32

3<{J

T-l
Standard
1" Lead
31/>

1-35

1-38

141

Note. * 28% is the off-aXIS angle at which the radiant intensity is half the axial radiant intensity

1-2
189

SELECTION GUIDE
• PHOTODIODES
DEVICE
OUTLINE
PACKAGE

0

r

PART NO.

Is TYP.
@Ee=O.08
mw/cm 2
@VR =5V

PEAK
10 tRI MAX.

@VR =10V

VrBRIR
MIN.
@IR .. 100},A

SENSITIVITY
WAVELENGTH

PAGE
No.

XPTYP.

LTR·515AD

2~A

30 nA

30 V

950nm

1·44

LTR·526AD

2j.1A

30 nA

30V

950nm

1·48

LTR·536AD

2j.1A

30 nA

30V

950 nm

1·52

LTR·546AD

2j.1A

30nA

30V

950nm

1·56

SENSOR
VECO
MIN.
@ Ie "100~A

@IF"20mAl
VCE =5V

n:::J

ij

Black
Plastic

I:I::J

9

• TRANSMISSIVE SWITCH
DEVICE
OUTLINE
PACKAGE

1·3
190

~

Housing
Package

PART NO.

IRED VF
SENSORVCEO
TYP.
MIN.
@IF"20mA @lc=1mA

Ie MIN.

LTH·301A

1.2 V

30V

5V

500UA

lTH·301·07

1.2 V

30V

5V

400j.lA

PAGE
No.

'·60

1·63

• OPTIC RECEIVER MODULES
DEVICE
OUTLINE
PACKAGE

M
Q

PART NO.

CARRIER
WAVE
FREQUENCY
Fo (KHz)

ARRIVAL
DISTANCE
TYP.
L (m)

SUPPLY
VOLTAGE
TYP.
Vcc (V)

CURRENT
CONSUMPTION
MAX.
Icc (rnA)

PAGE
NO.

LTM-8705A

1-66

LTM-8705B

1-67

, ~.'

22.6x14.6
x12.7

Q

~
CUBIC
TYPE
MODULE

~

~

~
~

38
LTM-8705C

1-68

LTM-8705D

1-69

LTM-8834

56.8

LTM-8834-1

38

LTM-8834-2

327

10

5

14.75x14.75
x13

l6x l4Ax9.5

2.5
1-73

lTM-8834-3

36

LTM~88.34-4

50

LTM-8834-5

64

1-77

LTM-8835
7.8

1-78

16x 14Ax 11. 7 LTM-8836

14Ax 14Ax 9

lTM-8837

1-82

36

~

~

~

1-86

LTM-8848
24x14x13.4

10
LTM·8848A

1-87

1-4
191

ILITEr.] ~ II

GaAs T-l MODIFIED 3cf>
INFRARED EMITTING DIODE
LTE-209/209C

FEATURES
_SELECTED TO SPECIFIC ON-LINE INTENSITY
AND RADIANT INTENSITY RANGES.
_ LOW COST, PLASTIC END LOOKING. PACKAGE.
- MECHANICALLY AND SPECTRALLY MATCHED
TO THE L TR-209 SERIES OF PHOTOTRANSISTOR.

,

_THE
LTE-209
SERIES ARE MADE WITH
GALLIUM
ALUMINUM
ARSENIDE
WINDOW
LAYER ON GALLIUM ARSENIDE INFRARED
EMITTING DIODES.

,P

...

....

\,

1
II
~

I(j

.

i

:,

DESCRIPTION
The L TE-209 series are high intensity Gallium Arsenide
infrared emitting diodes mounted in clear plastic end
looking packages. The L TE-209 series provides a broad
range of intensity selection.
All electrical parameters are 100% tested by manufacturing. The specifications are guaranteed to a cumulative .65% AQL
C-smoke color lens.

PACKAGE DIMENSION
3.0

O~

76

,,~,,~ I
NOTES:
1. All Dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059")
max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

1-5

192

]"

II

12_7
MIN

J"

1.0 MIN

(_04)

1.27 NOM

c- 05)

FLAT DENOTES CATHODE

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING

UNIT

100

mW

Peak Forward Current (300pps. lJ.1s pulse)

3

A

Continuous Forward Current

50

rnA

5

V

Power Dissipation

Reverse Voltage
Operating Temperature Range

_55°C to +1000 C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature

260° C for 5 Seconds

[1.6mm (0.063 in) From Body]

1.0

.~
c:
'"

~

c:

...

c:
.!!?

"0
CD

0.5

a::

'"

.~
CD

CD

a::

0
800

840

880

920

960

1000

1040

Wavelength A (nm)
FIG.l SPECTRAL DISTRIBUTION

1·6
193

= 2SoC

ELECTRICAL OPTICAL CHARACTERISTICS AT TA
PARAMETER

SYMBOL

Aperture Radiant Incidence

Ee

PART NO.
LTE-

MIN.

TYP.

209

0.2

0.4

0.2

0.4

209C
Peak Emission Wavelength

TEST
CONDITION

mW/cm 3

IF'" 20 rnA

A Peak

940

nm

IF'" 20 rnA

Spectral Line Half.Width

AX

50

nm

IF =20mA

Forward Voltage

VF

1.2

1.6

V

IF "'20 rnA

Reverse Current

IR

0

100

p.A

20Y:.

16

Viewing Angle (See fig. 5)
¥

UNIT

MAX.

VR =5V

deg.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

«

~ 3.0

I
I

40

E.

E 30
~
5
u

o

25

N

II

I

-;; 20

II

>

:J

'iii

o 15

'E 20

I-

0

~" 1.0

~

LL

10

j

I
1.6

20

2.4

o

2.8

40

-40

3.0

II

1/

'"

:J "

10'

20'
30'

in
c:

1;"

1/

/

E

-g'"

/

20

194

60

<=-

/

~!!, 20

1-7

40

,/

Il..~

0>

20

FIG. 3 RELATIVE RADIANT
INTENSITY VS AMBIENT
TEMPERATURE

~N

10

-20

TA ~Amblent Temperature-250C

/

0:0

;~

r-....

//

>

~

........

0'

50

"

........

0

Forward Voltage (VI
FIG 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

"
"«
-il E

........ ........

~ 05
;;

1.2

~

r-.... r-....

40'
10
0.9

50'

08

60'
70'

0::

40

60

80

100

Forward Current (mAl
FIG. 4 RELATIVE RADIANT INTENSITY VS
FORWARD CURRENT

">
"0::'"
a;

07

80'
90'
05

03

01

02

04

FIG 5 RADIATION DIAGRAM

06

IUTE[']~~I

GaARAs T. .l MODllJFIED 3et>
INFRARED EMITTING Il)lIODlE
LTE-239/239C

FEATURES
oSELECTED TO SPECIFIC ON-LINE INTENSITY
AND RADIANT INTENSITY RANGES.
• HIGH POWER OUT PUT .
• MECHANICALLY AND SPECTRALLY MATCHED
TO THE LTR-209 SERIES OF PHOTOTRANSISTOR.

'ut
j

I

DESCRIPTION
~---

The LTE-239 series are high intensity Gallium
Aluminum Arsenide infrared emitting diodes mounted
in clear plastic end looking packages, Gallium
Aluminum Arsenide features a significant Increase in
the radiated output of Gallium Arsenide at the same
forward current.
Also with a wavelength centered
at 880 nanometers it more closely of silcon phototransistor.
All electrical parameters are 100% tested by manufacturing. The specifications are guaranteed to a cumulative .65% AQL
C-smoke color lens

=-=--:--:- :- -: -:-

_II ...

PACKAGE DIMENSIONS

0.76
(.03)

lt1"""__--+'SEE

12.7 MIN

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

(.5)

NOTE 3

II

~ ~I
D O • 5TV

(.02

1 .0

C. 04)M1N

t

FLAT DENOTES CATHODE

1.27

1-8

195

ABSOLUTE MAXIMUM RATINGS AT TA
PARAMETER

=

2SoC
MAXIMUM RATING

UNIT

100

mW

Peak Forward Current (300pps. 1j.1S pulse)

3

A

Continuous Forward Current

50

mA

5

V

Power Dissipation

Reverse Voltage
Operating Temperature Range

_55°C to +1 00° C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature

- ..

260° C for 5 Seconds

[1.6mm (0.063 in) From Body]

1.0

~
L:

ec:

..,
c:

co
-tico 0.5

a:

Ql

>

;::;
co

a;

a:
0
800

880

960
Wavelength A (nm)

FIG 1 SPECTRAL DISTRIBUTION

1-9
196

1040

~

ELECTRICAL OPTICAL CHARACTERISTICS AT TA = 2SoC
PARAMETER

SYMBOL

Aperture Radiant Incidence

Ee

PART NO.

MIN.

TYP.

239

0.4

0.6

239C

0.4

0.6

LTE-

UNIT

MAX.

TEST
CONDITION

mW/cm'

IF = 20 mA

XPeak

880

nm

IF = 20 mA

AX

50

nm

IF = 20 mA

Forward Voltage

VF

1.3

1.8

V

IF = 20 rnA

Reverse Current

IR

0

100

p.A

28%

16

Peak Emission Wavelength
'Spectral Line Half-Width

Viewing Angle (See fig. 5)

VR =5V

deg.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
5a

«

E 30

I
I
I

0

N

25

II

'""

20

0

15

"
>
'iii

I
I
II

f-

.......

.........

r--.. .........

:;;

l: 10

.........

.........

0

0..

'5 05

.........

0..

.L
12

2a

16

o"
24

a

2.6

-40

Forward Voltagb. (V)
FIG. 2 FORWARD CURRENT VS
VS. FORWARD VOLTAGE

50

~

//

~~

o..~

~

30

20

0>

10

10'

20'
30'

/

'"

""
5~

60

/

~N

~~

40

/

~

a:o

O·

./

40

20

-20

TA ·Amblent Temperature-25°C
FIG 3 RELATIVE RADIANT
INTENSITY VS AMBIENT
TEMPERATURE

/

/

/

~
in

V

10

.f

09

50'

il
'" a B

60'

E

a:'"

g"
>

20

40'

r::

2l

40

60

80

100

Forward Current (rnA)
FIG 4 RELATIVE RADIANT INTENSITY VS.
FORWARD CURRENT

70'

07

60'
90'

Q;

a:

05

03

01

02

04

FIG 5 RADIATION DIAGRAM

06

1-10

197

ILITE(']~II

GaAs T-l~ STANDARD Sci>
INFRARED EMITTING DIODE
LTE-4208/4208C

FEATURES
- SELECTED TO SPECI FIC ON-LINE INTENSITY
AND RADIANT INTENSITY RANGES.
- LOW COST PLASTIC END LOOKING PACKAGE.
- MECHANICALLY AND SPECTARALLY MATCHED
TO THE LTR-3208 SERIES OF PHOTOTRANSISTOR.
-THE
LTE-4208
SERIES ARE MADE WITH
GALLIUM
ALUMINUM
ARSENIDE
WINDOW
LAYER ON GALLIUM ARSENIDE INFRARED
EMITTING DIODES.

I

<

((

DESCRIPTION
The L TE-4208 series are high intensity Gallium Arsenide
infrared emitting diodes mounted in clear plastic end
looking packages. LTE-4208 series provides a broad
range of intensity selection.
All electrical parameters are 100% tested by manufacturning.
The specifications are guaranteed to a
cumulative .65% AQL
C-smoke color lens.

PACKAGE DIMENSIONS

~

Or
r :)
I

\'0
(. 04)

SEE NTOE 3

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

8.
(.3

I
I

I

I
o

( ?O~)TYP--

25.
(1.

'-"

1-11

~

1.0
(004

2.54
(.1)

198

l

NOM

t

FLAT DENOTES CATHODE

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C
MAXIMUM RATING

UNIT

100

mW

Peak Forward Current (300pps, 1/Ls Pulse)

3

A

Continuous Forward Current

50

mA

5

V

PARAMETER

Power Dissipation

-

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature

260° C for 5 Seconds

[1.6mm (0.063in) From Body]

1.0

.~
on
c:

~

c:

...c:

.~

"C

co

0.5

cc
Ql

'"

;:;
co

Qj

cc
0
800

840

880

920

960

1000

1040

Wavelength A (nm)

FIG.l SPECTRAL DISTRIBUTION

1·12
199

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

UNIT

TEST
CONOITION

1.4
1.4

mW/cm2

IF =20mA

SYMBOL

PART NO.
LTE-

MIN

TYP

Ee

4208
4208C

0.6
0.5

Aperture Radiant
Incidence

MAX

,Peak Emission
Wavelength

i\. Peak

940

nm

IF =20mA

Spectral Une
Half-Width

Ai\.

50

nm

IF =20mA

Forward Voltage

VF

1.2

1.6

V

IF =20mA

Reverse Current

IR

0

100

p.A

VR =5V

28~

20

Viewing Angle
(See fig. 5)

deg.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

~

I
I



U

'0

lii
;:

.f

20

....... .......

r--- .......

:;;

;: 10

10

j

J!

I
16

2.0

2.4

2.8

-40

Forward Voltage IVI
FIG, 2 FORWARD CURRENT VS,
FORWARD VOLTAGE

-20

20

./

Q.~

5~

0>

10

0

1-13

E
E

10

'"
0:

09

50'

.,

08

60'

-c'"

V

~

/

'"

40'

a;

1/

0:

V

70'

07

80'

1-+-+-t-+-+'1c--'tL-.f'-t-H-t--H 90'
20

40

60

80

100

Forward Current (rnA)
FIG 4 RELATIVE RADIANT INTENSITY VS
FORWARD CURRENT

200

30'

;:c:

/

20

20'

e

/

~N

~~
~ '"
~ "

10'

;;

/

30

60

FIG. 3 RELATIVE RADIANT
INTENSITY VS, AMBIENT
TEMPERATURE

//

40

40

TA-Amblent Temperature-25°C

O'
5,0

">
~0:0~

r--.. .......

0,5

;;
o 0

1.2

~

.......

,£

05

03

01

02

04

FIG, 5 RADIATION DIAGRAM

06

ILlTErl) ~ II

GaAIAs T-l% MODIFIED Scp
INFRARED EMITTING DIODE
LTE·4238/4238C

·FEATURES
-SELECTED TO SPECIFIC ON-LINE INTENSITY
RADIANT INTENSITY RANGES.
- HIGH POWER OUT PUT.
-MECHANICALLY AND SPECTRALLY MATCHED
TO THE LTR-3208 SERIES OF PHOTOTRANSISTOR.

:_vJ·

',~f
!~ I~

I, ii
.1

:I
!

DESCRIPTION
The L TE-4238 series are high intenSity Gallium
Aluminum Arsenide infrared emitting diodes mounted in
clear plastic end looking packages. Gallium Aluminum
Arsenide features a significant increase in the radiated
output of Gallium Arsenide at the same forward current.
Also with a wavelength centered at 880 nanometers
it more closely of silcon phototransistor.
The specifications are gualanteed to a cumulative
.65% AQL
C-smoke color lens

PACKAGE DIMENSION

rrn
r

.~

1.0

.04)

see

NOTES:
1. All dimensions are in millimeters (inches!'
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

NTOE 3

B. 6
(.3 4l

I

I

_I

I

~

25.
(I

o

( ?o~) TYp-..

I-

~

FLAT DENOTES ANODE

1.0
(004

2.54
(.1)

NOM

t
1-14
201

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING

UNIT

100

mW

3

A

50

mA

5

V

Power Dissipation
Peak Forward Current (300pps, 11's pulse)

Continuous Forward Current
Reverse Voltage
Operating Temperature Range

_55°C to +l00°C

Storage Temperature Range

-55" C to +100° C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body]

260° C for 5' Seconds

1.0
~

'Vi

c:

....c:
....c:
Q)

.!!!
"tl

0.5

a::'"
Q)

>
.;:;

'"

Gi

a::

0

800

880

960
Wavelength A (nm)

FIG.l SPECTRAL DISTRIBUTION

1-15

202

1040

= 2SoC

ELECTRICAL OPTICAL CHARACTERISTICS AT TA
PARAMETER

SYMBOL

Aperture Radiant Incidence

Ee

Peak Emission Wavelength

?-.,

PART NO.
LTE-

MIN.

TYP.

4238

0.8

1.4

4238C

0.8

1.4

Peak

MAX.

mW/cm 2

IF = 20 mA

880

nm

IF = 20 mA

nm

IF=20mA

Spectral Line Half·Width

b.?-.,

50

Forward Voltage

VF

1.3

1.8

V

Reverse Current

fR

0

100

J.lA

28%

20

Viewing Angle (See fig. 5)

TEST
CONDITION

UNIT

IF

= 20 mA

VR =5V

deg.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

«

40

~:;

30

«

E 30

I
I

0

N

I

E.

."
:J

~

0 10

u..

'5

0

16202428

~~

~
:J

0
-40

20

40

60

FIG. 3 RELATIVE RADIANT
INTENSITY VS. AMBIENT
TEMPERATURE
100

20 0

30

::in
c:
Q)

0

-c'"

V

V

Iv
20

40'

E 10

/

20

0

.£

/

30

Q)

fr.2

-20

........

TA -Ambient Temperature-25°C

/

'"

:J '"
0>

........

On

~N

o..~

........ r--.,

//

40

">
~0:0~

........

~ 05

50

o

........

0
0..

Forward Voltagbe IV)
FIG 2 FORWARD CURRENT VS
VS. FDRWARD VOLTAGE

I-

........

;: 10

.J
1.2

2.0

> 15
0
I:;;

I
I
II

u
20
'E

25

~

'"

09

>

08

0:

V

Q)

50'
60'

15

Qi
0:

40

60

80

07

70'
80'
H---HH-+'t--''I'-Ft--+--t--t-H 90'

100

Forward Current (rnA)

FIG 4 RELATIVE RADIANT INTENSITY VS
FORWARD CURRENT

05

03

01

02

04

FIG 5 RADIATION DIAGRAM

06

1-16
203

ILlTE(.J~11

GaAs T-l% STANDARD Sf/J
INFRARED EMITTING DIODE
L TE-5208A/5208AC

FEATURES
-SELECTED TO SPECIFIC ON-LINE INTENSITY
AND RADIANT INTENSITY RANGES.
_ LOW COST PLASTIC END LOOKING PAC~AGE.
-MECHANICALLY AND SPECTRALLY MATCHED
TO THE LTR-320B SERIES OF PHOTOTRAN·
SISTOR.
_THE LTE·520BA SERIES ARE MADE WITH
GALLIUM
ALUMINUM
ARSENIDE WINDOW
LAYER ON GALLIUM ARSENIDE INFRARED
EMITTING DIODES.

:

:.::-."

I

- -I

rT

DESCRIPTION
The LTE-520BA series are high intensity Gallium
Arsenide Infrared emitting diodes mounted in clear
pastic end looking packages. The LTE-520BA series
provides a broad range of intensity selection.
All electrical parameters are 100% tested by manufacturing. The specifications are guaranteed to a cumulative .65% AQL
C-smoke color lens.

PACKAGE DIMENSION

T

1.0

(.04)

SEE NOTE

8."

RO .... 015

!

(.34)

3~ ~---1
__

I

I

22.0 MIN

(.666)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

1-17

204

"

QQ__LI1!=-'~.Q!E~~.! T_HODE \.
°0.5 TYP-(.02)

.I

ABSOLUTE MAXIMUM RATINGS AT TA

= 2SoC

PARAMETER

MAXIMUM RATING

UNIT

100

mW

Peak Forward Current (300pps. l/LS pulse)

3

A

Continuous Forward Current

50

mA

Reverse Voltage

5

V

Power Dissipation

Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55° C to +100° C

Lead Soldenng Temperature

260° C for 5 Seconds

[1.6mm (0.063 in) From Body]

1.0
>

.!::

~

!'c:2

...c:

'"
ii

a:'"

0.5

OJ

>
.;::

'"

Qj

a:

0

800

840

880

920

960

1000

1040

Wavelength A. (nm)
FIG.l SPECTRAL DISTRIBUTION

1-18

205

ELECTRICAL OPTICAL CHARACTERISTICS AT TA
PARAMETER

PART NO.
lTE-

SYMBOL

MIN.

TYP.

5208A

0.5

1.0

5208AC

0.5

1.0

= 25°C
UNIT

MAX.

-

Ee

Aperture Radiant Incidence

mW/cm'

IF

= 20 mA

= 20 mA

Peak Emission Wavelength

A. Peak

940

nm

IF

Spectral Line Half·Width

AA.

50

nm

IF"" 20 mA

Forward Voltage

VF

1.2

1.6

V

IF "'-20 mA

Reverse Current

IR

0

100

p,A

20 Yo

40

Viewing Angle (See fig. 51

deg.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)
~ 30

50

<:
E

N

~

u
"E 20
;:
'"

25

II

I
II
II

:;

5
u.

o

I

40

E 30

'"
:J 2 0

\

~

o 15

r--. ........
I"-- I"--

f-

a;

;: 10

........

~

10

~ 05

I
IJ

:J

o
1.2

16

20

24

2.B

0
-40

-20

20

r--. ........
40

60

TA -Ambient Temperature-25°C

Forward Voltage (V)

FIG. 2 FORWARO CURRENT VS.
FORWARO VOLTAGE

FIG 3 RELATIVE RADIANT
INTENSITY VS AMBIENT
TEMPERATURE
O·

50

10'

20'

//

30'

/
~

/

e'"
.EO

/

l,{

/

/

0

206

40'

c:

10
09

~

50'

08

60'

'"
'"

07

-0
a:
>

/

,.,9

TEST
CONOHINI

70'
BO'
90'

li:

a;
a:
20

40

60

80

100

Forward Current (rnA)

FIG 4 RELATIVE RADIANT INTENSITY VS.
FORWARD CURRENT

05

03

01

02

04

FIG 5 RADIATION DIAGRAM

06

VR =5V

ILlTE[']~I]

GAAIAS T-l% STANDARD
Sci> INFRARED EMITTING DIODlE
L TE-5238A/5238AC

FEATURES
- SE LECTED TO SPECI FIC ON-LINE INTENSITY
AND RADIANT INTENSITY RANGES.
-HIGH POWER OUT PUT.
- MECHANICALLY AND SPECTRALLY MATCHED
TO THE LTR-3208 SERIES OF PHOTOTRANSISTOR.

DESCRIPTION
The L TE-5238A series are high intensity Gallium
Aluminum Arsenide Infrared emitting diodes mounted
In clear plastic end looking packages.
Gallium
Aluminum Arsenide features a significant Increase in
the radiated output of Gallium Arsenide at the same
forward current. Also with a wavelength centered at
880 nanometers it more closely of sllcon phototransistor.
All electrical parameters are 100% tested by manufacturing.
The specifications are guaranteed to a
cumulative .65% AQL
C-smoke color lens.

PACKAGE DIMENSION

...

(:o~)

(.34)

t-~~ ----lI

seE NOTE 31==

I

NOTE:
1. All dimenSions are in millimeters (Inches).
2. Tolerance IS ±0.25mm (,010") unless otherWise
noted.
3. Protruded resin under flange is 1.5mm (,059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specification are subject to change without notice.

22.0 MIN

(.866)
DOT DENOTES ANODE'

0 0 • 5 TYP

(.02)

2.54 NOM

(-,

1-20
207

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER
Power Dissipation
Peak Forward CUrrent (300pps. 1J.1s Pulse)
Continuous Forward Current
Reverse Voltage

MAXIMUM RATING

UNIT

100

mW

3

A

50

mA

5

V

Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55"C to +100°C

lead Soldering Temperature
{1.6mm (0.063 in) From Body]

260°C for 5 Seconds

1.0

~
'"c:

...c:
Q)

...c:
~
"0

0.5

a::'"
Q)

>

;::;
.!!!
Q)

a::
0

800

880

960

Wavelength?. (nm)
FIG.l SPECTRAL DISTRIBUTION

1-21

208

1040

ELECTRICAL OPTICAL CHARACTERISTICS AT TA
PARAMETER

SYMBOL

Aperture Radiant Incidence

Ee

PART NO.
LTE-

MIN.

TYP.

5238A

0.5

1.0

5238AC

0.5

1.0

=

2SoC
MAX.

UNIT

TEST
CONDITION

mW/cm 2

IF; 20mA

"A Peak

880

nm

IF; 20mA

Spectral Line Half-Width

A"A

50

nm

IF

= 20mA

Forward Voltage

VF

1.3

1.8

V

IF

= 20mA

Reverse Current

IR

0

100

Jl.A

VR

26;;'

40

Peak Emission Wavelength

Vewing Angle (See Fig. 5)

= 5V

deg.

TYPICAL ELECTRICAL/OPTICAL/CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50



/

10

10'

20'
30'

/

~N

"-~

60

//

">

a::

40

·Amblent Temperature·25°C
FIG 3 RELATIVE RADIANT
INTENSITY VS AMBIENT
TEMPERATURE

0'
50

~

I'-

,

/

/

/

1/

/

~

;;;

e"
.E

40'

10
09

50'

E 08

60'

a::

70'

-g'"

">

07

BO'

iii

90'

'iii

a::

20
40
60
BO
100
Forward Current {mAl
FIG 4 RELATIVE RADIANT INTENSITY VS
FORWARD CURRENT

05

03

01

02

04

FIG 5 RADIATION DIAGRAM

06

1-22
209

ILlTErl] ~ II

GaAs T-l STANDARD 3
.;::;
cc

a;

a:

0

800

840

880

920

960

1000

1040

Wavelength A. (nm)
FIG.l SPECTRAL DISTRIBUTION

1·2.4
211

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25.o C
PARAMETER

SYMBOL

PART NO.
LTE·

MIN

TVP

Ee

4206
4206C

0.3

Aperture Radiant
Incidence

UNIT

TEST
CONOITION

0.7

mW/cm2

IF =20mA

MAX

Peak Emission
Wavelength

lI. Peak

940

nm

IF =20mA

Spectral Line
Half-Width

All.

50

nm

IF =20mA

Forward Voltage

VF

1.2

1.6

V

IF =20mA

Reverse Current

fR

0

100

p..A

VR =5V

"

Viewing Angle
(See fig. 5)

20 Yo

deg.

20

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
~ 3. 0
o

50
~

I
I
II
II

0

..s'
c

30

~
u
"E 20

"

N

2. 5

II
~

~ 2. 0

~

o 15

I'- I"r--.. I"-

f-

~

~

;: 10

J"..

If

~ 10

. . 1'

~ 05

I

J

I"- b".

o" 0
1.2

1.6

2.0

24

28

-40

Forward Voltage (VI
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

-20

20

40

60

TA -Ambient Temperature-250C

FIG 3 RELATIVE RADIANT
INTENSITY VS AMBIENT
TEMPERATURE
00

100

20 0

50
//

~

40

~/

">

"'«
-i!l E

30'

40'

/

30
/

"'0

~N

~~

a.~
~

0>

10

c

ro

/

ro

""
~.g

50'

V

20

1/

/
40

60

80

100

Forward Current (rnA)
FIG 4 RELATIVE RADIANT INTENSITY VS
FORWARD CURRENT

1-25

60'

a;

H-+-f-+-t-=lHL.....f-t-H--r-T1 90'

iii

20

212

i.i
'">
"

'"

70'
80'

05

03

01

02

04

FIG 5 RADIATION OIAGRAM

06

ILlTE('J~11

GaAs T-l% MODIFIED I" LEA
5¢ INFRARED EMITTING DIODE
LTE·2871/2871C

FEATURES
- SELECTED TO SPECIFIC ON·lINE INTENSITY
AND RADIANT INTENSITY.
-LOW COST.
- NARROW BEAM.
-T·1% MODIFIED PACKAGE.
_THE
LTE·2871
SERIES ARE MADE WITH
GALLIUM
ALUMINUM
ARSENIDE
WINDOW
LAYER ON GALLIUM ARSENIDE INFRARED
EMITTING DIODES.

DESCRI PTION
The L TE·2871 series are high intensity Gallium Arsenide
infrared emitting diodes mounted In clear pastlc end
looking packages.
The L TE·2871 series proVides a
broad range of intenSity selection.
All electrical parameters are 100% tested by manufac·
turing. The specifications are guaranteed to a cumula·
tive .65% AQL
C·smoke color lens

PACKAGE DIMENSIONS

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change Without notice.

r-

B ••

~SEE

'f+=

NOTE 3

2.54 NOM

toll

1·26
213

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

MAXIMUM RATING

UNIT

100

mW

Peak Forward Current (300pps, 1j.1S Pulse)

3

A

Continuous Forward Current

50

mA

Reverse Voltage

5

V

Power Dissipation

Operating Temperature Range

-55"C to +100"C
_55°C to +100°C

Storage Temperature Range
"

Lead Soldering Temperature

260" C for 5 Seconds

[1.6mm (0.063 in) From Body]

1.0
>-

.~
U>

C

~
C

...c

.!!!

-a

c:'"

0.5

.,

>
.;:;

'"

iii

c:

0
800

840

880

920

960

Wavelength '" (nm)
FIG.l SPECTRAL DISTRIBUTION

1-27
214

1000

1040

ELECTRICAL OPTICAL CHARACTERISTICS AT TA = 2SoC
PARAMETER

SYMBOL

Aperture Radiant Incidence

Ee

Peak Emission Wavelength

PART NO.
LTE-

MIN.

TYP.

2871

0.7

1.6

2871C

0.7

1.6

UNIT

TEST
CONDITION

mW/cm 2

IF = 20 mA

MAX.

APeak

940

nm

IF=20mA

AA

50

nm

IF =20mA

Forward Voltage

VF

1.2

1.6

V

IF = 20mA

Reverse Current

IR

0

100

IJ.A

20%

16

Sp~ctral

Line Half-Width

Viewing Angle (See fig. 5)

VR = 5V

deg.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
~
e

50



...o

15

........

r--. r--

iii

;: 10
~

........

r-... r-..

~ 05
:;

I
lJ

o
1.6'

12

20

24

0
-40

2B

Forward Voltage IV)

-20

20

FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

60

FIG. 3 RELATIVE RADIANT
INTENSITY VS AMBIENl
TEMPERATURE

0'

50

40

TA-Amblent Temperature-250C

10'

20'

//
30'

~

40

">
~I r e~

/
~
in

/

30

""
E

/

~N

~~

o..~

~

20

'"

a~

'5 ro 1.0

0>

1/

V

/

V

40'

10
09

50'

08
-0

60'

"C

'"
'"
">

Ir

70'

07

80'
90'

~

"iii

Ir

20

40

60

80

100

Forward Current ImA)
FIG 4 RELATIVE RADIANT INTENSITY VS
, FORWARD CURRENT

05

03

01

0.2

04

FIG 5 RADIATION PIAGRAM

0.6

1-28
215

ILITE[.) ~ II

GaAs PLASTIC SIDE LOOK
INFRARED EMITTING DIODE
LTE·302

FEATURES
,--- .... ..,

-SELECTED TO SPECIFIC ON-LINE INTENSITY
AND RADIANT INTENSITY RANGES.
_ LOW COST, PLASTIC SIDE LOOKING PACKAGE.

,

"

',' "

-MECHANICALLY AND SPECTRALLY MATCHED
TO THE LTR-301 SERIES OF PHOTOTRANSISTOR.
_THE
LTE-302
SERIES ARE MADE WITH
GALLIUM
ALUMINUM
ARSENIDE WINDOW
LAYER ON GALLIUM ARSENIDE INFRARED
EMITTING DIODES.

,

,',

DESCRIPTION
The L TE-302 series are high intensity Gallium Arsentde
infrared emitting diodes mounted In .clear plastic side
looking packages. The L TE-302 series provides a broad
range of intensity selection.
NI electrical parameters are 100% tested by manufac{tr'ing. The specifications are guaranteed to a cumulati\;e .65%.

PACKAGE DIMENSION

I

1.22.:tO.07

+--+__+(o04B±.003)

~~0'7.

S.72±O.12

r-

(.22S:t.005)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25 mm L01O") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change Without notice.

1-29
216

12.7
(.5) MIN

(.03)

CJ

w

a

,.0L~~

(o04)MIN

2.54
(.1

NOM

0

1.5S±O.12
.06l±.OOB)

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C
MAXIMUM RATING

UNIT

100

mW

Peak Forward Current (300pps. llJs Pulse)

3

A

Continuous Forward Current

50

mA

Reverse Voltage

5

V

PARAMETER
Power Dissipation

Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-5~ C to +100° C

.

Lead Soldering Temperature

260°C for 5 Seconds

[1.6mm (0.063 in) From Body}

1.0

.~

'"c:

ec:
...c:

.!!1
'tl
III

0.5

rc
Q)

...

.2:

III

Cii

rc

0

800

840

880

920

960

1000

1040

Wavelength A (nm)
FIG.1 SPECTRAL DISTRIBUTION

1·30

217

ELECTRICAL OPTICAL CHARACTERISTICS AT TA

=

2SoC

PARAMETER

SYMBOL

PART NO.
LTE-

MIN.

TYP.

Aperture Radiant Incidence

Ee

302

0.07

0.15

mW/cm 2

IF =20mA

X PEAK

940

nm

IF'" 20mA

Spectral Line Half·Width

AX

50

nm

IF '" 20mA

Forward Voltage

VF

1.2

1.6

V

IF'" 20mA

Reverse Current

IR

0

100

p.A

20Y<

40

Peak Emission Wavelength

Vewing Angle (See Fig. 5)

MAX.

UNIT

VR =5V

deg.

I

TYPICAL ELECTRICAL/OPTICAL/CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
~ 3.0

50

« 40

5
u
"0

iii
;:

~

N
~

I
I

30

!

2.5

1\

I

.s
<::
~

o

I

-;; 20

~"

o 15

i '~
r---..

f-

20

:;;

;: 10
~

I

10

j

i '~

.......

~ 0.5

J
1.2

1.6

2.0

2.4

r-..

o" 0

28

-40

Forward Voltage (VI
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE

-20

20

40

60

TA-Amblent Temperature-250C

FIG. 3 RELATIVE RADIANT
INTENSITY VS. AMBIENT
TEMPERATURE

O'

10'

20'

50
//

o

">
~~

"'0

/

i!"

.

o..~
~

""
5~

0>

in

/

30

20
10

/

1/

/

<::

10

.E

09

lii

08

!'!

//

~N

~~

30'

/

4a

f-

V

i5

a:
'"

">

40'
50'
60'
70'

07

80'
90'

'"'"

0;

a:
20

40

60

80

100

Forward Current (mAl
FIG. 4 RELATIVE RADIANT INTENSITY VS
FORWARD CURRENT

1-31
218

05

03

01

02

04

FIG 5 RADIATION DIAGRAM

06

TEST
CONDITION

ILlTErl] ~ II

NPN T-I MODIFIED
PHOTODETECTOR

3~

LTR-209

FEATURES
.WIDE RANGE OF COLLECTOR
• LENSED FOR HIGH SENSITIVITY
• LOW COST PLASTIC PACKAGE.

CURRENTS .

DESCRIPTION
The LTR·209 consist of an NPN silicon phototransistor
mounted in a lensed, clear plastic, end looking package.
The lensing effect of the package allows an acceptance
half angle of SO measured from the optical axis to the
half power point.
This series is mechanically and
spectrally matched to the LTE-209 series of infrared
emitting diodes.
All electrical parameters are 100% tested by manufacturing. Specificiltions are guaranteed to a cumulative
.65%AQL.

PACKAGE DIMENSIONS

(.03)

ffi-t.

II I
I

see

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm 1.010") unless otherwise
noted.
3. Protruded resin Ulider flange is 1.5mm 1.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

NOTE 3

I I
~rp-

(~;

2)

1
12.
(.

~~
'.0
MIN
(.04)
1.27 NO

(.os)

t

FLAT DENOTES COllECTOR

1·32
219

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

100

mW

Collector-Emitter Voltage

30

V

Emitter-Collector Voltage

5

V

Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55" C to +100

0

Lead Soldering Temperature
[1.6mm (0.063 in) From Body]

C

260°C for 5 Seconds

ELECTRICAL CHARACTERISTICS AT TA = 2SoC
PARAMETER

SYMBOL

MIN

UNIT'

TEST
CONDITION

VIBR) CEO

30

V

Ic'" 1mA
Ee=OmW/cm2

Emitter-Collector Breakdown Voltage

VIBR) ECO

5

V

IE = 100",A
Ee= OmW/cm 2

Collector Emitter Saturation Voltage

VCEISAT)

Rise Time

Tr

Fall Time

Tf

On State Collector Current

0.4

"

liON)

V

REMARK

Ic=0.5mA

Ee == O.5mW/cm 2

5

pS

Vcc= 30V
Ic=800J.lA

5

pS

RL'" 1kO

nA

VeE == 10V
Ee=OmW/cm2

100,

I CEO
1

2

mA

VCE '" 5V

BINC

2

4

mA

Ee= 1mW/cm2

BIND

4

8

mA

A = 940nm

BINE

8
220

MAX

Collector-Emitter Breakdown Voltage

Collector Dark Current

1-33

TYP

mA

BINF

TYPICAL ELECTRICAL/OPTICAL/CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
20

t

~

10

~

o

:s

V

u

2

"0

u

J

E

/

~

U

VeE = 5V
Ee= lmW/em'
@~ = 940nm

/'

100

<:

1

17

~

~ 15

:s
u

/

2

"0
u 10

I

~
ro

E

:s

z

V
80

-50

120

200
C/l

"-

~16o

Vee = 5V
V RL = 1V
F = 100 Hz
PW = lmS

8 30
~
'6"

1/

'"

V
80

u

V

40

I
1/

20

125

/'

1/

/

.,">
£'" 1 0

V

I

;::

100

/

~

<:

75

./

<:

~ 120

50

V eE =5V

40

ro

t=

25

FIG 2 NORMALIZED COLLECTOR CURRENT
VS AMBIENT TEMPERATURE

COLLECTOR DARK CURRENT
VS AMBIENT TEMPERATURE

~

,'f"

-25

V

1/

TA - Ambient Temperature _ °C

TA- Ambient Temperature _DC

FIG

V

V

05

!2

40

V

"0

/

000 1

V

u

17
/

V

V
10

Ee-lrradlance-mw/cm2

RL.-Load Resistance-K {)

FIG 4 RELATIVE COLLECTOR CURRENT
VS IRRADIANCE

FIG 3 RISE AND FALL TIME
VS LOAD RESISTANCE

3D·

40·
50·

" 0.8
E

60·

'"

a;
a:

70·

07

80·

H--+-+--+--+-+4Y=+---l---l-+-l-I 90·
0.5

0.3

01

0.2

0.4

06

FIG 5 SENSITIVITY DIAGRAM

1-34

221

ILITEr.) ~ II

NPN T-1 3h STANDARD
PHOTODETECTOR

5cp

L TR·3208/3208E

FEATURES
-WIDE RANGE OF COLLECTOR
• LENSED FOR HIGH SENSITIVITY
- LOW COST PLASTIC PACKAGE.

CURRENTS .

DESCR IPTION
The LTR-3208 series consist of an NPN silicon
phototransistor mounted in a lensed, clear plastic, end
looking package. The lensing effect of the package
allows an acceptance half angle of 10° measured from
the optical axis to the half power point. This series is
mechanically and spectrally matched to the LTE-4208
series of infrared emitting diodes.
The LTR-3208E is a special dark plastic package that
cut the visible light and suitable for the detectors of
infrared applications.
All electrical parameters are 100% tested by manufacturing. Specifications are guaranteed to a cumulative
.65% AQl.

,

1.,---11
b'l--ll

,II

II.
"

"

.

-----

PACKAGE DIMENSIONS

~

Un
NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±cJ.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

FLAT DENOTES COLLECTOR

2.54

(.,

1-35

222

NOM

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C
MAXIMUM RATING

UNIT

Power Dissipation

100

mW

Collector-Emitter Voltage

30

V

Emitter-Collector Voltage

5

V
-_.

PARAMETER

Operating Temperature Range

_55° C to +100° C

Storage Temperature Range

-55°C to +100°C

Lead Soldenng Temperature
[1.6mm (0.063 in) From Body]

260° C for 5 Seconds

ELECTRICAL CHARACTERISTICS AT T
PARAMETER

SYMBOL

PART NO.
LTR-

=

MIN

25°C
TYP

MAX

UNIT

TEST
CONDITION

Collector-Emitter Breakdown
Voltage

VIBRl

CEO

30

V

Ic ~ lmA
Ee= OmW/cm'

EmItter-Collector Breakdown
Voltage

V IBRl

ECO

5

V

IE '" 100llA
Ee '" OmW/em'

Collector Emitter Saturation
Voltage

V CE ISATI

V

Ie = O.5mA
Ee "'0.5mW/cm'

0.4

Rise Time

Tr

~

IlS

Fall Time

TI

5

IlS

Collector Dark Current

100

I CEO

3208
On State Collector Current

1

4

nA

mA

REMARK

30V
le= 800IlA
RL '" 1kn

Vcc~

VeE" lOV
Ee~

OmW/em'

VCE "5V
Ee'" lmW/cm'

I (ON)

3208E

1

2

mA

A=940nm

1-36
223

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

'1
.. 100

20

/'

t:
~

j"

;;
';; 10

ro

Cl

6
t5

IV

2

"0

'f

01

j
0001

V

u
B
tJ

/

'C

~

<0

E

6 05
z

BO

120

-50

TA- Ambient Temperature - °C
FIG

200

COLLECTOR DARK CURRENT
VS AMBIENT TEMPERATURE

VRL = 1V

~ 16 0

~ 120

'6"

"",'/

Q)

BO

u

i=

>

"'"
~

/"

40

20

Q)

V

I

30

6
t5

/"

iii

10

,/

I

V
o

100 125

I

V

1

V

1

il

J

Ee-lrradlance-rnw/cm 2

FIG. 4 RELATIVE COLLECTOR CURRENT
VS IRRADIANCE

O'

10'

20'
30'

?:
;;

"iiiiii
'">

40'

10
09

50'

g DB
0;

60'

Q)

a::

70'

07

BO'

f-+++-H===f---'jJ'---l''''f--t-H--+--i
05

03

01

02

04

FIG. 5 SENSITIVITY DIAGRAM

1-37

75

10

RL-Load Resistance-K!l
FIG 3 RISE AND FALL TIME
VS LOAD RESISTANCE

224

50

./

t:

<0

o

25

Q)

8

f"

.=

-25

VCE = 5V

40

F = 100 Hz
PW = lmS

'"

V

/

V'.

V

TA- Ambient Temperature- °C
FIG 2 NORMALIZED COLLECTOR CURRENT
VS AMBIENT TEMPERATURE

Vee = 5V

"-

.i.

V

.!!

40

/

2

"0
u 10

V

I

VeE = 5V
Ee= lmW/cm'
@>- = 940nm

E
~
;; 15

06

90'

ILlTErl] ~ II

NPN PLASTIC SIDE LOOK
PHOTODETECTOR
LTR-301

FEATURES
.WIDE RANGE OF COLLECTOR
• LENSED FOR HIGH SENSITIVITY .
• LOW COST PLASTIC PACKAGE.

CURRENTS .

'\oJ' '

DESCRIPTION
,

'\

The LTR-301 consist of an NPN silicon phototransistor
mounted in a lensed, clear plastic, side looking package.
The lensing effect of the package allows an acceptance
half angle of 20° measured from the optical axis to the
half power point. This series is mechanically and
spectrally matched to the LTE-302 series of Infrared
emitting diodes.
All electrical parameters are 100% tested by manufacturing. Specifications are guaranteed to a cumulative
.65% AQl.

"

PACKAGE mMENSION
4.4S!.O.12
.11S±.OOS

1.22:!:O.07

+----II---l-(,o04B±o003}

o '
~

S.72!O.12

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange IS 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

1

O'76

(.03)

(.22S±.005)

CJ

_

1.5S'!.O.12
.061±.008)

COoS
(0.02) TYP

1-38
225

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

100

mW

Coliector·Emitter Voltage

30

V

Emitter·Collec.tor Voltage

5

V

Operating Temperature Range

-55Q C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
(1.6mm (0.063 in) From Body]

260°C for 5 Seconds

ELECTRICAL CHARACTERISTICS AT TA

=

25°C
,,,,

TYP

MAX . UNIT

TEST'
. 'CONDITION.

PARAMETeR

'SYMBOL

MIN

Coliector·Emitter Breakdown Voltage

V(BRI CEO

30

V

Ic= lmA
Ee=OmW/cm2

Emitter·Coliector Breakdown Voltage

V(BRI ECO

5

V

. IE '" 100llA
Ee=OmW/cm"

Collector Emitter Saturation Voltage

VCE (SATI

0.4

V

Rise Time

Tr

5

",S

Fall Time

Tf

5

IlS

Collector Dark Current

Iceo

100

nA

Ic=O.5mA
Ee '" 0.5mW fcm 2
Vcc= 30V
Ic=800pA
RL=lkO'
VCE'" 10V
Ee=OmW/cm 2
VCt =5V
Ee" lmW/cm1.

On State Collector Current

I(ONI

0.2

1

mA
A = 940nm

1·39

226

REMARK.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)

20

..:

tc: 100

IV

~

~"
~

tl

..!!

~

~

01

J!
0001

/

I

V

/

V

FIG

"-

~160

[7

tl

..!!

;3

10

"C

~

-a;
c:

§ 0,5

BO

-50

120

V

-25

25

50

40

F ~ 100 Hz
PW ~ lmS

c:

7

~

.3

"
"

/'

I

30

tl
" 20
'§
u

/'

/'
BO

75

100

125

.v-

Ve,=5V

Vee ~ 5V

VRL = lV

'""'"

~ 10

/'

V

V

lL
1/

TA- Ambient Temperature- °C
FIG, 2 NORMALIZED COLLECTOR CURRENT
VS AMBIENT TEMPERATURE

COLLECTOR DARK CURRENT
VS AMBIENT TEMPERATURE

40

V

.!1

c:

;::
to:

940nm

"

/

f"
-a;
~ 120

'"
if."

~

z

40

CJl

lmW/cm'

':; 15

TA- Ambient Temperature _DC

200

Ee~

'@A

u

(;

o

c:

10

o

u

VeE = 5V

./

1/

V

/

/

I

V

I

/

10
Ee-lrradlance-mw/cm 2

RL -Load Resistance-K!l

FIG 4 RELATIVE COLLECTOR CURRENT
VS IRRADIANCE

FIG 3 RISE AND FALL TIME
VS LOAD RESISTANCE

30"

>-

40"

'5

10

Jl

OB

~

""

09

50"
60"

.~

70"

W 07
a:

H-+i-R==l-4Lf=+=+-l-l--J.-.j
05

03

01

02

04

BO"
90"

06

FIG 5 SENSITIVITY DIAGRAM

1-40
227

IliTErl ] ~ II

NPN T-l STANDARD
PHOTODETECTOR
LTR·4206/4206E

FEATURES
-WIDE RANGE OF COLLECTOR
- LENSED FOR HIGH SENSITIVITY
- LOW COST PLASTIC PACKAGE.

CURRENTS.

",

1\
DESCRIPTION
The LTR-4206 series consist of an NPN silicon
phototransistor mounted in a lensed, clear plastic
end looking package. The lensing effect of the package
allows an acceptance half angle of 100 measured from
the optical axis to the half power point. This series
is mechanically and spectrally matched to the LTE-4206
series of infrared emitting diodes.
The LTR4206E is a special dark plastic package that
cut the visible light and suitable for the detectors of
infrared application.
All electrical parameters are 100% tested by manufac·
turing. Specifications are guaranteed to a cumulative
.65% AQL.

PACKAGE DIMENSIONS

,

1.0
(004)

O.8:!:O.5
(.031 ±.02)

t _I

t-

r-

11

L

' SEE tOTE 3

5.2 5
(.2 07)

I

12.7

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

1-41

228

(.

o

0.5TVP~
(.02)

I-

I.

2.54 NOM

(.11

(.0

"

'.!

ABSOLUTE MAXIMUM RATINGS AT TA

25°C

=

PARAMETER

MAXIMUM RATING

UNIT

100

mW

Collector-Emitter Voltage

30

V

Emitter-Collc'Ctor Voltage

b

V

,

Power Dissipation

Operating Temperature Range

-55°C to +1 OO°C

Storage Temperature Range

-55°C to +lOO°C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body}

260°C for 5 Seconds

ELECTRICAL CHARACTERISTICS AT T
PARAMETER

SYMBOL

Collector-Emitter Breakdown
Voltage

V{BR~ CEO

Emitter-Collector Breakdown
Voltage

V (BR) Eeo

Collector Emitter Saturation
Voltage

VeE ISAT~

PART NO.
LTR·

= 25°C

UNIT

TEST,
CONDITION

30

V

Ic '" lmA
Ee",OmW/crn'

5

V

Ie '" 100ttA
Ee'" OmW/crn'

V

Ie "'0.5mA
Ee=0.5mW/cm 2

MIN

TYP

MAX

0.4

RiseTime

Tr

5

J.l.S

Fall Time

Tf

5

J.l.S

Collector Dark Current

I CEO

100

4206
On State Collector Current

1

4

Vee = 30V
Ie = 800J.l.A
Rl = 1kn

nA

VCE '" 10V
Ee '" OmW/cm'

rnA

VCE '" 5V

I{ON~

REMARK

Ee= lmW/cm 2
4206E

1

2

rnA

A "'940nm

1-42
229

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temoerature Unless Otherwise Noted)

'1
.. 100

20

.L

t:

~

/

"

': 10

:0

~

"/c , = 5V
Ee= 1mW/cm 2
@' = 940nm

/

u" 15

/

Cl

B
u

.!!!
"0

Y 01
j
0001

V

/
V

/

V

/

/

/
/
-

80

40

120

-50

TA - Ambient Ternperature _DC

..

200

~'60

Vcc = 5V
VRL = 1V
F = 100 Hz
PW = lmS

Vc,=5V
~

t:
~

.3

'iij

t:

...... V

BO

1:)

k"

'5"

U

'/

"'" 1 0
£

./

40

20

~

V

I

~
~

30

(;

~120

.¥!"

50

40

~

'"

25

75

100

125

TA- Ambient Temperature-OC
FIG 2 NORMALIZED COLLECTOR CURRENT
VS Arv'BIENT TEMPERATURE

FIG. 1 COLLECTOR DARK CURRENT
VS AMBIENT TEMPERATURE

«

-l5

......-

/

/

V

/

V

/

.-

./

--- --

--

'/

./
10
RL -Load Resistance-K Il

Ee-lrradlance-rnw/cm 2

FIG 3 RISE AND FALL TIME
VS LOAD RESISTANCE

FIG 4 RELATIVE COLLECTOR CURRENT
VS IRRADIANCE

~

""in

1.0

en
"

0.9

"
iii"

OB

t:

50'

 60

;:;

102
.9c

'in

~

c

~

~

:;

'"

~

"0
B

1)

c. 40

~

'"

E
'"

II

Q;

0:

20

..c:

\
\

I

~

101

0..

10°

\

/

/

o
700

800

900

1000

1100

10- 1

1200

Irradlance Ee

Wavelength
FIG 5 RELATIVE SPECTRAL SENSITIVITY
VS WAVELENGTH

FIG 6 PHOTOCURRENT VS
IRRADIANCE
= 950 nm

175

"'"-

S

E
c 125
0

g

1.0

c.

~
6

0.9

"-

r\

:;;
~

0
0..

0.8

~

75

'\

~

0.7

I-

"-1\

25

20
FIG 7 SENSITIVITY DIAGRAM

40

60

80

Ambient Temperature

FIG 8 TOTAL POWER DISSIPATION VS
AMBIENT TEMPERATURE

1-47
234

100 DC

ILlTE[I] ~ II

BLACK PLASTIC PHOTODIODE
LTR·526AD

FEATURES
• HIGH PHOTO SENSITIVITY.
• SUITABLE FOR INFRARED RADIATION.
• LOW JUNCTION CAPACITANCE.
• HIGH CUT-OFF FREQUENCY.
• FAST SWITCHING TIME.

II~
r

DESCR IPTION

-.

The L TR-526AD is a special dark plastic package that
cut the visible light and sUitable for the detectors of
infrared applications.
All electrical parameters are 100% tested by manufac·
turing specification are guaranteed to cumulative .65%
AQL.

PACKAGE DIMENSION

NOTE:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange IS 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specification are subject to change without notice.

22

r?
. 'f-

1--+

...--

(. 89Y YP

(.~~)MI N

1

•.

.6:!:O.12

( 26~ .005)

I

w-

c

~
2.54

-----JOTE 3
SEE

~

,

~~~ ~)TYP

NOM

(.1)

1-48

235

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

MAXIMUM RATING

UNIT

150

mW

30

V

Power Dissipation
Reverse Break Down Voltage

.

Operating Temperature Range

_55°C to +1 00° C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body]

260° C for 5 Seconds

ELECTRICAL OPTICAL CHARACTERISTICS AT TA
PARAMETER
Reverse Break Down Voltage

SYMBOL

MIN

V'SR)R

30

TYP

= 2SoC

MAX

TEST
CONDITION

V

IR '" 100j.lA
Ee '" OmW/cm 2

nA

VR '" 10V
Ee '" OmW/cm 2
X=940nm
Ee = 0.5mW/cm2

Reverse Dark Current

101R)

Open CircUIt Voltage

Voc

350

mV

Rise Time

Tr

50

nsec

Fall Time

Tf

50

nsec

Light Current

Is

2

j.lA

VR "'5V X = 940nm
Ee'" 0.08mW/cm2

Total Capacitance

Cr

25

pF

VR"'3Vf= 1MHZ
Ee '" OmW/cm2

i\SMAX

950

nm

50

j.lAcm 2
mw

Wavelength of the Max
Sensitvitv
Spectral Sensitivity
Noise Equivalent Power
Detection Umit

S

30

UNIT

1.7

30

NEP

4.4x10·1~

*D

6.3x1012

W

v'HZ

VR "10V
X'" 940nm
R L =1KO

VR"5V
VR "10V

cm,jHZ
w

*The lum ir>ance indicated refers to unfiltered radiation of a tungsten filament LAMP at a color temperature of 2856° K.
1-49

236

TYPICAL ELECTRICAL/OPTICAL/CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
pF

pA

1/

4000

V
V

3000

80

.......

V

c

~ 2000

u 60

"c<.>

l'l

V

:J

U

'":;;

B

'"g-

u

V

o

1000

J

100

V

40

1\
20

~

V
10

15

10- 2

20

Reverse Voltage VR

10- 1

10 1

10°

10 2 V

Reverse Voltage VR
FIG 2 CAPACITANCE VS REVERSE
VOLTAGE
F = 1 MHZ, Ee =
mW/cm'

FIG 1 DARI( CURRENT VS REVERSE
VOLTAGE
TAMB = 25°C, Ee =
mW/cm'

a

a

1.4

1.2

1.0
.c
10
E'"

'" NO.8
E-Ec
5 0.6

---

V

I-

_i-"'

C 101

'"

'":;;
o

<.>

0..

/

'"

5

u

B
o

.c

/

§-

V

04

0.2

-20

20

40

60

Ambient Temperature
FIG 3 PHOTO CURRENT VS AMBIENT
TEMPERATURE

80 "C

20

40

60

80

100 "C

Ambient Temperature
FIG 4 DARI( CURRENT VS AMBIENT
TEMPERATURE
VR = 10V, Ee = 0 mW/cm'

1-50

237

TYPICAL ELECTRICAL/OPTICAL/CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
~A

%

100

(

80

\
\

~

.-1li;;:

'1

60

102

1:
l'
:;

c

'""§"
0

"

Co

"
E

101

.<::

40

'"">

.-

I

'"

20

\

800

10°

1\

/
700

/

0..

1\

I

Cii

a:

/

.9-

900

1000

1100

/

10- 1

1200

Irradlance Ee

Wavelength

FIG. 6 PHOTOCURRENT VS
~ 950 nm
IRRADIANCE

FIG 5 RELATIVE SPECTRAL SENSITIVITY
VS WAVELENGTH

175

,

~

""

E
c 125

.0

c.
.,1li'"

1.0

'-

<5
:0

0.9

"

0

0..

0.8

75

0

0.7

"

"\

]

f-

1"\

25

t!d~~~~~~~~;;d;jjl00o
0.5

0.3

0.2

FIG 7 SENSITIVITY DIAGRAM

1-51

238

0.4

06

"

o

o

20

40

60

80

Ambient Temperature
FIG. B TOTAL POWER DISSIPATION VS
AMBIENT TEMPERATURE

100 'C

ILlTErl) ~ II

BLACK PLASTIC PHOTQDIODE
LTR-536AD

FEATURES
•
•
•
•
•

HIGH PHOTO SENSITIVITY .
SUITABLE FOR INFRARED RADIATION.
LOW JUNCTION CAPACITANCE.
HIGH CUT-OFF FREQUENCY .
FAST SWITCHING TIME.

DESCRIPTION
The L TR-536AD is a special dark plastic package that
cut the visible' light and sUitable for the detectors of
infrared applications.
All electncal parameters are 100% tested by manufacturing specification are guaranteed to cumulative .65%
AQL.

PACKAGE DIMENSION

r---""~
+

7.S:!:O.12
,.3:!:·OOS)

NOTE:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange IS 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specification are subject to change without notice.

RADIANT

SENSITive

AREA

1-52

239

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

150

mW

Reverse Break Down Voltage

30

V

Operating Temperature Range

_550 C to +100° C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body]

260°C for 5 Seconds

,L),n

.Iz. ,. J<. tZ- ;:. Q,.3 .",., "'-' Z-

,1"'V"l

IC'

rlH-e'7 -

ELECTRICAL OPTICAL CHARACTERISTICS AT TA = 25°C
PARAMETER
Reverse Break Down Voltage

SYMBOL

MIN

VtBRiR

30

TYP

MAX

UNIT

TEST
CONDITION

V

IR '" 100#A
Ee'" OmW/cm'

nA

VR '" 10V
Ee "" OmW/cm'
A'" 940nm
Ee'" O.5mW/cm'

Reverse Dark Current

10 (R)

Open Circuit Voltage

Voc

350

mV

Rise Time

Tr

50

nsec

Fall Time

Tf

60

nsec

Light Current

Is

2

#A

VR =5V A '" 940nm
Ee'" 0.08mW /cm'

Total Capacitance

Cr

25

pF

VR=3Vf'" lMHZ
Ee=OmW/cm'

ASMAX

950

nm

50

#Acm 2
mw

Wavelength of the Max
Sens itivi ty
Spectral Sensitivity
Noise Equivalent Power
Detection Limit

S

30

1.7

30

NEP

4.4xl0"14

*D

6.3x10 12

W

.;HZ

VR '" 10V
A=940nm
RL = lkn

VR =5V
VR = 10V

cm..{H'Z
w

*The lum inance indicated refers to unfiltered radiation of a tungsten filament LAMP at a color temperature of 2856° K.
1-53

240

TYPICAL ELECTRICAL/OPTICAL/CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
pF

pA

4000

3000

V

~

c

~ 2000

/

/

100

/

80

........

u 60

'"

§"

V

u"

'":;

u

~

u

V

Cl

1000

/

/

40

\
20

"

/
10

15

20

10- 2

Reverse Voltage VR

10- 1

10 1

10°

10 2 V

Reverse Voltage VR

FIG 1 DARK CURRENT VS REVERSE
VOLTAGE
TAMB = 25°C, Ee = 0 mW/cm'

FIG 2 CAPACITANCE VS REVERSE
VOLTAGE
F = 1 MHZ, Ee = 0 mW/cm'

nA

10'

1.4

1.2

1.0

E L!l
.c
ro 10NO.8

L

--

V

I-

I-

/

/

.,9.Ec

~

;; 06

8"o

.<:

/

c.. 0.4

/

02

-20

20

40

60

AmbIent Temperature
FIG 3 PHOTOCURRENT VS AMBIENT
TEMPERATURE

80 "C

20

40

60

80

100 "C

AmbIent Temperature
FIG 4 DARK CURRENT VS AMBIENT
TEMPERATURE
VR = 10V, Ee = 0 mW/cm'

1-54
241

TYPICAL ELECTRICAL/OPTICAL/CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
p.A

%

100

(

80

'inc:"

F

1\

E

\

~

;;

1\

60

.3c:

i!'

~

a 101

en

~

o

b

.c

~
"- 40

en

>
;:;

20

/

\

I

<0

Qi

a:

1\

I

~

0..

1\
700

1

800

900

1000

1100

/

10- 1

1200

Irradlance Ee

Wavelength

FIG 6 PHOTOCURRENT VS
IRRADIANCE
~ 950 nm

FIG 5 RELATIVE SPECTRAL SENSITIVITY
VS WAVELENGTH

175

'1\

5:

E
c: 125

[\

0

'"-"
<0

~
t5

1\

a;

;;:
0
0..

DB

I"-

75

"-

E0

0.7

f-

1\

1'\

25

o
FIG 7 SENSITIVITY DIAGRAM

o

20

40

60

80

AmbIent Temperature

FIG. 8 TOTAL POWER DISSIPATION VS
AMBIENT TEMPERATURE

1-55

242

100 'C

ILlTE[')~11

BLACK PLASTIC PHOTODIODE
LTR·546AD

FEATURES
- HIGH PHOTO SENSITIVITY.
-SUITABLE FOR INFRARED RADIATION.
- LOW JUNCTION CAPACITANCE.
- HIGH CUT-OFF FREQUENCY .
.. FAST SWITCHING TIME.

[J
~'"

I

,

'. ,

'

!

DESCRIPTION
The L TR-546AD IS a special dark plastic package that
cut the visible light and suitable for the detectors of
Infrared application.
All electrical parameters are 100% tested by manufactUring specification are guaranteed to cumulative .65%
AQL.

PACKAGE DIMENSION

I

7.0±O.2

I

(:'8 •• 008>"

;---,
7.6:tO.2

(.3±.ooa)

14.

NOTES:
1. All dimensions are in millimeters (Inches).
2. Tolerance is ±0.25mm (.010") unless otherWise
noted.
3. Protruded resin under flange IS 1.5mm (.059")
max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

008

II.I----Illi

)

=1~ T"

RADIANT SENSITIVE AREA

1-56
243

'.'

ABSOLUTE MAXIMUM RATINGS AT TA =,2SoC
MAXIMUM RATING

UNIT

Power Dissipation

150

mW

Reverse Break Down Voltage

30

V

PARAMETER

Operating Temperature Range

-55"C to +l00·C

Storage Temperature Range

_55°C to +100°C

Lead Soldenng Temperature
[1.6mm (O.063in) From Body]

260" C for 5 seconds

{:)(2.d"V1.
0;;...,-,

-

•l

z. y. , (:l
II

".

::.

{.3 "",,_ z..

Q

ELECTRICAL OPTICAL CHARACTERISTICS AT TA = 25°C
PARAMETER
Reverse Break Down Voltage

SYMBOL

MIN

V {8R}R

30

TYP

MAX

UNIT

TEST
CONDITION

V

IR .. 100pA
Ee=OmW/cm2

nA

VR" 10V
Ee =OmW/cm 2
X= 940nm
Ee =< 0.5mW/cm2

Reverse Dark Current

10 (R)

Open Circuit Voltage

Voc

350

mV

Ri1;eTime

Tr

50

nsec

Fall Time

Tf

50

nsec

Light Current

Is

2

p,A

VR =5VA '" 940nm
Ee'" 0.OBmW/cm2

Total Capacitance

CT

25

pF

VR"'3V f '" lMHZ
Ee'" OmW/cm 2

XSMAX

950

nm

50

pAcm 2
mw

Wavelength of the Max
sensitvity
Spectral SensItivity
Nose Equivalent Power
Detection Limit

S

30

1.7

30

NEP

4.4x 10. 14

*0

6.3xl0 12

W

v'HZ

VR ., 10V
X"'940nm
RL""lKSl

VR =5V
VR "'10V

cm....rRZ
w

*The lum ina nee indicated refers to unfiltered radiation of a tungsten filament LAMP at a color temperature of 2856° K.
1-57

244

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
pF

pA
4000

100

II

3000

lL
80

V

c:
~ 2000

V

::l

U
.>!

0;

V

u 60

"'c:"

l!l
i3
OJ

g-

u

V

o

1000

'"

/

40

f\
20

['.,

V

o
15

10

10- 2

20

Reverse Voltage VR

Reverse Voltage VR

FIG 1 DARK CURRENT VS REVERSE
VOLTAGE
TAMB = 25°C, Ee = 0 mW/cm 2

FIG 2 CAPACITANCE VS REVERSE
VOLTAGE
F = 1 MHZ, Ee = 0 mW/cm'

1.4

1.2

1.0

'-" l- f-

r-

I- l- I-

V

ro-

_rr:

~I~ O.B

..e-E-

c:
e

c:

u

J

'5

a 0.6
~

.>!

0;

0

B
o

.s:::
0..

1/

10'

10°

04

0.2

V
/

,/
-20

20

40

60

Ambient Temperature

FIG 3 PHOTOCURRENT VS AMBIENT
TEMPERATURE

80 'C

20

40

60

80

100 'C

Ambient Temperature

FIG 4 DARK CURRENT VS AMBIENT
TEMPERATURE
VR = lOV, Ee = 0 mW/cm'

1-58
245

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
p.A

%

100

(

\

\

80

\
\

::;;

B 60

L



iii
w
a:

I

20

\
1\

J
700

800
900
Wavelength

1000

1100

10- 1

1200

Irradiance Ee

FIG 6 PHOTOCURRENT VS
IRRADIANCE
= 950 nm

FIG. 5 RELATIVE SPECTRAL SENSITIVITY
VS WAVELENGTH

175

"1\

:s:

E

1'\

"0 125
jii
0-

~
Ci

[\

:u

s:
0

c..

1'\

75

"[\

'ji!
0

0.7

f-

'\
25

o
FIG 7 SENSITIVITY DIAGRAM

o

20

40

60

80

Ambient Temperature

FIG 8 TOTAL POWER DISSIPATION VS
AMBIENT TEMPERATURE

1-59

246

100 'C

ILlTE[.] ~ II

PLASTIC SIDE LOOK
TRANSMISSIVE SWITCHES
LTH-301A

FEATURES
• NON-CONTACT SWITCHING.
• FOR DIRECT PC BOARD
SOCKET MOUNTING.
• FAST SWITCHING SPEED

OR DUAL-IN-L1NE

DESCRIPTION

H
I '

The LTH-301 A consists of a Gall ium Arsenide infrared
emitting diode and an NPN silicon phototransistor
mounted in a low cost black plastic hOUSing on opposite
sides of a 0.061" 11.55mm) wide slot. Phototransistor
switching takes place whenever an opaque object passes
through the slot. The L TH-301A IS deSigned for direct
solding into PC boards of mounting In standard dualin-line sockets.
All electrical parameters are 100% tested by manufacturing. Specifications are guaranteed to a cumulative
.65% AQL.

PACKAGE DIMENSIONS
3.2:!:O.13
(.126±.005)

N~~

BOTTOM

VIEW

.. -

12 8+0 05

(o504±.OI)

3_.

(_15)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance IS ±0.25mm (.010") unless otherWise
noted.
3. Specifications are subject to change without notice.

t
6 .9

(- .1)

t

5:.
T

(.221)

5_2
(_'05)

- - t---

f-- 1--

0 pTICAL

~

~~

11·
9_6
(.378)

2_5
CO.l)

1-60
247

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

MAXIMUM RATING

UNIT

Diode Power Dissipation

100

mW

Phototransistor Collector-Emmer Voltage

30

V

Phototransistor Emitter-Collector Voltage

5

V

1.33

mW/oC

Diode Derating linear From 25°C
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55° C to +100° C

Lead Soldering Temperature
[1.6mm (0.063inl From Body]

2600 C for 5 Seconds

ELECTRICAL CHARACTERISTICS AT TA = 2SoC
PARAMETER

SYMBOL

MIN

TYP

MAX

UNIT

TEST
CONDITION

INPUT DIODE
Forward Voltage

VF

1.2

1.6

V

Reverse Current

IR

0

100

IJ.A

IF <= 20mA
VR "'5V

OUTPUT PHOTOTRANSISTOR

= 1mA

Collector Emltter Breakdown Voltage

V(BR) CEO

30

V

Ic

Emitter Collector Breakdown Voltage

V (BR) ECO

5

V

IE <= 100IJ.A

Collector Emitter Dark Current

ICEO

Vce<=10V,IF =0

100

nA

0.4

V

Ic= 0.5mA
IF'" 20mA

mA

Vce'" 5V
IF =< 20mA

COUPLER
Collector Emitter Saturation Voltage

On State Collector Current
1-61

248

VCE

(SAT)

Ie (ON)

0.5

1

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless 01herwlse Noted)

40
3 r--

«

30

z
L1J

f-

25

::J
U
0

20

«

15

E
I

a:
a:
a:

~

a:
0

lL

VCC= 10V

w

I

a:
a:

::J
U

II

0' = 0.030 VOLTS BETWEEN
IF = 1rnA ANO 40rnA

/

10 2

'" 10
«
0
'
a:

II

f-

V

LO

V

..J
..J

0

I

10

u
w

5
0

0- 1

>
;::

I
V

«
...J
0- 2
W
a:

/

V

/

0
-50

0.2 0.4 0.6 0.8 1.0 1.2 1.4
v F - FORWARD VDLTAGE-VOLTS

V

/

/

a:

0

u
L1J

I
_lL

I

Forward Current
VS FORWARO VOLTAGE

/

10 3
fZ

V

o

-25

25

50

75

100

T A -AMBIENT TEMPERATURE- °C

FIG. 1 FDRWARD CURRENT VS FORWARD VOLTAGE

FIG 2 RELATIVE COLLECTOR DARK CURRENT
VS AMBIENT TEMPERATURE

1.0
f-

zw

a:

rr

0.9

~
IF=20rnA
VCE=10V

0.8
0.7

::J
U
f::J

0.6

f::J

0.5

- - r---.: -

+2a
-2a

>
;::

«

...J

Ul

::l,

TYP

::;;

;::
...J
...J

-2a

«

u.

0.4

0

z

TYP

10

«

0.3

L1J

W

a:

+2a

300
200
100

u
w
I
w

Il..

0
w

TYP

Ul

a:

0.2

I
;r

0.1

~-

0
10

100

1,000

10,000

100

FIG 3 RELATIVE OUTPUT CURRENT VS TIME

lK

5K 10K

FIG D RL -LOAD RESISTANCE-OHMS

T - TIME- HOURS
FIG. 4

RISE AND FALL TIME VS LOAD RESISTANCE

1·62
249

ILITEr.] ~ II

PLASTIC SIDE LOOK
TRANSMISSIVE SWITCHES
lTH-301·07

FEATURES
• NON-CONTACT SWITCHING.
• FOR DIRECT PC BOARD OR
SOCKET MOUNTING.
• FAST SWITCHING SPEED

r------------ -.- --------------------------------l
DUAL-IN-LiNE

!

:
, ,"

,,'~

DESCRIPTION
The L TH-301-07 consists of a Gallium Arsenide Infrared
emitting diode and an NPN silicon phototranslstor
mounted in a low cost black plastiC housing on opposite
sides of a 0.02" (0.5mm) wide slot. Phototransistor
switching ·takes place whenever an opaque object passes
through the slot. The L TH-301-07 is designed for direct
solding into PC boards of mounting in standard dualin-line sockets.
All electrical parameters are 100% tested by manufacturing. Specifications are guaranteed to a cumulative
.65% AQL.

PACKAGE DIMENSIONS

BOTTOM

vIew

5

(0.197)

r-

10
(0.394)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Specifications are subject to change without notice.

r-1
OPTICAL

.-.
2.5.
0.1)

W

(0.205)

1-63

250

0.7

(0.0281

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING

UNIT

Diode Power Dissipation

100

mW

Phototransistor COllector-Emitter Voltage

30

V

Photo transistor Em itter -Co Ilector Vo Itage

5

V

1.33

mWtOC

Diode Derating Linear From 25°C
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260°C for 5 Seconds

ELECTRICAL CHARACTERISTICS AT TA = 25°C
PARAMETER

SYMBOL

MIN

TYP

MAX

UNIT

TEST
CONDITION

..

INPUT DIODE
Forward Voltage

VF

1.2

1.6

V

Reverse Current

IR

0

100

J.lA

VR =5V

IF=20mA

OUTPUT PHOTOTRANSISTOR
Collector Emitter Break down Voltage V(SR) CEO

30

V

Ic = lmA

V (BR) ECO

5

V

IE

Emitter Collector Breakdown Voltage
Collector Emitter Dark Current

I CEO

100

nA

VeE (SATl

0.4

V

= 100ltA

Vce=10V,IF=0

COUPLER

Collector Emitter Saturation Voltage

On State Collector Current

Ie (ON)

0.4

0.7

mA

Ie'" 0.2mA
IF '" 20mA
VeE

= 5V

IF '" 20mA

1-64

251

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25° C Ambient Temperature Unless Otherwise Noted)

40
3

«

E
I

f-

25

::J
U
Cl

20

«

15

c::

3:
a:
0

"-

w

II

5

/
0.4
-

0.6

0.8

1.0 1.2

..J

a:

1.4

0.7

::J
U
f::J

0.6

f::J

0.5

>

w

0.4

«

0.3

0

f=

..J

W

a:

IF=20rnA
VCE= 10V

0.8

/

/

0 ~
-50 -25

o

25

50

75

100

TA-AMBIENT TEMPERATURE-oC

FORWARD VOLTAGE-VOLTS

~ I--

V

f=

« 0- 2
W

~

/

0- 1

>

I

~

/

1.0

..J'
..J

w

0.9

/

0

0

10

/

a:

FIG. 1 FORWARD CURRENT VS FORWARD VOLTAGE

0..

10 1

Cl

u

vF

a:
a:

'"a:«

::J
U

w

0.2

zw

10 2

f-

0

f-

a:
a:

u

1.0

Vee = 10V

Z

II

a = 0.030 VOLTS BETWEEN
IF = 1rnA AND 40rnA

I

-"-

f-

I

30

zw

c::
c::

Forward Current
VS FORWARO VOLTAGE

r---

/

10 3

I

- -------....:

FIG. 2 RELATIVE COLLECTOR DARK CURRENT
VS AMBIENT TEMPERATURE

+2a

-2;;

TYP

+2a

300
200
100

u
w

(f)

::I.
I
w

TYP

~

i=

..J
..J

-2a

«
"Cl

z

TYP

10

«
w

rJl

a:

0.2

I

~

0.1

~~

0
10

100

1,000

10,000

100

FIG. 3 RELATIVE OUTPUT CURRENT VS TIME

'·65
252

lK

5K 10K

FIG D RL -LOAD RESISTANCE-OHMS

T - TIME-HOURS
FIG 4

RISE AND FALL TIME VS LOAD RESISTANCE

ILlTE(']~11

INFRARED REMOTE CONTROl,
RECEIVER MODULES
LTM-8705A

FEATURES
• EASY TO HANDLE SMALL TYPE MODULE.
• EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY .
• CAN BE INSTALLED DIRECTLY TO EQUIPMENT.

DESCRIPTION
• The module is a small type infrared remote control
system receiver which has been developed and
designed by utilizing the latest hybrid technology.
• It is a single unit type module which incorporates
a PIN diode and a receiving preamplifier IC.
e It can be used for TVs, VTRs, audio equipment, air
conditioners, car stereo radio, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS
59
(0232)

(0091)
23

+--~-t- 1

'46
(0575)

'-------I--......J~
226

rr
I (0'j9~)

NOTES:
1. All dimensions are in millimeters (Inches).
2. Tolerance is ±0.25mm L010"} unless otherwise
noted.

236
(0929)

r-(0890)~

509
(02)

23
(0091)

100
0

127

(05)

L

nn
0

J3 r
(0445)

L
1 Output

L

89
(0346)-

2 Vee
3 Gnd

1-66

253

ILlTE['] ~ II

·INFRARED REMOTE CONTROL
RECEIVER MODULES
LTM·8705A

FEATURES
• EASY TO HANDLE SMALL TYPE MODULE.
• EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
.CAN BE INSTALLED DIRECTLY TO EQUIPMENT.

,-

DESCRIPTION
• The module is a small type IrTfrared remote control
system receiver which has been developed and
designed by utilizing the latest hybrid technology.
• It is a single unit type module which incorporates
a PIN diode and a receiving preamplifier IC.
• It can be used for TVs, VTRs, audio equipment, air
conditioners, car stereo radio, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS
59

(0232)

l

23
(0091)+--1-_-'-

14 S
(0575)

'-------+----'-+
226

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm <.010") unless otherwise
noted.

rr

r-(0890)~

508

I (~~g,)

(ool(0;:.:;2o.t)-I-~(02o~,)

200

(0787)

In n

0

(0461)

L
1 Output

(0575)

1-67

(r

1L

L
2 Vee
3 Gnd

254

rOD0

127

~
(0346)

ILlTE['] ~ II

INFRARED REMOTE CONTROL
RECEIVER MODULES
LTM·8705C

FEATURES
• EASY TO HANDLE SMALL TYPE MODULE.
• EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
• CAN BE INSTALLED DIRECTLY TO EQUIPMENT.

DESCRIPTION
.The module is a small type infrared remote control
system receiver which has been developed and
designed by utilizing the latest hyb~id technology.
• It is a single unit type module which incorporates
a PI N diode and a receiving preamplifier I C.
• It can be used for TVs, VTRs, audio eqUipment, air
conditioners, car stereo radio, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS

23
(0091)1--+-_'-

226
(OB90)~

I~O
L

127

(05)

NOTES:
1. All dimensions are in millimeters (inches),
2. Tolerance IS to.25mm (,010") unless otherwise
noted.

~
TYPE

ij ~ ij

0

0

!

340
(1339)

I

~

ij

1 2 3

1 Output (Black)
2 Vee (Red)
3 Gnd (White)

1-68

255

ILlTE['] ~ II

INFRARED. REMOTE CONTROL
RECEIVER MODULES
LTM-87050

FEATURES
e EASY TO HANDLE SMALL TYPE MODULE.
e EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
eCAN BE INSTALLED DIRECTLY TO EQUIPMENT.

',:,

DESCRIPTION
e The module is a small type Infrared remote control
system receiver which has been developed and
designed by util izing the latest hybrid technology.
elt is a single unit type module which incorporates
a PIN diode and a receiving preamplifier IC.
elt can be used for TVs, VTRs, audiO equipment, air
conditioners, car stereo radio, toys, home computers
and all other equipments requIring remote control.

PACKAGE DIMENSIONS
59
(0232)

(0

~:,)+--+_-'---_ -rI

-I

(0575)

'----+-_--1~
226

rr

236

NOTES:
1. All dimensions are In millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.

r-(0890)~

50B
(02)

(0591)

18
(0071)

(0929)

1 Output

2 Vee
3 Gnd

146
(0575)

1-69
256

INFRARED REMOTE CONTROL RECEIVER

1. ABSOLUTE MAXIMUM 'RATINGS (Ta = 25°C)
* Supply voltage
* Storage temperature
* Operating temperature

Vee

Tstg
Topr

6.3
-20 to +60
-10 to +60

v
°e
°e

2. RECOMMENDED OPERATING CONDITION
* Supply voltage

Vee

4.7

to

5.3

V

3. MODULE SCHEMATIC

INTEGRATOR
AMP

LIMITER

BPF.

COMPARATOR

DEMODULATOR

GND

Vee

Vo u !

4. RECEIVER MODULE EQUIVALENT CIRCUIT

PREAMPLIFIER

Gnd

Va

Vee

1·70
257

5. MEASURE METHOD
A. Standard transmitter:
The transmitter whose output is adjusted up become Vo ~ 400 mVp·p by the output waveform as shown in Fig. 1
and using the measuring method as shown in Fig. 2 is specified as the standard transmitter.
However, the infrared diode to be used for the transmitter should be ;>,.peak ~ 940 nm, 6.;>,. ~ 50 nm.

'j,

k~r-

Fig. 1 Output waveform

1.. 1•• 1
600

,.

20 em

c:=:=:n:
Standard
transmitter

"

600(~s)

z

~

lTR-516AD

I

I
I
IL _____________ -I

o

Flg.2 Measuring method

Oscilloscope

8. Arrival distance measuring condition as shown in Fig. 3

Transmitter output

r-I-------r----:;::i>:at
D.U.T.: DEVICE UNDER TEST
fJ, Irndlcates hOrizontal)
and vertical directions)

L

c.

Fig.3 Arrival distance L measuring condition

Pulse width measuring condition
Specifies at the TWL and the TWH period of the output pulse by using the aforementioned standard transmitter
as shown in Fig. 4.

Transmitter outl1lt

OUT output pulse

Fig. 4 Output pulse

1-71

258

6. ELECTRICAL CHARACTERISTICS
(Ta = 25°C. Vcc = 5V)

RATING
SYMBOL

ITEM

CONDITION

UNIT
MIN.

Current consumption

Non-signal input

Icc

8.0

The ray receiving surface at a
vertex and In relation to the
ray axis:
a. In the range of 30° cone
b. In the range of 45° cone

L

MAX.

1.1

At the ray axis

Arrival distance

TYP.

2.5

mA

10.0

m
6.0
3.0

Low level output
voltage

VL

30 cm over the ray axis

High level output
voltage

VH

30 cm over the ray axis

4.5

TWL

Specified by the output TWL
period within a range from
5cm to the arrival distance
(Average value of 50 pulses)

410

660

910

)J,S

TWH

Specified by the output TWH
penod within a range from
5cm to the arrival distance
(Average value of 50 pluses)

290

540

790

)J,s

Low level pluse width

High level pluse width

0.5

V

V

• CARRIER WAVE FREQUENCY FO = 38 KHZ

7. ELECTRICAL CHARACTERISTIC CURVES
%
100

I.1J

u

(

80

z

..:

tn

60

/

Ci
..J

..: 40

>
a:

%

.,;

~11O

/ i\

z
..:

Ci 100

..J

..:
>

"'

0:

..: 20
20

tn

~

30

40

50

a:0:

""'"

I---

..: 90

60

70

Vs EMITIER FREQ
ARRIVAL DISTANCE / Vs EMITIER FREQ

IkHZI

80
45

5.5

IVI

Vs SUPPLY VOLTAGE
ARRIVAL DISTANCE I Vs SUPPLY VOLTAGE

1-72
259

ILlTErl] ~ II

INFRARED REMOTE ·CONTROL
RECEIVER MODULES
l TM-8834/8834-1/8834-2
8834-3/8834-4/8834-5

FEATURES
_........... '""""',

~'~..,.,M

. .

.... ""'_.........,_....

• EASY TO HANDLE SMALL TYPE MODULE.
• EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY .
• CAN BE INSTALLED DIRECTLY TO EQUIPMENT.

,,,'~

DESCRIPTION
• The module is a small type Infrared remote control
system receiver which has been developed and
deSigned by utiliZing the latest hybrid technology.
• It IS a single unit type module which incorporates
a PIN diode and a receiving preamplifier IC.
• It can be used for TVs, VTRs, audio equipment, air
conditioners, car stereo radio, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS

D
I

,

1475
(0581)

60
(0236)

,

I
1475
(0 581)

I"

'I

c
NOTES:
1. All dimensions are In millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.

1·73
260

(062~6)

:.::.:.:.c.j--/l

MIN

..., .....

INFRARED REMOTE CONTROL RECEIVER
1. ABSOLUTE MAXIMUM 'RATINGS (Ta = 25°C)
* Supply voltage
* Storage temperature
* Operating temperature

V

6.3
-20 to +60
-10 to +60

Vee

Tstg
Topr

°c
°c

2. RECOMMENDED OPERATING CONDITION
* Supply voltage

4.7 to 5.3

Vee

V

3. MODULE SCHEMATIC

INTEGRATOR
AMP

LIMITER

BPF.

COMPARATOR

DEMODULATOR

GND

Vee

Vout

4. RECEIVER MODULE EOUIVALENT CIRCUIT

PREAMPLIFIER

--

Gnd

Vo

Vee

1-74
261

5. MEASURE METHOD
A. Standard transmitter:
The transmitter whose output is adjusted up become Vo = 400 mVp-p by the output waveform as shown in Fig. 1
and using the measuring method as shown in Fig. 2 is specified as the standard transmitter.
However, the infrared diode to be used for the transmitter should be Apeak = 940 nm, b.A = 50 nm.

'I,

Fig. 1 Output waveform

I"'

20 em

~--;D-Standard
transmitter

z

~
LTR·516AD

I

I
I
IL _____________ .J

o

Flg.2 Measuring method

Oscilloscope

B. Arrival distance measuring condition as shown in Fig. 3

Transmitter output

r-,------+----::::::""I
D.U.T.: DEVICE UNDER TEST

o hndlcates hOrizontal}
and vertical drectlons)

L

Fig. 3 Arrival distance L measuring condition

C. Pulse width measuring condition
Specifies at the TW L and the TWH period of the output pulse by using the aforementioned standard transmitter
as shown in Fig. 4.

Transmitter outJl.,.lt

DUT output pulse

Flg.4 Output pulse

1·75

262

6. ELECTRICAL CHARACTERISTICS
(Ta = 25°C, Vee = 5V)

RATING
ITEM

CONDITION

SYMBOL

UNIT
MIN.

Current consumption

Non-signal input

Icc

8.0

The ray receiving surface at a
vertex and in relation to the
ray axis:
a. In the range of 30° cone
b. I n the range of 45° cone

L

MAX.

1.1

At the ray axis

Arrival distance

TYP.

2.5

mA

10.0

m
6.0
3.0

Low level output
voltage

VL

30 em over the ray aXIs

High level output
voltage

VH

30 cm over the ray aXIs

45

TWL

Specified by the output TWL
period within a range from
5cm to the arrival distance
(Average value of 50 pulses)

410

660

910

j.IS

TWH

Specified by the output TWH
period within a range from
5cm to the arrival distance
(Average value of 50 pluses)

290

540

790

fJ.S

Low level pluse width

High level pi use width

0.5

* CARRIER WAVE FREQUENCY FO= 1. LTM·8834·568
(KHZ) 2 L TM·8834-1 38
3 L TM·8834·2 32.7

V

V

4. L TM·8834·3:36
5. L TM-8834·4·50
6. L TM·8834·5·64

7. ELECTRICAL CHARACTERISTIC CURVES
%

3

100

L1J

u

4 2

%

ao

~ 110

2

2

~

~

>- 60
Q

!ii

...J

...J

Ul

~

>

Q 100

40

~

~

'---

>

a:a:
~

~

a:a:
~

20

20

30

40

50

60

70

Vs EMITTER FREQ
ARRIVAL DISTANCE / Vs EMITTER FREQ.

(kHZ)

90

80

55

4.5

(V)

Vs SUPPLY VOLTAGE
ARRIVAL DISTANCE / Vs SUPPLY VOLTAGE

1-76

263

ILITEr.] ~ II

INFRARED REMOTE CONTROL
RECEIVER MODULES
LTM·8835

FEATURES
- EASY TO HANDLE SMALL TYPE MODULE.
- EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
-CAN BE INSTALLED DIRECTLY TO EQUIPMENT.

DESCRIPTION
-The module is a small type infrared remote control
system receiver which has been developed and
designed by utilizing the latest hybrid technology.
-It is a single unit type module which Incorporates
a PIN diode and a receiving preamplifier IC.
-It can be used for TVs, VTRs, audio equipment, air
conditioners, car stereo radio, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS
160

['; t.l.

(0567)

o'o=:Lj
27

(0106)

NOTES:
1. All dimensions are in millimeters (Inches).
2. Tolerance is ±0.25mm (.010") unless otherwls'e
noted.

~
254

(01)

1 Output
2 Vee
3 Case Gnd
4 Case Gnd

1-77
264

ILITEr.] ~ II

INFRARED REMOTE CONTROL
RECEIVER MODULES
LTM-8836

FEATURES
o EASY TO HANDLE SMALL TYPE MODU~E.
o EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
oCAN BE INSTALLED DIRECTLY TO EQUIPMENT.

DESCR IPTION
o The module IS a small type Infrared remote control
system receiver which has been developed and
designed by utilizing the latest hybrid technology.
o It IS a Single unit type module which Incorporates
a PI N diode and a receiving preamplifier I C.
o It can be used for TVs, VTRs, audio equipment, air
conditioners, car stereo radio, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS
138
(0543)

1 254 (01)

254
(01)

~
~

11 7
(0461)

~

NOTES:
1. All dlmenslo~s afe in millimeters (inches).
2. Tolerance IS ±0.25mm 1.010") unless otherwise
noted.

205
(0807)
145
(0571)
120
(0472)

3.
(0154)

fc A L'n "
13""" '.7)U-::-:
l 0 r::1 I(~~:,)I

160
(063)

50

(0

~I
;;7}
(On
I

1
2
3
4
5

Vee
Output
Gnd
Case Gnd
Case Gnd

40

I'-I'I-+-~ (0 157)

1-78

265

INFRARED REMOTE CONTROL RECEIVER
1. ABSOLUTE MAXIMUM 'RATINGS (Ta = 25°C)
* Supply voltage

* Storage temperature
* Operating temperature

Vee
Tstg
Topr

6.3
-20 to +60
-10 to +60

V

°e
°e

2. RECOMMENDED OPERATING CONDITION
* Supply voltage

Vee

4.7 to 5.3

V

3. MODULE SCHEMATIC

INTEGRATOR
AMP

LIMITER

BPF.

COMPARATOR

DEMODULATOR

GND

Vee

Vou!

4. RECEIVER MODULE EQUIVALENT CIRCUIT

PREAMPLIFIER

1-79

266

--

Gnd

Vo

Vee

5. MEASURE METHOD
A. Standard transmitter:
The transmitter whose output IS adjusted up become Vo = 400 mVp-p by the output waveform as shown in Fig. 1
and using the measuring method as shown In' Fig. 2 is specified as the standar~transmitter.
However, the infrared diode to be used for the transmitter should be Apeak = 940 nm, 6A = 50 nm.
'10

Fig. 1 Output waveform

600

I-

20 em

r-LOls----i::
Standard
transmitter

6001~sl

z

,
~

LTR-516AO

I

I
I
IL _____________ .J

o

Fig. 2 MeaSUring method

Oscilloscope

B. Arrival distance measuring condition as shown in Fig. 3

Transmitter output r~I-------t----:::::>:>j

D U T .. DEVICE UNDER TEST

o {indicates hOrizontal}
and vertical drectlons)

L

Fig. 3 Arrival distance L measuring condition

C. Pulse width measuring condition
Specifies at the TW L and the TWH period of the output pulse by using the aforementioned standard transmitter
as shown In Fig. 4.

Transmitter DutllJt

OUT output pulse

Fig.4 Output pulse

1-80
TWL

TWH

267

6. ELECTRICAL CHARACTERISTICS
(Ta

= 25°C, Vee = 5V)

RATING
ITEM

SYMBOL

CONDITION

UNIT
MIN.

Current consumption

Icc

Non-Signal input

TYP.

MAX.

1.1

At the ray axis

6.3

2.5

7.8

mA

.

The ray receiving surface at a
Arrival distance

vertex and in relation to the

L

ray axis:
a. In the range of 30° cone
b. In the range of 45° cone

m
5.1
3.9

Low level output
voltage

VL

30 cm over the ray axis

High level output
voltage

VH

30 cm over the ray axis

4.5

Low level pluse width

TWL

Specified by the output TWL
period within a range from
5cm to the arrival distance
(Average value of 50 pulses)

410

660

910

IlS

High level pluse width

TWH

Specified by the output TWH
period within a range from
5cm to the arrival distance
(Average value of 50 pluses)

290

540

790

IlS

* CARRIER WAVE FREQUENCY Fa

=

0.5

V

V

36 KHZ

7. ELECTRICAL CHARACTERISTIC CURVES
%
100

w 80

/

u

z

~

Ul

60

i5
..J

:; 40

,

/

%

('\

~ 110

20

20



;;:
a:



.......

0:

II:

«

60

70

Vs EMITTER FREQ
ARRIVAL DISTANCE I Vs EMITTER FREQ.

272

110

!ii

""

~

«

z

«

IkHZI

90

80

5.5

45
Vs SUPPLY VOLTAGE

ARRIVAL DISTANCE I Vs SUPPLY VOLTAGE

IVI

ILlTE[']~1I

INFRARED REMOTE CONTROL
RECEIVER MODULES
LTM-8848

FEATURES
- EASY TO HANDLE SMALL TYPE MODULE.
- EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
-CAN BE INSTALLED DIRECTLY TO EQUIPMENT.
-~-

C:::-~;..JJ;

,

II -

'kl-"

r~,

J DESCRIPTION
- The module IS a small type Infrared remote control
system receiver which has been developed and
designed by utilizing the latest hybrid technology.
-It is a Single unit type module which Incorporates
a PIN diode and a receiVing preamplifier IC.
- It can be used for TVs, VTRs, audio equipment, air
conditioners, car stereo rad 10, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS

LJ
I•

240
(0945)

•

I

IT

172 (0 528)

(0

NOTES:
1. All dimenSions are in millimeters (Inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.

~'Ir--Ir-1r--1Ir-----,I'
I

1 2 3

~.4j
(0268)

1 Vee
2 Output
3 Gnd

20
(0079)

1-86

273

ILlTE[.] ~ II

INFRARED REMOTE .CONTROL
RECEIVER MODULES
LTM-8848A

FEATURES
e EASY TO HANDLE SMALL TYPE MODULE.
e EXCELLENT MECHANICALLY STRENGTH AND
ELECTRICAL STABILITY.
eCAN BE INSTALLED DIRECTLY TO EQUIPMENT.

DESCRIPTION
eThe module is a small type infrared remote control
system receiver which has been developed and
designed by utilizing the latest hybrid technology.
e It is a single unit type module which incorporates
a PIN diode and a receiving preamplifier IC.
e It can be used for TVs, VTRs, audio equipment, air
conditioners, car stereo radiO, toys, home computers
and all other equipments requiring remote control.

PACKAGE DIMENSIONS

r

34
(0134)

223

NOTES:
1. All dimensions are in millimet.ers (inches!'
2. Tolerance is ±0.25mm 1.010") unless otherwise
noted.

'[

1 Vee
2 Output
3 Gnd
240
(0945)

1-87

274

140
(0551)

INFRARED REMOTE CONTROL RECEIVER
1. ABSOLUTE MAXIMUM 'RATINGS (Ta = 25°C)
* Supply voltage
* Storage temperature
* Operating temperature

v

6.3
-20 to +60
-10 to +60

Vee

Tstg
Topr

°e
°e

2. RECOMMENDED OPERATING CONDITION
* Supply voltage

4.7 to 5.3

Vee

V

3. MODULE SCHEMATIC

INTEGRATOR
AMP

LIMITER

BPF.

COMPARATOR

DEMODULATOR

GND

Vee

Vou!

4. RECEIVER MODULE EQUIVALENT CIRCUIT

PREAMPLIFIER

Gnd

Va

Vee

1-88
275

5. MEASURE METHOD
A. Standard transmitter:
The transmitter whose output is adjusted up become Vo = 400 mVp·p by the output waveform as shown in Fig. 1
and using the measuring method as shown in Fig. 2 is speCified as the standard transmitter.
However, the infrared diode to be used for the transmitter should be 7I.peak = 940 nm, A7I. = 50 nm.
'10

kJur-

Fig. 1 Output waveform

101 .• 1
600

600(~s)

20 em

o

Fig. 2 Measuring method

LTR-S16AD
Oscilloscope

B. Arrival distance measuring condition as shown in Fig. 3

TransmItter output

rif--------'r------::7:ot
D.U T.: DEVICE UNDER TEST
8 (IndIcates hOrizontal)
and vertical cirectlOns)

L

c.

Fig.3 Arrival distance L measuring condition

Pulse width measuring condition
SpeCifies at the TWL and the TWH period of the output pulse by uSing the aforementioned standard transmitter
as shown In Fig. 4.

TransmItter outpJt

DUT output pulse

Flg.4 Output pulse

'·89

276

6. ELECTRICAL CHARACTERISTICS
(Ta = 25°C, Vcc = 5V)

RATING
ITEM

SYMBOL

CONDITION

UNIT
MIN.

Current consumption

Icc

Non-signal input

8,0

The ray receiving surface at a
vertex and in relation to the
ray axis:
a, I n the range of 30° cone
b, In the range of 45° cone

L

MAX.
2,5

1.1

At the ray axis

Arrival distance

TYP.

mA

10,0

m
6,0
3,0

Low level output
voltage

VL

30 cm over the ray axis

High level output
voltage

VH

30 cm over the ray axis

4,5

TWL

Specified by the output TWL
period within a range from
5cm to the arrival distance
(Average value of 50 pulses)

410

660

910

J.LS

TWH

Specified by the output TWH
period within a range from
5cm to the arrival distance
(Average value of 50 pluses)

290

540

790

J.LS

Low level pi use width

High level pluse width

* CARRI ER WAVE FREQUENCY FO

0.5

V

V

= 36 KHZ

7. ELECTRICAL CHARACTERISTIC CURVES
%
100

%

(\

w 80

z
«

tii

60

15
-'

;; 40

~

tJz

V

u

V
"

/

\

""

« 20
20

30

40

110

«
Iii

50

is 100

-'
«

~

~

b--

>

"'

ii:

a::

«

90

80
60

Vs EMITTER FREQ
ARRIVAL DISTANCE I Vs EMITTER FREQ

70

(kHZ)

45

55

IV)

Vs SUPPLY VOLTAGE
ARRIVAL DISTANCE I Vs SUPPLY VOLTAGE

1-90

277

2. LED· Lamps
.•
•
•
•
..
•
•
•
•
•
•
•
.. •
•

SELECTION GUIDE
HOW TO USE -L1TON LED LAMPS
CROSS REFERENCE GUIDE
RESISTOR LAMPS
FLASH LAMPS .
AXIAL LAMPS SURFACE MOUNT ASSEMBLY LED LAMPS
BIG LED LAMPS
ULTRA BRIGHT LED LAMPS·
LOW CURRENT -LED LAMPS
STANDARD LED" LAMPS
SPECIAL LED LAMPS
DUAL· COLOR LED LAMPS
TAPE AND REEL
- RADIAL TAPE AND REEL ..
- SURFACE MOUNT TAPE AND REEL
• PANEL MOUNTING GROMMENTS
• LED CIRCUIT BOARD AND SNAP-IN INDICATORS

'SELECTION GUIDE
RESISTOR LAMPS
DEVICE

DESCRIPTION

OUTLINE
PACKAGE

PART NO.

COLOR**

LTL·4201-R 1 Red
(655 nm)
L TL-4201·R2

~
6

l TL-4211-R 1 Bright Red
(697 nm!
LTL·4211·R2
T·l
Standard
1" LEAD

3cP

T-1%
Standard
1" LEAD

5cP

LENS
Diffused

LUMINOUS TYPICAL
OPERATING PAGE
INTENSITY VIEWING
ANGLE
VOLTAGE
NO.
Iv TYP.
28%*
0.8 mcd

40°

0.9 mcd
Diffused

1.7 mcd

12 V
40°

1.8mcd

L Tl·4231·R 1 Green
(565 nm!
LTL-4231·R2

Diffused

l TL-4251-R 1 Yellow
(585 nm)
LTl-4251-R2

Diffused

5.6 mcd

40°

Diffused

L TL·4203·R1 Red
(655 nm)
LTL·4203·R2

Diffused

L TL·4213·Rl Bright Red
(697 nm!
LTL·4213-R2

Diffused

LT L·4223·R 1 Hi.Eff.Red
(635 nm!
LTL-4223·R2

Diffused

LTL·4233·R 1 Green
(565 nm)
LTL-4233·R2

Diffused

LTL-4253·R1 Yellow
(585 nm)

Diffused

LTL-4293·R1 Orange
(630 nm)
LTL-4293·R2

Diffused

LTL·4238·Rl Green
(565 nm)
LTL·4238·R2

water Clear

5.6 mcd

40°

40°

36°

36°

36°

8.7 mcd

36°

36°

5V

2-43

5V
12V

36°

5V
12 V

8.9 mcd
70 mcd

5V

12V

8.9 mcd
8.7 mcd

5V

12V

8.9 mcd

LTL-4253·R2

5V

12V

8.9 mcd
8.7 mcd

5V

12V

4.0 mcd
8.7 mcd

5V

12 V

1.0 mcd
3.8 mcd

2·35

12V

5.7 mcd
0.8 mcd

5V
12 V

5.7 mcd

LTL·4291·Rl Orange
(630 nm)
L Tl·4291-R2

5V
12 V

5.8 mcd
5.6 mcd

5V

20°

5V
12 V

85mcd

FLASH LAMPS
OEVICE

DESCRIPTION

OUTLINE
PACKAGE

Notes.
2·1
280

~

T-l%
Standard
1" LEAD

5cP

LUMINOUS
INTENSITY
lvTYP.

PART NO.

COLOR**

LENS

LTL-4263·FL

Red
(660nm)

Diffused

30mcd

Bright Red
LTL·4213-FL (697 nm)

Diffused

1.0 mcd

Green
LT L·4233·F L (565 nm)

Diffused

BLINK
FREQ.

PACKAGE
DIMENSION

f= 2.2 HZ

2·52
f= 2.2 HZ

1.5 mcd

* 20)1, IS the off-axis angle at which the luminous intensity is half the axial luminous intensity.
** Peak Emission wavelength (nml.

Ei)

AXIAL LAMPS
,
DEVICE

DESCRIPTION

OUTLINE
PACKAGE PART NO.

Subminiature

~

=~=

Lamp

t!1

LUMINOUS
INTENSITY
Iv TYP.
@ 10mA

TYPICAL
VIEWING VfTYP. PAGE
ANGLE @20mA NO.

COLOR**

LENS

LTL-93BEK 1

Orange
(630 nm)

Water Clear

125 mcd

34°

2.0 V

LTL-93BGK1

Green
(565 nm)

Water Clear

15.0mcd

34 0

2.1 V

LTL-93BYK1

Yellow
(585 nm)

Water Clear

8.5mcd

34 0

2.1 V

2011:.*

2-57

Orange
LTL-93BHRA 1
(630 nm)

Diffused

3.7 mcd

900

2.0V

LTL-93BGA1

Green
(565 nm)

Diffused

2.5mcd

900

2.1 V

LTL-93BYA1

Yellow
(585 nm)

Diffused

5.6 mcd

900

21 V

s SURFACE MOUNT ASSEMBLY LED LAMPS
DEVICE

DESCR IPTION

OUTLINE
PACKAGE

~

0

PART NO.

LUMINOUS
INTENSITY
Iv TYP.
@20mA

TYPICAL
VIEWING VfTYP. PAGE
ANGLE @20mA NO.

COLOR**

LENS

LrL-907PK

Bright Red
(697 nm)

Water Clear

1.7 mcd

1400

2.1 V

LTL-907LK

Green
(565 nm)

Water Clear

2.0mcd

1400

2.1 V

Orange
(630 nm)

2011:.*

LTL-907EK
SOT-23
Surface
LTL-907CK
Mount
LED Lamp

Water Clear

2.0mcd

1400

2.0 V

GaAIAs Red Water Clear

3.5 mcd

1400

1.8 V

LTL-907HK

Water Clear

2.0mcd

1400

Green

2-62

2-67

2.1 V

Orange

2.0V

GaAIAs Red
LTL-907NK

Water Clear

3.5 mcd

1400

1.8 V

Water Clear

2.0mcd

1400

2.0V

2-67

GaAIAs Red
Orange
LTL-907JK
Orange
Notes:

" 21JY2 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

** Peak Emisson wavelength (nmL

2-2
281

SELECTION GUIDE
• BIG LED LAMPS
DEVICE

DESCRIPTION

OUTLINE
PACKAGE

....

G

Standard
1" Lead
81/>

12 Pin
DIP. 100"
Centers
20q,

LUMINOUS TYPICAL
INTENSITY VIEWING VfTYP. PAGE
Iv TYP.
ANGLE @20mA NO.
@10mA
28~*

PART NO.

COLOR**

LENS

LTL·327HR

Hi. Eft. Red
(635nm)

Diffused

12.6 med

46°

2.0 V

LTL·327G

Green
(565 nm)

Diffused

12.6 med

46°

2.1 V

LTL·327Y

Yellow
(585nm)

Diffused

12.6 med

46°

2.1 V

LT.L·327A

Amber
(600 nm)

Diffused

12.6 med

46°

2.1 V

LTL·327EA

Orange
(630nm)

Diffused

12.6mcd

46°

2.0 V

LTJ·811HR

Hi. Eff. Red
(635 nm)

Diffused

25.0 med

1800

2.0V

LT J·811G

Green
(565 nm)

Diffused

25.0 med

1800

2.1 V

LT J·8l1 Y

Yellow
{585nm}

Diffused

25.0 mcd

180°

2.1 V

2·72

2·77

• ULTRA BRIGHT LED LAMPS
DEVICE

DESCRIPTION

OUTLINE
PACKAGE

Q

T·1%
Narrow
Viewing
Angle
1" Lead
51/>

<0

i

2·3
282

PART NO.

LENS

LTL·353CK l2

Water Clear

300 mcd

12°

LTl·353CKH3

GaAIAs Red
Water Clear
(660 nm)

500 mcd

120

l TL·353CKH4

Water Clear

l000med

12°

60med

50°

LTl·307C
T·l%
Standard

COLOR**

LUMINOUS TYPICAL
INTENSITY VIEWING VfTYP. PAGE
***lvTYP. ANGLE @20mA NO.
@20mA
28~*

Diffused

LTL·307CE

GaAIAs Red
Transparent
(660 nm)

90med

40°

LTL·307CK

Water Clear

90med

40°

'" Lead
51/>

Notes;
* 21JY> is the off axis angle at which the luminous intensity is half the axial luminous intensity.
. ** Peak Emission wavelength (nm).
*** The luminous intensity of LTL·3b3 serial are not include 15% Tolerance.

1.8 V

2·82

1.8 V

2·85

DEVICE

DESCRIPTION

OUTLINE
PACKAGE

PART NO.

LTL4263

COLOR**

LENS

GaAIAs'Red
(660 nm)

Diffused

90 med

40°

Transparent

270 mcd

16°

Transparent

220 mcd

16°

Transparent

150 mcd

16°

LTL·4264H4
LTL·4264H3

b

LTL4264L2

5tp

LTL4264Ll

Transparent

100 med

16°

LTL-4268H4

Water Clear

270 med

16°

Water Clear

220 mcd

16°

Water Clear

150 mcd

16°

LTL·4268Ll

Water Clear

100 mcd

16°

LTL-4261N

Diffused

48mcd

60°

~ L;j

T·1
Standard
1" Lead

Medium
Profile

1.8 V

GaAIAs Red
(660 nm)

1.8 V

LTL4262N

GaAIAs Red Transparent
(660 nm)

80 mcd

45°

LTL-4266N

Water Clear

BOmed

45°

Diffused

40 mcd

3.5 med

3tp

,

1.8 V

2·88

LTL·4268L2

n

GaAIAs Red
(660 nm)

T-l%
Standard
1" Lead

LTL·4268H3

~

LUMINOUS TYPICAL
INTENSITY VIEWING VfTYP. PAGE
Iv TYP.
ANGLE @20mA NO.
@20mA
2814*

L TL·l02,63W

GaAIAs Red
(660nm)

LTl-907CK

GaAIAs Red
Water Clear
(660 nm)

4.6tfJ

1.8 V

2·91

60°

1.B V

2·94

1400

1.9 V

2-97

Flangeless

SOT-23
Surface
Mount
LED Lamp

Notes.
* 28% IS the off-axls angle at which the luminous intensity is half the aXial luminOUS intenSity.
** Peak EmiSSion wavelength (nm)

2-4

283

SELECTION GUIDE
• LOW CURRENT LED LAMPS
DEVICE

DESCRIPTION

OUTLINE

~
0

~

LUMINOUS TYPICAL
INTENSITY VIEWING VfTYP. PAGE
ANGLE @ 2mA NO.
Iv TYP.
@ 2mA
28%*

PACKAGE

PART NO.

COLOR**

LENS

T·1
Standard
1" Led
3¢

LTL-4221NLC

Hi-Eff.Red
(635 nm)

Diffused

1.8 mcd

45"

1.8 V

2-100

LTL-307ELC

HLEff.Red
(635nm}

Diffused

3.0 moo

50"

1.8 V

2-103

T-l%
Standard
1" Lead

5

• STANDARD LED LAMPS
OEVICE

DESCRIPTION

OUTLINE
PACKAGE

PART NO.

COLOR**

Diffused

0.8 moo

76°

Transparent

2.0 moo

30"

White
Diffused

0.8 mcd

76"

Bright Red
(697 nm)

Diffused

1.1 moo

76"

2.1 V

Hi. Eff. Red
(635 nm)

Diffused

3.8 moo

76"

2.0 V

Diffused

3.8 moo

16"

Transparent

8.0 mcd

30"

Diffused

3.8 mcd

76"

8.0 moo

30"

3.8 moo

76"

LTL-201
LTL-202

Red
(655 nm)

LTL-205

,......
Ti

LTL-211
T-1
Standard
0.5" Lead L TL-221
3¢
LTL-231

-. -

LTL-232
LTL·251
LTL-252
LTL-291
2-5

LENS

LUMINOUS TYPICAL
INTENSITY VIEWING VfTYP. PAGE
ANGLE @20mA NO.
Iv TYP.
@10mA
28%*

Green
(565 nm)
Yellow
(585 nm)
Orange
(630nm)

1.7 V

2.1 V

2.1 V
Transparent
Diffused

Notes'
* 28% IS the off-aXIS angle at which the luminous intenSity is half the aXial luminous Intensity
284 ** Peak EmiSSion wavelength (nml.

2.0V

2-106

DEVICE

DESCRIPTION

OUTLINE
PACKAGE

PART NO.

COLOR**

LENS

1:1 L-4201

Red
(655 nm)

Diffused

0.8 mcd

40°

Transparent

4.0 mcd

20°

Diffused

1.7 med

40°

Diffused

3.8med

40°

Transparent

12.6 mcd

20°

Diffused

5.6 mcd

40°

LTL-4202
LTL-4211
LTL-4221

~

T-1
Standard
High
Perfor·
manee
31/>

LTL-4222
LTL-4231

Brrght Red
(697 nm)
HI. Eff. Red
(635 nm)
Green
(565 nm)

Diffused

5.6 med

40°

Transparent

12.6 mcd

20°

Diffused

5.6 mcd

40°

Transparent

12.6 med

20°

Water Clear

12.6 mcd

20°

Diffused

0.8 mcd

60°

Transparent

2.5 med

45°

Bright Red
LTL·4211 N (697 nm)

Diffused

2.5 med

60°

LTL-4221N

Diffused

5.6 mcd

60°

Transparent

12.6 mcd

45°

LT L-4291
LTL-4292

Orange
(630 nml

LTL-4296
LTL·4201 N
LTL·4202N

LTL·4222N

~

2.1 V
20°

Yellow
(585 nm)

Red
(655 nm)

Hi. Eff. Red
(635 nm)

2·112

2.1 V

2.0 V

1.7 V

2.1 V

2.0 V

Diffused

5.6 mcd

60°

Green
LTL-4232N
(565 nml

Transparent

12.6 mcd

45°

LTL-4236N

Water Clear

12.6 mcd

45°

LTL·4251N

Diffused

5.6 med

60°

Yellow
LTL-4252N (585 nm)

Transparent

12.6 med

45°

LTL-4256N

Water Clear

12.6 mcd

45°

LTL-4291N

LTL-4231N

2.1 V

20 V

12.6 med

LTL-4251

PAGE
NO.

17 V

Transparent

LTL-4232

LTL-4252

T·1
Standard
1" Lead,
31/>

LUMINOUS TYPICAL
INTENSITY VIEWING VfTYP.
Iv TYP.
ANGLE @20mA
@ 10mA
21:1%*

Diffused

5.6 med

60°

Orange
LTL-4292N (630 nm)

Transparent

12.6 mcd

45°

LTL-4296N

Water Clear

12.6 mcd

45°

Notes.

* 2B% is the off-axIs angle at which the luminous intensity is half axial luminous intensity.
** Peak Emission wavelength (nm).

2.1 V

2·112

2.1 V

2.0 V

2-6

285

'SELECTION GUIDE
DEVICE

DESCRIPTION

OUTLINE
PACKAGE

i
~

T-1
0.05" Pitch
0.5" Lead
3¢

PART NO.

COLOR**

LENS

LTL-209

Red
(655 nm)

Diffused

0.8mcd

72"

1.7 V

LTL-219

Bright Red
(697 nm)

Diffused

1.1 mcd

72"

2.1·V

LTL-229

Hi. Eff. Red
(635nm)

Diffused

3.8 mcd

72"

2.0 V

LTL-239

Green
(565 nm)

Diffused

3.8 mcd

72°

2.1 V

LTL-259

Yellow
(585 nm)

Diffused

3.8mcd

72"

2.1 V

LTL-299

Orange
(630 nm)

Diffused

3.8 mod

72"

2.0V

LTL-203
LTL-204

Red
(655nm)

LTL·213

Bright Red
(697 nm)

LTL·223
LTL·224

T·1%
Standard
0.5" Lead

LTL-233

&P

LTL-234

32"

Diffused

1.1 mcd

54"

2.5 mcd

54°

3.5 mcd

32"

Hi. Eff. Red Diffused
(635 nm)
Transparent
Green
(565 nm)

Diffused

3.0mcd

54°

Transparent

3.5mcd

32°

Transparent

3.5mcd

32"

Orange
(630nm)

Diffused

3.0mcd

54"

Transparent

3.5 mcd

32"

Diffused

0.8 mcd

36"

Red
(655 nm)

Transparent

6.5 mcd

16°

Water Clear

5.5 mcd

16°

Diffused

3.8 mcd

36°

Transparent

12.6 mcd

16°

Hi. Eff. Red Diffused
(635 nm)
Transparent

8.7 mcd

36°

40.0 mod

16°

Diffused

8.7 mcd

36"

Transparent

40.0 mod

16"

LTL-4238

Water Clear

60.0mcd

16"

LTL-4253

Diffused

8.7 mcd

36°

LTL-4203
LTL-4204
LTL·4208
LTL-4213
LTL-4214
LTL-4223
LTL-4224

Bright Red
(697 nm)

LTL·4233
LTL·4234

LTL·4254

Green
(565nm)

Yellow
(585 nm)

LTL·4258
LTL-4293
LTL·4294
LTL·4298

286

54"

2.0 mod

54°

LTL·293

2-7

0.6 mod

2.5 mcd

LTL-254

5t/J

Diffused
Transparent

Diffused

LTL-294

C

2-123

Yellow
(585 nm)

LTL-253

T·l%
Standard
1" Lead,
High
Pertormanee

LUMINOUS TYPICAL
INTENSITY VIEWING VfTVP. PAGE
Iv TYP.
ANGLE @20mA NO.
@10mA
26%*

Orange
(630nm)

Transparent

4O.0med

16"

Water Clear

40.0 mcd

16"

Diffused

8.7 mcd

36°

Transparent 40.0mcd

16°

40.0mcd

16°

Water Clear

Notes:

* 20Y:, is the off-axis angle at which the luminous intensity is half axial luminous intensity.
** Peak Emission wavelength (nm).

1.7 V
2.1 V
2.0 V
2-128
2.1 V
2.1 V
2.0 V

1.7 V

2.1 V
2.0 V

2.1 V

2.1 V

2.0 V

2-134

DEVICE

DESCRIPTION

OUTLINE
PACKAGE

PART NO.
L TL-307P
L TL-307PE
LTL-307E

()

11

LTL-307EE
T-1%
Standard
1" Lead

LTL-307G

5tP

LTL·307GE

f'

~

Medium
Profile
4.6<1>

COLOR**

Bright Red
(697 nm)

HI. Eft. Red
(635 nm)

Green
(565 nm)

LENS

LUMINOUS TYPICAL
INTENSITY VIEWING VfTYP.
Iv TYP.
ANGLE @20mA
@10mA
20%*

Diffused

5.6 mcd

50°

Transparent

9.0 mcd

40°

Diffused

19.0 mcd

50°

Transparent

303 mcd

40°

Diffused

12.6 mcd

50°

PAGE
NO.

2.1 V

2.0 V

2-134
2.1 V

Transparent

29.0 mcd

40°

LTL-307Y

Yellow
(585nm)

Diffused

12.6 mcd

50°

2.1 V

LTL-307EA

Orange
(630 nm)

Diffused

19.0 mcd

50°

2.0 V

L TL-10203

Red
(655 nm)

Diffused

0.8 mcd

60"

1.7 V

LTL-10213

Bright Red
(697 nm)

Diffused

2.5 mcd

60°

2.1 V

LTL-10223

Hi. Eft. Red
(635 nm)

Diffused

5.6 mcd

600

2.0 V

L TL-10233

Green
(565 nm)

Diffused

5.6 mcd

60°

2.1 V

L TL-10253

Yellow
(585nm!

Diffused

5.6 mcd .

600

2.1 V

LTL-10203W

Red
(655nm)

Diffused

0.8 mcd

60"

1.7 V

L TL·l0223W

Hi. Eff. Red
(635 nm!

Diffused

5.6 mcd

600

2.0V

L Tl·l0233W

Green
(565 nm!

Diffused

5.6 mcd

60"

2.1 V

L T1·10253W

Yellow
(585 nm)

Diffused

5.6 mcd

60°

2.1 V

LTL·10293W

Orange
1630 nm)

Diffused

5.6 mcd

50"

2.0 V

2-144

~

Medium
Profile

4.6<1>
Flangeless

Notes.
* 28% is the off-axis angle at which the luminOUS Intensity is half the axial luminous intensity.
** Peak EmiSSion wavelength (nm!.

2-8
287

SELECTION GUIDE
DEVICE

OUTLINE

PACKAGE

T-1%
Low
Profile

COLOR**

LENS

LUMINOUS TYPICAL
INTENSITY VIEWING Vf TYP. PAGE
Iv TYP.
ANGLE @2OmA NO.
@10mA
26'}12*

LTL·5203

Red
(655nm)

Diffused

0.5 med

64°

1.7 V

LTL-5223

Hi. Eff. Red
(635 nm)

Diffused

4.0 med

64°

2.0 V

LTL-5233

Green
(565 nm)

Diffused

4.0 med

64°

2.1 V

LTL-5253

Yellow
(585 nm)

Diffused

4.0 mcd

64°

2.1 V

LTL-709R

Red
(655nm)

. Diffused

0.7mcd

25°

1.7V

LTL-709E

Hi. Eff. Red
(635nm)

Diffused

3.0mcd

38°

2.0 V

LTL·709L

Green
(565nm)

Diffused

1.5 mcd

38°

2.1 V

LTL-709Y

Yellow
(585 nm)

Diffused

3.5 mcd

38°

2.1 V

LTL·709EA

Orange
(630nm)

Diffused

3.5 mcd

38°

2.0 V

2·150

5

0
Cylindri.
cal
5¢

IT
0

n

Cylindrical
Wide
Viewing
Angle
Back
lighting

5

Flangeless

LTL-298WJ
Orange

2.1 V
80°

2-287

GaAIAs
Red

19.0 mcd

18 V

Green

13.0 mcd

2.1 V
60°

White Diffused
GaAIAs
Red

T-l%
Dual Color LTL-52EG
Indicator

1.8 V

5.0 mcd

2.1 V
54°

Green
(565 nm)
2pcs

2.1 V

5.0 mcd
54°

White Diffused
Bright Red

1.1 mcd

Green Diffused

2-293
2.0 V

5.0 mcd

Green
LTL-52RG

2-290

380 mcd

White Diffused
Orange

LTL-52DG

2-284
2.0 V

120mcd
White Diffused

LTL-313SJ

T-1%
Dual Color
Indicator

2.1 V
50°

5.5 mcd

Green
LTL-293SJ

2-281
17 V

8.7 mcd
White Diffused

Green

Q

50°
12 mcd

Green
BI-Color
T-1%
Standard
Lamp

2.1 V

8.7 mcd
White Diffused

8.7 mcd

2-296
2.1 V

54°

2.1 V

2-299

Notes:
* 20Y. is the off-axIs angle at which the luminous intensity is half the aXial luminous Intensity
** Peak Emission wavelength (nm).
2-1 B

297

'SELECTION GUIDE .
• TAPE AND REEL
RADIAL TAPE AND REEL
OPTION CODE

OUTLINE

Iii ~
1'"0" ,.,!OII:O
1m"
""
l' /.
,I

II

11
II

II

,..

II

....

mm

II~",,:iO\111"I,

:':' JI
1/,:0

t
t-

_.001

DESCRIPTION

.011

5mm (0.197") Preformed Leads With- 001 :
2.5mm (0.1 H) and - 011 :

.021

4.0mm (0.157") and - 021 : 7.5mm (0.295")

PAGE NO.

from seating plane to lamp Bottom.

C!!il1iiiiiI

2-302
.002

2.54mm (0.1 H) Straight Leads With -002:

.012

18mm (0.709"), and -012: 22mm (0.866"),

.022

and -022 : 26mm (1.024") from Feed Hole to
lamp Bottom.

SURFACE MOUNT TAPE AND REEL
OUTLINE

OPTION CODE

p~~~\
o 0 0 6)

L TL.907TA

DESCRIPTION

PAGE NO.

Available with chOice of orientation
2-306

~~~~1
o 0 0  x 32mm
Through hole.P.C.B.
1.6mm thick

Tip Temp.
295°C ± 5°C

Within
3 Seconds

4. PREVENTING OVERCURRENT
4.1
4.2

Do not overcurrent.
I n order to operate L1TON LED under stable conditions, put protective resistors in series. Resistor Values
can be determined by supply voltage or current for the LED. Recommended current for use is in the range of
IF 10mA to 20mA. (Fig.7).
4.3 Circuit must be designed 50 that overvoltage (overcurrent) is not applied to the LED during ON/OFF
switching. Transients or pulse current can damage the junction of the LED die.

5. BRIGHTNESS AND COLOR
5.1 For obtain even brightness multiple LED should be kept at the same current.
5.2 To increase brightness, increase current.
5.3 It checked at a distance of 30cm from the LED to the eye detects.
FIG.7
Rx

2-24

303

6. RELIABILITY TESTS AND CONDITIONS
CONDITIOMS

TEST

Operating Life Test

@20mA or @1 OmA Duty =

'Is

Ta = 25° ± 5°C
1500

+72
-24

trical and thermal stresses.

Hours

Ta = 105°C

1000

Low Temperature
Storage Test

This test is conducted for the purpose of
determining the resistance of a part in elec-

High Temperature
Storage Test

DESCRIPTION

Ta = -55°C 1000

+72
-24

+72
-24

The purpose of this test is to determine the
Hours

resistance of the device which is laid under
condition of high temperature for hours.
The purpose of this test is to determine the

Hours

resistance of the device which is laid under
condition of low temperature for hours.

High Temperature

T = 65° ± 3°C RH = 90 ~ 95%

The purpose of this test is to determine the

High Humidity Test

240 Hours

resistance of the device under tropical condition for hours.

Thermal Shock Test

,

_55°C - +1 05°e (Air to air)

The purpose of this test is to determine the

(10 Min) (10 Min)

resistance of the device to sudden extreme

x 10 cycles

changes in high and low temperature.

Transfer time: 5 Sec.
Solder Resistance Test

Solderability Test

Drop Test

Ta = 260° ± 5°C Dwell solder 10±1 sec.

This test is intended to determine the thermal

Cooling 5 seconds x 1 cycle.

characteristic resistance of the device to

More than 1.6mm away from resin of

sudden exposures at extreme changes in

LED

temperature when soldering the lead wire.

Ta

=230°

± 5°C Dwell Flux 5 ± 1 sec.

This test is intended to see soldering

Dwell solder 5 ± Yo sec.

well performed or not.

o ~ 9Kg

H = 760mm

This test is intended to see the certain

9.1 - 22Kg

H

= 610mm

height drop to effect the device.

22.1 - 45.5Kg H=530mm
One angle, three corners three surface
Vibration Test

2-25

304

F = 900-3600-900 RPM (sweep cycle/min)
Amplitude = 1 .5mm
Test Time: 15 min for 3 faces each.
Acceleration: 1.5-21.8-1.5G
(1 G =9.8m/sec2 )

This vibration test is intended to determine
the suitability of the device.

HOW TO USE LITON LED LAMPS
7. HOW TO TEST LUMINOUS INTENSITY OF LlTON LED LAMPS
7.1

Standard luminous intensitY tester:
EG & G MODEL 550-1 RADIOMETER/PHOTOMETER

7.2 Reference luminous intensity tester:
A TEXTRONIXJ16 PHOTOMETER
B. VIM MODEL 200 PHOTOMETER
7.3

Measurement hints

3.8"

7.4

LED adapter
At one foot, one footcandle is equivalent to one candela.
At 3.8 inches, one footcandle is equivalent to 100 millicandelas.

2-26
305

CROSS REFERENCE GUIDE FOR:
H.P ./TE LE FUN KEN/SI EM ENS/MATSUSH ITA/ROHM/SHARP LED LAMPS
In order to designate the similarity between the other manufacturers' device and the nearest LlTON equivalent.
This guide has been included a letter code system to cover this.

Code Definitions:
A - LlTON device is electrically and mechanically equivalent.
B - Minor electrical differences exist.
C - Minor mechanical differences exist.
o - Significant electrical differences exist.
E - Significant mechanical differences exist.
Since Optoelectronics is a relatively young industry, it is possible that different devices offered by two or more
manufacturers will satisfy the requirements of one application. Therefore, slight mechanical of electrical
variations should not disqualify the nearest equivalent.
The data contained in this guide is believed to be accurated. However, no responsibility is assumed by TAIWAN
LlTON ELECTRONIC CO., LTD. for the use of this data in actual circuit design.

2·27
306

CROSS REFERENCE GUIDE FOR:
H.P. (Hewlett Packard) Equivalent LED Lamps
H.P. PART NO.

LITON PART NO. CODE

H.P. PART NO.

LlTON PART NO. CODE

H LMP-0300/0301

LTL-3223A

A

HLMP-3315/3316

LTL-307EE

A

H LMP-0400/Q401

LTL-3253A

A

H LMP-3350/3351

LTL-5233

A

H LMP-0503/0504

LTL-3233A

A

H LMP -3400/3401/3862

LTL-307Y

A

HLMP-1 000/1 002

LTL-4201 N

A

H LMP-3450/3451

LTL-5253

A

H LMP-1300/1301 /1302

LTL-4221N

A

H LMP-3502/3507 /3962

LTL-307G

A

HLMP-1321

LTL-4222N

A

HLMP-3517/3519

LTL-307GE

A

H LMP-1400/1401 /1402

LTL-4251N

A

H LMP-3553/3554

LTL-5233

A

HLMP-1421

LTL-4252N

A

HLMP-4700

LTL-307ELC

A

H LMP-1503/1523

LTL-4231 N

A

HLMP-5000

L TL-503-11

E

HLMP-1521

LTL-4232N

A

HLMP-5030

L TL-523-11

E

HLMP-1700

LTL-4221NLC

A

HLMP-5040

LTL-553-11

E

HLMP-3002/3003

LTL-307R

A

HLMP-5050

LTL-533-11

E

HLMP-3300/3301/3762

LTL-307E

A

H LMP-D400/D401

LTL-307EA

A

2-28

307

CROSS REFERENCE GUIDE
TELEFUNKEN Equvialent LED Lamps
TELEFUNKEN
PART NO.

2-29
308

LITON
PART NO.

CODE

TELEFUNKEN
PART NO.

LITON
PART NO.

CODE

TLUR-2400/2401

LTL-709R

A

TLSG·51 00/51 01

LTL-23231AL

C

TLUO-2400/2401

LTL-709EA

A

TLSR·5300/5301

LTL·9204A

A

TLUY -2400/2401

LTL-709Y

A

T LSO-5300/5301

LTL-9294A

A

TLUG-2400/2401

LTL-709G

A

TLSY -5300/5301

LTL-9254A

A

TLSR-3200/3201

LTL-2201AL

E

TLSG·5300/5301

LTl-9234A

A

T LSO·3200/3201

LTL·2291AL

E

TLAR·5400/5401

LTL·6203LN

A

TLSY ·3200/3201

LTL·2251AL

E

TLAO-5400/5401

LTL·6293LN

A

TLSG-3200/3201

LTL·2231AL

E

TLA Y ·5400/5401

lTl-6253LN

A

T LS R·3300/3301

LTL·9202A

E

T LAG·5400/5401

LT L·6233 LN

A

TLSO·3300/3301

LTL·9292A

E

TLUR·6400/6401

LTL·307R

A

TLSY ·3300/3301

LTL·9252A

E

TLUO·6400/6401

LTL·307EA

A

TLSG·3300/3301

LTL·9232A

E

TLUY -6400/6401

LTL·307Y

A

TLH R -4200/4201/4202/
4203/4205

LTL-4202N

A

TlUG-6400/6401

LTL·307G

A

TLHY -4200/4201/4203

LTL-4252N

A

TlHR-6200/6201/6202/
6203/6205

LTL-4224

A

TLHG-4200/4201/4202/
4203/4205

LTL-4232N

A

TLHY-6200/6201/6202/
6203/6205

LTL-4254

A

TLHR-4400/4401/4402/
4403/4405

LTL·4201N

A

TLHG·6200/6201/6202/
6203/6205

l TL-4234

A

TLHY -4400/4401/4402/
4403/4405

LTL-4251N

A

TLHR-6400/6401/6402
6403/6405

LTL·307E

A

TLHG-4400/4401/4402/
4403/4405

LTL-4231N

A

TLHY ·6400/6401/6402
6403/6405

LTL·307Y

A

TLSR ·5100/5101

LTL·23201 AL

C

TLEG·6400/6401/6402/
6403/6405

LTL-307G

A

TLSO·51 00/51 01

L Tl·23291 Al

C

TLSY ·5100/5101

LTL·23251 Al

C

CJRO§§ JRUEIF1EJRIENClE GUIDE
SIEMENS Equivalent LED Lamps
SIEMENS
PART NO.

LlTON
PART NO.

CODE

SIEMENS
PART NO.

LlTON
PART NO.

CODE

LDR-1101/1102/1103

LTL-4201N

A

LOR-3701 /3702/3703

L TL-23221 AL

A

LDH-1111/1112/1113

LTL-4221 N

A

LD Y -380 1/3802/3803

L TL-23251 AL

A

LDY -1131/1132/1133

L TL-4251 N

A

LOG-3901 /3902/3903

L TL-23231 AL

A

LDG-1151/1152/1153

LTL-4231 N

A

LOR-5091/5092/5093

L TL-4204

A

LDR-1201

L TL-10203N

C

LOR-51 01 /5102/5103

L TL-307R

A

LDG-1231

L TL-10233N

C

LOH-5121/5122/5123

LTL-307E

A

LDY-1251

L TL-10253N

C

LOY-5161/5162/5163

LTL-307Y

A

LDH-2310

LTL-907EK

A

LOG-5171/5172/5173

LTL-307G

A

LDY-2320

LTL-907YK

A

LOH-5191/5192/5193

LTL-4224

A

LDG-2330

L TL-907LK

A

LOY -5391/5392/5393

LTL-4254

A

LDH-3601/3602/3603

L TL-23201 AL

A

LOG-5591/5592/5593

LTL-4238

A

2-30
309

'CROSS REFERENCE.GUIDit
MATSUSHITA (PANASONIC) Equivalent LED Lamps
MATSUSHITA

LITON

PART NO.

PART NO.

2-31

MATSUSHITA

LITON

PART NO.

PART NO.

CODe

LN2TRPHL/21 RPH

LTL-307P

A

LN322GP

LTL-1234A

A

LN21 RCPH/21 RCPHL

LTL-307PE

A

LN324GP

LTL-3238A

C

LN21 CAL (U)

LTL4268H3

A

LN326GP

LTL-8232A

C

LN217RP

LTL-3215S

C

LN342GP

LTL433G

A

LN222RP

LTL-1214A

A

LN345GP

LTL-23236A

B/E

LN224RP

LTL-3218A

C

LN38GP

LTL4231

B/C

LN226RP

LTL-8212A

C

LN38GCP

LTL4232

B/C

LN242RP

LTL433P

A

LN41 YPH/41YPHL

LTL-307Y

A

LN245RP

LTL-23216A

B/E

LN417YP

LTL-3255S

C

LN28RP

LTL4211

C

LN422YP

LTL-1254A

A

LN28RCP

LTL4212

C

LN424YP

LTL-3278A

C

LN31 GPHL/31 GPH

LTL-307G

A

LN442YP

LTL433Y

A

LN31 CPH L/31 GCPH

LTL-307GE

A

LN445YP

LTL-23276A

B/E

LN31 GCPHL(U)/
31GCPH (U)

LN48YP

LTL4271

B/C

LTL-4234

B
LN81 RPHL/81 RPH

LTL-307E

A

LN81 RCPHL/81 RCPH

LTL-307EE

A

LN317GP

310

CODe

LTL·3235S

C

CROSS REFERENCE GUIDE
ROHM Equivalent LED Lamps
ROHM

LITON

PART NO.

PART NO.

CODE

ROHM

PART NO.

LlTON
PART NO.

CODE

SLR-34VR/SLH-34VR

LTL-4221

A

SPR-56MVW

LTL-52EA

A

SLR-34VC

LTL-4222

A

SLV-56VC

LTL-2224RT

A

.SLR-34VT

LTL-4296

A

SLV-56VT

LTL-2294WC

A

SLR-34DU/SLH-34DU

LTL-4291

A

SLV-56DC

LTL-2224RT

A

SLR-34DC

LTL-4292

A

SLV-56DT

LTL-2294WC

A

SLR-34DT

LTL-4296

A

SLV-56YC

LTL-2254YT

A

SLR-34YY /SLH-34YY

LTL-4251

A

SLV-56YT

LTL-2254WC

A

SLR-34YC

LTL-4252

A

SLV-56MC

LTL-2234GT

A

SLR-34YT

LTL-4256

A

SLV-56MT

LTL-2234WC

A

SLR-34MG/SLH-34MG

LTL-4231

A

SLR-80VR

LTL-327HR

A

SLR-34MC

LTL-4232

A

SLR-80MG

LTL-327G

A

SLR-34MT

LTL-4236

A

SLR-80YY

LTL-327Y

A

SLR-56VR/SLH-56VR

LTL-307E

B

LSR-80DU

LTL-327EA

A

SLR-56VC

LTL·307EE

B

SLB-25VR

L TL-3221A

C

SLR-56DU/SLH-56DC

LTL-307EA

A

SLB-25DU

LTL-3291A

C

SLR-56YY /SLH-56YY

LTL-30-7Y

A

SLB-25YY

LTL-3251A

C

SLR-56MG/SLH-56MG

LTL-307G

A

SLB-25MG

LTL-3231A

C

SLR-56MC

LTL-307GE

A

2-32
311

CROSS REFERENCE GUIDE
SHARP Equivalent LED Lamps
SHARP
PART NO.

2-33
312

LlTON
PART NO.

CODE

SHARP
PART NO.

LITON
PART NO.

GL9HY2

LTL-3251A

A

CODE

GL3AR2

LTL-4201

E

GL3PR7

LTL-4211

B/E

GL9HY26

LTL-433Y

C

GL3HD7

LTL-4221

B/E

GL9PR10

LTL-13218A

A

GL3EG7

LTL-4231

B/E

GL9HD10

LTL-13228A

A

GL3HY7

LTL-4251

B/E

GL9Hl0

L TL-13258A

A

GL5ARl

LTL-203

A

GL9PR23

LTL-13219B

B/C

GL5PRl

LTL-213

A

GL9HD23

LTL-13229B

B/C

GL5PR5

LTL-307P

A

GL9EG23

LTL-13239B

B/C

GL5PR6

LTL-307PE

A

GL9HY23

LTL-13259B

B/C

GL5PR27

LTL-2214RT

A

GL9PR24

LTL-3218A

C

GL5HD5

LTL-307E

A

GL9HD24

LTL-3228A

C

GL5HD27

LTL-2224PT

A

GL9EG24

LTL-3238A

C

GL5EG5

LTL-307G

A

GL9HY24

LTL-3258A

C

GL5HYl

LTL-253

A

GL9PR25

LTL-3217A

A

GL5HY5

LTL-307Y

A

GL9EG25

LTL-3237A

A

GL5HY27

LTL-2254YT

A

GL9HY25

LTL-3257A

A

GL5PR21

LTL-4214

B

GL9PR40

L TL-23216A

E

GL5PR24

LTL-4218

B

GL9HY40

LTL-23256A

E

GL5HD21

LTL-4224

B

GL9PR4

LTL-9213A

A

GL5EG21

LTL-4234

B

GL9HD4

LTL-9223A

A

GL5EG24

LTL-4238

B

GL9EG4

LTL-9233A

A

GL5HY21

LTL-4254

B

GL9HY4

LTL-9253A

A

GL9PR2

LTL-3211A

A

GL9PR6

LTL-8212A

A

GL9PR26

LTL-433P

C

GL9HD6

LTL-8222A

A

GL9HD2

LTL-3221 A

A

GL9HG6

LTL-8232A

A

GL9HD26

LTL-433HR

C

GL9HY6

LTL·8252A

A

GL9EG2

LTL-3231A

A

CROSS REFERENCE FOR IRIPTRIPTD
INFRARED EMITTING DIODES
HONEWELL

TRW

SIEMENS

TOSHIBA

KODENSHI

L TE-209/209C

SPE8505/8525

OP160

TIL32

-

-

-

LTE ·239/239C

-

OP260

TIL902

-

-

-

LTE4208/4208C

-

-

TIL39

LD274

TLNll0

EL-ILI

LTE4238/4238C

SEP8703-00X

OP295

TIL906

LD484

-

-

L TE-5208A/5208AC

-

-

TIL38

LD271

TLN105A

-

LTE-5238A/5238AC

SEP8703-30X

OP290

TIL905

SFH485

TLN205

-

LTE-302

SEP8506/8526

OP140

-

IRL80

-

-

LTE4206

-

OP161

-

SFH409 .

-

-

T.I.

LlTON

T.!.

PHOTO TRANSISTORS
LITON

TOSHIBA

HONEWELL

TRW

SIEMENS

LTR·209

-

SDP8425

OP500

-

TIL78

TPS6l 0

SDP8403

-

BP1038

TIL414

-

SDP8406

OP550

LRT-80

-

LTR4208
LTR-301

PHOTODIODES
LlTON

SIEMENS

KODENSHI

TOSHIBA

LTR-5l6AD

SFH205

-

-

LTR·526AD

SFH206

-

-

LTR·536AD

-

HP·3FR2

-

LTR·546AE

-

HP·5FR3

LTR-546AD

-

-

TPS703
TPS703A

J

2-34
313

ILITEr·) ~ II

T -1 (3mm) RESISTOR LAMPS
LTL-4201-R1/R2 RED
LTL-4211-R1/R2 BRIGHT RED
LTL·4231·R1/R2 GREEN

LTL-4251-R1/R2 YELLOW
LTL-4291-R1/R2 ORANGE

FEATURES
-INTEGRAL CURRENT LIMITING RESISTOR.
-COST EFFECTIVE.
Saves Spaces and Resistor Cost.
- EXTERNAL RESISTOR REQUIRED WITH
5 VOL T/12 VOLT SUPPLY.
-AVAILABLE IN ALL COLORS.
Red, High Efficiency Red, Yellow and Green in
T·l Packages.

f!

,,

I:

DESCRIPTION
The RESISTOR LAMP contains an integral current
limiting resistor in series with the LED. This allows
the lamp to be driven from a high volt source without
an external current limiter. The Red source color
devices are made with Gallium Arsenide Phosphide
on Gallium Arsenide Red Light Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode. The Orange source color devices are
made with Gallium Arsenide Phosphide on Gallium
Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

!

PACKAGE DIMENSION

SEE NOTE 3

DEVICES

2·35
314

PART
NO.
LTL-

LENS
COLOR

DIFFUSION

4201·Rl/R2

Red

Diffused

Red

4211·Rl/R2

Red

Diffused

Bright Red

4231·Rl/R2

Green

Diffused

Green

4251·Rl/R2

Yellow

Diffused

Yellow

4291·Rl/R2

Orange

Diffused

Orange

SOURCE
COLOR

°0.5 TVP
(.02)

(")

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protrued resin under flange is 1.5mm (.059")
max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C

PARAMETER

RED/BRIGHT RED/
GREEN/YELLOW/ORANGE
5V LAMPS

RED/BRIGHT REDI
GREEN/YELLOW/ORANGE
12V LAMPS

UNIT

DC Forward Voltage (TA =25°C)

7.5

15

volts

5

5

volts

Reverse Voltage

_40° C to +85° C

Operating Temperature Range

-55°C to +100°C

Storage Temperature Range
Lead Soldering Temperature
[1.6mm (0.063in) From Body)

260°C for 5 Seconds

Green Yellow

Orange

Red

Bright Red

1.0

.~
c:
'"

ec:

0.5

Ql

:>

;:;

'"

Qj

a:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

EQUIVALENT CIRCUIT:
+ Vee

RL

Vee = 5 volts
(RL = 250 ohms ± 20%)
Vee = 12 volts
(R L = 800 ohms ± 20%1

IF =

Vee - VF
RL

2-36
315

= 2SoC

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL PART NO. (L TL.)

PARAMETER

MIN.

TYP.

0.3

O.B

4201-Rl
Lum inous Intensity

MAX.

UNIT

TEST CONDITION
VF=5V

Iv

mcd
4201·R2

0.3

NOTE.1
VF=12V

0.9

Viewing Angle

291/2

4201·R 1/R2.

40

Peak Emission
Wavelength

i\ PEAK

4201·R1/R2

655

Spectral Line
Half - Width

il.i\

4201-Rl/R2

24

Forward Current
5V Devices

IF

4201-R1

10

20

mA

VF= 5V

Forward Current
12V Devices

IF

4201·R2

12

20

rnA

VF., 12V

Reverse Current

IR

4201·Rl/R2

100

~A

VR" 5V

'. ..

,

deg

Note 2 (fig. 6)

nm

Measu rem ent
@Peak (Fig. 1)

nm

NOTES. 1. Luminous intensity IS measured with a light sensor and filter combination that approximates the CIE
(Comm ission I nternationale De L'Eclairage) eye-response curve.
2. (J 1/2 is the off-aXIS angle at which the luminous intensity IS half the axial luminous intensity.

20

24

50

/

.s;;:

16

ro

"

~

5

II

u

"E

~

I

4

/

o

1

2

3

/

8

4

5

6

7

8

9

o

10

V
J

~ 30
E
J 20

V

/
L

Q)

'Ero

~ 10

V

o

v

c

12

16
20
Applred Forward Voltage
Vee [V]
FIG 3 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE. 12 VOLT DEVICES

Vee [V]
FIG 2 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE. 5 VOLT DEVICES

-

/

40

E

/

0

Applied Forward Voltage

....

12

u.

I

~

V

1:
Q)

8

o

~

-'" 16

I

";

"0

20

.s

I

E 12
i!:!
U

;;:

~

o

/
./

o

10

15

20

FIG 4 RELATIVE LUMINOUS INTENSITY VS.
FORWARD CURRENT
0'

10'

20'
30'

............ ............

r--

40'
10

0.9
08

60'
70'

07

-30

2-37

316

80'

t-t--t-1H+P¥-Ft-+-+-'1-H 90'

01
-20

-10

10

20

30

40

50

Ambient Temperature TA (OC)

FIG. 5 LUMINOUS INTENSITY VS.
AMBIENT TEMPERATURE

60

70

25

Forward Current IF (mAl

05
FIG 6

0.3

0.1

0.2

04

0.6

SPATIAL DISTRIBUTION

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

Luminous Intensity

PART NO. (L TL-)

MIN.

TYP.

4211-R1

1.1

3.8

4211-R2

1.1

4.0

UNIT

MAX.

TEST CONDITION
VF=5V

Iv

NOTE.1

mcd
VF=12V

Viewing Angle

2eY"

421'-R1/R2

40

deg

Note 2 (Fig. 11)

Peak Emission
Wavelength

APEAK

4211-R1/R2

697

nm

Measurement
@Peak (Fig. 1)

Spectra I Li ne
Half -Width

!:;A

4211-R1/R2

90

nm

Forward Current
5V Devices

IF

4211-R1

..10

20

mA

VF =5V

Forward Current
12V Devices

IF

4211-R2

12

20

rnA

Vi'- '" 12V

Reverse Cu rrent

IR

4211-R 1/R2

100

JJA

VR = 5V

NOTES.

1. Luminous Intensity IS measured with a light sensor and filter combination that approximates the CI E
(Commission Internatlonale De L Eclalrage) eye-response curve
2 ell, is the off-axis angle at which the luminous intensity is half the aXial luminous intensity.

,

20

;;{ 16

c

e:;

u

I

8

o

16

~:;

12

2

4

5

6

7

8

9 10

::J

/
/

/

o

12

16

20

20

">
""
a;
0::

10

./

,/

o/
o

10

- - r--

20

15

25

FIG 9 RELATIVE LUMINOUS INTENSITY VS.
FORWARD CURRENT

0'

-

...... 1-'

,....

Forward Current IF (rnA)

Applied Forward Voltage
Vee [V]
FIG 8 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 12 VOLT DEVICES

Applied Forward Voltage
Vee [V]
FIG. 7 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 5 VOLT DEVICES

E
::J

-'

V

u..

3

30

"0
c

o1

S

E

/

(;

I
o

-"

v

"E
;:
"

/

4

?; 40
~
c

20

U

/

:-

;:

o

S

/

12

"0

u..

;;{

II

S

50

24

10'

20'
30'

r--

i--

40'
10

09

05

50'

0.8

60'
70'
80'

07

02

rr~~~~~~~-+-r~90'

01
-30

-20

-10

10

20

30

40

50

Ambient Temperature TA (OC)

FIG 10 LUMINOUS INTENSITY VS
AM81ENT TEMPERATURE

60

70

05

03

01

02

04

06

FIG.11 SPATIAL DISTRIBUTION

2-38
317

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

PART NO. (L TL·)
4231·Rl

Luminous Intensity

MIN.

TYP.

2.5

5.6

UNIT

MAX.

TEST CONDITION
VF=5V

Iv

mcd
4231·R2

2.5

NOTE.1
VF=12V

5.8

Viewing Angle

28Y:,

4231·Rl/R2

40

deg

Note 2 (Fig. 16)

Peak Emission
Wavelength

'lI. PEAK

4231·Rl!R2

565

nm

Measurement
@Peak (Fig. 1)

Spectral Line
Half -Width

b.'lI.

4231·Rl/R2

30

nm

Forward Current
5V Devices

IF

4231·Rl

10

20

mA

VF= 5V

Forward Current
12V Devices

IF

4231·R2

12

20

mA

VF'" 12V

Reverse Cu rrent

IR

4231·Rl!R2

100

/J.A

VR" 5V

NOTES.

1. Luminous Intensity IS measured with a light sensor and filter combination that approximates the CIE
(CommiSSion I nternationale De L'Eclalrage) eye·response curve.
2. eY:, is the off·axls angle at which the lum Inous intensity IS half the ax ial luminous intensity.

20

50

24
~I

«
.s

16

«
.s

II

-"

-"

/

E 12

:;

II

u

"E

~

a

LL

16

/
o

1

2

3

4

5

6

7

/

1/
1/

20

">

iii

Qj

/

10

/

oc

/
12

Applied Forward Voltage
Vee [V]

FIG 12 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 5 VOLT DEVICES

E
.3

/

B 9 10

30

0

V

a

LL

I

""'c:

//

"E
'"
S

I

£"

V

u

/

c:

v

E
~
:; 12

~

V

i:" 40
in

20

16

20

10

15

20

FIG 14 RELATIVE LUMINOUS INTENSITY
VS FORWARD CURRENT

FIG 1::1 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 12 VOLT DEVICES

0"

10"

20"

10
09

08
07

2·39
318

01 ~~__- L_ _~_ _~~~~_ _- L__~__L-~
-30
-20 -10 0
10
20
30
40
50
60
70
Ambient Temperature TA fOCI

FIG 15 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

25

Forward Current IF (mA)

Applied Forward Voltage
Vee [V]

05

03

01

02

04

Ob

FIG 16 SPATIAL DISTRIBUTION

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

PART NO. (LTL·)
42b1·R 1

Lum InOUS Intensity

MIN.

TYP.

2.5

56

VF-=5V

Iv

mcd
4251·R2

Viewing Angle
Peak Em ISS Ion
Wavelength

7--,.

TEST CONDITION

'UNIT

MA><'

NOTE 1

57

2.5

VF=12V

2ey,

4251·Rl/R2

40

deg

Note 2 (Fig 211

PEAK

4251·Rl/R2

585

nm

Measurement
@Peak (Fig. 11

nm

Spectral Line
Half - Width

6.7--,.

4251·Rl/R2

35

Forward Current
5V Devices

IF

4251·R1

10

20

rnA

VF = 5V

Forward Current
12V Devices

IF

4251-R2

12

20

mA

VF = 12V

Reverse Current

IR

4251·R1/R2

100

J.lA

VR

NOTES.

Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye·response curve
ey, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

2

24

20
;;( 16

c~

~

..s
-'"

/

12

50

;;( 20

V

..s
-'"

= 5V

16

/

C
~

5

5 12

V

u

u

"E

"E

~

;;:'"

V

0
u.

0
u.

V

1/

8
4

/

o

V

;;;

v

/

40

V

"

~

SO

"'a

:J

"E

V

:J
...J

">
''""
a;
a::

V

3D

/

/

20

/
/

10

/

1/

012345678910

12

16

20
I

Applied Forward Voltage
Vee [V)
FIG 17 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 5 VOLT DEVICES

Applied Forward Voltage
Vee [V)
FIG. 18 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 12 VOLT DEVICES

~

;;;

"

L~I~m~~~~
:J
...J

">

g o2r-~---+--~--+-~---+---r--~--r-~
a;
a::

01

L-~__- L_ _~_ _~--'_ _~_ _~_ _~_ _~--'

-3~

-20

-10

0

10

20

3D

40

Ambient Temperature TA (Oel
FIG 20 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

50

60

70

2·40
319

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL PART NO. IL TL·I

PARAMETER

MIN.

TYP.

25

5.6

4291-Rl

MAX.

UNIT

VF"'5V

Iv

Luminous Intensity

TEST CONDITION

mcd
4291·R2

NOTE.1

5.7

2.5

VF"'12V

Viewing Angle

20 X,

4291·Rl!R2

.40

deg

Note 2 (Fig. 26)

Peak Emission
Wavelength

APEAK

4291·R1(R2

630

nm

Measurement
@Peak (Fig. 1)

Spectral Line
Half -Width

/).A

4291-R 1/R2

40

nm

Forward Current
5V Devices

IF

4291-R1

10

20

mA

VF", 5V

Forward Current
12V Devices

IF

4291·R2

12

20

mA

VF" 12V

Reverse Current

IR

4291·R1/R2

100

}JA

VR '" 5V

NOTES'

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclairage) eye-response curve.
2. ex, is the off·axis angle at which the luminous intensity is half the axial luminous intensity.

20



~

OJ

cc:

V
12

9 10

16

/

10

o ./
o

20

10

15

20

25

Forward Current IF (mAl

Applied Forward Voltage
Vee [V]
FIG. 23 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 12 VOLT DEVICES

Applied Forward Voltage
Vee [V]
FIG 22 FORWARD CURRENT VS
APPLIED FORWARD
VDLTAGE 5 VOLT.Qf;VICES

"'"r::
0

V

(;
u.

/

~

/

1::

~

I
j

40

FIG 24 RELATIVE LUMINOUS INTENSITY
VS. FORWARD CURRENT

3D'

40'

1.0

0.9

50'

DB

60'
70'

07
01~~

-30

2-41

320

__~__~~__~__~~__~__~~

-20

-10

0

10

20

30

40

AmbIent Temperature TA tOG)

FIG 25 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

50

60

70

BO'

H--HI-t+P'I-'Ft-+-+-H-i 90'
05

03

0.1

02

0.4

0.6

FIG. 26 SPATIAL DISTRIBUTION

75

42Jl/

'"

"15'

'">a

";;;;:

4~31..

4251/4291

.......

16
15

e"
o

42dl/~31

"' I'-..

12

4251/4291

r---

>

(;

u.

-g>
~:
c.u

«>

o

o

20

60

40

20

8U 85

Ambient Temperature TA f°C]

FIG 27 MAXIMUM ALLOWED APPLIED
FORWARD VOLTAGE VS. AMBIENT
TEMPERATURE [5 VOLT DEVICES]

8

e"
o

75

0>

1""-

>

'E

;:
'"

e"
o

"-

(;

u.

",,>-

~~
c.u

>

"-

I
I
20

40

60

60

......

2

r-....

"-

8085

Ambient Temperature TA [OC]

FIG 29 MAXIMUM ALLOWED APPLIED
FORWARD VOLTAGE VS. AMBIENT
TEMPERATURE (5 VOLT DEVICES]

8085

421

i'-...

8

"

«>

o
o

16
15

0>

42 1

40

Ambient Temperature TA rOC]
FIG 28 MAXIMUM ALLOWED APPLIED
FORWARD VOLTAGE VS. AMBIENT
TEMPERATURE [12 VOLT DEVICES]

I"

4

o

o

20

40

60

80 85

Ambient Temperature TA (oG]

FIG 30 MAXIMUM ALLOWED APPLIED
FORWARD VOLTAGE VS. AMBIENT
TEMPERATURE [12 VOLT DEVICES]

2-42
321

T-13/4 (5mm) RESISTOR LAMPS

ILITEr.] ~ II

, L TL-4203·R 1/R2 REO
LTL-4213-Rl/R2 BRIGHT REO
LTL-4223·R 1/R2 HI.EFF.RED
L TL~4233.Rl/R2GREEN

LTL-4238·Rl/R2 GREEN
LTL-4253·Rl/R2 YELLOW
LTl-·4293-R 1/R2 ORANGE

FEATURES
-INTEGRAL CURRENT LIMITING RESISTOR.
-COST EFFECTIVE.
Saves Spaces and Resistor Cost.
- EXTERNAL
RESISTOR REQUIRED WITH
5 VOL T/12 VOLT SUPPLY.
-AVAILABLE IN ALL COLORS.
Red, High Efficiency Red, Yellow and Green in
T-l 3/4 Packages.

I

DESCR IPTION

f

The RESISTOR LAMP contains an integral current
limiting resistor in series with the LED. This allows
the lamp to be driven from a high volt source without
an external current limiter. The Red sou rce color
devices are made with Gallium Arsenide Phosphide
on Gallium Arsenide Red Light Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode. The High Efficiency Red and Orange
source color devices are made with Gallium Arsenide
Phosphide on Gallium Phosphide Orange Light Emitting
Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

PACKAGE DIMENSION

1.0
(,04)

~
t ..

SEENOTE3~1

DEVICES

25.4

.~.r'"

PART
NO,
LTL-

COLOR

DIFFUSION

SOURCE
COLOR

4203-Rl/R2

Red

Diffused

Red

4213-Rl/R2

Red

Diffused

Bright Red

4223-R1/R2

Red

Diffused

HLEff.Red

4233-R1/R2

Green

Diffused

Green

Non-Diffused

Green

LENS

4238-R11R2 Water Clear

2-43
322

6

C· 34 )

4253-R1/R2

Yellow

Diffused

Yellow

4293·R1/R2

Orange

Diffused

Orange

1,0

't'_-I-_-,,;:04) MIN
2.5

NOM

(.1

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (0.059")
max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA

= 2SoC

PARAMETER

RED/BRIGHT RED/HI.EFF.RED
GREEN/YELLOW/ORANGE
5V LAMPS

RED/BRIGHT RED/HI.EFF.RED
GREEN/YELLOW/ORANGE
12V LAMPS

UNIT

DC Forward Voltage (TA =25°C)

7.5

15

volts

B

5

volts

Reverse Voltage
Operating Temperature Range

_40° C to +85° C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (O.063in) From Bodyl

260°C for 5 Seconds

Hi. Eff. Red
Red

Green Yellow

Brtght Red

1.0

r---------.-~~~~.-----~~07~----_,~~------_.--------_,

0.5

~--------~--~~--~r-~----~~~~----~------~~--------~

.~

"'
e""
Q)

>
.;::;
..!!1
Q)

!I:

500

600

550

650

700

750

800

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

EQUIVALENT CIRCUIT:

+ Vee

Vee = 5 volts
(RL = 250 ohms ± 20%)
IF =
Vee = 12 volts
(R L = 800 ohms ± 20%)

Vee - VF
RL

2-44
323

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

PART NO. (L TL·)
4203-R1

Luminous Intensity

MIN.

TYP.

0.3

0.8

M~X.

UNIT

=

2SoC

TEST CONDITION
VF=5V

mcd

Iv
4203-R2

NOTE.1

1.0

0.3

VF"'12V

Viewing Angle

219)6

4203·Rl/R2

36

deg

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

4203-Al/R2

655

nm

Measurement
@Peak (Fig. 1)

Spectral Line
Half -Width

AX

4203·Rl/R2

24

nm

,

Forward Current
5V Devices

IF

4203-R1

10

20

mA

Vf!" 5V

Forward Current
12V Devices

IF

4203-R2

12

20

mA

VF "",12V

Reverse Cu rrent

IR

4203·Rl/R2

100

pA

VR=5V

NOTES.

Luminous intensity IS measured with a light sensor and filter combination that approximates the CIE
(Commission Internatlonale De L'Eclairage) eye-response curve
2. 0)6 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

20

24

50

;;( 20

?:
~ 40

J

.s;;(

16

.s

II

-'" 16

I

II
/

1

2 3

.

8

4

5

6

7

8

9

in
<:

!!l

.5

""o
~

/
o

"..>

Qi

E
.3

iii

£

V
4

12

/

/

20

~

16

V
10

o

20

V
./

o

10

15

20

--------

FIG 4 RELATIVE LUMINOUS INTENSITY VS
FORWARD CURRENT

~

40'

1.0

09

0.5

0,8
02

70'

07

0::

01
-30

2-45
324

-20

-10

10

20

30

40

50

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

60

70

25

Forward Current IF (mAl

30'

.3
;::;

/

30

V

<:

Applied Forward Voltage
Vee [V]
FIG 3 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE. 12 VOLT DEVICES

FIG 2 FORWARD CURRENT VS.
APPLIED FORWARD
VOLTAGE, 5 VOLT DEVICES

- -----

"5

V

o

10

.5

//

0

Applied Forward Voltage
Vee [V]

?:

V

u..

I
o

12

u
'E
;:

I

o

C
~
5

!!l

/

0.5
FIG. 6

0,3

01

0,2

0,4

06

SPATIAL DISTRIBUTION

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

Luminous Intensity

Iv

PART NO. (LTL·)
4213-R1

MIN.

TYP.

1.1

3.8

UNIT

MAX.

=

25°C

TEST CONDITION
VF=5V
NOTE 1

mcd
4213-R2

11

VF=12V

4.0

Viewing Angle

20Y,

4213-Rl/R2

36

deg

Note 2 (Fig. 11)

Peak Emission
Wavelength

X PEAK

4213-R1/R2

697

nm

Measurement
@Peak (Fig. 1)

Spectral Li ne
Half - Width

AX

4213-Rl/R2

90

nm

Forward Current
5V Devices

IF

4213-R1

10

20

mA

VF= 5V

Forward Current
12V Devices

IF

4213-R2

12

20

mA

VF = 12V

Reverse Current

IR

4213-11 1 /R2

100

/.IA

VA = 5V

NOTES. 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(G'ommisslon Internatlonale De L'Eclairage) eye-response curve
2. oY, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

20

:;: 16

~

:;

u

.

:;:
E.

II

E.
"

J
12

I

8

16

:;

12

/

u

4

o

0

I
o

u..

o
1

2

3

4

5

6

7

8

9 10

e"
E

/

"::l
E
">

iii

a;

/

II:

o

12

16

20

.... ~

. /I '

20

/'

..J

10

oV
o

10

25

20

15

Forward Current IF (rnA)
FIG 9 RELATIVE LUMINOUS INTENSITY VS
FORWARD CURRENT

Applied Forward Voltage
Vee [V]
FIG 8 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 12 VOLT DEVICES

Applied Forward Voltage
Vee [V]
FIG 7 FORWARD CURRENT VS.
APPLIED FORWARD
VOLTAGE 5 VOLT DEVICES

30

'"

::l
0

/

'"~

40

in

II'

/

'E

V

~

o

E:

20

'"E
~

'E
u..

50

24

0"

--

- - --- -

30"

40"
10

09

05

50"

0.8

70"

07

02
01
-30

60"
80"

-20

-10

10

20

30

40

50

Ambient Temperature TA (Oel
FIG 10 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

60

70

05

03

01

02

0.4

0.6

FIG 11 SPATIAL DISTRIBUTION

2-46

325

= 2SoC

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

PART NO.ILTL-)

MIN.

TYP.

2.5

8.7

4223-R1

MAX.

UNIT

VF=5V

Iv

Luminous Intensity

TEST CONDITION

mcd
4223-R2

NOTE.1
VF=12V

8.9

2.5

Viewing Angle

20%

4223-Rl/R2

36

deg

Note 2 (Fig. 16)

'Peak Emission
Wavelength

A PEAK

4223-Rl/R2

635

om

Measurement
@Peak (Fig. 1)

Spectral Line
Half -Width

AA

4223-Rl/R2

40

nm

Forward Current
5V Devices

IF

4223-Rl

10

20

mA

VF= 5V

Forward Current
12V Devices

IF

4223-R2

12

20

mA

VF., 12V

Reverse Cu rrent

IR

4223-Al/R2

100

IJ.A

VR

NOTES:

50

24



/

(;

30

...J

9 10

12

16

FIG 12 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 5 VOLT DEVICES

~

/

V

/

10

/

o/

o

20

10

15

20

FIG 14 RELATIVE LUMINOUS INTENSITY
VS FORWARD CURRENT

FIG 13"FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 12 VOLT DEVICES

3~'

~

;;;

-

-

S"

.s
:J
'"o
"
E

40'
50'

05

:J

...J

g"

60'

>

a;
cr:

2-47
326

70'
80'

02
01
-30

H-+-H-t==t-"'''i"''''-Fl-+-+-H-i 90'
-20

-10

0

10

20

30

40

AmbIent Temperature TA (Oe)

FIG 15 LUMINOUS INTENSITY VS.
AMBIENT TEMPERATURE

50

60

70

25

Forward Current IF (rnA)

Applied Forward Voltage
Vee [V]

ApplIed Forward Voltage
Vee [V]

v
/

40

'":J
0

/V

u.

/
I

16

u
'E
;:
'"

~

o

-"

E
e 12
5

V

5
u

20

.s

/

12



V

""

a;

/

10

c::

/

V

/
o

/
/

c

E

/

Applied Forward Voltage

Vee IV]
FIG 17 FORWARD CURRENT VS
APPLIED FORWARD
VOL TAGE. 5 VOLT DEVICES

::-in
c
eE
~

12

~

;:

/
1

V

u

I

o

16

c

II

o

I

12

16

/

20

10

Applied Forward Voltage

15

20

25

Forward Current IF (rnA)

Vee [V]
FIG 18 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE I 2 VOLT DEVICES

FIG I g RELATIVE LUMINOUS INTENSITY
VS FORWARD CURRENT

10'

20'
3~'

40'
50'
60'
70'

0.7
__- L_ _L-~__- L__~~__- L__~~
-20 -10
0
10
20
30
40
50
60
70

BO'

01~~

-30

Ambient Temperature TA (OCl

FIG 20 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

05

03

01

02

04

06

FIG 21 SPATIAL DISTRIBUTION

2·48

327

;

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL PART NO. IL TL-)

PARAMETER
Luminous Intensity

MIN.

TYP.

4253-Rl

2.5

8.7

4253·R2

2.5

8.9

UNIT

MAX.

TEST CONDITION
VF=5V

Iv

mcd

NOTE.l
VF=12V

Viewing Angle

28%

4253-Rl/R2

36

deg

Note 2 (Fig. 26)

Peak Emission
Wavelength

X PEAK

4253-Rl/R2

585

nm

Measurement
@Peak (Fig. 11

Spectral Line
Half - Width

i).X

4253-Rl/R2

35

nm

Forward Current
5V Devices

IF

4253·R1

10

20

rnA

VF~

Forward Current
12V Devices

IF

4253-R2

12

20

mA

VF'" 12V

Reverse CU rrent

IR

42b3-Rl/RZ

100

IJA

VR '" 5V

NOTES.

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairagei eye-response curve.
2. ey, IS the off-ax is angle at which the luminous intensity is half the ax ial lum inous intensity.

«

50

24

20

.5

5V

16


E

a:

01
-30

2-49
328

-20

-10

10

20

30

40

AmbIent Temperature TA (OC)

FIG. 25 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

50

60

70

25

Forward Current IF (rnA)

Applied Forward Voltage
Vee [V]
FIG 23 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 12 VOLT DEVICES

FIG 22 FORWARD CURRENT VS
APPLIED FORWARD
VOLTAGE 5 VOLT DEVICES

30

a:

V

9 10

Apphed Forward Voltage
Vee [V]

/

0

/V

;:

V

"'"
"
E
-'
"
">

12

u

V

40

2

70"

05

03

0.1

0.2

04

06

FIG. 26 SPATIAL DISTRIBUTION

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL PART NO. (l Tl·)

PARAMETER

4293-R1

MIN.

TYP.

2.5

8.7

MAX.

UNIT

TEST CONDITION
VF=5V

Iv

luminous Intensity

25°C

=

NOTE.1

mcd
4293-R2

2.5

VF=12V

8.9

Viewing Angle

29%

4293-R1/R2

36

deg

Note 2 (Fig 31)

Peak Emission
Wavelength

APEAK

4293-R1/R2

630

nm

Measurement
@Peak (Fig. 1)

Spectral line
Half -Width

£>'A

4293-R1/R2

40

nm

Forward Current
5V Devices

IF

4293-R1

10

20

mA

VF= 5V

Forward Current
.,2V Devices

IF

4293-R2

12

20

mA

VF

Reverse Current

IR

4293-Rl/R2

100

p.A

VR =5V

12V

NOTES: 1. luminous intensity is measured with a light sensor and filter combination tliat approximates the CIE
(Commission Internationale De l'Eclairage) pye-response curve.
2. o)t, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

«
.s

16

«
.s

II

-'"
E 12

-'"
E

J

~
:J

5"
u

I

U

'C

;:

a

/

4

~
in

20

/

12

I

2

3

4

5

6

7

8

~

:J

"

a:

/

~~

/
/

1.0

/

o ./
16

o

20

Applied Forward Voltage
Vee [VI
FIG. 23 FORWARD CURRENT VS.
APPLIED FORWARD
VOLTAGE. 12 VOLT DEVICES

__- L__
10
20
30

L-~

/

20

.,">
Qi

12

Applied Forward Voltage
Vee IVI

01L--L__
__
-30
-20 -10 0

"E
..J

9 10

FIG. 22 FORWARD CURRENT VS.
APPLIED FORWARD
VOLTAGE. 5 VOLT DEVICES

I

30

0

I

a
/

o

U)

:J

/

u..

I

"

I

/

4.0

"
];

/

16

'E
;:
"

to

u..

50

24

20

10

15

20

25

Forward Current IF (mAl
FIG. 24 RELATIVE LUMINOUS INTENSITY
VS. FORWARD CURRENT

__- L__~~

40

Ambient Temperature TA (OC)
FIG 25 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

50

60

70

05

03

01

02

04

06

,FIG. 31' SPATIAL DISTRIBUTION

2-50

329

I

42~3 4b3

75

l'-..

4223- 4253
4 93423B

-.......

I

16
15

"'"

o~

4~~~

I'..

m5-

]'.. 42 3423B

12

f'

>
'C

ro
~

o

L.L.

11>

~:;
c.u



o

o

20

40

BO B5

60

20

Ambient Temperature TA rOC)
FIG 32 MAXIMUM ALLOWED APPLIED
FORWARD VOLTAGE VS AMBIENT
TEMPERATURE [5 VOLT DEVICES)

e"

""- '"

'E

~

<;
L.L.

'C -

~G

12


20

40

r-...

~4213

"-

"-

c.u
c.u

60

';;

"-

I
I
8085

Ambient Temperature TA rOC)
FIG 34 MAXIMUM ALLOWED APPLIED
FORWARD VOLTAGE VS AMBIENl
TEMPERATURE [5 VOLT DEVICES)

2-51

B085

FIG 33 MAXIMUM ALLOWED APPLIED
. FORWARD VOLTAGE VS. AMBIENT
TEMPERATURE [12 VOLT DEVICES)

......

421~

o

>

330

60

16
15

B
7.5

Cl

o
o

40

Ambient Temperature TA rOC)

20

40

60

BO 85

Ambient Temperature TA rOC)
FIG 35 MAXIMUM ALLOWED APPLIED
FORWARD VOLTAGE VS. AMBIENT
TEMPERATURE [12 VOLT DEVICES)

ILITE(']~II

T-l% (Smm) FLASH LAMPS
LTL·4213·FL B.RIGHTRED
l TL·4233·FL GREEN
LTL·4263·FL ULTRA BRIGHT RED

FEATURES
-OPERATION VOLTAGE RANGE: 3V -10V.
-",2.4HZ FLASHING RATE AT VDD : 3.0V.
-1/4 DUTY-CYCLE.
-ADJUSTABLE FLASHING RATE.

DESCRIPTION
The flash lamp contains an integral circuit oscillator
series with the LED. This allows the lamp to be driven
from a high voltage source without any external component. (The FLASH LAMP IS a high voltage blinking
LEOS).
The Ultra Bright Red source color are made with Gallium
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Ultra Bright Red source color are made with
Gallium Aluminum Arsenide Red Light Emitting Diode.

PACKAGE DIMENSION
•• a

8 ••

'. a

(.04)

(.34)

SEE NOTE 3~-i
DEVICES

25.4

~.r,"

PART
NO.
LTL-

LENS
COLOR

DIFFUSION

4213-FL

Red

Diffused

Bright Red

4233-FL

Green

Dlffused

Green

4263-FL

Red

Diffused

GaAIAs Red

SOURCE
COLOR

1.0
'I'--+_----'!.0'r'4) MIN
2.5

NOM

(_1

NOTES:
1. All dimensions are in millimeters !inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-52
331

EQUIVALENT CIRCUIT:

Vee

OSC.
IC
Vo

~)VF

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING
O·C to + 70·C

Operating Temperature Range

-50·C to + 85°C

Storage Temperature Range
Lead Soldering Temperature
[1.6mm (O.063in) From Body]

\

260°C tor 5 Seconds

GaAIAs Red

Green

Bright Red

1.0

r--------.--~-----.--------_.~~--~~~------_r--------,

0.5

I-----------tl--------\----l----------+~--_\__--_+------~~--------_t

.~
co

2:!
co

'"

>
+:;

'"
"iii

0:

500

550

600

650

700

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH
2-53
332

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

PART NO. IL TL·)

luminous Intensity

Iv

4213·Fl

MIN.

TYP.

0.6

1.1

Operating Voltage

Voo :3.0 V

4.0

(NOTE.1)

,

Voo .10.0V

4213-FL

36

deg

Note 2 (Fig. 4)

~PEAK

4213-Fl

697

nm

Measurement
@Peak (Fig. 1)

Voo

4213-FL

3.0

10.0

volt

(Fig.2)

f

4213·Fl

2.0

2.4

HZ

Blinking Freq.

NOTES'

TEST CONDITION

20Y,

Viewing Angle
Peak Emission

UNIT

mcd
1.8

Wavelength

MAX.

= 25°C

Voo :3.0 ... 10.0V
(Fig.3)

1. Lum Inous Intensity IS measu red with a light sensor and filter combination that approximates the CI E
(Commission I nternatlonale De l'Eciairage) eye-response curve.

2. oy, is the off-aXIS angle at which the luminous Intensity is half the aXial luminous intensity.
80

30"

70



.;;

15

!;

Ol

10

9

10

I

11

12

13

FIG 3 APPLIED VOLTAGE VDD (VOLT)

14

2-54

333

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

SYMBOL

PART NO. (l Tl-)

Luminous Intensity

Iv

4233·FL

MIN.

TYP.

1.5

3.5

Viewing Angle

2r9%

Peak Emission
Wavelength

APEAK

4233-FL

VOO

4233·FL

3.0

f

4233·FL

2.0

Blinking Freq,

TeST CONDITION

Voo :3,0 V
(NOTE,l)

mcd
4.5

Operating Voltage

UNIT

MAX.

. 4233·FL

Voo :10,OV

100
36

deg

Note 2 (Fig. 7)

565

nm

Measurement
@Peak (Fig. 1)

10.0

volt

(Fig,5)

2.4

HZ

Voo :3,0, .. lQ,QV
(Fig,6)

NOTES: 1, Luminous intensity is measured with a light sensor and filter combination that approx imates the CI E
(C:;ommission I nternationale De L'Eclairage) eye-response curve.
2. r9% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
0'

80
;,(

S

70
/'

60

""E

50

:;

40

.

30

0

20

I

~

u.

40'
10

II

~

u
'E

-

30'

09

/
4

9

10

11

12

13

14

3.0
25

cOl

-r-- -....

u:

g>

15

~

!;

iii

10

9

2-55

334

10

11

12

FIG 3 APPLIED VOLTAGE VDO {VOL TI

05
FIG

FIG 5 APPLIED VOLTAGE VDD {VOLTI

20

70'
80'

H-+-l-++=

'';::;

'"

0;

a:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-58

337

= 2SoC

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.

SYMBOL

LTL-

TYP.

3.7
1.1

12.5
3.7

mcd

IF =10mA
Note 1

34
90

deg.

Note 2 (Fig. 6)

MAX.

UNIT

Iv

93BEK1
93BHRA1

Viewing Angle

20%

93BEK1
93BHRA1

Peak Emission
Wavelength

APEAK

630

nm

Spectra I Li ne
Half Width

A'll.

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Luminous Intensity

Capacitance

TEST
CONDITION

MIN.

2.8

V

100

p.A

VR =5V

PF

VF=O
f = 1 MHZ

20

C

Measurement
Peak (Fig. 1)

@

IF "'20mA

NOTES: 1 Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internatlonale De L'Eciairage) eye-response curve.
2.0% IS the off-axIs angle at which the luminous intensity is half the axial luminous intensity.
50

~ 40

~

.s

u.

~

I
II

~

E 30

"t:
u"
'E
'"~
(;

60

I

II

20

I

50
40

L

E

~ 30

8

'*

I
II

10

50

~

.£

II

1"l'

20
10

.J.

l'

V

o

12

16

V

l'

20

2.4

2.8

3.2

20

Forward Voltage VF(VI
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

40

60

80

lL'

"

100

Ambient Temperature TA (OCI
FIG. 3 FORWARD CURRENT
DERATING CURVE

o lL

o

10

20

0"

40

10"

20"
30"

~

u;

-

c

2l

.s
~

40"

10

"c
0

E

30

Forward Current IF (mAl
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

09

05

"
">
iii

50"

08

...J

60"
70"

07

W 0.2

80"

0::

H--r--t-H~--t-f+-H-+--H

01
-30

2-59
338

-20

-10

10

20

30

40

Ambient Temperature TA (OCI
FIG. 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

050301

0204

O.S

FIG. 6 SPATIAL DISTRIBUTION

90

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

PART NO.
LTL-

TEST
CONOITION

MIN.

TYP.

0.7
4.0

2.5
15.0

mcd

I = lamA
Note 1

MAX.

UNIT

Iv

93BGA1
93BGK1

Viewing Angle

20%

93BGA1
93BGKl

90
34

deg.

Note 2 (F ig. 11)

Peak Emission
Wavelength

~PEAK

93BGA1
93BGK1

565

nm

Measurement
@ Peak (Fig. 1)

Spectra I Li ne
Half Width

6~

93BGA1
93BGK1

30

nm

Forward Voltage

V

93BGA1
93BGKl

2.1

Reverse Current

I

93BGA1
93BGKl

Capacitance

C

93BGAl
93BGKl

Luminous Intensity

NOTES.

I

E

I

~,

30

I

~

5

«

V

=5V

V =0
f = 1 MHZ

5.0

~

II

10

1li

c:

'"0

::J

c:

~ 30

~

.f

...J

I'

V
1.6
2.0
24
2.8
32
Forward Voltage V, (VI
FIG. 7 FORWARD CURRENT VS.
FORWARD VOLTAGE.

/

30

/

c:

E
::J

t"- .......

10

1.2

4.0

5

40

"E 20

"E

;:;
B

u

o

p.A

=20mA

I

PF

50

5

u 20
0
L1.

100
35

60

« 40

'"~

V

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission I nternationale De L'Eciairage) eye-response curve.

50

E

2.8

.,">

~

'"

Qi

~

a:

i'..

80
100
20
40
60
Ambient Temperature TA (DC)
FIG 8 FORWARD CURRENT
DERATING CURVE.

1

20

I

1.0

o ./

o

/
20

10

30

40

50

Forward Current IF (mAl
FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT.
0"

10"

20"
30"

40"
10

09

50"

08

60"
70"

07

80"
0.1 '-----L_-'-_'-----'_-'-_-'---'_-'-_-'---'
10
20
30
40
50
60
70
-30 -20 -10
Ambient Temperature TA (OCI
FIG. 10 LUMINOUS INTENSITY VS.
AMBIENT TEMPERATURE

H--t-t--t+'I-+--A'-+-t-H-4 90"
05

03

01

0.2

04

06

FIG 11 SPATIAL DISTRIBUTION

2-60

339

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

PART NO:
LTL- ,

Iv

93BYA1 '
93BYKl

Luminous Intensity

MIN.

TYP.

1,7

5.6

2.5

8.5

MAX.

TEST
CONDITION

UNIT
mcd

IF'" 10 mA
Note 1

deg.

Note 2 (Fig. l6)

om

Measurement
@ Peak (Fig. 1)

90

Viewing Angle

26%

938YAl
93BYKl

Peak Emission
Wavelength

hPEAK

93BYAl
93BYK1

585

Spectral Line
Half Width

t:;"

93BYAl
93BYKl

35

Forward Voltage

VF

938YA1
93BYK1',

2.1

Reverse Current

IR

93BYAl
93BYKl'

Capacitance

C

93BYAl
93BYKl

.,.

34

"

nm

2,8 "

V

100

15

'·IF "',20mA

IJA

VR =5V

PF

VF =0
f = 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve,
2.0% IS the off-axis angle at which the luminous intensity is half the axial luminous intensity,
50

II

40

"
'"'"
Q;
0:
i"-- .......
BO

100

/

J

20

V

10

a /'

o

Ambient Temperature TA IOC)
FIG. 13 FORWARD CURRENT
DERATING CURVE

.-

'/
10

20

30

50

40

Forward Current IFllmA)
FIG, 14 RELATIVE LUMINOUS
INTENSITY VS, FORWARn
CURRENT

30'

40'

10
09

50'

DB

60'
70'
BO'

0,7
__~~L--L__~~
30
40
50
60
70
Ambient Temperature TA (Oe)

01~~---L--~~---L

2-61
340

-30

-20

-10

10

20

FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

H--t-H-F'!-+-Fl'++H-l
05

03

01

a2

04

0,6

FIG,116 SPATIAL DISTRIBUTION

90'

ILITE(')~II

SOT-23 SURFACE MOUNT
ASSEMBLY LED LAMP
LTL-907PK/907LK/907EK

FEATURES
- MICROMINIATURE PACKAGE LED LAMP.
-SURFACE MOUNT ASSEMBLY LAMP.
-SINGLE CHIP.
- HIGH EFFCIENCY/LOWER POWER CONSUMPTION.
- LONG LIFE SOLID STATE RELIABILITY.

DESCRIPTION
The L TL-907 series are clear non-diffused epoxy
microminiature package for surface mount assembly.
L TL-907PK is Gallium Phosphide on Gallium PhosPhide Red Light Emitting Diode.
L TL-907LK is Gallium Phosphide on Gallium Phosphide Green Light Emitting Diode.
L TL-907FK is Gallium Arsenide Phosphide on Gallium
Phosphide Orange Light Emitting Diode.

DEVICES

PACKAGE DIMENSIONS

PART
NO.
lTL-

LENS
COLOR

DIFFUSION

907PK

Water Clear

Non-diffused

Bright Red

907LK

Water Clear

Non-diffused

Green

907EK

Water Clear

Non-diffused

Orange

SOURCE
COLOR

PIN NO.

lTl-907PK
lTl-907lK
LTL-907EK

1

N.C.

2

Anode

3

Cathode

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±O.25mm (.010") unless otherwise
noted.
3. Lead spacing is measured where the leads emerge
from the package.
4. Specifications are subject to change without notice.
2-62
341

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
BRIGHT

PARAMETER

RED

GREEN

ORANGE

UNIT

Power Dissipation

40

100

100

mW

Peak Forward Current
(1/10 Duty Cycle. O.lms Pulse Width)

60

120

120

rnA

Continuous Forward Current

15

30

30

rnA

Derating Linear From 25°C

0.2

0.4

0.4

mAtC

5

.5

5

V

Reverse Voltage
Operating Temperature Range ,

_55°C to +100°C

Storage Temperature Range

-55"C to +100°C

Lead Soldering Temperll1re

240°C for 5 Seconds

Green

Orange

Bright Red

1.0

r---------,-~~----._----~~._------~~~------_.--------_,

0.5

~--------~----_+--~--+_------~--------~--------~--------~

~
c:

"in

1!!
c:
Q)

>

";:;
.!!!
Q)

II:

500

550

600

650

700

Wavelength ~ (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-63
342

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

= 25°C

SYMBOL

PART NO.
LTL-

MIN

TYP

Iv

907PK

0.5

1.7

mcd

IF = 20m A
Note 1

Viewing Angle

20 Yo

907PK

140

deg.

Note 2'(Fig. 6)

Peak Emission
Wavelength

?,. PEAK

697

nm

Measurement
@ Peak (Fig. 1)

nm

PARAMETER

Luminous Intensity

.

Spectral Line
Half Width

6?,.

90

Forward Voltage

VF

2.1

Reverse Cu rrent

IR

Capacitance

C

NOTES:

V

100

p.A

VR =5V

PF

VF =0
f= 1MHz

60

I
II

g

IF = 20mA

25

i:

50

in

'"

10

~ ~

30

...J

"E 20
;:
'"
5
u. 10

J

c

E«
~ E

E

~

0

2.8

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-respose curve.
2. OYO is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

 '"

'" E

/

~ 005

c:Z

o

100

I

/

o

10

O'

--

~c:
l!l

E

'"::>o
c
E
0.5
::>

--

r-

-

'"

~ 0.2

10

Ambient Temperature TA

40'

09

50'

DB

60'

07

-10

20'

10

">

-20

10'

30'

..J

0.1
-30

50

FIG. 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

FIG 3 FORWARD CURRENT
DERATING CURVE.

FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE.

40

30

20

Forward Current IF (mAl

Ambient Temperature TA (OCI

Forward Voltage VF (V)

-

30

40

(OC)

FIG.5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

70'

80'
f++H:=f~+-Ft=l-++-H 90'

0.5

03

0.1

02

04

0.6

FIG 6 SPATIAL DISTRIBUTION

2-64
343

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL·

Iv

907LK

Viewing Angle

2814

907LK

Peak Emission
Wavelength

t\PEAK

PARAMETER
Luminous Intensity

MIN

TVP

MAX

TEST
CONOITION

UNIT

2.0

mcd

IF =20mA
Note 1

140

deg.

Note 2 (Fig. 11)

565

nm
nm

'"

0.6-

Spectral Line
Half Width

At\

30

Forward Voltage

VF

2.1

Reverse Current

IR

Capacitance

C

Measurement
Peak (Fig. 1)

@

2.8

V

100

p.A

VR =5V

PF

VF =0
f'" 1MHz

35

IF =20mA

NOTES: 1. Luminous intensitY IS measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-respose curve.
2. OY:.is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

w

~

~

40

I

Eu.
E 30

I

""'"
~<{
5'" ~E

E
i!! 30

I

i!!

:;

u
>

8

u 20

"Eco

;:
5 10
u.

;:

o

,£

10

V

1.2

1.6

2.0

24

28

3.2

Forward Voltage VF IV)
FIG. 7 FORWARD CURRENT VS.
FORWARD VOLTAGE.

20

40

60

15

/

co

'"'"I'i'-.

"Eco 20

I

"E ~

2.0

/

:>"0

~

11 10

/

> co
~

E

/

~:lE 0.5

'"i'....

80

oV

o

100

Ambient Temperature TA IOC)
FIG. 8 FORWARD CURRENT DERATING
CURVE.

10

20

30

40

o·

10'

20'
30'

40'
50'

O.B

60'
70'

0.7

0:1 L--'-_-'-_L---L_---'--_-'----'_-'--_-'-----'
10
20
30
40
50
60
70
-30 -20 -10

2-65
344

Ambient Temperature TA IOC)
FIG. 10 LUMINOUS INTENSITY VS.
AMBIENT TEMPERATURE

50

Ambient Temperature TA IOC)
FIG. 9 RELATIVE LUMINOUS INTENSITY VS
FORWARD CURRENT

BO'

I++-H-=F"P'+-"I"'!=+-+H-l 90'
0.5

03

0.1

02

04

06

FIG 11 SPATIAL DISTRIBUTION

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

SYMBOL

PART NO.
LTL-

MIN

TYP

Iv

907EK

0.6

2.0

mcd

IF =20mA
Note 1

Viewing Angle

20%

907EK

140

deg.

Note 2 {Fig. 16)

Peak Emission
Wavelength

APEAK

630

nm

nm

PARAMETER

Luminous Intensity

Spectra I Li ne
Half Width

D.A

40

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

NOTES:

40

I

I

V

IF = 20mA

100

ILA

VR =5V

PF

VF=O
f = lMHz

25 ,-

50

~

I

~

~

~

.~

~

40

o~

!:

5

5

"

u
1: 20

10

o

20
2.4
28
1.B
Forward Voltage VF (V)

20

40

1/

> '"
" E

r---.
.......

32

V

~ 10

O>~

r-......

/

1.2

1.5

~

E '"

.3

........

'~"
.flO

II

20

"
E«
~.§

"~ 30

u 20
1:
0

2.8

60

E 30

u..

Measurement
@ Peak (Fig. 1)

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-respose curve.
2. (1% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

..s

'"~

Tl:ST
CONDITION

UNIT

20

50

~

MAX

BO

80

~~

/

05

oV

.......
100

o

Ambient Temperature TA (DC)

FIG.13 FORWARD CURRENT DERATING
CURVE.

FIG 12 FORWARD CURRENT VS.
FORWARD VOLTAGE.

V

10
20
40
30
Forward Current IF (mA)

50

FIG 14 RELATIVE LUMINOUS INTENSITY VS.
FORWARD CURRENT.
0"

10"

20"

30"

40"
50"
08

BO"

70"

07

80"
01L--L__- L__
-30

-20

-10

L-~

__- L__~~__- L__J-~

10

20

30

Ambient Temperature TA (DC)

40

50

BO

70

H-+HFF~+--Fi=l-+++l 90"
0.50301

02

04

DB

FIG. 16 SPATIAL DISTRIBUTION

FIG 15 LUMINOUS INTENSITY VS.
AMBIENT TEMPERATURE

2-66
345

ILlTE[.J~11

SOT-23 SURFACE MOUNT
ASSEMBLY LED LAMPS
LTL·907HK/907JK/907NK

FEATURES
•
•
•
•

MICROMINIATURE PACKAGE LED LAMP.
SURFACE MOUNT ASSEMBLY LAMP.
DOUBLE CHIP.
HIGH EFFCIENCY/LOWER POWER CONSUMPTION.
• LONG LIFE SOLID STATE RELIABILITY.

DESCRIPTION
The L TL-907HK are bicolor LED contains two integral
chip one orange Gallium Arsenide Phosphide on
Gallium Phosphide and one green Gallium Phosphide,
operation independently of each other with a common
anode.
The L TL-907JK is clear non-diffused epoxy microminiature package for surface mount assembly double
orange Gallium Arsenide Phosphide on Gallium
Phosphide Light Emitting Diode.
The L TL-907NK utilizing double Gallium Aluminum
Arsenide Ultra-brightness red.

DEVICES
PACKAGE DIMENSIONS

PART
NO.
LTL-

LENS
COLOR

DIFFUSION

907HK

Water Clear

Non-diffused

SOURCE
COLOR
Orange
Green
Orange

907JK

Water Clear

Non-diffused
Orange
GaAIAs Red

907NK

Water Clear

,,1f. .
lo05!O.lS
(.04:!:.0061

Non-diffused
GaAIAs Red

2-67

346

PIN
NO.

LTL·
907HK

LTL·
907JK

LTL·
907NK

1

Cathode
(Orange)

Cathode

Anode

2

Cathode
(Green)

Cathode

Anode

3

Anode

Anode

Cathode

NOTES:
1. All dimensions are in millimeters (inches).
2_ Tolerance is ±0_25mm (.010") unless otherwise
noted_
3_ Lead spacing is measured where the leads emerge_
from the package_
4. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
GaAlAs

PARAMETER

GREEN

ORANGE

UNIT

100

100

100

mW

200

120

120

mA

Continuous Forward Current

40

30

30

mA

Derating Linear From 25°C

0.5

0.4

0.4

mAtC

4

5

5

V

RED

Power Dissipation
Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55°C to +100°C

L-ead Soldering Temperature

240°C for 5 Seconds

Green

...>
...cc

Orange

GaAIAs
Red

1.0

r----------.--~------._----_.~_.--7r------_r----------._--------_,

0.5

r----------H~--~r---+_~k-----_1~--_\----_r----------t_--------~

·in
OJ

OJ

'5co

Qi

a:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2·68
347

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
TEST
CONDITION

SYMBOL

PART NO.
LTL-907HK

MIN

TVP

Iv

Orange
Green

0.6
0.6

2.0
2.0

mcd

IF = 20m A
Note 1

Viewing Angle

28Y.z

Orange
Green

140

deg.

Note 2 (Fig.6}

Peak Emission
Wavelength

i\PEAK

Orange
Green

630
565

nm

Measurement
@Peak {Fig. 1}

Spectral Line
Half Width

I:!.i\

Orange
Green

40
30

nm

Forwar,d Voltage

VF

Orange
Green

2.0
2.1

Reverse Current

fR

Cal!lacitance

C

PARAMETER
Luminous Intensity

MAX

UNIT

2.8

oran~

'-

100

GrOO!l

p.A

20
35

Oran!16
Green:

IF,=20mA

V

VR =5V
VF =0

PF

f'" 1MHz

NOTES: 1. Luminous intef)sity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage} eye-res pose curve.
2. 6% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

,,

50
~ 40

I

E

-

~

,

E 30
l!!

5
u 20

,

~

~ 10

~

~ 20

50

2l

E
:; 40

E

I

~

'I'-.. ....... ,

;;:

I

~

10

1.2

1.6

2,0

2.4

28

Forward Voltage VF (VI
FIG. 2 FORWARO CURRENT VS.
FORWARD VOLTAGE

32

15

'E
.3

1.0

/

~ 0,5

o ./

o

80
100
60
Ambient Temperature TA (DC)
FIG. 3 FORWARD CURRENT
DERATING CURVE
20

40

10

20

30

40

Forward Current IF (mA)
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS.

0"
~

GREEN
ORANGE

/

7

">

iii

.......

/ /

o

.s
'"g
c:

ORANGE - i - GREEN

30

u
~ 20

'GREEN

I

"E

~

I

I - ORANGE,

2,5

60

10"

20"
30"

2

'in

c:

£"

GREEN f.--

40"

~

~

o

'~
.3

ORANGE

50"

0.5
08

60"

">

~
II:

07

0.2

......
/1,

1..........,

70"
80"

I-I--I-H=+=~+-~+-I-l--I--1 90"
O. 1
-30

2-69

348

10
20
30
40
50
-10
Ambient Temperature TA (D C)
FIG, 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE
-20

60

o5

70
FIG

03

01

0,2

04

SPATIAL DISTRIBUTION

0.6

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL- '

MIN

TYP

Iv

907NK

1.1

3.5

mcd

IF = 20mA
Note 1

Viewing Angle

2/1Y,

907NK

140

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

i\.PEAK

660

nm
nm

PARAMETER

Luminous Intensity

Spectral Line
Half Width

Ai\.

20

Forward Voltage

VF

1.8

Reverse Current

IR

Capacitance

C

MAX

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

IF =20mA

2.4

V

100

p.A

VR =5V

PF

VF=O
f= 1MHz

30

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commissiofl Internationale De L'Eciairage) eye-respose curve.
2. /Iv, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

II

«

1

40

E

I
II

~

:: 30
c:

"5
u 20

~

50
?;
in
c:
£

50

U)

c:

30

"- i'...

u

"0

:0
;;

"E 20
;;
'"

I
I

(; 10

LL

(;

LL

J

o

10

o

12

16
20
2.4
2.8
32
Forward Voltage VF (V)
FIG 7 FORWARD CURRENT VS.
FORWARD VOLTAGE

E
:J

.......

20

'a:"

10

./

"

iii

""- "-

o

-'
>

V

oV
o

20
40
60
80
100
Ambient Temperature TA (OC)
FIG 8 FORWARD CURRENT VS
DERATING CURVE

/

1/
20

r-:-I--

iii

.E.,

40

60

80

100

Forward Current IF (mA)
FIG 9 Relative LUMINOUS INTENSITY VS
FORWARD CURRENT.

O'
?;
in

.... l- f-

3.0

::J
0

E

e:;

40

"

40

10'

20'
30'

~ t--

40'

:J

o

c:

'E

50'

0.5

:J

O.B

-'

60'

~

~

a:

70'

0.7

0.2

H-+H-=F4""'+-"f'q++H-1
01
-30

10
20
30
40
50
-10
Ambient Temperature TA (OC)
FIG.l0 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE CHARACTERISTICS
-20

60

70

05

03

0.1

02

0.4

BO'
90'

06

FIG 11 SPATIAL DISTRIBUTION

2-70
349

= 2SoC

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL

PART NO.
LTL-

MIN

TYP

Iv

907JK

0.6

2.0

mcd

IF =20mA
Note 1

Viewing Angle

28%

907JK·

140

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

APEAK

630

nm

Measurement
@ Peak (Fig. 1)

nm

PARAMETER
Luminous Intensity

Spectral Line
Half Width

b.A

40

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

MAX

TEST
CONDITION

UNIT

2.8

V

100

/JA

VR =5V

PF

VF=O
f = lMHz

20

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-respose curve.
2. ell, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50·

60

I

25

50



U 20

/

r-...
-.......

"~

I

0
LL

1/

o

40

c:~

10

V

12

1.6

20.

2.4

2.8

3.2

Forward Voltage VF (V)
FIG.12 FORWARD CURRENT VS
FORWARD VOLTAGE.

20

40

, ,

60

80

V

1/
L
r-....

o 1/

o

100

Ambient Temperature TA (DC)
FIG.13 FORWARD CURRENT DERATING
CURVE.

10

20

30

40

o·

10'

20'
30'

40'
50'
60'
70'
60'
I++-'H+~+--l<'t=++-'H-i 90'
0.1 L.--L_---L_L---'_-L_-'---''---'-_..L.---'
-30 -20 -10 0
10
20
30
40
50
60
70

2-71
350

Ambient Temperature TA (DC)
FIG. 15 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

o5

50

Forward Current IF{mA)
FIG.14 RELATIVE LUMINOUS )NTENSITY VS
FORWARD CURRENT.

0.3

0.1

02

0.4

FIG 16 SPATIAL DISTRIBUTION

06

ILlTE('J~11

BIG(8mm) SOLID STATE LAMPS
I,t,

LTL-327HR HIGH EFFICIENCY RED LTL-321A AMBER
LTL-327G
GREEN
LTL-327EA ORANGE
YELLOW
LTL-327Y

FEATURES
- 8mm DIAMETER BIG LAMP.
-WIDE VIEWING ANGLE.
- LOW POWER CONSUMPTION.
-I. C. COMPATIBLE/LOW CURRENT REQUIREMENTS.
-RELIABLE AND RUGGED.

DESCRIPTION
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

PACKAGE DIMENSIONS
FLAT DENO

DEVICES

ATHOOE

.. 0
(.354)

PART
NO.
LTL-

COLOR

DIFFUSION

327HR

Red

Diffused

Hi. Eft. Red

327G

Green

Diffused

Green

327Y

Yellow

Diffused

Yellow

327A

Amber

Diffused

Amber

327EA

Orange

Diffused

Orange

LENS

SOURCE
COLOR

2.54 NOM

(.1

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-72

351

ABSOLUTE MAXIMUM RATINGS AT TA == 25°C
GREEN

AMBER
YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

120

80

120

mA

Continuous Forward Current

30

20

30

mA

Derating Linear From 25°C

0.4

0.25

0.4

mA/oC

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

_55°C to +1 00° C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body)

260° C for 5 Seconds

Yellow
Green

Amber

Hi. Eff. Red

Orange

1.0

....;;;

>c

~

c
~

0.5

~--------~--~~--~~~------~--------~---------+--------~

.~

a;

a:

500

550

600

650

700

Wavelength ~ (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2·73
352

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

327HR

3.7

12.6

mcd

Viewing Angle

20)1;,

327HR

46

deg.

Note 2 (Fig 6)

Peak Emission
Wavelength

APEAK

327HR

635

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

"'A

327HR

40

nm

Forward Voltage

VF

327HR

2.0

Reverse Current

IR

327HR

Capacitance

C

327HR

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

IF

,

2.8

V

IF

100

}J.A

VR

= 20 mA
= 5V

VF = 0

PF

20

= 10 mA

Note 1

f

= 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2.0)1;, is the off-axis angle at which the luminous intensity is half the axial luminOUS intensity.
50

ro

] E

r.......

i'.

3.2

20

40

60

80

~ ~ 10

r--..

J

o ./

o

100

Ambient Temperature TA (OC)
FIG 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (V)
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE.

/

:J"O

~ ~ 20

/

12

~

E '"

r-...

~

I

0 10

u.

/

"':J 0E 30

c:

20

/

40

Ql

E«

40

V

10

30

20

40

50

Forward Current IF (rnA)
FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
0"

10"

20"
30"

40"
1.0

09

50"

0.8

60"

70"

0.7
01L--L__J -__L - - i__- L__
10
20
30
-30 -20 -10

~-J

__- L_ _~~

40

Ambient Temperature TA {Oel

FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

80"

H-+-Hf--f==t-',"+,'-F'H-+-+--H 90"
0.5

03

01

0.2

04

FIG. 6 SPATIAL DISTRIBUTION

0.6

2-74

353

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

327G
327Y

3.7
3.7

12.6
12.6

mcd

IF = 10 mA
Note 1

Viewing Angle

26Y:.

327G
327Y

46

deg.

Note 2 (Fig. 11 )

Peak Emission
Wavelength

APEAK

327G
327Y

565
585

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

6A

327G
327Y

30

Forward Voltage

VF

327G
327Y

Reverse Current

IR

327G
327Y

Capacitance

C

327G
327Y

PARAMETER
Luminous Intensity

TEST
CONDITION

UNIT

MAX.

nm

35

IF =20 mA

2.8

V

100

p.A

VR = 5V

PF

VF=O
f = 1 MHZ

2.1

35
15

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve.
2. 6Y:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

40

1/
'V

E.
~

1: 30
"0

0

u.

~

27Y

E.
~

20
10

J.
'/

o
12

16

20

3ill

1:: 20

32jy

'"~

0 10

u.

24

2B

030

21ft
,

!;

~

11/ 32 Y

i'.
i 'i ' .........

........ i'.

40

60

I

E
'"
:J"O
~ ~ 20

I'-

20

> '"

" E

r.::: ~
BO

~~

"-

100

AmbIent Temperature TA (Oel

Forward Voltage VF (VI

:J

o~

I

32

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

40

-;;; E

30

~

5

VI

~

"
1:..:

40

u

J

50
~

50

E

If

0;

~

60

Ii

/I

~

5

u

/V

327

V

10

oV
o

1/

10

20

30

40

IF (rnA)
FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
Forward Current

FIG 8 FORWARD CURRENT
DERATING CURVE

O'

10'

20'

30'

40'

1.0

0.9

50'

O.B

60'
70'

0.7

BO'
__~__L-~_ _- L_ _4-~L--L_ _~~
-20 -10
10
20
30
40
50
60
70

01L-~

-30

2-75

AmbIent Temperature TA (0 Cl

354

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

t-t--t-t--t--+''P'¥--Ft-t--+H-l 90'
050.301

0.2

0.4

FIG 11 SPATIAL DISTRIBUTION

0.6

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.

SYMBOL

LTL-

UNIT

3.7
3.7

12.6
12.6

mcd

IF = 10mA
Note 1
Note 2 (Fig. 16)

MAX.

Viewing_Angle

26Y..

327A
327EA

46

deg.

Peak Emission
Wavelength

A PEAK

327A
327EA

600
630

nm

Spectral Line
Hall Width

6A

327A
327EA

35
40

nm

Forvyard Voltage

VF

327A
327EA

2.1
2.0

Reverse Current

fR

327A
327EA

Capacitance

C

327A
327EA

1/

II

327 A
30

;:c

327A

I

~

~

IF = 20mA

2.8

V

100

j.lA

VR =5V

PF

VF =0
f=1MHZ

15
20

60

If

40

E
"

Measurement
@Peak (Fig. 1)

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. 8Y.. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

50

;:c

TEST
CONDITION

TYP.

327A
327EA

NOTES:

25°C

MIN.

Iv

Luminous Intensity

=

E

/

~

':;

~

V

:;;

;;:

':;

1/

(; 10

u.

/,

o
12

16

in

:g""

40
327EA

30

I"-

u
'E 20
;;:"

I /

"0

50

E

II

u 20

50

;:

(;

u.

/

""-

...... "-

10

.......

20

24

28

20

3.2

Forward Voltage VF (VI
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

40

20

'""

10

60

30
/327

It-

">

r--- ...... ......

J7A

/
327EAJ /

"a'"
"
E
"

..J

L

40

'" ~
80

a;

a:

/

oV

~

o

100

AmbIent Temperature TA-(OCI
FIG 13 FORWARD CURRENT
DERATING CURV£

1/
10

O'
;:

20

30

40

50

Forward Current IF (mAl
FIG.14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
10'

20'
30'

2

in

:g""
"'"a
" 0.5
E
"
">
~a: 02

327A
40'

1.0
327EA

..J

0.9

50'

O.B

60'
70'

0.7

BO'

01
-30

I++-H-'F:p.¥A++H-l
-20

-10

0

10

20

30

40

AmbIent Temperature TA (OCI
FIG.15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

0.1

0.2

04

90'

06

FIG 16 SPATIAL DISTRIBUTION

2-76
355

ILlTE(.)~11

0.8" (20mm) BIG LAMP
LTJ-811 HR/811G/811Y

FEATURES
-0.8 INCH (20.0mm) DIAMETER BIG LAMP.
-CHOICE OF THREE BRIGHT COLORS-GREEN/
YELLOW/HIGH EFFICIENCY RED.
_WIDE VIEWING ANGLE.
_GRAPHIC STACKING ALLOWABLE.
_ HIGH LUMINOUS INTENSITY.
_ LOW POWER REQUIREMENT.
-SOLID STATE RELIABILITY.
_CATEGORIZED FOR LUMINOUS INTENSITY.
_ EXCE LLENT ON-OFF CONTRAST.
-SUITABLE FOR MULTIPLEX OPERATION.
_ EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The LT J-811 series big lamp are sphere light sources
designed for a variety of application where a large,
bright source of light is required. The green series
devices utilize LED chips which are made from GaP
on a transparent GaP substrate. The yellow and high
efficiency red series devices utilize LED chips which
are made from GaAsP on a transparent GaP substrate.
The green devices have green diffused lens color. The
yellow devices have yelliow diffused lens color. The
high efficiency red devices have red diffused lens color.

PACKAGE DIMENSIONS

Rlo.ao
R(.394) 'll----':"~~-----'I

NOTE: All dimensions are in

millimeters
( Inches)

tolerance are:

1. Lead length (from seating plane): minimum value

+1.00

-=0:00

+0.040"
( -0.000"

mm 2.

±0.25mm
(0.010")

unless otherwise noted.

DEVICES
PART NO. L T JOESCRIPTION

2-77
356

GREEN

YELLOW

HI.-EFF.
RED

811G

8llY

811HR

Universal, Sphere Lens

PIN CONNECTION

INTERNAL CIRCUIT DIAGRAM

PIN NO.

CONNECTION

1

Cathode F

2

Anode F

3

Cathode E

4

Anode E

5

Cathode D

6

Anode D

7

Cathode C

8

Anode C

9

Cathode B

10

Anode B

11

Cathode A

12

Anode A

12

ABSOLUTE MAXIMUM RATINGS AT TA

=

11

10

9

B

7

2

3

4

5

6

25°C

GREEN

YELLOW

HI.-EFF.
RED

UNIT

Power Dissipation Per Chip

75

60

75

mW

Peak Forward Current Per Chip
(1/10 Duty Cycle. 0.1 ms Pulse Width)

100

80

100

mA

25

20

25

mA

0.3

0.24

0.3

mArC

5

5

5

V

PARAMETER

Continuous Forward

~urrent

Per Chip

Derating Linear From 25°C Per Chip
Reverse Voltage Per Chip
Operating Temperature Range

-2~Cto +85°C

Storage Temperature Range

_25° C to +85" C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C
2-78

357

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTJ-811Y
PARAMETER

MAX.

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

11

25

mcd

IF"" 60 mA

Average Luminous Intensity Per Lamp

UNIT

Peak Emission Wavelength Per lamp

~P

585

om

IF =120mA

Spectra! Line Half-Width Per Lamp

tJ.~

35

nm

IF =120 mA

Forward Voltage any Chip

VF

2.1

2.8

V

If" 20 mA

Reverse Current any Chip

IR

100

p,A

VR ;"5V

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E

~
E

40

II
J

30

~

5

u
"E
.,

20

1;

1!'

10

12

16

60

">

Qi

20

o
480

2.8

24

15

"

J

IJ

Qi

a:

\

560

800

Wavelength ( }. ) - nm.
Fig. 2 SPECTRAL RESPONSE.

/

05

o

640

/

V

"
".>

o

10

15

20

25

30

Forward Current (IF) - mA
Fig. 3 RELATIVE, LUMINOUS INTENSitY Vs.
FORWARD CURRENT (PER SEGMENT).

["\.

500

«

E
I

20

I

l'

c: 16
~

8

)v

1000
800

28

E

E

40

a:

24

L

2.5

..J

Forward Voltage (V,) - Volts
Fig. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

«

"0c:

.~

20

c:

.E.,"

0

)

o

~
in

If'

80

5Co
5

II

~

u..

100

g

"

12

o"

.x

.........

:<

40

60

100
80

5

50

..

U

1'1

I

20

E
~

"-

80

90

~
200

'"

a..
"

20

f'

"-

"

...... ~

~

-"

r--..

10

..........

......
I'

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = 10mA PER SEG I

2-79

358

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTJ-811G
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity Per Lamp

Iv

11

25

mcd

IF = 60 mA

Peak Emission Wavelength Per Lamp

~P

565

nm

IF =120 mA

Spectral Line Half-Width Per Lamp

t:>.~

30

nm

IF =120 mA

Forward Voltage any Chip

VF

2.1

2.8

V

IF = 20 mA

Reverse Current any Chip

IR

100

p.A

MAX.

UNIT

VR =5V

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)
50

120

/

-0:

E

-E

40

/

30

~

20

"E

~

1;

?i'

'5
c.
'5

/
/

;;
U

10

LL

o
12

16

">


"II:'"


40

a;

28

20

15

..J

">

24

E

V

~

c:

0

24

/V

'"

~

20

..L

25

£"

60

Forward Voltage (V,) - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

«

c:

0

e-

)

o

i':
0;

f

80

S

I
II

~

u

100

E
~
5

U

.....

100
BO

,

i':

-'"

50

in
c:

:--...

.>!

"'"

Q.

e

"\

,.

"

.EO

~

g">

,. . . 1'

a;

0::

20
10

o

~

......

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F = 1 KHz)
IAVERAGE I, = lOmA PER SEG)

ILlTErl] ~ II

ULTRA BRIGHT_RED SOLID STATE
LAMPS T-1% MODIFIED 1"LEAD
L TL-353CK (NEW IMPROVED PART TO REPLACE
L TL=283CK SERI ES)

FEATURES
_ ULTRA-BRIGHTNESS.
_ NEW STURDY LEADS.
-IC COMPATIBLE/LOW CURRENT CAPABILITY.
-RELIABLE AND RUGGED

DESCRIPTION
The LTL-353CK IS Gallium Aluminum Arsenide red
light emitting diodes.
These clear, non-diffused Ultra Bright lamps but
perform conventional LED lamps, by utilizing new
ultra intensity material. We achieve superior product
performance.

PACKAGE DIMENSION

DEVICES
PART
NO.
LTL-

COLOR

DIFFUSION

353CK

Water Clear

Non-diffused

LENS

SOURCE
COLOR
GaAIAs Red

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

8.8
(.35)

NOM
(.1)

2-82

361

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

100

mW

Peak Forward Current (1/10 Duty Cycle, 0.1 ms Pulse Width)

200

mA

Continuous Forward Current

40

mA

Derating Linear From 25°C

0.5

mAloC

Reverse Voltage

4

V

Operating Temperature Range

- 55"C to

+ 100"C

Storage Temperature Range

- 55"C to

+ 100"C

Lead Soldering Temperature [1.6mm (0.063 in) From Body]

260"C for 5 Seconds

GaAIAs Red
1.0r--------,---------.----~--_.~

__----_.--------_.--------~

.~

'"c:

~
c:

0.5r----------t----------+---------~L---~----~----------+_--------~

C1>

>

'';::;

'"

Qj

II:

500

550

600

650

700

Wavelength A (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-83
362

750

800

ELECTRICAL OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
TEST
CONDITION

PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Luminous Intensity

Iv

353CK L2
353CK H3
353CK H4

150
400
700

300
500
1000

mcd

IF = 20 mA
Note 1

Note 2 (Fig. 6)

UNIT

MAX.

Viewing Angle

20Y.

12

deg

Peak Emission
Wavelength

APEAK

660

nm

Spectral Line
Half-Width

AA

20

nm

Forward Voltage

VF

1.8

Reverse Current

IR

Capactance

C

Measurement
peak (Fig. 1)

@

IF =20MA

2.4

V

100

pA

VR =4V

PF

VF=O
f = 1 MHZ

30

NOTES: 1. Luminous intensity is measured with a light sensor and Wter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. OY. is the off-axis angle at which the luminous Intensity is half the axial luminous intensity.
60



-20

"-,
80

/

/
o/
o

20

40

60

80

100

Forward Current IF (mA)
FIG 4 RELATIVE LUMINOUS INTENSITY VS
FORWARD CURRENT

>
>

oJ

01
-30

60

-

t:

.3

~

"-

Ambient Temperature ']A (OCI
FIG 3 FORWARD CURRENT VS,
DERATING CURVE

-- -- ---

~ f-

V
f".

(;
u. 10

o

1.2

';;;


.;::;

'"

Qi

a:

500

550

600

650

t'--...
700

750

800

Wavelength A (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-86

365

ELECTRICAL OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

Luminous Intensity

Iv

PART NO.

MIN.

LTL307C
307CE
307CK

TYP.

19

60

29
29

90

MAX.

2SoC

=

TEST
CONOITION

UNIT
,-

moo

IF = 20 mA
Note '1

40
40

deg

Note 2 (Fig. 6)

Measurement
@ peak (Fig. 1)

90

50

307C
307CE
307CK

Viewing Angle

29Y:.

Peak Emission
Wavelength

~PEAK

660

nm

Spectra I Li ne
Half·Width

A7I.

20

nm

Forward Voltage

VF

1.8

Reverse Current

IR

Capacitance

C

2.4

V

100

p.A

VR =4V

PF

VF=O
f '" 1 MHZ

30

IF =20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eciairage) eye-response curve.
2. 9Y:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

II

« 40
.s
1:

«

J

.s

-'

E 30
~
u 20
"E

~

0

u.

o

in

~

:;

40

t'-- r......

1.6
2.0
24
2.8
32
Forward Voltage VF (VI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

E '"

.3 -g

I"'

u.

1.2

~

~ ~

30

o

4.0

<::

"
E..:
- E
~ ~ 30

u
"E 20
;:
'"
5 10

I
I
II

10

50

E

II

"
'"~

50

i!"

"-

g!~

2.0

./

ti E

0;

/

5 10

c::z

"- 1'-..

oV

o

IL

o

20
40
60
80
100
Ambient Temperature lA (OCI
FIG 3 FORWARD CURRENT VS.
DERATING CURVE

20

.
..
<::

.'!l

.E

40

60

80

10'

20'
30'

r- r- r-

"o<::

40'

"

50'

~ 0.2

60'

E 0.5
...J

~

c::

0.1
-30

2-87
366

-20

-10

10

20

30

40

Ambient Temperature TA (OCI
FIG. 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE CHARACTERISTICS

50

60

70

100

Forward Current IF (mAl
FIG 4 RELATIVE LUMINOUS INTENSITY VS
FORWARD CURRENT.

0'

r-- r-

~

l- t-

V

H-++-f-f=t""'I"q:f-H+-H
05

0.3

01

0.2

06

FIG 6 SPATIAL DISTRIBUTION

70'
80'
90'

ILITEr.] ~ II

ULTRA BRIGHT RED SOLJJl:.STATE.
LAMPS T-l% STANDARD Scf> LED
l Tl- 4263 ,4264 I 4268

FEATURES
- ULTRA·BRIGHTNESS.
- NEW STURDY LEADS.
-IC COMPATIBLE/LOW CURRENT CAPABILITY.
-RELIABLE AND RUGGED.

.[

:1
'j

DESCRIPTION
The semiconductor material is Gallium Aluminum
Arsenid Ultra-brightness red Light emitting diodes.
The LTL4263, have Red diffused lens. The L TL-4264
have red, non-diffused lenses where as the LTL-4268,
has a untinted. non-diffused lenses lamp out perform
conventional LED lamps.
By lItilizing new higher
intensity material, we achieve superior product performance-.

PACKAGE DIMENSION
DEVICES

5.0

(.191)

PART NO.
PTL4263

LENS

SOURCE
COLOR

COLOR

DIFFUSION

Red

Diffused

GaAIAs
Red

Red

Transparent

GaAIAs
Red

Water Clear

Non0;

:0
~

J

If

i' I'.
I........

o

1.2

1.6
2.0
24
2.8
32
Forward Voltage VF (V)
FIG 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

40

~ ~ 3.0

<:;

0
u. 10

I

o

5"
u

c:

"
E«
E

E

"E
5 10
u.

-

~

U 20

;:

40

E

I
II

~

50

«

J

E

50
~
in

l"'-

f' 1'-...
o

20
40
60
80
100
Ambient Temperature TA (OC)
FIG 3 FORWARD CURRENT VS.
DERATING CURVE

~

~

"
~a:z§ 1 0
o 1/

1/

o

L

20

r- r-

'"c:
l!l

oS

o'"
~

c:
E05

r-

--

80

100

10'

20'

r-..
40'

10

0.9

~

50'

08

~

~

60

30'

..J

a:

40

Forward Current IF (mA)
FIG. 4 RELATIVE LUMINOUS INTENSITY VS.
FORWARD CURRENT

0'

.~

l- I-

V

0.2

60'

70'

0.7

80'
01
-30

t++-H-f'=f-1-fL-f-1c-+-+-+-t-j 90'
-20

-10
10
20
30
40
50
Ambient Temperature TA (OC)
FIG. 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE CHARACTERISTICS

60

70

050.301

020406

FIG. 6 SPATIAL DISTRIBUTION

2-90

369

ILlTErl) ~ II

ULTRA BRIGHT RED SOLID
STATE LAMPS T-l STANDARD
3q, LED
lTl-4261N/4262N/4266N

FEATURES
• ULTRA-BRIGHTNESS.
- NEW STURDY LEADS.
-IC COMPATIBLE/LOW CURRENT CAPABI LlTY.
- RELIABLE AND RUGGED.
-LOW COST.

DESCR IPTION
The LTL-4261 N, 4262N, 4266N series is Gallium
Aluminum Arsenide superbrightness red light emitting
diodes.
LTL-4261 N Red, diffused.
LTL-4262N Red, transparent.
LTL-4266N water clear. These Lamp out perform conventional LED lamps. By utilizing new higher intensity
material, we achieve superior product performance.

DEVICES

PACKAGE DIMENSION

PART
NO.
lTl-

COLOR

DIFFUSION

4261N

Red

Diffused

GaAIAs Red

4262N

Red

Transparent

GaAIAs Red

Water Clear

Non-diffused

GaAIAs Red

4266N

lENS

~

SOURCE
COLOR

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spaci ng is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-91
370

I.

2.54 NOM

(.,

ABSOLUTE MAXIMUM RATINGS AT TA

= 2SoC

PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

100

mW

Peak Forward Current (1/10 Duty Cycle. 0.1 ms Pulse Width)

200

mA

Continuous Forward Current

40

mA

Derating Linear From 25°C

0.5

mA/oC

Reverse Voltage

4

V

Operating Temperature Range

- 55°C to + 100°C

Storage Temperature Range

- 55°C to + 100°C

Lead Soldering Temperature [1.6mm (0.063 in) From Body]

2600 C for 5 Seconds

GaAIAs Red

1.0

A

?;
.;;;
c

j!l

c

0.5

Q)

>

',J
CtI

'iii

a:

500

550

600

/ \
650

r--....
700

750

800

Wavelength 71. (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-92

371

ELECTRICAL OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Luminous IntensitY

Iv

4261N
4262N
4266N

8.7
19
19

48
80
80

mcd

IF

Viewing Angle

20Y2

4261N
4262N
4266N

60°
45 0
45°

deg

Note 2 (Fig. 6)

Peak Emission
Wavelength

i\.PEAK

660

nm

Measurement
@ peak (Fig. 1)

Spectral Line
Half-Width

Ai\.

20

nm

Forward Voltage

VF

1.8

Reverse Current

IR

Capactance

C

NOTES

«

V

100

IJ.A

VR

PF

VF=O
f =: 1 MHZ

IF "'20mA
=:

4V

5"

50

50

...E 40

I
II

E

l - I-- I--

E
~

:;

u 20
'E

30

"r-... '"

U

..

'C

:;; 20
~

I
I
IJ

10

o

1.2

0

LL

r--

.~

c
e'"
.5

'"o

:J

c
E05

10

o
2.0

1.6

2.4

28

Forward Voltage VF (V)
FIG 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

32

o

"

""

o 1/
o

-

1/
20

--- ----

40

60

80

10'

20'

40'
10

09

50'

08

60'

02

70'
80'

0.1
-30

I-t-+-Hf--t9-"-t''-P't-CH-t--H 90'

50
10
20
30
40
-10
Ambient Temperature TA (OC)
FIG. 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE CHARACTERISTICS
-20

60

100

Forward Current IF (rnA)
FIG. 4 RELATIVE LUMINOUS INTENSITY VS
FORWARD CURRENT.

30'

"

a:

./

/

O'

.~

~

V

20
40
60
80
100
Ambient Temperature TA (OC)
FIG 3 FORWARD CURRENT VS.
DERATING CURVE

.3

372

20 mA

=:

2.4

60

...E 30

0
LL

UNIT

1. Luminous Intensity is measured with. a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve
2. OY:, IS the off-axls angle at which the luminous intensity IS half the aXial luminous Intensity

« 40

~

MAX.

30

50

2-93

TEST
CONDITION

PARAMETER

70
05

03

0.1

0.2

04

0.6

FIG 6 SPATIAL DISTRIBUTION

ULTRA BRIGHT RED SOLID STATE
LAMPS MEDIUM PROFILE 4.6
FLANGELESS

ILITE[']~II

LTL-10263W

FEATURES
• ULTRA BRIGHTNESS.
• NEW STURDY LEADS.
.IC COMPATIBLE/LOW CURRENT CAPABILITY .
• RELIABLE AND RUGGED.

.~

• LOW COST.

DESCR IPTION
The LTL-l0263W is Gallium Aluminum Arsenide red
light emitting diodes.
These red, diffused lamps out perform conventional
LED lamps. By utilizing new higher intensity material,
we achieve superior product performance.

~ ~
,1
~ ~

I

1 Ii

I'

'I 1
,I
j

~

I

,

I

~
1

- - ,-- 1-....:-- ___ _

- , " - - = ---'-

~~------

-=*

PACKAGE DIMENSION

DEVICES
PART
NO.
LTL-

LENS
COLOR

DIFFUSION

10263W

Red

Diffused

SOURCE
COLOR

4.75
(.187)

GaAIAs Red
7 ••

sEE

No!.-,.-I.-t-.I-'T

$

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±' O.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5tnm (.959") max.
4. Lead spacing is' measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2.54

NOM

(.1)

2·94

373

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

100

mW

Peak Forward Current {1 11 0 DutY Cycle. 0.1 ms Pulse Width}

200

mA

Continuous Forward Current

40

mA

Derating Linear From 25°C

0.5

mA/oC

Reverse Voltage

4

V

Operating Temperature Range

- 55"C to

+ 100"C

Storage Temperature Range

- 55"C to

+ 100°C

Lead Soldering Temperature !1.6mm (0.063 in) From Body]

260° C for 5 Seconds

GaAIAs Red
1.0

~

~
'Vi

~ 0.5

) \

c:

'"

.~

....

'"

OJ

a:

500

550

600

650

r--...
700

Wavelength?. (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-95

374

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

MIN.

TYP.

Iv

11

40

mcd

IF'" 20 mA
Note 1.

2eY:.

60°

deg

Note 2 Fig. 6.

APEAK

660

nm

Measurement
@ Peak (Fig. 1)

nm

Luminous Intensity
Viewi ng Angle
P~ak

TEST
CONDITION

SYMBOL

Emission Wavelength

MAX.

UNIT

\

Spectral Line Half·Wldth

6A

20

Forward Voltage

VF

1.B

Reverse Current

IR

Capacitance

C

2.4

V

100

jJ.A

VR '"4V

PF

VF =0
f = 1 MHZ

30

IF'" 20mA

NOTES: 1. Luminous intensity is measured with Cl iigin sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. oY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

II

50
~

50

;;( 40

E

I
II

.!:

E 3D
~

5

;;(

in
c

E

E

cc

100

30'

..J

~

BO

Forward Current I, (mAl
FIG 4 RELATIVE LUMINOUS INTENSITY VS
FORWARD CURRENT

02

70'

0.7

BO'
01
-30

90'
-20

-10

10
20
30
40
50
Ambient Temperature TA (OCI
FIG. 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE CHARACTERISTICS

60

70

05

03

01

02

04

06

FIG. 6 SPATIAL DISTRIBUTION

2-96
375

ILITEr.) ~ II

SOT.23 SURFACE MOUNT
ASSEMBLY 'LED LAMP
LTL-907CK

FEATURES
• MICROMINATURE PACKAGE LED LAMP.
• SURFACE MOUNT ASSEMBLY LAMP.
.SINGLE CHIP.
• HIGH EFFICIENCY/LOWER POWER CONSUMPTION.
• LONG LIFE SOLID STATE RELIABILITY.

r' ' ,
;'

,'".

i
,,'
I

'/

,

/

;.

';,,

,

,i
!

DESCRIPTION
The LTL-907CK is clear non-diffused epoxy micro·
miniature package for surface mount assembly. LTL·
907CK Red GaAIAs, Ultra·Brightness.

.

DEVICES

PACKAGE DIMENSIONS

PART
lENS
SOURCE
NO.
COLOR
lTl- COLOR DIFFUSION

PIN
NO.

1
907CK

Water
Clear

,~

Non·
Diffused

GaAIAs
Red

2 Cathode

rm
0.,

3 Anode

2-97

376

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance, is ± 0.25mm (.010") unless otherwise
noted.
3. lead spacing is measured where the leads emerge
from the package.
4. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA

= 25°C

PARAMETER

MAXIMUM RATING

UNIT

100

mW

200

mA

Power Dissipation

---

-----.

----------1---

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse WIdth)

._------------ .------.-----------.--------- -.----.Continuous Forward Current

40

mA

- ---- .. ------------------ .---------------_.

Derating Linear From 25°C

--.-- --- .--. ----.---

mAtC

0.5

...

Reverse Voltage

-- _.--- ..

------~

-

4

V

--

-

- 55"C to + 100°C

Operating Temperature Range

- 55°C to + 100°C

Storage Temperature Range

-------

-- _0_. ____- - - - - -

------~---

Lead Soldering Temperature

240°C for 5 Seconds

GaAIAs Red
1.0r-------.----------.-------.-~----_.-------_.---------.

?:
.;;;
r:::

~

r:::

0.5r----------+----------+----------,~--_T----_r----------r_--------_1

Q)

'5
III

Qi

0::

500

550

600

650

700

750

800

Wavelength -,.. (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-98
377

ELECTRICAL OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL·

MIN.

TYP.

Iv

907CK

2.5

3.5

mcd

IF = 20 mA, Note 1

Viewing Angle

20r.

907CK

140

deg.

Note 2,(Fig. 6)

Peak Emission
Wavelength

APEAK

660

nm

nm

PARAMETER
Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
@ Peak (Fig. 1)

"-

Spectra I Li ne
Half-Width

AA

20

Forward Voltage

VF

1.8

Reverse Current

IR

Capacitance

C

IF =20 mA

2.4

V

100

itA

VR =4V

PF

VF =0
f
1 MHZ

30

=

NOTES: 1. Luminous 'intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. Or. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

I/.

~ 40

~

I

E

E

I
I

~

~ 30

~

~

'E
'";:

10

o

1.2

I-

~
:; 30

o

1.6

2.0

2.4

28

32

I'

r--

£"
5'"

.~ 0.5

-----

/

o

40

20

60

80

oV

1/

o

100

20

Ambient Temperature TA (OCI

FIG 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

c

/

r--..
r--.. r-...

Forward Voltage VF (VI

~
iii

,/

r--.. ........

u
'E 20
;:
'"
0
lL 10

I
I
IJ

--

40

"

u" 20

.f

50

50

40

60

FIG 3 FORWARD CURRENT VS.
DERATING CURVE

10'

20'
30'

:.......

40'

1.0

09

50'

08

60'

"

.2

~

80'
H-+H=F~+-¥i=-l-+++l 90'

0.1
-30

2-99

378

70'

07

0.2

-20

-10

10

20

30

40

Ambient Temperature TA (OCI

FIG. 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE CHARACTERISTICS

50

60

100

FIG 4 RELATIVE LUMINOUS INTENSI'l'Y VS.
FORWARD CURRENT
0'

.3
ex:

80

Forward Current IF (mAl

05

70

FIG

6

0.3

01

02

04

SPATIAL DISTRIBUTION

06

ILlTErl] ~ II

T-l (3mm) SOLID STATE LAMPS
LTL-422INLC LOW CURRENT HIGH EFFICIENCY RED

FEATURES
- LOW POWER CONSUMPTION.
- HIGH EFFICIENCY.
-VERSATILE MOUNTING ON P.C. BOARD OR
PANEL.
-I.C. COMPATIABLE/LOW CURRENT REQUIREMENTS.
-POPULAR T-l DIAMETER 25mm(1") LENGTH
OF LEADS PACKAGE.
- RELIABLE AND RUGGED.

DESCRIPTION
The LTL-4221NLC is made with Gallium Arsenide
Phosphide on Gallium Phosphide Red Light Emitting
Diode.
These lamp use low current, and it has High Efficiency
Red Brightness.

PACKAGE DIMENSIONS

DEVICES
PART
NO.
LTL-

LENS
COLOR

DIFFUSION

4221NLC

Red

Diffused

SOURCE
COLOR
Hi. Eff. Red

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

°0.5 TYP

(.0.)

2.54 NOM

(.1

2-100

379

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C

PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

24

mW

Peak Forward Current
(1 /10 Duty Cycle. 0.1 ms Pu Ise Width)

120

mA

" ,

Continuous Forward Current
Derating Linear From 25"C
Reverse Voltage

7

mA

0.1

mAfC

5

V

,
Operating Temperature Range

- 55Q C to + 100°C

Storage Temperature Range

- 55°C to + 100°C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body)

260°C for 5 Seconds

"

HLEff.Red

1.0

.~
c:

j!l

c:
Q)

0.5

>
';;
ttl

Qj

a::

500

550

/\
V
/
\
600

650

700

Wavelength A (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-101

380

750

800

ELECTRICAL OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

4221NLC

1.0

Viewing Angle

20Y:z

Peak Emission
Wavelength

=

25°C

UNIT

TEST
CONDITION

1.8

mcd

IF = 2 mA (Note 1)

4221NLC

45

deg.

Note 2 (Fig. 6)

i\PEAK

4221 NLC

635

nm

Spectral Line
Half-Width

t>.i\

4221NLC

40

nm

Forward Voltage

VF

4221NLC

1.8

Reverse Current

IR

4221NLC

Capacitance

C

4221NLC

PARAMETER
Luminous Intensity

MAX.

Measurement
@ Peak (Fig. 1)

IF = 2 mA

2.2

V

100

p.A

VR =5V

PF

VF=O
f = 1 MHZ

4

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye·response curve.
2. OY:z is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
10

60

;;;:

E

;

50

~

~

l -i 30

r--

" 20

"~

o

05

10

15

20

'"0

60

10

.,

..J

"-

1il

0;

a:

25

20

40

60

80

40

/
20

o

100

V

V

./

o

10

Ambient Temperature TA (OC)

FIG 2 FORWARD CUIffiENT VS
FORWARD VOLTAGE

./

V

>

"-

Forward Voltage V, IV)

V

c

E
::l

lJ

o

80

::l

'"

u

~

c

~
.EO

40

c

'5

100

i':"

Forward Current IF (rnA)

FIG 3 FORWARD CURRENT
DERATING CURVE

FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
O'

10'

20'
30'

i!'
~

.,c

E
'"o

40'

1.0

::l

c

E

0.9

05

::l
..J

.,>

1il

0;

a:

50'

08

o1

60'
70'

07

02

80'

H--t-t-H--=t-.LfL-F+-1H-++-1 90'

-30

-20

-10

10

20

30

40

Ambient Temperature TA (0 C)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

FIG. 6 SPATIAL DISTRIBUTION

06

2-102
381

ILlTE['] ~ II

T-l% (5mm) SOLID· STATE LAMPS
LTL~307ELC LOW CURRENT HIGH E.FFICIENCY RED

FEATURES
e LOW POWER CONSUMPTION.
e HIGH EFFICIENCY.
e VERSATI LE MOUNTING ON P.C. BOARD OR
PANEL.
el.C. COMPATIABLE/LOW CURRENT REQUIREMENTS.
ePOPULAR T-1% DIAMETER. 25mm(1") LENGTH
eRELIABLE AND RUGGED.

I
III ! l

DESCRIPTION
The LTL-307ELC is made with Gallium Arsenide
Phosphide on Gallium Phosphide Red Light Emitting
Diode.
These lamp use low current. and it has High Efficiency
Red Brightness.

DEVICES

PACKAGE DIMENSION

PART
NO.
LTL-

COLOR

DIFFUSION

307ELC

Red

Diffused

LENS

SOURCE
COLOR
Hi. Eff. Red
B ••

SEE NOTE

(~O'i~ )~~*~-1.

Rt.5 .059)

22.0 MIN
(.866)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-103
382

DOT DENOTES CATHooe\

C 005 TYP

(.02)

2.54 NOM

(.1

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

MAXIMUM RATING

UNIT

Power Dissipation

24

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

120

mA

7

mA

0.1

mAtC

5

V

Continuous Forward Current
Derating Linear From 25° C
Reverse Voltage
Operating Temperature Range

- 55°C to

+ 100°C

Storage Temperature Range

- 55° C to

+ 100°C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body}

260° C for 5 Seconds

HLEff.Red

1.0

?:
.;;;
c:
1!!
c:
CIl

0.5

>
.;:;
co

Qj

a:

500

553

/\
/
\
/
600

650

700

750

800

Wavelength A. (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-104

383

ELt;CTRICAL OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.

SYMBOL

Luminous Intensity

LTL-

UNIT

TEST
CONDITION

3.0

moo

IF .. 2 mA (Note 1)
Note 2 (Fig. 6)

MIN.

TVP.

1.2

MAX.

Iv

307ELC

Viewing Angle

28Y:.

307ELC

60

deg.

Peak Emission
Wavelength

i\PEAK

307ELC

636

nm

nm

Spectral Line
Half-Width

Ai\. .

307ELC

40

Forward Voltage

VF

307ELC

1.8

Reverse Current

JR

307ELC

Capacitance

C

307ELC

2.2

V

100

p.A

Measurement
Peak (Fig. 1)

@

IF"'2mA
. VR =5V
VF=Q
f= 1 MHZ

PF

4

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. 8Y:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
10

60



iii

r"-r-,.

80

1/

Qi
c: 2.0

o
o

100

Ambient Temperature TA (OCI
FIG 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

V

c:

u
"E 20
'";;

I

/

!'l

.f

"

/
10

Forward Current IF (mAl
FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·
~
;;;
c:

!'l

.f

20'
30'

2

-

1

40'

1.0

'"o
~

~

10'

0.9

05

~

..J

50'

08

I

m

60'

>

~

c:

70'

07

02

H--+-I-t--F'1-'~-A-+-+-I-+-i

O. 1
-30

2-105
384

-20

-10

10

20

30

40

Ambient Temperature TA (OCI
FIG. 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

0.5

03

01

02

04

FIG. 6 SPATIAL DISTRIBUTION

06

80'
90'

ILITEr.] ~ II

T-l(3mm) SOLID STATE LAMPS
LTL-201 RED
LTL-211 BRIGHT RED
LTL-221 HIGH EFFICIENCY RED

LTL-231
LTL-251
LTL-291

GREEN
YELLOW
ORANGE

FEATURES
• LOW POWER CONSUMPTION.
• HIGH EFFICIENCY.
• VERSATI LE MOUNTI NG ON P.C. BOARD OR
PANEL.
• CMOS/MOS AND TTL COMPATIBLE .
• LONG LIFE-SOLID STATE RELIABILITY .
• WIDE VIEWING ANGLE.
• LOW COST.

I

I:

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide Red Light Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices ·are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

PACKAGE DIMENSIONS

5.25
(.207)

(·~;~;~~~,t::::t~~1

DEVICES
PART
NO_
LTL-

LENS
COLOR

DIFFUSION

201
202
205

Red
Red
White

Diffused
Transparent
Diffused

Red

211

Red

Diffused

Bright Red

221

Red

Diffused

Hi. Eff. Red

231
232

Green

Diffused
Transparent

Green

251
252

Yellow

Diffused
Transparent

Yellow

291

Orange

Diffused

Orange

SOURCE
COLOR

I I '~::r'N

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. SpecificatIOns are subject to change without notice. 2-106
385

ABSOLUTE MAXIMUM RATINGS AT TA

= 2SoC

RED

BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

80

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

200

60

120

80

120

rnA

Continuous Forward Current

40

15

30

20

30

rnA

Derating Linear From 25°C

0.5

0.2

0.4

0.25

0.4

mA/oC

5

5

5

5

5

V

PARAMETER
Power Dissipation

Reverse Voltage
Operating Temperature Range

- 55°C to

+ 100°C

Storage Temperature Range

- 55° C to

+ 100· C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body)

260° C for 5 Seconds

Green Yellow

Hi. Eff. Red
Orange Red

Bright Red

.~

.;:;
OJ

Q;

a:

500

550

600

650

700

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-107

386

750

800

ELECTRICAl/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

SYMBOL

Luminous Intensity

PART NO.
LTL-

MIN.

TYP.

201

0.3

0.8

202
205

0.7

2.0
0.8

Iv

20Y:.

Viewing Angle

Peak Emission

0.3

201

76

202

30

205

76

MAX.

IF = 10 mA

mcd

Note 1

deg.

Note 2 (Fig. 6)

Measurement
@Peak (Fig. 1 )

APEAK

655

nm

Spectra I Li ne
Half Width

AA

24

nm

Forward Voltage

VF

1.7

Reverse Current

IR

Capactance

C

Wavelength

TEST
CONDITION

UNIT

= 20 mA

2.0

V

IF

100

JlA

VR

VF=O

PF

30

= 5V

f

= 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.

2. OY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
~

c

;;:

.s

30

:;

~

:;

I
I
I

20

o

c

"
.soC{

40

ro

20

0
L1.

10

~

1.6

2.0

2.4

28

o

. 0,

3.2

-

~

c

2l

.E
~

:J

o
c

05

20

40

a::

V

--- ----

V

30

60

E '"
:J'C
~ ~ 20
> '"

~

/

'" E

"

80

~~

10

"

/

oV

o

100

10

20

30

40

50

Forward Current IF(mAI
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT
00

10 0

20 0

30'

40'

10
0.9

50'

08

0.2

60'
70'

07
01
-30

./

0; ~

Ambient Temperature TA (OCI
FIG 3 FORWARD CURRENT
DERATING CURVE

">

iii

0;

40

E

5~

"

U
'C

~

~

30

./
1.2

~

E

~

50

Forward Voltage VF (VI
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE

.3

~

E

~

u

u

~

I
I
I

80'
-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

H-+HI-f==t'-+.lf=f-IY+-H
05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

06

90'

2-108

387

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

211

0.4

221

1.1

1.1
3.8

mcd

IF'" 10 mA
Note 1
Note 2 (Fig. 11)

Iv

Luminous Intensity

25°C

=

MAX.

TEST
CONDITION

UNIT

Viewing Angle

20%

211
221

76
76

deg.

Peak Emission
Wavelength

i\PEAK

211
221

697
635

nm

Spectral Line
Half Width

Ai\

211
221

90
40

nm

Forward Voltage

VF

211
221

2.1
2.0

Reverse Current

IR

211
221

Capactance

C

211
221·

Measurem~nt

@

V.

2.8

100
55
20

Peak (Fig. 1)

IF "'20mA

p,A

VR =5V

PF

VF '" 0
f= 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that appr.oximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. ell, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

221/
1/,

c: 30
l'

:;
u

60

Ii
III
rJ

« 50
E
!!o

20

s

0; 10

u.

/221
221

"

U

III
/
./

ro

1/

40

1':
l'
:; 30

, /211

"0

50

ro 20

211

s
0;

u.

............

10

12

16

20

24

28

20

3.2

"

~

40

60

80

o~
o

""

100

Ambient Temperature TA 1°C)
FIG 8 FORWARD CURRENT
DERATING CURVE

Forward Voltage V, IV)
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

--

I'

t- ......

Vi

o

/

.......

"0

4

10

221

211

20

30

40

Forward Current l'ImAI
FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
00

...?!2.. r--

-

t- ,

100

20 0

:::::: t::::-

30'

40'
10

0.9

50'

08

60'
70'

0.7
01
-30

2-109
388

-20

-10

10

20

30

40

AmbIent Temperature TA (OC)
FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

80'

I-+-HH-+'1-+-A-++-t-+.., 90'
05

03

01

02

04

06

FIG 11 SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

Luminous IntenSity

Iv

Viewing Angle

20'h

Peak Emission
Wavelength

APEAK

Spectral Line
Half Width

AA

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

PART NO.
LTL-

MIN.

TYP.

1.1
2.5
1.1
2.5

3.8
8.0
3.8
8.0
76
30
76
30
565
565
585
585
30
30
35
35

231
232
251
252
231
232
251
252
231
232
251
252
231
232
251
252
231
232
251
252
231
232
251
252
231
232
251
252

MAX.

.

= 25°C
TEST
CONDITION

UNIT

mcd

IF ~ 10 mA
Note 1

deg

Note 2 (Fig 16)
Measurement
Peak (Fig. 1)

nm

@

nm

2.1

~

2.8

V

IF

100

p.A

VR

~

5V

VF

~

0

35
35
15
15

PF

20 mA

f~lMHZ

NOTES. 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. o'h is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

<;:

40

E.
E
~
5

u

'E

~
:;

u..

60

J
/V
231
251
232 1(1- 252r--- r-

30

<;:

231
232

E
~

II

5

30

1/'

'0

ro
:;:
:;

VI

u..

20

l"'- J"'--.

251
252

10

I........

...... I'
.......

V

o

12

16

20

24

28

32

20

Forward Voltage VF IVI
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

2

e
~

~

o
c

E 05

60

V
/

J"'--. ~ ~
80

o 1./
a

100

Ambient Temperature TA (0 C}
FIG 13 FORWARD CURRENT
DERATING CURVE

10

==

20

30

40

50

Forward Current IF (rnA)
FIG 14 RELATIVE lUMINOUS
INTENSITY VS FORWARD
CURRENT

o·

251
252

~

c

.s

40

'251
252

)

1'1'

u

J

::-

~;~~

.!O 40

j

10

50

E.

II

20

50

10'

20'
30'

~31

232
40'
10

.3

">

09

a; 02

08

iii

50'
60'

II:

70'

07
01
-30

80'
-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 15 lUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

1-+-+-t--'H=t'-f-.Lf=+-H-f--t-1 90'
05

03

01

02

04

FIG 16 SPATIAL DISTRIBUTION

06

2-110
389

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

291

1.1

3.8

mod

IF = 10 mA
Note 1

Viewing Angle

20Y,

291

76

deg.

Note 2 (Fig. 21)

Peak Emission
Wavelength

i\PEAK

291

630

nm

Measurement
@Peak (Fig. 1)

Spectra I Li ne
Half Width

6i\

291

40

nm

Forward Voltage

VF

291

2.0

Reverse Current

IR

291

Capacitance

C

291

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

2.8

V

100

J.l.A

VR =5V

PF

VF=O
f= 1 MHZ

20

IF =20mA

NOTES: 1. LuminOUS Intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. ~Y, is the bff-axis angle at which the luminous intensity is half the axial luminous intensity.
50

§
LTL-4201 /4201 N RED
LTL-4211/4211N BRIGHT RED
LTL-4221/4221N HIGH EFFICIENCY RED

LTL-4231/4231 N GREEN
LTL-4251/4251N YELLOW
LTL-4291/4291 N ORANGE

FEATURES
o LOW POWER CONSUMPTION.
o HIGH EFFICIENCY.
- VERSATI LE MOUNTING ON P.C. BOARD OR
PANEL.
ol.C. COMPATIBLE/LOW CURRENT REQUIREMENTS.
oPOPULAR T-1 DIAMETER, 25mm (1") LENGTH
OF LEADS PACKAGE.
-RELIABLE AND RUGGED .
• LOW COST.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide Red Light Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made With Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

F1
lli--t---t
1.0

r-

L TL-42

X

-PACKAGE DIMENSIONS
L TL-42 x 1 N Series

1 Series

5.25

(~~~;~~~)I~~11·(.207)
SEE. NOTE 3

2.54 NOM

(.1

25.4
(1.0) MIN

°0.5 TYP
(.02)

(.1)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-112
391

DEVICES
PART
NO.
LTL-

LENS
COLOR

OIFFUSION

4201
4202
4206

Red
Red
Water Clear

Diffused
Transparent
Non-diffused

Red

PART
NO.
LTL-

SOURCE
COLOR

4211

Red

Diffused

Bright Red

4221
4222

Red
Red

Diffused
Transparent

Hi. Eff. Red

4231
4232

Green
Green

Diffused
Transparent

Green

4251
4252

Yellow
Yellow

Diffused
Transparent

Yellow

4291
4292
4296

Orange
Orange
Water Clear

Diffused
Transparent
Non-diffused

Orange

4201N
4202N
4211N
4221N
4222N
4231N
4232N
4236N
4251N
4252N
4256N
4291N
4292N
4296N

ABSOLUTE MAXIMUM RATINGS AT TA
PARAMETER
Power Dissipation
Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

LENS

=

COLOR

DIFFUSION

Red

Diffused
Transparent
Oiffused
Diffused
Transparent
Diffused
Transparent
Non-diffused
Diffused
Transparent
Non-diffused
Diffused
Transparent
Non-diffused

Red
Red
Green
Yellow
Orange

SOURCE
COLOR
Red
Bright Red
HI. Eff. Red
Green
Yellow
Orange

2SoC

RED

BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

80

40

100

60

100

mW

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25° C

0.5

0.2

0.4

0.25

0.4

mArC

5

5

5

5'

5

V

Reverse Voltage
Operating Temperature Range

-55" C to +100° C

Storage Temperature Range

-55"C to +100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260° C for 5 Seconds

Green Yellow

HI. Eff. Red
Orange Red

Bright Red

1.0

r------r-...,......._~...__,_--__,...___r7....__--""""7_~---___,----__,

0.5

r---------~~-+~~--~--f_----~~~r_----~--------~+_--------_4

.~
'"c:

ec:
.,

>
.;;

'"

iii

a:

500
2-113
392

550

600

650

700

Wavelength ~ (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO,
LTL-

MIN,

TYP.

Iv

4201
4202
4211

0.3
1.1
0.6

Viewing Angle

20Y:.

Peak EmissIOn
Wavelength

UNIT

TEST
CONDITION

0.8
4.0
1.7

mcd

IF = 10mA
Note 1

4201
4202
4211

40
20
40

deg.

Note 2 (Fig 6)

APEAK

4201
4202
4211

655
655
697

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

A'/I.

4201
4202
4211

24
24
90

nm

Forward Voltage

VF

4201
4202
4211

1.7
1.7
2.1

Reverse Current

IR

4201
4202
4211

Capacitance

C

4201
4202
4211

PARAMETER
Luminous IntensItY

MAX,

2.0
2.0
2.8

V

100

p.A

VR =5V

PF

VF = 0
f=lMHZ

30
30
55

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye·response curve.
2. OY:. is the off·axis angle at which the luminous intensity is half the aXial lumtnous intensity.
5n

60

I

I

4201,/



80

--

!O!

rn

~ §1 0

a:z

o~
o

100

4

~10

4211

30

20

40

50

Forward Current IF (mA)
FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

Ambient Temperature TA (OC)
FIG 3 FORWARD CURRENT
DERATING CURVE

O'

10'

20'

30'

~~

40'

1.0

0.5

09

50'

OB

60'

02

70'

0.7
01
-30

1/

4201
420 f - -

~

I

4201
4202

2

4211

5 10

L1.

40
<{

"'
E
~ 030
o ~

"'-

"'-

'E 20

Forward Voltage VF (V)
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE.

'">
~a:

4201
4202

u

J

o _LL

'E
.3

.E

E

u 20

~
Vi

c:
Q)



iii

0;

a:

BO

I

10

""'- i'..

V

o

/

30

<=

~ 30

::J

u 20
'E

L

40

E

I
II

~

E 30

"~

50
i?;
u;

II

40

E

0;
u.

60

I

/

o .t!
o

100

Ambient Temperature TA (Del
FIG 8 FORWARD CURRENT
DERATING CURVE

J

10

20

30

40

Forward Current IF (mAl
FIG. 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

O'

10'

20'

0

::J
0

<=

E
::J

09

--'

">

iii

0;

a:

40'

10

05

50'

DB

60'

02

70'

07
01
-30

2-115

394

BO'
-20

-10

10

20

30

40

Amblent( Temperature TA (OC)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

f-+-HH--f=PfLA+-+--'H-I
05

03

01

02

04

06

FIG 11 SPATIAL DISTRIBUTION

90'

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Lum inous Intensity

Iv

4231
4232
4251
4252

1.7
4.0
1.7
4.0

56
12.6
56
12.6

mcd

IF ; 10 mA
Note 1

Viewing Angle

20Y:.

4231
4232
4251
4252

40
20
40
20

deg.

Note 2 (Fig. 16)

Peak Emi~sion
Wavelength

APEAK

4231
4232
4251
4252

565
565
585
585

nm

Measurement
@Peak (Fig. 1)

Spectral Line
Half Width

t:l.A

4231
4232
4251
4252

30
30
35
35

nm

Forward Voltage

VF

4231
4232
4251
4252

2.1

Reverse Current

IR

4231
4232
4251
4252

Ca pac ita nce

C

4231
4232
4251
4252

MAX.

TEST
CONDITION

UNIT

IF ; 20 mA

2.8

V

100

J.l.A

VR

PF

VF = 0
f = 1MHZ

35
35
15
15

=5 V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. OY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

;;:

/

40

4231
4232

.s

E
i!:!
5

30

II

u 20
"E

~

5

u.

If

50

60

II
;;:

.s

!m-l -

~

i:"
~

50

i!:!

5

~

4231
4232

E
30

10

/.

VI

5

u.

i'-

4251
4252

~

10

16

12

> ro

iii E

CD

24

2B

32

20

40

60

0

a:Z

...... 1"'--

20

~~

BO

/

10

/

a 1/
a

100

Ambient Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

I

~ ~ 20

" .........
r---. .......

V

a

I#'

~ ~

E "'
:J"C

i'- i'..

"E 20

4231 J,
4232 ,
4251
4252

030

o~

u

J

40

"
E..:
-;;; E

40

10

30

20

40

50

Forward Current IF (mAl
FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
O·

10'

20'

30'

40'

10
09

50'

aB

60'
70'

07
01L-~

-30

__- L__

-20

-10

L-~

__- L__i -__L--l__

10

20

30

40

Ambient Temperature TA (OC)

FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

BO'
~~

60

70

H-+HK==t-''''f'''-FH--++-H
05

03

01

02

04

06

FIG 16 SPATIAL DISTRIBUTION

90'

2-116

395

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

PART NO.
LTL-

Luminous Intensity

Iv

4291
4292
4296

Viewing Angle

20Y:.

4291
4292
4296

Peak Emission
Wavelength

TYP.

1.7

5.6
12.6
12.6

mcd

IF=10mA
Note 1

40
20
20

deg.

Note 2 (Fig. 21)

APEAK

630

nm

Spectral Line
Half Width

"A

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

4.0
4.0

MAX.

TEST
CONDITION

MIN.

UNIT

Measurement
Peak (Fig. 1)

@

2.8

V

100

fJ.A

VR =5V

PF'

VF =0
f = 1 MHZ

20

IF = 20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. OY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50



"

0

"r-..

.£ 10

/

o
12

16

20

24

2.B

20

3.2

40

E
::>

..J

""
60

.,>w
'"

0;
II:

"

BO

IL

20

J

1.0

t-....

J

/

oV
o

100

10

20

30

40

Forward Current IF (mAl
FIG 19 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

AmbIent Temperature TA 1°C)
FIG 18 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG. 17 FORWARD CURRENT VS
FORWARD VOLTAGE

/

30

c

~ 30
::>
u
~ 20
l:

I

I

40

E

:; 40

I
I

~

50

60

I

00

loa

20 D

~
in

30'

c
w

:£

1

w
~

oc

'E

~

0.9

>

OB

..J
W

~

40'

10

0.5

50'
60'

02

II:

70'

07

BO'

O. 1

2-117
396

-30

-20

-10

10

20

30

40

AmbIent Temperature TA 1°C)
FIG 20 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

I-+-HH-t-'Pf'<-F-t-++-H-I 90'
05
FIG. 21

03

01

02

04

06

SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA :::: 25°C
SYMBOL

PART NO.
lTl-

MIN.

TYP.

Iv

4201N
4202N
4211N

0.3
0.8
0.8

0.8
2.5
25

mcd

IF = 10 mA
Note 1

Viewing Angle

20%

4201N
4202N
4211N

60
45
60

deg

Note 2 (Fig 26)

Peak Emission
Wavelength

APEAK

4201N
4202N
4211N

655
655
697

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

A/I.

4201N
4202N
4211N

24
24
90

nm

Forward Voltage

VF

4201N
4202N
4211 N

1.7
17
2.0

Reverse Current

IR

4201N
4202N
4211N

PARAMETER

Luminous Intensity

20
2.0
2.8
100

4201N
4202N
4211N

C

IF = 20 mA

V

30
30
55

VR = 5 V

JlA

~-

Capacitance

TEST
CONDITION

UNIT

MAX.

r----"
VF = 0
f ~ lMHZ

PF

NOTES. 1 Luminous intensity IS measured with a light sensor and filter combination that apprOXlm"lttlS the CI E
(Commission Internationale De L'Eclairage) eye-response curve
2.0)1, is the off-axls angle at which the lumll10us intenSity is half the aXial luminOUS !nlenslty
50
f-



-

421lN

o~

o

100

Ambient Temperature TA (OC)
FIG 23 FORWARD CURRENT
DERATING CURVE

10

20

30

10'

30'

r-- ........ :::::,.....

40'

09

0.5

...J

50'

08

~

'"

~ 02

60'

07

II:

H-+-H'--f9-'-t'--t='H--j-++-1
-20

-10

10

20

30

50

20'

10

01
-30

40

Forward Current IF (mA)
FIG 24 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

o·

c:

E

"I'
r--- I-

-420lN
Z02N

4211 N

~
"'"o

4Z11N

0

V

)

o

"I"-

0

IL

"4201 N
4Z0ZN r--r-

I'

u

II

u.

4201 N
4Z0ZN

c:
~ 30

I

I
II

0

V

E

4211N

C' 30

50

0

40

50

Ambient Temperature TA (OC)
FIG 25 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

60

70

05

03

01

02

04

06

FIG 26 SPATIAL DISTRIBUTION

70'
80'
90'

2-118

397

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

= 2SoC

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

4221N
4222N

1.7
4.0

5.6
12.6

mcd

IF = 10 mA
Note 1

Viewing Angle

28Y>

4221N
4222N

60
45

deg.

Note 2 (Fig. 31)

Peak Emission
Wavelength

APEAK

4221N
4222N

635
635

nfTl

Spectral Line
Half Width

D.A,

4221N
4222N

40
40

nm

Forward Voltage

VF

4221N
4222N

2.0
2.0

Reverse Current

IR

4221N
4222N

Capacitance

C

4221N
4222N

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

= 20mA

2.8

V

IF

100

/-I A

VR

PF

VF = 0
f = 1 MHZ

20
20

= 5V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Intenationale De L'Eciairage) ~lYe-response curve.
2.8% is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

~

40

.§.

2'

:;

~ 30

"

U

I
I



iil
a;
a:

40'

10

05

.3

50'

08

02

60'

07
01
-30

2-119

398

-20

-10

10

20

30

40

AmbIent Temperature TA (OC)

FIG 30 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

r-+4-t--t--t''t--'-tL---P'-I-+~-H--1

o5

03

01

02

0.4

06

FIG 3'1 SPATIAL DISTRIBUTION

70'
80'
90'

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

25°C

=

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

4231N
4232N
4236N

17
40
40

5.6
12.6
126

mcd

IF ; 10 mA
Note 1

Viewing Angle

28'12

4231N
4232N
4236N

60
45
45

deg.

Note 2 (Fig 36)

Peak Emission
Wavelength

APEAK

4231N
4232N
4236N

565

nm

Spectral Li ne
Half Width

tl.A

4231N
4232N
4236N

30

nm

Forward Voltage

VF

4231N
4232N
4236N

2.1

Reverse Curren

IR

4231N
4232N
4236N

C

4231N
4232N
4236N

PARAMETER

Lum inous Intensity

Capacitance
NOTES'

MAX.

TEST
CONDITION

UNIT

Measu rement
Peak (Fig. 1)

@

'F ; 20 mA

2.8

V

100

IlA

VR = 5 V

PF

VF =0
f=lMHZ

35

1. Luminous Intensity IS measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclatrage) eye-response curve.
2. 8'12 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

50

60

I

« 40
.s,,-,

II

:: 30
c:

~
u 20
1"

I

"

I

«E

50

C
u;

50

c:

~

;:. 40

'"0

:J

c:

~

-......'"

ro

I

~

~

~I

...J

.......

10

j

20

">

~
a;
a:

r----

"- r-....

IL
1.216202.42832
Forward Voltage V, (V)
FIG 32 FORWARD CURRENT VS
FORWARD VOLTAGE.

I

30

c:

i!! 30

:;

u

1" 20

oJ: 10

4.0

E.

20
40
60
80
100
AmbIent Temperature TA' (OC)
FIG 33 FORWARD CURRENT
DERATING CURVE

10

'/

o ./

o

V

V

10

20

30

40

50

Forward Current IF (mA)
FIG 34 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT.
00
10 0
200

30'

40'
50'
60'
70'
80'

07

H-+-I-t-+''l--'¥--PJ-++-H-l 90'
-30

-20

-10

10
20
30
40
AmbIent Temperature TA (OC)
FIG 35 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

50

60

70

05

03

01

02

04

06

FIG 36 SPATIAL DISTRIBUTION

2-120

399

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL

PART NO.
LTL-

Iv

4251N
4252N
4256N

Viewing Angle

20 Va

Peak Emission
Wavelength

TEST
CONOITION

MIN.

TYP.

1.7

5.6
12.6
12.6

mcd

IF'" 10mA
Note 1

4251N
4252N
4256N

60
45
45

deg.

Note 2 IFig. 41)

I\.PEAK

4251N
4252N
4256N

585

nm

Spectral Line
Half Width

AI\.

4251N
4252N
4256N

35

nm

Forward Voltage

VF

4251N
4252N
4256N

2.1

Reverse Cu rren

IR

4251N
4252N
4256N

Capacitance

C

4251N
4252N
4256N

PARAMETER
Luminous Intensity

4.0
4.0

MAX.

25°C

=

UNIT

Measurement
Peak (Fig. 1)

@

2.8

V

100

Jl.A

VR =5V

PF

VF=Q
f". 1MHZ

15

IF" 20 mA

NOTES. 1. Luminous Intensity IS measured With a light sensor and filter combination that approx imates the CI E
(Commission Internationale De L'Eclatrage) eye-response cu rve.
2 oVa is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

/

40

;;:

E

/

~ 20

:;

/

<;
'-

0
12

1.6

20

1:
~
:;

30

"*$

20

'":>
0

/

E
:>

...J

.........

5

"- 10

24

2.B

Forward Voltage VF,(VI
FIG 37 FORWARD CURRENT VS
FORWARD VOLTAGE

3.2

4.0
I

/

30
I

c

u

I

$

2l

.f

:;C,40

~

u
1:
10
<0

;;;
c

50

E

1/

;;: 30

50
~

I'-

...... 1'20

40

20

">

iii
Q;

60

0::

.........

BO

V

10

/

o ./
u

100

20
40
50
30
Forward Current IFI(mAI
FIG 39 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
0°
10 0
20 0

Ambient Temperature TA,( °CI
FIG. 38 FORWARD CURRENT
DERATING CURVE

10

30'

40'

10

09

50'

DB

60'
70'

07

BO'

2-121
400

0.1 L-----"-_---'---_L------'_---'--_-"---------'_----L_-'---------'
-30 -20 -10
10
20
30
40
50
60
70
Ambient Temperature TA (OCI
FIG 40 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

H--+--H--:P:P-jL--j:q++H-l
05

03

01

02

04

06

FIG 41 SPATIAL DISTRIBUTION

90'

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

PART NO.
LTL-

Luminous I ntensitv

Iv

4291N
4292N
4296N

Viewing Angle

20Y,

4291N
4292N
4296N

Peak Emission
Wavelength

TEST
CONDITION

MIN.

TYP.

1.7

5.6
12.6
126

mcd

IF ~ 10mA
Note 1

60
45
45

deg

Note 2 (Fig 46)

APEAK

630

nm

Measurement
@Peak (Fig 1)

Spectral line
Halt Width

c,A

40

nm

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

4.0
4.0

UNIT

MAX.

20

IF = 20 mA

28

V

100

jJ.A

VR =5V

PF

VF '" 0
t = 1 MHZ

20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Intenationale De L'Eclairage) eye-response curve.
2.8% is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
~

~

.s

40

~

~

"

I

50

I

:; 40

I
II

30

c

~ 30

::>

u 20
"E
u..

~

50

E

~

c
e

~

I
II

II

10

~

II

r'--,

u
~ 20
;:

I

r'--

10

........

/

o

16

12

/

i'

20

24

28

20

32

40

60

80

/
r-....
100

Ambient Temperature TA (OCI
FIG 43 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG 42 FORWARD CURRENT VS.
FORWARD VOLTAGE

J

oV
o

10

o·
?:

20

30

40

50

Forward Current IF (mAl
FIG 44 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

10'

20'

2

30'

ih

-

c

2l

.EO

'"o
::>

I-40'

c

E

05

.3

50'

~

60'

'"

~ 02

07

II:

01
-30

-20

-10

10

20

AmbIent Temperature

30

40

TA (OC)

FIG 45 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

I++HH"t-"t''-P'f-IH+--H
o5 0 3 0 1 0.2 0.4 0 6
FIG. 46 SPATIAL DISTRIBUTION

70'
80'
90'

2-122

401

.

-

T~1(3mlll) SOLID STATE

ILlTE[')~11

-

-

LAMPS'

-LTL-239 GREEN
L TL-259 YELLOW
L TL-299 ORANGE

LTL·209 RED
L TL-219 BRIGHT RED
. L TL-229 HIGH EFFICIENCY RED

FEATURES
e LOW POWER CONSUMPTION.
e HIGH EFFICIENCY.
el.C. COMPATIBLE/LOW CURRENT
MENTS.
e1.27mm (0.5") LEAD SPACING.
eT-1 DIAMETER.
e 01 FFUSED LENS.
eWIDE VIEWING ANGLE.
e LOW COST.

REQUIRE-

J
i

I,

I. ;

I!

I' -

I

~

The Red source color devices are made with Gallium
Arsenide Phosphide Red Light Emitting Diode.
The Br!ght Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

PART

2-123
402

LENS

SOURCE
COLOR

NO.
LTL-

COLOR

OIFFUSION

209

Red

Diffused

Red

219

Red

Diffused

Bright Red

229

Red

Diffused

Hi. Eff. Red

239

Green

Diffused

Green

259

Yellow

Diffused

Yellow

299

Orange

Diffused

Orange

I

I' ~

PACKAGE DIMENSIONS

1.0

'"

DEVICES

:

}

In

DESCRIPTION

~
~-tt

~::~~ I -1:"
I

~"l,m n~~'
,

(~O~"IN

flAT DENOTES CATHODE

~:~!fOM
NOTES:
1. All dimensions are in millimeters (inches!'
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

80

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Li near From 25° C

0.5

0.2

0.4

0.25

0.4

mA/oC

5

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

- 55° C to + 100° C

Storage Temperature Range

- 55" C to + 100° C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body]

260° C for 5 Seconds

Green Yellow

1.0

Hi. Eft. Red
Orange Red

Bright Red

,------r-"7"~--r~.._--__,...._."...____--~

__:__---....,....----....,

~
.;;;
c:

....,c

.,

0.5

>
.;;

'"

a;

a:

500

550

600

650

700

750

800

Wavelength 11. (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-124

403

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

Iv

Luminous Intensity

PART NO.
LTL209
219
229

TYP.

0,3

0.8
1.1
3.8

mcd

IF = 10 mA
Note 1
Note 2 (Fig. 6)

OA
0.8

MAX.

TEST
CONqlTION

MIN.

UNIT

Viewing Angle

20%

209
219
229

72

deg.

Peak Emission
Wavelength

7I.PEAK

209
219
229

655
697
635

nm

Spectral Line
Half Width

AA

209
219
229

24
90
40

nm

VF

209
219
229

1.7

Forward Voltage

Reverse Current

iR

209
219
229

Capacitance

C

209
219
229

2.1
2.0

2.0
2.8
2.8

V

100

p.A

Measurement
Peak (Fig 1)

@l

IF = 20mA
VR

30

..

55

=5 V

VF=O

PF

f'" 1MHZ

20

NOTES: 1. Luminous intensity IS measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Ecialrage) eye-response curve.
2.011:. is the off.axls angle at which the luminous intensity is half the axial luminous intensity.
50


ii;

a;

0:

209

II,.
V

20
10

~

oP
o

100

Ambient Temperature-TA 1°C)
FIG 3 FORWARD CURRENT
DERATING CURVE

V
V

/

E
...J

/'

229/

c

"- r-.... "-

219

32

$

.E

U

Forward Voltage V, (VI
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE

"-

in

t:

LL

20

50
209

I
.//V

12

50

i='

E
:; 40

I
I
I If
I I 219

20

ro

LL

-t--'t-+--R-+-+-H-l
-20

-10

40

Forward Current IF (rnA)

10

20

30

40

AmbIent Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

o5

0.3

0.1

02

0.4

FIG 6 SPATIAL DISTRIBUTION

0.6

80'
90'

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

239
259

0.8
0.8

3.8
3.8

mcd

IF = 10 mA
Note 1

Viewing Angle

28Y:.

239
259

72

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

~PEAK

239
259

565
585

nm

Spectral Line
Half Width

A~

239
259

30
35

nm

Forward Voltage

VF

239
259

2.1

Reverse Current

IR

239
259

Capacitance

C

239
259

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

IF = 20 mA

2.8

V

100

p.A

35
15

Measurement
@ Peak (Fig. 1)

VR =5V

VF=O

PF

f = 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Intenationale De L'Eclairage) eye-response curve.
2. 8Y:. is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

«
.§.

/11

40

/

30

-0

20

(;

10

/,

o

50
40

£"

c

00
~

0

39

-0

VI

ro

20

0

10

16

2.0

24

28

3.2

40

60

80

...J

2.0

"
'".

10

Qi

a:

I
/

o/
o

100

I'

I
10

20

30

40

50

Forward Current IF ImAI

Ambient Temperature TA lOCI

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

j,

~259

>

" , ~ ......

20

Forward Voltage VF IVI

~

I"- I"
I'-.. r--...

'/

1.2

2391
30

c

259

~

u..

4.0

E

t'-.. r--...

U

j

ro

50

i:"
;;;

E
~
:; 30

If

;:
u..

~

/J

~

:;

u

«
.§.

239 '/259

~

E

60

/

FIG. 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

o·

10'

20'
30'

40'
1.0

01L-~

-30

__- L__

-20

-10

L-~

__- L__

10

20

~~

30

__- L_ _

40

Ambient Temperature TA (Oe)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

~~

60

70

0.9

50'

0.8

60'

0.7

70'

80'
I-+--HH"-t"'1-t-Ft+-t-H-i 90'

o5

0.3

01

02

0.4

FIG 11 SPATIAL DISTRIBUTION

0.6

2-126

405

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

2SoC

=

TEST
CONDITION

PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Luminous Intensity

Iv

299

0.8

3.5

mcd

IF = 10 mA
Note 1

Viewing Angle

20Y:.

299

72

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

APEAK

299

630

nm

Spectra I Li ne
Half Width

AA

299

40

nm

Forward Voltage

VF

299

2.0

Reverse Current

IR

299

Capaci tance

C

299

MAX.

UNIT

Measurement
Peak (Fig. 1)

@

IF =20mA

2.8

V

100

J.l.A

VR =5V

PF

VF = a
f= 1 MHZ

20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Intenationale De L'Eclairage) eye-response curve.
2. OY:. is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

«

I

40

E

~

u 20
"E
ro
~

"

50

«E 50

i':
~ 40
eE«

:; 40

I
I

E 30

LI.

60

I

I

10

~ ~

~ 30

u"
"E 20

~
~

i' r-....

10

E

16

12

20

24

28

20

40

>n;

~

......

60

80

E

/

~ ~ 10

J

o 1/
o

100

10

20

30

40

Forward Current IF ImA)
FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

AmbIent Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF IV}
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

II

""§ 20

...... ......

32

ro

~

......

V

o

/

'" E
"030
o~

<=

I

I

O'

10'

20'

30'

i':
in

-

<=

e

E

40'

"'"0
<=

E

10
0.5

"<1>

..J

>
iii
a; 02
a:

406

50'
60'
70'

0.7

01
-30

2-127

0.9
0.8

80'
H-+H~=t-+--f'H---r+-H 90'

-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

0.1

0.2

0.4

FIG 16 SPATIAL DISTRIBUTION

06

50

T-l ~(5mm)SOLID STATE LAMPS

ILITE(']~II

LT~-203

RED
LTL-213 BRIGHT RED
LTL·223 HIGH EFFICIENCY RED

,LTL·233 GREEN
LTL-253 YELLOW
',LTL-293 ORANGE

FEATURES
• LOW POWER CONSUMPTION.
• HIGH EFFICIENCY.
• VERSATI LE MOUNTING ON P.C. BOARD OR
PANEL.
.I.C. COMPATIBLE/LOW CURRENT REQUIRE·
MENTS.
• POPULAR T-1 % DIAMETER PACKAGE .
• WIDE VIEWING ANGLE.
.GENERAL PURPOSE LEADS.
• RELIABLE AND RUGGED.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide Red Light Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

r
I~

;0-

I!

----.

---'-'--"

PACKAGE DIMENSIONS

DEVICES
PART
NO.
LTL-

LENS

SOURCE
COLOR

COLOR

DIFFUSION

203
204

Red

Diffused

Red

213

Red

Diffused

Bright Red

223
224

Red

Diffused
Transparent

Hi. Eff. Red

233
234

Green

Diffused
Transparent

Green

253
254

Yellow

Diffused
Transparent

Yellow

293
294

Orange

Diffused
Transparent

Orange

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-128

407

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BHIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

80

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1ms Pulse Width)

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25° C

0.5

0.2

0.4

0.25

0.4

mArC

5

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

- 55°C to + 100°C

Storage Temperature Range

- 55"C to + 100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260° C for 5 Seconds

Hi. Eff. Red
Bright Red
Green Yellow
Orange Red
1.0 ,------,-,......:--,......:--T-----:......---.-7"l-----;;;....,..;;;;:----....- - - - - , - ,

.~
I:
'"

e
I:

0.5

~--------~--~~--~~~----~~~~----_r------~~--------__i

CD

>
.;;
co

Qj

a:

500

550

600

650

700

Wavelength ~ (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-129

408

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

203
204

0.2
0.7

0.6
2.0

mcd

IF = 10 mA
Note 1

Viewing Angle

20%

203
204

54
32

deg.

Note 2 (Fig 6)

Peak Emission
Wavelength

APEAK

655

nm

Spectral Line
Half Width

b.A

24

nm

Forward Voltage

VF

1.7

Reverse Current

IR

Capaci tance

C

PARAMETER

Luminous Intensity

I

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

IF = 20 mA

2.0

V

100

p.A

VR

PF

VF = 0
f = 1 MHZ

30

= 5V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye· response curve.
2. 0% is the off·axis angle at which the luminous intensity is half the axial luminous intensity.
50
~

60

I
J
II

40

.s

~

.s
~

~

E 30
~
:;

u

-0

~

40

-0

:;; 20

;:

(;
L1.

./
1.2

16

20

24

2B

- -r--

3
u;

2

c

J'l

E

~

"ac

E

V

o

32

o

20

40

60

I

""'"
BO

/
o ./

o

100

10

Ambient Temperature TA (OC)

20

30

40

50

Forward Current IF(mA)

FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

FIG 3 FORWARD CURRENT
DERATING CURVE

0"

--

V

I"-

10

Forward Voltage VF (VI
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE

~

"

30

U

I

10

o

:;

I
I

20

:;;

(;

./

50

E

;:
L1.

50

10"

20"
30"

~ ,.....
40"

0.5

50"

"
">

-'

iii

0;
0::

60"
02

07

01
-30

W---l--I---I-=+:::f>o+4=t=-1H+-H
-20

20
30
Ambient Temperature TA (OC)
-10

10

40

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

70"
BO"
90"

06
2-130

409

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

= 2SoC

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

213
223
224

0.4
1.0
1.0

1.1
3.0
3.5

mcd

IF = 10 mA
Note 1

Viewing Angle

29%

213
223
224

54
54
32

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

~PEAK

213
223
224

697
635
635

nm

Spectral Line
Half Width

6~

213
223
224

90
40
40

nm

Forward Voltage

VF

213
223
224

2.1
2.0
2.0

Reverse Current

IR

213
223
224

Capacitance

C

213
223
224

PARAMETER
Luminous Intensity

TEST
CONDITION

UNIT

MAX.

Measurement
Peak (Fig. 1)

@

IF =20 mA

2.8

V

100

p.A

VR = 5V

PF

VF=O
f= 1MHZ

55
20
20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. 9% is the off-axis angle at which the luminous intensity is fialf the axial luminous intensity.
50

60

Ii
III
mrJ

«

30

:;
u

20

~

Ji

J

10

~

3

30

"C

ro

I

12

r-- r--..

10

16

20

2.4

2.B

3.2

20

---lJ1

2

in

c

l!l
1:

223

I-- -224

"'"o

--

40

"

20

/

Q;
0:

10

~-

,,

--

60

/223
224

.J

">
ii;

r---.; ~
BO

o~
o

~
100

- -213

I-?
10

20

30

40

Forward Current IF (mAl
FIG. 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

30'

:::-

-

40'

10
0.5

0.9

~

~

30

O'

.3
0:

"'"c

E

Ambient Temperature TA (OC)
FIG 8 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG. 7 FORWARD CURRENT VS
FORWARD VOLTAGE

~

213

1//

o

~

"- r-...

20

~

0

u.

40

0

u

1

"E

223
224

1::

J

c

1;"

!: 40

L
, /213

~

50

E

224/
c

50
~
in

50'

OB

60'

02

70'

07

80'

2-131
410

01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OCI
FIG 10 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

I+-HH=t=:p..t""'f==f=t-+H--1 90'
05

03

01

0.2

04

FIG 11 SPATIAL DISTRI8UTION

0.6

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

PART NO.
LTL-

SYMBOL

Luminous Intensity

233
234
253
254
233
234
253
254

Iv

TYP.

0.7
0.7

2.5
3.5
2.5
3.5

mcd

IF = lamA
Note 1

54
32
54
32

deg

Note 2 (Fig. 16)

1.0
1.0

MAX.

TEST
CONDITION

MIN.

UNIT

Viewing Angle

2eY:.

Peak Emission
Wavelength

7I.PEAK

233
234
253
254

565
565
585
585

nm

Spectral Line
Half Width

1>71.

233
234
253
254

30
30
35
35

nm

Forward Voltage

VF

233
234
253
254

2.1

Reverse Current

IR

233
234
253
254

Capacitance

C

233
234
253
254

2.8

V

100

p,A

35
35
15
15

Measurement
@ Peak (Fig. 1)

IF = 20mA

VR =5V

VF =0

PF

f = 1MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. eY:. is the off-axis angle at which the luminous intensity is half the axial luminous Intensity.
50

«

IV

40

~

u

'E

~153

233
234

E.

E
~
:;

60

AI

30

254

«

.s

t-t-

~

~

:;

If

20

40

I6

1.2

24

2B

30

l"-

253
254

20

Forward Voltage VF (V)
FIG 12 FORWARD CURRENT VS.
FORWARD VOLTAGE

/II

E '"
::>"0

I"

i' ~ J'.

40

-.L

~ ~ 20

r-....

>
;0

r--. ~ ~

'"
E

£~

V

10

IL

o 1/
o

BO
100
Ambient Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

3.2

233
234 ~
'253
254

~ ~

"-

2.0

E

o~

V

o

40

:J 0

J'.

5 10

/,

~

233
234

3D

~

VI

<; 10

~

"
E«

u
'E 20

j

"-

i!'

50

E

II

~

50

60

10

2

in
c
j'l
1:

c

E
.3

100

40

50

200

30'

253
254
2331==
f--- 234

'"o

:J

30

FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
00

i!'

20

Forward Current IF (rnA)

40'

1.0

05

09

50'

DB

">

60'

iii

a; 02

a:

70'

07

BO'
01
-30

H-+-H-+-'t""f"""f--H----j--j--H 90'
-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70
0.5

03

0I

02

04

FIG 16 SPATIAL DISTRIBUTION

06

2-132
411

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

2SoC

=

PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Luminous Intensity

Iv

293
294

1.0
1.0

3.0
3.5

mcd

IF = 10 mA
Note 1

Viewing Angle

20Y.

293
294

54
32

deg.

Note 2 (Fig. 21)

Peak Emission
Wavelength

APEAK

630

nm

Spectra I Line
Half Width

I:!.A

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

IF=20mA

2.8

V

100

p.A

VR =5V

PF

VF=O
f= 1 MHZ

20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Intenationale De L'Eclairage) eye-response curve.
2. ey. is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

60

I
II

50

l:in

c

2l

E

I
II

30

~

5

I
I

15 10

~

E

~,

'E 20

tl:

:J
...J

r-....

10

16

24

2B

32

20

Forward Voltage VF (V)
FIG.17 FORWARD CURRENT VS.
FORWARD VOLTAGE

40

I

iii

r-....

Q;

60

BO

/

10

a:

r-.... r.....
20

II

2.0

">

V

12

I

30

c

~ 30

U

u.

o

'"a

:J

c

:J

u 20
'E
;:
'"

J

40

.EO

/

o 1/

o

100

10

20

30

40

Forward Current IF (rnA)
FIG 19 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

Ambient Temperature TA (OC)
FIG 18 FORWARD CURRENT
DERATING CURVE

O'

10'

20'
30'

40'
50'
60'
07
__- L__
-20 -10

01L-~

-30

2-133
412

~

__~~L-~__- L_ _~_ _L-~

10

20

30

40

Ambient Temperature TA (DC)
FIG 20 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

H-+-t-R'i"-i'-4=FH+--I--1
05

03

01

02

0.4

FIG 21 SPATIAL DISTRIBUTION

06

70'
BO'
90'

50

ILlTE[')~11

T-l% (Smm) SOLID STATE LAMPS
LTL-4203
L TL-4213/307P
L TL-4223/307E

RED
LTL-4233/307G GREEN
BRIGHT RED
LTL-4253/307Y YELLOW
HIGH EFFICIENCY RED LTL-4294/307EA ORANGE

FEATURES
o LOW POWER CONSUMPTION_
o HIGH EFFICIENCY.
-VERSATILE MOUNTING ON p.e. BOARD OR
PANEL.
ol.C. COMPATIBLE/LOW CURRENT REOUIREMENTS.
oPOPULAR T-l% DIAMETER, 1" LEAD LENGTH.
oRELIABLE AND RUGGED.
o LOW COST.

----,-

DESCRIPTION

~~--- ---,_t1~'
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Arsenide Red Light
Emitting Diode,
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

\~

PACKAGE DIMENSIONS
LTL-307 x Series

8 ••

1.0

SEE NOTE

:014~)~~~~;h-T

R1.5 .059

22.0 MIN

LTL-42x3/42x4 Series

(.866)

°0.5 TYP
(.02)

2.54 NOM

(.1

1.0

't'_-+_--":.r04) MIN
2.54 NOM
(.1

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-134
413

DEVICES
PART
NO.
LTL-

LENS
COLOR

DJFFUSION

4203
4204
4208

Red
Red
Water Clear

Diffused
Transparent
Non-Diffused

4213
4214

Red

4223
4224

PART
NO.
LTL-

COLOR

DIFFUSION

Red

307P
307PE

Red

Diffused
Transparent

Bright Red

Diffused
Transparent

307E
307EE

Red

Diffused
Transparent

Hi. Eff. Red

Bright Red

Diffused
Transparent

Diffused
Transparent

Green

Hi. Eff. Red

307G
307GE

Green

Red

4233
4234

Green

Diffused
Transparent

Green

4253
4254

Yellow

Diffused
Transparent

Yellow

4293
4294

Orange

Diffused
Transparent

Orange

SOURCE
COLOR

ABSOLUTE MAXIMUM RATINGS AT TA

LENS

SOURCE
COLOR

307Y

Yellow

Diffused

Yellow

307EA

Orange

Diffused

Orange

= 2SoC

RED

BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

80

40

100

50

100

mW

200

50

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25" C

0.5

0.2

0.4

0.25

0.4

mA/"C

5

5

5

5

5

V

PARAMETER
Power Dissipation
Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

Reverse Voltage
Operating Temperature Range

-55 C to +100°C

Storage Temperature Range

-55" C to +100° C

Q

Lead Soldering Temperature
[1.5mm (O.053in) From Body]

2500 C for 5 Seconds

Green Yellow

Hi. Eff. Red
Orange Red

Bright Red

1.0

r-----r--,-.._~.._~--_,....___r7..._--___;;;;O_._---_,_----__,

0.5

r-----~-7-_r-~r_~--~~~~--~---~~----~

>-

.~
<:

..
OJ

<:

OJ

>

',p

'"

Qj

a:

500

550

600

650

700

2-135

414

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

4203
4204
4208

0.3
1.7
1.7

0.8
5.5
5.5

mcd

IF = 10 mA
Note 1

Viewing Angle

28%

4203
4204
4208

36
16
16

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

i\PEAK

655

nm

Spectral Line
Half Width

t.i\

24

nm

Forward Voltage

VF

1.7

Reverse Current

IR

Capacitance

C

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

IF = 20 mA

2.0

V

100

/loA

30

Measurement
@ Peak (Fig. 1)

VR = 5V
VF =0

PF

f = 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Intenationale De L'Eclairage) eye-response curve.
2.8% is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

60

J

I
II

40

40

~

10

o

'C
~
:; 30

I
I
I

20

'C

ro

16

20

"
(;

2.0

2.4

2.8

o

3.2

o

20

FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE.

....

-

'""'- '""'-

c

2l

,!;

'"o

:J

c

E
:J

60

"', ,
80

"

E
:J

20

...J

">

iii

-.;

10

a:

o/
o

100

I

/

10

Ambient Temperature TA (OCI

Forward Voltage VF (VI

~
in

40

,/

V

30

c

10

/

40

£"
:J
'"0

"-

U

LL

1.2

,

50

~

.s

30

50
~
in
c

20

30

40

FIG. 3 FORWARD CURRENT
DERATING CURVE

FIG. 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT .

--

30'

0.5

10
09

~ 02
a:

08

...J

..,">

40'
50'
60'

07
01
-30

-20

-10

10

20
30
TA (OC)

50

Forward Current I F(mAl

40

AmbIent Temperature

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

I++-H-FP¥1==t=++l--+...j
0.5

03

0.1

02

0.4

0.6

FIG 6 SPATIAL DISTRIBUTION

70'
80'
90'

2-136

415

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.

SYMBOL

LTL4213
4214
4223
4224

Iv

Luminous IntensitY

MIN.

TYP.

1.1

3.8
12.S
S.7
40.0

2.6·

2.5

10.0

MAX.

TEST
CONDITION

UNIT
mcd

IF'" lOrnA
Note 1

38

Viewing Angle

28¥.!

4213
4214
4223
4224

16
36
16

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

APEAK

4213
4214
4223
4224

697
697
635
S35

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

All.

4213
4214
4223
4224

90
90
40
40

nm

VF

4213
4214
4223
4224

2.1

Forward Voltage

Reverse Current

fR

4213
4214
4223
4224

Capacitance

C

4213
4214
4223
4224

2.1

2.0
2.0

2.8

V

100

#A

VR =5V

PF

V =0
f'" lMHZ

65
55

20
20

IF "'20mA

NOTES: 1. Luminous intensitY is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. O¥.! is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

.s

40
42i3
4224/

~

~

30

'E

«

.s
'"C

/1

5

u

60

/1
/I
'I

~

5

, /4213
1/4214

20

~
5 10
u..

50

C
~

50

.E"

40
30

421~

u

'E 20

~

/

r- 4214

5
u.. 10

II}

20

Forward Voltage VF IV)
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

2

~

~"

-~224

-

"
">

..J

i'..

40

I........

iii

i'I"'-- I"'--

~~

80

100
(OC)

60

0;
II:

20
10

o~

o

'4

-

Ik "

10

4213
4214

20

30

40

Forward Current IF (rnA)

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
O'
10'
20'

30'

t:::: f::::- :::-40'
10

05

09

50'

">

08

60'

~

02

70'

07
01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

416

"-... r-...

II

.3

II:

2-137

4214

1 ~223

"'"o
~

~

f224

E

Ambient Temperature
FIG 8 FORWARD CURRENT
DERATING CURVE

12162024283.2

.L 223

30

c

/V

o

C

'"0"

4223
4224

/

40

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

80'
I+++--H=f'~.q:'f--H++I 90'

o5

0.3

01

02

04

FIG 11 SPATIAL DISTRIBUTION

0.6

\0

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

4233
4234
4238

25
10.0
29.0

8.7
40.0
60.0

mcd

IF = 10mA
Note 1

Viewing Angle

28112

4233
4234
4238

36
16
16

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

APEAK

4233
4234
4238

565

nm

Spectra I Line
Half Width

All.

4233
4234
4238

30

nm

Forward Voltage

VF

4233
4234
4238

2.1

Reverse Current

IR

4233
4234
4238

Capacitance

C

4233
4234
4238

PARAMETER
Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

IF = 20mA

2.8

V

100

/-IA

VR

PF

VF=O
f '" 1MHZ

35

= 5V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. 8112is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

I

« 40

50

I

.E

~I 30

I

~

!;

........

u 20
'E
;:
'"

.£

u

~

50

1.2

U

20

2.4

2.B

o

3.2

20

'"

30

,

0

...J

.......

40

FIG. 12 FORWARD CURRENT VS.
FORWARD VOLTAGE.

I

20

"

~

........

a;

a:

60

BO

10

o l/

r-.....

o

100

Ambient Temperature TAl ( ° C)
FIG. 13 FORWARD CURRENT
DERATING CURVE.

Forward Voltage VF (V)

/

c:

E
:J

........

V

o

40

:J

I

10

~c:
~

/

V
1/
10

20

30

40

50

Forward Current IF (mA)
FIG 14 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

10'

20'
30'

cii;
c:

"

£·1
3

1~§~i~~~~~~f~~~~t~
~

0.5

40'

50'

~-+--~--+--4--~--+-~r--+--~~

60'

I----+--+--l---+--+---t--t---f---+_--I

BO'

~

~

a:

0.2

01 L--L__J -__
-30

-20

-10

L-~

__- L__i - - J__

10

20

30

Ambient Temperature TA (OC)
FIG. 15 LUMINOUS INTENSITY VS.
AMRIFNT TEMPERATlIRF

40

~

50

70'

__~~

60

70

05

03

01

02

04

06

FIG 16 SPATIAL DISTRIBUTION

2-138

417

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT T
NO.
SYMBOL PART
LTL-

PARAMETER

4253
4254
4258
4253
4254
4258
4253
4254
4258
4253
4254
4258
4253
4254
4258
4253
4254
4258
4253
4254
4258

Iv

Luminous Intensity

Viewing Angle

28*

Peak Emission
Wavelength

APEAK

Spectral Line
Half Width

DA

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

MIN.

TVP.

2.5
10.0
10.0

8.7
40.0
40.0
36
16
16

TEST
CONDITION

UNIT

MAX.

mcd

IF'" 10mA
Note 1

deg.

Note 2 (Fig. 21)

585

nm

35

nm

2.1

= 25°C

Measurement
Peak (Fig. 11

@

2.8

V

100

p.A

VR

PF

VF =0
f'" 1MHZ

15

IF '" 20mA

=5 V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. O*IS the off axis angle at which the luminous intensity is half the axial luminous intensity.
50

/

40

«
.s

«E

/

30

~ 20

LL

"'"c:
0

........

~

16

20

5 10

LL

24

28

20

32

r-.... ......

........

20

'"'"

10

40

60

a;

r-.... ........

BO
100
Ambient Temperature TAI( 0 C)
FIG. 18 FORWARD CURRENT
DERATING CURVE

Forward Voltage VFIIV)
FIG. 17 FORWARD CURRENT VS
FORWARD VOLTAGE

I

I

'>"

0
12

,
I

30

"

..J

'E 20

/

40

E

u

/

'E 10

l!l

.s

c:
~ 30

/

5

50

5

/

u

~
u;
c:

:; 40

~,

~
o

5.0

60

a:

/

/

o 1/
o

10

20

10'

~

40

30

50

Forward Current IFI(mA)
FIG. 19 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

20'
30'

2

c:

~~~m
05~
E

3

40'
50'

~-+--4---r-~--~--+-~~-+--1-~

60'

~

10
a:

a; 02

__
__
-20 -10

01L-~

2-139
418

70'
BO'

f---+--+--t--+--+--+----1r--+--+--1

-30

~

L_~

_ _- L_ _~~L_-L_ _~~

10

20

30

40

50

Ambient Temperature TA (OC)
FIG. 20 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

60

70

05

03

01

02

04

06

FIG 21 SPATIAL DISTRIBUTION

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

Luminous Intensity

Iv

PART NO.
LTL4293
4294

2eY:.

TYP.

2.5

8.7
40.0

10.0
10.0

4298

Viewing Angle

MIN.

MAX.

TEST
CONDITION

UNIT

IF = 10 mA

mcd

Note 1

40.0

4293
4294

36
16

4298

16

Note 2 (Fig 26)

deg.

Peak Emission
Wavelength

APEAK

630

nm

Spectral Line
Half Width

6A

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

Measurement
@ Peak (Fig 1)

IF = 20 mA

2.8

V

100

J.i.A

VR "5V

PF

VF "0
f '" 1 MHZ

20

NOTES: 1. Luminous intensity IS measured with a light sensor and filter combination that approximates the CI E
(CommiSSion Intenationale De L'Eclairage) eye-response curve.
2. eY:. is the off-aXIS angle at which the Ilminous Intensity is half the axial luminous intensity.
50


"'"
a;
0:

Bo

100
(OC)

40

60

30

lL

20

--

307
3°1E

It-- "

10

o~

I'..

Ambient Temperature

20

32

"
"E
"

o

~
10

L
1L
~m

20

30

40

Forward Current IF (rnA)

FIG. 2B FORWARD CURRENT
DERATING CURVE

FIG. 29 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
O'
10'
20'

30'

t:::-40'
1.0

05

0.9

50'

DB

60'

02

70'

07

o1

-30

2-141
420

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG. 30 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

BO'

H--t-H-t-T"'r-H-r-r-H'i 90'
0.5

03

0.1

0.2

04

06

FIG 31 SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

2SoC

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

307G
307GE
307 V

4.0
8.7
4.0

12.6
29.0
12.6

mcd

IF = 10 mA
Note 1

Viewing Angle

20Y:.

307G
307GE
307V

50
40
50

deg.

Note2(Fig.36)

Peak Emission
Wavelength

APEAK

307G
307GE
307V

565
565
585

nm

Spectral Li ne
Half Width

AA

307G
307GE
307V

30
30
35

om

Forward Voltage

VF

307G
307GE
307 V

2.1

Reverse Current

IR

307G
307GE
307V

Capacitance

C

307G
307GE
307V

PARAMETER
Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
@ Peak (Fig. 1)

IF = 20mA

2.8

V

100

JJA

VR

PF

VF = 0
f = lMHZ

35
35
15

=5V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye·response curve.
2. OY:. is the off·axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

307G
307GE

~

E 30
~
3

u

'E

~

"

L1.

IV

I

40

E

Ii

01

«

07Y r- -

E

12

1.6

24

28

40

307G
307GE

.........
307Y

I

10

20

Forward Voltage VF IVI
FIG 32 FORWARD CURRENT VS.
FORWARD VOLTAGE

........

........

I.......

"
">

~

iii

l"-

Qi

........

32

I'

c

...J

40

60

a:

~~

80

)

20

1/

10

/

o/

o

100

Ambient Temperature TA (OCI
FIG. 33 FORWARD CURRENT
DERATING CURVE

It
'307Y

30

E

.........

~

"

"'"0

307G
307GE

30

';

L1.

20

c

B

.EO

40

~

J.
'/

o

50

u
'E 20

J

10

~
;;;

E

"
VI

20

50

60

/,/

10

30

20

40

O'

10'

20'
30'

~

;;;
c

307Y

B

r=

.EO

"'"oc

E

307G
307GE

40'
10

09

05

.3

">
~a:

50

Forward Current IF (mAl
FIG. 34 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

50'

08

02

60'

07

01
-30

H-+-l-+-r:P""~F++-t-t-H

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 35 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

FIG

~

03

01

02

04

70'
80'
90'

06

SPATIAL DISTRIBUTION

2-142
421

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

25°C

=

TEST
CONDITION

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

307EA

5.6

19.0

mcd

IF '" 10 rnA
Note 1

Viewing Angle

28%

307EA

50

deg.

Note 2 (Fig. 41)

Peak Emission
Wavelength

i\PEAK

630

nm

Spectral Une
Half Width

1:>]"

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

PARAMETER

Luminous Intensity

UNIT

MAX.

Measurement
Peak (Fig. 1)

@

2.B

V

100

IJ.A

VR "'5V

PF

VF"'O
foo 1 MHZ

20

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Intenationale De L'Eclairage) eye-response curve.
2.8% is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50



~

70"

07

Q; 02
II:

H-+Hf-f=t---Y-+=f---1H+-t-1
01
-30

2-143
422

40

20"

2

~

c

E

20

Forward Current IF (mA)
FIG. 39 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

Ambient Temperature TA (OC)
FIG 38 FORWARD CURRENT
DERATING CURVE

-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG. 40 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

o5

0.3

01

02

04

FIG. 41 SPATIAL DISTRIBUTION

0.6

BO"
90"

50

MEDIUM PROFILE
T-l% LED LAMPS
LTL-10203/10203W RED
L TL-1 0213
BRIGHT RED
LTL-10223/10223W HIGH EFFICIENCY RED

LTL-10233110233W GREEN
LTL-10253110253W YELLOW
LTL-10293W
ORANGE

FEATURES
- LOW POWER CONSUMPTION.
-WIDE VIEWING ANGLE.
- MEDIUM PROFI LE: 7.24mm (0.285") NOMINAL.
- GENERAL PURPOSE LEADS.
-I.C. COMPATIBLE/LOW CURRENT REQUIREMENT.
- RELIABLE AND RUGGED.

lr'
,I

DESCR IPTION
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Arsenide Red LIght
Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light EmItting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

-1-•. -<---=.... \

"

PACKAGE DIMENSIONS
LTL-1 02 x 3W Series

LTL-1 02 x 3 Series

FLAT DENOTES CATHODE

(:~~)MIN
't'''-2.''S.t
4 "N"OM..--""r
(.01)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-144
423

DEVICES
SOURCE
COLOR

PART
NO.
LTL-

COLOR

DIFFUSION

Diffused

Red

10203W

Red

Diffused

Red

Red

Diffused

Bright Red

10223W

Red

Diffused

Hi. Eff. Red

10223

Red

Diffused

Hi. Eff. Red

10233W

Green

Diffused

Green

10233

Green

Diffused

Green

10253W

Yellow

Diffused

Yellow

10253

Yellow

Diffused

Yellow

10293W

Orange

Diffused

Orange

PART
NO.
LTL-

COLOR

DIFFUSION

10203

Red

10213

LENS

LENS

SOURCE
COLOR

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
RED

BRIGHT
RED

GREEN

HI.EFF.RED
ORANGE

YELLOW

UNIT

Power Dissipation

80

40

100

100

60

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1ms Pulse Width)

200

60

120

120

80

rnA

Continuous Forward Current

40

15

30

30

20

rnA

Derating Linear From 25°C

0.5

0.2

0.4

0.4

0.25

mA/oC

5

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

-55°C to +100°C

Storage Temperature Range

-55" C to +100° C

Lead Soldering Temperature
f1.6mm (0.063In) From Body]

260° C for 5 Seconds

Green Yellow

Hi. Eff. Red
Orange Red

Bright Red

1.0 r-----.--.,......--r...-.,----,....:--r7...-----.._;:-----....,------,

~
';;;

c

~'" 0.5 r--------~--~-+--~~_f----~~~\_----~------~~~------~

'">
'"
a:
';::;
Q;

500

2·145
424

550

600

650

700

Wavelength ?o.. (nm)
FIG,1 RELATIVE INTENSITY VS, WAVELENGTH

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.
LTL-

SYMBOL

TEST
CONDITION

MIN.

TYP.

UNIT

0.3
0.8
0.3

0.8
2.5
0.8

mcd

IF = 10 mA
Note 1

MAX.

Iv

10203
10213
10203W

Viewing Angle

20%

10203
10213
10203W

60
60
60

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

10203
10213
10203W

655
697
655

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

i>A

10203
10213
10203W

24
90
24

nm

Forward Voltage

VF

10203
10213
10203W

1.7
2.1
1.7

Reverse Current

IR

10203
10213
10203W

Capacitance

C

10203
10213
10203W

Luminous Intensity

-

2.0
2.8
2.0

V

100

J.4A

VR =5V

PF

VF =0
f = 1MHZ

30
55
30

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. O%is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

-

2

e"
E

"
E

::>

",
r--.

- ---

40

60

20

..J

--

Q)

>

'"'"

a;

~~

BO

t..-

10

0::

o lP
o

100

10213

~
10

30

20

40

50

Forward Current IF(mA}

FIG 3 FORWARD CURRENT
DERATING CURVE

FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT
00

10D

20 a

10203
10203W

10213

'"::>o

r'--

;~~~~W- r-

Ambient Temperature TA (OC)

FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

1E

'"
r---.. . .

10213

10

Forward Voltage VF (V)

~

'/

30

~

0

........

20

./

40

e"
'"
"
E

E

30'

1""0::::: :::::::,...
40'

05

50'

3

Q)

60'

>

'"

~ 02

70'

0.7

0::

01
-30

BO'
H-+--H--F~¥-A=++l-J.-I 90'
-20

-10

10

20

30

40

50

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

60

70

05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

06

2·146
425

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.

SYMBOL

LTL-

MIN.

TYP.

1.7

5.6
5.6

MAX.

= 2SoC
TEST
CONDITION

UNIT

.
mcd

IF = 10 mA
Note 1

60

deg.

Note 2 (Fig. 11)

10223
10223W

635

nm

A7I.

10223
10223W

40

Forward Voltage

VF

10223
10223W

2.0

Reverse Current

IR

10223
10223W

Capacitance

C

10223
10223W

Iv

10223
10223W

Viewing Angle

26%

10223
10223W

Peak Emission
Wavelength

7I.PEAK

Spectral Line
Half Width

Luminous Intensity

1.7

Measurement
Peak (Fig. 1)

@

'nm

IF =20mA

2.8

V

100

p.A

VR =5V
VF =0

PF

20

f = 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Intenationale De L'Eciairage) eye-response curve.
2. 6% is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

«

40

E.

5
u 20
1<

;:'"
(;

~

:1

~

u.

«

I

~

t' 30

I

50

/

40

c:

~ 30

"

u
~ 20
;:

I

'/

10

50

60

I
II

~

........

'-

10

,

/

12162.024

2.B

/

r-... r......

/

o

7

........

20

3.2

40

60

BO

o ./
o

100

30

20

10

40

O·
?;
;;;
c:

"
E
"'"o

30'

1
40'

c:

E 05
.3

50'

">

iii
a;
a:

60'

02

70'
BO'

0.7

o1
2-147
426

-30

-20

-10

10

20

30

40

Ambient Temperature TA (OCI
FIG 10 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

50

Forward Current IF (mAl
FIG. 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

Ambient Temperature TA (OCI
FIG B FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG 7 FORWARD CURRENT VS.
FORWARD VOLTAGE

I++H+~.f.L.f'::l=+-l-W~ 90'

o5

03

01

0.2

04

FIG 11 SPATIAL DISTRIBUTION

06

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
TEST
CONDITION

SVMBOL

PART NO.
LTL-

MIN.

TVP.

Iv

10233
10253
10233W
10253W

1.7
1.7
1.7
1.7

5.6
12.6
5.6
12.6

mcd

IF = 10 mA
Note 1

Viewing Angle

28%

10233
10253
I0233W
10253W

60
60
60
60

deg

Note 2 (Fig. 16)

Peak Emission
Wavelength

;\.PEAK

10233
10253
10233W
10253W

565
585
565
585

nm

Spectral Line
Half Width

A;\.

10233
10253
10233W
10253W

30
35
30
35

nm

Forward Voltage

VF

10233
10263
10233W
12053W

2.1

Reverse Current

IR

10233
10253
10233W
10263W

Capacitance

C

10233
10263
10233W
102631111

PARAMETER
Luminous Intensity

UNIT

MAX.

2.8

V

100

J.lA

35
15
35
15

Measurement
Peak (Fig. 1)

@

IF =20 mA

VR =5V

VF =0
1 MHZ

PF

f

=

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. O%is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

IV

40

~

E
~
5

«

10233
1 t310233W f$L\025
10253W

l

30

l

~

~

5
u

~

~

50

~

-;;; E

10133
10233W

30

10253
10153W

~

5 10

I

::J

16

1.2

2.4

2B

3.2

E

r--- J"..
r--- r--- I'

<0

-'-

~ ~ 20
> <0
;:; E

~~

J"'-. l'

o 1/
o

1"00..

40

10

Q)

E
::J
'"o
E
.3

20

30

40

50

Forward Current IF (rnA)
FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

10153
10153W

'c"
c

1/ 10253
10253W

1/

O'

::-

,It

V

10

BO
100
60
Ambient Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (V)
FIG 12 FORWARD CURRENT VS.
FORWARD VOLTAGE

10133W

::J'O

t"'" ~
20

t- t - t--1102~3

30

~ ~

L1.

2.0

0

o~

V

o

40

Q)

E«

40

'E 20

VI

5 10

L1.

::-

E

/I
II

u 20
'E

50

60

/,/1

30'

~~mk'

40'
1.0

0.5

0.9

50'

DB

60'

Q)

>

~

a:.

0.2

70'
BO'

0.7
01
-30

-20

-10

10

10

30

40

Ambient Temperature TA 1°C)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

I-++H:-f"t-''''t'--Ft-i-++-H
05

03

01

02

04

FIG 16 SPATIAL DISTRIBUTION

06

90'

2-148
427

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

10293W

1.7

5.6

mcd

IF = 10 mA
Note 1

Viewing Angle

2IJYz

10293W

60

deg.

Note 2 (Fig. 21)

Peak Emission
Wavelength

i\.PEAK

630

nm

Spectral Line
Half Width

Ai\.

40

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
@ Peak (Fig.

nm

-

,
IF

2.8

V

100

/JA

VR =5V

PF

VF =0
f= 1 MHZ

20

1)

=20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Intenationale De L'Eclairage) eye-response curve.
2. IJYz is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

«

s

40
30

~

~

50

5~

c:

!:

~ 30

r--.. .....

U

10

o

"E 20

~

~ 10

16

3.0

~

E
'"
:J'C

r--.. r--..
:---. I'--..

20

24

28

20

3.2

40

/

ll2 0
> '"
.in
~ ~ 10
~

V

1.2

/

., E

:; 40

I
I

/

40

Ql

E<{

:J

u 20
"E
;:
'"
1;
u.

«E

I
il

~

E
~
5

50

60

I
II

60

80

/

/

o/
o

100

30

20

40

FIG 19 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

FIG.1B FORWARD CURRENT
DERATING CURVE

FIG.17 FORWARD CURRENT VS.
FORWARD VOLTAGE

10

Forward Current IF ImA)

Ambient Temperature TA 1°C)

Forward Voltage VF IV)

O'

10'

20'
30'

40'

10
09

50'

08

60'
70'

0.7

__- L__
-20 -10

01L-~

-30

2-149
428

L-~

__- L_ _

10

20

~~

30

_ _~_ _~~

40

50

60

70

80'

H--+-f-I-F=t-->¥--FI-+--+-H-I 90'
0.5

03

0.1

0.2

0.4

0.6

Ambient Temperature TA 1°C)

FIG.20 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

FIG. 21 SPATIAL DISTRIBUTION

50

ILlTE['J~11

LOW PROFILE

T-l~LED

LTL·5203 RED
L TL·5223 HIGH EFFICIENCY RED

LAMPS

L TL·5233 GREEN
L TL·5253 YELLOW

FEATURES
e HIGH INTENSITY LIGHT SOURCE WITH TWO
LENSES EFFECTS.
eRED, GREEN AND YELLOW COLORS AVAILABLE.
e LOW PROFILE.
e LOW POWER CONSUMPTION.
e LONG LIFE-SOLID STATE RELIABILITY.
e GENERAL PURPOSE LEADS.
el.C. COMPATIBLE/LOW CURRENT REQUIREMENTS.
e RELIABLE AND RUGGED.

DESCRIPTION
The Red s.ource color devices are made with Gallium
Arsenide Phosphide Red Light Emitting Diode.
The High Efficiency Red source color devices are
made with Gallium Arsenide Phosphide on Gallium
Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

PACKAGE DIMENSION

1.5

(.059)

SE E NOTE 3

-j----ltT...,...TTf

DEVICES
,

PART
NO.
lTL-

lENS
COLOR

DIFFUSION

5203

Red·

Diffused

SOURCE
COLOR

J

0 0 • 5 TYP

(.0.)

Red

5223

Red

Diffused

Hi. Eff. Red

5233

Green

Diffused

Green

5253

Yellow

Diffused

Yellow

-r
6.05

1.0

.~.=c
s '+NC-=O=M--"('To4)M I '\I
(.1)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-150

429

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

RED

HI. EFF. RED

GREEN

YELLOW

UNIT

Power Dissipation

80

100

100

60

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

200

120

120

80

mA

Continuous Forward Current

40

30

30

20

mA

Derating Linear From 25°C

0.5

0.4

0.4

0.25

mArC

5

5

5

5

V

Reverse Voltage
Operating Temperature Range

- 55° C to + 100° C

Storage Temperature Range

- 55°C to + 100°C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body]

260° C for 5 Seconds

Green Yellow

0.5

HI. Eff. Red Red

r-----r-...,......----..,...----,----~....._."...__---_._----__._----__,

...>

'u;

~ 1.0 r---------~--f-~--~r_~----~~_4r_----4_--------_+--------~
c:

CD

>

'';:;

c;;'"
II:

500

550

600

650

700

Wavelength X (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-151

430

750

800

= 2SoC

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PART NO.
LTL-

MIN.

TYP.

Iv

5203
5223

0.2
1.0

0.5
4.0

mcd

IF = 10 mA
Note 1

Viewing Angle

28%

5203
5223

64
64

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

5203
5223

655
635

nm

Spectral Line
Half Width

AA

5203
5223

24
40

nm

Forward Voltage

VF

5203
5223

1.7
2.0

Reverse Cu rrent

IR

5203
5223

Capacitance

C

5203
5223

PARAMETER

SYMBOL

MAX.

TEST
CONDITION

UNIT

~.

Luminous Intensity

Measurement
Peak (Fig. 1)

@

2.0
2.8

V

100

/-lA

VR =5V

PF

VF =0
f= 1 MHZ

55
20

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Intenationale De L'Eclairage) eye-response curve.
2.8% is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

I
II

;;:
E

520311

I

E 30

~

:;

I
II

20

J203

40

5223

I

I......

5 10

E
~

l.2

1.6

20

2.4

3.2

28

20

r-:: ~

--

2

60

~

80

">
"'"
0;
a:

FIG. 3 FORWARD CURRENT
DERATING CURVE

V

10

"

/

o 1/
o

100

Ambient Temperature TA (OC)

Forward Voltage VF (V)
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

::-

40

5203

It

20

..J

..IV

o

.L

c

r--.. ~ i'

lL

V

5223V

30

~

0

1/

J

40

~

i'-

u
'E 20
;:
'"

I

::-in
c
"
E

50

E
~
:; 30

1/5223

~

u

50

60

I

10

20

30

40

50

Forward Current IF (rnA)
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

O'

10'

20'

--';;203

in

c

2l

5223

.!:

:::- t::--

~

~

o
c

E
~

10
0.9

0.5

..J

">
~a:

0.8
02

07
01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (Oel

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

2·152
05

03

01

02

04

06

FIG 6 SPATIAL DISTRIBUTION

431

ELECTRICAL/OPTICAL C'HARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.

SYMBOL

LTL-

.

TYP.

1.0
1.0

4.0
4;0

mcd

IF = 10 mA
Note 1
Note 2 (Fig. 11)

MAX.

UNIT

Iv

5233
5253

Viewing Angle

2BYa

5233
5253

64
64

deg.

Peak Emission
Wavelength

APEAK

5233
5253

565
585

nm

Spectral Line
Half Width

AA

5233
5253

135

Forward Voltage

VF

5233
5253

2.1

Reverse Current

IR

5233
5253

Capacitance

C

5233
5253

Luminous Intensity

TEST
CONDITION

MIN.

30

Measurement
Peak (Fig. 1)

@

nm

IF =20mA

2.8

V

100

p.A

35
15

VR =5V
VF =0

PF

f = 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Intenationale De L'Eclailage) eye-response curve.
2. BY, is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50
40

III

5~33

30

I

20

II

~

I
5253

l:-

50

~

E
u.

r--

in

§

u.

I

'"
~

0

5233
30

~

20

........ ........

5253

I

10

V

o

12

16

20

24

2B

5233

32

20

30

E

"- .........

u

":;~

40

.E

40

"~

/I

10

50

60

A
I

40

~

...J

" "- r--.:::

">
iii

........

60

-.;

~

BO

0:

I

20

oV
o

100

'/
10

Ambient TemperatureTA (Oel

Forward Voltage VF (VI
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

2

30

40

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

~253

in
~

.f"

20

Forward Current IF (rnA)

O'

l:-

5253

/

10

"

II'

/,-

f==5233

'"o
~

~

10

05

.3

09

">

~

DB
02

0:

70'

0.7

o1
-30

2-153
432

-20

-10

10

20

30

40

Ambient TempelatureTA (OC)
FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

BO'

t++-H-FT"-+-"'Ff+-+-H-I
05

03

01

02

04

06

FIG. 11 SPATIAL DISTRIBUTION

90'

50

/LITEr.] ~ 1/

(1.8mm) DOT POINT LED LAMPS
LTL·709R RED
LTL·709Y
YELLOW
LTL-709E HIGH EFFICIENCY RED LTL-709EA ORANGE
LTL·709L GREEN

FEATURES
• LOW POWER CONSUMPTION.
-GENERAL PURPOSE LEADS.
-I.C. COMPATIBLE/LOW CURRENT
MENTS.
-RELIABLE AND RUGGED.

REQUIRE-

DESCR IPTION
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Arsenide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

PACKAGE DIMENSIONS

DEVICES
PART
NO.
lTl-

COLOR

DIFFUSION

709R

Red

Diffused

Red

709E

Red

Diffused

Hi. Eff. Red

709L

Green

Diffused

Green

709Y

Yellow

Diffused

Yellow

709EA

Orange

Diffused

Orange

lENS

SOURCE
COLOR

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ± 0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-154
433

-

!.,

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

80

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 rtlS Pulse Width)

200

120

80

120

mA

Continuous Forward Current

40

30

20

30

mA

Derating Linear From 25° C

0.5

0.4

0.25

0.4

mArC

5

5

5

5

V

PARAMETER
Power Dissipation

-

.-

Reverse Voltage
Operating Temperature Range

- 56"C to + 100G C

Storage Temperature Range

- 55°C to + l00G C

Lead Soldering Temperature
(1.6mm (0.063inl From Body]

2600 C for 5 Seconds

Green Yellow
0.5

Hi. Eff. Red
Orange
Red

r-----,--....,.....---.....----,-----".~.,...,...__---_._----_r_----_,

?:

'u;

~ 1.0 r-------f--f---\-----t1r---f----f-I--\----1r-----+------+------l
c:

CI>

>
.;::
II>

a;

II:

500

550

600

650

700

Wavelength ~ (n'm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-155

434

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Luminous Intensity

Iv

709R
709E

0.3
0.7

0.7
3.0

mcd

IF = 10 mA
Note 1

Viewing Angle

2911.

709R
709E

25°
38°

deg.

(Fig. 6)
Note 2 (Fig.11)

Peak Emission
Wavelength

i\PEAK

709R
709E

655
635

nm

Spectral line
Half Width

a;...

709R
709E

24
40

nm

Forward Volta-ge

VF

709R
709E

1.7
2.0

Reverse Current

IR

709R
709E

Capacitance

C

709R
709E

TEST
CONDITION

UNIT

MAX.

Measurement
Peak (Fig. 1)

@

2.0
2.8

V

100

pA

VR =5V

PF

VF =0
f= 1 MHZ

30
20

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Intenationale De L'Eclairage) eye-response curve.
2. 9Y:. is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

«

I
I

40

II

30

e

I
I
II I

~

20

~

;;:

0 10

~
U

50
40

f"

30

709E

I.......

~
0

1.2

1.6

20

24

2.B

10

32

20

...

2

in

l!l"

.5

'"C

30

J

709E

i' ~

~

">
"'"
Q;
cc

l'

40

-

V

1/

V
709R

/

"
E

:J
...J

60
BO
100
Ambient Temperature TA lOCI
FIG 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF IVI
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE

40

:J

r--.. ........ l'

ro 20

LL

"

~

1/

o

i':

in

I
709R

"C

1/

LL

50

i':

E

1/l09E

e

"C

E

/

~

u

«

709RII

E
E

60

I

It

20

IL

10

)

o 1/
o

10

20

30

40

50

Forward Current IF ImAI
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT.

O·

10·

~a'

N 09R
:::- t::::-709E

30'

'"o

:J

"
E

0.9

">

O.B

iii

Q;

cc

40'

10

0.5

.3

50'
60'

02

70'

0.7
01
-30

BO'

-20

-10

10

20

30

40

Ambient Temperature TA lOCI
FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

t+-HH-F'l'-i-'A+-hf-H
05030.1
020406
FIG 6 SPATIAL DISTRIBUTION

90'

2-156
435

'

~.

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

Luminous Intensity

,

PART NO.

SYMBOL

LTL-·

MIN.

TYP.

0.5
1.1

3.5

709L· ,
,
709Y

Iv

MAX.

mcd

IF=10mA
Note 1

. 38°

deg.

Note 2 (Fig. 11)

nm

1.5

,

Viewing Angle

20%

709l
709Y

Peak Emission
Wavelength

APEAK

709L
709Y'

565
585

Spectral Line
Half Width

1M.

709L
709Y

30

Forward Voltage

VF

709L.
709Y

Reverse Current

IA

709L.,709Y- ,

Capacitance

C

70!R
709Y

f ",

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

nm

36

IF = 20 mA

2.8

V

100

",A

VA =5V

PF

VF =0
f= 1 MHZ

2.1

35
15

NU I ~S: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Intenationale De L'Eciairage) eye·response curve.
2. OY, is the off·axis angle at which the liminous intensity is half the axial luminous intensity.
50

«

40

S

/

~

~

30

f

5

u

'C

ro
~
0

u.

60

Iii
709l/V

20

/I

«

~09yl- -

S

'I

~

~

5

50

i':

50

~

40

10

u.

I.

12

16

20

24

28

30

........

~

........

i"--

20

40

"r-::

60

J

20

..J

">

,

I

3.2

II"

E

....... ....... .......

709Y

10

Forward Voltage VF IV)
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

709l1- 1
IV 709Y

c

'/

o

'"
0

709l

30

"E 20

~
::;

40

~

u

/I

~

:g

jil

~ .....

80

/

10

Qi

a:

o l/

o

100

Ambient TemperatureTA (OC)
FIG 8 FORWARD CURRENT
DERATING CURVE

/
10

O'

i':

20

30

40

Forward Current IF (mAl
FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

2

~

70 Y

c

:g"
'"o

=

709l

~

c

E

-

05

1.0

~

..J

">
~a:

I
I

02

0.9

50'

O.B

60'
70'

0.7

o1
-30

2·157

436

-20

-10

10

20

30

40

Ambient TempelatureTA (OC)
FIG 10 LUMINOUS INTENSITY VS AMalENT
TEMPERATURE

50

60

70

BO'
f+~H-=F=t'---+"",'Ff++H-1 90'

0.5
FIG

03

01

02

0.4

06

11 SPATIAL D)STRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

= 2SoC

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

709EA

1.1

3.5

mcd

IF = 10 mA
Note 1

Viewing Angle

20%

709EA

38°

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

~PEAK

630

nm

Spectral Line
Half Width

A~

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

2.8

V

100

J.lA

VA = 5V

PF

VF =0
f = 1 MHZ

20

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Intenationale De L'Eciairage) eye-response curve.
2.0% is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

c

u

~

o

/
c

~ 30

::>

20

I

10

~

/

'-,

u
~ 20
;:

I

1"
LJ..

I

I
1/

30

e:;

50

60

I
II

I'

10

"-

V

o

12

16

20

24

2B

32

20

Forward Voltage VF (VI
FIG 12 FORWARD CURRENT VS.
FORWARD VOLTAGE

40

60

II

/

"- r-....
BO

o/
o

100

10

o·
~
in

20

30

10"

.s

30"

'"o
::>

::>

40'

1.0

c

E

0.5

09

...J

">

50'

O.B

'"

~ 02
a:

07

o1
-30

-20

50

20'

-

c

!'!

40

Forward Current IF (mAl
FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

Ambient Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG.15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

60"
70"

BO'
H--t-Hf-+"l"'--t-""F+-1f--t-t--H 90'

70

0.5

03

01

02

0.4

0.6

FIG.16 SPATIAL DISTRIBUTION

2-158

437

ILlTE('J~11

LED PANEL DOT INDICATORS
LTL·1204AI717R
LTL·1214Ari17P
LTL.1224A/71'7HR
·LTl·1234AI117G .

RED
Ll'L·1254AI717Y
BRIGHT RED
. LTL·1274An17A
HIGH 'EFFICIENCY,RED LTL.1294A
. GREEN

YELLOW
AMBER
ORANGE

FEATURES

,

-LOW POWER CONSUMPTION.
_SUITABLE FOR PULSED OPERATION.
_MOST SUITABLE FOR USE LIKE AUDIO PANEL
INDICATOR.
- FITS 2mm HOLE IN PANELS UP TO 4.5 mm
(0.177") THICK.
-LONG LIFE-SOLID STATE RELIABILITY.

i !

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Arsenide Red Light
Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Orange Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on GAllium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.
4 ••

PACKAGE DIMENSIONS
LTL-717 x Series
t-----t-cl~·~';~r
2·0
(-079)
1.8

(.07 1)

LTL-12 x 4A Series

-t

o

-

°0.5 TYP
(.02)

_W-_'"

2.54 NOM

2-159

438

(.n

-+~:;::===::

,.0 MIN
(.04)

0.'

(.02) TYP

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

DEVICES
PART
NO.
LTL-

COLOR

LENS
DIFFUSION

1204A

Red

Diffused

Red

1214A

Red

Diffused

1224A

Red

1234A

PART
NO.
LTL-

SOURCE
COLOR

LENS
COLOR

DIFFUSION

SOURCE
COLOR

717R

Red

Diffused

Red

Bright Red

717P

Red

Diffused

Bright Red

Diffused

Hi. Eff. Red

717HR

Red

Diffused

Hi. Eff. Red

Green

Diffused

Green

717G

Green

Diffused

Green

1254A

Yellow

Diffused

Yellow

717Y

Yellow

Diffused

Yellow

1274A

Amber

Diffused

Amber

717A

Amber

Diffused

Amber

1294A

Orange

Diffused

Orange

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
RED

BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

80

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25°C

0.5

0.2

0.4

0.25

0.4

mA/oC

5

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55°C to +100°C

Lead Soldering Temperature
[1.6mm (O.063in) From Body]

260° C for 5 Seconds

Green

Yellow
Hi. Eft. Red
Amber
Orange Red

Bright Red

>

.!:
c:
'"

2!
c:

0.5

r---------ir--7--r---f~,r----.r~~~~--~------~~--------~

Q)

>
.;;
III

a;

cc

500

550

600

650

700

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

750

800
2·160
439

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PARAMETER

PART NO.
LTL1204A
1214A
717R
717P
1204A
1214A
717R
'717P
1204A
1214A
717R
717P

Iv

Luminous IntensitY

2ev.

Viewing Angle
Peak Emission
Wavelength

71.PEAK

Spectral Une
Half Width

AA

Forward Voltage

VF

0.06

MAX.

TEST
CONDITION

UNIT

0.1
0.6

0.2
0.06
0.2

0.1

0.6
120
120

110

mcd

IF'" 10 rnA
Note 1

deg.

Note 2 (Fig. 6)

nm

Measurement
@ Peak (Fig. 1)

110

655
697
655
fi97
24
90
24
90
1.7
2.1

1204A
1214A
717R
717P
1204A
1214A
717R
717P
1204A
1214A
717R
717P

C

Capacitance

TYP.

1204A
1214A
717R
717P

,fR

Reverse Current

MIN.

nm
2.0
2,8

1.7
2I

IF ; 20 rnA

2.0

V

100

J.lA

VR" 5V

PF

VF =0
f'" 1 MHZ

2.8

30
55
30
55

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. Ov. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

 ro~
E1 0

iii

"",-

.... r--.. ~
60

Q)

0

o:z

~

80

o

100

p

-1

o

--

~>

10

1214A

niP

FIG 3 FORWARD CURRENT
DERATING CURVE

0'

10'

20'

r-- 1"-=== I=..

30'

:J

o

"
E
.3

40'
10

05

">
iii

0,9

50'

0.8

60'

0.7

70'
80'

c;; 0.2
0:

2·161

440

40

30

20

Forward Current IF (mA)
FIG,4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

Ambient Temperature TA (OC)

01
-30

-20

-10

10

20

30

40

Ambient Temperature TA 1°C)

FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

H-++-8~+--l"'f-H-+-H 90"

0,5

03

01

02

04

FIG. 6 SPATIAL DISTRIBUTION

06

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
lTl-

MIN.

TYP.

Iv

1224A
717HR

0.4
0.4

1.3
1.3

mcd

IF = 10 mA
Note 1

Viewing Angle

20Y>

1224A
717HR

120
110

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

~PEAK

1224A
717HR

635

nm

Measurement
@ Peak (Fig. 1)

Spectral line
Half Width

,,~

1224A
717HR

40

nm

Forward Voltage

VF

'1224A
717HR

2.0

Reverse Current

IR

1224A
717HR

Capacitance

C

1224A
717HR

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

IF=20mA

2.8

V

100

J.lA

VR =5V

PF

VF = 0
f = 1 MHZ

20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. OY> is the off-axis angle at which the luminous intensity is half the axi?1 luminous intensity.
50



2

.E
'""o

'1= ~~~4t

~

3D

20

40

FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 13 FORWARD CURRENT
DERATING CURVE

FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

V
1/
Forward Current IF (rnA)

Ambient Temperature TA (OC)

Forward Voltage VF (VI

r-r-

r•

:;

u
"E 20

II

10

1234AI,I_
7176 "254,1717Y

40

E

If

u 20
"E
LL

50

rL 1254A717Y _

~

50

60

fA
717&J. I
1234A/II

10'

20'
3~'

1254A
717Y

40'
10

05

0.9

"

50'

..J

DB

?;

~
0::

02

-3~

-20

-10

10

20

3D

40

Ambient TempelatureTA (OC)

442

70'

07

o1
2-163

60'

FIG 15 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

BO'

H-++-I--4'''t-+---'I''''F--H++1
0.5

03

01

02

04

FIG 16 SPATIAL DISTRIBUTION

06

90'

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

1274A
1294A
717A

0.3
0.4
0.5

1.0
1.3
1.5

mcd

IF=10mA
Note 1

Viewing Angle

20%

1274A
1294A
717A

120
120
110

deg.

Note (Fig. 21)

Peak Emission
Wavelength

?"PEAK

1274A
1294A
717A

600
630
600

nm

Spectral Line
Half Width

A?"

1274A
1294A
717A

35
40
35

nm

Forward Voltage

VF

1274A
1294A
717A

2.1
2.0
2.1

Reverse Current

IR

1274A
1294A
717A

Capacitance

C

1274A
1294A
717A

PARAMETER
Luminous Intensity

--

,

MAX.

TEST
CONOITION

UNIT

IF "'20 mA

2.8

V

100

JlA

15
20
15

Measurement
Peak (Fig. 1 )

@

VR =5V
VF '" 0

PF

f'" 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE'
(Commission Internationale De L'Eclairage) eye-response curve.
2. 0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

A

II

II

40

1

1294
3D

II

10

r-

~

1174A
7l7A

;;'

-

E
~

/
I

40

1294A/.

~

~

II

S

1194A

3D

I

~

1274A
7l7A

<5 10

I

LL

r--. r--. "- r'-r--..

.//

o

16
10
24
18
31
Forward Voltage VF (VI
FIG 17 FORWARD CURRENT VS
FORWARD VOLTAGE

Iv

l"- i'...

u
"E 20

I II

10

50

50

20

12

40

1/

..............

60

11274A
7l7A

~~

80

100

Ambient Temperature

TA (OC)

oV
o

1/
10

20

30

40

50

Forward Current IF (rnA)

FIG 18 FORWARD CURRENT
DERATING CURVE

FIG 19 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

0'

10'

10'
30'

40'

10
09

50'

08

60'
70'

07
01 ~~~~~L-~~~~L--L_ _~_ _L-~
-3~
-10 -10
0
10
10
3D
40
50
60
70
Ambient Temperature

TA (OC)

FIG 20 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

f+-HH-1"''!---t--Pf-++-I-t-j 90'
05

03

01

01

04

FIG 21 SPATIAL DISTRIBUTION

06

2-164
443

ILITEr.) ~ II

1_5x5~O

RECTANGULAR BAR LED
LAMPS

L TL·723G GREEN
LTL-723R RED
L TL·723Y YELLOW
L TL·723P
BRIGHT RED
LTL·723HR HIGH EFFICIENCY RED LTL-723AAMBER

FEATURES
- LOW POWER CONSUMPTION.
-SUITABLE FOR PULSED OPERATION.
• MOST SUITABLE FOR USE LIKE AUDIO PANEL
INDICATOR.
• FITS 1.5x5 mm HOLE IN PANELS UP TO 3.5 mm
THICK.
• LONG LIFE-SOLID STATE RELIABILITY.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Arsenide Red Light
Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Orange Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

PACKAGE DIMENSIONS

*$*
--I---t--=(.~7~~ ~~~BJ
-oft-tlO--;(1

~5:~ ~~~8)

DEVICES
PART
NO.
LTL-

LENS
COLOR

DIFFUSION

723R

Red

Diffused

723P

Red

Diffused

SOURCE

2-165

444

~~:6)MIN

.5

1

o

Red .

'.

Bright Rf?d

1jI_-+_ _ _-"(!"T0~JMIN
2.54

(.,

Red

Diffused

Hi, Eff.Reo

7200

Green

Diffused

Green

723Y

Yellow

Diffused

Yellow

723A

Amber

Diffused

Amber·

723HR

~

COLOR

NOM

NOTES:
1. All dimenSions are in millimeters (inches).
2. Tolerance is ±0.25mm 1.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

RED

BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

80

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, O.lms Pulse Width)

200

60

~120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25°C

0.5

0.2

0.4

0.25

0.4

mAte

5

5

5

5

5

V

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55°Cto+100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260°C for 5 Seconds

Green

Yellow
Amber

Hi.Eff.Red
Red

Bright Red

.~
c

ec
.,
>
;::;
..!!!
.,

0.5

1-----------H~-f~~--~--f_----~~~r_----_r--------~r_--------__1

II:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-166

445

= 2SoC

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL723R
723P
723E

SYMBOL

Luminous Intensity

Iv

MIN.

TYP.

0.1
0.3
0,5

MAX.

TEST
CONDITION

UNIT.

'0.3
0.7
1.7

mcd

723P
723E
723R
723P
723E

88°

deg,

Note 2
(Fig. 6)

655
697
635

nm

,Measurement
@Peak (Fig. 1)

nm

723R

I

Viewing Angle

2ex.

Peak Emission
Wavelength

>"PEAK

Spectra' Line
Half Width

A>,,'

723R
723P
723E

24
90
40

Forward Voltage

VF

723R
723P
723E

2.1
2.0 .

Reverse Cu rrent

IR

723R
723P
723E

Capacitance

C

723R
723P
723E

=

IF 10 mA
Note 1

1.7

.

2.0
2.8
2.8

V

100

J.1.A

30

IF "'20mA

VR =5V
VF =0

PF

55

f'" 1 MHl

20

NOTES' 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclairage) eye-response curve.
2. ex. IS the off-axis angle at which th,e luminous intensity is half the axial luminous intensity.
50
f-- -

E

1

I

~

5

20

5

10

;:

u.

;;:

'L7'23P

I

30

u
'E
.,

IIA

723 ,/

II

5"

-

g

E
.3

">
~

7 3P

~

o
24

-- --

o

20

446

I

./

V 4-

l-

S

E ~.,

60

> .,

~

80

I.

"" 20
~]

£,-

" E

~~

r-- ~
~
100

AmbIent Temperature TA (CC)
FIG. 3 FORWARD CURRENT
DERATING CURVE

723E

10

oP

-

23P

4

o

10

20

30

40

Forward Current I, ImA)
FIG. 4 RELATIVE LUMINOUS •
,
INTENSITY VS FORWARD
FIG 11
CURRENT

~ ::::,..

40·
10

05

09
08

0.2

70·
BO·

0.7

~
2·167

J

o~

. . . . i'.

40

I

,,030

-" ......

723~

40

-..!.123R

723

"

~
"'"

30

0
u. 10

2B
3l
Forward Voltage II, IV)
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

~
in

7~3E i'.
r'-- i'.

u
'E., 20

I
/ III
1/ il
'/ il
2.0

~

"
E..:
-;;; E

7 3R

E

/

16

~

50

E
:; 40

II/

0
12

50

60

723E/Y

W-++=t:::~-l---¥l=+=H--l-I90·
0.1
-30

-20

-10

10

20

30

40

Amb,ent Temperature TA 1°C)
FIG. 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

05
FIG 6

0.3

0.1

02

0.4

06

SPATIAL DISTRIBUTION

50

ELECTRICAl/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

Iv

723G
723Y

0.7
0.7

Viewing Angle

2(JY:,

Peak Emission
Wavelength

PARAMETER

TYP.

MAX.

TEST
CONDITION

UNIT.

25
2.5

mcd

IF = 10 mA
Note 1

723G
723Y

88°

deg.

Note 2
(Fig.111

APEAK

723G
723Y

565
585

nm

Spectral Line
Half Width

611.

723G
723Y

30
35

nm

Forward Voltage

VF

723G
723Y

2.1

Reverse Current

IR

723G
723Y

Capacitance

C

723G
723Y

Luminous Intensity

Measurement
Peak (Fig. 11

@

2.8

V

100

IJ.A

VR. = 5V

PF

VF =0
f= 1 MHz

35
15

IF =20mA

NOTES' 1. Luminous Intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclairage) eye·response curve.
2. (Jy:' IS the off·axis angle at which the luminOUS intenSity is half the aXial luminous intenSity
50

60

~ 40

/1/
l/j
rI 723Y

nJG

E
~,

E
e:;

u

'E

~

(;
LL

30

E
~

e

:;

oS

'0

VI

30

13G
7!3Y

ro

20

a

10

LL

1.6

20

2.4

28

l ' 1"-

r'" f::::,..,

Forward Voltage V, IV)
FIG 7 FORWARD CURRENT VS
FDRWARD VOLTAGE

20

"
">

20

a;
a:

10

iii

1"- J'.

32

30

...J

V

12

"'"ac:

72~G ,~
if 7',.
-.L

E

i'- J'"
,.......

~

J

40

l!l

U

J

o

40

E

/)

10

50



..... i"-- r--.. r-....

757P

5 10

u.

1//
/V

o

"'"

E

-,1/

10

50

!: 40
~

20

40

60

a:'"

Q;

r- .....

1.21620242.832

~ i'..

80

11

40

II

20
10

o V'

4

o

100

It- "

'"

"
!'l
E

-i::r-757E

-

57P

I
20

10

30

40

10'

20'
30'

:-- t--

40'

'"o

10

::J

" 05
E

50'

::J
..J

">
~

a:

50

Forward Current I, ImA)
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
O'

i!" 2

7~7E

/

30

Amb,ent Temperature TA 1°C)
FIG. 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage V, IV)
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

~

i!"

E

"7J7P

,

I
II,

~

50

60

I~

60'

02

70'
80'

07

t-+--t-H---t-'t-+--F+-+-+-t--t-1 90'
0.1
-30

-20

-10

10

20

30

40

Ambient Temperature TA 1°C)
FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

05

FIG. 6

03

01

02

04

06

SPATIAL DISTRIBUTION

2·172
451

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL

PART NO.
LTL-

MIN.

Iv

757G
757Y

0.6
0.7

Viewing Angle

26y"

Peak Emission
Wavelength

PARAMETER

TYP.

MAX.

=

25°C
TEST
CONDITION

UNIT

1.7
2.5

mcd

IF" 10mA
Note 1

757G
757Y

130

deg.

Note 2 (Fig. 11)

APEAK

757G
757Y

565
585

nm

Measu rement
@lPeak (Fig. 1)

Spectral Line
Half Width

L:>A

757G
757Y

30
35

nm

Forward Voltage

VF

757G
757Y

2.1

Reverse Current

IR

757G
757Y

Capacitance

C

757G
757Y

Luminous Intensity

50

7576

40

~.

1: 30

,

~

5

'C

~

IV
~~57:- I-

/I

If

20

<;;

0
u..

100

IJA

VR "'5V

PF

VF =0
f'" 1 MHz

35
15

1/

10

/,

50

60

/,/1

5
u

V

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclairage) eye-response curve.
2. 6y" is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

NOTES.

~

IF =20mA

2.8

~
in

50

~

~

5

e
"c

757G
7!7Y

........

.......

0 10

u..

E
::J

r-....

..J

121.620242832
Forward Voltage VF (V)
FIG 7 FORWARD CURRENT VS.
FORWARD VOLTAGE

"

40

60

a:'"
a;

t"-'
20

I!, 757Y

I

20

">

........
r--. .......
........

/'

o

7576 ~.
30

::J
0

30

u
'E 20
;:
'"

t-

.E

40

1:

40

c

~

5

~~

80

10

o 1/

IJ

o

100

V

10

20

30

40

50

Forward Current IFI(mA)
FIG. 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

Ambient Temperature TA (OC)
FIG B FORWARD CURRENT
DERATING CURVE

I

f:c

757Y

.E

757G

e

40"

"o

1.0

::J

c

E

05

0.9

50'

0.8

60'

07

70'
80'

::J

..J

">
~a:

02

H--+-~-t==t-+--R-jo<-j-t-t-J

o1
2-173

452

50
10
20
30
40
-10
Ambient Temperature TA (OC)
FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

-30

-20

60

70

05

03

0.1

02

04

06

FIG 11 SPATIAL DISTRIBUTION

90'

ILITEr.] ~ II

2x5 RECTANGULAR BAR LED
.

LAMPS

LTl~767P
LTL~767E

BRIGHT RED
LTL-767G GREEN
HIGH EFFICIENCY RED LTL-767Y YELLOW

FEATURES
• LOW POWER CONSUMPTION
• MOST SUITABLE
FOR
USE LIKE LEVEL
INDICATOR
• EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
• LONG LIFE-SOLID STATE RELIABILITY .
• I.C. COMPATIBLE.

rI
f(
i

--

DESCRIPTION

r

~~~.-----.:;:.--

The Bright Red source color deVices are made with
Gallium Phosptilde on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red Source color devices are
made with Gallium Arsenide Phosphide on Gallium
Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow
Light Emitting Diode.

PACKAGE DIMENSIONS
3.S:!:O.2
(.13S:!:.OOB)

2.0:!:O.2

(.oe:!:.oos)

DEVICES
~
PART
NO.
LTL-

LENS
COLOR

DIFFUSION

767P

Red

Diffused

Bright Red

767E

Red

Diffused

Hi. Eff. Red

767G

Green

Diffused

Green

767Y

Yellow

Diffused

Yellow

.

.

~~:~rIN

.~

SOURCE
COLOR

---.l
J~r

3.9:0.2

~C"54:'OO.)
°OoSTYP
.02)

!

1.0 MIN

'tI_-+__'-:';C':.r

04 )

2.54
ol)

NOM

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing IS measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-174
453

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
BRIGHT
RED

GREEN

YELLOW

HI.EFF.REO

UNIT

Power Dissipation

40

100

60

100

mW

Peak Forward Current
(1/10 D uw Cycle, 0.1 ms Pulse Width)

60

120

80

120

mA

Continuous Forward Current

15

30

20

3Q

mA

Detating Linear From 25°C

0.2

0.4 .

0.25

0,4

mAtC

5

5

-5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063 in! From Body)

260°C for 5 Seconds

Yellow

Hi. Eff. Red

Bright Red

Green

...?:c:
~

c:

0.5 f--------+-+--+---j1t--+-----1;'\------+-------'''rl------\

~
.;:;

.,

.!!!

a:
500

550

600

650

700

Wavelength.,., (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-175
454

750

800

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL-

SYMBOL

MIN.

TYP.

MAX.

TEST
CONDITION

UNIT

04
17

mcd

IF = 10 mA
Note 1

767P
767E

140

deg.

Note 2 (Fig. 6)

APEAK

767P
767E

697
635

nm

Spectral Line
Half Width

D."A

767P
767E

90
40

nm

Forward Voltage

VF

767P
767E

2.1
2.0

Reverse Current

IR

767P
767E

C

767P
767E

Iv

767P
767E

Viewing Angle

2/JY,

Peak Emission
Wavelength

Lum inous Intensity

Capacitance

0.1
0.6

Measu rement
Peak (Fig. 1)

@

=20 mA

2.8

V

IF

100

p.A

VR

PF

VF=O
f = 1 MHz

55
20

= 5V

NOTES: 1. Luminous intensity is' measured with a light sensor and filter combination that approximates the CI E
(Commission I nternationale De L'Eclairage) eye-response curve.
2. /Jy, is the off-axis angle at which the luminous intensity is half the axial luminous intensitv
50

767E

I.

c: 30

'E

~

o

L1.

«
E
~

767P

20

ro 20

;;:
(;
L1.

10

20

24

28

32

20

Voltage VF IV)
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

r-:f::

c:

"

2.0

--'

........

-"

40

I'

60

/

'">

~

~~

80

0;
II:

~

10

o~
o

100

"

10

-- 767

20

30

40

0'

10'

20'

30'

t--

c:

-- ~

60'

E 0.5

"

--'

70'

~

~

II:

50

Forward Current IF (mAl
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

Ambient Temperature TA 1°C)
FIG. 3 FORWARD CURRENT
DERATING CURVE

~--~---'---.--.--.---r---,----~40°

= 7167E

"'"o

30

767

/

E

....... .......

./V
16

Forward

.!:

"-...

1~/r

11

40

"'"c:
0

767E

'0

'j
12

~
in

.£'"

U

I

o

2l

~c:

40

~
:; 30

II

10

50

50

E

III
,I

~

:;
u

60

II
III
[I

02

80'

01
-30

-20

-10

10

20

30

40

Ambient Temperature TA 1°C)
FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

09

07

05

03

0.1

02

04

06

FIG 6 SPATIAL DISTRIBUTION

08

10

2-176

455

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
pART NO.
LTL-

MIN.

Iv

767G
767Y

0.4

Viewing Angle

2ey.

Peak Emission
Wavelength

P.ARAMETER

SYII.CBOL

TYP.

MAX.

=

25°C
TEST
CONDITION

UNIT

1.0
1.7

mcd

IF'" 10mA
Note 1

767G
767Y

140

deg.

Note 2 (Fig. 11)

APEAK

767G
767Y

565
585

nm

Measu rement
@ Peak (Fig. 1)

Spectral Li ne
Half Width

t:.A

767G
767Y

30
35

nm

Forward Voltage

VF

767G
767Y

2,1

Reverse Cu rrent

IR

767G
767Y

Capacitance

C

767G
767Y

Luminous Intensity

NOTES

40

IF = 20 mA

100

MA

VR =5V

PF

VF =0
f'" 1 MHz

o

40

E

c:

(;

u.

In

::J

767G

0

16

20

2.4

28

767G j,.

3.0

I.f 767Y

1""'-

10

...J

">
"0::'"
a;

I'- I'
J".., f'.

"1' ~

40

20

Forward Voltage VF (V)
FIG. 7 FORWARD CURRENT VS.
FORWARD VOLTAGE

E
::J

r--. f"...

7J1Y

32

L

c:

!'l'

12

40

.'!l

'"~

VI

j

50

u
'E 20

J

10

50

i':
u;

E
l'
:; 30

II

20

i;

~

E
u.

Ib

:;

0

«

II 767Y'- t-

l'

u.

IV

IIJi

E 30
'0

V

35
15

60

/,1

767G

E
u.

u

2.8

1. Luminous intensity IS measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclairage) eye-response curve.
2. oy. IS the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

0.5

60

80

100

Ambient Temperature TA (OC)I

FIG. 8 FORWARD CURRENT
DERATING CURVE

I

20
10

o

,/
o

1/

IL

10

20

30

40

50

Forward Current IFI(mA)
FIG. 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

0"

50"

01L-~

2-177

-30

__- L__

-20

-10

L-~

__- L__

10

20

~~

30

__- L__~~

40

Ambient Temperature TA (0 C)

456

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70
04

0.6

FIG 11 SPATIAL DISTRIBUTION

08

10

ILlTE['] ~ II

ARROWHEAD POINTERS
LED LAMPS
LTL-8212A BRIGHT RED
LTL-8222A HIGH EFFICIENCY RED
LTL-8232A GREEN

LTL-8252A YELLOW
LTL-8292A ORANGE

FEATURES
- HIGH VISIBI LlTY POINT SOURCE.
-MOST SUITABLE FOR DIRECTION INDICATOR
OF TAPE RECODER.
-RELIABLE AND RUGGED.
-I.C. COMPATIBLE/lOW CURRENT REQUIREMENTS.
- lOW POWER CONSUMPTION.

.J

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide on
Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow light
Emitting Diode.

'----

PACKAGE DIMENSION

DEVIOES
PART
NO.
lTL-

COLOR

DIFFUSION

8212A

Red

Diffused

Bright Red

8222A

Red

Diffused

Hi. Eft. Red

8232A

Green

Diffused

Green

8252A

Yellow

Diffused

Yellow

8292A

Orange

Diffused

Orange

LENS

SOURCE
COLOR

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice. 2.' 78

457

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

60

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating Linear From 25°C

0.2

0.4

0.25

0.4

mAfC

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_550 C to +1000 C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

2600 C for 5 Seconds

Hi. Eff. Red
Bright Red
Green Yellow
Orange
1.0r---------.-__r-.-r-.-----__~._------~~~------_.--------_,

>

+'
.;;;

<:

2l

0.5

1---------+--I--+--~.--+----IA_----_I_-----''rt----_i

<:

~

'ij

'"

iii

II:

500

550

600

650

700

Wavelength 71. (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-179
458

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

8212A
8222A

0.2
0.4

0.6
1.1

mcd

IF = 10 mA
Note 1

Viewing Angle

28Y:.

8212A
8222A

100

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

~PEAK

8212A
8222A

697
635

nm

Spectra I li ne
Half Width

A~

8212A
8222A

90
40

nm

Forward Voltage

VF

8212A
8222A

2.1
2.0

Reverse Current

IR

8212A
8222A

Capacitance

C

8212A
8222A

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

2.8

V

100

p.A

VR = 5V

PF

VF=O
f = 1MHZ

55
20

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye·response curve.
2. 8Y:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50
~ 40

~

~

, /8212A

12

16

20

8222A

u

~

"

u..

24

28

B212A

I

10

20

Forward Voltage VF IVI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

i'..

............

l""-

/ B222A

~
a

30

E
.3

20

40

60

II

'">
g

I'-.
I"""--

32

1

40

~

........

"E 20

/
'/
V/

o

40

~

Iif

10

:g'"

E
~
:; 30

II.

u 20
"E

in
~

.;

8222A /

30

50

C

50

~

r/

E

~:;

60

Ii
III

0:;

r-.. ~ .....
BO

c:

~

10

o IV'
o

100

2

in
~

.£'"

8212~
--:::: r--_

-

1

8222A

8212A

I

10

Ambient TemperatureTA (OCl

20

30

40

FIG 3 FORWARD CURRENT
DERATING CURVE

FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'
30'

t:::: ~ :::40'

~

~

a

~

10
05

09

~

50'

-.J

'"
~
c:

50

Forward Current IF (mA)

O'

C

~~

f?'

08

>

60'

02

70'

07

o1

BO'

H-+-H-+=J-+---F-H-++-H 90'

-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUs' INTENSITY VS AMBIENT
TEMPERATURE

50

60

70
05

03

01

02

04

06

2-180

FIG 6 SPATIAL DISTRIBUTION

459

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

= 25°C

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

8232A
8252A

0.4
0.4

1.1
1.1

mcd

IF = 10 mA
Note 1

Viewing Angle

28%

8232A
8252A

100

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

hPEAK

8232A
8252A

565
585

nm

Spectral Line
Half Width

Ah

8232A
8252A

35

Forward Voltage

VF

8232A
8252A

Reverse Current

IR

8232A
8252A

Capacitance

C

8232A
8252A

PARAMETER

Luminous Int{lnsitY

MAX.

TEST
CONDITION

UNIT

30

Measurement
Peak (Fig. 1)

@

nm

2.1

IF =20mA

2.8

V

100

p.A

VR =5V

PF

VF =0
f= 1MHZ

35
15

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2.6% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

fA

I

I

III

'I8252A - -

I

::-in

.§ 40

E

;:;:

I

8232A/l

50

50

c

~

~

~

/J

S

'"
~

0

8232A

30

J

~
5

II
j

u.

""

I

r-.... "-

f/

o
12

16

20

24

28

32

20

40

60

I

20

:;;

a;

~~
80

a::

V

10

.....

oV
o

100

1/
10

20

30

40

Forward Current IF (mAl

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSiTY VS FORWARD
CURRENT

o·
::-

8252A

~

>

Ambient Temperature TA (Oel

Forward Voltage
IV)
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

J/

II'

E

.::

........ ........ .......

8252A

10

82~2A

30

c

u

"E 20

40

10'

20'
30'

2

I

in

§

8252A

oS

8232A

40'

'"o

10

E 05

09

--'

08

~

c

50'

~
~

60'

>

~

02

-30

460

80'

1-I-+-i'-!--'F1-f-R'+-H--+-l 90'

o1
2-181

70'

07

'"
-20

-10

10

20

30

40

Ambient TempelatureTA (OC)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

06

FIG 11 SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

25°C

=

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

8292A

0.5

1.1

mcd

IF = 10 mA
Note 1

Viewing Angle

21lY:.

8292A

100

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

~PEAK

630

nm

Spectral Line
Half Width

D.~

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

2.8

V

100

p.A

Measurement
@ Peak (Fig. 1)

IF = 20 mA
VR =5V
VF = 0

PF

20

f = lMHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye·response curve.
2. 1lY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

<
.s

40

c

30

I



u 20
'E
;:
'"

I

20

~

10

;:

I

5 10

u.

11

II

1/

r-... i'..

u

........

J

""""- ~

/

o

1.6

12

/

2.0

24

28

32

20

Forward Voltage VF (V)

40

60

80

o/
o

100

V
10

FIG 12 FORWARD CURRENT VS.
FORWARD VOLTAGE

30

20

40

50

Forward Current IF (rnA)

Ambient Temperature TA rOC)

FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 13 FORWARD CURRENT
DERATING CURVE

OD

10 0

20 0

30'

l:~

c:

£'"
"'::>o

40'
10

c:

E
::>

05

...J

'">
~a:

02

09

50'

08

60'
70'

07

80'

H-+-H-'I'=t-+--FH-++-t-l 90'

o1
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 15 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

06

FIG 16 SPATIAL DISTRIBUTION

2-182
461

ILlTE(') ~ II

(3mm) CYLINDRICAL LED LAMPS
LTL- 2201AL
'L"rL-2211AL
L TL- 2221AL
LTL- 2231AL

LTL- 2251AL YELLOW
LTL- 2271AL AMBER
l TL- 2291AL ORANGE

RED
BRIGHT RED
HIGH EFFICIENCY RED
GREEN

FEATURES
•
•
•
•

CYLINDRICAL SHAPE .
I.C. COMPATIBLE.
LOW POWER CONSUMPTION.
LONG LIFE-SOLID STATE RELIABILITY.

. ,.

• LOW COST.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

PACKAGE DIMENSIONS
LTL-22x lALSeries
R 0.15
C. 0 06) Typ

I

B.4±O.5
(.33±.02J

DEVICES
PART
NO.

LENS

SOURCE
COLOR

LTL-

COLOR

DIFFUSION

2201AL
2211AL

Red
Red

Diffused
Diffused

Red
Bright Red

2221AL

Red

Diffused

Hi. Eff. Red

2231AL

Green

Diffused

Green

2251AL

Yellow

Diffused

Yellow

2271AL

Amber

Diffused

Amber

2291AL

Orange

Diffused

Orange

eJ
' ...

-'~

3.S
(015)

"

2.54 NOM

(.,)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0,25mm (.010") unless otherwise
noted.

3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2·183
462

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER
Power Dissipation
Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

RED

BRIGHT
RED

GREEN

YELLOW
AMBER

HI.EFF.RED
ORANGE

UNIT

80

40

100

60

100

mW

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25°C

0.5

0.2

0.4

0.25

0.4

mA/oC

5

5

5

5

5

V

Reverse Voltage
Operating Temperature Range

- 55"C to + 100°C

Storage Temperature Range

- 55°C to + 100°C

'Lead Solering Temperature
[1.6mm (0 063inl From Body)

260° C for 5 Seconds

Yellow
Green

Hi. Eff. Red

Red

Bright Red

1.0

r---------r-,-~~~,-----~~07~----~~~------_.--------_,

0.5

r----------ff~_+~~--fr--f_----~~~r_----_r--------~+_--------~

>-

.t::
on

<:

e<:
Q)

>

';:'

'"

iii

a:

500

550

600

650

700

750

800

Wavelength A (nml
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-184
463

= 25°C

ELECTRICAl/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL

PART NO.

Iv

2201AL
2211AL

Viewing Angle

20%

2201AL
2211AL

Peak Emission
Wavelength

;\.PEAK

2201AL
2211AL

697

Spectral Line
Half Width

A;\.

2201AL
2211AL

90

Forward Vo1tage

VF

2201AL
2211AL

2.1

Reverse Current

fR

2201AL
2211AL

Capacitance

C

2201AL
2211AL

PARAMETER
luminous Intensity

LTL-

MIN.

TYP.

0.1
0.4

0.2

MAX.

TEST
CONOITION

UNIT

1.1
180
655

24

mcd

IF'" 10mA
Note 1

deg.

Note 2 (Fig. 6)

nm

Measurement
@ Peak. (Fig. 1)

hm

.---

1.7

2.0
2.8

V

100

IJ.A

VR =5V

PF

VF =0
f=lMHZ

30

55

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. 0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
0

60

I

I

f-- I- 2201A1l/

;0:

II

.s
~

0

2211Al- t - t -

I
II

0

40
2201Al

~

2201Al

30

~

"~

20

0
u.. 10

24

28

:. 'llAl

32

--'

2

in
c

--

30

40

L

k'"

20

1"

r--- r--60

10

~~

80

100

AmbIent Temperature TA (Oe)

FIG 3 FORWARD CURRENT
DERATING CURVE

o~

~

o

~

10

",
2211Al

20

30

40

50

Forward Current IF (rnA)
FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

O'

10'

20'

30'

2201Al

2211Al

.E

....... b,.

I
20

Forward Voltage VF IVI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

~

-.l

J
20

['..

f',

f-

V
16

V

40

u

j

0
12

~

I

50

E

I
II

J

o

50

r-- r====== :::::::,....

50'

"'"o
c

E

"
">
~II:

05

60'

..J

70'

02
80'

o1

H--t-H-+'I;-t-t-t-''!-+-f-t-t--t-H-t--t-f-H 90'

-30

2-185

464

-20

-10

10

20

AmbIent Temperature

30

40

50

60

70

(Oe)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

FIG 6 SPATIAL DISTRIBUTION

ELECTRICAl/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

2221AL

0.5

1.7

mcd

IF = 10 mA
Note 1

Viewing Angle

29Y:.

2221AL

180

deg.

Note 2 (Fig. 11 )

Peak Emission
Wavelength

APEAK

2221AL

635

nm

nm

PARAi\llETER

Luminous Intensity

Spectra I Line
Half Width

OA

2221AL

40

Forward Voltage

VF

2221 AL

2.0

Reverse Current

IR

2221 AL

Capacitance

C

2221AL

TEST
CONDITION

UNIT

MAX.

Measurement
@ Peak (Fig. 1)

2.8

V

100

p.A

VR

PF

VF=O
f'" lMHZ

20

IF = 20 mA

= 5V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclai'rage) eye-response curve.
2. 9Y:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

40

E
~

s
(;

u.

/

50

:; 40

I
I

l'
u

~

50

E

;: 30

"ro

60

I
II

L

c

~ 30

:J

"

U

20

~ 20
S

I

I

10

~

II

r-....

10

/

o

12

20

16

24

2B

32

20

Forward Voltage VF (V)

40

/
.......

"

60

I

L

i'--,
BO

o/
o

100

10

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

-

c
w

.f

w

30

50

40

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 8 FORWARD CURRENT
DERATING CURVE

O'

.::-~

20

Forward Current IF (rnA)

Ambient Temperature TA (OC)

10'

20'

30'

50'

i--

:J

o
c

E
.3

60'

0.5

">

70'

a; 02
a::

BO'

iii

H--+-+-H++-H=f--+-F+-H-l"'-t--HH--+-l 90'

o1
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09

0.7

05

0.3

FIG 11 SPATIAL DISTRIBUTION

2-186

465

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SVMBOL

TEST
CONDITION

MIN.

TVP.

0,6
0.7

1.7
2.5

moo

IF'" 10mA
Note 1
Note 2 (Fig. 16)

I 2231AL

Iv

Luminous Intensity

PART NO.
LTL2251AL

MAX.

UNIT

Viewing Angle

2eY.

2231AL
2251AL

180

deg.

Peak Emission
Wavelength

lI.PEAK

2231AL
2251AL

565
585

nm

Spectral Line
Half Width

All.

2231AL
2251AL

30
35

nm

Forward Voltage

VF

2231AL
2251AL

2.1

Reverse Current

IA

2231AL
2251AL

Capacitance

C

223JAL
2251AL

Measurement
Peak (Fig. 1)

@

2.8

V

100

/I.A

VA "'5V

PF

VF"'O
f=lMHZ

35
15

IF =20mA

--

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'EcJairage) eye-response curve.
2. BY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

.! III

I

2231A~1 )

~

s

u

"E

/1

30

E

2251Al

~

e-

~

If

20

S

~

§
~

~

g
E

2231Al

30

r"- ['-.,
I

I

2251Al

l5 10

u..

I

~

..J

12

16

20

24

28

20

40

60

2231Al
30

li.

20

g
W

80

a:

V

10

o~

"

o

100

Ambient TemperatureTA (DC)

2

10

20

30

40

50

Forward Current IF (rnA)

FIG 13 FORWARD CURRENT
DERATING CURVE

FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

30'

I

~

2251Al
50'

1

~

f--2231Al

~

o

~

IL

I

§

.s

251Al- r- r-

It'

o·
~

lLf

>

I' ~

32

Forward Voltage VF IVI
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

ru

I'I' I......
l"- r"-

I'l'

o

I

40

.s

40

~

VI

10

50

u
"E 20

J

'"~

~

~

50
~

60'

05

~

..J

ru

70'

>

~
a:

02

BO'

H--t-t-t---t-"t-t-t-t-'t-t-H-t--t-H-t-'Hr-H 90'

•0 1
-30

2-187

466

-20

-10

10

20

30

40

50

60

70

0.9

0.7

05

03

01

0.2

0.4

06

Ambient Tempel ature TA (DC)

FIG 15 LUMINOUS JNTENSITY VS AMBIENT
TEMPERATURE

FIG 16 SPATIAL DISTRIBUTION

O.B

1.0

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

SYMBOL

PART NO.
LTL-

MAX.

TYP.

UNIT

0,7
0,5

2.5
1.7

mcd

IF = 10 mA
Note 1
Note 2 (Fig. 21)

Iv

2271AL
2291AL

Viewiflg Angle

20%

2271AL
2291AL

180

deg.

Peak Emission
Wavelength

APEAK

2271AL
2291AL

600
630

nm

Spectra I Li ne
Half Width

"'A

2271AL
2291AL

35
40

nm

Forward Voltage

VF

2271AL
2291AL

2,1
2,0

Reverse Current

IR

2271AL
2291AL

Capacitance

C

2271AL
2291AL

Luminous Intensity

TEST
CONDITION

MIN.

Measurement
Peak (Fig, 1 )

@

2.8

V

IF "'20 mA

100

p.A

VR = 5V

PF

VF"'O
f = 1 MHZ

15
20

NOTES: 1, Luminous Intensity IS measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve.
2, 0% is the off-axis angle at which the luminous Intensity is half the axial luminous intensity,
50

II

~ 40

..s

2291All

II

~

c

e

30

a

..s

2271Al f-

~

e

5

10

~
in

50

§

iii 20
;:

2~71 All

5
"- 10

20

16
20
24
2B
32
Forward Voltage VF (V)
FIG 17 FORWARO CURRENT VS
FORWARD VOLTAGE

,

12

2291A,l/
30

/

~

r--- f'..,

Ih

o

'"a

:J

2291Al

30

'C

J

.L

40

.E

40

u

I J
!IV

50

I

C

II

u 20
"E
"-

V

~

I

I

5

~

60

A

II

r-..

E
.3

40

60

BO

20

iii
a;
0::

V

10

oV
o

~
100

I
2271 Al

A

">

I......
,...... r--..

" '"~

V/

I

V
10

20

30

40

50

Forward Current IF (rnA)

Ambient Temperature TA (OC)

FIG 19 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 18 FORWARD CURRENT
DERATING CURVE

0'

10'

20'

30'

50'

60'

70'
BO'

01L--L__- L__L-~__- L__L-~__- L__~~
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 20 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

H---t-H+'l-H-t='!-t-:Ft-t-Mft'-t-MI1
09

0,7

0,5

03

90'

0,1

FIG 21 SPATIAL DISTRIBUTION

2-188
467

ILITEr.) ~ II

(Smm) CYLINDRICAL LED LAMPS
LTL-2203A REO
LTL-2233A GREEN
LTL-2213A BRIGHT REO,
LTL·2253A YELLOW
LTL-2223A HIGH EFFICIENCY REO LTL·2293A ORANGE

FEATURES
•
•
•
•
•

CYLINDRICAL SHAPE .
I.C. COMPATIBLE.
LOW POWER CONSUMPTION.
LONG LlFE·SOLID STATE RELIABILITY.
LOW COST.

DESCRIPTION
The Red source color deVices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency and Orange source color devices are
made with Gallium Arsenide Phdsphlde on Gallium
Phosphide Orange Light Emitting Diode.
The Green source color deVices are made With Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Pljosphide Yellow Light
Emitting Diode.

f.

{Ii

PACKAGE DIMENSIONS
5.0
(0196)

DEVICES
PART
NO.
LTL-

COLOR

DIFFUSION

2203A

Red

Diffusod

RAt!

2213A

Red

Diffused

Bright Red

2223A

Red

Diffused

Hi.Eff. R~d

2233A

Green

Diffused

Green

2253A

Yellow

Diffused

Yellow,

2293A

Orange

Diffused

Orange

LENS

SOURCE
COLOR

-,

2-189

468

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.2Smm (.010") unless otherWise
noted,
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spaCing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA

= 25~C

RED

BRIGHT
RED

GREEN

YELLOW

HI.EFF.RED
ORANGE

UNIT

80

40

100

60

100

mW

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25° C

0.5

0.2

0.4

0.25

0.4

mArC

5

5

5

5

5

V

PARAMETER

Power Dissipation
Peak Forward Current
(1/10 Duty Cycle, O.lms Pulse Width)

Reverse Voltage
Operating Temperature Range

- 55°C to + 100°C

Storage Temperature Range

- 55°C to

Lead Solering Temperature

+ 100°C

2600 C for 5 Seconds

[1.6mm (0.063in) From Body]

Green Yellow

HI. Eft. Red
Orange Red

Bright Red

1.0 .---------,--,__~~-r------~~~._----~~~------~--------~

....;;;

>-

c:

...'c:"

0.5

'">
.;;
.!!!

'"
a:

500

550

600

650

700

750

800

Wavelength A. (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-19P

469

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

=

25°C

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

2203A
2213A
2223A

O.OB
0.1
0.4

0.2
0.3
1.1

mcd

IF =10mA
Note 1
Note 2 (Fig. 6)

Luminous IntensitY

MAX.

Viewing Angle

20%

2203A
' 2213A
2223A

200

deg.

. Peak Emission
Wavelength

APEAK

2203A
2213A
2223A

655
697
635

nm

nm

Spectral Line
Half Width

C>A

2203A
2213A
2223A

24
90
40

Forward Voltage

VF

2203A
2213A
2223A

1.7
2.1
2.0

Reverse Current

IR

2203A
2213A
2223A

Capacita~ce

C

2203A
2213A
2223A

,

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

2.0
2.8
2.B

V

100

/LA

VR =5V

PF

VF = 0
f = 1MHZ

30
55
20

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor ana filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. 0% is the off-axis angle at which the luminous intensitY is half the axial luminous intensitv.
50

/z223A



£

""'a
~

E

~

80

100

FIG 3 FORWARD CURRENT
OERATING CURVE

--

[,..~

o IJI'

2213A

?

o

10

20

30

40

50

Forward Current IF (mAl
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

O'

2203A

;:-

60

~

Ambient Temperature TA (OC)

Forward Voltage VF(VI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

If..

~~
~

/1

o

2203A

" "'-" ,

2223A

u

/

r---

~

30

'"ro

V
V

2223A

E
:; 40

2203A

20

/

50



>

iil

70'

02

OJ

a:

80'
01
-30

2-191

470

-20

-10

10

20

30

40

Ambient Temperature TA (0 CI
FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

H--f-+-t--'k-t--H-E3=-"'-:S+-t--hI''-t--t--1-+-t 90'

~

u
FIG 6

SPATIAL DISTRIBUTION

~

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

2233A
2253A

0.4
0.4

1.1

Angl~

20Y:,

2233A
2253A

Peak Emis~ion
Wavelength

APEAK

PARAMETER
Luminous Intensity

Viewing

MAX.

25°C

=

TEST
CONDITION

UNIT

1.1

mcd

IF = 10 mA
Note 1

200

deg.

Note 2 (Fig. 11)

2233A
2253A

565
585

nm

nm

Spectral Li ne
Half Width

b.A

2233A
2253A

30
35

Forward Voltage

VF

2233A
2253A

2.1

Reverse Current

IR

2233A
2253A

Capacitance

C

2233A
2253A

Measurement
@ Peak (Fig. 1)

IF = 20 mA

2.8

V

100

JJ,A

VR =5V

PF

VF = 0
f=1MHZ

35
15

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. oY:, is the off-axis angle at which the luminous intensity IS half the axial luminous intensity.
50

«

40

·1233

E

c

30

II

~

:;
U

'2

"

III I

«

~4253l- V

E

20

50

i':

50

in

iii
~

C
ID

T

'2 20

10

~

"

u..

j

V

o

12

16

20

""i'....r--.. I""-r-....

u

III
24

28

il

10

32

30

~

20

20

40

I~

/

ID

>

.........

3A

22J3A ~'2253A

~

g

2233A

30

:;

40

E

40

.!!,

II

~

u..

60

fA

r-.....

60

"'"" ~
60

g

,

Q;

a:

100

/

10

1/

oV
o

Ambient TemperatureTA (OC)

Forward Voltage VF (V)
FIG 7 FORWARO CURRENT VS
FORWARD VOLTAGE

FIG 8 FORWARD CURRENT
DERATING CURVE

10

20

30

40

50

Forward Current IF (rnA)

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·

10'

20'

30'

22i3A
50'

1 -2233A

60'

5

70'

ao'

2

1+++-H..++-F1::::b,.J..=t::F-H-+--}f-H-+-H

o1
-30

-20

-10

10

20

Ambient Tempelature

30

TA

40

(Oe)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

90'

70

08

0.9
FIG 11 SPATIAL DISTRIBUTION

7.0

2-192
471

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

2293A

0.4

1.1

mcd

IF=10mA
Note 1

Viewing Angle

28%

2293A

200

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

APEAK

630

nm

nm

PAR~METER

Luminous Intensity

Spectral Line
Half Width

l>A

40

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1 )

@

2.8

V

100

/JA

VA =5V

PF

VF =0
f=1MHZ

20

IF =20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. 0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

40

5

i"

:;

/

E

~ 30

:J

u 20
'E

~

5 10

'E 20

~

.l:

IL

r-.... I'-.

U

I
I

u-

o

I

I
II

E 30

50

60

I
II

I

........
........

V

12

16

/

........

10

20

24

2.8

Forward Voltage V, (V)
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

32

20

40

60

80

/
r-....
100

Ambient Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

o 1/
o

10

20

30

50

40

Forward Current I, (rnA)
FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·

10'

20'

30'

50'

60'
70'

80'
0.1 L----'-_--'-_L---L_-'--_-'----'_-'-_-'---'
70
60
10
20
30
40
50
-30 -20 -10

2-193
472

Ambient Temperature TA (OC)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

I-+++-H.-f--l-+-=IB-'-=E=t--H-++--H-I--+-t 90'
0.9

0.1

1.0
FIG 16 SPATIAL DISTRIBUTION

ILITE[']~II

(Smm) CYLINDRICAL LED LAMPS
LTL·2214RT/2214WC BRIGHT RED
LTL·2234GT/2234WC GREEN
LTL·2254YT/2254WC YELLOW

LTL·2224RT HIGH EFFICIENCY RED
LTL.2294WC ORANGE

FEATURES
.WIDE VIEWING ANGLE
• LOW POWER CONSUMPTION
• LONG LlFE·SOLlD STATE RELIABILITY
• LOW COST.

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

PACKAGE DIMENSIONS

DEVICES
PART
NO.
LTL-

LENS
COLOR

DIFFUSION

l 5'7~O'2

SOURCE
COLOR

(.224!.OOB)

22.0 M1N

2214RT
2214WC

Red
Water Clear

Transparent
Non-Diffused

Bright Red

2234GT
2234WC

Green
Water Clear

Transparent
Non-Diffused

Green

2254YT
2254WC

Yellow
Water Clear

Transparent
Non-Diffused

Yellow

2224RT

Red

Transparent

HI. Eff. Red

2294WC

Water Clear

Non-Diffused

Orange

~

+

":"--'-'A-T-O-EN"'O-TE'f-S-CATHODE

(!O~)MIN

't'--j--'-r
2.54
(-1)

NOM

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-194

473

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
BRIGHT
RED

GREEN

YEELOW

HI. EFF. RED
ORANGE

UNIT

40

100

60

100

mW

60

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating Linear From 25°C

0.2

0.4

0.25

0.4

mAtC

5

5

5

5

V

PARAMETER

Power Dissipation
Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

Reverse Voltage
Operating Temperature Range

-55°C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature

260°C for 5 Seconds

[1.6mm (0.063in) From Body]

Green Yellow

Hi. Eft. Red
Orange

Bright Red

1.0,--------,~~~~_.----~~_r------~~~------_.--------,

>-

.~
on

C

~

0.5 ~--------_t--.r~r_--~_iL-----_7~--------4_------~~~--------~

.~

...
'"

Qj

a:

500

550

600

650

700

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-195

474

750

800

.

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.

SYMBOL

LTL-

TEST
CONDITION

MIN.

TYP.

UNIT

0.2
0.2

0.4
0.4

mcd

IF = 10 mA
Note 1
Note 2 (Fig. 6)

MAX.

Iv

2214RT
2214WC

Viewing Angle

21JY:.

2214RT
2214WC

150

deg.

Peak Emission
Wavelength

?"PEAK

2214RT
2214WC

697

nm

nm

Luminous Intensity

= 2SoC

Spectral Li ne
Half Width

A?,

2214RT
2214WC

90

Forward Voltage

VF

2214RT
2214WC

2.1

Reverse Current

IR

2214RT
2214WC

capacitance

C

2214RT
2214WC

Measurement
@ Peak (Fig. 1)

2.8

V

100

p,A

VR = 5V

PF

VF =0
f=lMHZ

55

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. IIY:. IS the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50
~

I
I

40

E

50
~

E

~

"
'E.,
~
.f
u

40

~

~

~

50

60

30

E

"~

I
I

20

10

~

"

u.

J

1.2

20

1.6

24

...... ~

10

32

28

20

40

~~

..... .....
60

./

V

r- .....

oV
o

100

80

o·
;;;
c:

-

2

~

oS

"'"o
c:

10

20

30

40

10'

20'

30'

- - r-- -

,50'

60'

E 0.5

"

...J

70'

§!

"
~

50

Forward Current IF(mAl
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

Ambient Temperature TA (OCI
FIG. 3 FORWARD CURRENT
DERATING CURVE.

Forward Voltage VF (VI
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

C

-

'E 20

V

o

30

u

80'

0.2

II:

01
-30

H-++-H+++-t"9--+-P't-H-+++-tH-H 90'

I
-20

-10

10

20

30

40

Ambient Temperature TA (0 CI
FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

18

14

1.0

06

02

04

08

1.2

FIG. 6 SPATIAL DISTRIBUTION

16

20

2-196
475

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

PART NO.

SYMBOL

LTL-

MIN.

TYP.

0.5
-0,5
' 0.6
0.5

1.7
1.7
1.7
1.7

MAX.

tv

2234GT
2234WC
2254YT
2254WC

Viewing Angle

28Y"

2234GT
2234WC
2254YT
2254WC

150

Peak Emission
Wavelength

",PEAK

2234GT
2234WC
2254YT
2254WC

565
566
585
585

nm

Spectral Line
Half Width

41\

2234GT
2234WC
2254YT
2254WC

30
30
35
35

nm

Forward Voltage

VF

2234GT
2234WC
2254YT
2254WC

Luminous Intensity

Reverse Current

IR

2234GT
2234WC
2254YT
2254WC

Capacitance

C

2234GT
2234WC'
2254YT
2254WC

TEST
CONOITION

UNIT
mcd

tF = 10 mA
Note 1

deg.

Note 2 (Fig. 11)

'. ,

2.1

Measurement
@ Peak (Fig. 1 )

2.8

V

IF =20mA

100

J.lA

VR =5V

PF

VF =0
fool MHZ

-.

-..
"

35
35
15
15

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination 'that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. /:lY" is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

.s

40

~

~

30

:;

u

'E

60

II,
11/

2234GT
2234WC/A,1
'j 2254YT
2254WC

I

20

'"~

II

«

.s

rr-

50

~

40
2234GT
2234WC

~
:; 30

12

16

2254YT
2254WC

~

is 10

u.

20

24

2B

20

32

Forward Voltage VF (VI
FIG 7 FORWARO CURRENT VS
FORWARD VOLTAGE

'"0

30

-

-

-

2234GT
2234WC

E
0

..J

.........

.......
r:- ........ ........
40

w
>

"

60

r-...:: ~

/

o/
o

100

- r--

/

10

......

BO

2254WC

I

20

g
0;

a:

pi

IV 2254YT

II'

c

I'l'

o

40

0

~

u
'E 20

j

c
w

.E

E

II

0 10

u.

50
~

10

30

20

40

50

Forward Current IF (rnA)

Ambient TemperatureTA (OC)

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

0'

10'

20'

30'

,-.c------.,.--.---.--.----,--,--,-----" 40'
2254YT
2254WC

50'

1 ~2234GT
r- 2234WC

60'

5

70'
2

o1

BO'

H-+-HH-I---l-H""f--I-----P"I-H-I--+-HH-t-I 90'_

-30

2-197

476

-20

-10

10

20

30

40

Ambient Ten p81ature TA (OC)

FIG'O LUMINOUS INT,ENSITY VS AMBIENT
TEMPERATUP:

50

60

70

I.B

1.4

1.0

06

02

04

O.B

1.2

FIG.', SPATIAL ulSTRIBUTION

16

20

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
TEST
CONDITION

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

2224RT
2294WC

05
05

1.7
1.7

mcd

IF = 10 rnA
Note 1

Viewing Angle

2BY:.

2224RT
2294WC

150

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

;\PEAK

2224RT
2294WC

635

PARAMETER

Luminous Intensity

MAX.

UNIT

Measurement

11m

@ Peak (Fig. 1)

.

Spectral Line
Half Width

A;\

2224RT
2 L1cJ4WC

40

Forward Voltage

VF

2224RT
2294WC

2.0

Reverse Current

IR

2224RT
2294WC

Capacitance

C

2224RT
2294WC

nm

2.8

V

100

IJ,A

VR =5V

PF

VF =0
f=lMHZ

20

IF = 20 rnA

NOTES: 1 Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. BY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

I

40

.E.
30

5

"

0;

50

.,c:

:; 40

'"

:l

E
~ 30

0

"

~ 20
;:

I

10

~

II

E
:l

~

......

10

12

16

20

24

2B

40

20

32

.,>
'"OJ'"

..J

/

o

"

60

a:

/

V

10

r--... .......
BO

/

20

/

o 1/
o

100

FIG 13 FORWARD CURRENT
DERATING CURVE

o·
i':

10

20

30

10'

20'

30'

-

0;

.,c:
£

50

40

Forward Current IF (rnA)
FIG 14 RELATIVE LUMINOUS
INTENSJT¥ VS FORWAflD
CURRENT

Ambient Temperature TA (0 C)

Forward Voltage VF (V)
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

/

30

c:

U

I

/

40

£

:l

u 20
"E

~

i':

E

I

~

u..

~

I

~

E

50

60

I

50'

'"o

:l

60'

c:

E

05

.3

.,

70'

>

'"
"*
a:

BO'

02

o1

-30

-20

-10·

10

20

30

40

Ambient Temperature TA (OC)

FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

lB

14

1.0

06

02

04

OB

12

FIG.16 SPATIAL DISTRIBUTION

16

20

2-198

477

ILITE(']~II

ROUND RECTANGULAR
LED LAMPS
L TL·6203LN RED
LTL·6213LN BRIGHT RED
L TL·6223LN HIGH EFFICIENCY RED

L TL·6233LN GREEN
L TL·6253LN YELLOW
L TL·6293LN ORANGE

FEATURES
- lOW POWER CONSUMPTION.
_MINIMUM lEAD lENGTH 1".
- ROUNDED END RECTANGULAR SHAPE.
-I.C. COMPATI BlE.
- lONG LlFE·SOLID STATE RELIABILITY.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide Red Light Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficlency Red Orange source color devices
are made with Gallium Arsenide Phosphide on Gallium
Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

I ! ~I
,~

PACKAGE DIMENSIONS

DEVICES
PART
NO.
lTl-

COLOR

DIFFUSION

SOURCE
COLOR

6203lN

Red

Diffused

Red

6213lN

Red

Diffused

Bright Red

6223lN

Red

Diffused

Hi. Eff. Red

6233LN

Green

Diffused

Green

6253LN

Yellow

Diffused

Yellow

6293LN

Orange

Diffused

Orange

lENS

(.1

2·199

478

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
RED

BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

80

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25°C

0.5

0.2

0.4

0.25

0.4

mArC

5

5

5

5

5

V

750

800

PARAMETER

Reverse Voltage
Operating Temperature Range

_55° C to +100° C

Storage Temperature Range

_55" C to +1000 C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

2600 C for 5 Seconds

Green Yellow

Hi. Eff. Red
Orange Red

Bright Red

>
.....

'u;

c

'"c

.....

0.5

'"
'"
a::

>
.;;

a;

500

550

600

650

700

Wavelength /I. (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-200
479

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.
LTL6203LN
6213LN
6223LN
6203lN
6213lN
6223LN
6203LN
6213LN
6223LN
6203LN
6213LN
6223LN
6203LN
6213LN
6223LN
6203LN
6213LN
6223LN
6203LN
6213LN
6223LN

SVMBOL

Luminouil Intensity

Iv

Viewing Angle

28%

Peak Emission
Wavelength

APEAK

Spectral Line
Half Width

/}.A

Forward Voltage

VF

Reverse CUrrent

IR

Capacitance

C

MAX.

TEST
CONDITION

MIN.

TVP.

0.09
0.4
1.7

0.2
1.5
5.6

moo

IF'" 10 mA
Note 1

70

deg.

Note 2 (Fig. 6)

655
697
635

nm

24
90
40
1.7
2.1
2.0

UNIT

Measurement
Peak (Fig. 1)

@

nm

2.8

V

100

p.A

VR =5V

PF

VF=O
f'" 1 MHZ

IF "'20mA

-

30
55
20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the elE
(Commission Internationale De L'Eciairage) eye-response curve.
2. e% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

40

~

E

~

u
'E

60

,/J
1/6223l 'I
II 1
6203lN
I.
II
I I
I If
I I

I

30

20

'"~

5 10

50
~

E
~

~

12

30

u
'E 20

rT

5 10

6213lN

2

~

u.

16

20

24

2B

32

20

-

~
in

c

£"

-

--

"'-

E
:>

">

30

6223lN V

E
:>

........

- ""
........

.......

40

...J

-~~

60

">
1ii

CD

a:

~~

BO

'/

6203lN
20

£

1.0

1£-

oP
o

lGO

-

6213lN

4
10

20

30

40

Forward Current IF (mAl
FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 3 FORWARD CURRENT
DERATING CURVE

0'

10'

20'

6203lN

6213lN6223lN

r-- ~

30'

i::::,..
40'

1.0

09

05

50'

DB
02

60'
70'

07

CD

BO'

a:

01
-30

2-201

480

L

/

/

c

...J

1ii

'0"

:>

:>

g

40

Ambient Temperature TA (0 C)

Forward Voltage VF (VI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

'"

62~lN

.//V

o

iiic

£"

40

E

J 6213lN

u.

50
>-

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

o5

03

01

02

0.4

FIG 6 SPATIAL DISTRIBUTION

06

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

2SoC

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

6233LN
6253LN

1.7
1.7

5.6
5.6

mcd

IF = 10 mA
Note 1

Viewing Angle

211Y:.

6233LN
6253LN

70

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

APEAK

6233LN
6253LN

565
585

nm

Measurement
@ Peak (Fig. 1)

Spectra I Li ne
Half Width

AA

6233LN
6253LN

30
35

Forward Voltage

VF

6233LN
6253LN

2.1

Reverse Current

IR

6233LN
6253LN

Capacitance

C

6233LN
6253LN

PARAMETER
Luminous Intensity

MAX.

TEST
CONDITION

UNIT

,
nm

2.8

V

100

p.A

VR =5V

PF

VF = 0
f= 1 MHZ

35
15

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye· response curve.
2. IIY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

40

E
l'

30

6!33l~~ 253lN
II

E

II
If

5

u

'0

20

ro

;::
(;

u.

60

A

V

~

.

-

§

12

16

20

24

28

40

oS ~

11

6 53

E


::0'0

"- I'....
.........

~
>

r" ~

3.2

20

40

60

I

l! 20


;:; E

r-.... I"
I"-- l"80

£~

/

10

......

o

100

Ambient Temperature TA (DC)
FIG 8 FORWARD CURRENT
DERATING CURVE

/

/

o

10

;;;

2

10'

50

20'

I r--6233lN

40'
10

05

09

.3

50'
,

0.8

">

~
a:

40

30'

::0

~

30

62~3lN

c

"
E
'"a

20

Forward Current IF (mAl
FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

O'

?:

L

623~lN P6253lN
I'

-;;; E
::0 030

6233lN

10

Forward Voltage VF (VI
FIG 7 FORWARD CURRENT VS.
FORWARD VOLTAGE

I
I

"
E«

40

~

(;

u.

/,
~

o

50

E
l' 30
5
u
l' 20

III

10

50

?:
~

02

60'

10'
BO'

0.7

1++-l-I--'1"9-+f9-H+-H

o1
-30

-20

-10

10

20

30

40

Ambient Tempelature TA (OC)
FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

10

0.5

03

01

0.2

04

FIG 11 SPATIAL DISTRIBUTION

90'

06

2·202
481

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
TEST
CONDITION

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

6293LN

1.7

5.6

mcd

IF = 10 mA
Note 1

Viewing Angle

28%

6293LN

70

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

APEAK

6293LN

630

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

AA

6293LN

40

nm

Forward Voltage

VF

6293LN

2.0

Reverse Current

IR

6293LN

PARAMETER

Luminous Intensity

MAX.

UNIT

2.8

V

IF = 20mA

100

J.lA

VR =5V

PF

,VF =0
f = 1 MHZ

,
Capacitance

C

6293LN

20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2.8% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

50
~

I

40

Eu.
~

60

I

.,~

I
I

30

~

:;

!:

~ 30

~ 10

~ ~ 20

"

12

16

2.0

24

28

32

40

20

Forward Voltage VF IV)
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

/

>Cii

~

........

/

o

II

~"C

r-....

~

I

II

u.

~

E .,

........

u
"E 20

I

I

5'" ~E 3.0

~

~

u 20
"E
.,
;:
15 10

/

40

E
'"., 02
a;
~

40"

1.0

0

09

50"

~

..J

08

01
-30

482

60"
70"
80'

07

c:

2-203

40

Forward Current IF ImA)
FIG. 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

H---t-Hf-f'9--+--F'hH--t---H 90"
-20

-10

10

20

30

40

Ambient Temperature TA (Oel
FIG.15 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

FIG.16 SPATIAL DISTRIBUTION

06

50

ILlTE[.]~11

2x4 RECTANGULAR BAR LED
LAMPS
LTL·403P BRIGHT RED
LTL·403G GREEN

LTL·403Y YELLOW
LTL·403A AMBER·

FEATURES
• LOW POWER CONSUMPTION
• MOST SUITABLE
FOR
USE
LI KE
LEVEL
INDICATOR
• EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
• LONG LIFE-SOLID STATE RELIABI L1TY .
• I.C. COMPATIBLE.

II !
!1/.

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are
made with Gallium Arsenide Phosphide on Gallium
Phosphide Yellow Light Emitting Diode.

PACKAGE DIMENSIONS

7.0

SEE NOTE 3

:l:::=$;:::I:::='~l
I

DEVICES
PART
NO.
LTL-

COLOR

DIFFUSION

403P

Red

Diffused

Bright Red

403G

Green

Diffused

Green

403Y

Yellow

Diffused

Yellow

403A

Amber

Diffused

Amber

LENS

25.4

tJ·"

SOURCE

COLOR
NOTES:
1. All dimensions are in millimeters (Inches).
2. Tolerance is ±0.25mm (.010") unless otherWise
noted.
3. Protruded resin under flange is 1.5mm (.059")
max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice. 2-204

483

"

.:.:.

'''' '

:.,

ABSOLUTE MAXIMUM RATINGS AT TA =2SoC
BRIGHT
RED

GREEN

40

,

YELLOW
AMBER

UNIT

100

60

mW

60

120

80

mA

Continuous Forward Current

15

30

20

mA

Detating Linear From 25°C

0.2

0.4

0.25

mArC

5

5

5

V

PARAMETER

Power Dissipation
Peak Forward Current
(1/10 Duty Cycle. 0.1ms Pulse Width)

Reverse Voltage

,
Operating Temperature Range

_55°C to +100°C

Storage Temperat.ure Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063 in) From Body)

260° C for 5 Seconds

Green

1.0

Yellow
Amber

.,

Bright Red

.~
.,
c

ec
Q)

...co

.<: 0.5
Q;

a:

500

550

600

650

700

Wavelength ~ (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-205

484

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

403P

01

0.4

mcd

20110

403P

104

deg.

?.PEAK

403P

697

nm

nm

Luminous Intensity

Viewing Angle
Peak Emission
Wavelength
Spectra I Li ne
Half Width

A?.

403P

90

Forward Voltage

VF

403P

2.1

Reverse Current

IR

403P

Capacitance

C

MAX.

.

403P

TEST
CONDITION

UNIT

2.8

V

100

p.A

IF = 10 mA
Note 1
Note 2 (Fig. 6)
Measurement
@ Peak (Fig. 1)

IF =20 mA
VR =5V
VF =0

PF

55

f = 1MHZ
I

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye·response curve.
2. ey. is the off·axis angle at which the luminous intensity is half the axial luminous intensity.
50

50

60

I

 '"

,.- ~-

'" E
0 1.0
a:Z

"*

/

o/

o

100

10

--

c

~
"o'"

FIG. 3 FORWARD CURRENT
DERATING CURVE

c:

-- -

20

30

40

10'

20'
30'

I--

40'
10
09

E 05
.3

50'

08

">

til

a; 02
a:

60'

0.7

01
-30

I++H'-f=t-+-t=H'--++-H
-20

50

Forward Current IFlmAI
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT
.

Ambient Temperature TA (OC)

o·
~
'in

-

-10

10

20

Ambient Temperature TA

30

40

(OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

0.5

FIG. 6

03

0.1

0.2

04

70'
80'
90'

06

SPATIAL DISTRIBUTION

2·206
485

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

403G
403Y

0.7
0.7

2.5
2.5

mcd

IF = 10 mA
Note 1

Viewing Angle

28%

403G
403Y

104

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

i\PEAK

403G
403Y

565
585

nm

Measurement
@ Peak (Fig. 1)

PARAMETER
Luminous Intensity

Spectral Line,
Half Width

6i\

403G
403Y

30
35

Forward Voltage

VF

403G
403Y

2.1

Reverse Cu rrent

IR

403G
403Y

Capacitance

C

403G
403Y

MAX.

TEST
CONDITION

UNIT

,

nm

,

= 20mA

2.8

V

IF

100

p.A

VR

PF

VF =0
f = 1MHZ

35
15

= 5V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission I nternationale De L'Eciairage) ~ye-response curve.
2. 8% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«
..s

40

~

30

IV

f

~

u

'E

~

(;

u.

«

03~/l!. r403Y

~

20

II

..s

r/

~

12

16

20

c:

(;

u.

2S

0

403G

........

4~3Y

E
.3

p
4U,."

30

20

40

r--.

60

SO

-.;
a:

20

o 1/
o

100

1/
10

20

30

40

Forward Current IF (rnA)

Ambient Temperature TA (OC)

Forward Voltage VF IV)
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 8 FORWARD CURRENT
DERATING CURVE

O'

10'

20'
30'

""
in

2
40Jy

§
E

-40

40'

'"o

10

~

c:

E
.3

">
~
a:

09

05

70'
SO'

f-++H'---t-==t--+--F+-1-+-+-+-t 90'

-30

-20

-10

10

20

30

40

Ambient Tempelature TA (OC)

486

60'

0.7

oI
. 2-207

50'

O.S

02

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

-

V

10

......

-

I/'

>

i'" ~

~' 403Y

/

g"

........ I......... .........

10

32

40

c:

"'- .........

~

24

1:"
'"

40

~ 30
~
u
'E 20

I
~

o

""inc:

50

~

/I

10

50

60

11

0.5
FIG. 11

0.3

0.1

02

04

06

SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

2SoC

SYMBOL

PART NO.
lTl-

MIN.

TYP.

Iv

403A

0.7

2.5

mcd

IF = 10 mA
Note 1

Viewing Angle

20Y.

403A

104

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

i\PEAK

600

nm

nm

PARAMETER

Luminous Intensity

Spectral Line
Half Width

D.X

35

Forward Voltage

VF

2.1

Reverse Current

IR

Capacitance

C

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1 )

@

IF = 20 mA

2.8

V

100

p.A

VR =5V

PF

VF =0
f=1MHZ

15

NOTES: 1. Luminous Intensity IS measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. OY. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

50

I

40

;;:

.s

II

16

........

is 10

u..

~

~ 20

Q)~

> '"
" E
~ is 10

r-..,. .......

24

2B

20

32

40

60

/

a:z

....... r-..,.

........

20

80

J

o 1/

100

0

Ambient Temperature TA (OC)

Forward Voltage VF IV)
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

~
in
c

!O

I

/

E '"

~

o
12

30

.3

'E 20

I

40

o~

';

/

~

E«
~ .§

w

40

u

/

';

u
'E 10
;:
'"
is
u..

50

@ 30

I

~ 20

50

::-

10

20

30

40

50

Forward Current IF(mA)

FIG 13 FORWARD CURRENT
DERATING CURVE

FIG 14 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT.

30"

2

2

s

40"

~

10

~

o
c

E

09

05

~

50"

DB

..J

60"

W

>

"
~
a:

70"

0.7

02

~-+-+-,~:::j...-+-....j::~H-+-..j....j

o1
-30

-20

-10

10

20

30

Ambient Temperature TA (Oel

FIG. 15 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

40

50

60

70

o5

0.3

01

0.2

04

BO"
90"

06

FIG.16 SPATIAL DISTRIBUTION

2-208
487

ILlTE('J~11

2x5 RECTANGULAR BAR LED
LAMPS
LTL·3201A I 23203A
LTL·3211A I 23213A
LTL·3221A I 23223A
LTL·3231A /23233A

RED
BRIGHT RED
HIGH EFFICIENCY RED
GREEN

LTL·3251A /23253A YELLOW
LTL·3271A I 23273A AMBER
LTL·3291A I 23293A ORANGE

FEATURES
• LOW POWER CONSUMPTION.
• MOST SUITABLE FOR USE LIKE LEVEL
INDICATOR.
• EXCELLENT UNIFORMITY OF LIGHT EMITT·
ANCE.
• LONG L1FE·SOLID STATE RELIABILITY .
• I.C. COMPATIBLE.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide Red Light Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

LTL·32xlA Series

PACKAGE DIMENSIONS
LTL-232x3A Series

I~
(.,~O I

SEENOTE3~r

I
I
I
rt-,

t !

6.S!O.2

'II =T)T
w

1

I

7. o

!

L
t

SEE NOTE 3

(e27 0)

i

-+-

I

I

2.
11

U

I

1.
(.0

~

ee1) NOM

2-209
488

I

t

7

256±.ooa)(.2

25.4

MIN

~ ·~)MIN
2.54 NOM
(.1

I

NOTES;
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

DEVICES
PART
NO:
LTL-

LENS
COLOR

3201 A

Red

DIFFUSION

SOURCE
COLOR

PART
NO.
LTL-

LENS
COLOR

DIFFUSION

SOURCE
COLOR

Diffused

Red

23203A

Red

Diffused

Red

3211 A

Red

Diffused

Bright Red

23213A

Red

Diffused

Bright Red

3221 A

Red

Diffused

HI. Eft. Red

23223A

Red

Diffused

Hi. Eff. Red

3231 A

Green

Diffused

Green

23233A

Green

Diffused

Green

3251A

Yellow

Diffused

Yellow

23253A

Yellow

Diffused

Yellow

3271 A

Amber

Diffused

Amber

23273A

Amber

Diffused

Amber

3291 A

Orange

Diffused

Orange

23293A

Orange

Diffused

Orange

ABSOLUTE MAXIMUM RATINGS AT TA

= 2SoC

RED

BRIGHT
RED

GREEN

YELLOW
AMBER

HI. EFF.RED
ORANGE

UNIT

Power Dissipation

80

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

200

60

120

80

120

mA

30

mA

0.4

mA/oe

5

V

PARAMETER

Continuous Forward Current

40

15

30

20

Derating Linear From 25°e

0.5

0.2

0.4

0.25

5

5

5

5

Reverse Voltage
Operating Temperature Range

- 55°e to + 100 e

Storage Temperature Range

- 55"C to + 1000 e

Lead Solering Temperature
[1.6mm (0.063in) From Body)

260° e for 5 Seconds

0

Green

Yellow
Hi. Eff. Red
Orange Red
Amber

Bright Red
1.0 r---------,--,~-.~-r------~~rn._----~~~------_.--------__,

....>-

·in

c

....CD
c

0.5

CD

'"
'II:"
.;;

OJ

500

550

600

FIr: 1

650

700

750

800

Wavelength A (nm)
RELATIVE INTENSITY VS. WAVELENGTH
2·210

489

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

3201A
3211A

0.08
0.2
0.08
0.2

0.2
0.6
0.3
0.&
140
140
140
140
655
697
655
697
24
90
24
90
1.7
2.1
1.7
2.1

Iv

Luminous IntensitY

232031<

Viewing Angie

26%

Peak Emission
Wavelength

>"PEAK

Spectral Line
Half Width

A>"

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

23213A
3201A
3211A
23203A
23213A
320tA
3211A
23203A
23213A
3201A
3211A
23203A
23213A
3201A
3211A
23203A
23213A
3201 A
3211 A
23203A
23213A
3201A
3211A
23203A
23213A

25°C

=

TEST
CONOITION

UNIT

MAX.

moo

IF'" 10 mA
Note 1

deg.

Note 2 (Fig. 6)

nm

Measurement
@ Peak (Fig. 1)

nm

2.0
2.8
2.0
. 2.8

V

100

30
55
30

IF =20mA

IJ.A

VR =5V

PF

VF"'O
f'" 1 MHZ

66

NOTES' 1. Luminous Intensity IS measured With a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. 0% is the off-axis angle at which the luminous intensity is half the aXlallummous intensitv.
50

60

~3~6~k I

-

«

I

I

II

E

E

3211 A
23213A- r-- r--

~

c

«

30

l'

~

3

12

~

0
u. 10

16
20
24
28
Forward Voltage VF (VI

u;
c

-

2

r--- ......

"'-

r-r t
32

3.2

20

40

..... 1'-

...... r60

f.,

~~

80

oP

o

100

---

--

~

o
c

" 3211A

23~13A

-1
10

20

30

40

50

Forward Current IF (rnA)

Ambient TemperatureTA (OC)

FIG. 3 FORWARD CURRENT
DERATING CURVE

FIG. 4 RELATIVE LUMINOUS
'JTENSITY VS. FORWARD
CURRENT

10'

20'

30'

""--....--,----,--,-....,--}-,--:71

m6~~

~

E

3211 A

V3201A
23203A- -

O'

3211A
23213A

!!l

.E

I'-

ro 20

FIG 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

~

3201A
23203A

30

/

/

o

40

"C

II

<;
u. 10

V

u

I

I

~

3

I

I

V"

50

c

~

u 20
1:

50

"""=:::::: F::::::,...

40'

50'

60'

05

~

..J

70'

~

>

iii

0:;

c::

02

80'

o1
-30

2-211

490

-20

-10

10

20

30

40

50

Ambient TemperatureTA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

60

70

0.9

07

0.5

03

0.1

02

0.4

0.6

FIG. 6 SPATIAL DISTRIBUTION

0 BID

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

2SoC

=

SYMBOL

PART NO
LTL-

MIN.

TYP.

Iv

3221 A
23223A

0.5
0.7

1.7
2.5

mcd

IF = 10 mA
Note 1

Viewing Angle

2BY.

3221 A
23223A

140
140

deg.

Note 2 (Fig. 11 )

Peak Emission
Wavelength

APEAK

3221 A
23223A

635

nm

nm

PARAMETER
Luminous Intensity

Spectral Line
Half Width

AA

3221 A
23223A

40

Forward Voltage

VF

3221 A
23223A

2.0

Reverse Current

IR

3221 A
23223A

Capacitance

C

3221 A
23223A

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

2.8

V

100

p.A

VR =5V

PF

VF =0
f=1MHZ

20

IF = 20 mA

NOTES: 1. Luminous i)ltensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye·response curve.
2. BY. is the off·axis angle at which the luminous intensity is half the axial lurninous intensity.
50

~

I

40

..s
30

~

5

'"

""

~

~

u;

50
40

<::

~ 30

~
~

I

10

II
12

16

24

28

30

"
">
"0::'"

r---- .......
20

"'"g
...J

.......

10

V

o

40

20

32

40

60

/
/

E

'I'-. ,

u
'E 20

I

<::

"
E

"

u 20
'E
u.

~

I
I

~

::

50

60

I

80

/

20

"

I

V

10

o l/
o

100

10

30

20

40

50

Forward Current 1F (rnA)

Ambient Temperature TA (OC)

Forward Voltage VF (V)
FIG. 7 FORWARD CURRENT VS
FORWARD VOLTAGE

1/

FIG. 9 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

FIG B FORWARD CURRENT
DERATING CURVE

o·

10'

20'

--..--,--,----.--,---,----:n 40'

r<""""-_ _

~

u;

<::

11~~m
E 05~
3

50'

60'

~_+-4_-~_+-~-+-_1-_r-+_~

70'

">

~ 02~_+-4_-~_+-~-+-_1-_r-+_~

80'

0::
01L-~_-L_L-~_~_~~~~_~~

-30

-20

-10

10

20

30

40

Ambient Temperature TA (0 C)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

.If!

o9

0 7 05

03

0I

02

0.4

06

FIG 11 SPATIAL DISTRIBUTION

0.8

I0

2·212

491

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

SYMBOL

Luminous Intensity

2eY:z

Peek Emission
Wavelength

APEAK

Spectral Line
Half Width

AA

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

MIN.

LTL-

TYP.

0.5
0.8

323M
3251 A
23233A
23253A
323M
325M
23233A
23253A
3231A
325M
23233A
23263A
3231A
325M
23233A
23253A
3231A
3251A
23233A
23253A
3231A
3251A
23233A
23263A
3231A
3261A
23233A
23253A

Iv

Viewing Angle

-

PART NO.

MAX.

25°C
TEST
CONDITION

UNIT

1.7

2.5
3.8
3.8
140
140
140
140
565
585
565
585
30
35
30
35

1.1
1.1

=

mcd

IF"" 10 mA
Note 1

deg

Note 2 (Fig.161

nm

Measurement
@ Peak (Fig. 1)

nm

2.1

IF =20 mA

2.8

V

100

"A

VR =5V

PF

VF=O
f == 1 MHZ

36
16
36
15

NOTES: 1. Luminous intensity IS measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. 0]1, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

40

E

c:

30

~

:;

u
"E

I

20

(;

~

r-

E
~

~:;

/I

10

J.

'C

ro

IL

"
c

(;

~

~

3231A
23233A

30

~

a
c

.......

20

3251A
23253A

10

.......

12

16

20

24

28

3.2

20

E
.3

.......

r--- r--.
"

f/

o

40

E

40

~

LL

40

ru

30

--

"

60

Q;

r-..:: ~
80

c::

2

"
E
~

V

10

oV

o

/
10

20

30

40

~

a

50

Forward Current IF (rnA)
FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

30'

50'

~ ~~~~~A

~

j--

f-- j - -

I!,

20

"""-100

r~~51123253A _

3251A
23253A

c

~

3231A
-23233A

I

O'
~

-

>

iii

Ambient Temperature TA (Oel
FIG 13 FORWARD CURRENT
DERATING CURVE

Forward Voltage V, (VI
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

I I

~

50

U

J

~

LL

.1.

'I m~~A

oU

60

lA

III

3231A
23233A/ fl.

60'

05

~

..J
~

70'

>

iii
Q;
c::

02

80'

o1
-30

2-213
492

-20

-10

10

20

30

40

Ambient Tempelature TA (OC)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09070503

01

02040.60810

FIG. 16 SPATIAL DISTRIBUTION

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

= 2SoC

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

3271A
3291A
23273A
23293A

0.5
0.5
1.1
0.7

1.7
1.7
3.8
2.5

mcd

IF = 10 mA
Note 1

Viewing Angle

20Y,

3271A
3291A
23273A
23293A

140
140
140
140

deg.

Note 2 (Fig. 21)

Peak Emission
Wavelength

APEAK

3271A
3291A
23273A
23293A

600
630
600
630

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

AA

3271A
3291A
23273A
23293A

35
40
35
40

nm

Forward Voltage

VF

3271A
3291A
23273A
23293A

2,1
2.0
2.1
2.0

Reverse Current

IR

3271A
3291A
23273A
23293A

Cap.acitance

C

3271A
3291A
23273A
23293A

PARAMETER
Luminous IntensitY

TEST
CONDITION

UNIT

MAX.

V

100

!J.A

VR =5V

PF

VF =0
f 1 MHZ

15
20
15
20

IF

= 20 mA

2.8

=

NOTES. 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye·response curve.
2. OY, IS the off-ilxis angle at which the luminous intensity is half the axial luminous intensity.
50

~

.s
c

I-

40

/

30

~

/

/

3271A
23273A

~

.s

-

~

/

'0

ro

b

o

-

40

'0

ro 20

3271A
23273A

s

1i 10

u.

20

24

28

""
........

//

20

32

40

I 3271 A
23273A

I/'

........

60

,

b

........ ......... ........

r-..:: ~

Forward Voltage VF IV)

oV
o

.......
100

80

/
10

30

20

50

40

Forward Current IF (rnA)

Ambient Temperature TA (OC)

FIG 19 RELATIVE LUMINDUS
INTENSITY VS FORWARD
CURRENT

FIG 18 FORWARD CURRENT
DERATING CURVE

FIG 17 FORWARD CURRENT VS
FORWARD VOLTAGE

3291A
23293AJ I

I-

3291A
23293A

~
U

J

16

12

/

50

c

I

10

50

l' 30

/
/ /

u 20

~

V

3291A
r- ~ 23293A/

l'

s

60

11

o·
~

2

~

3271A
23273A

c

S

.£

"'"o

A::::::s

c

60'

3291
23293A

E 05

"
">
~0:

50'

...J

70'
02

80'

H-++-H-+-+--l"'1R-+--J:=I"'H-+-+-+-H-f-.. 90'
01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (-Oel

FIG 20 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09

07

05

03

01

02

04

06

FIG 21 SPATIAL DISTRIBUTION

08

10

2-214

493

ILlTE['] ~ II

2xS RECTANGULAR BAR
FLANGELESS LED LAMPS
L T L-433R
LTL-433P
LTlA33HR
LTL-433G

RED
BRIGHT RED
HIGH EFFICIENCY RED
GREEN

L TL·433Y YELLOW
L TL-433A AMBER
L TL-433EA ORANGE·

FEATURES
• LOW POWER CONSUMPTION.
• MOST SUITABLE FOR USE LIKE LEVEL
INDICATOR.
• EXCELLENT UNIFORMITY OF LIGHT EMITTANCE_
• LONG LIFE-SOLID STATE RELIABILITY .
• I.C. COMPATIBLE.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

-. . i
~

PACKAGE DIMENSIONS

DEVICES
PART
NO.
LTL-

LENS

SOURCE
CO,"OR

COLOR

DIFFUSION

433R

Red

Diffused

Red

433P

Red

Diffused

Bright Red

433HR

Red

Diffused

Hi. Eff. Red

433G

Green

Diffused

Green

433Y

Yeliow

Diffused

Yellow

433A

Amber

Diffused

Amber

433EA

Orange

Diffused

Orange

25.4 MIN
(100)

(:o~rIN
~:~:.. NOM
C.ll

2-215

494

,

!'

NOTES:
1. All dimensions are In mililmeters !Inches).
2. Tolerance IS ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change Without notice.

ABSOLUTE MAXIMUM RATINGS AT TA

= 25°C

RED

BRIGHT
RED

GREEN

AMBER
YELLOW

HI.EFF.RED
ORANGE

UNIT

80

40

100

60

100

mW

(1/10 Duty Cycle, 0.1 ms Pulse Width)

200

60

120

80

120

mA

Continuous Forward Current

40

15

30

20

30

mA

Derating Linear From 25° C

0.5

0.2

0.4

0.25

0.4

mArC

5

5

5

5

5

V

PARAMETER

Power Dissipation
Peak Forward Current

Reverse Voltage
Operating Temperature Range

- 55°C to + 100°C

Storage Temperature Range

- 55°C to + 100°C

Lead Solering Temperature

260°C for 5 Seconds

[1.6mm (0.063in) From Body]

Green

1.0

...>
...cc

Yellow
Hi. Eff. Red
Amber
Orange Red

Bright Red

r---------,-~~~~.-----~~07~----~~~------_,--------_,

"0;
Q)

0.5

Q)

>

";;
1)1
Q)

II:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-216
495

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

433R
433P
433HR

0.08
0.2
0.5

0.2
0.6

Luminous Intensity

TEST
CONDITION

UNIT

MAX.

mcd

IF'" 10mA
Note 1

1.7

Viewing Angle

28Y:.

433R
433P
433HR

140

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

i\.PEAK

433R
433P
433HR

655
697
635

nm

Measurement
@ Peak (Fig. 1)

nm

Spectral Line
Half Width

Ai\.

433R
433P
433HR

24
90
40

Forward Voltage

VF

433R
433P
433HR

2.1
2.0

Reverse Current

IR

433R
433P
433H.R

Capacitance

C

433R
433P
433HR

2.0
2.8
2:8

V

100

p.A

1.7

IF "'20mA

VA =5V

30

55

VF "'0

PF

f'" lMHZ

20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. OJ!, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

1433HR

40

I

E
~

~

"E

'I

50

.s

20

0 10

II /

o

LlV

~

e

1 2.

16

20

40

~

30

"E

~

.1

0 10

433P

L1.

24

2B

20

3.2

40

60

It

~"O

~ ~ 20
> rn
" E

,

80

-ffi

./

--

~-

010

a:Z

oP

433P

f?'

o

100

,/

433R

/

rn

10

30

20

40

50

Forward Current IF (mAl
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

Ambient Temperature TA (OC)

Forward Voltage VF (VI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

- --r--

E

L

/

30

~ ~

r-.... "r-- t--. "~ ~
r- r- S:

1

20

15 S'

i'-

43 3HR

433HR

-; E

~

4j3R

u

II /433P

L1.

~ 40
"
1:..;

1:

I
I III

~

50

c

~

I

1/
I

~

u

/

433R

1: 30

60

h

I

FIG 3 FORWARD CURRENT
DERATING CURVE

U'

10'

20'

30'

433R

433P

433HR

~ I::::,...

50'

60'
70'
80'
01
-30

2-217

496

t++-H-t-+-H"'"f'+-+-A4-+-H++-H-J
-20

-10

10

20

30

40

Ambl9nt Temperatur~ TI\.(OCI
FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09

0.7

0.5

FIG. 6

0.3

0.1

02

04

06

SPATIAL DISTRIBUTION

0B

1.0

90'

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.

SYMBOL

MIN.

TYP.

Iv

433G
433Y

0.6
0.6

1.7
1.7

mcd

IF=10mA
Note 1

Viewing Angle

20%

433G
433Y

140

deg,

Note 2 (Fig. 11 )

Peak Emission
Wavelength

?I, PEAK

433G
433Y

565
585

nm

nm

Luminous Intensity

Spectra I Li ne
Half Width

A?I,

433G
433Y

30
35

Forward Voltage

VF

433G
433Y

2.1

Reverse Current

IR

433G
433Y

Capacitance

C

433G

MAX.

TEST
CONDITION

LTL-

UNIT

IF =20 mA

2.8

V

100

J.l.A

35
15

~33Y

Measurement
Peak (Fig, 1)

@

VR =5V
VF =0

PF

f = lMHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye·response curve.
2. e% is the off-axls angle at which the luminous intensity is half the aXial luminous intensity.
50
4133G

40

60

I
III

~5~33Y c- C-

30

~

E

O
If

20

50
40

~

f',

u

"::;~

u.

)

20

l"-

433Y

I

10

12

16

20

24

Forward Voltage

28

li

1'...
I ......
I'l ' l'

V
l' ~

V'

o

32

20

(V)

40

60

80

~
100

o k"
o

Ambient Temperature TA fOCI

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

433Y

It'

433G

30

5

Lt

33G

c

VI

10

50

FIG 8 FORWARD CURRENT
DERATING CURVE

IL
10

20

30

40

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

0'

10'

20'

~--'\-\-'-'--'---'---r--~

:::

2

50

Forward Current IF (mA)

40'

I

in

433Y

iii

.s 1F- 433G

50'

'"o
~

~

05

60'

~

..J

">

~

c:

70'
02
80'

o1

-30

-20

-10

10

20

30

40

Ambient TempelatureTA (OC)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

o1

0.2

04

06

FIG 11 SPATIAL DISTRIBUTION

08

10

2-218

497

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

433A
433EA

0.6
0.5

2.5
1.7

mcd

IF'" 10 mA
Note 1

Viewing Angle

2SY,

433A
433EA

140

deg.

Note 2 (Fig, 16)

Peak Emission
Wavelength

?\PEAK

433A
433EA

600
630

nm
nm

PARAMETER
Luminous Intensity

Spectral Line
Half Width

t;?\

433A
433EA

35
40

Forward Voltage

VF

433A
433EA

2,0

Reverse Current

IA

433A
433EA

Capacitance

C

433A
433EA

MAX •.

2.1

TEST
CONDITION

UNIT

Measurement
Peak (Fig, 1)

@

2.8

V

100

IlA

VR =5V

PF

VF =0
f '" 1MHZ

15
20

IF =20mA

NOTES: 1, Luminous intensity is measured with a light sensor and filter combination that appro;·:imates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. BY, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~ 40

E

II

I
II

~ 30
u 20
'E

~

""

50

in

II

433EA

30

0

"
i'

20

16
20
24
28
32
Forwerd Voltage VF (V)
FIG 12 FC8WARD CURRENT VS
"CJRWARD VOLTAGE

~

ro

40

r-- r--

Iho'

i '~
60

~~

80

10

o0

100

433A

A

~

~

I

I/'

" E

IL
10

20

30

Forward Current

Ambient Temperature TA (OC)

FIG 13 FORWARD CURRENT
DERATING CURVE

40

50

(mA)

FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

O'
~

I

~

-; ~ 20
> ro

.....
i ' ~ I'

lLV

433EA

~'O

f'..

10

12

o~

E

~

43t

20

I II
II
V I

0
1

~~0 30

40

.L

40

c

~

II

5

~

433A

f - f - t-- 433EA

~

, 50

60

/,

1/

10'

20'

30'
40'

2

in

-

c

~

E

50'

43L

~

~

o
c

E

60'

433Ei\:s

05

.3
~

70'

>

iii
ID
a:

02

BO'

01
-30

2-2J9

498

90'
-20

-10

0

10

20

30

40

Ambient Temperature TA (OC)

FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

0.9

0.7

05

0.3

0.1

0.2

0.4

0.6

FIG. 16 SPATIAL DISTRIBUTION

O.B

1.0

RECTANGULAR BAR .LED LAMPS
LTL-3215S BRIGHT· RED
LTL-3235S GREEN

LTL-3255S YELLOW
LTL-3295S ORANGE

FEATURES
- LOW POWER CONSUMPTION .
.- MOST SUITABLE FOR USE LIKE LEVEL IN·
DICATOR.
- EXCELLENT UNIFORMITY OF LIGHT EMIT·
TANCE.
- LONG LlFE·SOLID STATE RELIABI LlTY.
-I.C. COMPATIBLE.
I

r

,! I,:

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Orange source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Orange Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

PACKAGE DIMENSIONS

DEVICES
PART

LENS

NO.

SOURCE
COLOR

lTL-

COLOR

DIFFUSION

32158

Red

Diffused

Bright Red

32358

Green

Diffused

Green

32558

Yellow

Diffused

Yellow

32955

Orange

Diffused

Orange

r-'"

(.oa! .008)

(~;~)

'Tt"r'1"-rf--=-''-'l'"

5.4±O.5
Co21.! .02)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spaCing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2·220

499

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
BRIGHT
RED

GREEN

YELLOW

ORANGE

UNIT

Power Dissipation

40

100

60

100

mW

Peak Forward Current
(1/10 DutY Cycle. 0.1 ms Pulse Width)

60

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating Linear From 25°C

0.2

0.4

0.25

0.4

mAtC

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55" C to +100° C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260° C for 5 Seconds

Green Yellow

Orange

Bright Red

1.0r---------",-,-._~._._----~~,_------~~~------_,--------_,

>-

"~

on

c:

ec:

0.5

t------+-f--+----f1r---I------,Y\------t-------'~----____l

~

";::;
co
Q;

a::

500

550

600

650

700

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-221

500

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

3215S

0.2

0.4

mcd

IF = 10 mA
Note 1

Viewing Angle

20%

3215S

150

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

AP.EAK

3215S

q97

nm

Spectral Line
Half Width

AA

3215S

90

nm

Forward Voltage

VF

3215S

2.1

Reverse Current

IR

3215S

Capacitance

C

3215S

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
@ Peak (Fig. 1)

2.8

V

100

JJA

VR = 5V

PF

VF =0
f = 1 MHZ

55

IF = 20 mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. 0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

I

~ 40

50
~

I

.s
~

E 30

5

I
II

20

'C

:;;
~
0

u.

~

40

~

30

E

~

u

50

60

10

5

u
"E 20
;;:'"
<;
u.

/

....

10

J-.....

V

o
1.2

16

2.0

24

32

2B

20

Forward Voltage V, IVI
FIG. 2 FORWARO CURRENT VS
FORWARD VOLTAGE.

40

.... r--. ....
60

80

L'

V
o lL

r-

o

100

10

-r--r--r--

in
c

~

.s
~

:J

a
c

E 0.5

--

20

30

40

FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT
10'

20'
30'

40'
10

:J

..J

"
>

'"

~ 02
cr

09

50'

08

60'
70'

07

01
-30

H---t--'HH'==t-+--F'H-----I'4-+-l
-20

-10

10

20

AmbIent Temperature TA

30

50

Forward Current IF(mA)

Ambient Temperature TA lOCI
FIG. 3 FORWARD CURRENT
DERATING CURVE

O'

i'="

-- -

40

(OC)

FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

BO'
90'

06

2-222

501

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
TEST
CONDITION

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

3235S
3255S

0.3
0.4

0.8
1.1

mcd

IF=10mA
Note 1

Viewing Angle

28~

3235S
3255S

150

deg.

Note 2 (Fig. 11 )

Peak Emission
Wavelength

APEAK

3235S
3255S

565
585

nm

Spectral Line
Half Width

AA

32355
3255S

30
35

nm

Forward Voltage

VF

3235S
32555

2.1

Reverse Current

IR

3235S
3255S

Capacitance

C

3735S
3255S

PARAMETER
Luminous Intensity

UNIT

MAX.

Measurement
Peak (Fig. 1)

@

2.8

V

100

p.A

VR = 5V

PF

VF =0
f= 1 MHZ

35
15

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. O~ is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

fA
32355/11
1~255~- f-'I
h
f

;:t 40

E
~

E 30
~

S

u 20
"E

~

50
40

'"
E

;:t

E
~

~

S

32355

30

<;

u.

11

16

20

24

26

'"0

30

32555

I I

10

E
.:l

........

3.2

20

Forward Voltage VF IVI
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

I
32355.t~_1
3255S- -

iii
0;

....... "'-

40

60

20

"'" ~
60

a::

/

10

~
100

~

o/
o

Ambient TemperatureTA (OC)

10

2

<=

~

::>

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

20'

40'
1.0

05

0.9

50'

oa

60'

70'

02

07

O. 1
-30

aD'
H-+'H-F=t-+-R-+-+I-+--1 90'

-20

-10

10

20

30

40

Ambient TemperatureTA (OC)

502

10'

1 =32355

!!!

2-223

40

30'

..J

~
a::

30

32~55

in

'"
E
::>
'"o

20

Forward Current IF (rnA)

0'
~

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

f---

••

I

'">

i"""- ....... ........

IY'

o

40

<=

~

~

I

<=

::>

u
'E 20

VI

<; 10

u.

50
~
in

o5

0.3

01

0.2

0.4

FIG 11 SPATIAL DISTRIBUTION

0.6

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

3295S

0.3

0.8

mcd

IF =10mA
Note 1

Viewing Angle

20Y,

3295S

150

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

APEAK

3295S

630

nm

Spectral line
Half Width

AA

3295S

40

nm

Forward Voltage

VF

3295S

2.0

Reverse Current

IR

3295S

Capacitance

C

3295S

PARAMETER

Luminous Intensity

TEST
CONDITION

UNIT

MAX.

2.8

V

100

JJ.A

Measurement
@ Peak (Fig. 1)

IF =20mA
VR =5V
VF =0

PF

20

f = 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. OY, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

.s

40
30

l'

5

50

I

I
II

~

to

60

I
1/

I
"~

30

:J

u 20
'E
;:
'"

I

0 10

u..

I

~ 20
;:

.f

II

r"-,

U

" I"-

10

V

o

12

16

20

24

2.B

32

20

Forward Voltage VF (V)
FIG.12 FORWARD CURRENT VS.
FORWARD VOLTAGE

40

60

J

V

J

"- i'..
80

o 1/
o

100

10

O'

i?:
;;;
cQ)

30

10'

-----

'"o

40'
10

c

05

Q)

09

50'

08

60'

>

a:

50

30'

:J

iii
Q;

40

20'

2

.E
E
.3

20

Forward Current IF (mA)
FIG. 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

Ambient Temperature TA (OC)
FIG. 13 FORWARD CURRENT
DERATING CURVE

02

70'

07

BO'

H--f-''l-H==t--+--F=t-IH4--H 90'
01
-30

-20

-10

10

20

Ambient Temperature

30

40

TA (OC)

FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

0.1

0.2

04

FIG.16 SPATIAL DISTRIBUTION

06

2-224
503

RECTANGULARBA}{S.LED LAMPs

·ILITE[')~II

l Tl~3217A/3218A .BRIGHT· RED 'lTl~3277A/3278A AMBER
lTL-3237A13238AGREEN'
lTl·3297A
ORANGE
l Tl~3257A/325'8A YELLOW.'

FEATURES
e LOW POWER CONSUMPTION.
eMOST SUITABLE FOR USE LIKE LEVEL INDICATOR.
e EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
e LONG LIFE-SOLID STATE RELIABI LITY.
el.C. COMPATIBLE.

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Orange source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Orange Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

LTL-32

X

8A Series
2.6+0.'2
.102_0008)
1.0:!:O.2

.~
I

PACKAGE DIMENSIONS
LTL-32

X

7A Series
2.8

1.0

1jI__-+-.~_~(.~O:4) MI N
2.54 NOM

(.1

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-225
504

DEVICES
SOURCE
COLOR

PART
NO.
LTL-

COLOR

DIFFUSION

SOURCE
COLOR

Diffused

Bright Red

3218A

Red

Diffused

Bright Red

Green

Diffused

Green

3238A

Green

Diffused

Green

3257A

Yellow

Diffused

Yellow

3258A

Yellow

Diffused

Yellow

3277 A

Amber

Diffused

Amber

3278A

Amber

Diffused

Amber

3297A

Orange

Diffused

Orange

PART
NO.
LTL-

LENS
COLOR

DIFFUSION

3217A

Red

3237A

LENS

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

BRIGHT
RED

GREEN

YELLOW
AMBER

ORANGE

UNIT

Power Dissipation

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

60

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating Linear From 25°C

0.2

0.4

0.25

0.4

mAtC

5

5

5

5

V

Reverse Voltage
Operating Temperature Range

_55° C to +100° C

Storage Temperature Range

_55°C to +100°C

lead Soldering Temperature
£1.6mm (0.063in) From Body]

260° C for 5 Seconds

Green

Yellow
Amber

Orange

Bright Red

1.0,--------,~~~~_,----~~_.------~~~------_r--------~

>

.t::
~

E 0.5

r---------~--.r~r_--~_iL-----~~--------4_------~\rl~--------~

.~

.,

.!!1

a::

500

550

600

650

700

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

750

800

2-226

505

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

·PARTNO.
LTL-

MIN.

TYP.

Iv

3217A
3218A

0.3
0.2

0.8
0.6

mcd

IF'" 10 mA
Note 1

Viewing Angle

2e%

3217A
3218A

120
106

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

i\PEAK

3217A
3218A

697

nm

Spectral Line
Half Width

Ai\

3217A
3218A

90

nm

Forward Voltage

VF

3217A
3218A

2.1

Reverse Current

IR

3217A
3218A

Capacitance

C

3217A
3218A

PARAMETER
LUlJ'linous Intensity

TEST
CONDITION

UNIT

MAX.

Measurement
Peak (Fig. 1)

@

IF =20 mA

28

V

100

IlA

VR = 5V

PF

VF =0
f= 1 MHZ

55

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. e% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

/
1/
c:

.s

50

~

40

'"

30

~

/
'/

5
u 20

1:'

~

«

30

~

.l:

5.0

60

10

/

o

12

16

5
u
1:' 20

;-:'"
5 10
LL

/
20

24

28

--

32

20

Forward Voltage VF (VI
FIG 2 FORWARD CURRENT VS.
FORWARD VOLTAGE.

~~

I--...

40

,.... ,....
t- I--...
60

BO

V
oV

o

100

10

--

2

c:

5

.s

""o
c:

E
.3

- -- -

40

10'

20'

40'
1.0

0.5

>

iii 02
a;

09

50'

0.8

60'
70'

oj

a:

01
-30

506

30

30'

Q)

2-227

20

Forward Current IF(mA}
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT.

Ambient Temperature T" (OC)
FIG 3 FORWARD CURRENT
DERATING CURVE

O·

~

-

./

BO'
I+-HH~'l--+-1'9'~+H-I 90'

-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

o5

03

01

0.2

0.4

0.6

FIG 6 SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PART NO.
LTL-

SYMBOL

PARAMETER
Luminous Intensity

20Y,

Peak Emission
Wavelength

;\PEAK

Spectral Line
Half Width

A;\

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

TYP.

0.5
03
0.5
0.5

1.7
0.8
1.7
1.7
120
120
106
106
565
585
565
585

3237A
3257A
3238A
3258A
3237A
3257A
3238A
325BA
3237A
3257A
323BA
325BA

Iv

Viewing Angle

MIN.

3237A
3257A
3238A
3258A
3237A
3257A
323BA
325BA
3237A
3257A
3238A
3258A
3237A
3257A
3238A
3258A

MAX.

TEST
CONDITION

UNIT
mcd

IF = 10 mA
Note 1

deg

Note 2 (Fig. 11)
Measurement

nm

30
35
30
35

@ Peak (Fig. 1)

nm

2.1

2.8

V

100

Jl.A

35
15
35
15

IF = 20 mA

VR =5V
VF =0

.

PF

f = 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2.0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
0

«

40

E

~:;

u

60

IA
3237A III
323B~/l!. J

«
E

r/3257A- t325BA

30

II
II

0

50

;:-

50

~

"
c«

40

:; 30

VI

3257A
325BA

~

(;

u..

i""'-

10

I"
f' 1'-f'.

~

o
12

16

20

24

2B

32

20

Forward Voltage VF IV)
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

FIG

e

40

W

I)

E
'"
~'C

i"- J'..,

'C

)

'3257A- t - t 325BA

~ ~
S
_ 30

U

:0 20

323B~1. ,~

:; E

3237A
323BA

c
ru

237A

40

60

~ ~ 20
> '"

ji;

1"" ~ ,..,
80

E

V

~ ~"O

o~
o

100

Ambient TemperatureTA 1°C)
FORWARD CURRENT
DERATING CURVE

lL
10

0'
;:-

2

~

~

~

~

1 F=3237A
f--- 3238A

40'

09

50'

DB

60'

02

70'

07

Bo'
90'

o1
-30

-20

50

20'

10

05

">

~

40

3~'

.3
a::

10'

3257A
3258A

00

a

30

I

c

.5

20

Forward Current IF (mAl
FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

-10

10

20

30

40

Ambient TempelatureTA (OC)
FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70
05

03

01

FIG. 11 SPATIAL DISTRIBUTION

2·228
507

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

3277A
3297A
3278A

0.5
0.5
0.5

1.7
1.7
1.7

Viewing Angle

20%

3277A
3297A
3278A

Peak Emission
Wavelength

APEAK

3277A
3297A
3278A

120
120
106
600
630
600

Spectral Line
Half Width

All.

3277A
3297A
3278A

35
40
35

VF

3277 A
3297 A
3278A

2.1

Forward Voltage

PARAMETER
Luminous Intensity

Reverse Current

IR

3277A
3297A
3278A

Capacitance

C

3277A
3297A
3278A

MAX.

TEST
CONDITION

UNIT
mcd

IF'" 10 mA
Note 1

deg.

Note 2 (Fig. 16)
Measurement
Peak (Fig. 1)

nm

@

nm

2.0

2.8

V

IF'" 20mA

100

fJ.A

VR =5V

PF

VF =0
f = 1 MHZ

2.1

15
20
15

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve.
2.0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50


U

~

/

/

50

V3277A
3278A f -

E
~

-

40

3297A

E
~

:;

3297

30

r--.-

u
"E 20

I I

10

50



o

~

:>

40'

1.0
3297A----=

05

0.9

50'

..J

O.B

~

~

a:

02

60'
70'

0.7

80'

o1

I--t-~H-T'\-+-f'9'4-+H-l 90'

-30

2-229

508

-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70
05

03

0.1

0.2

04

FIG. 16 SPATIAL DISTRIBUTION

06

ILlTE[.J~lr

1.5x3.8' RECTANGULAR,BAR
'LlDJ)'L~S,
, LJ~-~3Z18A BR.IGIiT: ,RED:
, LTL-13238A ·GREEN::·

::,

lTL:1?~!?8.~ YELLOW
LTL~13278A

AMBER

FEATURES
• LOW POWER CONSUMPTION.
• MOST SUITABLE FOR USE LI KE LEVEL INDICATOR.
• EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
• LONG LIFE-SOLID STATE RELIABILITY .
• 1. C. COMPATIBLE.

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

.--~--.-~:;,

PACKAGE DIMENSIONS

DEVICES
PART
NO.
LTL-

COLOR

DIFFUSION

13218A

Red

Diffused

Bright Red

13238A

Green

Diffused

Green

13258A

Yellow

Diffused

Yellow

13278A

Amber

Diffused

Amber

LENS

SOURCE
COLOR

12.7 MIN

(_5)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059")
max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-230

509

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
BRIGHT RED

GREEN

YELLOW
AMBER

UNIT

Power Dissipation

40

100

60

mW

Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

60

120

80

mA

Continuous Forward Current

15

30

20

mA

Derating Linear From 25°C

0.2

0.4

0.25

mArC

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

-55"C to +100°C

Storage Temperature Range

-55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260° C for 5 Seconds

Green

1.0

Yellow
Amber

Bright Red

r------,-....,......--..,....--,.------..,..-----::i>".......-------,-------,

.f'
c'"

2lc
.~

...
'"
a:

0.5 1------~-+--+--~r_----i7<_------I------''r+----___l

c;;

c;;

a:

500

550

600

650

700

Wavelength 71. (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-231

510

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL-

SYMBOL

Luminous Intensity

=

25°C
TEST
CONDITION

MIN.

TYP.

0.1

0.3

mcd

IF=10mA
Note 1
Note 2 (Fig. 6)

MAX.

UNIT

Iv

13218A

Viewing Angle

20Y:.

13218A

180

deg.

Peak Emission
Wavelength

APEAK

13218A

697

nm

Spectral Line
Half Width

b.?>.

13218A

90.

nm

Forward Voltage

VF

13218A

2.1

Reverse Cu rrent

IR

13218A

Capacitance

C

13218A

Measurement
Peak (Fig. 1)

@

IF = 20 mA

2.8

V

100

jJ.A

VR = 5V

PF

VF =0
f=lMHZ

55

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(CommisSion Internationale De L'Eclairage) eye-response curve.
2. OY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

I
I

~ 40

E

50

E
~

~

in
c:

:;

I
II

u 20
'C
:;;
~

"5
u

,

40

E

;;:

I

r- .....

10

/

o

12

20

16

24

28

"

20

~
a;
a:

1.0

-'
>

:;; 20

u.

30

c:

30

'C

(;

10

40

~
"'"a

E

~

a

;:-

~

E 30

u.

50

60

3.2

20

40

t60

.... r-.. r-....
80

/"

V

oV

o

20
10
30
40
50
Forward Current l'ImAI
FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

100

Ambient Temperature TA lOCI
FIG 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage V,IVI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

o·
>

liic:

--

2

l!l
E

"'"ac:

E
.3

-

"

10'

20'

30'

- ---

50'
60'

0.5
70'

">

"

~ 0.2
a:

BO'

01
-30

-20

-10

10

Ambient Temperature TA

30

40

(OC)

FIG.5 LUMINdI'lS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09

07

05
FIG 6

03

01

02

04

06

SPATIAL DISTRIBUTION

08

10

2-232

511

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.
LTL-

SYMBOL

MAX.

TYP.

UNIT

0.4
0.4

1.1
1.1

mcd

IF=10mA
Note 1
Note 2 (Fig. 11 )

Iv

13238A
13258A

Viewing Angle

28~

13238"A
13258A

180

deg.

Peak Emission
Wavelength

APEAK

13238A
13258A

565
585

nm

Spectral Line
Half Width

AA

13238A
13258A

30
35

nm

Forward Voltage

VF

13238A
13258A

2.1

Reverse Current

IR

13238A
13268A

Capacitance

G ,

Luminous Intensity

I

..

.13238A
13258A'

TEST
CONDITION

MIN.

35
>:15,'

'. ,

""I,i'

:

I.

2.8

V

100

J.lA

"

Measurement
Peak (Fig. 1)

@

IF =20mA

VR =5V

VF =()

, PF

II

·f =lMHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. (J~ is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50
~ 40
~

c



1323BA

30

'3
u
'E 20

E
::>

1325BA

~

I I

Ci 10

..J

,.... .......
.......
.......

12

16

20

24

2B

3.2

20

Forward Voltage VF IV)
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

1325BA

f

"

....... .......

-....::
40

/

20

>

f/

o

1323~A#

30

c

r-....

u..

/,

40

2

.E

C

/I

Ci 10

u..

50

60

lA

1323BA/II

60

~

ji;
0;
a:

,

BO

V

10

1/

oV

o

100

10

Ambient Tempera1UreTA (OC)
FIG 8 FORWARD CURRENT
DERATING CURVE

2

""c

1-

E
'"::>a

30

40

50

IF (rnA)

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·
i::

20

Forward Current

10'

20'

30'

13~5BA
50'

23BA

~ o. 5
.3
;';

70'

i0
a:

2

1-+-+-+-+-+"I---H-F'1---+-Ft-!-+-H-!-+-I--H 90'

o1
-30

2-233
512

-20

-10

10

20

30

40

Ambient Tempelature TA (OCI

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09

0.7

0,5

0.3

0,1

0,2

0,4

n,6

0.8

FIG, 11 SPATIAL DISTRIBUTION

1,0

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

13278A

0.4

1.1

mcd

IF=10mA
Note 1

Viewing Angle

20%

13278A

180

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

APEAK

13278A

600

nm

Spectral Line
Half Width

D.A

13278A

35

nm

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

-

Measurement
@ Peak (Fig. 1)

.'
13278A

2.1

13278A

13278A

IF = 20 mA

2.8

V

100

/J.A

VR = 5V

PF

VF =0
f = lMHZ

15

NOTES: 1 Luminous intensity is measured with a light sensor and fi Iter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2.0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

I

40

«
E

1/
c

~:J

~

0
12

I

/

30

'C

20

/

r--. ........

~

<;

u..

J

~

40

~
~
U

:.

II

"E 10

50

E

II

20

U

~

50

60

50

10

r--.

V
20

16

24

2.a

20

32

40

60

I
........

/

r--.

ao

oV

100

0

Ambient Temperature TA (OCI
FIG 13 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG. 12 FORWARD CURRENT VS
FORWARD VOLTAGE

10

20

30

40

50

Forward Current I F (rnA)

FIG.14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT.
10'

20'

30'

50'
60'
70'
ao'
01L--L__
-30

-20

~

-10

__

L-~

__- L__

10

20

f++-+-H+-+-H==t--+--F+-H-J<-I-+-1-+-H 90'
L-~

30

Ambient Temperature TA (eCI

FIG 15 LUMINOUS INTENSITY VS.
AMBIENT TEMPERATURE

__- L_ _J-~

40

50

60

70

0.9

07

0.5

03

01

02

04

0.6

FIG.16 SPATIAL DISTRIBUTION

0a

1.0

2-234
513

·1

1.Sx7.0 RECTANGULAR BAR

LlTErl] ~II

LED LAMPS

LTL·13215A BRIGHT REO
LTL·13255A YELLOW
L TL·13225A HIGH EFFICIENCY REO· LTL-13295A ORANGE
LTL·13235A ·GREEN

FEATURES
• LOW POWER CONSUMPTION.
FOR
USE LIKE LEVEL
• MOST SUITABLE
INDICATOR.
• EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
• LONG LIFE-SOLID STATE RELIABILITY •
• I.C. COMPATIBLE.

;

,.

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Orange source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Orange
Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with gallium
Arsenide Phosphide on Gallium Phosphide Yellow
Light Emitting Diode.

DEVICES

2-235

514

LENS
COLOR

DIFFUSION

13215A

Red

Diffused

Bright Red

13225A

Red

Diffused

Hi.Eff.Red

13235A

Green

Diffused

Green

13255A

Yellow

Diffused

Yellow

13295A

Orange

Diffused

Orange

..

PACKAGE DIMENSIONS
1.7±O.2

(.CS7±.aoe)

7.0±O.2
(.276± .ooe)

PART
NO.
LTL-

;

"-""R1;:f:;:f?:===tSEE NOTE 3

SOURCE
COLOR

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
BRIGHT

HI.EFF.REO

GREEN

YELLOW

40

100

'60

100

mW

60

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating Linear From 25°C

0.2

0.4

0.25

0.4

mAtC

5

5

5

5

V

PARAMETER

RED

Power Dissipation
Peak Forward Current
(1/10 Duty Cycle, 0.1ms Pulse Width)

Reverse Voltage
Operating Temperature Range

_55°C to +100 0 e

Storage Temperature Range

_55°e to +100 0 e

Lead Soldering Temperature

ORANGE

UNIT

260° e for 5 Seconds

[1.6mm (0.063in) From Body]

Green

Yellow

Hi. Eft. Red
Orange

Bright Red

....;;;

>
c

ec

0.5

r----------f---r~r_--~~~-----_;Ar--------~--------~r_--------~

.~

'"

Qi

a:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-236

515

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.
LTL-

SYMBOL

MAX

TEST
CONDITION

UNIT

MIN

TYP

0.2
0.3

0.4
0.8

mcd

IF = lOrnA
Note 1

Iv

13215A
13225A

Viewing Angle

20Y.

13215A
13225A

150

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

13215A
13225A

697
635

nm

Measurement
@ Peak (Fig. 1)

Luminous Intensity

Spectral Line
Half Width

All.

132l5A
13225A

90

Forward Voltage

VF

13215A
13225A

2.1
2.0

Reverse Current

IR

l3215A
l3225A

Capacitance

C

13215A
13225A

nm

40
2.8

V

100

p.A

VR =5V

PF

VF=O
f= 1MHz

55
20

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-respose curve.
2. OY. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

!J
III

50

rl

c;
~

ro
~

a

30

II

"C

LL

13225A

20

L

10

13215A

10

II/

-r-...

VV

o

12

16

20

24

28

20

32

40

E
~

-'

"-

r-....

r-- ..... ~

60

20

/

10

~"

>
;'"
ID
0:

oV
o

!oo...

80

100

Ambient TemperatureTA fOCI
FIG 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (VI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

3225A

co

i"- t'-....

r113215A

u 20

/
30

~

II

/

40

'"
E
"'0

40

13225AI

30

~

50
~
in
co

~

10

3215A

20

30

Forward Current

40

IF (mAl

FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

O'

10'

20'

30'

--t:::t- t:::::::: ~ ::::--

~ 2
c

l'l

13225A

"'"'
~

o

c

E 05
~

-'

'">
~0:

02

oI

-30

2-237

516

-20

-10

10

20

30

40

Ambient TemperatureTA (DC)

FIG 5 LUMINOUS ,INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09

0.7

0.5

0.3

0.1

0.2

0.4

0.6

FIG. 6 SPATIAL DISTRIBUTION

O.B

10

50

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL-

SYMBOL

MAX

TEST
CONDITION

MIN

TYP

UNIT

0.3
0.3

0.8
0.8

mcd

IF = 10mA
Note 1

Iv

13235A
13255A

Viewing Angle

20%

13235A
13255A

150

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

A. PEAK

13235A
13255A

565
585

nm

Measurement
@ Peak (Fig. 1)

nm

Luminous Intensity

Spectral Li ne
Half Width

"'A.

13235A
13255A

30
35

Forward Voltage

VF

13235A
13255A

2.1

Reverse Current

IR

13235A
13255A

Capacitance

C

13235A
13255A

NOTES:

 rn

""'"

iii E

Qi 0

~ .....

80

60

c::Z

V

10

oV
o

100

10

Ambient TemperatureTA (OC)

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

2

~
~

30

40

50

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
10'

20'

30'

I

c

.s"

20

Forward Current If (rnA)

O'

c;;;

1/

13255A

1

=

50'

13235A

o

~
.3

60'

05

70'

">

~
c::

02

o1
-30

-20

-10

10

20

30

40

Ambient TempelatureTA (OC)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

09

0.7

05

03

0.1

0.2

0.4

06

FIG. 11 SPATIAL DISTRIBUTION

08

1.0

2-238
517

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL-

SYMBOL
Iv

13295A

Viewing Angle

29~

13295A

Peak Emission
Wavelength

i\PEAK

Luminous Intensity

2SoC
TEST
CONDITION

MIN

TYP

0.3

0.8

mcd

IF =10mA
Note 1

150

deg.

Note 2 (Fig. 16)

630

nm

Measurement
@ Peak (Fig. 1)

nm

Spectral Line
Half Width

Ai\

40

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

MAX

=

UNIT

2.8

V

100

JJ.A

VR =5V

PF

VF =0
f = 1MHz

20

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-respose curve.
2. 9~ is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

<

.s

40

"0

50
~

50
40

~ 30

:J

1.2

i""'-

~

~ 10

20

24

28

20

32

........

Q;

40

60

80

/
/
/

V

10

a:

/

o 1/
o

"

100

Ambient Temperature TA (Oe)
FIG.13 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF IVI
FIG.12 FORWARD CURRENT VS
FORWARD VOLTAGE

/

20

">
iii

........

16

30

..J

/

o

'"

"
E
:J

........ ~

"E 20

I

10

4.0

:J
0

E

I

"'"

2l

E

U

20

~

"

~

I

;;;

u.

<

I

~

E 30
~
:;

u

60

I
I

20

30

40

50

Forward Current IF ImAI
FIG.14 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

o·
~

10

10'

20'

2

'"

-

<::

~

50'

'"o

:J

<::

E 05

60'

:J

..J

">

70'

~ 02
a:

80'

'"

o1
-30

-20

-10

10

20

30

40

Ambient Temperature TA lOCI
FIG 15 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

2-239

518

50

60

70

o7

0.5

03

0.1

0.2

0.4

0.6

FIG.16 SPATIAL DISTRIBUTION

08

1.0

ILITE['] ~ I[

2.2x4.5 RECTANGULAR BAR
LED LAMPS
l Tl-13219B BRIGHT RED
l Tl-13239B GREEN

l Tl-13259B YEllOW
l Tl-13279B AMBER

FEATURES
- LOW POWER CONSUMPTION.
FOR
USE LIKE LEVEL
- MOST SUITABLE
INDICATOR.
- EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
- LONG LIFE-SOLID STATE RELIABILITY.
-I.C. COMPATIBLE.

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

PACKAGE DIMENSIONS
5.0
(0196)
2.Q±O.2

C.o8±.00af

DEVICES
1.5±O.2
(o059±.OOa)

PART
NO.
LTL-

LENS
COLOR

DIFFUSION

13219B

Red

Diffused

Bright Red

13239B

Green

Diffused

Green

13259B

Yellow

Diffused

Yellow

13279B

Amber

Diffused

Amber

SOURCE
COLOR

seE NOTe

3:t=='~:!:;;:7--.--'-

2.54 NOM
(.1

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice. 2-240
519

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C

BRIGHT
RED

GREEN

YELLOW
AMBER

UNIT

40

100

60

mW

60

120

80

mA

Continuous Forward Current

15

30

20

mA

Derating Linear From 25°C

0.2

0.4

0.25

mAtC

5

5

5

V

PARAMETER

Power Dissipation
Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[l.6mm (0.063in) From Body]

260°C for 5 Seconds

Yellow
Green

Bright Red

1.0

...>...'"

'OJ

I:
I:

...'"

.2

0.5

'"

Qi

a:

Qi

a:

500

550

600

650

700

Wavelength ~ (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-241
520

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.
LTL-

SYMBOL
Iv

13219B

Viewing Angle

21:1%

13219B

Peak Emission
Wavelength

APEAK

Luminous Intensity

TYP

0.1

0.26

mcd

IF = 10mA
Note 1

170

deg.

Note 2 (Fig. 6)

697

nm

Measurement
@ Peak (Fig. 1)

nm

Spectral Line
Half Width

A'll.

90

Forward Voltage

VF

2.1

Reverse Current

IR

Capacitance

C

MAX

TEST
CONDITION

MIN

UNIT

2.8

V

100

/LA

55

IF = 20mA

VR =5V
VF =0

PF

f= lMHz

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-respose curve.
2. 1:1% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

50

60

I

;0: 40

50

;0:

I

E
E 30

~

40

~

30

E

~

:;

:;

I
I

u 20
'E,
ro,

s:

u
'E 20
ro

--

s:

0 10
LJ..

0 10

LJ..

V

o

12

16

20

24

28

32

20

Forward Voltage VF (VI
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE

r-....

40

--

./

oV

o

100

80

~

-

2

E.

"'"co

10

20

30

40

50

Forward Current I F(mAl
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

Ambient Temperature TA (OCI
FIG 3 FORWARD CURRENT
DERATING CURVE

o·

§

-

V

:---. r-

60

~-

10'

20'

30'

~--__~--r--.---,--,---~--~--~40·

- ----

50' .

60'

E 05

"
">

..J

70'

'"

BO'

~ 02
a:

1+++-H--I'-+H==+-+-f=t-H-++t-lH-t-i
01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (0 CI
FIG.5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

o9

0.7

a5

03

90'

0.1

FIG 6 SPATIAL DISTRIBUTION

2-242
521

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL·

SYMBOL

TEST
CONDITION

UNIT

MIN

TYP

MAX

0.3
0.4

0.75
1.1

mcd

IF" 10mA
Note 1
Note 2 (Fig. 11)

Iv

13239B.
13259B

Viewing Angle

28%

13239B
1325913

170

deg.

Peak Emission
Wavelength

~PEAK

13239B
13259B

565
585

. nm

Luminous Intensity

= 25°C

30

Spectral line
Half Width

A~

13239B
13259B

35

Forward Voltage

VF

13239B
13259B

2.1

Reverse Current

IR

13239B
13259B

Capacitance

C

132398
132598

Measurement.
Peak. (Fig. 1)

@

nm
2.8

V

100

/l.A

VR =5V

PF

f =lMHz

35
15

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye·respose curve.
2. 8% is the off·axis angle at which the luminous intensity is half the axial luminous intensity.
50
13239B

60

fA
/1/

30

l-

~

E
3

I' J'.,

20

t-- l'

~

o
12

16

20

24

28

32

20

Forward Voltage V, IV)

40

L(I

20

60

>

l '~
80

FIG 8 FORWARD CURRENT
DERATING CURVE

a::

~
100

V

10

a 1/
a

(OC)

2

~

10

20

30

40

50

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

30'

I

in
c

"
E

1/
Forward Current IF (rnA)

O·
::-

i

II

g

a;

Ambient Temperature

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

1

13239811. .
13259B l - t-

l - t30

~

1~259i l"'- f"'- ......

10

)

g

13239B

30

40

~

::>

VI

10

c

E

40

II
If

20

-

50

40
ij1325JB

50

::-in

13259B
1

=

50'

13239B

::>

o

~
3

05

60'

">

~

a::

70'
02

80'

a1
·30

·20

·10

10

20

30

40

Ambient Tempel ature TA (OC)

2-243
522

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

f+++--t-+++--t--f=r-+-A-++"H++-H-i
09 0.7 0.5 0.3
a 1 02 0.4. 0.6 O.B 1 a
FIG 11 SPATIAL DISTRIBUTION

90'

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO,
LTL

SYMBOL
Iv

13279B

Viewing Angle

211Y:.

13279B

Peak Emission
Wavelength

i\.PEAK

Luminous Intensity

2SoC

=

UNIT

TEST
CONDITION

1.1

mcd

IF. = 10mA
Note 1

170

deg.

Note 2 (Fig. 16)

600

nm

Measurement
@ Peak (Fig. 1)

nm

MIN

TYP

0.4

Spectra! Line
Half Width

Ai\.

35

Forward Voltage

VF

2.1

Reverse Current

IR

Capacitance

C

MAX

IF "'20mA

2.8

V

100

IJ.A

VR =5V

PF

VF=O
f =-lMHz

16

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission InternatiGnale De L'Eclairage) eye-res pose curve.
2. 1IY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
60

50

II

40

«

.s

/

~

5

II

5

u

I

/

30

i"'-- .........

~

(;

u.

/
20

40

u
"E 20
ro

1/
16

50

1:
~

~ 20

50

24

28

10

/

.......

. . . . r-.....
20

32

40

60

/

.........

o/

100

80

0

Ambient Temperature TA (OC)

Forward Voltage VF (V)
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

10

20

30

40

50

Forward Current I F(mA)
FIG.14 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT.

FIG 13 FORWARD CURRENT
DERATING CURVE

O'

10'

20'

30'

50'
60'
70'
80'
01L-~---L--~--L-~--~---L--~--~~

-30

-20

-10

10

20

30

Ambient Temperature TA (OC)

FIG 15 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

40

50

60

70

o9

07

0.5

0.3

01

02

04

06

08

10

FIG.16 SPATIAL DISTRIBUTION

2-244
523

ILITEr.] ~ II

2.4xS.O RECTANGULAR BAR
LED LAMPS
LTL-23201AL REO
L TL-23231AL GREEN
L TL-23211AL BRIGHT RED
L TL-23251AL YELLOW
LTL·23221AL HIGH EFFICIENCY REO LTL·23291AL ORANGE

FEATURES
• LOW POWER CONSUMPTION .
• MOST SUITABLE FOR USE LIKE LEVEL INDICATOR.
.
.EXCELLENT UNIFORMITY OF LIGHT EMITTANCE .
• LONG LIFE-SOLID STATE RELIABILITY .
• I.C. COMPATIBLE.

DESCRIPTION
The Red source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made lII(ith Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

-----,
- --0- __

PACKAGE DIMENSIONS
5 0
(.197)

lENS
COLOR

DIFFUSION

23201AL

Red

Diffused

Red

23211 AL

Red

Diffused

Bright Red

SOURCE
COLOR

I

I

2.4
094 )

8.

(.3

I

L
t

PART
NO.
lTl-

IC·

I

SEE NOTE 3

DEVICES

I
I

I

25.

0)

MIN

!J

I

1•
•0

I

2.54 

.!O
on
<:

e<:

0.5

Q)

>
.;;
ctJ

iii

a:

500

550

600

650

700

Wavelength ~ (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-246

525

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

23201AL
23211AL
23221AL

0.08
0.2
0.4

0.2
0.4
1.3

mcd

IF = 10 mA
Note 1

Viewing Angle

20%

23201AL
23211AL
23221AL

130

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

23201AL
23211AL
23221AL

655
697
635

nm

Spectral Line
Half Width

AA

23201AL
23211AL
23221AL

24
90
40

nm

Forward Voltage

VF

23201AL
23211AL
23221AL

1.7
2.1
2.0

Reverse Current

IR

23201AL
23211AL
23221AL

Capacitance

C

23201AL
23211AL
23221AL

PARAMETER
Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
Peak (Fig. 1)

@

2.0
2.8
2.8

V

100

JJ.A

VR '" 5V

PF

VF = 0
f= 1 MHZ

30
55
20

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. 0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

.s
c

!J
I III
;/3221 A~ I
/
23211Al
II
I I
I III
II I
J
1/V 23201,Al

40
30

l'
~

u

20

o

12

16

20

50

60

I

«E

i:"

50

in
c

2

:;- 40
2320lAl

C
l' 30
~
u
'E 20
;:
'"

:;

LL

24

28

23221 Al

23211Al

10

20

32

- ....

........

i:"

23211 Al
23221Al

..... ,.... ~ ~
.....I- ~
40

20

60

80

l-

V

">

,

"'"

"iii
0:

23211Al

-'1

aP
o

100

-

1£..-

10

10

20

30

40

Forward Current IF (rnA)

FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
0"

10"

20"

i"'- ~ I:::::,..
40"
1.0

05

0.9

50"

...J

60"

">

70"

~ 02
"iii

80"

0:

01
-30

2-247
526

1/

23201 Al

FIG 3 FORWARD CURRENT
DERATING CURVE

~

E
:J

...J

E
:J

".......

/'

/

V

23201 Al

2

.s
'"
g

"'-

30

~

Ambient Temperature TA (0 C)

FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

in
c

23221AlV

'c"
0

........

Forward Voltage VF (VI

~

/

40

.s

~-1-~q::=!-+--A-++H-t 90"

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

0.5

0.3

0.1

02

04

0.6

FIG. 6 SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

23231AL
23251AL

0.4
0.4

1.3
1.3

mcd

IF =10mA
Note 1

Viewing Angle

20)1,

23231AL
23251AL

130

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

APEAK

23231 AL
23251AL

565
585

nm

Spectra I Li ne
Half Width

"A

23231AL
23251 AL

30
35

nm

Forward Voltage

VF

23231AL
23251 AL

2.1

Reverse Current

IR

23231 AL
23251 AL

Capacitance

C

23231 AL
23251 AL

PARAMETER
Luminous Intensity

MAX.

TEST
CONOITION

UNIT

Measurement
Peak (Fig. 1)

@

IF = 20 mA

2.8

V

100

/-LA

VR = 5V

PF

VF=O
f = 1 MHZ

35
15

NOTES: 1. Luminous intensity IS measured with a light sensor and filter combination that approximates the CIE
(Commission Intemationale De L'Eclairage) eye-response curve.
2.0)1, is the off-axis·angle at which the luminous intensity is half the axial luminous intensity.
50
23231AL

:;r

40

E

1/4325iAL

~

30

u

20

/I

~

"~~

60

IA

III

rl

E
~

~

If

in

40
23231AL

30

~

":;~

u.

/

t '"r--.

r--...

20
2i
10

251

i'"

V

o

12

16

20

24

28

J

40

§

23231 AL/,t
23251AL

£

u

VI

10

50

:;r

-

50
~

32

20

40

"'"c0

3D

"w

20

E

...J

........
........

'" ,

60

/

>

iii

w

~ .....
80

V

10

c::

1/

oV
o

100

10

Ambient TemperatureTA (Oel

Forward Voltage VF (V)

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

r- -

••

20

30

40

50

Forward Current IF (rnA)

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

O'

10'

20'

I

30'

23~51AL
1

F= 23231AL

5

o1

40'

1.0

0.9

50'

08

60'

07

70'
80'

H--t--t-M+-+-F-r-"H-++-t 90'

-30

-20

-10

10

20

30

40

Ambient TempelatureTA {OCI
FIG'O LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05
FIG."

03

01

02

04

06

SPATIAL DISTRIBUTION

2-248
527

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

PART NO.

SYMBOL

LTL-

MAX.

TYP.

UNIT

0.4

1.3

mcd

IF=10mA
Note 1

130

deg.

Note 2 (Fig. 16)

Iv

23291AL

Viewing Angle

28%

23291AL

Peak Emission
Wavelength

~PEAK

630

nm

Spectral Line
Half Width

A~

40

nm

Forward Voltilge

VF

2.0

Reverse Current

IR

Capacitance

C

Luminous Intensity

TEST
CONDITION

MIN.

Measurement
Peak (Fig. 1)

@

IF =20mA

2.8

V

100

p,A

VR =5V

PF

VF =0
f = 1 MHZ

20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve.
2.8% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

«

60

I

I

40

E

«E

<;;

~ 10

~ 30
::>
u
"E 20

......

~ 10

LL

/

'-,

~

II

0

/

E

I

"C

/

50

:; 40

I
II

~

E 30
i"
:;
u 20

50

'-

V

o

1.2

1.6

20

24

2.8

3.2

20

Forward Voltage VF (VI
FIG.12 FORWARD CURRENT VS
FORWARD VOLTAGE

40

60

/

/

r-... .......
80

o ./
o

100

AmbIent Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

10

O·

i':"

20

30

40

Forward Current IF (mA)
FIG.14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

10'

20'

2

30'

0;

c

--

l'J

E

~

::>

o

E
::>

40'

1.0

c

0.5

0.9

50'

0.8

60'

..J
Q)

>

;

Q;

a:

0.2

70'

0.7

I++HI'-f'++--t==f--'!H+--H

o1
-30

-20

-10

10

20

30

40

AmbIent Temperature TA (OC)
FIG 15 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

0.5

03

0.1

0.2

0.4

06

FIG.16 SPATIAL DISTRIBUTION

80'
90'

50

ILlTErl] ~ II

2.Ox6.0 RECTANGULAR BAR
LED LAMPS
L TL·23254A YELLOW
L TL·23274A AMBER

L TL·23214A BRIGHT RED
LTL-23234A GREEN

FEATURES
• LOW POWER CONSUMPTION.
eMOST SUITABLE FOR USE LIKE LEVEL INDICATOR.
e EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
e LONG LIFE-SOLID STATE RELIABILITY.
el.C. COMPATIBLE.

DESCRIPTION
The Bright Red source color oevices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

PACKAGE DIMENSIONS

.Ei=::r----.1

2.6

~(.'1)

6.0

t

1(.08
~
1

F1
I

I

DEVICES

j

I

~I

SEE NOTE 3

PART
NO.
LTL-

LENS
COLOR

DIFFUSION

23214A

Red

Diffused

Bright Red

23234A

Green

Diffused

Green

23254A

Yellow

Diffused

Yellow

23274A

Amber

Diffused

Amber

SOURCE
COLOR

t

25. 4 MIN
(1. 0)

Ll

1.0
(.04

2.54
(.1

NOM

t

NOTES.
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-250
529

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
BRIGHT RED

GREEN

YELLOW
AMBER

UNIT

Power Dissipation

40

100

60

mW

Peak Forward Current
(1/10 Duty Cycle. 0.1ms Pulse Width)

60

120

80

mA

Continuous Forward Current

15

30

20

mA

Derating Linear From 25°C

0.2

0.4

0.25

mAtC

5

5

5

V

750

800

PARAMETER

Reverse Voltage
Operating Temperature Range

-55°C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

2600 C for 5 Seconds

Green

1.0

Yellow
Amber

Bright Red

.f'
'"c:

...'"c:
...'"

.

f,;

70"

a; 02
a:

07

80"

!-+--l--+---Pf:==i--++=1Z-f---+++i
0.1
-30

-20 _-10

10

Ambient Temperature TA

30

40

(0 C)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

05

70

FIG

6

03

01

02

04

90"

06

SPATIAL DISTRIBUTION

2-252
531

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PART NO.
LTL-

MIN.

Iv

23234A,
23254A

0.3
0.5

Viewing Angle

28%

23234A
23254A

Peak Emission
Wavelength

APEAK

Spectral Line
Half Width

PARAMETER

SYMBOL

TYP.

MAX.

TEST
CONDITION

UNIT
mcd

IF = 10mA
Note 1

125

deg.

Note 2 (Fig. 11)

23234A
23254A

565
585

nm

Measurement
@ Peak (Fig. 1)

AA

23234A
23254A

30
35

nm

Forward Voltage

VF

23234A
23254A

2.1'

Reverse Current

IA

23234.A;
23254A

..

Capacitance

C

23234A
23254A

35
. 15

Luminous IntensitY

0.75
1.7

.

.

IF =20mA

28

V

tOO

p.A

VA = 5V
VF =0

PI'" .

f,'" 1MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination'that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2.9% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

40

~

30

!J

~

"
~
"

u

"E

u.

E

'I

;;;

§
00

E
~

"
~
"

30

"E 20

10

u.

/,
~

o

12

16

20

24

2B

TT

10

3,2

20

Forward Voltage VF (VI
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

::I

30

E
.3

20

a
c

23234A

u

Iff

.J

40

~3234y,;(
' 23254A

E

40

~

if

20

50

i!'

50

~

I ~325~A r-

E
E

60

IA
23234A/V

"'- i'..
........

j'-...

40

m

60

iii

'iD

r-.;:: ~
BO

a:

10

.....

oV
o

100

V
1/
10

Ambient TemperatureTA (DC)

FIG 8 FORWARD CURRENT
DERATING CURVE

;;;

TA

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

40'

10

a

05

09

..J

50'

08

m

>

02

07

o1
-30

2-253

20'

!=-23234A

00

::I

532

10'

2k54A

E

~

40

30'

c

a:

30

2

m

~
::I

20

Forward Current IF (rnA)

O'

i!'

I'

)

>

"'-

j'-... r--..

r- r-

-20

-10

10

20

30

40

Ambient TempelatureTA (DC)
FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

60'
70'

BO'
H-+-H~=f-+--Flq-+H'" 90'

o5

03

0,1

02

0,4

0B

FIG. 11 SPATIAL DISTRIBUTION

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

PART NO.
LTL-

MAX.

TYP.

UNIT

0.5

1.7

mcd

IF = 10 mA
Note 1
Note 2 (Fig. 16)

Iv

23274A

Viewing Angle

20Y:.

23274A

125

deg.

Peak Emission
Wavelength

~PEAK

23274A

600

nm

Spectral Line
Half Width

,,~

23274A

35

nm

Forward Voltage

VF

23274A

2.1

Reverse Current

IR

23274A

Capacitance

C

23274A

Luminous Intensity

TEST
CONDITION

MIN.

Measurement
Peak (Fig. 1)

@

IF = 20 mA

2.8

V

100

!J.A

VR =5V

PF

VF = 0
f= 1MHZ

1.5

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye·response curve.
2. oY:. is the off·axis angle at which the luminous intensity is half the axial luminous intensity.
60

50

'/

40

«
E

/

~

5

u.

40

I

e
:; 30

I

u
"E 20
'";:

:;

u
"E 10
'";:

50

c

/

~ 20

5.0

/

I'-- .......

5 10

u.

o
12

16

2B
2.0
24
Forward Voltage V, IVI

20

32

40

r--...

/
........

60

.......

J

r--.

BO

o /'

20
10
30
40
Forward Current IFlmAI
FIG 14 RELATIVE LUMINOUS

100

0

Ambient Temperature TA (Oe)

FIG 13 FORWARD CURRENT
DERATING CURVE

FIG. 12 FORWARD CURRENT VS.
FORWARD VOLTAGE

INTENSITY VS FORWARD
CURRENT.

O'
~

10'

20'

2~-+---r--1---+-~r--+--~--+---+-~

30'

in
c
ru

LJ~~~~~~~~~~~~~~~~~~

£
j

~-+---r--1---+-~---+---r--+---~~

0.9

">

a:

07

__- L__
-20 -10

01L-~

-30

~

__~__L-~__- L__J -__L-~

10

20

30

Ambient Temperature TA (OC)

FIG. 15 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

40

50

60

70

40'

10

OB

~ 02~~---+--1---+---~-+---r--1---+-~

50

50'
60'
70'
BO'
H-1-H--'I"=t-1---Ff-l-+-r+-i 90'
0.5

03

01

02

0.4

06

FIG 16 SPATIAL DISTRIBUTION

2·254
533

2.5x7.1 RECTANGULAR BAR
LED LAMPS

ILITEre] ~ II

LtL-3213A· BR·IGHT RED
LrL~3223A HI. EFF •. RED·
·lTI..-3233A ·GREEN .

LTl-3253A YELLOW
l Tl-3293A ORANGE

FEATURES
• LOW POWER CONSUMPTION.
• MOST SUITABLE FOR USE LIKE LEVEL INDICATOR.
• EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
• LONG LIFE-SOLID STATE RELIABI LlTY.
el.C. COMPATIBLE.

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide on
Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

1 ,

PACKAGE DIMENSIONS

I
7.7

I

L

I

-1"

SEE NOTE~

DEVICES
PART
NO.
LTL-

COLOR

DIFFUSION

3213A

Red

Diffused

Bright Red

3223A

Red

Diffused

Hi. Eff. Red

3233A

Green

Diffused

Green

3253A

Yellow

Diffused

Yellow

3293A

Orange

Diffused

Orange

LENS

c
c

liS

I

U~

534

1.0
( o04)MIN

2.54 NOM

(01

2-255

--- -f€S

w

SOURCE
COLOR

2.5± 0.2
.098±.OOB)

'.

1

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
BRIGHT
RED

GREEN

YELLOW

HI. EFF. RED
ORANGE

UNIT

Power Dissipation

40

100

60

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pu Ise Width)

60

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating linear From 25°C

0.2

0.4

0.25

0.4

mAfC

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

_55° C to +100° C

Storage Temperature Range

_55° C to +100° C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260° C for 5 Seconds

Green Yellow

Hi. Eff. Red
Orange Red

Bright Red

1.0 ,-------,-7""i~7""i:__r--____:""'___.7"r--~__..;;::__---.....,...----...,

>-

~

.u;
c:
~
c:

.,

0.5

>
.;::;
co

a;

rc

500

550

600

650

700

750

800

Wavelength A. (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-256
535

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

3213A
3223A

0.3
1.1

0.7
2.5

mcd

IF == 10mA
Note 1

Viewing Angle

2814

3213A
3223A

130

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

3213A
3223A

635

nm

Spectral Une
Half Width

AA

3213A
3223A

90
40

nm

Forward Voltage

VF

3213A
3223A

2.1
2.0

Reverse Current

IR

3213A
3223A

Capacitance

C

3213A
3223A

PARAMETER
Luminous Intensity

MAX.

TEST
CONDITION

UNIT

697

Measurement
Peak (Fig. 1)

@

IF == 20mA

2.8

V

100

p.A

VR ==5V

PF

VF =0
foo 1 MHZ

66
20

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2. 0% is the off-axis anqle at which the luminous intensity is half the axial luminous intensitv.
50



a;

r- ~
80

II:

o~
o

.......
100

~

10

Ambient Temperature TA(OC)

FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

2

~

r-:::: ~~

E

FIG 3 FORWARD CURRENT
DERATING CURVE

">
~II:

FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

20'

40'

10

0.9

50'

08

60'

02

70'

07

80'

t-+-HI-'I--t='1-+-A++-1-H 90'

-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

536

10'

30'

05

o1
2-257

40

::::::: ::::::- l:::--

""'o

~
.3

30

I

- 3223A

~

20

Forward Current IF (mAl

O'
~

-

3213A

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

0.5

0.3

01

02

0.4

FIG. 6 SPATIAL DISTRIBUTION

06

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

PART NO.
LTL-

SYMBOL

3233A,
3253A

Iv

Luminous Intensity

TEST
CONDITION

MIN.

TYP.

UNIT

0.8
0.5

1.9
1.7

mcd

IF = 10 mA
Note 1
Note 2 (Fig. 11)

MAX.

Viewing Angle

20%

3233A
3253A

130

deg.

Peak Emission
Wavelength

~PEAK

3233A
3253A

565
585

nm

Spectral Line
Half Width

A~

3233A
3253A

30
35

nm

Forward Voltage

VF

3233A
3253A

2.1

Reverse Current

IR

3233A
3253A

Capaci tance

C

3233A
3253A

Measurement
@ Peak (Fig. 1)

IF = 20 mA

2.8

V

100

!LA

VR =5V

PF

VF =0
f= 1 MHZ

35
15

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. oY.. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

Iii
3233A/II
14253~ - r-'I

40
30

50

::i

E
~

~:;

II
I

20

o

12

16

a

u.

20

40

~

~

24

28

a

3233A

"r--.

~

i""'-

3253A

I

10

32

20

Forward Voltage,VF IVI
FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

3233A.t-1
tV 3253A
30

1#

~

30

~

/
~

40

E

u
l' 20

/I

10

50

?:
~
:i;'

40

E

.3

.......
I"---

/

20

<1>

>

""'"

60

g
0;

~ i'o-.

80

Ambient Temperature

100

c:

10

o 1/

o

V
1/
10

TA (OC)

FIG 8 FORWARD CURRENT
DERATING CURVE

2

~

<1>
~

40'
1.0

05

09

.3

50'

08

<1>

>

~

50

20'

1 F=3233A

~

c:

40

30'

a

~

10'

32~3A

~

E

30

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·
?:

2D

Forward Current IF (rnA)

60'

02

70'
07

80'

I-++-H-t==t-+-Ft-++-H-j 90'

o1
-30

-20

-10

10

20

30

40

Ambient TempelatureTA (OC)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

050.301

020406

FIG 1.1 SPATIAL DISTRIBUTION

2-258

537

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
TEST
CONDITION

SYMBOL

PART NO.
LTL-

MIN.'

TYP.

Iv

3293A

1.1

2,5

moo

IF=10mA
Note 1

Viewing Angle

2eYo

3293A

,130

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

i\PEAK

3293A

630

om

Measurement
@Peak (Fig. 1)

Spectral Line
Half Width

Ai\.

3293A

40

nm

Forward Voltage

VF

'3293A

2,0

Reverse Current

IR

3293A

Capacitance

C

3293A

PARAMETER
Luminous Intensity

MAX.

UNIT

2.8

V

IF "'20mA

100

J.lA

VR "'5V

'\IF =0

PF

20

f=, 1 MHZ:,

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'EcJairage) eye-response curve.
2. BY:. is the off-axis angle at which the luminous intensity is half the aXial luminous intensity
50



20

'a:"

10

V
I

g"

I' I'

/

o

30

c:

~ 30

u-

/

",'

:J

c:

I

J

40

E

80

100

Ambient Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

/

/

o ,/
o

10

20

o·
~

300

--

1

'"o

:J

05

0.9

:J

-'

02

538

60'
70'

07

01
-30

2-259

50'

08

g">

&!

40'

10

c:

E

40

10'

2

u;
c:

£"

30

Forward Current IF (mA)
FIG. 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

-20

-10

10

20

30

40

• Ambient Temperature TA (OC)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
, TEMPERATURE

50

60

70

BO'

J-t--t-H-t==t-+-Ff-f-+H-j
o5 0 3 0 1 0 2 04 0.6
FIG.16 SPATIAL DISTRIBUTION

\

90'

50

DOUBLE 2.0 SQUARETQP LED
LAMPS

ILITEr.] ~ II

, LTL·23276A AMBER
LTL·23296A, DR~NGE

L TL·23216A BRIGHT RED
L TL~23236A 'GREEN
L TL·23256A YELLOW

FEATURES
• LOW POWER CONSUMPTION.
FOR
USE LIKE LEVEL
• MOST SUITABLE
INDICATOR.
• EXCELLENT UNIFORMITY OF LIGHT EMITTANCE.
• LONG LIFE-SOLID STATE RELIABILITY .
• I.C. COMPATIBLE.

DESCRIPTION
•

The bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Orange source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Orange
Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

,

J

PACKAGE DIMENSIONS
5.9±O.2
(.232 ± .008)
I.g
(.075)

2.8
(.11)
1.9::!:O.2

(.07S::!:.008)

+

--=='"N7

1

seE NOTE 3_

DEVICES
PART
NO.
LTL-

COLOR

DIFFUSION

23216A

Red

Diffused

Bright Red

23236A

Green

Diffused

Green

23256A

,Yellow

Diffused

Yellow

23276A

Amber

Diffused

Amber

23296A

Orange

Diffused

Orange

LENS

SOURCE
COLOR
:I:

(.,

NOM

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.
2-260

539

ABSOLUTE MAXIMUM RATINGS AT TA
BRIGHT

PARAMETER

RED

Power Dissipation

=25°C
GREEN

YELLOW
AMBER

ORANGE

UNIT

40

100

60

100

mW

60

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating Linear From 25°C

0.2

0.4

0.25

0.4

mAtC

5

5

5

5

V

Peak Forward Current
(1 /1 0 Duty Cycle. 0.1 ms Pulse Width)

Reverse Voltage
Operating Temperature Range

_55° C to +100° C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (O.063in) From Body)

260° C for 5 Seconds

Green

Yellow
Amber

Hi. Eff. Red
Orange

Bright Red

1.0r---------~,_.-~._._----~~,_------~~~------_.--------_,

......c:>2l
c:

0.5

~----+-~_\_---\1r__I_.---IA_----_I_-----''rl----__i

.:::...'"
ro

iii

II:

500

550

600

650

700

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-261
540

750

800

ELECTRICAl/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

PART NO.
LTL·

SYMBOL

Iv

23216A

Viewing Angle

20%

23216A

Peak Emission
Wavelength

lI.PEAK

Luminous Intensity

MIN

TYP

0.1

0.3

mcd

120

deg.

697

nm

nm

Spectral line
Half Width

"-lI.

90

Forward Voltage

VF

2.1

Reverse Current

IR

Ca paci ta nce

C

NOTES:

MAX

TEST
CONDITION

UNIT

IF = 10mA
Note 1
Note 2 (Fig. 6)
Measurement
@ Peak (Fig. 1)

2.8

V

100

J.lA

VR =5V

PF

VF = 0
f= 1MHz

55

IF = 20mA

1.

Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye·respose curve.
2. 8% is the off·axis angle at which the luminous intensity is half the axial luminous intensity.
50

50

60

1
I

<{ 40

.s
.!:

50

i:"
~

40

-;;;" '"

..... r-60

" E

~~

--

80

r-...

10

20

30

40

50

Forward Current IF(mA)

FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

I--r--



a:

o

FIG. 3 FORWARD CURRENT
DERATING CURVE.

:J

iii
a;

/'

oV

100

-

/--

10

AmbIent Temperature TA (OC)

FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE.

i:"

30

!; ~

30

u
"E 20
;:
'"

I

LL

o

5

40

!!l

02

0.7

01
-30

-20

-10

10

20

Ambient Temperature TA

30

40

(OC)

FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

o5

03

0.1

·0.2

0.4

0.6

FIG 6 SPATIAL DISTRIBUTION

2·262
541

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PART NO.
LTL-

MIN

TYP

Iv

23236A
23256A

0.4
0.4

1.2
1.2

mcd

Viewing Angle

28%

23236A
23256A

120

deg.

Peak Emission
Wavelength

APEAK

23236A
23256A

565
585

nm
nm

PARAMETER

SYMBOL

Luminous Intensity

Spectral Line
Half Width

AA

23236A
23256 A

30
35

Forward Voltage

VF

23236A
23256A

2.1

Reverse Current

IA

23236A
23256A

Capacitance

C

23236A
23256A

MAX

= 2SoC
TEST
CONOITION

UNIT

IF = 10mA
'Note 1
Note 2 (Fig. 11)
Measurement
Peak (Fig. 1)

@

2.8

V

'.
IF =20mA
;

100

/J.A

• VA =5V

PF

: VF =0
f'" 1MHz

35
15

.,

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-respose curve.
2. 8% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50



iii

"

60

I

Q;

r--:: ~
80

a:

10

.....

o/
o

100

L

I

10

Ambient Temperature TA (OC)

20

30

40

Forward Current IF (rnA)

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·
i:'

30'

2

in

c:

'"
E
'"o

J256A
1 =23236A

~

~

05

0.9

~

..J

02

70'
80'

H--t-H-t-'T-+-f-t-+-+-t-+-I 90'

-30

-20

-10

10

20

30

40

Ambient Tempelature TA 1°C)

542

60'

07

o1
2-263

50'

0.8

'">

~

a:

40'

1.0

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

0.1

0.2

0.4

FIG 11 SPATIAL DISTRIBUTION

0.0

50

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

PART NO.
LTL-

MIN

TYP

Iv

23276A
23296A

0.4
0.4

1.2
1.2

mcd

IF = 10mA
Note 1

Viewing Angle

2911;,

23276A
23296A

120

deg.

Note 2 (Fig. 16)

Peak Emission
Wavelength

i\ PEAK

23276A
23296A

600
630

nm

PARAMETER

SYMBOL

Luminous Intensity

Spectra I Li ne
Half Width

~i\

23276A
23296A

40

Forward Voltage

VF

23276A
23296A

2.1
2.0

Reverse Current

IR

23276A
23296A

Capacitance

C

23276A
23296A

MAX

TEST
CONDITION

UNIT

35

Measurement
@ Peak (Fig. 1)

nm

2.8

V

100

JJ,A

VR =5V

PF

VF =0
f= lMHz

15
20

IF = 20mA

1. Luminous intensity is measured with a light sensor and filter combination that

NOTES:

approxima~es

(Commission Internationale De L'Eclairage) eye-res pose curve.
2. 911;, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

I
I

i!'

5

E
~

I

~

5

I

u 20
"E
;:
'"

I I

.b

o
12

;:-

40

E

in

c:

2l

3D

~

0
LL

/

16

20
24
2.B
Forward Voltage VF IVI

'"

:J
0

23296A

u
"E 20

II

~ 10

-, --,

50

50

;{

123276A

23296A
c: 3D

60

II
V

2i27y
10

32

I

/

40

23296A

/

3D

c:

""r--. r-...
........

20

40

I"

E

:J
..J

20

;,

Ql

""""

60

>

iii

~~

BO

"a:

I

-,-

23276A, "

/

1/

01/
0

10

3D

20

40

50

Forward Current IF (mAl

Ambient Temperature TA {OCI

FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

Iv

,

1

:

I

10

100

the CIE

'

FIG 14 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 13 FORWARD CURRENT
DERATING CURVE

;:in

c:

2l

23)76A

E

'"o

:J

c:

E

23296A-=

05

:J
..J

1.0
O,g

OB

Ql

>

~

a:

02

0.7

01

-3~

-20

-10

0

10

20

3D

40

Ambient Temperature TA (OC)

FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE.

50

60

70

o5

0,3

0.1

02

04

FIG 16 SPATIAL DISTRIBUTION

a6
2-264
543

.

ILITEr·) ~ II

,~

-

DOUBLE 1~5x5 RECTANGULAR
TOP LED LAMPS
l Tl-472P BRIGHT RED
l Tl-472G GREEN'
l Tl-472Y YEllOW

FEATURE
• LOW POWER CONSUMPTION
• MOST
SUTIBLE
FOR
USE
LIKE
LEVEL
INDICATOR
• LONG LIFE SOLID STATE RELIABI LlTY
.I.C. COMPATIBLE.

jI

I
,

c .

DESCRIPTION
The Bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are
made with Gallium Arsenide Phosphide on Gallium
Phosphide Yellow Light Emitting Diode.

PACKAGE DIMENSIONS

I

--f--

--

--

I

rr

1..
,

DEVICES
PART
NO.
LTL-

COLOR

DIFFUSION

472P

Red

Diffused

Bright Red

472G

Green

Diffused

Green

472Y

Yellow

Diffused

Yellow

LENS

~~

SOURCE
COLOR

1.0(.04 )MIN

2.54 NOM

.2-265

544

7 MIN
c. 5)

f

t

Oo. 5
C.02)TYP

m
I.

0 •• 95
(.195)

I

")

NOTES:
1. All dimensions are in millimeters {inches!'
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1 .5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice .

ABSOLUTE MAXIMUM RATINGS AT TA

= 25°C

BRIGHT

PARAMETER

GREEN

YELLOW

UNIT

40

100

50

mW

60

120

80

rnA

Continuous Forward Current

15

30

20

mA

Derating Linear From 25c C

0.2

0.4

0.25

mAlC

5

5

5

V

RED

Power Dissipation
Peak Forward Current
,1/10 DutyCycle, O.lms Pulse Width)

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55°C to +100°C

Lead Soldering Temperature

250°C for 5 Seconds

[1.6mm (O.063in) From Body 1

Vel/ow
Green

1.0

.~

....

Bright Red

r---------.-~~~.-.---------,_------~~~------_r--------_,

0.5 ~--------~--~_4~--~--------~~--------_r--------~r_--------_l

'"
OJ

a:

II>

a:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2·266
545

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL-

SYMBOL

MIN.

TYP.

MAX.

=

25°C
TEST
CONDITION

UNIT'

0.3

mcd

IF'" WmA
Note 1

472P

200c

deg.

Not~ 2 (Fig, 6)

APEAK

472P

697

nm

Measurement
@ Peak (Fig, 1)

Spectral line
Half Width

t.A

472P

90

nm

Forward Voltage

VF

'472P

2.1

Reverse Current

IR

472P

Capacitance

C

472P

Iv

472P

Viewing Angle

Ze% .

Peak EmiSSion
Wavelength

Luminous Intensity

0.1

2.8

V

100

IJ.A

VR "'5V

PF

. VF =0
f= 1 MHz

55

IF "'20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission I nternationale De L'Eclairage) eye-response curve.
2. 0% is the off-axis angle at which the lum inous intensity is half the axial luminous intensity.
50

«
.s

I
I

40

«
.s
~,

~

1: 30

1:

5
u 20
"E

5

~

~

I

0 10
u.

~c:

50

.£"
"'"a

40

1.2

2.0

1.6

;:
'"
0
u. 10

2.4

2.8

"

2.0

iii
Q;

10

...J

--

/

o

20

32

t.......

40'

l- t60

-

80

FIG 3 FORWARD CURRENT
DERATING CURVE.

-

">

c:

t.......
100

Ambient Temperature TAI(OC)

Forward Voltage VF ~VI
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

30

c:

"E 20

/

40

·E

30

u

I

~

5.0

60

I

/"

/

oV

o

10

0'
3
>-

Jji

-

2

c:

2l

E

"'"ac:

E
.3

">
~
c:

--

0.5

r--

20

30

40

50

Forward Current 1,'(mAI
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

10'

20'

30'

-70 0

0.2
I-++H4.-I-H-=t:l=-~a+-t-b'f-++-Ir-t-l 90'

2-267

546

01
- 30

-20

-10

10

20

30

40

Ambient Temperature TA (OCI
FIG.5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

0.8
FIG. 6 SPATIAL DISTRIBUTION

1.0

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
SYMBOL

PART NO.
LTL-

MIN.

Iv

472G
472Y

0.3
0.3

Viewing Angle

20Y:.

Peak Emission
Wavelength

PARAMETER

TYP.

MAX.

TEST
CONDITION

UNIT

07
0.7

mcd

IF = 10 mA
Note 1

472G
472Y

200 0

deg.

Note 2 (Fig 11)

APEAK

472G
472Y

565
585

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

Ai\

472G
472Y

30
35

nm

Forward Voltage

VF

472G
472Y

2.1

Reverse Current

IR

472G
472V

Capacitance

C

472G
472Y

Luminous Intensity

= 20 mA

2.8

V

100

IJ.A

VR '" 5V

PF

VF = 0
f'" 1 MHz

35
15

IF

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternatlonale De L'Eclairage) eye-response cu rve.
2. OY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50



'"

~

02 f--t---+---/---t----il--t---+---/---i----i

0::
01L--L---L--L-~---L--~~---L--~~

-30

-20

-10

10

20

30

40

Ambient Temperature TA (Oe)

FIG 10 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

2-268

60
FIG 11 SPATIAL DISTRIBUTION

547

ILITEr.] ~ II

3.0, 5.0 SQUARE TOP LED LAMPS
LTL-9212A/9213A BRIGHT REO
L TL-9222A/9223A HIGH EFFICIENCY REO
LTL·9232A/9233A GREEN

LTL·9252Al9253A YELLOW
. L TL·9272A/9273A AMBER
L TL·9292A/9293A ORANGE

FEATURES
• LOW POWER CONSUMPTION.
FOR
USE LIKE LEVEL
• MOST SUITABLE
INDICATOR.
• EXCELLENT UNIFORMITY OF LIGHT EMIT·
TANCE.
• LONG LIFE-SOLID STATE RELIABILITY.
.I.C. COMPATIBLE.

R

DESCRIPTION
The bright Red source color devices are made with
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode.
The High Efficiency Red and Orange source color
devices are made with Gallium Arsenide Phosphide
on Gallium Phosphide Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow and Amber source color devices are made
with gallium Arsenide Phosphide on Gallium Phosphide
Yellow Light Emitting Diode.

II

PACKAGE DIMENSIONS
LTL-92x3A Series

!

I
LTL-92x2A Series

~

~IT'008)

3.a±o 2

:D

~

(.15±.008)

I
N

3.0±O.2
(.118±"OD8J

"'T"

SEE NOTE l

Z.O±O.2

T

I

L
t

$ -1

25.4
(100r'N

3.0±O.2
(.118±.008)
5 Typ---2)

:-

3r==f.:~t:=t=::

(.1)

2-269
548

NOM

9

--1
•• 0
(.236)

-- -- ---.l

C~~~)M IN

2.54 NOM

(.1

2,54

U

I

I
SEe NOTE

7.0±O.25
O.7:!:O.2 (. 276!.012)

t

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package ..
5. Specifications are subject to change without notice.

DEVICES
PART
NO.
LTL·

COLOR

9212A

LENS
DIFFUSION

SOURCE
COLOR

PART
NO.
LTL·

COLOR

DIFFUSION

SOURCE
COLOR

Red

Diffused

Bright Red

9213A

Red

Diffused

Bright Red

9222A

Red

Diffused

Hi.Eff.Red

9223A·

Red

Diffused

HLEff.Red

9232A

Green

Diffused

Green

9233A

Green

Diffused

Green

9252A

Yellow

Diffused

Yellow

9253A

Yellow

Diffused

Yellow

9272A

Amber

Diffused

Amber

9273A

Amber

Diffused

Amber

9292A

Orange

Diffused

Orange

9293A

Orange

Diffused

Orange

LENS

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
BRIGHT
RED

GREEN

YELLOW
AMBER

HI.EFF.RED
ORANGE

UNIT

Power Dissipation

40

100

50

100

mW

Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

50

120

80

120

mA

Continuous Forward Current

15

30

20

30

mA

Derating Linear From 25°C

0.2

0.4

0.25

0.4

mAtC

5

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
l1.5mm (0.053in) From Body)

260° C for 5 Seconds

Green

Yellow
Amber

Hi. Eff. Red
Orange

Bright Red

1.0,--------:~~~~_,----~~_.------~~~------_.--------,

>-

.~

'"

<:

~
<:

0.5 r----------t--~_;----~_i~-----_?~--------+_------~~----------~

Q)

...

.2
III

(jj

II:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH
2-270

549

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 25°C
PARAMETER

SYMBOL

Luminous Intensity

Iv

9212A
9222A
9213A
9223A
9212A
9222A
9213A
9223A

Viewing Angle

28%

Peak Emission
Wavelength

~PEAK

Spectral Line
Half Width

6~

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

PART NO.
LTL-'

MIN

TYP

0,3
0.5
0.2
0.5

0.8
1.7
0.6
1.7
100
100
150
150

MAX

mcd

IF = 10mA
Note 1

deg.

Note 2 (Fig. 6)
Measurement
@ Peak (Fig. 1)

9212A
9222A
9213A
9223A

697
635
697
635

nm

921:~A

90
40
90
40

nm

9222A
9213A
9223A
9212A
9222A
9213A
9223A
9212A
9222A
9213A
9223A
9212A
9222A
9213A
9223A

2.1
2.0
2.1
2.0

TEST
CONDITION

UNIT

IF =20mA

2.8

V

100

IJ.A

VR

PF

VF = 0
f = 1MHz

55
20
55
20

= 5V

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2.8% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~

.s

40
922ZA
9223AI

1: 3D
~
;;

~

"

u.

u
1': 20
;:
'"

"

u..

-II

o

12

16

20

24

~

§

28

~

9222A
9223A

r-

92112A
9213A

10

~

0

20

/9222A
9223A

30

c

E

""- r-....

~

-'

....... r--.. l"'- i'.
40

60

/

20

~

>

15

r--- r---

3.2

Forward Voltage VF (VI
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

/

40

.E

40

1:
~ 30
;;

I
I

10

50

i?:

50

~

.s

II
, 19212A
II 9213A

u 20
1':
u..

60

II
III
rI

ID

c::

~

80

""""100

Ambient TemperatureTA (Oe)
FIG 3 FORWARD CURRENT
DERATING CURVE

10

o~
o

~
~
~

E
~

~

o

9212A

---:::: ~t-

=

9222A
9223A

-

10

~~

-

9212A

1921~A
20

30

40

50

Forward Current IF (mAl
FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

00

i?: 2

f1'

~

100

~----';----'.----.--r--r--"---r-----'"

I::::::-

40'

50'

h5

60'

~

-'

~

>

~
c::

70'
02

80'

o1

-30

2-271
550

-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

H--t-t-l:-t+-P'H"T-+--r:=r-I-Lf-+++-1-+-+-I
o9 0 7 0 5 0.3 0.1 0.2 0.4 0.6 08 1.0
FIG. 6 SPATIAL DISTRIBUTION

90'

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

PARAMETER

SYMBOL

PART NO.
LTL·

MIN

TYP

Luminous Intensity

Iv

9232A
9252A
9233A
9253A

0.5
0.5
0.5
0.5

1.7
1.7
1.7
17

mcd

IF = 10mA
Note 1

Viewing Angle

2ey,

9232A
9252A
9233A
9253A

100
100
150
150

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

APEAK

9232A
9252A
9233A
9253A

565
585
565
585

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Half Width

AA

9232A
9252A
9233A
9253A

30
35
30
35

nm

Forward Voltage

VF

9232A
9252A
9233A
9253A

21

Reverse Current

IR

9232A
9252A
9233A
9253A

Capacitance

C

9232A
9252A
9233A
9253A

MAX

TEST
CONDITION

UNIT

2.8

V

100

IlA

VR= 5V

PF

VF = 0
f = 1MHz

35
15
35
15

IF = 20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye·response curve.
2. ey, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

~m~/I/

;;( 40

E

~
u

"~~

50

.s

/
'/9253A

30

I

20

~

~

/I

5

'C

~

II

9232A
9233A

30

16

12

20

24

28

I

'"
g

30

.........

9252A

9253A

~

20

Forward Voltage VF (V)

J

III

.........

">

"

40

iii

r-.... ........

w

r-...:: ::::::

60

....

80

/

o ,/

o

100

10

Ambient Temperature TA (OC)

20

30

40

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT
0'

10'

20'

30'

"'"-----.;-~,---.-...,--.--r_-"]"""-"""'71

1:'

2

50

Forward Current IF (rnA)

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

-

/

10

c::

'-

J

~O

..J

........

10

32

9232A
9233A/jo
9252A - 9253A- -

E

~

o

40

~

........

20

~

5

u.

J.

in

~

40

u

J

10

50

1:'

;;(

~252~- -

.s

!:

60

Iii

40'

9252A
9253A

in

c

"
E
'"a l=m~~

50'

~

~
.3

">
~

c::

05

60'

02

80'

70'

o1
-30

-20

-10

10

20

30

40

Ambient Tempelature TA (OC)

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

0.9

07

05

0.3

01

0.2

0.4

06

FIG 11 SPATIAL DISTRIBUTION

08

10

2-272

551

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

SYMBOL

Luminous Intensity

Iv

Viewing Angle

26Y.

Peak Emission
Wavelength

APEAK

Spectral Line
Half Width

AA.

Forward Voltage

VF

Reverse Current

IR

Capacitance

C

PART NO.
LTL·

MIN

TYP

0.5
0.5
0.5
0.5

1.7
1.7
1.7
1.7
100
100
150
150
600
630
600
630
35

9272A
9292A
9273A
9293A
9272A
9292A
9273A
9293A
9272A
9292A
9273A
9293A
9272A
9292A
9273A
9293A
9272A
9292A
9273A
9293A
9272A
9292A
9273A
9293A
9272A
9292A
9273A
9293A

TEST
CONDITION

UNIT

MAX

mcd

IF = 10mA
Note 1

deg.

Note 2 (Fig. 16)
Measurement
Peak (Fig. 1)

nm

40
35

@

nm

40
2.1
2.0
2.1
2.0

2.8

V

100

Jl.A

15
20
15
20

IF "'20mA

VR=5V
VF =0

PF

f'" 1MHz

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission IntenatlOnale De L'Eciairage) eye-response curve.
2. 6Y. is the off-axis angle at which the liminous intensity is half the axial luminous intensity.
50

1/

I
II

;;: 40
30

~

';

u

9mA
1 9273A

9293A

~

c

V

9291A

.§

I
I /

20

'E
;:
'"

60

J1
;;:
.§

e-

~

b

o
12

/

40
9292A
9293A

~

';

30

to 20

9272A
9273A

;:

5
u. 10

20

"...... ".......

l:J

24

2.8

40

20

32

Forward Voltage VF (V)
FIG 12 FORWARD CURRENT VS
FORWARD VOLTAGE

Ib
!J
",

........

'-.. I"60

~

~ ......

oV
o

100

80

10

30

20

10'

20'

30'

1

92 72A
9273A

.f

"'"ac

60'

~~m~

05

g'>"

a; 02
II:

2-273
552

50

40

2

."l

E
.3

/

Forward Current IF (mA)
FIG 14 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT

Ambient Temperature TA (OC)
FIG 13 FORWARD CURRENT
DERATING CURVE

O'
~
in
c

I

9mA
9273A

I

U

/

16

/
9292A
I- 9293,,/.

r-- -

C

I

5 10
u.

50

50

01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)
FIG 15 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

o9

07

05

03

01

0.2

04

06

FIG 16 SPATIAL DISTRIBUTION

0.8

10

3.2x5.6 REFLECTOR CAP
RECTANGULAR BARS

ILlTErl] ~ II

l Tl-33221AA HIGH EFFICIENCY RED
l Tl-33231AA GREEN
l Tl-33251AA YEllOW

APPLICATIONS
- LEGEND BACKLIGHTING.
-, LLUMINATED PUSHBUTTON.
-PANEL INDICATOR.
-.BARGRAPH METER.

DESCR IPTION
The High Efficiency Red source color devices are made
with Gallium Arsenide Phosphide on Gallium Phosphide
Orange Light Emitting Diode.
The Green source color devices are made with Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.
The Yellow source color devices are made with Gallium
Arsenide Phosphide on Gallium Phosphide Yellow Light
Emitting Diode.

-~
..

DEVICES
PART
NO.
LTL-

LENS
COLOR

DIFFUSION

33221AA

Red

Diffused

Hi. Eff. Red

33231AA

Green

Diffused

Green

SOURCE
COLOR

PACKAGE DIMENSIONS

(.

)

5.58

33251AA

Yellow

DIffused

Yellow

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm L010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059")
max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

(.22)MA

2.54
(.1

NOM

2·274

553

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

HI. EFF. RED

GREEN

YELLOW

UNIT

Power Dissipation

100

100

60

mW

Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

120

120

80

mA

Continuous Forward Current

30

30

20

mA

Derating linear From 25°C

0.4

0.4

0.25

mArC

5

5

5

V

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55°C to +100°C

lead Soldering Temperature
11.6mm (0.063in) From Body)

260° C for 5 Seconds

Green Yellow

HI. Eft. Red

1.0

......>c:
2l
c:

0.5

CIl

>

.~

'"

"iii

a:

500

550

600

650

700

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2·275
554

750

800

ELECTRICAl/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

PART NO.
LTL-

MIN.

TYP.

Iv

33221AA

1.1

3.8

mcd

IF = 20 mA
Note 1

20Y:.

33221AA

100

deg.

Note 2 (Fig. 6)

"II. PEAK

33221AA

635

nm

Measurement
@Peak (Fig. 1)

nm

Luminous Intensity

Viewing Angle
Peak Emission
Wavele~gth

Spectral Line
Hall Width

1:>",,-

33221AA

40

Forward Voltage

VF

33221AA

2.0

Reverse Current

IR

33221AA

Capacitance

C

33221AA

NOTES:

MAX.

UNIT

IF

2.8

V

100

JJ.A

VR = 5V
VF =0

PF

20

=20mA

f = 1MHZ

1. Luminous intenSity IS measured with a light sensor and tilter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2. OY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

L

25

i':

50

40
«
.§.

in

30

5
u 20

~

i'.

I

5 10
u-

1.6

12

2.0

'"g

15

E
:J

"- I.......

-'

r--.

V

o

20

:J

I

"E

<::

:g'"

/
II

~

~

TEST
CONDITION

SYMBOL

24

28

32

20

60

1/

'"

>

"'"
c::

r--. r-...... "
80

o k"
o

100

V

/

05

10

Ambient Temperature TA {eel

Forward Voltage VF IV)

FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE.

40

/

. 10

20

30

40

50

I--orward Current IF (rnA)

FIG. 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

FIG 3 FORWARD CURRENT DERATING
CURVE.

0'

10'

20"
30"

40"

10

09

50"

08

60"

70"

07

80"
__- L__L-~__- L__~~L--L__~~
-20 -10
10
20
30
40
50
60
70

90"

01L-~

-30

Ambient Temperature TA (OeJ

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

06

2-27"6

555

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
PARAMETER

PART NO.

SYMBOL:

LTL-

MAX.

TYP.

UNIT

-p

5.6
5.6

mcd

IF =20mA
Note 1

100

deg.

Note 2 (Fig. 11)
Measurement
@ Peak (Fig. 11

Iv

33231AA
33251AA

Viewing Angle

28%

33231AA
33251AA

Peak Emission
Wavelength

71. PEAK

33231AA
33251AA

565
585

nm

Spectral Line
Half Width

A7I.

33231AA
33251AA

30
35

nm

Forward Voltage

VF

33231AA
33251AA

2.1

Reverse Current

IR

33231AA
33251AA

Capacitance

C

33231AA
33251AA

Luminous Intensity

TEST
CONDITION

MIN.

\

IF =20mA

2.8

V

100

pA

VR =5V

PF

VF =0
f'" 1 MHZ

35
15

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eclairage) eye-response curve.
2.0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

331131A1/11
1

~

30

u

10

,

!J

5

"~ 10
&

2.5

60

IA
/13151 AA

'I

~

.s

r-

~

~

50

~

c

40

~

~

5

u

"'"

20
3r51

~

0
u. 10

J
11

16

20

24

"" " "40

60

V

10

1/

Q>

jA r---. ........ ........

10

Forward Voltage VF IVI
FIG 7 FORWARO CURRENT VS
FORWARD VOLTAGE

~

>

;

a;

--....:::

32

1B

V

c

V

o

33131AA
33151 AA

1.5

0

33131AA

@ 30

II

2.0

Q>

E

~

BO

0:

"

o

100

/

0.5

Ambient Temperature TA (OC)
FIG 8 FORWARO CURRENT
DERATING CURVE

./

o

20

10

30

40

Forward Current IF (rnA)
FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·

10'

20'
30'

40'

10

09

50'

OB

60'
70'

07

BO'
OIL-~

-30

2-277
556

__~__L-~___ L __L--i__~__L-~

-10

-10

10

10

30

40

Ambient Temperature TA (OC)
FIG 10 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

I++H-'P'f---+-j;q++-l-+-l

70
05

03

01

02

04

06

FIG 11 SPATIAL DISTRIBUTION

90'

50

ILlTErl] ~ II

BIPOLAR INDICATOR LAMP
LTL·298E HIGH EFFICIENCY. RED

FEATURES
eT-1% TYPE PACKAGE.
e LONG LI FE-SOLID STATE RELIABI LlTY.
e LOW POWER CONSUMPTION.
el.C. COMPATIBLE.

DESCRIPTION
High Efficiency Red source color chip is Gallium
Arsenide Phosphide on Gallium Phosphide Orange
Light Emitting Diode.
The LTL-29BE is a red, diffused, wide viewing angle,
dual chips, utilizing Gallium Arsenide Phosphide on
Gallium Phosphide High Efficiency Red Light Emitting
Diode.
The dual chips operating dependently of each other.

~

,

r!

;

, ,I

::..::.

_. ~-

~- ---~--

•

DEVICES
PART
NO_
LTL-

COLOR

OIFFUSION

298E

Red

Diffused

LENS

SOURCE
COLOR
Hi. Eff. Red

PACKAGE DIMENSIONS
5_0

~~:
CATHOOE
HI. EFF.RED

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2.54 NOM
(.1)

2-278

557

ABSOLUTE MAXIMUM RATINGS AT TA

= 2SoC

PARAMETER

HI. EFF. RED

UNIT

Power Dissipation

100

mW

Peak Forward Current
(1110 Duty Cycle, 0.1 ms Pulse Width)

120

mA

Continuous Forward Current

30

mA

Derating Linear From 25°C

0.4

mA/oC

5

V

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55°C to +1 oaoc

Lead Soldering Temperature
[1.6mm (O.063in) From Body]

260° C for 5 Seconds

HLEff.Red
1.0

.~
c

~

c

OJ

0.5

:>
.;:;

co

Qi

a:

500

550

/\
/
\
/
600

650

Wavelength A (nm)
FIG. 1 RELATIVE INTENSITY VS

2-279
558

700

WAVELENGTH

750

800

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SY!IO~OL

PART NO.
LTL·298E

MIN.

TYP.

Iv

298E

1.5

50

mcd

IF = 20 mA
Note 1

Viewing Angle

2011:,

298E

50

deg.

Note

Peak EmisSion
Wavelength

APEAK

635

nm

Measurement
@ Peak (Fig 1)

Spectra I LI ne
Half Width

boll.

40

nm

Forward Voltage

VF

2.0

Reverse Current

IR

Capacitance

C

PARAMETER

,

Luminous IntenSity

MAX.

TEST
CONDITION

UNIT

,

NOTES:

2 (Fig. 6)

28

V

100

IJA

VR = 5V

PF

VF = 0
f = 1 MHZ

20

IF =20mA

Luminous Intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internatlonale De L'Eciairage) eye-response curve.
2 (111:, IS the off-axIs angle at which the luminous intensity IS half the axial luminous intensity

50



"

r-....

40

E

">
iii

Q;

a:

=>0 15
o~

""-

E 10

=>'0
10
-'
C1J~

"

~ t\

60

-

> '"

"'" E

~

BO

- GREI~ /

Q; 0
a:Z 05

~

REO

~

A
A
10

100

20

30

40

Forward Current IF (rnA)

FIG 4 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

30'

....-40'
10

05

09

50'

O.B
02

60'
70'

07

BO'
01
-30

2-283
562

i-+-1-H--t-=P,,+","FH-++-t-! 90'

l

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

L

V

v:

<::

~O

<::

=>
-'

-;;; E

FIG. 3 FORWARD CURRENT
DERATING CURVE

FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

in

"- "-

Ambient Temperature TA (DC)

Forward Voltage V, (V)

C

V

<=-0:

u. 10

If

20

"

Rio

/

..J

o

~

II GREEN

I
1/

~

in

E

I

I

ro

25

C

50

:;;; 40

~

'0

(;



~

...c"'
C

Ql

,.

0.5

Ql

.;;
co
Qi

a:

500

550

600

650

700

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-285

564

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

SYMBOL

PART NO.
LTL·298WJ

MIN.

TYP.

.Iv

Orange
Green

1.7
25

55
87

mcd

IF =20mA
Note 1

Viewing Angle

20)1;,

Orange
Green

50

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

Orange
Green

630
565

nm

Spectral Line
Half Width

"A

Orange
Green

40
30

nm

Forward Voltage

VF

Orange
Green

20
21

Reverse Current

IR

Orange
Green

CapaCitance

C

Orange
Green

PARAMETER

Luminous Intensity

NOTES

I

- -

E

«

I

E

I
II /

ORANGE

30

';

u 20
"C
:0

I
I I

~

a

IF = 20 mA

V

2.8
100

20
35

60

I I
I

« 40

u..

Measurement
@ Peak (Fig. 1)

IlA

VR = 5V

PF

VF = 0
f = 1 MHZ

1. Luminous IntensItY IS measured with a light sensor and filter combination that approximates the CI E
(Commission Internatlonale De L'Ecialrage) eye-response curve
2.0)1;, IS the off-axIs anqle at which the luminous Intensity IS half the aXial luminous intensity
50

ce

TEST
CONDITION

UNIT

MAX.

10

.!:

25

~

50

~ 2.0

:g"

40

6'"

C

e

II GREEN -

-

" "'

U

r--

:0 20
~

a

u..

16

1.2

20

..3

10

20

242.832

40

1.0

.,>
£'" 05

~

60

'- ........
80

ORANGE

./

o

10

Ambient Temperature TA (OC)

Forward Voltage V, (V)
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

~REEN

/

o

100

V

/



~
rr.

40'
10

ORANGE

~

02

09

50'

08

60'
70'

07

01
-30

H--t-Hf--f==t""+"TH-t--t-+-I
-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

80'
90'

06

FIG 6 SPATIAL DISTRIBUTION

2-286

565

DUAL COLOR INDICATOR LAMP

ILITE[']~II

LTL·293SJ CaAIAS RED·GREEN

FEATURES
G U L TRA-BR IGHTN ESS.
oT-l% TYPE PACKAGE .
• LONG LIFE-SOLID STATE RELIABI L1TY.
o LOW POWER CONSUMPTION.
o I.C. COMPATIBLE.

DESCRIPTION
The Red/Green LT L-293SJ bicolor lamp is white
diffused, wide viewing angle, dual chips utilizing
Gallium Aluminum Arsenide Ultra-brightness Red Light
Emitting Diode and Gallium Phosphide on Gallium
Phosphide Green Light Emitting Diode.
The Red and the Green operating dependently of each
other.

....:.......---.-.--:::,"

DEVICES
PART

LENS

NO.

LTL-

COLOR

DIFFUSION

293SJ

White

Diffused

SOURCE
COLOR

PACKAGE DIMENSIONS

GaAIAs Red
5.0

Green

GaAIAs REO

CATHODE

2·287
566

NOTES;
1. All dimensions are in millimtlters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

1.0

~_-:+_---,,(.~04) MIN
2.54 NOM

(.1)

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

GREEN

GaAIAs RED

UNIT

Power Dissipation

100

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

120

200

mA

Continuous Forward Current

30

40

mA

Derating Linear From 25°C

0.4

0.5

mArC

5

4

V

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55° C to +100° C

Lead Soldering Temperature
[l.6mm (0.063in) From Body]

260°C for 5 Seconds

Green

GaAIAs Red

1.0 ,------,--------,...,.----....---------.--.....- - - . , - - - - - - - - - . - - - - - - ,

...>

'in

c

ec

0.5

~--------~~--_4----+_--------._4~--~----~----------~--------_1

.,'"

.>

'"

Qi

a::

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-288
567

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
TEST
CONDITION

SVMBOL

PART NO.
LTL·293S'J

MIN.

TVP.

Iv

GaAIAs Red
Green

5.6

19.0
12.0

mcd

IF =20mA
Note 1

Viewing Angle

28}1.

GaAIAs Red
Green

80

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

APEAK

GaAIAs Red
Green

660
565

nm

@ Peak (Fig. 1)

Spectral Line
Half Width

AX

GaAIAs Red
Green

20

Forward Voltage

VF

GaAIAs Red
Green

1.8
2.1

Reverse Current

IR

GaAIAs Red
Green

Capacitance

C

GaAIAs Red
Green

PARAMETER
Luminous Intensity

4.0

UNIT

MAX.

Measurement

nm

30
2.4
2.8

V

100

100
30

35

IF =20mA

p,A

VR =4V
VR "'5V

PF

VF =0
f .. 1 MHZ

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2.0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

~
f!f

50

50
~

I

40

~

~
"c.
E
f"
1:
:c"

60

II
r- GaA1As RED

30

~ 40

II

I
I

I

2

.f

/

<::

1/ GREEN c- -

20

~ 30
u

c-

1i 20
~
&10

I /
I
IJ /

E
« 10

o

12

16

2.0

24

r--.. r-....

:>

2.B

20

3.2

40

~ 30

GaAIAs RED
GREEN

"

V

>

""
"

60

BO

1/

a:

o~

~GREEN

o

BO
20
40
60
Forward Current IF (rnA)
FIG. 4 RELATIVE LUMINOUS
INTENSITY VS

100

O'

10'

20'

GaAIA~ RED
~ 1--1--

~
;;;
<::

2

-

.f

'"o:>
<::
E
05
:>

30'

GREEl-

40'
10

09

..J

:;;"

GaAIAs RED

/

:;;"
Cii 10

Ambient Temperature TA (OC)
FIG. 3 FORWARD CURRENT
DERATING CORVE

Forward Voltage VF (V)
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE

~~

<::

E
.3 20

50'

OB

60'

>

Cii

a:

02

70'
BO'

07

I-t-+-H-f"'I---+-fZ+-I-+--I-H 90'
01
-30

2-289
568

-20

-10

10

20

30

40

Ambient Temperature TA (Oe)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

06

100

ILITEr.] ~ II

DUAL COLOR INDICATOR LAMP
LTL-293SJ CaAIAS RED-GREEN

FEATURES
o ULTRA-BRIGHTNESS
oT-nt. TYPE PACKAGE
o LONG LIFE-SOLID STATE RELIABILlTY_
o LOW POWER CONSUMPTION
ol.C_ COMPATIBLE_

DESCRIPTION
The Red/Green L TL-313SJ bicolor Lamp is a white
diffused, wide viewing angle, dual chips, utilizing
Gallium Aluminum Arsenide Ultra-brightness Red Light
Emitting Diode and Gallium Phosphide on Gallium
Phosphide Green Light Emitting Diode. The dual chips
operating depently of each other.

DEVICES
LENS

PART

NO_
LTL-

COLOR

DIFFUSION

313SJ

White

Diffused

SOURCE
COLOR
GaAJAs Red

PACKAGE DIMENSIONS

Green

GREEN
CATHODE

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

22.0 MIN
(;.B66)

~
2.54

NOM

2-290
569

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

GREEN

GaAIAs RED

UNIT

Power Dissipation

100

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

120

200

mA

Continuous Forward Current

30

40

mA

Derating linear From 25°C

0.4

0.5

mA/oC

5

4

V

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260°C for 5 Seconds

Green

1.0

GaAIAs Red

r------,-..,.......----...,------,--~---___,_----___,_----__,

..,>

.;;;
<:

~
<:

0.5 I - - - - - - - + # - - - - - \ , - - - + - - - - - - - - - f ' - - - - - \ - - - + - - - - - - 1 - - - - - - 1

500

550

600

650

700

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-291

570

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
SYMBOL

PART NO.
LTL·313SJ

MIN.

TYP.

Iv

GaAIAs Red
Green

11
4.0

38.0
13.0

mcd

IF ; 20 mA
Note 1

Viewing Angle

2eY:.

GaAIAs Red
Green

60

deg.

Note 2 (Fig 6)

Peak Emission
Wavelength

A. PEAK

GaAIAs Red
Green

660
565

nm

Spectral Line
Half Width

D.A.

GaAIAs Red
Green

20
30

nm

Forward Voltage

VF

GaAIAs Red
Green

1.8
2.1

Reverse Current

IR

GaAIAs Red
Green

Capacitance

C

GaAIAs Red
Green

PARAMETER

Luminous Intensity

MAX.

TEST
CONDITION

UNIT

Measurement
@ Peak (Fig. 1)

2.4
2.8

V

100
100

J1.A

VR ; 4V
VR ;.5V

PF

VF ; 0
f ; 1 MHZ

30
35

IF; 20 mA

NOTES· 1. Luminous Intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Ecialrage) eye·response curve.
2. eY:. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.

U
0

50

I

¢ 40

a'"
~

'"
f'"
E
.c'"

_ G.AIAs RED

30


'"
a:

" ........

./

80

1/

10

r--.

o7
o

100

Ambient Temperature TA (OCl

Forward Voltage VF (VI

II~REEN
80
40
60
20
Forward Current IF (mAl

O'

'10'

20'

~ G'AI~s RED

----

~
1);
c

e

E

100

FIG 4 RELATIVE LUMINOUS
INTENSITY VS

FIG 3 FORWARD CURRENT
DERATING CURVE

FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

G.AIAs RED

V

;:;

Qi

........

32

r-

E
~ 30
o
c:

30'

"""""--

GREEl-

40'

"o
~

c

E

0.5

50'

~

...J

60'

'"
>

iii

Qi

a:

02

70'
80'

07
H--+-HI-+::;-~'-F'HH-+--H

01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

90'

06

2-292
571

ILITEr.] ~ II

DUAL COLOR INDICATOR LAMP
LTL-52EG ORANGE-GREEN

FEATURES
-ORANGE AND GREEN CHIPS ARE MATCHED
FOR UNIFORM LIGHT OUTPUT.
-T-1% TYPE PACKAGE.
_ LONG LlFE·SOLID STATE RELIABILITY.
- LOW POWER CONSUMPTION I.C. COMPATIBLE.

DESCRIPTION
The orange/Green LTL-52EG bicolor Lamp is a white
diffused, wide viewing angle, dual chips, utilizing
Gallium Arsenide Phosphide on Gallium Phosphide
Orange Light Emitting Diode and Gallium Phosphide
on Gallium Phosphide Green Light Emitting Diode.
The Orange and the Green operating independently
of each other with a common cathode.

PACKAGE DIMENSIONS

DEVICES
PART
NO.
LTL-

LENS
COLOR

DIFFUSION

52EG

White

Diffused

SOURCE
COLOR

i - :f1~m:o"
:~h:d~

Green
Orange
2.54 NOM

(.1)

2.54 NOM

e
-L-i
/'

',~

2-293
572

~
-"
T
50 ••
(.23)

;

I

I

:L

_ _ _ _ _ _ _ _ JI

Orange Anode

Green Anode

,-ORANGE INDICATOR

2.COMMON CATHODE
3.GREEN

INDICATOR

NOTES:
1. All dimensions are in milN'meters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM RATINGS AT TA
PARAMETER

= 2SoC

GREEN

ORANGE

UNIT

Power Dissipation

100

100

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

120

120

mA

Continuous Forward Current

30

30

mA

Derating linear From 25° C

0.4

0.4

mA/oC

5

5

V

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55°C to +100°C

Lead Soldering Temperature

260° C for 5 Seconds

11.6mm (0.063in) From Body]

Orange

Green

1.0

~--.------.-~

__----.-----~~~---------.---------r---------'

>

.':::

c'"

~

c

0.5

Ql

:>

.;;
.!!!
Ql

a:

500

550

600

650

700

750

800

Wavelength A (nm)
FIG.1 RELATIVE INTENSITY VS. WAVELENGTH

2-294

573

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.

SYMBOL

LTL·52EG

MAX.

TEST
CONDITION

MIN.

TYP.

1.5
1.5

5.0
5.0

mcd

IF = 20 mA
Note 1
Note 2 (Fig. 6)

UNIT

Iv

Orange
Green

Viewing Angle

20Y,

Orange
Green

54

deg.

Peak Emission
Wavelength

l\PEAK

Orange
Green

630
565

nm

Spectral Li ne
-Half Width

All.

Orange
Green

40
30

nm

Forward Voltage

VF

Orange
Green

2.0
2.1

Reverse Current

IR

Orange
Green

Capacitance

C

Orange
Green

Luminous Intensity

= 2SoC

Measurement
@ Peak (Fig. 1)

V

2.8
100

20
35

IF = 20 mA

J.lA

VR =5V

PF

VF
0
f
1 MHZ

=

=

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CI E
(Commission Internationale De L'Eciairage) eye-response curve.
2. OY, is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

O~AN~E

I -c

60

II I
I

~

II

u 20
'E
.,
;:

I

:J

I"'- r---.

U

GREEN

'E 20

~

I /

~ 10

~

16

1.2

20

2.4

2.8

~~~~~E_ -

""

5 10

u.

1/ /

o

2.0

.£

E
~ 30

I /

0;

50

E
;- 40

"/

30

~

2.5
~

20

32

40

60

'"g

1.5

E
.3

10

c

f-

""

80

o

10

10'

20'
30"

2::

GREEN 1=

'"o

:J

40'
10

ORANGE

c

:J

40

2

E

E

30

20

Forward Current IF (rnA)
FIG 4 RELATIVE LUMINOUS
INTENSITY VS.
0'

~
in
c

ORANGE

,/

o

100

~REEN

/

£ 05

Ambient Temperature TA (DC)
FIG. 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage VF (V)
FIG. 2 FORWARD CURRENT VS.
FORWARD VOLTAGE

/

">
".,

V

0.9

05

..J

50'

0.8

">

"

~ 0.2

60'
70"

07

0::

80'

H--t-t-H=t""'I""-F+-CH-++-1 90'
01
-30

2-295
574

-20

-10

10

20

30

40

Ambient Temperature TA (DC)
FIG 5 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

05

03

0.1

02

04

FIG 6 SPATIAL DISTRIBUTION

0.6

50

DUAL COLOR INDICATOR LAMP
l Tl·52RG BRIGHT RED -

FEATURES
e RED AND GREEN CHIPS ARE MATCHED FOR
UNIFORM LIGHT OUTPUT.
eT·1% TYPE PACKAGE.
e LONG LlFE-80LlD STATE RELIABILITY.
e LOW POWER CONSUMPTION I.C. COMPATIBLE.

GREEN

1--------1,

Jj1[

,I

Jn~

!;

DESCRIPTION
The Bright Red/Green L TL·52RG bicolor Lamp is a
white diffused, wide viewing angle, dual chips, utiliZing
Gallium Phosphide on Gallium Phosphide Red Light
Emitting Diode and Gallium Phosphide on Gallium
Phosphide Green Light Emitting Diode. The Bright Red
and the Green operating independently of each other
with a common cathode.

--',

--

~J
I
,

I
I

!

i

,"~

j~---

- , -~---

",

PACKAGE DIMENSIONS

DEVICES
seE

PART

LENS

NO.

LTL-

COLOR

DIFFUSION

52RG

White

Diffused

SOURCE
COLOR
Green
Bright Red

NOTE 3

~;;;;:;;;;;:;~~;?b.
Common Cathode

q~~~p
Bright Red Anode

Green Anode

I.BRIGHT RED INDICATOR
2.COMMQN CATHODE
3.GREEN

INDICATOR

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

2-296

575

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
BRIGHT RED

GREEN

UNIT

flO

100

mW

60

120

rnA

Continuous Forward Current

15

30

mA

Derating Linear From 25"C

0,2

0.4

mAtC

5

5

V

PARAMETER

Power Dissipation
Peak Forwar9 Current
(1/10 Duty Cycle, O.lms Pulse Width)

. Reverse Voltage
Operating Temperature Range

-55°C to +100°C

Storage Temperature Range

-55°C to +l00o C

Lead Soldering Temperature

260°C for 5 Seconds

[1.6mm (a.063in) From Body]

Green
1.0

Bright Red

r_--------,--r~----_.----------r_------~~~------_.--------__,

~
.;;;

...cc:
OJ

0.5

OJ

.~

'"

Q;

0:

500

550

600

650

700

Wavelength A (nm)
FIG. 1 RELATIVE INTENSITY VS. WAVELENGTH

2-297

576

750

800

= 2SoC

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL-52RG

SYllilBOL

MIN.

TYP.

MAX.

TEST
CONDITION

UNIT

1.7
5.0

mcd

IF = 20 mA
Note 1

Bright Red
Green

54

deg.

Note 2 (Fig. 6)

APEAK

Bright Red
Green

697
565

nm

Measurement
@ Peak (Fig. 1)

Spectral line
Half Width

All.

Bnght Red
Green

90
30

nm

Forward Voltage

VF

Bright Red
Green

2.1

Reverse Current

IR

Bright Red
Green

Capacitance

C

Bright Red
Green

Iv

Bnght Red
Green

VieWing Angle

20Y:,

Peak Emission
Wavelength

Lum inous IntenSity

NOTES'

= 20 mA

2.8

V

IF

100

p.A

VR

PF

VF = 0
f = 1 MHz

55
35

= 5V

Luminous Intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternationale De L'Eclairage) eye-response curve
2. OY:, is the off-axIS angle at which the luminous intensity IS half the axial luminous intensity.
50

60

« 40 r- - BRIIGH~ REU III
..s

«

50

!:

!:

40

E

0.5
15

I
III
II
'I

30

:!'

:;

u 20
-0

ro

"" o

u. 10

..s

GREEN l - t-

:!'

:;
-0

ro

""

u.

20

o

24

2B

20

ro

C-o

30

U

I'
16

~ 

BRIGHT REO

I

10

32

I'- r-.....

"1"""-- t--..
40

~~
Qi

........
.........

20

Forward Voltage VF (V)

E~
.3 'iii
" E

GREEN

........

60

a:

r- ~ ~
BO

100

10

-?
/ /

05

I

I

BRI~HT IRED I

u

20

10

30

50

40

Forward Current IF (mA)

FIG 3 FORWARD CURRENT
DERATING CURVE

FIG 7 RELATIVE LUMINOUS INTENSITY
VS FORWARD CURRENT

O'

=-

r- -

I

o IV

Ambient Temperature TA (OC)

FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE

V GREEN
V- f-1

20'
30'

I-- JRIGHT JED

- r-

Z'
0;
C

$

~

.!:

'"::>

g

r-40'

GREEN

10
09

05

E
::>

DB

~" 02

07

50'
60'

..J

70'
BO'

Qi

a:

90'
01
-30

-20

-10

10

20

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS
AMBIENT TEMPERATURE

50

60

70

05

03

01

02

04

FIG 6 SPATIAL DISTRIBUTION

06

2-298

577

ILlTErl] ~ II

DUAL COLOR INDICATOR LAMP
L TL·52DG DUAL GREEN

fEATURES
eT-1% TYPE PACKAGE.
e LONG LIFE-SOLID STATE RELIABILITY.
e LOW POWER CONSUMPTION I.C. COMPATIBLE.

DESCRIPTION

----

The Green L TL-52DG bicolor Lamp is a Green diffused,
wide viewing angle, dual chips, utilizing Gallium
Phosphide on Gallium Phosphide Green Light Emitting
Diode.

"0'--

The dual chips operating dependently of each

other.

PACKAGE DIMENSIONS

DEVICES
PART
NO.

LENS

lTL-

COLOR

DIFFUSION

52DG

Green

Diffused

see

SOURCE
COLOR

Green

NOTE 3

~;;;;;;;;;;;;;;~~~~

f--f~~l~t-:-l

L.. _ _ _ _ _ _ _ _ .J

Green

Anode

Green Anod

1.GREEN INDICATOR
2.COMMON CAT HOOF
3 GREEN INDICAYC"

2-299

578

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. Protruded resin under flange is 1.5mm (.059") max.
4. Lead spacing is measured where the leads emerge
from the package.
5. Specifications are subject to change without notice.

ABSOLUTE MAXIMUM· RATINGS AT TA = 2SoC
PARAMETER

GREEN

UNIT

100

mW

120

mA

Continuous Forward Current

30

mA

Derating Linear From 25° C

0.4

mAtC

5

V

Power DISSipation
Peak Forward CUrrent
(1/10 Duty Cycle, alms Pulse Width)

Reverse Voltage
Operating Temperature Range

_55°C to +100°C

Storage Temperature Range

-55°C to +100°C

Lead Soldering Temperature

260°C for 5 Seconds

[1.6mm (0.0631n) From Body]

Green
1.0

~
.;;;
c
~
c

., 0.5

'5

'"

Qi

n:

500

r\

) \
550

r....
600

650

700

750

800

Wavelength A (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-300

579

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
SYMBOL

PART NO.
LTL-

MIN.

Iv

520G

2.5

Viewing Angle

20Y.

Peak Emission
Wavelength

PARAMETER

TYP.

MAX.

= 25°C
TEST
CONDITION

UNIT

8.7

mcd

IF '" 20mA
Note 1

520G

54

deg

Note 2 (Fig 6)

i\PEAK

520G

565

nm

Measurement
@ Peak (Fig. 1)

Spectral Line
Haff Width

.All.

520G

30

nm

Forward Voltage

VF

520G

21

Reverse Current

IR

520G

Capacitance

C

52DG

Luminous Intensity

2.8

V

100

/.LA

VR = 5V

PF

VF =0
f'" 1 MHz

IF'" 20 mA

"

35

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission I nternatlonale De L'Eclairage) eye-response curve.
2. ey. IS the off-axis angle at which the luminous intensity is half the ax ial luminous intensity.
50



120

deg

+
LEADE R

*

Symbol

Dimension

Tol.

Diameter

B

8,0

±2,O

Spindle hole

C

13

±O,5

Hub

•
2-308

587

ILITEr.] ~ Ir

PANEL MOUNTING GRQMMETS
(FOR LED P ANELINDICATORS)
LTL·001B

LTL-OOle

DESCRIPTON
1. The L TL-001

Series of mounting grommets is
intended for panel mounting of many standard
Liton Light emitting diode indicators. The gormmets are made of plastic and are aviailable in clear
and black.
2. The L TL-001 Series will easily mount the applicable
lamps on any panel thickness up to 2.80mm(.11 0")
(See figure A,)
3. For panel thickneli greater than 2.80mm (.110")
counterboring is reguired.(See figure B,)

3.COLLAR

PACKAGE DIMENSIONS

.1

L.

FIG A: PANEL THICKNESS 2.80mm (.110") MAX.

7.11 01 A
(.280)

g - -.
I •.
•

3.COLLAR

14 01 A
(.350)

I

•

I

4.19

~5)

6.85 OIA

(0270)
7.87 OIA
(.310)
LAM P

PANEL

MAX

".18
(.125)

FIG B: PANEL THICKNESS
2.80mm (.110").
2-309
588

GREATER THAN

HOLDER

COLLA R

NOTES:
1. Alii dimensions are in millimeters (inches), tolerance
is 0.25mm (0.1") unless otherwise notes.
2. Material: Polypropylene equivalent for mounting
drill a 6.35mm (.25") hole.

APPLICATION LAMPS

APPLICATION
PART NO.

AVAILABILITY

L TL-OOl B (Black)

Standard

L TL-OOl C (Clear)

Special order only

L TL-203 Series
L TL-4203 Series.
L TL-l 0203 Series.
All 5mm (.2") diameter package.

MOUNTING INSTRUCTIONS
Drill an ASA C size 6.35mm (.250") diameter hole
in the panel. Deburr but do not chamfer the edges
of the hole.
1. Press the holder into the hole from the front of the
panel.
2. Press the LED into the holder from the back. Use
blunt long nose pliers to push on the LED. Do not
use force on the LED Leads. A tool such as a nut
driver may be used to press on the holder.
3. Slip a collar onto the back of the clip and press
tight using toqls such as two nut drivers.

2-310

589

ILITEr.] ~ II

,PANEL MOUNTING' GRoMMETS
FOR LTL-332xlAA SERIES LAMP
, LTL-004B

DESCRIPTION
The L TL-004B mounting grommet is intended for
panel mounting the L TL-332x1 AA Series of rectangular
lamps. The grommets are made of black plastic and
provide the user with an easy to mount, professional
appearance when viewed on a front panel. The L TL004B can be used on any panel thickness up to 3.18mm
(.125").

PACKAGE DIMENSIONS

I·
I

9.4

0\

(.370)

[---,----1-

L rO'J

(~;~~)

.J,

L _______

TOP

3.08S:!: 0·04
(.121:':.0021

MATTE

FIN ISH

VI EW Of GROMMER

---<.-f----+-

9.40
(.370)

I-

I

-;~_t----,1.87:!:O.04

(.074:':.002 )

I

6.86
(.270 )

L

rF

1

I

U

7.72

( .304)
TOP

END

VIEW

GROMMET

NOTES:
1. All dimensions are in millimeters (inches), tolerance
is 0.25mm (.01 ") unless otherwise noted.
2. Material: Black Polypropylene.

590

16

(.2 03)

I
J

8.13 7.62
(.320) (.30)

2·311

5!

r--t

1
1
I
1

1

VIEW OF RING

I
I
1

5 ,DE VIEWOF RI NG

I
I
1
1
1
1

5.08
( .200)

ILlTE[I) ~ II

SNAP-IN LED INDICATORS
LTL·603·1 RED
LTL·633·1 GREEN
LTL-653·1 YELLOW

FEATURES
-SNAP-IN MOUNTING REQUIRES NO ADDITIONAL HARDWARE.
_ STRAIGHT TERMINALS SUITABLE FOR SOLDERING.
- DESIGNED FOR QUICK POSITIVE INSERTION
IN PANELS FROM 0.8mm (0.31") THROUGH
1.6mm (0.062").
- BLACK HOUSING ENHANCES CONTRAST RATIO.
-ANODE
LEAD
TRIMMED
LONGER THAN
CATHODE FOR POLARITY IDENTIFICATION.
-WIDE ANGLE VISIBILITY.
-I.C. COMPATIBLE.

it,
j;~~l
:

~

:":',

;,;:

I

,:

'~,-'--

,-(~
---- " . ~

.

~

--i..w..,.~
--:

APPLICATIONS
- COMPUTERS.
- PROCESS CONTROLLERS.
-INSTRUMENTATION.
- POINT OF SALE.
- COMMUNICATIONS EQUIPMENT.
_ HOME ENTERTAINMENT EQUIPMENT.
-VENDING MACHINES.

PACKAGE DIMENSIONS

DEVICES
PART
NO.
LTL-

LED LENS COLOR
COLOR

DIFFUSION

603-1

Red

Diffused

Red

633-1

Green

Diffused

Green

653-1

Yellow

Diffused

Yellow

SOURCE
COLOR

(.125)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. The holder color is black only.
4. The holder raw material is thermal plastic polypropylene.
5. The LED lamps are LTL-l0203W (short lead) series.

•
2-312

591

= 2SoC

ABSOLUTE MAXIMUM RATINGS AT TA
PARAMETER

,

RED

GREEN

YELLOW

UNIT

Power Dissipation

80

100

60

mW

Peak Forward Current
(1/10 Duty Cycle. 0.1 ms Pulse Width)

200

120

80

mA

Continuous Forward Current

40

30

20

mA

Derating Linear From 25°C

0.5

0.4

0.25

mAfC

5

5

5

V

Reverse Voltage
Operating Temperature Range

-55°Cto +100°C

Storage Temperature Range

_55°C to +100°C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

260° C for 5 Seconds

Green Yellow
1.0

Red

r---------.-~._~._.---------07._------_,--------_r--------,

...>

'in

c

Ql

;

0.5

Ql

>

~Ql
II:

500

550

600

650

700

Wavelength.,.. (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-313

592

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

2SoC

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

603-1

0_3

0.8

mcd

Viewing Angle

20%

603-1

60

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

;\PEAK

603-1

655

nm

Measurement
@Peak (Fig. 1)

"'71.

603-1

24

nm

Forward Voltage

VF

603·1

1.7

Reverse Current

IR

603-1

Capacitance

C

603-1

PARAMETER

Luminous Intensity

Spectral Li ne
Half Width

MAX.

TEST
CONDITION

UNIT

IF = 10mA
Note 1

IF = 20mA

2.0

V

100

Jl.A

VR =5V
VF=O

NOTES:

PF

30

f = 1 MHZ

1. LuminOUS intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve.

2. 0% is the off-axis angle at which the luminous intensity is half the aXial luminous intensity.
50

=i

60

I

I
I

40

.s

=i

.s

~

~

1: 30

LL

20
10

o

~

':;

I
I
II

':;

"E
~'"0

/

50

,/

40

'"

1:

~

()

50

30

()

'E 20

'"~

5

u.

16

2.0

24

28

o

3.2

...

-

~

20

40

60

'" ""'80

o ./

o

100

'/

10

20

30

10"

30"

I--r--..

00

40"

"
0.5

50"

"

-'

">
iii

~

50

20"

o
c:

'E

40

Forward Current 1,lmA)
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT.
0"

I--I--

c:

o

J

Ambient Temperature TA 1°C)
FIG 3 FORWARD CURRENT
DERATING CURVE

Forward Voltage V, IV)
FIG. 2 FORWARD CURRENT VS
FORWARD VOLTAGE.

~
in

"'-

10

.L
1.2

V

60"

10"

02

80"
01
-30

90"
-20

-10

10

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

10

05

03

01

02

04

FIG. 6 SPATIAL DISTRIBUTION

06

2-314
593

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA
PARAMETER

PART NO.
LTL-

SYMBOL

MAX.

2SoC

=

TEST
CONOITION

MIN.

TYP.

UNIT

1.7

5.6
5.6

mcd

IF = 10mA
Note 1

Iv

633-1
653-1

Viewing Angle

20%

633-1
653-1

60

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

i\PEAK

633-1
653-1

565
585

nm

Measurement
@Peak (Fig. 1,)

nm

Luminous Intensity

1.7

Spectral Line
Half Width

AX

633-1
653-1

30
35

Forward Voltage

VF

633-1
653-1

2.1

Reverse Current

IR

633-1
653-1

Capacitance

C

633·1
653-1

2.8

V

100

IJ.A

VR =5V

PF

VF =0
f=lMHZ

35
15

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eclairage) eye-response curve.
2.0% is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

60

IA

1633 11

III

«

'/153~- I-

c:

30

/I

~

:;

u

"E

'I

~

20

§

~

~

io 20

653·1

5 10

I

~

u.

.......

12

16

20

24

Forward Voltage

FIG

2,8

0

633.1

"
'">

I'--.

I" ~

3.2

20

(V)

40

60

30

80

..J

20

iii
0;

10

a:

r-....

I

6531- -

V

/

o/

o

100

10

20

30

40

Forward Current IF (rnA)

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

o·

10'

20'
30'

6~3'1
If=6331

40'
1.0

5

50'
60'

2

o1
2-315

80'
H-~H--F:P¥-A+-t-I--H 90'

-20

-10

10

20

30

40

Ambient Tempelature TA (OC)

594

70'

07

-30

FIG 10 LUMINOUS INTENSITY VS. AMBIENT
TEMPERATURE

50

60

70

-

I

Ambient TemperatureTA (OC)

7 FORWARD CURRENT VS
FORWARD VOLTAGE

el

1//

E

I""

~

o

"c:

","- ,

6331

30

'C

J

40

oS

40

u

J
If!

10

50

E

If

~

~

.s

50

i!'
;;

0.5

03

01

02

04

FIG. 11 SPATIAL DISTRIBUTION

06

50

ILITEr.] ~ II

ONE AND FOUR ELEMENT LED
ARRAYS
LTL·5 x 3·14 SERIES
LTL·5 x 3·11 SERIES

FEATURES
• DESIGNED FOR EASE IN CIRCUIT BOARD
ASSEMBLY.
• BLACK CASE ENHANCES CONTRAST RATIO.
• DESIGNED TO ALLOW FOR HIGH DENSITY
PACKAGING .
• SINGLE PACKAGE PROVIDES 4-LlNE STATUS
INDICATIONS.
• SOLI D STATE LlG HT SOURCE.
• WIDE VIEWING ANGLE.
• HIGH RELIABILITY-LIFE MEASURED IN YEARS.

APPLICATIONS
•
•
•
•

CIRCUIT BOARD INDICATOR.
PANEL ILLUMINATION.
LOGIC STATUS INDICOTOR.
BINARY DATA DISPLAY-PERMITS STACKING SO
THAT MULTIPLE FUNCTIONS CAN BE DISPLAYED.
• POSITION INDICATOR

PACKAGE DIMENSIONS
LTL-5x3-11 Series

LT L-5x3-14 Series
2S±O.5
(1.0! .02)

6.0
(.236)

L.,tTII=ii=....rF;"'-"':;:'tr-;iI1'fI11r'

(O.236± .04)

r--~2.",,54~Nc..::O:.:::M_
1

--

(.1)

3.3!O.S

SoO! 1.0

(.13!.02J (0.236t.04)

NOTES:
1. All dimensions are in millimeters (inches).
2. Tolerance is ±0.25mm (.010") unless otherwise
noted.
3. The holder color is black only.
4. The holder raw material is thermal plastic polypropylene.
5. The LED lamps are LTL-10203W (short lead) series.

•
2-316

595

DEVICES
PART
NO.
LTL-

LED LENS COLOR

SOURCE
COLO,R

COLOR

DIFFUSION

503-11
503-14

Red

Diffused

Red

533-11
533-14

Green

Diffused

Green

553-11
553-14

Yellow

Diffused

Yellow

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
LTL-

lTl-

LTL-

503·11
503·14

533-11
533·14

553-11
553-14

UNIT

Power Dissipation

80

100

60

mW

Peak Forward Current
(1/10 Duty Cycle, 0.1 ms Pulse Width)

200

120

80

mA

Continuous Forward Current

40

30

20

mA-

Derating Linear From 25°C

0.5

0.4

0.25

mA/oC

5

5

5

V

PARAMETER

Reverse Voltage
Operating Temperature Range

-55°Cto+l00°C

Storage Temperature Range

_550 C to +1000 C

Lead Soldering Temperature
[1.6mm (0.063in) From Body]

2600 C for 5 Seconds

Green Yellow

Red

1.0

...>-

'in

c

ec

0.5

r---------~--1_~---+~------1_t_~~----~--------_+--------~

500

550

600

650

700

Wavelength X (nm)
FIG.l RELATIVE INTENSITY VS. WAVELENGTH

2-317

596

750

800

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA

=

25°C

SYMBOL

PART NO.
LTL-

MIN.

TYP.

Iv

503-11
503-14

0.3
0.3

0.8
0.8

mcd

IF = 10mA
Note 1

Viewi ng Angle

20Y.

503-11
503-14

60

deg.

Note 2 (Fig. 6)

Peak Emission
Wavelength

""PEAK

503-11
503-14

655

nm

Measurement
@Peak (Fig. 1)

nm

PARAMETER

Luminous Intensity

Spectral Line
Hall Width

A""

503-11
503-14

24

Forward Voltage

VF

503-11
503-14

1.7

Reverse Current

IR

503-11
503-14

Capacitance'

C

503-11
503-14

NOTES:

E
c:

I

40

~

I

E
c:
~

30

~
u" 20
"E
(5

u..

TEST
CONDITION

IF = 20mA

2.0

V

100

p,A

VR = 5V

PF

VF =0
f = 1 MHZ

30

60

I

~

;:'"

UNIT

1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve.
2. OY. is the off-axis angle at which the luminous intensity IS half the axial luminous intensity.
50

~

MAX.

10

30
20

;:
(5

u..

o

1.2

16

20

24

28

-

~

r- r-

~

!'l

-"00

""

r-...
.....

,

10

o

20

40

60

80

o ./
o

""

,'100

10

20

30

FIG 3 FORWARD CURRENT
DERATING CURVE

0'

10'

30'

~

05

40'

10

09

">

"'"
c::

50'

08

02

60'
70'
80'

07
0.1
-30

-20

-10

10

50

20'

~

a;

40

Forward Current IF(mA)
FIG 4 RELATIVE LUMINOUS
INTENSITY VS. FORWARD
CURRENT.

Ambient Temperature TA (OC)

"o
E
.3

V

I

/

o

32

Forward Voltage VF (V)
FIG 2 FORWARD CURRENT VS
FORWARD VOLTAGE
~
in

,/

40

-0

:0

./

50

~

5
u

I
I
II

50

30

40

Ambient Temperature TA (OC)

FIG 5 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

l++-H-+"1-"t-"--Ft-t-+-+--H 90'
05

03

01

02,04

06

FIG 6 SPATIAL DISTRIBUTION
2-318

597

ELECTRICAL/OPTICAL CHARACTERISTICS AND CURVES AT TA = 2SoC
TEST
CONDITION

SYMBOL

PART NO.
LTL-

MIN.

TVf.

Iv

533·11/·14
553·11/·14

1.7
1.7

5.6
5.6

mcd

IF = lamA
Note 1

Viewing Angle

20Y:.

533·11/·14
553·11/·14

60

deg.

Note 2 (Fig. 11)

Peak Emission
Wavelength

1.. PEAK

533-11/·14
553·11/·14

565
585

nm

Measurement
@Peak (Fig. 1)

nm

PARAMETER
Luminous Intensity

Spectral Line
Hall Width

b.-,...

533·11/·14
553·11/-14

30
35

Forward Voltage

VF

533·11/·14
553·11/·14

2.1

Reverse Current

IR

533·11/-14
553·11/·14

Capacitance

C

533-11/-14
553-11/-14

MAX.

UNIT

2.8

V

100

J.lA

VR == 5V

PF

VF == a
f=1MHZ

35
15

IF =20mA

NOTES: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE
(Commission Internationale De L'Eciairage) eye-response curve.
2. Oy. is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
50

_II

53311
53314

40

60

I·A
IV

1~53.il

50

'"

II

~
u

If

20

J

c

~

OJ>

53311
53314

30

~

0

12162024

.........

0 10

~

3.2

20

Forward Voltage VF (VI

II'

" .........
r-...

40

60

ru

>

1;;

a;

r-.::: ~
BO

V

10

0:

1/

o l/

.......

o

100

10

Ambient TemperatureTA (OC)

2

in

c

OJ>
~

o

~

40

10"

20"

55311
55314

~

.E

30

FIG 9 RELATIVE LUMINOUS
INTENSITY VS FORWARD
CURRENT

0"

i:'

20

Forward Current IF (rnA)

FIG 8 FORWARD CURRENT
DERATING CURVE

FIG 7 FORWARD CURRENT VS
FORWARD VOLTAGE

30"

1 =53311
-53314

40"

05

~

50"

.J

ru

>

~

0:

60"

02

-30

-20

-10

10

20

30

40

AmbIent Tempelature TA (OC)

2-319

598

70'

07

o1

FIG 10 LUMINOUS INTENSITY VS AMBIENT
TEMPERATURE

50

60

70

I--

/

20

.J

.........

:--... r--.

553·11
553-14

'"~

2B

30

c

V

o

5j3.1\
5331

w

E

o

20

24

16

U

480

28

E
I

800

720

Wavelength ( )0. I - nm
Fig 2 SPECTRAL RESPONSE

/
L

o

10

15

20

25

30

Forward Current (lFI - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

I\,

E
~

";

o

40

60

80

~

r--..

"'"

a.

90

Ambient Temperatu.re (Tal - DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

'\

u;

"

c:

~
">
"0::'"
W

.......

".........

'"

I

20

50

U

~

100
80

\..

I

200

E.

"- r'\

"
x
:;:
'"

3-5

o
640

560

500

0

606

II

/

V

05

«

"- "-

12

o

/

15

/

1000
800

~

";

"
">
"'"
W
0::

,

20

0::

24
20

E

oJ

iii

28

E
I

'""
c:

60

0-

J

/

25

0

Forward Voltage (VFI - Volts
Fig. 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

c:

0

10

o

u;

!!l
E

80

""
"

/
1/

20

~

100

20

15

"-"\.
~

'"

1

10
10

20

50

100

10

40

i'DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE IF ~ lOrnA PER SEG I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTL-53173Y
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

UNIT

Average Luminous Intensity Per Bar

Iv

2.3

4.2

mcd

IF

= 10 mA

Peak Emission Wavelength

AP

565

nm

IF

= 20 mA

Spectral Line Half-Width

C,A

30

nm

IF

= 20 mA

Forward Voltage any Chip

VF

2.1

28

V

IF

= 20 mA

Reverse Current any Chip

IR

100

p.A

MAX.

I

VR =5V

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)

50

120

/

«

E

40

I

-E

V
J
V

30

~

"

U

"E
;:
"'

"

Ll.

20

10

12

;ft

16

if

BO

S

e-

60

"
">
iii

40

II:

20

a;

28

24

24

J

V

560

\

/

OS

o

640

BOO

720

Wavelength I A I - nm
Fig. 2 SPECTRAL RESPONSE.

o

10

15

20

E
I

20

""

16
12

.......

4

20

40

r--...

E
l'
5

U

')

.......

I
60

80

90

AmbIent Temperature fTa) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

~

100
BO

..........

50

-"

"'W

0.

I!

~

g

'\..

"

' ........ ........

~

20
10

o

30

u

~

200

25

Forward Current (IF) - mA
Fig 3 RELATIVE LUMINOUS INTENSity Vs
FORWARD CURRENT (PER SEGMENT)

500

x

"'

:;;

11

a:

«

l'

U
u
0

/

15

">

iii
a;

/

1000
BOO

«

5

/

"

480

2B

E

/

25

...J

Forward Voltage IVFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

"
.E"
"'"
"
E
0

o
20

in

0

)

o

?:

100

.......

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
IREFRESH RATE - F ~ 1 KHz)
IAVERAGE IF ~ 10mA PER SEG )

3-6

607

ELECTRICAl/OPTICAL CHARACTERISTICS AT TA
LTL-53173HR
PARAMETER

=

25°C

MIN.

TYP.

Iv

2.3

4.2

mcd

'F"'10mA

Average Luminous Intensity Per Bar

MAX.

TEST
CONDITION

SYMBOL

UNIT

Peak Emission Wavelength

~p

635

nm

IF = 20 mA

Spectral Lme Half-Width

,,~

40

nm

IF'" 20 mA

Forward Voltage any Chip

VF

2.1

2.8

V

IF'" 20 mA

Reverse Current any Chip

IR

100

p.A

VR =5V

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

-,--

50



;

V

1000
800

Cl

608

Q)

40

>

24

15

~

Q)

28

E
~
5

E

;

20

V

~

0
~

-'

24

U

5

~

Forward Voltage (VF ) - VailS
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE



40

a:

20

iii
w

I

Q)

>

4BO

2B

560

/

iii

\

o
24

15

.3

Q)

W 05

a:

/ \

o

640

BOO

720

o

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

Wavelength ( }. I - nm
Fig 2 SPECTRAL RESPONSE

1000
BOO

2B

I\,

500

24

"-

«

20

c: 16
~

8

c:

60

~

Forward Voltage IV,) - Volts
Fig.' FORWARD CURRENT Vs FORWARD VOLTAGE

E

/

E

"'0

s-

20

/

25

S

0

J
12

in
c:

(

~

II

'E
u..

if

/

Q)

U

i!'

100

12

o"

«

"

E
I

g

"-i',

E
~

:;

U

~

""'"

40

60

BO

i!'

l"-

in

c:

I.......

S

i'-.

50

Q)

0.

I

20

100
BO

90

Ambient Temperatu.re (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

'\.

I

200

20

'\

15

l"

E

.......

""

Q)

'r-.

>

iii
w

a:

.......

1

10
10

20

50

100

10

20

40

i'
DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE ""
(REFRESH RATE - F ~ , KHzl
(AVERAGE I, ~ , OmA PER SEG )

3-12
613

ELECTRICAL/OPTICAL CHARACTERISTICS AT iA
YELLOW LTL-2400Y 12700Y SERIES
PARAMETER

SYMBOL

2SoC

MIN.

TYP.

2400

1.3

4.2

2450

3.5

8

2700

1.3

4.2

2720

1.3

4.2

2755

3.5

8

2785

7

LTL-

Average luminous IntensitY Per Bar

=

Iv

TEST
CONDITION

UNIT

MAX.

mcd

IF'" 10 mA

nm

IF = 20 mA

16

Peak Emission Wavelength

i\p

Spectral Lme Half-Width

A'l\

35

Forward Voltage any Chip

VF

2.1

Reverse Current any Chip

IR

585

nm

IF

2.8

V

IF

100

IJ,A

= 20 mA
= 20 mA

VR =5V

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25 0 C Ambient Temperature Unless Otherwise Noted)
120

50

I

..:

E

40

II

I

-E

30

.

20

C5

10

'E
;:
u.

~

5

16

Q)

>

0:

24

E
::J

20

:;

U

05

o

640

800

720

Wavelength ( '" ) -

o

10

15

20

Forward Current (IF) -

nm.

25

30

rnA

Flg.3 RELATIVE LUMINOUS INTENSitY Vs
FORWARD CURRENT IPER SEGMENT)

Fig. 2 SPECTRAL RESPONSE.

I\,

500

..:

E
I

20

""

'6
'2

g
.........

C>

..x

::;:

r-....

E
~
::J

U

1

I

20

614

0:

1000
800



40

480

24

~

L

15

...J

28

28

I
c:

'c:"

60

o

20

L

.5
0

iii

CD

L

2.5

::J

Forward Voltage IV,) - Volts
Fig. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

..:
E

c:
Q)

::J
Q

)

o
12

e-

~
iii

If

80

I

/
II

~

:;
U

100

40

60

80

90

'\.
200

'r-...

100
80

~

50

7ii
Q)

0..

"

'\.

'~ ........

20
10

o

1
10

20

50

100

'0

20

"

~

,

40

DC

Ambient Temperature ITa) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
IRE FRESH RATE - F = 1 KHz)
(AVERAGE I, = 10mA PER SEG I
Vs AMBIENT TEMPERATURE

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
GREEN LTL-2500G/2800G SERIES
PARAMETER

LTL-

Average Luminous Intensity Per Bar

MIN.

TYP.

2500

1.3

4.2

2550

31,OJ

8

2800

1,3

4.2

2820

1,3

4.2

2855

3,5

8

2885

7

16

SYMBOL

Iv

MAX.

UNIT

TEST
CONDITION

mcd

IF=10mA

Peak Emission Wavelength

;>"p

565

nm

IF = 20 mA

Spectral Line Half-Width

D.;>"

30

nm

IF = 20 mA

Forward Voltage any Chip

VF

2.1

Reverse Current any Chip

IR

IF = 20 mA

28

V

100

/4A

VR = 5V

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

,-',- ,---

50



40

0:

20

24

1000

24

500

t:

16

S

12

E

/
15

">

iii
a;
0:

/

I
640

560

800

720

Wavelength ( A I - nm.
Fig, 2 SPECTRAL RESPONSE

I

05

o

/

o

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

800

"- '\

~

U

c:

480

28

28

20

.E"
:J
"'0

o

20

/

25

:J
..J

Forward Voltage (VFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE



Qi

\

rr:

800

720

o

20

40

60

5

50

U

r-...

'"I

80

90

200
100
80

~

.......

.......

............

~

"

Il.

20

r-.... 1'-

10
10

20

50

v

,....

,/
05

o

o

10

15

20

25

30

Forward Current (1,1 - mA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI

Wavelength I A I - nm
Fig 2 SPECTRAL RESPONSE

E

./

~

\

640

15

~

-'

«

E

o

~

c:

500

24

U

00

0

1000
800

28

E

/

o
24

Forward Voltage IV,I - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

«

II

25

.!:

40

>

"'"
rr:
Qi

20

c:

!!l

/ 1\

0

j

o

;;;

V\

30

~

u
"E

~

100

100

Ambient Temperature (Ta) - °C
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTA-1000G

PARAMETER

UNIT

TEST
CONDITION

2000

JJ.cd

IF = 10 mA

SYMBOL

MIN.

TYP.

Iv

800

Average Luminous intensity

MAX.

1-------Peak Emission Wavelength

A.p

565

nm

IF = 20 mA

Spectral Line Half-Width

D.A.

30

nm

IF = 20 mA

Forward Voltage any Bar

VF

2.1

2.8

V

IF = 20 mA

Reverse Current. any Bar

IR

100

JJ.A

Iv-m

2:1

-------

-

Lumlllous Intensity Matching RallO

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25" C Ambient Temperature Unle~s OtherWise Notedl

r-i

50

40

-l:'

-- '--'

-

r-+-



40

>

$

24

15

~

0

J



Oi

20

0:

o
24
-

480

28

1':

16

U

"

12

E
I

g

f'...

1':
~
5

~

x

U

~
a.

'1

~

622

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSity Vs
FORWARD CURRENT (PER SEGMENT)

o

20

\.

«

0

3-21

800

720

500

~

()

o

/

05

o

640

V

800

~

5

/ \

/

1000

24

20

560

0:

Wavelengtn ( " I - nm
Fig 2 SPECTRAL RESPONSE

Volts

28

E

V

'">

iii

'"

Oi

20

15

:J
.J

40

Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

/V

E

0

Forward Voltage (VF)

/

25

C

:J

J

12

in

S

60

S:J

V

o

i!'

-

{

80

5

/

~

u
'E

/

40

60

I

80

90

Ambient Temperature (Ta) - °C
Fig 4 MAX ALLOWAaLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

'"

200
100
80

'"

I
..............

i!'
in

c

........

S

E

I'-..

50

15

...............

20

r-

"I"

" "-

'">

iii

Oi
0:

......

1

10
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE IF ~ 10mA PER SEG )

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTA-1000E

=

2SoC

UNIT

TEST
CONDITION

2000

JLcd

IF =10mA

AP

630

nm

I

Spectral line Half-Width

6A

40

nm

IF = 20 mA

Forward Voltage any Bar

VF

2.1

2.8

V

I

Reverse Current. any Bar

IR

100

}J.A

Iv-m

2 1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

800

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

F

=20 mA

=20 mA

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E
I

40

-E

30

/

20

-0

~

10

u..

12

16

60

E

~

">

-

J

20

J

480

2B

E

28

1000

24

500

U
u
Cl

\
800

720

/

05

o

640

I

V-

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSll'Y VS
FORWARD CURRENT (PER SEGMENT)

BOO

I\,
\.

«

E
I

20

r--..

)

E
~
:;

560

'"

a;
a:

Wavelength ( }. ) - nm
Fig 2 SPECTRAL RESPONSE

Volts

Fig 1 FORWARD CURRENT VS FORWARD VOLTAGE

«

V

.,">

40

o

Forward Voltage (V F)

15

~

..J

~
a;
a:

24

/

~

c

0

20

/

25

C

"
E
'"
0

J

o

?;
in

C

BO

:;
8-

/

:;;
(;

J!-

/

~

:;
U

100

16
12

.....

,

g

"'" i'..

x

'"

::;

40

60

100
BO

:;

50

U

I

20

E
~

1
80

90

AmbIent Temperature (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200

r--..

'\
..........

~

c.."

......

,

I'\.

"-

........

20
10

o

"'

.......

1

10

20

50

100

10

40

i'
DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE °'0
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ lOrnA PER SEG )

3-22
623

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTA-1000HR
UNIT

TEST
CONDITION

2000

#ed

IF=10mA

?lop

635

nm

IF =20 mA

Spectral Line Half·Width

J;.A

40

nm

IF'" 20 mA

Forward Voltage any Bar

VF

2.1

2.8

V

IF =20mA

Reverse Current, any Bar

IR

100

lolA

Iv·m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous intensitY

Iv

800

Peak Emission Wavelength

Luminous Intensity Matching Rati'o

MAX.

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

I
II



500

"- "-

2.

l'

U

V

"

\

V

1000
800



20

/

25

E

0

J
16

c

l!l

60

"iii

12

{

80

5a.
5

/

1:

~
in

90

"

0.

L'\.

",

20
10

1
10

20

50

100

10

20

"-

"-

"

40

DC

Ambient Temperature ITal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
IRE FRESH RATE - F = 1 KHzI
(AVERAGE IF = lOmA PER SEG I

3-23

624

NOTES: 1 Clean only

In

water, Isopropanol, ethanol, freon TF (or equivalent).

2. Luminous Intensity IS measured with a light sensor and filter combination that approximates the CIE
(CommisSion International De L'Ecialrage) eye-response curve.

3-24

625

4. LED Displays with
Driver

Ie Built-In

• SELECTION GUIDE
III PROGRAMMABLE DISPLAY (DISCONTINUED)
• LED DISPLAY WITH DRIVER IC BUILT-IN

• PROGRAMMABLE DISPLAY(DISCONTINUED)
PACKAGE
1,171

15,121
i!:1i::!

!LIb!

DI2)
~il>I

PART NO.

COLOR

LTM·2416

Red

TYP. Iv/****
V
"'5.0V

PAGE
NO.

1250 }Jcd

4-2

TYP. Iv/SEG.
@I =O.4mA

PAGE
NO.

Four Digit, Rt. Hand Decimal
With 2 Extra Output Bits

155 }Jcd
220 }Jed

4-6

Four Digit with
Colon

220 }Jcd
270 }Jcd

4-12

DESCRIPTION

RI?I

i21i;!

4.06mm L 16")
Dual·tn·Line
.79"H x l"W x .26"0
Epoxy Type

Magnified Four Character

• LED DISPLAY WITH DRIVER Ie BUILT-IN
PACKAGE

ta

PART NO.

COLOR

DESCRIPTION

y:n 0:0 O::tl

0=00 DdJo 8",,00 Udio
7.62mm (.3·)
Single-ln·Llne
.8"H x 1.6"W x .23"0
Air Type

0:0

8",,8

oeo
U= 00:0

°3

8

7.62mm (.3")
0.7"H x 1.6"W x .23"0
Air Type

0l®1
Ol®o

~o

13.8mm (.54")
Dual-in·Line
.74"H x l"W x .3"0
Epoxy Type

n0:0
+00 Ur=Yo

14.22mm (.56")
Dual·tn·Llne
.75"H x l"W x .32"0
Epoxy Type

0=0 a=o

14~;g~ ~;ar

Dual·ln·Llne
.75"H x l"W x .32"0
Epoxy Type

o n=O UoVo
t:D

OetUO UetUO
4-'

628

14.22mm L56"}
Dual·ln·Line
.75"H x 1.5"W x .32"0
Epoxy Type

LTM·
8328 PKR·04
8328GKR·04

LTM·
8631GMH
8631YMH

Bright Red
Green

Green
Yellow

LTM·
8647AR
8647AP
8647AG
8647AE
8647AHR

Red
Bright Red
Green
Onwge
Hi -Eff Red

LTM·
8529R
8529P
8529G
8529Y
8529E
8529HR

Red
Bright Red
Green
Yellow
Orange
Hi ·Eft Red

LTM·
8530R
8530P
8530G
8530Y
8530E
8530HR

Red
Bright Red
Green
Yellow
Orange
Hi ·Eff Red

LTM·
8522R
8522P
8522G
8522Y
8522E
8522HR

Red
Bright Red
Green
Yellow
Orange
Hi ·Eff Red

400}.Lcd

Dual Character,
With 4 Extra Output Bits

650 !led
1800 }Jcd
1800 }Jcd
1800 }Jcd

1% Digit, Rt. Hand Decimal
With 8 Extra Output Bits

600 }Jcd
950 }Jcd
2400 }Jcd
2400 }JCd
2400 }Jed
2400 !lcd

4-17

4-24

600 }Jed
950 }Jed
Dual Digit, Rt. Hand Decimal
With 8 Extra Output Bits

Triple Digit, Rt Hand Decimal
With 8 Extra Output Bits

2400 }Jcd

2400 }Jcd
2400 }Jed
2400 }Jed

600 }Jcd
950 }Jed
2400 }Jed
2400 !lcd

.2400 }Jcd
2400 !lcd

4-24

4-24

ILlTE['J~11

LTM-2416
ALPHANUMERIC PROGRAMABLE DISPLAY
WITH MEMORY/DECODER/DRIVER

FEATUERES:
-/lP BUS COMPATIBLE.
- END STACKABLE.
-TTL COMPATIBLE.
-64 CHARACTER ASCII FORMAT.
-ON BOARD MEMORY, DECODE, MIX, DRIVE.
-TOTALLY ENCAPSULATED PACKAGE.
-INDEPENDENT AND ASYNCHRONOUS DIGIT
ACCESS .
.. ULTRA-FAST ACCESS TIME-50 ns.
"PARALLEL ENTRY .
.. MEMORY CLEAR FUNCTION.
"DISPLAY BLANK FUNCTION.

APPLICATIONS
o HAND HELD TERMINALS.
" TELECOMMUNICATION.
o INSTRUMENTATIONS.
" MINICOMPUTERS.
oWORD PROCESSORS.

0.30
(.012)

=il
15.24
(.600)

I
I

MIN~

~38l
3.50

address
ecoded or a One-of-n decoder
tend the address for large displays.
The cursor function causes all segments of a digit POSItion to illuminate.
The cursor is not a character,
however, and upon removal the previously displayed
character will reappear.

NOTE: All dimensions are in
IS

0.25mm
(0.010")

millimeters
(Inches)

I
, to erance

I
h'
d
un ess ot erwlse note .
4-2

629

PIN CONNECTIONS
PIN NO.

CONNECTIONS

PIN NO.

CONNECTIONS

CEl Chip Enable

10

Gnd

2

CE2 Chip Enable

11

DO Data Input

3

CLR Clear

12

01 Data Input

4

CUE Cursor Enable

13

5

CU Cursor Select

14

6

WR Write

15

7
8

Al Address
AO Address

9

VCC

16

Input
Input

17
18

ABSOLUTE MAXIMUM RATING:
-0.3V to

vce + 0.3V

_20°C to +700 e
_40° e to +85° e
595 mw
4.5V to 5.5V

7.0V
2600

SYMBOL
Vee
Icc
Icc
Icc
VIL
VIH
ilL

4-3

630

PARAMETER
Supply Voltage

(Vee
(Vee
(Vee
(Vee

5.0) Alisegs. on
- 5.0) Eight seg.ldig.
= 5.0) Display blank
= 5.0)
= 5.0)
= 5.0)

= 5.0V

tW
tDS
tDH
tAS
tAH

Vee
Vee
Vee
Vee
Vee

Segment Lumi us Intensity
Intensity Matching. Within A Digit
Off-Axis Viewing Angle
Digit Size
Spectral Peak Wavelength
Spectral Width Half Intensity

Vee = 5.0V
Vee = 5.0V
Vee = 5.0V

=
=
=
=

5.0V
5.0V
5.0V
5.0V

Vee = 5.0V
Vee = 5.0V

e

MIN.

TYP.

MAX.

UNITS

4.5

5.0
75
40
0.6

5.5

V
mA
mA
mA
V
V
/lA

2.0
35
60
50
40
70
40

100
0.8
Vee
125

ns
ns
ns
ns
ns
1250
±33
±50
160
655
40

/led

%
degrees
mil
nm
nm

FUNCTIONAL DESCRIPTION
o ENTRY INTO DATA MEMORY
To enter an ASCII code CEl and CE2 inputs must be
low, CU must be high. When the address IS set up
at AO and A 1, the WR can go low, at which time the
Internal RAM will respond to the data Inputs (00-06).
Note that the data need not be set up prtor to the WR
transition all digits can be cleared by holding the CLR
input low for the specified interval.
o ENTRY INTO CURSOR MEMORY
This is accomplished by setting the CE 1 and CE2
Inputs as well as the CU Input low. The cursor
memory consists of 4 bits corresponding to the four
digits, each one addressable by way of the AO and A 1
Inputs. Once the address is stable, the WR input must
go low and the cursor memory will respond to the DO
input. That is, If DO IS high, a cursor Will be written
and if DO is low, the cursor will be erased. CLR will
not erase a cursor. A cursor Will only be displayed

_BLANKING THE DISPLAY
Display blanking can be realized by uSing the BL
Input, by taking be low, the display Will be disabled
while leaving the contents of the data and cursor
memory unchanged. A flashing display Will occur if
BL IS pulsed. The display IS blanked by BL regardless
of whether a cursor of character IS being displayed.

Will
hlle leaVing the

co
entered into the data
5) the display Will automatically

tw---~

Gil

INTERNAL BLOCK DIA

4-4

631

CHARACTER SET
DO

L

H

L

H

01

L

L

H

H

L

02

L

L

L

L

H

L

L

L

L

L

2

3

4

, I

:0

=0

70

:J

"

,

,:J

'.J

-Ii

rC_

o

03
06 06 04

0

L

H

L

2

L

H

H

3

Ii
!.J

H

L

L

4

Cu

H

L

H

I'
5· ,--

-,

I I

:J

'-

-.!

C:JI

-ii
-I]

L_

If

i,
;-,

~J

I

!...~

,--

L

-,I

H

L

H

L

H

L

H

H

L

L

H

H

H

H

H

L

L

L

L

L

L

L

H

H

H

H

5

6

7

8

9

A

B

,-v

11-

_u

L

H

I

L

H

L

H

L

L

H

H

H

H

H

H

H

H

H

H

C

0

E

F

,

\1

[~

/

,,

,-

,

,--

"/.I

I

,-,
'"

L_ I

-;

I

L.J

L

-'

DATE AND CURSOR ENTRY FUNCTIO
FUNCTION BL CEl CE2 CUE CU WR CLR
Write
Date
Memory

X

Write
CUrrsor

X

Clear
Cursor

L

L

L

X

03 02 01 DO

H

L

X

X

L
H
L
H

L

X

X

632

o "H" Logic high input
L" Logic low input.
o "X" Don't care
0"

1

0

NC
NC
C
NC

NC
B
NC
NC

A
NC
NC
NC
i~
NC
NC
NC

L
L
L
L

L
L
L
H

L
H
H
L

H
L
H
L

NC
NC
NC

NC
NC
NC

NC
NC

NC

~$

itil

MI

NC

NC
NC

NC
NC
NC

NC
NC

X
X
X
X

X
X
X
X

X
X
X
X

X
X
X
X

X
X
X
X

X
X
X

X

H
H
H
H

X
X
X
X

X
X
X
X

X
X

X
X
X
X

X
X
X
X

X
X
X
X

L
L
L
L

X
X

0

'!'lI

!!:'l'

NC

NC

NC
NC

NC
NC
NC

X

H

Display previously
written data

0

C

B

A

H

X

X

H

Display previously
written cursor

~

~

~

1*1

X

X

X

L

Clear data memory

X

X

X

X

Blank display
Data a nd cursor
memories unchanged

4-5

2

L
L
L
L

CUrsor memory
unchanged
Blank

DIG DIG

3

X

CUE

Clear

L
L
H
H

DIG DIG

oNC' No change.
§:~ . cursor character (all segment on)

•

ILlTE('J~1I

LTM-8328XKR SERIES
0.3" FOUR DIGIT 7-SEGMENT NUMERIC DISPLAY
WITH MOS IC DRIVER

FEATURES
-0.3 INCH (7.62mm) DIGIT HEIGHT.
- FOUR-DIGIT, RIGHT HAND DECIMAL.
-WIDE SUPPLY VOLTAGE OPERATION.
-SERIAL DATA INPUT.
-CONSTANT CURRENT DRIVERS.
- CONTINUOUS BR IGHTNESS CONTROL
-OUTPUT AVAILABLE FOR TWO EXTERNAL
LEDS.
-WIDE VIEWING ANGLE .
• CHOICE OF TWO BRIGHT COLORS - BRIGHT
RED/GREEN
-TTL COMPATIBLE.

DESCRIPTION
The LTM-8328KR series are 0.3 inch (7.62mm) height
numeric display modules, having a built-in M5450
MOS Integrated circuits. The Integrated circuit contains
serial data Input, 35 bit shift registers. 34 LED driver
outputs and a brightness control. The bright red and
green devices utilized LED chips which are made from
GaP on a transparent GaP substrate.
The MOS
integrated circUits produced with N-channel silicon gate
technology.
All the displays have black face with white diffused
film.

APPLICATIONS
- MICROPROCESSOR DISPLAY.
- DIGITAL CLOCK, THERMOMETER, COUNTER,
VOLTMETER.
- INSTRUMENTATION READOUTS.

DEVICES
PART NO. LTMDESCRIPTION
BRIGHT RED

GREEN

8328PKR-04

8328GKR-04

Four Digit R.H.D.P., With I.C. Driver
4-6

633

PACKAGE DIMENSIONS
39.02 ± 0.5
1.536 ± 0.02
10.16

0.'

.12 t-~

3.68
.145

~

-

10.16
0.'

FIL M SLIP OUT
TOLE RANCE+~
0.02

10.16

0.'
3.12
.12

~
.145 f--

f

h5

0" ITI

acoll l 'U=oll D'::Jll
~L- _ll=llt ll=D ll=llO ll=ll ~
r- DC::Jll I

$+++
10.12
0.398

1.2
0.047

I

0.012

9.7
0.382

3

p

20.4 ±O.lS
0.8r±o.06

0.3
-

\
+ + + ~ I~
0.02 t---

I

2.54 x 8 = 20.32
0.1 )(8 -O.B
40.4 ±O.15

~

~
0.132

4>0.8
00.0315
00.025 SQUARE PIN
c 0.64

t'87

1.591 ±O.OOS

NOTE:' All dimensions are in millimeters tolerance
,
(inches)

PIN CONNECTION
PIN NO.

IS

0.25mm unless otherwise noted.
(0.010")

BLOCK DIAGRAM

DESCRIPTION

1

EXT LED 1

2

EXT LED

9t------------------;

2

3

DATA ENABLE

4

DATA SERIAL

5

CLOCK

6

VDD

7

DIMMER

8

GND

9

VLED

VDD
BRIGHTNESS
CONTROL

LED DISPLAY
OUTPUT BUFFERS

ENABLE
SERIAL
DATA

FIGURE1

634

2
EXTERNAL
LED

DATA

CLOCK

4-7

0.402
15.9
0.626

-=

8

ABSOLUTE MAXIMUM RATING AT TA
PARAMETER

=

25u C

SYMBOL

MIN.

MAX.

UNITS

Voo

-0.3

15

V

V,

-0.3

15

V

15

V

3.5

V

Po (IC)

660

mW

Supply Current

100

7

mA

Operating Temperature Range

Top

-20

+60

°c

Storage Temperature Range

Tstg

-20

+60

°c

Supply Voltage *1
I nput Voltage
Off State Output Voltage

Vo (off)

LED Supply Voltage

V LED

Power Dissipation of IC *2

2.8

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260° C
NOTES' 1. All voltages are with respect to Vss (GND)
2. Power dissipation of IC is given by Po = (VLEO -VF) • (IF) • (No. of Segments) + 17mA) • Voo )
*V F IS LED forward voltage

RECOMMENDED OPERATING CONDITION AT TA = 25°C
PARAMETER
Supply Voltage
Input Voltage
Logical "0" Level
Logical "1" Level

SYMBOL

MIN.

Voo

V,

Logical "1" Level

TYP.

MAX.

UNIT

4.75

13.2

V

-0.3
2.2

0.8
VOD

V
V

VOO ·2

Voo

V

TEST CONDITION

±10/-LA Input Bias
4.75V < VDO < 5.25V
VOO > 5.25V

Brightness I nput Current

IB

0

0.75

mA

Brightness Input Voltage

VB

3

4.3

V

13.2

V

10

/-LA
mA

IB
IB

mA

IB

0.5

MHZ

±20

%

Off State Voltage

Vo loff)

Input Current

= 750 /-LA

Output Sink Current
Segment Off

3

Segment On

6
Input Clock Frequency
Output Matchi ng

FCLOCK

10

0

= 0 J1.A
= 100 J1.A
= 200/-LA

4·8

635

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTM-8328PKR-04
PARAMETER
Average Luminous Intensity

UNIT

TEST
CONDITION

250

/lcd

Is = 0.4 mA

SYMBOL

MIN.

TYP.

Iv

120

MAX.

Peak Emission Wavelength

AP

697

nm

Is = 0.4 mA

Spectral Line Half-Width

boA

90

nm

16 = 0.4 mA

Luminous Intensity Matching Ratio

Iv-m

2:1

Is = 0.4 mA

LTM-8328GKR-04
PARAMETER

UNIT

TEST
CONDITION

400

/lcd

Is = 0.4 mA

AP

565

nm

Is = 0.4 mA

boA

30

nm

Is = 0.4 mA

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

200

Peak Emission Wavelength
Spectral Line Half-Width
Luminous Intensity Matching Ratio

Iv-m

MAX.

2:1

16 = 0.4 mA

FUNCTIONAL DESCRIPTION
Serial data transfer from the data source to the display
driver is accomplished with 2 signals serial data and
clock. Using a format of a leading "1" followed by the
35 data bits allows data transfer without an additional
load signal. The 35 data bits are latched after the 36th
bit is complet, thus providing nonmultiplexed, direct
drive to the display. Outputs change only If the serial
data bits differ from the previous time.
Brightness of display IS determined by control the
output current of LED display. A InF capacitor should
be connected to brightness control, Pin 7 to prevent
possible oscillations. The output current is typically
25 times greater than the current Into Pin 7 which
IS set by an external variable resistor. There is an
Internal limiting resistor of 400.0. nominal value.
Figure 1 shows the input data format. A start bit of
logical "1" preceed the 35 bits of data. At the 36th
clock, a LOAD signal is generated synchronously
4-9

636

with the high state of the clock, which loads the 35
bits of the shift registers into the latches. At the low
state of the clock a RESET signal is genera led which
clears all the shift registers for the next set of data.
The shift registers are static master-slave configuration. There is no clear for master portion of the first
register, thus allowing continous operation.
There must be a complete set of 36 clocks or the shift
registers won't clear. When power is first applied to
the chi p an Internal power ON reset signal is generated
which reset all registers and all latches. The START
bit and first clock return the chip on its normal operation. Bit 1 is the first following the start bit and it
will appear on the segment A of the digit 1. A logical
"1" at the input will turn on the appropriate LED.
Figure 2 shows the timing relationship between data,
clock, and DATA ENABLE. A max. clock frequency
of 0.5 MHz is assumed.

FIGURE 1 Input Data Format.

CLOCK

DATA
DATAENABLE

FIGURE 2 Timing Relationship.
36

-I

,-

LJ

CLOCK
1
S;rART

1

i

,
BIT 1 1

LOAD
(INTERNAL)

RESET
(INTERNAL)

______________________________

LO
N

--o /

V LE D Fa
I'\.AL ED a

I-

(P DR

«

u

~

~

,,

t9

w

«
E

w

______

LED Supply Voltage Range

>

...J
W

~rl~

__________________________________~rl~______

Typical LED Element Current Vs
Applied Brightness Control Current

w
::2:

I

i

_ .......,YZ01;72;7J7;7;7;7;Z0Z071Z11R/1ZJ

DATA

IZ

,

: BIT 35\BIT 36

...J

o
>
>...J
a.
a.

:J

~

k

/

,~'

,~,

MI~

ALL

660 nW)
~
I~"~

~

V LE D

o

W
...J

W
...J

>
I BR CaNT (/-LA)

4·10

637

TABLE I SERIAL DATA INPUT SEQUENCE
BIT
1

4-11

638

DIGIT

SEGMENT

BIT

DIGIT

SEGMENT

1

A

18

3

B

2

1

B

19

3

C

3

1

C

20

3

D

D

21

3

E

E

22

3

F

4

1

5

1

6

1

F

23

3

G

7

1

G

24

3

DP

.'

8

1

DP

25

4

A

9

2

A

26

4

B

10

2

B

27

4

C

11

2

C

28

4

D

12

2

0

29

4

E

-

13

2

E

30

4

E

14

2

F

31

4

G

15

2

G

32

4

16

2

DP

33

LED 1

17

3

A

34

LE02

OP

ILITEr.] ~ II

LTM-8631XMH SERIES
0.3" FOUR DIGIT 7-SEGMENT NUMERIC DISPLAY
WITH MOS IC DRIVER

FEATURES
-0.3 INCH (7.62mm) DIGIT HEIGHT.
- FOUR-DIGIT WITH COLON.
-SUPPLY VOLTAGE 5V.
- SERIAL DATA INPUT.
-CURRENT
GENERATOR
OUTPUT
FOR
5
EXTERNAL LEDS.
- DATA ENABLE.
- NO EXTERNAL CAPACITOR OR RESISTOR
REQUIRED.
- CHOICE OF TWO COLORS - YELLOW/GREEN.
-TTL COMPATIBLE.

DESCRIPTION
The L TM-8631 XM H series are 0.3 inch (7 .62mm)
height numeric displav modules, having a built-In
M5450 MOS integrated circuits. The integrated circuit
contains serial' data input, 35 bit shift registers. 34
LED driver outputs and a brightness control.
All the displays have black face with white diffused
film.

APPLICATIONS
-MICROPROCESSOR DISPLAY.
- DIGITAL CLOCK, THERMOMETER, COUNTER,
VOLTMETER.
- INSTRUMENTATION READOUTS.
- DISPLAY
FOR
DIGITAL
MEASURING
INSTRUMENT.
-TV-, VIDEO- AND AUDIO-PANELS.

DEVICES
PART NO. LTMDESCRIPTION
YELLOW

GREEN

8631 YMH

8631 GMH

Four Digit, Colon With I.C. Dnver
4-12

639

PACKAGE DIMENSIONS

SllM

SLIP

OUT

TOLERANCE

+(~::2)
0.3

-(O.olB)
O.B
(0.031)

17.145±O.5
to.675to.O:'.!:)

!
NOTE: All dimensions are in millimeters
(Inches)

tolerance is 0.25 mm unless otherwise noted.
(0.010")

BLOCK DIAGRAM

PIN CONNECTION
PIN NO.

4-13

640

DeSCRIPTION

1

SERIAL DATA

2

CLOCK INPUT

3

Von

4

N.C.

5

GND

6

VlEO

7

DATA ENABLE

8

EXT. LED 2

9

EXT. LED 1

10

EXT. LED 3

11

EXT. LED 4

12

EXT. LED 5

VDD
BRIGHTNESS

CONTROL

Value Selected

O.01A1F

OATA

ENABLE
SERlAL
OATA

CLOCK

=

ABSOLUTE MAXIMUM RATINGS
V DD

4.75V to 5.25V

V LED

3.25V to 4.10V

Voltage at any other pin

-0.3V to 5.25V

Driver ch ip power dissipation

660mW max.

Operating temperature

_20° C to 70° C

Storage temperature

_20° C tc. 70° C

Lead temperature
(Soldering: 5 sec. max.)

ELECTRICAL CHARACTERISTICS
V DD = 5V ± 0.25V (if not otherwise specified)

SYMBOL
I
I

DD
LED

PARAMETER

CONDITIONS T

= 25°C

V DD Supply Current, pm 3

V DO = 5 25V

V

V DD = 5.25V, V LED = 3.5V
all segs & ext drives ON
Ext drives loaded as per
the circuit of Figure 1

LED

Supply Current, pin 6

MIN.

TYP.

MAX.

DIM.

7.5

mA

180

300

mA

V 1L

Input Voltage "0" Level

-0.3

0.8

V

VI

Input Voltage "1" Level

2.2

5.25

V

I

I nput Leak age Current

10

p.A

Input Clock Frequency

0.5

MHz

60

%

f

L

C

Duty Cycle

40

50

OPTICAL CHARACTERISTICS
SYMBOL
I

I\p

PARAMETER

CONDITIONS T

= 25°C

Luminous Intensity
per segment

V DD = 4.75V, V LED =3.5V;
(all segs & ex 1. drives ON)

Intensity matching

Voo = 5.0V, V

Wavelength of peak emission

V DO

LEO

= 3.5V

= 5.0V, V LED

= 3.5V

O,G

y

TYP.

0.3
0.16

0.5
0.3

MAX.

°

y

630
585
565

DIM.
mcd
mcd

± 40

G

Address
Address

MIN.

%

nm
nm
nm

4·14
641

FUNCTIONAL DESCRIPTION
The LTM-8631 series is specifically designed to operate
with minimal interface with the data source. Serial
data transfer from the data source to the display driver
is accomplished with 2 signals, serial data and clock.
Using a format of a leading "1" followed by the 35
data bits allows data transfer without an additional
load signal. The 35 data bits are latched after the
36th bit is complete, thus providing non-multiplexed,
direct drive to the display.
Outputs change only if the serial data bits differ from
the previous time.
Figure 1 shows the timing relationship between DATA,
CLOCK and DATA ENABLE and the input data
format. The max. clock frequency is 0.5 MHz.
A start bit of logical "1" precedes the 35 bits of data.
At the 36th clock a LOAD signal is generated syn-

FIGURE 1

chronously with the high state of the clock, which
loads the 35 bits of the shift registers into the latches.
At the low state of the clock a RESET Signal is
generated, which clears all the shift registers for the
next set of data. The shift registers are static masterslave configurations. There is no clear for the master
portion of the first shift register, thus allowing
continuous operation.
There must be a complete set of 36 clocks or the
shift registers will not clear I
When power IS first applied to the chip an internal
power ON reset signal is generated which resets all
registers and all latches. The START bit and the first
clock return the ch ip to its normal operation.
Bit 1 is the first bit following the start bit. A logical
"1" at the input will turn on the appropriate LED.

Input Data Format.
DATA ENABLE

::--:.-~
DATA

CLOCK

FIGURE 2

Timing Relationship.
36

CLOCK

S~ART l BIT
DATA

LOAD
(INTERNAL)

4-15
642

RESET
(INTERNAL)

I

1 :

I

I

: BIT 35 IBIT 36l

_...,.,IlWa07J7;7;7;7W7/7;7;7;7Q;7;JI//lJ

________________________________

~rl~

__________________________________

_______

~rl~

______

TABLE I
BIT

SERIAL DATA INPUT

SE~UENCE

DIGIT

SEGMENT

BIT

DIGIT

SEGMENT

1

1

A

18

3

B

2

1

B

19

3

C

3

1

C

20

3

0

4

1

0

21

3

E

5

1

E

22

3

F

6

1

F

23

3

G

7

1

G

24

EXT

LED 4

8

EXT

LED 3

25

4

A

9

2

A

26

4

B

10

2

B

27

4

C

11

2

C

28

4

0

12

2

0

29

4

E

13

2

E

30

4

E

14

2

F

31

4

G

15

2

G

32

EXT

LED 5

16

2

OP

33

EXT

LED 1

17

3

A

34

EXT

LED 2

AC CHARACTERISTICS
SYMBOL
t

t

t

t

f

PARAMETER

MIN

TYP

MAX

DIM

WAVEFORMS
See Fig. 1

DE

DATA ENABLE
Set up time

0

Set up time
Data to clock

300

ns

0

Hold time
Data to clock

100

ns

c

Clock Hold time

400

os

c

Max. clock pulse
frequency

ns

400

500

KHz

4-16
643

ILITEr.] ~ II

LTM-8647A SERIES
0.54" 2·CHARACTER 14-8EGMENT
ALPHANUMERIC DISPLAY WITH MOS I.C. DRIVER

FEATURES
-0.54 INCH (13.8mm) DIGIT HEIGHT, 14-SEGMENT
CHARACTER.
-WIDE SUPPLY VOLTAGE OPERATION.
-SERIES DATA INPUT.
-CONSTANT CURRENT DRIVERS.
-CONTINUOUS BRIGHTNESS CONTROL.
-SOLID STATE RELIABI L1TY, LONG OPERATION
LI FE.
-WIDE VIEWING ANGLE.
-CHOICE OF FIVE BRIGHT COLORS-RED/BRIGHT
RED/GREEN/ORANGE/HIGH EFFICIENCY RED.
-TTL COMPATIBLE.

DESCRIPTION
The LTM-8647A series are dual character 14-segment
alphanumeric display modules, having a built-in M5450
MOS integrated circuits. The Integrated circuit contains series data input, 35 bit shift registers, 34 LED
driver outputs and a brightness control. The red devices
utilized LED chips which are made from GaAsP on a
GaAs substrate.
The bright red and green devices
utilized LED chips which are made from GaP on a
The orange and high
transparent GaP substrate.
efficiency red devices utilized LED chips which are
made from GaAsP on a transparent GaP substrast.
The MOS Integrated circuits produced with N-channel
silicon gate technology. Red and bright red displays
have black face and red segment color. Green and
orange displays have gray face and white segment
color. High efficiency red displays have red face and
red segment color.

DEVICES
PART NO. L TM-

4-17
644 ,

RED

BRIGHT
RED

GREEN

ORANGE

HI.-EFF.
RED

8647AR

8647AP

8647AG

8647AE

8647AHR

DESCRIPTION

Dual Character, with

I.e. Driver

PACKAGE DIMENSIONS

1.18

(0046)

DIGIT I

DIGIT 2

6

30
(.012
0.
0.50

(.020)

NOTE: All dimensions are In

millimeters
( Inches)

tolerance are

1. Lead length (from seating plane): minimum valum

15.24

(.600)

+100
mm
-0.000
2
+0.040"
-0000"

±O 25mm
(0.010")

un less otherwise noted

PACKAGE PIN CONNECTION
PIN NO.

CONNECTION

PIN NO.

CONNECTION

1

Bit 32 Output

10

No. Pin

2

Bit 33 Output

11

No Pin

3

Bit 34 Output

12

No. Pin

4

Data Input

13

Vss* 1

5

Clock Input

14

Vss* 1

6

Data Enable

15

No. Pin

16

No. Pin

8

VLEO

17

Bit 31 Output

9

Brt Control

18

No. Pin

7

Voo

NOTE: Pin 13 & 14are internally connected

4-18
645

ABSOLUTE MAXIMUM RATING AT TA = 25°C
SYMBOL

MIN.

MAX.

UNITS

Voo

-0.3

15

V

VI

-0.3

15

V

15

V

3.5

V

Po (lC)

350

mW

Supply Current

100

7

mA

operating Temperature Range

Top

-20

+60

°c

Storage Temperature Range

Tstg

-20

+60

°c

PARAMETER
Supply Voltage *1
Input Voltage

Vo (off)

Off State Output Voltage
LED Supply Voltage

2.8

V LEO

Power Dissipation of IC *2

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260° C
NOTES: 1. All voltages are with respect to Vss (GND)
2. Power dissipation of IC is given by Po ; (VLEO -VF) • (IF ) • (No. of Segments) + (7mA) • Voo)
*VF is LED forward voltage

RECOMMENDED OPERATING CONDITION AT TA = 25°C
PARAMETER

MAX.

UNIT

4.75

13.2

V

VI

-0.3
2.2
Voo-2

0.8
Voo
Voo

V
V
V

±10}.LA Input Bias
4.75V  5.25V

Brightness I nput Current

16

0

Brightness Input Voltage

VB

3

4.3

V

Input Current; 750}.LA

13.2

V

10

0.5

}.LA
mA
mA
MHZ

±20

%

Supply Voltage
Input Voltage
Logical "0" Level
Logical "1 " Level
Logical "1" Level

Off State Voltage

SYMBOL

MIN.

Voo

Output Matching
4-19

640

0.75

Vo (off)

Output Smk Current
Segment Off
Segment On
Input Clock Frequency

TYP.

mA

3
6
F CLOCK
10

0

TEST CONDITION

16 ; OIlA
18 ; 100llA
18 ~ 200llA

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTM-8647AR
PARAMETER
Average Luminous Intensity

= 25°C
TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

200

400

!lcd

Is

~

0 4 mA

MAX.

UNIT

Peak Emission Wavelength

;"p

655

nm

18

~

0.4 mA

Spectral Line Half-Width

b:A

24

nm

Is

~

0.4 mA

Luminous Intensity Matching Ratio

Iv-m

Is; 0.4 mA

2.1

LTM-8647AP
PARAMETER

UNIT

TEST
CONDITION

650

!lcd

Is ; 0.4 mA

;"p

697

nm

18 = 0.4 mA

A;"

90

nm

Is = 0.4 mA

SYMBOL

MIN.

TYP.

Average Luminous IntenSIty

'Iv

300

Peak Emission Wavelength
Spectral Line Half-Width
Luminous Intensny Matching Ratio

Iv-m

MAX.

Is. = 0 4 mA

2.1

LTM-8647AG
PARAMETER

UNIT

TEST
CONDITION

1800

lJ.ed

Is =0.4 mA

;"p

565

nm

Is ;0.4 mA

All.

30

nm

18 =04 mA

SYMBOL

MIN,

TYP.

Average Luminous Intensity

Iv

600

Peak Emission Wavelength
Spectral Line Half-Width
Luminous Intensity Matching Ratio

Iv-m

MAX.

Is = 0.4 mA

2.1

LTM-8647AE
PARAMETER

UNIT

TEST
CONDITION

1800

!led

Is '" 0.4 mA

lI.P

630

nm

18 = 0.4 mA

All.

40

nm

Is=O.4mA

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

600

Peak Emission Wavelength
Spectral Line Half-Width
Luminous Intensity Matchtng Ratio

Iv-m

MAX.

21

Is =0.4 mA

647

LTM-8647 AH R
PARAMETER
Average Luminous Intensity

UNIT

TEST
CONDITION

1800

/lcd

IB = 0.4 mA

SYMBOL

MIN.

TYP.

Iv

600

MAX.

Peak Emission Wavelength

lI.p

635

nm

IB = 0.4 mA

Spectral Line Half,Wldth

6A

40

nm

IB =0.4 mA

Luminous IntenSity Matchmg RatiO

Iv-m

2.1

IB=O.4mA

FUNCTIONAL DESCRIPTION
Serial data transfer from the data source to the display
driver IS accomplished with 2 signals serial data and
clock. Usmg a format of a leading "1" followed by the
35 data bits allows data transfer without an additional
load signal. The 35 data bits are latched after the 36th
bit is complet, thus providing nonmultlplexed, direct
drive to the display. Outputs change only If the serial
data bits differ from the prevIous time.
Brightness of display IS determined by control the
output current of LED display. A I nF capacitor should
be connected to brightness control, Pin 9 to prevent
possible oscillations. The output current IS typically
25 times greater than the current mto Pin 9 which
is set by an external variable resistor. There IS an
internal limiting resistor of 40051 nominal value.
Figure 1 shows the mput data format. A start bit of
logical "1" preceed the 35 bits of data. At the 36th

clock, a LOAD Signal is generated synchronously with
the high state of the clock, which loads the 35 bits
of the shift registers into the latches. At the low state
of the clock a RESET signal is generaled which clears
all the shift registers for the next set of data. The
shift registers are static master-slave configuration.
There is no clear for master portion of the first register,
thus allowing continous operation.
There must be a complete set of 36 clocks or the shift
registers won't clear.
When power is first applied
to the chip an internal power ON reset signal is
generated which reset all registers and all latches. The
START bit and first clock return the chip on its normal
operation. Bit 1 is the first followmg the start bit and
It will appear on the segment A of the digit 1. A logical
"1" at the input will turn on the appropriate LED.
Figure 2 shows the timing relationship between data,
clock, and DATA ENABLE. A max. clock frequency
of 0.5 MHz IS assumed.

CLOCK

DATA
300ns MIN
DATA ENABLE
lOOns MIN

_of-looarI!f---

4-21

648

FIGURE/lnput data format. FIG.1 Input data format.

36
CLOCK

DATA

LOAD
(INTERNAL)

RESET
(INTERNAL)

________________________________

~r1~

__________________________________

________

~rl~

______

FIG.2 Timing relationship

VDD

3

17

2

LED
8

7

DISPLAY

BRIGHTNESS
CONTROL

100Kn

BIT
34

BIT BIT BIT
33
32
31

9

I
DATA ENABLE
SERIAL DATA
CLOCK

1\111 IVII
IZ!SI. 1&1.

35 OUTPUT BUFFERS

1nF
LATCHES

6
4

BIT SHIFT REGISTERS

5

13

14

FIG.3 Internal Block Diagram

4-22

649

TABlE I SERIAL DATA INPUT SEQUENCE

4-23

650

BIT

DIGIT

SEGMENT

BIT

DIGIT

SEGMENT

1

2

A

18

1

0

2

2

B

19

1

E

3

2

C

20

1

F

4

2

0

21

1

G

5

2

E

22

1

H

6

2

F

23

1

K

7

2

G

24

1

M

8

2

H

25

1

N

9

2

K

26

1

R

10

2

M

27

1

S

11

2

N

28

1

T

12

2

R

29

1

DP

13

2

S

30

2

DP

14

2

T

31

1.5

1

A

32

16

1

B

33

PIN 2

17

1

C

34

PIN 3

PIN 17
PIN 1
I

I

ILITEr.] ~ II

8522
LTM- 8529 SERIES
8530
0.56 INCH 7-SEGMENT
NUMERIC DISPLAY WITH MOS I.C. DRIVER

FEATURES
"0.56 INCH (14.22mml DIGIT HEIGHT.
"WIDE SUPPLY VOLTAGE OPERATION.
"SERIAL DATA INPUT .
• CONSTANT CURRENT DRIVERS.
oCONTINUOUS BRIGHTNESS CONTROL.
oSOLID STATE RELIABILlTY·LONG OPERATION
LIFE.
oWIDE VIEWING ANGLE.
oCHOICE OF SIX BRIGHT COLORS·RED/BRIGHT
RED / GREEN / YELLOW / ORANGE / HIGH
EFFICIENCY RED.

DESCRIPTION
The LTM-8522/8529/8530 series are 0.56 inch
(14.22mml height numeric display modules, and a builtin M5450 MOS Integrated circuits.
The integrated
circuit contains series data Input, 35 bit shift register,
34 LED dnver output and brightness control.
The red deVices utilized LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green devices ut lIized LED chips which are made from
GaP on a transparent GaP substrate. The orange and
high efficiency red devices utilized LED chips which
are made from GaAsP on a transparent GaP substarate.
The MOS Integrated circuits produced with N-channel
si licon gate technology.
Red and bright red displays have black face and red
segment color. Green and yellow displays have gray
face and white segment color. Orange displays have
orange face and orange segment color. High efficiency
red displays have red face and red segment color.

:::>EVICES
PART NO. L TMDESCRIPTION

PACKA3E
DIMENSION

RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HI.-EFF.
RED

8522R

8522P

8522G

8522Y

8522E

8522HR

3 Digit, Rt. Hand Decimal

A

8529R

8529P

8529G

8529Y

8529E

8529HR

1 % Digit, Rt. Hand Decimal

B

8530R

8530P

8530G

8530Y

8530E

8530HR

2 Digit, Rt. Hand Decimal

C
4-24
651

PACKAGE DIMENSIONS
A. LTM-8522

DIGIT1

c.

B. LTM-8529

DIGIT 1

DIGIT2

DIGIl3

LTM-8530

o IGITl

DIGIT2

0lGIT2

A

DB il~DB
G~O~ D:D~
DP

8,~00

(.315)
3~26 MIN
(.128)
•
~

1

D

DP

8

,~~8r-

o.sO
('012)

15.24

15.24

(.600)

C.600

NOTE: All dimensions are in

millimeters
(inches)

tolerance are:

+1.00

1. Lead length (from seating plane): minimum value

-=0.00

+0.040"
( -0.000"

4-25
652

mm 2.

±0.2Smm

(0.010")

un less otherwise noted.

PIN CONNECTION
CONNECTION
PIN NO.

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18

LTM-8522

LTM-8529

LTM-8530

Vss
VLED
VLED
Bit 25 Output
Bit 25 Output
Bit 27 Output
Bit 28 Output
Bit 29 Output
Bit 30 Output
Bit 31 Output
Bit 32 Output
Bit 33 Output
Bit 34 Output
Data Enable
Data Input
Clock Input
VDD
BRT. Control

Vss
VLED
NO PIN
NO PIN
NO PIN
Bit 15 Output
Bit 16 Output
Bit 17 Output
Bit 18 Output
Bit 19 Output
Bit 20 Output
Bit 21 Output
Bit 22 Output
Oata Enable
Data Input
Clock Input
VDD
BRT. Control

Vss
VLED
NO PIN
NO PIN
NO PIN
Bit 17 Output
Bit 18 Output
Bit 19 Output
Bit 20 Output
Bit 21 Output
Bit 22 Output
Bit 23 Output
Bit 24 Output
Data Enable
Data Input
Clock Input
VDD
BRT. Control

ABSOLUTE MAXIMUM RATING AT TA
PARAMETER

=

25°C

-

SYMBOL

MIN.

MAX.

UNITS

Voo

-0.3

15

V

VI

-0.3

1'5

V

15

V

3.5

V

PD (lC)

350

mW

Supply Current

100

7

mA

Operating Temperature Range

Top

-20

+60

°c

Storage Temperature Range

Tstg

-20

+60

°c

Supply Voltage *1
Input Voltage
Off State Output Voltage
LED Supply Voltage
Power Dissipation of IC *2

Vo (off)
VLEO

2.8

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C
NOTES: 1, All voltages are with respect to Vss (GND)
2. Power dissipation of IC is given by Po = (VLED -VF). (IF) • (No. of Segment + (7mA) V 00
*VF is LED forward voltage,

)

4·26

653

RECOMMENDED OPERATING CONDITION AT TA
PARAMETER

SYMBOL

MIN.

Voo

4.75

Supply Voltage

TYP.

=

25°C

MAX.

UNIT

13.2

V

-0.3

0.8

V

± lO/lA Input Bias

2.2

V

4.75V

Voo -2

Voo
Voo

V

Voo

TEST CONDITION

Input Voltage
Logical "0" Level
Logical "1" Level

VI

Logical "1" Level

< Voo < 5.25V
> 5.25V

Brightness Input Current

Is

a

0.75

mA

Brightness Input Voltage

Vs

3

4.3

V

13.2

V

10

/lA
mA

Is = 100 /lA

mA

Is = 200 /lA

Off State Voltage

Vo (off)

Input Current = 7f1J/lA

Output Sink Current
Segment Off
Segment On

3
6

Input Clock Frequency

FlcLOCK

Output Matching

a

10

0.5

MHZ

±20

%

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTM·8522R/8529R/8530R
PARAMETER

=

IsooO/lA

25°C
TEST
CONDITION

MIN.

TYP.

Average Luminous Intensity

tv

200

500

/led

Is =0.4mA

Peak Emission Wavelength

?\.p

655

nm

IB =0.4 mA

Spectral Line Half·Width

A?\.

24

nm

Is=0.4mA

Luminous Intensity Matching Ratio

Iv-m

MAX.

UNIT

SYMBOL

tB=O.4mA

2:1

LTM·8522P /8529P/8530P

4-27
654

TEST
CONDITION

MIN.

TYP.

Average Luminous Intensitv

tv

300

700

/lcd

Is =OAmA

Peak Emission Wavelength

?\.p

700

nm

Is =0.4 mA

Spectral Line Half-Width

A?\.

90

nm

Is=OAmA

Luminous Intensity Matching Ratio

Iv-m

MAX.

UNIT

SYMBOL

PARAMETER

2:1

Is =0.4 mA

LTM-8522G/8529G/8530G
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

800

2000

ILcd

IB -= 0.4 mA

Peak Emission Wavelength

?"p

565

nm

IB -= 0.4 mA

"'?"

30

nm

IB-=O.4mA

Spectral Line Half-Width

._-

...

Luminous Intensity Matching RatiO

MAX.

UNIT

TEST
CONDITION

SYMBOL

...... _--

2:1

Iv·m

IB -= 0.4 mA

LTM-8522Y /8529Y /8530Y
PARAMETER

MIN.

TYP.

Average LuminOUS Intensity

Iv

70q

1700

ILcd

IB -= 0.4 mA

Peak Emission Wavelength

?"p

585

nm

IB -= 0.4 mA

Spectral Line Half·Width

"'?"

35

nm

IB -= 0.4 mA

Luminous Intensity Matching Ratio

Iv-m

MAX.

UNIT

TEST
CONDITION

SYMBOL

Is =0.4 mA

2:1

LTM-8522E/8529E/8530E
PARAMETER
Average Luminous Intensity

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

800

2000

J-Lcd

IB '" 0.4 mA

MAX.

UNIT

Peak Emission Wavelength

?"p

630

nm

IB '" 0.4 mA

Spectral Line Half-Width

t:.?"

40

nm

IB=O.4mA

Luminous Intensity Matching Ratio

2:1

Iv-m

IB =0.4mA

LTM-8522H R/8529H R/8530H R
PARAMETER

MAX,

UNIT

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

800

2000

ILcd

IB=O.4mA

Peak Emission Wavelength

?"p

635

nm

Is "'O.4mA

Spectral Line Half-Width

t:.?"

40

nm

IB '" 0.4 mA

luminous Intensity Matching Ratio

Iv-m

2:1

Is=O.4mA
4-28

655

FUNCTION DESCRIPTION
Series data transfer from the data source to the display
driver is accomplished with 2 signals serial data and
clock. Using a format of a leading "1" following by
the 35 data bits allows data transfer without an additional load signal. The 35 data bits are latched after
the 36th bit is complet, thus providing nonmultiplexed,
direct drive to the display. Outputs change only If the
serial data bits differ from the previous time.
Brightness of display is determined by control the
output current of LED display.
A: InF capacitor
shouled be connected to brightness control, Pin 18 to
prevent possible oscillations. The output current is
typically 25 times greater than the current into Pin 18
which is set by an external variable resistor. There is
an 'internal limiting resistor of 400n nominal value.
Figure 2 shows the input data format. A start bit of
logical "1" preceed the 35 bits of data. At the 36th
clock, a LOAD signal is generated synchronously with

VDD

the high state of the clock, which loads the 35 bits
of the shift registers into the latches. At the low state
of,the clock a RESET signal is generaled which clears
all the shift registers for the next set of data. The shift
registers are static master-slave configuration. There
is no clear for master portion of the first register, thus
allowing contionous operation.
There must be a complete set of 36 clocks or the shift
registers won't clear. When power is first applied to the
chip an internal power ON reset signal is generated
which reset all registers and all latches. The START
bit and first clock return the chip on its normal
operation. Bit 1 is the first following the start bit and
it will appear on the segment A of the digit 1. A logical
"1" at the input will turn on the appropriate LED.
Figure 3 shows the timing relationship between data,
clock, and DATA ENABLE. A max. clock frequency
of 0.5 MHz is assumed.

TO
EXTERNAL
LED

VLI:D

BRIGHTNESS
CONTROL
100Kn

LED
DISPLAY

35 OUTPUT BUFFERS

35 LATCHES
DATA ENABLE
SERIAL DATA

35 BIT SHI FT REGISTERS

CLOCK
VSS

FIGURE 1. Internal Block Diagram
4-29
656

CLOCK

DATA
300ns MIN
DATA ENABLE
100ns MIN

FIGURE 2. Input Data Format

-I

L.J

CLOCK
I

LOAD
(INTERNAL)

RESET
(INTERNAL)

I

I

I

I

I

I

r"
:BIT35:BIT36:
_---IIVZ01;7;7;7;7;72;7;7;7;7;7;ZI7I7!1V!/A
~TARTI

DATA

36

1-

BIT '1

______________________________

~rl~

__________________________________

_______

~rl~

______

FIGURE 3. Timing Relationship"

4-30

657

TABLE I SERIAL OAT INPUT SEQUENCE
BIT

4-31

658

LTM·8522

LTM·8529

DIGIT

SEGMENT

DIGIT

1

1

A

1

2

1

B

1

LTM·8530

SEGMENT

DIGIT

SEGMENT

B

1

A

C

1

B

3

1

C

1

G

1

C

4

1

D

1

H

1

D

5

1

E

1

J

1

E

6

1

F

1

D.P.

1

F

7

1

G

2

A

1

G

8

1

D.P.

2

B

1

D.P.

9

2

A

2

C

2

A

10

2

B

2

D

2

B

11

2

C

2

E

2

C

12

2

D

2

F

2

D

13

2

E

2

G

2

E

14

2

F

2

D.P.

2

F

15

2

G

PIN 6

2

G

16

2

D.P.

PIN 7

2

D.P.

17

3

A

PIN 8

PIN 6

18

3

B

PIN 9

PIN 7

19

3

C

PIN 10

PIN 8

20

3

D

PIN 11

PIN9

21

3

E

PIN 12

PIN 10

22

3

F

PIN 13

PIN 11

23

3

G

NO CONNECTION

PIN 12

24

3

D.P.

NO CONNECTION

PIN 13

25

PIN 4

NO CONNECTION

NO CONNECTION

26

PIN 5

NO CONNECTION

NO CONNECTION

27

PIN 6

NO CONNECTION

NO CONNECTION

28

PIN 7

NO CONNECTION

NO CONNECTION

29

PIN 8

NO CONNECTION

NO CONNECTION

30

PIN 9

NO CONNECTION

NO CONNECTION

31

PIN 10

NO CONNECTION

NO CONNECTION

32

PIN 11

NO CONNECTION

NO CONNECTION

33

PIN 12

NO CONNECTION

NO CONNECTION

34

PIN 13

NO CONNECTION

NO CONNECTION

TYPICAL APPLICATION
A. 1% DIGIT DISPLAY

B. 2 DIGIT DISPLAY

VDD
BRIGHTNESS
CONTROL

BRIGHTNESS
CONTROL

2

14

SERIAL DATA

15

CLOCK

2

~nF

~1nF
DATA ENABLE

DATA ENABLE
SERIAL DATA
CLOCK

16

ilc:JD ilc:JD

14
1
5

ac:::::>.v ac:::::>.v

16

c:::J 0

D. 3 DIGIT DISPLAY
VDD

VLEO

BRIGHTNESS
CONTROL

0

VSS

2% DIGIT DISPLAY

VDD

c:::J
1

1
VSS

c.

VLED

VDD

VLED

BRIGHTNESS
CONTROL

2

23
1nF

~nF
DATA ENABLE

14

SERIAL DATA

15

CLOCK

16

DATA ENABLE".h 14
SERIAL DATA
15
CLOCK
16
1

VSS

BIT 15-BIT 22

F. 4 DIGIT DISPLAY

E. 3% DIGIT DISPLAY
VLED

VDD

VLED
LTS-6x60

LTS-6x75
BRIGHTNESS
CONTROL

BRIGHTNESS
CONTROL

DATA
SERIALENABLE
DATA
CLOCK

23

~1nF O~D O;:'D O~D O~D
a nay. a u. a
14
15
16

c::::J 0

c::J 0

c:::/ 0

n

c::::J 0

4-32

659

NOTES

1 Clean only In water, Isopropanol, ethanol, freon TF (or equivalent),
2 Luminous Intensity IS measured with a light sensor and filter combination that approXimates the CIE
(CommiSSion International De L'Eclalrage) eye-response curve

4-33

660

4-34

661

5. Seven-Segment
LED
Displays &.
Alphanumeric Displays
• SELECTION GUIDE
• CROSS REFERENCE GUIDE
• SINGLE COLOR ULTRALARGE SEVEN-SEGMENT
LED DISPLAYS
• MULTICOLOR ULTRALARGE SEVEN-SEGMENT
LED DISPLAYS
• SINGLE COLOR SINGLE DIGIT NUMERIC
. DISPLAYS
• MULTICOLOR SINGLE DIGIT NUMERIC
DISPLAYS
• DUAL DIGIT NUMERIC DISPLAYS
.. • THREE-DIGIT NUMERIC DISPLAYS
• FOUR-DIGIT NUMERIC DISPLAYS
• ALPHANUMERIC DISPLAYS SELECTION GUIDE
• MULTIDIGIT LED DISPLAYS

SELECTION' .GUIDE
• SINGLE COLOR ULTRALARGE SEVEN-SEGMENT LED DISPLAYS
PACKAGE

B,
76,2mm (3,0")
Dual-tn-Une
4.3"Hx2,8"Wx.51 "0

PART
NO.

LTS30301G
30301HRB

a

DESCRIPTION

Green

Comma Anode

Hi·Eff. Red

Rt. Hand Decimal & Comma

TYP. Iv/SEG.

PAGE
NO.

@ IF; 20mA
30mcd
30mcd
5-20

30801G

Green

Common Cathode

30mcd

30801HRB

HL·Eff, Red

Rt. Hand Decimai & Comma

30med

Green

Common Anode

Hi.·Eff. Red

Rt, Hand Decimal & Comma

LTS·

127.0mm (5.0")
Dual-ln·Une
. 7.1 "Hx4.3"Wx,51 "0

COLOR

50301G
50301HRB

@IF '" 30mA
60med
60 mcd
5·27

50801G

Green

Common Cathode

60mcd

50801HRB

Hi,·Eff, Red

Rt, Hand Decimal & eomma

60 med

• MUL TICOLOR UL TRALARGE SEVEN SEGMENT LED DISPLAYS
PACKAGE

5-1

66"

PART
NO.

B,

LTS·
30302A

76.2mm (3.0")
Dual-In-Line
4.3"Hx2.8'Wx.51"0

30802A

a

LTS50302A

127.0mm {S.O"}
Dual-in-Une
7.1"Hx4,3"Wx.51 "0

COLOR

Green
&

Orange

DESCRIPTION

Common Anode

TYP.lv/SEG.

@

Rt. Hand Decimal & Comma

PAGE
NO.

IF'" 10mA
15 mcd
5·20

Green
&

Orange

Green
&
Orange

Common Cathode

15 mcd

At. Hand Decimal & Comma

Common Anode
Rt. Hand Decimal & Comma

@

IF'" 20mA
40mcd
5·27

Green
50802A'

&
Orange

Common Cathode
At. Hand Decimal & Comma

40mcd

SINGLE COLOR SINGLE DIGIT NUMERIC DISPLAYS
PACKAGE

U:U

oUClll

0

elbO

o Do

PART
NO.

LTS311AR
311AP
311AG
311AY
311AE
311AHR

Red
Bright Red
Green
Yellow
Orange
HI. -Eff. Red

312AR
312AP
31-2AG
312AY
312AE
312AHR

Red
Bright Red
Green
Yellow
Orange
HI -Eff. Red

313AR
313AP
313AG
313AY
313AE
313AHR

Red
Bright Red
Green
Yellow
Orange
Hi. -Eff. Red

315AR
315AP
315AG
315AY
315AE
315AHR

7.62mm (3")
Dual-in-line
74"H x 39"W
x 2"0

COLOR

316AR
316AP
316AG
316AY
316AE
316AHR

Red
Bright Red
Green
Yellow

DESCRIPTION

Universal, ± 1 Overflow

500
750
2000
2000
2000
2000

Common Anode. Rt. & Lt.
Hand Decimal

500 !-Lcd
750,!tcd
2000,!tcd
2000,!tcd
2000 !-Lcd
2000,!tcd

Common Cathode, Rt Hand, Decimal

5-34

5~34

2000 !-Lcd
2000 !-Lcd
2000,!tcd
2000 !-Lcd

5-34

500,!tcd

Common Cathode, Rt. Hand Decimal

Red

Yellow
Orange
Hi -Eff. Red

!-Lcd
!-Lcd
!-Lcd
!-Lcd
!-Lcd
!-Lcd

PAGE
NO.

500 !-Lcd
750,!tcd

Orange
Hi. ·Eff. Red

Bright Red
Green

TYP. Iv/SEG.
@ IF = 10mA

750 !-Lcd
2000 !-Lcd
2000 !-Lcd
2000 !-Lcd
2000 !-Lcd

5-34

500,!tcd
750,!tcd
Common Anode ± 1 Overflow

2000 !-Lcd
2000 !-Lcd
2000,!tcd
2000,!tcd

5·34

5-2

665

SELECTION GUIDE
PACKAGE

au
a~a

v

'v

t:::::::50

vvvvv

c{?O
c:::JO
0
9.20mm (.36")
Dual-in-line
.56"Hx.26''Wx.34''D

PART
NO.

COLOR

DESCRIPTION

TVP.lv/SEG.
@ IF = 10mA

PAGE
NO.

lTS360R
360P
360G
360E
360HR

Red
Bright Red
Green
Orange
Hi.-Eff. Red

367R
367P
367G
367E
367HR

Red
Bright Red
Green
Orange
Hi.-Eff. Red

368R
368P
368G
368E
368HR

Red
Bright Red
Green
Orange
HI.-Eff. Red

Common Anode, Rt. Hand Decimal

500/Jcd
750/Jcd
2000/Jcd
2000/Jed
2000/Jed

Common Cathode, Rt. Hand Decimal

500/Jcd
750/Jed
2000/Jed
2000 jJ.ed
2000/Jcd

Common Cathode, ± 1 Overflow

500jJ.ed
750 jJ.ed
2000jJ.ed
2000/Jcd
2000 jJ.cd

Universal, ± 1 Overflow

550/Jcd
850/Jcd
2200/Jed
2200/Jcd
2200 jJ.cd
2200 !lcd

Common Anode, Rt. Hand Decimal

550 !lcd
850 jJ.cd
2200/Jed
2200/Jcd
2200 #Led
2200/Jed

Commoll Anode, ± 1 Overflow

550 #Lcd
850/Jed
2200/Jcd
2200 #Lcd
2200 !led
2200 #Led

Common Cathode, Rt. Hand Decimal

550 #Led
850/Jed
2200 #Lcd
2200 #Lcd
2200 #Lcd
2200 #Led

5·43

LTS-

ilCjO
Cj

OCj~o

0
7f' 00
D

5-3

666

10.16mm (,4")
Dual-In-line
74"H x .39"W
x.2"D

4705AR
4705AP
4505AG
4805AY
4605AE
4905AHR

Red
Bright Red
Green
Yellow
Orange
Hi.-Eff. Red

4710AR
4710AP
4510AG
4810AY
4610AE
4910AHR

Red
Bright Red
Green
Yellow
Orange
Hi -Eff. Red

4730AR
4730AP
4530AG
4830AY
4630AE
4930AHR

Red
Bright Red
Green
Yellow
Orange
Hi ·Eff. Red

4740AR
4740AP
4540AG
4840AY
4640AE
4940AHR

Red
Bright Red
Green
Yellow
Orango
Hi.-Eff. Red

4780AR
4780AP
4580AG
4880AY
4680AE
4980AHR

Red
Bright Red
Green
Yellow
Orange
HI.-Eff. Red

Common Cathode, Rt. Hand Decimal

550 #Led
850/Jcd
2200/Jed
2200~

2200 jJ.cd
2200jJ.ed

5·51

PACKAGE

PART
NO.

COLOR

LTS546AR
546AP
546AG
546AY
546AE
546AHR

Red
Bright Red
Green
Yellow
Orange
Hi -Eft. Red

547AR
547AP
547AG
547AY
547AE
547AHR

Red
Bright Red
Green
Yellow
Orange
Hi -Eff. Red

To

54f:!AR
548AP
548AG
548AY
548AE
548AHR

Red
Bright Red
Green
Yellow
Orange
Hi -Eff Red

13.2n1m (.52")
Dual·ln-Llne
7"H x .49"W
x.28"D

549AR
549AP
549AG
549AY
549AE
549AHR

Red
Bright Red
Green
Yellow
Orange
HI. -Eff Red

LTS6760R
6760P
6460G
6860Y
6660E
6960HR

Red
Bright Red
Green
Yellow
Orange
Hi. ·Eff Red

6780R
6780P
6480G
6880Y
6680E
6980HR

Red
Bright Red
Green
Yellow
Orange
Hi. -Eff. Red

6775R
6775P
6475G
6875Y
6675E
6975HR

Red
Bright Red
Green
Yellow
Orange
Hi -Eff Red

6795R
6795P
6495G
6895Y
6695E
6995HR

Red
Bright Red
Green
Yellow
Orange
Hi ·Eff. Red

aU

ilu

~O

aD
0

Oli

0::00
°0

CJ

Dc[?
14.22mm (.56")
Dual·in·Line
75"H x .5"W
x.32"D

DESCRIPTION

TYP. Iv/SEG.
IF = 10 rnA

@

Common Anode, Rt Hand Decimal

500 ).Icd
750 lied
2000 licd
2000/lcd
2000 licd
2000 lied

Common Cathode,
Rt Hand Decimal

500 ).led
750/led
2000 ).Icd
2000 ).Icd
2000/led
2000 ).Icd

Common Anode, ±1 Overflow

500 ).led
750/lcd
2000/lcd
2000/lcd
2000 ).Icd
2000 ).Icd

Cammon Cathode, ± 1 Overflow.

500 ).Icd
750 ).Icd
2000 ).Icd
2000 ).Icd
2000/led
2000 ).Icd

Cammon Anode, Rt, Hand Decimal

600 ).Icd
950 ).Icd
2400 ).Icd
2400/lcd
2400/lcd
2400 ).Icd

Common Cathode, Rt. Hand Decimal

600 ).Icd
950/lcd
2400/lcd
2400/led
2400/led
2400 ).Icd

Common Anode, ± 1 Overflow

600 ).Icd
950 ).Icd
2400/led
2400 ).Icd
2400 licd
2400 ).Icd

Common Cathode, ± 1 Overflow

600 ).Icd
950).lcd
2400 licd
2400 ).Icd
2400/led
2400 ).Icd

PAGE
NO.

5-60

5·69

5-4

667

SELECTION GUIDE
PACKAGE

ilu

00

0

0J
a0
0

PART
NO.

COLOR

LTS3401 LR
3401LP
3401LG
3401 LY
3401LE

Red
Bright Red
Green
Yellow
Orange

3403LR
3403LP
3403LG
3403L Y
3403LE

Red
Bright Red
Green
Yellow
Orange

3406LR
3406LP
3406LG
3406LY
3406LE

Red
Bright Red
Green
Yellow
Orange

LT.S·
10804G
10804Y
10804E

Green
Yellow
Orange

DESCRIPTION

TYP. Iv/SEG.
@IF = 10mA

Common Ano?e. Rt & Lt Hand
Decimal

600,ued
950,ued
2400,ucd
2400,ued
2400 !Led

Common Cathode.
Rt. & Lt. Hand Decimal

600,ued
950,ucd
2400,ued
2400,ucd.
2400j.lcd

Universal. ±1 Overflow

600j.led
950 j.lcd
2400 !Lcd
2400,ued
2400 j.lcd

Common Anode,
Rt. Hand Decimal

4500 j.lcd
4500 j.lcd
4500 j.lcd

PAGE
NO.

5-78

0

20.32mm ( 8")
Dual·ln- Line
1.09"H x .79"W
x 33"D

[Sl
bOo
25.4mm (10")
Dual-ln·Line
1.3"H x .9"W
x .34"0

5-86
10304G
10304Y
10304E

Green
Yellow
Orange

Common CathOde,
Rt. Hand Decimal

4500/tcd
4500 j.led
4500 ~cd

MULTICOLOR SINGLE DIGIT NUMERIC DISPLAYS
PACKAGE

B

5-5

668

25Amm (1.0")
Dual·in-Line
1.3"H x .9"W
x .34"0

PART
NO.

LTS10805A

COLOR

Green
&

Orange

DESCRIPTION

Common Anode,
Rt. Hand Decimal

TYP. Iv/SEG.
@IF=10mA

PAGE
NO.

4500 j.lcd

5·86
10305A

Green
&
Orange

. Common Cathode,
Rt. Hand Decimal

4500 j.lcd

DUAL DIGIT NUMERIC DISPLAYS
PART
NO.

PACKAGE

LTD322R
322P
322G

Q=O Q=O

0;0 .0;0
0

0

aU
= au

6 Vo 00
10.21rnrn (4")
Dual-In-Line
.63"H x .87"W
x.32"D

CO fbO
Co
0

Red
Bright Red
Green

DESCRIPTION

Common Cathode, Dual Digit

TYP. Iv/SEG.
@IF =10mA

PAGE
NO.

400 JLcd
650 JLcd
1600 JLcd

5-92

7 62mm (,3")
Dual-In-Line
6"H x .62"W
x.29"D

LY

COLOR

0

323R
323P
323G

Red
Bright Red
Green

LTD432RC
432PC
432GC
432EC

Red
Bnght Red
Green
Orange

Common Anode, Dual Digit

Common Cathode, Dual Digit

400 JLcd
650 JLcd
1600 JLcd

200 JLcd
300 JLcd
800 JLcd
800 !lcd

5-98
482RC
482PC
482GC
482EC

Red
Bright Red
Green
Orange

Common Anode, Dual Digit

200 JLcd
300 !lcd
800 JLcd
800 JLcd

LTD524P
524G

Bright Red
Green

Common Anode, Dual Digit

600 !lcd
1800 JLcd

Common Cathode
Dual Digit, Rt, Hand Decimal

500 JLcd
750 !lcd
2000 JLcd
2000 J..Icd
2000 J..Icd
2000 JLcd

5-105

11.0mm (.43")
Dual-In- Line
.74"H x 94"W
x.26"D

aU aCJo
c:::)

LVo

c:::>

LOo

127mm (5")
Dual-In-Line
.76"H x l"W
x 38"0

LTD535R
535P
535G
535Y
535E
535HR

Red
Bright Red
Green
Yellow
Orange
Hi ·Eff. Red

585R
585P
585G
585Y
585E
585HR

Red
Bright Red
Green
Yellow
Orange
HI.-Eff Red

Common Anode
Dual Digit, R t. Hand Decimal

5-110

500 JLcd
750 !lcd
2000 JLcd
2000 JLcd
2000 JLcd
2000 JLcd
5-6
669

C

SELECTION' GUIDE '.
PACKAGE

aU

au

13.2mm (0.52")
Dual· in· line
.69"H x .99"W
x .28"D

iliJ ll~a
U:OoO:Oo

oo=n

fOo Uc=Yo

670

LTD5250R
5250P
5250G
5250Y
5250E
5250HR

COLOR

Red
Bright Red
Green
Yellow
Orange
Hi -Eff. Red

DESCRIPTION

Common Anode, Dual Digit
Rt. Hand Decimal

TYP, Iv/SEG.
@llf = 10mA

14 22mm (.56")
Duai·in·Line
75"H x l"W
x.32"D

PAGE
NO.

. 500/tcd
750/tcd
2000/tcd
2000/tcd
2000/.Lcd
2000/ted

5-119

~

00 fLPo

5-7

PART
NO.

LTD5260R
5260P
5260G
5260Y
5260E
5260HR

Red
Bright Red
Green
Yellow
Orange
Hi. -Eff. Red

LTD·
6710R
6710P
64l0G
68l0Y
6610E
6910HR

Red
Bright Red
Green
Yellow
Orange
Hi. ·Eff. Red

6730R
6730P
6430G
6830Y
6630E
6930HR

Red
Bright Red
Green
Yellow
Orange
Hi. -Eff. Red

6740R
6740P
6440G
. 6840Y
6640E
6940HR

Red
Bright Red
Green
Yellow
Orange
Hi. ·Eff. Red

6750R
6750P
6450G
6850Y
6650E
6950HR

Red
Bright Red
Green
Yellow
Orange
Hi. ·Eft. Red

Common Cathode, Dual Digit
Rt. Hand. Decimal

500/tcd
750/tcd
2000/tcd
2000!Jcd
2000!Jcd
2000 !Jed

Common Anode,
Dual Digit, Rt. Hand Decimal

600 !Jcd
950/tcd
2400/.Lcd
2400/tcd
2400 !Jcd
2400/tcd

Common Anode,
1% Digit, Rt. Hand Decimal

600/tcd
950/tcd
2400/.Lcd
2400/tcd
2400/ted
2400/tcd

5-128

Common Cathode,
Dual Digit Rt. Hand Decimal

600 !Jcd
950/tcd
2400 !Jcd
2400/tcd
2400/tcd
2400 !Jcd

Common Cathode,
1% Digit, Rt. Hand Dicimal

600/tcd
950/tcd
2400/tcd
2400!Jcd
2400/.Lcd
2400/tcd

THREE-DIGIT NUMERIC DISPLAYS
PACKAGE

PART
NO.

LTC·
5836R
5836P
5836G
5836Y
5836E
5836HR

COLOR

Red
Bright Red
Green
Yellow
Orange
Hi. -Eff. Red

DESCRIPTION

Common Anode, Three·Digit
R t. Hand Decimal

TYP. Iv/SEG.
@IF =10mA

PAGE
NO.

500/lcd
750/led
2000/lcd
2000/.Lcd
2000/.Lcd
2000/.Lcd

5-137

tJJ
Dll a=O
1dl==

fb bVo bVo
13.2mm ( 52")
Dual-ln·Line
.7"H x 1.5"W
x 28"0

5336R
5336P
5336G
5336Y
5336E
5336HR

Red
Bright Red
Green
Yellow
Orange
Hi ·Eff. Red

Common Cathode, Three·D igit
Rt. Hand Decimal

500/.Lcd
750/.Lcd
2000/.Lcd
2000/.Lcd
2000/.Lcd
2000/lcd

FOUR-DIGIT NUMERIC DISPLAYS
....
PACKAGE

PART
NO.

LTC5837R
5837P
5837G
5837Y
5837E
5837HR

COLOR

Red
Bright Red
Green
Yellow
Orange
Hi· Eff Red

DESCRIPTION

Common Anode, Four·Digit
R t. Hand Decimal

TYP. Iv/SEG.
@IF = 10mA

PAGE
NO.

500 j.lcd
750 j.lcd
2000/.Lcd
2000/.Lcd
2000/.Lcd
2000 j.lcd
5·146

Bg~g
fJdo fb,Uo g
13.2mm (.52")
Dual·1 n- Line
.7"H x 2"W
x.2S"D

5337R
5337P
5337G
5337Y
5337E
5337HR

Red
Bright Red
Green
Yellow
Orange
Hi -Eff. Red

Common Cathode, Four-Digit
Rt. Hand Decimal

500/lcd
750 j.lcd
2000/.Lcd
2000j.lcd
2000/lcd
2000/lcd
5-8

671

SELECTION GUIDE .
• MULTIDIGIT LED DISPLAYS
RED
DIGIT
SIZE

PART
NUMBER

TYP.
Iv/SEG
@5mA

LTB-0038
LTB"()047
LTB-1466
LTB-1478
L TB-1488
LTB·1498

5-9

250~cd

DRIVE MODE

MULTIPLEX

C.C.
C.C.
C.C.
C.C.
C.C.
C.C.
C.C_
C.C.
C.C.

MULTIPLEX
MULTIPLEX

-

MULTIPLEX
MULTIPLEX
MULTIPLEX

-

MUL TIPLEX

-

MUL TIPLEX

-

MULTIPLEX

DISPLAY
MODE
(HOUR)

DISPLAY
FONT

FF

sxs

FF

x8.8.

FF

8S·8·

FF

8888

FF

x x x x8.8.S.8.x

FF'

x liS.88SS.sx

FF

x8.8S.S SS.S:x

FF

x8.8S 8.8 8S.S

FF

8.S.8.S 8S.8S.8.

0""
.<-

LTF·216141A1P

80~cd

MULTIPLEX

CoCo

FF

x8 8.8.8 -e.S.8 8 x

0.3"

LTF-804-8P
LTF-804-12P

80~cd

MULTIPLEX
MULTIPLEX

C.C.
C.C.

FF
FF

x x8.8.8 8.8 8 8.8.x x
8.8.8.888 S.8.8 8 8 8.

NOTES

672

TYP.
Iv/SEG
@10mA

-

LTB-0028

LTB-402

PART
NUMBER

-

LTB"()022

0.1 "

. DESCRIPTION

BRIGHT RED

C C . Common CathlJde C.A : COMMON ANODE

FF' FULL FEATURE.

CROSS REFERENCE GUIDE FOR:
G.I.!H.P.!TELEFUNKEN/SIEMENS/TOSHIBA/MATSUSHITA/ROHM
In order to designate the similarity between the other manufacturers' device and the nearest LlTON equivalent.
This guide has been included a letter code system to cover this.

Code Definitions:

A
B
C
D
E

LlTON device is electrically and mechanically equivalent.
Mi nor electrical differences exist.
Minor mechanical differences exist.
Significant electrical differences exist.
Significant mechanical differences eXist.

Since Optoelectronics IS a relatively young industry, it is possible that different devices offered by two or more
manufacturers will satisfy the requirements of one application. Therefore, slight mechanical of electrical
variations should not disqualify the nearest equivalent.
The data contained in thiS quide is believed to be accurated. However, no responsibility is assumed by TAIWAN
LlTON ELECTRONIC CO., LTD. for the use of this data in actual circuit design.

5-10

673

CROSS REFERENCE GUIDE
G.I. (General Instrument) Equivalent LED Numeric Display
GI
PART NO.

5-11
674

DIGIT
SIZE

COLOR

LITON
PART NO.

CODE

GI
PART NO.

DIGIT
SIZE

COLOR

LITON
PART NO.

CODE

MAN·71A

0,3"

10

REO

LTS-312AR

A

MAN·4610A

0.4"

10

ORANGE

LTS·4610AE

MAN·72A

0,3"

10

REO

LTS·312AR

A

MAN·4640A

0.4"

10

ORANGE

LTS·4640AE

A

-MAN-73A

0,3"

10

REO

LTS-316AR

A

MAN·4680A

0,4"

10

ORANGE

LTS·4680AE

A

NAN-74A

03"

10

REO

LTS-315AR

A

MAN·4705A ,0.4"

10

REO

LTS-4705AR

A

MAN-78A

03,"

10

RED

LTS-313AR

A

MAN·4710A

0.4"

10

REO

LTS-471 OAR

A

A

MAN·3410A

0,3"

10

GREEN

LTS-312AG

A

MAN·4740A

0.4"

10

REO

LTS-4740AR

A

MAN·3420A

03"

10

GREEN

LTS-312AG

A

MAN·4780A

0.4"

10

REO

LTS·4780AR

A

MAN·3430A

0,3"

10

GREEN

LTS-316AG

A

MAN·4805A

0,4"

10

YELLOW

LTS·4805AY

A

MAN-3440A

0,3"

10

GREEN

LTS-315AG

A

MAN-48lOA

04"

10

YELLOW

LTS-4810AY

A

MAN·3480A

0,3"

10

GREEN

LTS·313AG

A

MAN·4840A

0,4"

10

YELLOW

LTS-4840AY

A

MAN-3610A

0,3"

10

ORANGE

LTS·312AE

A

MAN-4880A

0.4"

10

YELLOW

LTS·4880AY

A

MAN-3620A

0,3"

10

ORANGE

LTS-312AE

A

MAN·4905A

0,4"

10

H,R.

LTS·4905AHR

A

MAN·3630A

0,3"

10

ORANGE

LTS·316AE

A

MAN-4910A

0,4"

10

H,R,

LTS-4910AHR

A

MAN·3640A

0,3"

10

ORANGE

LTS-315AE

A

MAN·4940A

0.4"

10

H,R,

L TS-4940AHR

A

MAN·3680A

0,3"

10

ORANGE

LTS-313AE

A

MANA980A

0,4"

10

H,R,

LTS·4980AHR

A

MAN-3810A

0,3"

10

YELLOW

LTS-312AY

A

MAN·6160

0,56" 10

H,R,

LTS-6160WE

A

MAN·3820A

0,3"

10

YELLOW

LTS·312AY

A

MAN-6180

0,56" 10

H,R,

LTS·6108WE

A

MAN·3830A

0,3"

10

YELLOW

LTS-316AY

A

MAN-6460

0.56" 10

GREEN

LTS·6460G

A

MAN·3840A

0,3"

10

YELLOW

LTS-315AY

A

MAN·6480

0.56" 10

GREEN

LTS·6800G

A

MAN-3880A

0,3"

10

YELLOW

LTS-313AY

A

MAN·6660

0,56" 10

ORANGE

LTS·6660E

A

MAN-391OA

0,3"

10

H,R,

LTS-312AHR

A

MAN-6680

0,56" 10

ORANGE

LTS-6680E

A

MAN-3920A

03,"

10

H,R,

LTS·312AHR

A

MAN·6760

0,56" 10

RED

LTS-6760R

A

MAN·3930A

0,3"

10

H,R,

LTS·316AHR

A

MAN·6780

0,56" 10

REO

LTS·6780R

A

MAN·3940A

0,3"

10

H,R.

LTS·315AHR

A

MAN-6860

0,56" 10

YELLOW

LTS·6860Y

A

MAN·3980A

0,3"

10

H,R,

LTS-313AHR

A

MAN-6880

0,56" 10

YELLOW

LTS·6880Y

A

FNO-350

0,36" 10

RED

LTS·360R

A

MAN·6960

0.56" 10

H,R.

LTS·6960HR

A

FNO·357

0.36" 10

REO

LTS·367R

A

MAN·6980

0,56" 10

H,R.

LTS·6980HR

A

FNO·358

0,36" 10

REO

LTS-368R

A

MAN·6175

0,56" 10

H,R,

LTS-6175WE

A

FNO-360

0,36" 10

BRIGHT RED

LTS·360P

A

MAN-6195

0,56" 10

H,R,

LTS-6195WE

A

FND·367

0,36" 10

BRIGHT REO

LTS·367P

A

MAN-6475

0,56" 10

GREEN

LTS·6475G

A

FNO-368

0,36" 10

BRIGHT RED

LTS·368P

A

MAN·6495

0,56" 10

GREEN

LTS-6495G

A

FNO·310

0,36" 10

H,R.

LTS·360HR

A

MAN·6675

0,56" 10

ORANGE

LTS-6675E

A

FNO-317

0,36" 10

H,R.

LTS·367HR

A

MAN·6695

0.56" 10

ORANGE

LTS-6695E

A

FNO-318

0,36" 10

H.R,

LTS·368HR

A

MAN·6775

0,56" 10

RED

LTS·6775R

A

MAN-4405A

0,4"

10

GREEN

LTS·4505AG

A

MAN-6795

0,56" 10

RED

LTS-6795R

A

MAN·4410A

0.4"

10

GREEN

LTS·4510AG

A

MAN·6875

0.56" 10

YELLOW

LTS·6875Y

A

MAN-4440A

0.4"

10

GREEN

LTS·4540AG

A

MAN-6895

0.56" 10

YELLOW

LTS·6895Y

A

MAN·4480A

004"

10

GREEN

LTS-4580AG

A

MAN-6975

0.56" 10

H,R.

LTS·6975HR

A

MAN·4605A

0,4"

10

ORANGE

LTS-4605AE

A

MAN·6995

0.56" 10

H.R.

LTS·6995HR

A

G. I. (General Instrument) Equivalent LED Numeric Display
GI
PART NO

DIGIT
size

COLOR

LlTON
PART NO.

CODe

GI
PART NO.

DIGIT
size

COLOR

LlTON
PART NO.

CODe

MAN-8410

08"

10

GREEN

LTS-3401 LG

D

MAN-6650

056" 2D

ORANGE

LTD-6650E

A

MAN-8430

OS"

lD

GREEN

LTS-3406LG

D

MAN-6710

056" 2D

RED

LTD-671OR

A

MAN-8440

08"

lD

GREEN

LTS-3403LG

D

MAN-6730

056" 2D

RED

LTD-6730R

A

MAN-8450

O.S"

10

GREEN

LTS-3406LG

D

MAN-6740

056" 2D

RED

LTD-6740R

A

MAN-8610

0.8"

10

ORANGE

LTS-3401 LE

D

MAN-6750

0.56" 2D

RED

LTD-6750R

A

MAN-8630

0.8"

10

ORANGE

LTS-3406LE

D

MAN-6810

0_56" 2D

YELLOW

LTD-6800Y

A

MAN-8640

0.8"

lD

ORANGE

LTS-3403LE

0

MAN-6830

056" 2D

YELLOW

LTD-6830Y

A

MAN-8630

0.8"

10

ORANGE

LTS-3406LE

0

MAN-6840

0.56" 20

YELLOW

LTD-6840Y

A

MAN-881O

0.8"

10

YELLOW

LTS-3401 LY

0

MAN-6850

0.56" 20

YELLOW

LTO-6850Y

A

MAN-8830

0.8"

10

YELLOW

LTS-3406LY

0

MAN·691O

0.56" 20

H.R.

LTD-6910HR

A

MAN·8840

08"

10

YELLOW

LTS-3403LY

0

MAN-6930

0.56" 2D

H.R.

LTO·6930HR

A

MAN-8850

08"

10

YELLOW

L TS-3406L Y

0

MAN-6940

0.56" 20

H.R

LTO·6940HR

A

MAN-S910

O.S"

10

HR

LTS·3401 LE

0

MAN-6950

0.56" 20

H.R.

LTO-6950HR

A

MAN-S930

0.8"

10

HR.

LTS-3406LE

0

MAN·2A

032" 10

RED

LTP·305R

A

MAN·8940

08"

10

H.R.

LTS·3403LE

0

GMA·2175

20"

10

ORANGE

LTP·2057AE

A

MAN-8950

0.8"

10

H.R

LTS-3406LE

0

GMC-2175

20"

10

ORANGE

LTP-2157AE

A

MAN-6110

056" 2D

H.R

LTD·611OWE

A

GMA·2975

2.0"

10

HR

LTP·2057 AHR

A

MAN-6130

056" 20

H.R.

LTO·6130WE

A

GMC·2975

20"

10

H.R.

LTp·2157 AHR

A

MAN-6140

056" 20

HR.

LTO-6140WE

A

GMA-2475

2.0"

10

GREEN

LTP-2057AG

A

MAN-6150

0.56" 20

HR.

LTO·6150WE

A

GMC-2475

20"

10

GREEN

LTP·2157AG

A

MAN-6410

0.56" 20

GREEN

LTO·6410G

A

GMA·2185

2.4"

10

ORANGE

LTP·2058AE

A

MAN-6430

0.56" 20

GREEN

LTO·6430G

A

GMC-2185

2.4"

10

ORANGE

LTp·2158AE

A

MAN-6440

0.56" 20

GREEN

LTO-6440G

A

GMA·2985

2.4"

10

H.R.

L TP·2058AHR

A

MAN·6450

0.56" 20

GREEN

LTO-6450G

A

GMC·2985

24"

10

H_R

LTP-2l58AHR

A

MAN·661O

0.56" 20

ORANGE

LTO·66l0E

A

GMA-2485

2.4"

10

GREEN

LTP·2058AG

A

MAN·6630

0.56" 20

ORANGE

LTD·6630E

A

GMC·2485

2.4"

10

GREEN

LTP·2l58AG

A

MAN·6640

0.56" 20

ORANGE

LTO-6640E

A

5·12
675

CROSS REFERENCE GUIDE
H.P. (Hewlett Packard) Equivalent LED Numeric Display
H.P.
PART NO.

5·13
676

DIGIT
SIZE

COLOR

LITON
PART NO.

CODe

H.P.
PART NO.

DIGIT
SIZE

COLOR

LlTON
PART NO.

CODe

HOSP-7301

0.3"

10

RED

LTS-360R

C

5082-7751

0.43" lD

RED

LTS·7751R

A

HDSP.7303

0.3"

10

RED

LTS·367R

C

5082·7756

0.43" lD

RED

LTS·7756R

A

HDSP·7308

0.3"

10

RED

LTS·368R

C

5028·7760

0.43" lD

RED

LTS·7760R

A

HOSP·7311

0.3"

lD

aRIGHT TED

LTS·360P

c

5082·7650

0.43" lD

H.R.

LTS·7651HR

A

HOSP.7313

0.3"

lD

aRIGHT RED LTS·367P

C

5082·7651

043" 10

H.R.

LTS·7651HR

A

aRIGHT RED LTS·368P

C

5082·7653

0.43" lD

H.R.

LTS·7653HR

A

HDSP·7318

0.3"

10

HOSP·7501

0.3"

10

H.R.

LTS·360HR

C

5082·7656

0.43" 10

H.R.

LTS·7656HR

A

HDSP·7503

0.3"

lD

H.R.

LTS·367HR

C

5082·7660

0.43" 10

YELLOW

LTS-7661YN

A

HOSP·7508

0.3"

lD

H.R.

LTS·368HR

C

5082·7661

0.43" 10

YELLOW

LTS·7661YN

A

HDSP·7511

0.3"

lD

H.R.

LTS·360WE

C

5082·7663

0.43" 10

YELLOW

LTS-7663YN

A

HDSP·7513

0.3"

10

H.R.

LT5-367WE

C

5082·7686

0.43" 10

YELLOW

LTS·7666YN

A

HDSP.7518

0.3"

10

H.R.

LTS·368WE

C

HDSP·4600

0.43" 10

GREEN

LTS·7671GN

A

HDSP·7801

0.3"

10

GREEN

LTS·36GG

C

HOSp·4601

0.43" 10

GREEN

LTS·7671GN

A

HDSP·7803

0.3"

10

GREEN

LTS·367G

C

HDSP·4603

0.43" 10

GREEN

LTS·7673GN

A

HDSP·7808

0.3"

lD

GREEN

LTS·368G

C

HDSP·4606

0.43" lD

GREEN

LTS·7676GN

A

5082.7730

0.3"

10

RED

LTS·312AR

A

HDSP-3730

0.43" lD

ORANGE

LTS·3731E

A

5082·7731

0.3"

10

RED

LTS·312AR

A

HDSP·3731

0.43" 10

ORANGE

LTS·3731E

A

5082·7736

0.3·'

10

RED

LST·311AR

A

HDSP·3733

0.43" 10

ORANGE

LTS·3733E

A

5082·7740

0.3"

10

RED

LTS·313AR

A

HDSP·3736

0.43" lD

DRAGE

LTS·3736E

A

10

H.R.

LTS·312AHR

A

HDSP-3351

0.43" 10

H.R.

LTS·3351WE

A

5082·7610

0.3"

5082·7611

0.3"

lD

H.R.

LTS·312AHR

A

HDSP·3353

0.43" lD

H.R.

LTS·3353WE

A

5082·7613

0.3

10

H.R.

LTS·313AHR

A

HOSP·3356

0.43" 10

H.R.

LTS·3356WE

A

5082.7616

0.3"

lD

H.R.

LTS·311AHR

A

HDSP·4130

0.43" lD

YELLOW

LTS·7681YN

a

5082·7620

0.3"

10

YELLOW

LTS·312AY

A

HDSP·4131

0.43" 10

YELLOW

LTS·7661YN

a

5082·7621

0.3"

10

YELLOW

LTS-312AY

A

HOSP·4133

0.43" 10

YELLOW

LTS·7663YN

a

5082·7623

0.3"

10

YELLOW

LTS·313AY

A

HDSP·4136

0.43" }O

YELLOW

LTS·7666YN

B

A

5082·7626

0.3"

10

YELLOW

LT5-311AY

HOSP·5301

0.56" 10

RED

LTS·5301AR

A

HOSP·3600

0.3"

10

GREEN

LTS·312AG

A

HOSP·5303

0.56" lD

RED

LTS·5303AR

A

HDSP·3601

0.3"

10

GREEN

LTS·312AG

A

HOSP·5307

0.56" 10

RED

LTS-5307AR

A

HOSP·3603

0.3"

lD

GREEN

LTS·313AG

A

HDSP·5308

0.56" lD

RED

LTS·5308AR

A

HDSP·3606

0.3"

lD

GREEN

LTS·311AG

A

HOSP·5501

0.56" 10

ORANGE

LTS·5501AE

A

HDSP·3530

0.3"

10

ORANGE

LTS·312AE

B

HDSP·5503

0.56" lD

ORANGE

LTS-55034E

A

HOSP-3531

0.3"

lD

ORANGE

LT5-312AE

B

HDSP.5507

0.56" 10

ORANGE

LTS-5507AE

A

B

HOSP·3533

0.3"

10

ORANGE

LTS·313AE

HOSP·5508

0.56" lD

ORANGE

LTS·5508AE

A

HDSP·3536

0.3"

lD

ORANGE

LTS·311AE

a

HOSP-5551

0.56" lD

H.R.

LTS-5551WE

A

HDSP-4030

0.3"

10

YELLOW

LTS-312AY

B

HDSP·5553

0.56" 10

H.R.

LTE-5553WE

A

HDSP·4031

0.3"

10

YELLOW

LTS·312AY

a

HOSP-5601

0.56" 10

GREEN

LTS-5801AG

A

HOSP·4033

0.3"

10

YELLOW

LTS·313AY

B

HOSP.5603

0.56" 10

GREEN

LTS-5803AG

A

HDSP·4036

0.3"

10

YELLOW

LTS·311AY

a

HDSP·5607

0.56" 10

GREEN

LTS·5807AG

A

5082·7750

0.43" lD

RED

LT5-7751R

A

HOSP·5608

0.56" 10

GREEN

LTS-5808AG

A

H.P. (Hewiett Packard) Equivalent LED Numeric Display
H.P.
PART NO.

DIGIT
SIZE

COLOR

LlTON
PART NO.

CODE

H.P.
PART NO.

DIGIT
SIZE

COLOR

LIT ON
PART NO.

CODE

HDSP·5701

056" 10

YELLOW

LTS·5701AY

A

HDSP·3905

OS"

1D

ORANGE

LTS·3403LE

HDSP·5703

056" 1D

YELLOW

LTS·5703AY

A

HDSP·3906

08"

10

ORANGE

LTD·3406LE

A
A

HDSP·5707

0.56" 1D

YELLOW

LTS·5707AY

A

HDSP·4200

OS"

10

YELLOW

LTD·3401LY

A
A

HDSP-570S

056" 10

YELLOW

LTS·570SAY

A

HDSP·4201

OS"

10

YELLOW

LTD·3401 LY

HDSP·5531

0.56" 10

ORANGE

LTS·5501AE

B

HDSP·4203

OS"

1D

YELLOW

LTS·3403LY

A

HDSP·5533

0.56" 1D

ORANGE

LTS·5503AE

B

HDSP·4205

O.S"

10

YELLOW

LST·3403LY

A

HDSP·5537

056" 1D

ORANGE

LTS·5507AE

B

HDSP·4206

OS"

10

YELLOW

LTS·3406LY

A

HDSP·553S

0.56" 10

ORANGE

LTS·550SAE

B

HDSP·S600

O.S"

1D

GREEN

LTS·3401LG

A

HSDP·5731

0.56" 1D

YELLOW

LTS·5701AY

B

HOSP·S601

O.S"

10

GREEN

LTS·3401LG

A

HOSP·5733

0.56" 10

YELLOW

LTS·5703AY

B

HDSP·S603

O.S"

10

GREEN

LTS·3403LG

A

HOSp·5737

0.56" 10

YELLOW

LTS·5707AY

B

HDSP·S605

O.S"

10

GREEN

LTS·3403LG

A

HDSp·573S

056" 10

YELLOW

LTS·570SAY

B

HDSP·S606

O.S"

10

GREEN

LTS·3406LG

A

HDSp·3400

O.S"

10

RED

LTS·3401 LR

A

HDSP·5321

0.56" 20

RED

LTD·5321RA

A

HOSP·3401

O.S"

10

RED

LRS·3401 LR

A

HDSP·5323

0.56" 20

RED

LDT.5323AR

A

HOSP·3403

O.S"

10

RED

LTS·3403LR

A

HDSP·5521

0.56" 20

ORANGE

LTD·5521AE

A

HDSP·3405

O.S"

10

RED

LTS·3403LR

A

HDSP·5523

0.56" 2D

ORAGEN

LTD·5523AE

A

HDSP·3406

O.S"

10

RED

LTS·3406LR

A

HDSP·5621

056" 20

GREEN

LTD·5621AG

A

HOSP·3900

OS"

10

ORANGE

LTS·3401 LE

A

HDSP·5623

056" 2D

GREEN

LTD·5623AG

A

HDSP·3901

O.S"

10

ORANGE

LTS·3401 LE

A

HDSP·5721

0.56" 2D

YELLOW

LTD·5721AY

A

HDSP·3903

O.S"

10

ORANGE

LTS·3403LE

A

HDSP·5723

0.56" 20

YELLOW

LTD·5723AY

A

5·14

677

CROSS REFERENCE GUIDE
TELEFUNKEN Equivalent LED Numeric Display
TELEFUNKEN
PART NO.

D200·PA

10

LITON
PART NO.

CODE

TELEFUNKEN
PART NO.

DIGIT
SIZE

COLOR

LITON
PART NO.

CODE

RED

LTS·4710AR

E

D350·PA

0.51" 10

RED

LTS·5301AR

C

E

D350·PK

0.51" 10

RED

LTS·5303AR

C
C

004"

10

RED

D201·PA

0.4"

10

ORANGE

LTS·4610AE

E

D351·PA

0.51" 10

ORANGE

LTS-5501AE

D201·PK

04"

l~

ORANGE

LTS-4680AE

E

D351·PK

0.51" 10

ORANGE

lTS·5503AE

C

D202·PA

0.4"

1D

GREEN

LTD·4510AG

E

D352-PA

0.51" 10

GREEN

lTS·5801AG

C

D202·PK

0.4"

10

GREEN

LTS-4580AG

E

D352·PK

0.51" 10

GREEN

LTS·5803AG

C

D203·PA

0.4"

1D

YEllOW

lTS·4810AY

E

D353·PA

0.51" 10

YELLOW

LTS·5701AY

C

1D

YEllOW

lTS·4880AY

E

D

40

a:

2Il

">

iii
0:;

a:

I

o
4BO

28

24

56

1000
800

48

500

E
I

I'

I

E
~

5

U

32
24

o

o
x

~

16

" 1'-.. I'I

5-23

686

40

60

5

50

U

o
20

1:'

100
80

~

h

8

80

90

Amb,ent Temperature (Ta) - °C
F'g 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

r--...

200

g
""'"
"

"-

I

o

20

30

40

50

......

T
I

'\.

"t--....

c

~

,...

I

"-

>

iii

r-.

"'

1.5

.E

">

10

20

50

--

""

......
.......

I,

t....
1

100

10

I
I

a:

20

o

60

Forward Current (IF) - rnA
F'g 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

iii
0:;

10

10

r\.

«

E 40

BOO

720

/

/

,7

05

o
640

6. .

Wavelength ( }. } - nm
F'g 2 SPECTRAL RESPONSE

Forwa,d Voltage (V,) - Volts
F'g.1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

15

~

.J

iii
0:;

20

/

~

0

J

/

25

"
E
'"0

BO

:;
B-

/
/

~

U

120

~,-

/
II

«

-1:'

-

2Il

40

Iii
lil
DC

Duty Cycle %
Duty Cycle %
F,g 5 MAX PEAK CURRENT Vs DUTY CYCLE % F'g 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-30301 HRB/30801 HRB
PARAMETER

TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

Iv

12

30

mcd

IF = 20 mA

;>.P

635

nm

IF = 40 mA

Spectral Line Half·Width

c,;>.

40

nm

IF =40 mA

Forward Voltage, any Segment (O.P')

VF

12.6
(4.2)

16.8
(5.6)

V

IF =40mA

Reverse Current, any Segment

IR

200

p,A

Iv-m

2:1

Average Luminous Intensity
Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR = 30V
IF =40 mA

TYPICAL ELECTRICAL/OPTICAL GHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)
100

'-'

I

4:

E 80

-C

40

:;;
~

20

0
12

16

40

o
24

480

28

16
8

x

/

\

o

640

800

720

Wavelength ( )., ) -

nm

/

05

o

10

/
20

30

40

50

60

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

Fig 2 SPECTRAL RESPONSE

l\
'\.'

500

I"-

24

~

560

0:

4:

32

"

">

iii
c;

20

0:

20

lS

1000
800

I

0

/

~

">

48

:;

c:

E

.-

/

oJ

iii

4:
E 40

U

/

2'

"'0

- -C-'

60

c;

56

~

in
c:

--

1:"

0

Forward Voltage IV,) - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

C

'1-

f

80

Sc.
S

V
J

"0

5

if

/

~

"-

100

--

:.:-

~

:;
U

/
1/

60

,-r--

120

~-

E
I

g

" "- i'.
60

50

80

"'- ......

"

~

I'\.

I'-.

-"
OJ

"

0-

I

40

:;

U

r'l
20

E

100
80

~

o

200

90

20

1

10
10

20

50

100

10

20

"""

......

40

I'
DC

Ambient Temperatu.re (Tal - °c
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ lDmA PER SEG)

5-24

687

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-30302A/30802A (GREEN)
UNIT

TEST
CONDITION

15

mcd

IF = 10mA

AP

565

nm

IF

Spectral Line Half-Width

D.A

30

nm

IF = 20 mA

Forward Voltage, any Segment (D.P.)

VF

16.8
(5.6)

V

IF =20mA

Reverse Current. any Segment

IR

100

pA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

6

Peal< Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

12.6
(4.2)

= 20mA

VR ""30V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50



40

0::

20

Q)

>

g

o
144

12

15

~

..J

a;

)
96

c

60

Q)

10

72

V

'"0

.5

LL

o

/

E

80

~

II

"E

L

25

Q)

/

~

in
C

II

:;
U

~

100

168

480

Forward Voltage {V,I - Volts
FIg I FORWARD CURRENT Vs FORWARD VOLTAGE

a;

0::

IJ

05

o
560

640

800

720

~I

V

o

10

I

15

20

25

30

Wavelength ( A ) - nm

Forward Current (IF) - rnA

FIg 2 SPECTRAL RESPONSE

FIg 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

1000
800

~

500



r--..

;;;
c

S

~

g>

i'

a;
0::

10

I
10

20

50

"."-

"

Q)

...... j'..

20

1.5

.£

I

100

'" "

-.
10

20

40

I

J
DC

Duty Cycle %
Duty Cycle %
FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ I KHz)
(AVERAGE I, ~ lOrnA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-30302A/30802A (ORANGE)
UNIT

TEST
CONDITION

15

mcd

IF =10 mA

AP

630

nm

IF = 20 mA

Spectral Line Half·Width

t::.A

40

nm

IF = 20 mA

Forward Voltage, any Segment (D.P.)

VF

12.6
(4.2)

V

IF = 20 mA

Reverse Current, any. Segment

IR

100

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

6

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

16.8
(5.6)

jJ.A

VR '" 30V

IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

/

«

E

40

-E
~

20

"0;~

(;

/
J

10

u.

o
72

96

/

60

B:J

g'"
>

W

cr:

E
c

V

"'

:J
0
C

20

cr:

15

>

W 05

/ \
480

560

o

640

720

800

Wavelength ( ). ) - nm
Fig 2 SPECTRAL RESPONSE

1000
800

24

500

E
I

""- .............

16

g

12

........

u

o

E
~
:;

,
h

20

40

60

Ambient Temperatu,re (Tal -

80

J

90

°C

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

U
-"
ro

/

V

f

/

o

/

10

/

,

15

20

25

Forward Current (IF) -

I
I

~

II

'\.

I

200

:--....

100
80

'\.
.........

50

......

20
10

r--. r-....

-

---10

20

Duty Cycle %

50

30

rnA

r--



0..

V

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

«
20

--

E

g'"

28

~

8

25

C

40

168

144

in

~

E

0

12

C

,-- ----

---

:J
..J

0

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

-r ----- -~

~ 80~-+-~~+-*-1--+~~
:;

30

:;
U

::: fr___+·.- j - -

/

I

-

100

'--

"""--

1-

j........

1
10

""!-oR:

40

DC

Duty Cycle %

Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - f ~ 1 KHz)
(AVERAGE I, ~ 1 OmA PER SEG )

5-26

689

ILITE[']~II

LTS-

~:~¥lJ:::02A SERIES

5 INCH SINGLE COLOR & MULTICOLOR ULTRA LARGE
SINGLE DIGIT LED NUMERICAL DISPLAY

FEATURES
-5INCH (127.0mm) ULTRA LARGE DIGIT HEIGHT.
-CONTINUOUS UNIFORM SEGMENTS.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- HIGH CONTRAST.
- HIGH BRIGHTNESS.
-WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
-CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
- EASY MOUNTING ON P.C. BOARD.
-SINGLE COLOR DISPLAYS HAVE THE CHOICE
OF TWO BRIGHT COLORS - GREEN/HIGH
EFFICIENCY RED.
-MULTICOLOR DISPLAYS ARE APPLICABLE TO
THREE BRIGHT COLORS - GREEN, ORANGE
AND YELLOW (GREEN AND ORANGE MIXED).

DESCRIPTION
The LTS·50000 series are 5 inch (127 mm) height ultra
large single digit displays.
The LTS·50301/50801 series are single color displays.
The green displays have black face and green segment
color, the high efficiency red displays have black face
and red segment color.
The L TS·50302A/50B02A are multicolor displays.
The multicolor displays have black face and white
segment color.
The green series utilize LED chips which are made from
GaP on a transparent GaP substrate. The high efficiency
red series devices utilize LED chips which are made
from GaAsP on a transparent GaP substrate.

DEVICES
PART NO. LTS-

5-27

690

MULTICOLOR

DESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

Common Cathode

A

A

Cammon Anode

A

B

GREEN

HI.-EFF.
RED

50301G

50301HRB

50801G

50801HRB

-

-

50302A

Common Cathode

B

C

-

50802A

Common Anode

B

D

-

-

PACKAGE DIMENSIONS
B. L TS-50302A /50802 A

A. LTS-50301 /50801

millimeters tolerance are.
(inches)
1. Lead length (from seating plane): minimum valum

NOTE: All dimensions are in

PIN CONNECTION

+1.00

-=0.00 mm 2. ±0.25mm un less otherwise noted.
+0.040"
-0.000" )

(0.010")

CONNECTION

PIN NO.
LTS-SOlO1

1
2
3
4
5

6
7

8
9
10
11
12
13
14
15
16
17
18

19
20

Segment E Anode
Segment 0 Anode
Comma Anode
D.P. Anode
Segment C Anode
Segment 8 Anode
Segment A Anode
Common Cathode
Segment F Anode
Segment G Anode

,

LTS·50801

Segment E Cathode
Segment 0 Cathode
Comma Cathode
D.P. Cathode
Segment C Cathode
Segment B Cathode
Segment A Cathode
Common Anode
Segment F Cathode
Segment G Cathode

.LTS-50302A

Anode E, Green
Anode E, Orange
Anode. 0, Green
Anode 0, Orange
Anode Comma, Green
Anode Comma, Orange
Anode DP. Green
Anode DP. Orange
Anode C, Green
Anode C. Orange
Anode B, Green
Anode B, Orange
Anode A. Green
Anode A, Orange
Cathode Conlmon. Green
Cathode Common, Orange
Anode G Green
Anode G, Orange
Anode F, Green
Anode E, Orange

LTS·50802A

Cathode E, Green
Cathode E, Orange
Cathode D, Green
Cathode D. Orange
Cathode Comma. Green
Cathode Comma, Orange
Cathode DP. Green
Cathode DP. Orange
Cathode C. Green
Cathode C. Orange
Cathode B. Green
Cathode B, Orange
Cathode A. Green
Cathode A. Orange
Anode Common. Green
Anode Common, Orange
Cathode G. Green
Cathode G, Orange
Cathode F, Green
Cathode F. Orange
5·28
691

INTERNAL CIRCUIT DIAGRAM
B. LTS-50801

A. L TS-50301
A

2

7

D. LTS-50802A

C. L TS-50302A

GREEN 15
ORANGE 16

GREEN 15
ORANGE 16

COM

COM

7 5
8 6

GREEN 13
ORANGE 14

11
12

9
10

3
4

19
20

17
18

GREEN 13
ORANGE 14

ABSOLUTE MAXIMUM RATINGS AT TA

=

11
12

9
10

19
20

3
4

17
18

25°C

50x01

5Ox02A
UNIT

PARAMETER
GREEN

HI.-EFF. RED

GREEN

ORANGE

1200

1200

900

900

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

180

180

160

160

mA

Continuous Forward Current Per Segment

60

60

40

40

mA

0.72

0.72

0.48

0.48

mAte

50

50

50

50

V

Power Dissipation Per Segment

Derating linear From 25°C Per Segment
Reverse Voltage Per Segment
Operating Temperature Range

- 25°C to + 85°C

Storage Temperature Range

- 25°C to + 85°C

5-29
692

Soler Temperature 1/16 inch Below Seating Plane for 3 Seconds at 2600 C

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA

=

25°C

LTS-50301G/50801G
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

21

60

mcd

IF = 30 mA

Peak Emission Wavelength

i\p

565

nm

IF

= 60 mA

!::,i\

30

nm

IF

= 60 mA

Forward Voltage, any Segment (D P.)

VF

21
(4.2)

28
(56)

V

IF

= 60 mA

Reverse Current, any Segment

IR

300

p.A

VR

= 50V

Iv-m

2.1

Spectral Line Half-Width

Luminous IntenSity Matching Ratio

UNIT

MAX.

IF

= 60 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

120

150

/
/



40

">

a:

20

0:

I

k(

/

05

o
560

640

800

720

Wavelength ( A I - nm
Fig 2 SPECTRAL RESPONSE

If

I

o

10

15

20

25

30

Forward Current (IF) - rnA

Fig 3 RELATIVE LUMINOUS INTENSI"FY Vs
FORWARD CURRENT (PER SEGMENTI

1000

800

..p

630

nm

IF '" 60 mA

Spectral Line Half-Width

£::...A

40

nm

IF "'50mA

Forward Voltage, any Segment (D.P.)

VF,

V

IF'" 50mA

Reverse CUrrent, any Segment

IR

300

Iv-m

2:1

Average Luminous Intensity
Peak Emission Wavelength

Luminous Intensity Matching Ratio

UNIT

MAX.

21

28

(42)

(5.6)

p.A

VR "'50V
IF = 60 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

/


iii

a:

20
10

I'\..

"- l~

'"

1

20

50

rnA

I
I

I - - f--'

0;

10

30

I

~

<0

0-

I
20

200

25

Fig 3 RELATIVE LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT.(PER SEGMENTI

0<

')

12

o

/

05

500

72

o

580

a:

/

1000
800



Forward Vollage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E
i"

c

E
::>

,

25

"'0
I-

o

20

c

,.J

~

J

0

.e::>::>

in

1:

<0

30

u.

80

i:

"

2l

o

/

~

'#.

f-

{

-"

::>

/

i"

u
'E

100

II

I

-E

, - - ,--r-,--

120

150

100

10

20

40

I'DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHz I
(AVERAGE I, = 10mA PER SEG I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-50302A/50802A (GREEN)
UNIT

TEST
CONDITION

40

mcd

IF = 20 mA

AP

565

nm

IF = 40 mA

Spectral Line Half-Width

671.

30

nm

IF'" 40 mA

Forward Voltage, any Segment (D.P.)

VF

21
(6.3)

Reverse Current. any Segment

PARAMETER

SYMBOL

MIN.

TYP.

Iv

13

Average Luminous Intensity
Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

28
(84)

V

IF

= 40 mA

IR

200

tJ.A

VR

= 50V

Iv-m

2'1

IF

= 40 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

100

/

«

E 80

-C

40

0

20

u.

o

if

S

s-

:ill

"
0::

480

28

05

o
640

560

800

720

Wavelength ( }. ) - nm
Fig 2 SPECTRAL RESPONSE

~I

V

V

I

o

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

I

500

E
I

~

32

24
16

"- i'-.

g
C
!"

I"-

5

U

o

20

40

BD

........
f"".

~
in

........

c

~

.......

50

90

Ambient T emperatwe n al - 0 C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

"-

15

I

'\

~

"-"-

.£
Q)

>

iii

"-

"

Q)

I

60

100
80

~

'".,

"I

8

200

I

'"

«

o

~

V

1000
800

I

"

>

o

E 40

o
x

Q)

20

0::

24

15

iii

"

20

16

E

40

>

«

5

/

~

Q)

56

!"

/

25

..J

iii

)
12

c

60

~

0

48

U

~

c

:£
'"0

80

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

c

~
Q)

J
V

!"

~

1-

~

5

u
'E

-- -

100

II

60

~-'-~r-

0::

20

-

10
10

20

50· 100

r-

I

I

I

I,

..... ~

I!!

W

1
10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KH2)
(AVERAGE I, ~ 1 OmA PER SEG )

5-32

695

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-S0302A/S0802A (ORANGE)
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

16

40

mcd

I'F '" 20 mA

Peak Emission WavelenQth

?.p

630

nm

IF =40mA

Spectral line Half-Width

6.'JI.

40

nm

bF =40 mA

Forward Voltage. any Segment (D.P.)

VF

21
(6.3)

Reverse Current. any Segment

IR

200

Iv-m

2:1

Luminous Intensity Matching Ratio

UNIT

MAX.

28

~F

V

(804)

p,A

=40mA

.

VR ""50V
I·F =40mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2S0C Ambient Temperature Unless Otherwise Noted)

I

..:

E 80
I

-e
5

40

"

u.

~

c

">

/"

E

/

'"
c

E
:J

1S

a;
a:

20

">

iii
a;

o
24

480

28

I

560

a:

I \

o

640

800

720

/

05

II
o

10

15

20

25

30

Forward Current (IF! - rnA

Wavelength ( }. I - nm
Fig 2 SPECTRAL RESPONSE

Fig 3 RELATIVE LUMINOUS INTENSity Vs
FORWARD CURRENT (PER SEGMENTI

1000
800

48

~

500

..:

E
I

E 40

I

""- ........

32
24

u

Q

16

i'..

g
el'

""-

5

U

o

20

40

60

"

Q.

I

80

200
100
80

........

'\.'

...... r-.

i?:

........

~

c

l'l

.......

90

'\

1.5

E

50

-

a;
a:

20

--

10
10

20

50

--

'\.

"1"-

">

iii

~

'I
o

/

25

l'l

..J

"'"

..:

5
U

i?:

0

40

56

l'

1-- r-- 1 -

- I-

60

Forward Vollage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

C

- - - - ---

r-,----

0

20

16

r-

:J

S

J
12

--

f

80

.'>
:J

/

20

o

if

I

l'

~

100

V

60

u
"E

----

120

100

--

......

r-.

1
100

10

20

40

DC

5-33

696

AmbIent Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % .Flg 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHz I
(AVERAGE I, ~ 1 OmA PER SEG I
Vs AMBIENT TEMPERATURE

LTS-310A SERIES

ILITEr.] ~ II

0.3" SINGLE DIGIT NUMERIC DISPLAYS

FEATURES
-0.3 INCH (7.62mm) DIGIT HEIGHT.
_CHOICE OF SIX BRIGHT COLORS-RED/BRIGHT
RED / GREEN / YELLOW / ORANGE / HIGH EFFICIENCY RED.
_ LOW POWER REQUIREMENT.
_ EXCELLENT CHARACTERS APPEARANCE.
_ CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
_ EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The L TS-3l0A series are 0.3 inch (7.62mm) height
single digit displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series devices utilize LED
chips which are made from GaAsP on a transparent GaP
substrate. Red and bright red displays have black face
and red segment color. Green and yellow displays have
gray face and white segment color. Orange displays
have orange face and orange segment color.
High
efficiency red displays have red face and red segment
color.

DEVICES
PART NO. LTSRED

BRIGHT
HI.-EFF.
GREEN YELLOW ORANGE
RED
RED

DESCRIPTION

PACKAGE INTERNAL
DIMENSION CIRCUIT
DIAGRAM

311AR

311AP

3llAG

3llAY

311AE

311AHR

Universal, ± 1 Overflow

8

A

312AR

312AP

312AG

312AY

312AE

312AHR

Common Anode, Rt. and
Lt. Hand Decimal

A

B

313AR

313AP

313AG

313AY

3l3AE

313AHR

Common Cathode.
Rt. Hand Decimal

A

C

315AR

315AP

315AG

. 315AY

315AE

315AHR

Common Cathode,
Rt. Hand Decimal

A

D

316AR

316AP

316AG

316AY

316AE

316AHR

Common Anode,
± 1 Overflow

8

E

5-34
697

PACKAGE DIMENSIONS
B. LTS·311A/316A

A. LTS·312A/313A/315A
4.78
( 0188)

o.ao
( 003 1)

P'N
NO.1

LTS: PART NO.

410.90

TXXX: DATE CODE
BIN CODE

zi

lO.035)

JL
NOTE: All dimensions are in

0.50
(.020)

millimeters
{inches}

tolerance are:

+1.00

1. Lead length {from seating plane}: minimum valum

_-_+"'~-::~:-~::-:o::-:,:-,m_m

2.

±{~.,~~~,~

unless otherwise noted.

-0.000" }

PIN CONNECTION
PIN
NO.
1
2
3
4

5
6
7

8
9
10
11
12
13
14
NOTES
5·35

698

CONNECTION
A. LTS·311A

B. LTS·312A

C. LTS-313A

O. LTS·315A

E. LTS-316A

Anode H
No Pin
Cathode H
Cathode G
Cathode J
Anode J
Anode G
Anode D.P.
No Pin
Cathode D.P.
Cathode C
Cathode B
Anode B
Anode C

Cathode A
Cathode F
Common Anode *1
No Pin
No Pin
Cathode L.D.P.
Cathode E
Cathode D
Cathode R.D.P.
Cathode C
Cathode G
No Pin
Cathode B
Common Anode *1

Common Cathode *2
Anode F
Anode G
Anode E
Anode D
Common Cathode *2
Anode D.P.
Anode C
Anode B
Anode A

Anode F
Anode G
No Pin
Common Cathode *3
No Pin
Anode E
Anode D
Anode C
Anode D.P.
No Pin
No Pin
Common Cathode *3
Anode B
Anode A

Anode G ,H&J *4
No Pin
Anode G, H&J *4
No Pin
No Pin
No Pin
Cathode H&J
Cathode G
No Connection
Cathode C
Cathode B
No Pin
No Pin
Anode B&C

1. Pin 3 & 14 are Internally connected
2 Pin 1 & 6 are Internally connected

-

-

-

3 Pin 4 & 12 are Internally connected.
4 Pin 1 & 3 are Internally connected

INTERNAL CIRCUIT DIAGRAM

.------11--

12

3
-+----1~_.,

r--+-

2

9

2

3
~~~~

11

_ _ _~__ 11

6

6

10

13

10

5

LTS-313A

~--t-- 14

14

13

4

c.

B. LTS-312A

A. LTS-311A

8

3 --+------1~-+

10

4

9

5

,------1-- 8

8

D. LTS-315A

E. LTS-316A

14

14

13

2

12

3
11

4

10

9

6

1-----+-

8

8

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HL-EFF.
RED

UNIT

Power Dissipation Per Segment

55

40

75

60

75

75'

mW

Peak Forward Current Per Segment
(l/lO Duty Cycle. 0.1 ms Pulse Width)

160

60

100

80

100

100

mA

Continuous Forward Current Per Segment

25

15

25

20

25

25

mA

Derating Linear From 25°C Per Segment

0.3

0.18

0.3

0.24

0.3

0.3

mAtC

5

5

5

5

5

5

V

PARAMETER

Reverse Voltage Per Segment
Operating Temperature Range

- 25°C to

+ 85°C

Storage Temperature Range

- 25°C to

+ 85°C
5-36

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C

699

ELECTRICAL/OPTICAL CHARACTERISTICS AT fA = 25°C
LTS·310AR SERI ES
UNIT

TEST
CONDITION

500

IScd

IF "'10mA

il.p

655

nm

IF =20mA

Spectral Line Half-Width

A"A

24

nm

IF =20 mA

Forward Voltage, any Segment or D.P.

VF

1.7

2.0

V

IF =20 mA

Reverse Current. any Segment or D.P.

IR

100

JJA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous IntensitY

Iv

200

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temoerature Unless Otherwise Noted)
50

120

«

E
I

-C
5

20

0

0
u..

10

a;

'"::>0
c

60

E
::>

">

24

480

28

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

:0
a:

J

20

a;

V 1\

o
20

V

"2

40

a:

16

15

...J

i5

12

25

E

80

S
B::>

l'

in

c

~

*

30

u
"E

~

i:"

100

40

560

640

V

lL'

1/

05

.

1_ .
720

800

Wavelength ( ). ) - nm
Fig 2 SPECTRAL RESPONSE

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

1000
800

28

1
24

l'

c(

E

20

E
l'
5

16

U

12

500
c(

'"

E
I

g

I'-.

C
l'

"- ') "'.."
"
5

"

Cl

U

"

~

0..

o

o

I

40

60

80

90

AmbIent Temperature (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

5-37

700

200
100
80

1',

J

1',

I

!

""'-

50

r"-"

20
10

"-

............
..............
~

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty t:;ycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ 10mA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-310AP SERIES
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

320

750

/led

IF

= 10 mA

Peak Emission Wavelength

~p

697

nm

IF

= 20 mA

Spectral Line Half-Width

A~

90

nm

IF

= 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF

= 20 mA

Reverse Current, any Segment or D.P.

IR

100

/lA

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR =5V
IF

= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E

-E

40

/

30

S

U

20

0

10

u.

12

16

24

480

28

Forward Voltage (V,) - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

1\

560

V

\

640

a;
cr:

800

720

Wavelength ( ). ) -

15

"
">
ji;

..J

nm

,/

./

,......

-

05

o

o

10

15

20

Forward Current (IF) -

Fig 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

«

E

E

16

g

S

12

I 200

I
~

U

E

\

500

24
20

E

0

1000
800

2B

«

"'"c:

/

20

o

20

/ \

40

ji;
a;
cr:

J

o

/

a

>

25

!!l

E

60

"

in
c:

f\

80

5c.
5

II

'E

'"~

~

/

~

?:

100

.........

E
~
:;

........

0

0

x

U

........

'"

:;:

20

40

I'-..

I
60

80

90

""'"
0.
"

100
80
50

'"

"

.........

........

20

r-...

....

10
10

20

50

100

AmbIent Temperature (Ta) - °C
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)

5-38
701

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTS-310AG SERIES

=

2SoC

TEST
CONDITION

SYMBOL

MIN.'

TYP.

Average Luminous Intensity

Iv

SOO

2000

~cd

IF

= 10 mA

Peak Emission Wavelength

i\.p

565

nm

IF

= 20 mA

Spectral Line Half-Width

Ai\.

30

nm

IF =20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.S

V

IF =20mA

Reverse Current, any Segment or D,P.

IR

100

pA

Iv-m

2:1

PARAMETER

Luminous Intensity Matching Ratio

MAX.

UNIT

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)
50

120

/



0;

a:

40

g"

15

20

a:

>

0;

o
24

480

28

I

os

o
560

640

800

720

Wavelength ( }, I - nm
Fig 2 SPECTRAL RESPONSE

~

I

o

/

/

/

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSitY Vs
FORWARD CURRENT (PER SEGMENTI

12

"

E
I

~

x

g
1:

1:!
~
u

~

'"'"

"1
40

60

80

90

Ambient Temperatu!e (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200
100
80

"

I

,

so

"

a.

I

20

\.
'\.

500



40

a:

20

4BO

2B

24

>

I
J \
560

iii
a;
a:

o

640

BOO

720

Wavelength ( ). ) - nm
Fig 2 SPECTRAL RESPONSE

/

05

If
o

10

15

20

Forward Current {IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

\.
\.

500

«

""- ......

12

"
x
::;
"'

Q

E
I

g

""- "-

E
~
5

.......

U
-"

i'l
o

/

Q)

o

20

15

~

1000
BOO

~

~

/
1/

...J

Q)

24

E

/

25

E
'"a

60

iii
a;

28

U

in

§

Q

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

~

I -I--.

~

~

<5

#.

{

30

5

u

100

/

I

o

20

40

60

Ambient Temperature (Ta) -

80

°C

"'

200
100
BO

""-

"\
.......

Q)

0..

J

90

I'

...........

50

20
10

10

20

Duty Cycle %

"

50

""

1

100

10

......

40

t-DC

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = 1 OmA PER SEG)

5-40

703

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-310AE SERIES
UNIT

TEST
CONDITION

2000

}.Lcd

IF'" 10mA

AP

630

nm

IF = 20 mA

Spectral Line Half·Width

':"A

40

nm

IF"

Forward Voltage, any Segment or D.P.

VF

2.1

Reverse Current. any Segment or D.P.

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

800

Peak EmiSSion Wavelength

PARAMETER

Luminous Intensity Matching Ratio

MAX.

2.8

V

IR

100

}.LA

Iv-m

2:1

20 mA

IF = 20 mA
VR = 5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

r--~-

--

-

«

E

40

30

20

~

(;

of

12

16

E

20

E
~
:;

16

U

--

g"

40

0::

2D

a;

c

>

a;

480

28

560

0::

/ \

05

o

640

800

720

f

o

7

/

17

/

7
10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

Wavelength ( }. ) - nm
FIg 2 SPECTRAL RESPONSE

1000
800

"

E
I

g.

1'..

"

a"

E
~
:;
U

")

x



20

/

25

E

0

28
24

c

E
0>

Forward Voltage (VF) - Volts
Fig 1 FORWARO CURRENT Vs FORWARO VOLTAGE

«

in

!!!

60

E0>

J

o

-

0

'5

10

L1.

80

---

i>:

0>

/

"E

r

100

/

~

:;
U

I

,----

------

120

/

I

-E

-,-

40

60

80

200
100
80

i>:

I'-...

in

c

I"'...

!!!

I'-..

50

J"'.

-'"


"..
a;

I'-...

"'"

0::

20

'\
......

1

10
10

20

50

100

10

2D

40

j..
DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
IAVERAGE IF ~ 10mA PER SEG)

5-41
704

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°'C
LTS-310AHR SERIES
UNIT

TEST
CONDITION

2000

!Lcd

IF = 10 mA

AP

635

nm

IF = 20 mA

Spectral Line Half-Width

A"}."

40

nm

IF =20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

'V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

!LA

VR =5V

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous IntensitY

Iv

800

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

E

-E

/

40

~

~

(;
LL

~

10

12

16

24

"-

20
IS
12

a:

20

o

2.

24

V

~

40

Qi

480

560

I

">
"'"
Qi
a:

\

05

o

640

800

720

Wavelength I ). I - nm
Fig 2 SPECTRAL RESPONSE

f

/

V

o

10

15

ZO

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI

E

"

I

g

r--..

""-

"

x

~

o

20

40

~

500


1i:

28

E
e:;

c:

E

0

20

/

25

.E"
'"0

- I-

60

_
Forward Voltage IV,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

c:

~

J

o

in

{

80

S0.
S

/
/

20

~

100

V

30

e:;

u

r--

120



~

20
10

~
Qi
a:

1

10

20

50

100

10

20

"

40

DC

Ambient Temperatu,re ITa I - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX. PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
IREFRESH RATE - F = I KHzl
IAVERAGE I, = IOmA PER SEG I

5-42
705

ILITEr.] ~ II

LTS-360 SERIES
0.36" SINGLE DIGIT NUMERIC DISPLAYS-

FEATURES
-0.36 INCH (9.20mm) DIGIT HEIGHT.
e CONTINUOUS UNIFORM SEGMENTS.
_CHOICE OF FIVE BRIGHT COLORS·RED/BRIGHT
RED/GREEN/ORANGE/HIGH EFFICIENCY RED.
_ LOW POWER REQUIREMENT.
_ EXCELLENT CHARACTERS APPEARANCE.
_ HIGH BRIGHTNESS.
_WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
-CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
_ EASY MOUNTING ON P.C. BOARDS.

DESCRIPTION
The L TS·360 series are 0.36 inch (9.20mm) height
single digit displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The orange
and high efficiency red series devices utilize LED chips
"I'hich are made from GaAsP on a transparent GaP
substrate. Red, bright red and high efficiency red
displays have red face and red segment color. Green
and orange displays have gray face and white segment
color.

DEVICES
PART NO. L TSRED

5·43

706

BRIGHT
GREEN
RED

ORANGE

HI.-EFF.
RED

DESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

360R

360P

360G

360E

360HR

Common Anode, Rt. Hand Decimal

A

A

367R

367P

367G

367E

367HR

Common Cathode, Rt. Hand Decimal

A

B

368R.

368P

368G

368E

368HR

Common Cathode, ±1 Overflow

B

C

PACKAGE DIMENSIONS
B. LTS-368

A. L TS-360/367

PI N
NO.1

LTS: PART NO.

TXXX: DATE CODe
Z: BIN CODe

LTS36X
TXXX

lTS 36X
TXXX

NOTE: All dimensions are in

millimeters
(Inches)

tolerance are:

+1.00

1. Lead length (from seating plane): minimum valum

-=0:00-

mm 2.

+0.040"
-0.000" )

±0.25mm

(0.010")

unless otherwise noted.

PIN CONNECTION
CONNECTION

PIN NO.

1
2
3

4
5

6
7

a
9
10

A. LTS·360

B. LTS-367

C. LTS·368

Common Anode *1
Cathode F
Cathode G
Cathode E
Cathode D
Common Anode *1
Cathode D.P.
Cathode C
Cathode B
Cathode A

Common Cathode *1
Anode F
Anode G
Anode E
Anode D
Common Catnode *1
Anode D.P.
Anode C
Anode B
Anode A

Cathode PI_ & Mi. *
Anode Plus Sign
Anode Minus Sign
Cathode PI. & Mi. *2
No Pin
Cathode B, C & D.P. "3
Anode D.P.
Anode C
Anode B
Cathode B, C & D.P. *3

NOTES: 1. Pin 1 & 6 are internally connected.
2. Pin 1 & 4 are internally connected.
3. Pin 6 & 10 are internally connected.

5-44

707

INTERNAL CIRCUIT DIAGRAM
C. LTS-368

B. LTS-367

A. LTS-360

A

A

10

10

2

9

3

8

4

6

5

2

9

10

2

9
8

3

8

3

4

7

4

5

6

6

RDP

ABSOLUTE MAXIMUM RATINGS AT TA

= 25°C

RED

BRIGHT
RED

GREEN

ORANGE

HI.·EFF.
RED

UNIT

Power Dissipation Per Segment

55

40

75

75

75

mW

Peak Forward Current Per Segment
(1110 Duty Cycle, 0.1 ms Pulse Width)

160

60

100

100

100

mA

Continuous Forward Current Per Segment

25

15

25

25

25

mA

Derating Linear From 25" C Per Segment

0.3

0.18

0.3

0.3

0.3

mArC

5

5

5

5

5

V

PARAMETER

Reverse Voltage Per Segment
Operating Temperature Range

- 25" C to + 85" C

Storage Temperature Range

- 25" C to + 85" C

Solder Temperature 1/16 inch Below Seating Plane for'3 Seconds at 2600 C

;-45

708

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-360R SER I ES
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

200

500

/-Lcd

IF = 10 mA

Peak Emission Wavelength

AP

655

nm

IF=20mA

Spectral Line Half-Width

D."A

24

nrr>

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

1.7

2.0

V

IF=20mA

Reverse Current, any Segment or D.P.

IR

100

/-LA

Iv-m

2:1

Luminous Intensity Matching Ratio

UNIT

MAX.

VR '" 5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Un less Otherwise Noted)
120

'0

..:

E

-E

if!

'E

~

(;

u..

20

0

10

iii
a;

40

a:

20

20

24

480

28

2'

a:

V \
560

640

"

o

Wavelength ( }. I - nm
Fig. 2 SPECTRAL RESPONSE

/

o.

800

720

/

~

v

1- .

o

10

15

20

25

Forward Current (IF) -

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

1000
800
500

24

""

20

I
16

~

U
u
Cl

iii
a;

o
16

28

:;

"
">

">

Forward Voltage {Vd - Volts

E

E
--'

Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

..:
E

c

60

0
12

c

e
.s
""'
0

"E-"

~

00

"

80

30

:;
U

?:

100

40

I

12

..:

E
I

g

i'..

"-

X
:2:

'"

20

40

['..
200

60

E
~
:;
U

1
I

80

90

"''""
"
0-

100
80

r-.~

c

" 1'-,

50

I

?:
;;;

20

e
.s

!

15

~
...........

.,">

...........

'"

a;
a:

I-

........ :-."

1

10
10

20

50

100

10

20

40

II

.... U
DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty C;:ycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
!REFRESH RATE - F ~ 1 KH21
(AVERAGE IF ~ IOmA PER SEG I

5-46

709

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-360P SERIES
TEST
CONDITION

SVMBOL

MIN.

TVP.

Average Luminous Intensity

Iv

320

750

#4cd

IF =10mA

Peak Emission Wavelength

AP

697

nm

IF'" 20 mA

Spectral Line Half-Width

AA

90

nm

IF'" 20mA

Forward Voltage. any Segment or D.P.

VF

2.1

2.8

V

IF =20mA

Reverse Current, any Segment or D.P.

IR

100

#4A

Iv-m

2:1

PARAMETER

LumInous Intensity Matching Ratio

UNIT

MAX.

VR =5V
IF

=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/
II

«

E

-E

40

3D

U

20

"E

'"~

10

.f

'if!.

S

/
II

l!!

:;

s-

12

16

80

">

a:

40

24

20

480

28

">

1\

640

E

16

g

U

12

I'.

E
l!!
:;

\

720

.........

a:

800

Wavelength ( , ) - nm
Fig. 2 SPECTRAL RESPONSE.

"
x
::;;'"

U

.........
o

o

I'-...

I

20

40

60

Ambient Temperature (Ta) -

80

°C

90

'"0..'"

"

......

.........

20

i'- .......

10
10

20

50

05

o

o

.......- ....-

10

15

,.-

20

25

30

Forward Current (I,) - mA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

......

50

/"

iii

a;

200
100
80

15

::I
...J

500

E
I

0

710

c:

E

\

«
20

I

,·47

::I

V
560

25

0

1000
800

24

"~

c:

~
'"

/

o

20

28

E

/

iii

Forward Voltage (V,) - Volts
Fig 1 FORWARO CURRENT Vs FORWARD VOLTAGE.

«

/ \

60

::I

a;

in

'r"\

0

J

o

?:

100

100

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-360G SE R I ES
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

800

2000

/Lcd

IF = 10 mA

Peak Emission Wavelength

i\p

565

nm

IF=20mA

Spectral Line Half-Width

D.i\

30

nm

IF = 20 mA

Forward Voltage, any Segment or D.P_

VF

2.1

2.8

V

IF = 20 mA

Reverse Curreflt, any Segment or D.P.

IR

100

IJ.A

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E

40

E
e
:;

u

"2

~

"

30

o
12

16



40

g>

480

28

u

05

a

560

640

720

800

Wavelength ( ~ I - nm
Fig 2 SPECTRAL RESPONSE

500

E
e
:;
U

0:;

a:

a
24

24

16

>

20

1000

20



g

a:

20

15

~

28

E

E
-'

Forward Voltage (V" - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

c

60

0

)

V

~

0:;

U.

25

.E
'"0

80

:;
":;

II

10

~

c

--



if'.

/

20

~

100

V

-

---

,--

~

/

/

V

/

a

V

10

15

20

25

30

Forward Current OF) - rnA

Fig 3 RELATIVE LUMINOUS INTENSn:y Vs
FORWARD CURRENT IPER SEGMENTI

800

f'-

E
I

'\

E

e
:;

I'\..

"

Q

x

~

U

~

~
~

I

20

40

_'\

200

g-

"

12

1,\

«

60

80

90

100
80

f".

'\
I'-..

50

20

I'

"'c--..

. . . . 1'.....

10

.......

1
10

20

50

100

10

20

40

DC

Ambient Temperatu!e (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzI
(AVERAGE I, ~ 1 OmA PER SEG I

5-48

711

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTS-360E SERI ES
PARAMETER

=

25°C

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

800

2000

J,Lcd

IF=10mA

Average Luminous Intensity

.

UNIT

MAX.

Peak Emission Wavelength

l\p

630

nm

IF = 20 mA

Spectral LinE1 Half-Width

AA

40

nm

IF =20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

J,LA

VR =5V

Iv-m

2:1

Luminous Intensity Matching Ratio

IF'" 20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25D C Ambient Temperature Unless Otherwise Noted)
50

E

-E

j

40

a

10

o
12

,.

~

..J

>
g"

40

0:

20

a;

)

480

28

"-

16
12

"

E
I

"II

x

~
o

g

~

"

20

40

60

80

90

Ambient Temperatu!e (Ta) - DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

712

I
560

0:

\

o

640

800

720

Wavelength ( ). ) - nm
Fig 2 SPECTRAL RESPONSE

I

05

/

1/
o

10

15

20

25

30

Forward Current (IF) - mA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

\.

~

Cl

5-49

a;

o
24

15

500

20

o

E

~

>
g"

24

U

/

0

c

- I-

60

1000
800

~

"~

/

£

0

20

/

2.

~

28

E

c

l'l

"'

e-

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

E

in

{

80

S

/

:;;
;:

LL

ti

I

20

'0

?:

100

/

30

"~

U

r--

120

~

E
e:;
U

~
n.

"

'\.

200
100
80

.......

"."

......
.......

50

I......

" .......

r---

20
10

......

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, = lOmA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTS-360H R SE R I ES
PARAMETER

=

25°C

TEST
CONDITION

UNIT

MAX.

SYMBOL

MIN.

TYP.

Iv

800

2000

Itcd

IF =

10

mA

Average Luminous Intensity
Peak Emission Wavelength

i\p

635

nm

IF =

20

mA

Spectral Line Half-Width

D.i\

40

nm

IF =

20

mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF =

20

mA

Reverse Current, any Segment or D.P.

IR

100

itA

Iv-m

2:1

Luminous Intensity Matching Ratio

VR

= 5V

IF =

20

25

30

mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C

Ambient Temperature Unless Otherwise Noted)

50

'20

/
/



40

a:

20

">

iii

Q;

480

2B

I

a:

\

o

640

560

05

BOO

720

/
o

7

V
10

15

20

Forward Current (IF) -

Wavelength I }. ) - nm
Fig 2 SPECTRAL RESPONSE

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

BOO

"

500

"-

20

,I



Cl

I

,

E
e
5

U

4

20

40

60

80

BO

;:-

i'

in

c:

........

l!!

l'....

50

-'"

"'"

0..

I
o

'00

90

r"~

20
'0

'\.

I

200

g

')

x

o

c:

E

/

1000



"
100

iii

"'"

Q;

a:

,
'0

20

.......

40

DC

Ambient Temperature ITa) - °C
Duty Cycle %
Duty Cycle %
Flg.4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
IREFRESH RATE - F ~ 1 KHz)
IAVERAGE I, ~ 10mA PER SEG I

5-50

713

IliTErl ] ~ II

LTS-4000A SERIES
O~4"· SIl~GLE DIGIT NUMERIC OISP"LAYS

FEATURES
-0.4 INCH (10.16mm) DI(lIT HEIGHT.
- CONTINUOUS UNI FORM SEGMENTS.
-CHOICE OF SIX BRIGHT COLORS-RED/BRIGHT
RED/GREEN/YELLOW/ORANGE/HIGH EFFICIENCY RED.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
-CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
- EASY MOUNTING ON P.C. BOARD OR SOCKETS.

<, II
'L

DESCRIPTION

\~~:;$~ij:'\

The L TS-4000A series are 0.4 inch (1 0.16mm) height
single digit displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red ~nd
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series devices utilize LED
chips which are made from GaAsP on a transparent GaP
substrate. Red and bright red displays have black face
and red segment color. Green and yellow displays have
gray face and white segment color. Orange displays
have orange face and orange segment color.
High
efficiency red displays have red face and red segment
color.

DEVICES
PART NO. L TS-

5-51
714

DESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

4905AHR

Universal, ±1 Overflow

B

A

A

B

RED

BRIGHT
GREEN
RED

YELLOW

ORANGE

HI.·EFF.
RED

4705AR

4705AP 4505AG

4805AY

4605AE

4710AR 4710AP 4510AG

4810AY

4610AE

4910AHR

Common Anode,
Rt. Hand Decimal

4730AR 4730AP 4530AG

4830AY

4630AE

4930AHR

Common Anode,
±10verflow

B

C

4740AA 4740AP 4540AG

4840AY

4640AE

4940AHR

Common Cathode,
Rt. Hand Decimal

A

D

4780AA

4880AY

4680AE

4980AHR

Common Cathode,
Rt. Hand Decimal

A

E

4780AP 4580AG

PACKAGE DIMENSIONS
A. L TS-4x 1OA/4x40A/4x80A

B. LTS-4x05A/4x30A

I I 2.54
.J-L.-'.1 00)

0.50JL
(.020)

NOTE: All dimensions are in millimeters tolerance are:
(Inches)
1. Lead length (from seating plane): minimum valum

+1.00

-0.00 mm
--=-=-2.
+0.040"
-0.000"

±

0.25 mm unless otherwise noted.
(0.010")

)

PIN CONNECTION
PIN
NO.
1

2
3
4

5
6
7
8
9
10
11
12
13
14

CONNECTION
A. L TS-4x05A
Anode H
No Pin
Cathode H
Cathode G
CathodeJ
AnodeJ
Anode G
Anode D. P.
No Pin
Cathode D.P.
Cathode C
Cathode B
Anode B
Anode C

8. LTS-4x10A

C. L TS-4x30A

Cathode A
Anode G. H & J "2
Cathode F
NoP!n
Common Anode *1 Anode G, H & J "2
No Pin
No Pin
No Pin
No Pin
No Pin
No connection
Cathode E
Cathode H & J
Cathode D
Cathode G
Cathode D.P.
Cathode D.P.
Cathode C
Cathode C
Cathode G
Cathode B
No Pin
No Pin
Cathode B
No Pin
Common Anode *1 Anode B, C & D.P.

NOTES: 1. Pin 3 & 14 are internally connected.
2. Pin 1 & 3 are internally connected.

D. LTS-4x40A
Anode F
Anode G
No Pin
Common Cathode *3
No Pin
Anode E
Anode D
Anode C
AnodeD P
No Pin
No Pin
Common Cathode *3
Anode B
Anode A

E. L TS-4x80A
Common Cathode *4
Anode F
AnodeG
Anode E
Anode D
Common Cathode *4
Anode D. P.
Anode C
Anode B
Anode A

3. Pin 4 & 12 are internally connected.
4. Pin 1 & 6 are internally connected.

-

-

5-52
715

INTERNAL CIRCUIT DIAGRAM
A. L TS-4x05A

r---i--

3
4

--I---I~-,

c.

B. L TS-4xl0A

r--t---

5

LTS-4x30A

14

,--+-14

14

13

2

12

3

-+---.

13
3

11

~4-'+----+-11

11

10

10

10

8

8

9

6

D. LTS-4x40A

9

6

8

E. LTS-4x80A

14
10

13

2

12

9

2
3 -+---~-+

4

r---+-

8

4
6

9

7

8

6

5

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

RED

BRIGHT
GREEN
RED

YELLOW ORANGE

UNIT

55

40

75

60

75

75

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

160

60

100

80

100

100

mA

Continuous Forward Current Per Segment

25

15

25

20

25

25

mA

Derating Linear From 25°C Per Segment

0.3

0.18

0.3

0.24

0.3

0.3

mArC

5

5

5

5

5

5

V

Operating Temperature Range

- 25°C to + 85°C

Storage Temperature Range

- 25° C to + 85° C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 2600 C

716

RED

Power Dissipation Per Segment

Reverse Voltage Per Segment

5-53

HI.·EFF.

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-4700AR SERIES
PARAMETER

MIN.

TYP.

Iv

200

550

/lcd

IF

= 10 mA

Average Luminous Intensity

MAX.

TEST
CONDITION

SYMBOL

UNIT

Peak Emission Wavelength

AP

655

nm

IF

= 20 mA

Spectral Line Half·Width

D.A

24

nm

IF

= 20 mA

VF

1.7

2.0

V

IF

= 20 mA

IR

100

/lA

VR

Iv·m

2:1

D.P.

Forward Voltage, any Segment or

D.P.

Reverse Current. any Segment or

Luminous Intensity Matching Ratio

IF

= 5V
= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

E

'00

40

I

-E

~
~
U

if.

80

0

0

S

c:

60

E

~

-'
~
>

40

>

a;

a;

20

0:

24

Forward Voltage (VFl -

460

28

Volts

20

E

'6

~
U

Fig 2

o
800

720
~

SPECTRA~

05

[-

/

/.

/

.

a

10

15

20

25

Forward Current (IF) -

) - nm

......

Fig 3 RELATIVE LUMINOUS INTENSity Vs
FORWARD CURRENT (PER SEGMENTI

RESPONSE

I

«

"'

'2

E
I

~

I
40

60

~
U

50

80

"

i'-.

I

r-.r--...

!

90

a.
"

..........

.....

1'-,

~

')
20

E

'00
80

~

~

"
x
::;;
'"
0

200

g

'""'" "- .........

20
'0

11

I, I!

500

i',

30

rnA

1000
800

28

E

640

560

Wavelength (

Fig 1 FcrRWARD CURRENT Vs FORWARD VOLTAGE

24

0:

II \

a
20

'6

/

~

~

'0

,5

~

0

'2

~

25

~

'"

0

«

in
c:

E
~

20

LJ..

i?:

30

S:J

"~

,

'20

«

10

20

50

100

, ,0

20

I-

......

40

DC

Ambient Temperatu!e (Ta) - ac
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = 10mA PER SEG)

5·54
717

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-4700AP SERIES
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

340

850

~cd

IF=10mA

Peak Emission Wavelength

?,p

697

nm

IF

Spectral Line Half-Width

A?,

90

nm

IF'" 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

Reverse Current. any Segment or D.P.
Luminous Intensity Matching Ratio

MAX.

TEST
.cONOITION

SYMBOL

UNIT

= 20 mA

2.8

V

.. IF'" 20mA

IR

100

~A

VR "'5V

Iv-m

2:1

IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)
50

120

I
II

«

E

40

I

::'t
E

30

!;
20

"C

~

10

0

u..

">

20

)
16

24

480

28

Forward Voltage (VF ) - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

560

720

640

">

"'"

Qi

a:

800

Wavelength ( }. ) - nm
Fig 2 SPECTRAL RESPONSE.

«

~

20

E
I

1:

16

g

8

12

~

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40

60

!;

50

U

........

20

100
80

~

........

o

200

E

.......

......
...........

~

r--..

80

I

90

0..
"'"

r--..

20

r--..

10
10

20

50

100

Ambient Temperature ITal - °C
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Flg.5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz I

5-55
718

o

o

10

v

15

~

20

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

500

24

V

05

/'"

Forward Current (IF) -

1000
800

28

15

..J

\
~

J

o
20

'"0
c:
E
:J

\

/

iii

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12

1/

25

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40

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o

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c:

"
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60

0

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80

5c.
5

I

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40

"

20

24

480

28

24

E

e

:;
U

0:

560

05

o

640

800

720

Wavelength ( X ) - nm.
Fig 2 SPECTRAL RESPONSE.

/

f

V

V

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

«

"

I.
12

E
I

g
l"-,.

"-

"

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x

:11
o

20

40

1,\

500

1'.

20

o

"

/

1000
800

28

E

">

0

20

15

iii

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

«

E

:J
..J

0:

J

o

C

60

iii

10

U.

V

:J

0

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25

"
E
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80

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0.
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/

l:

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c

100

30

20

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I:"

60

E
e
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U

I

80

200
100
80

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"'"

J

90

Ambient Temperature (Tal - °c
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

"' -"-

u;

c

........

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oS

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50

15

">

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0..

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I
iii

"

a:

20
10

" "'

1

10

20

50

100

10

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40

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Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ lOrnA PER SEG)

5-56
719

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-4800AY SERIES
PARAMETER

SYMBOL

MAX.

. TEST
CONDITION

MIN.

TYP.

UNIT

800· '

2200

/-lcd

IF = 10 mA

Average Luminous Intensity ,

Iv

Peak Emission Wavelength

;\p

585

nm

IF

= 20 mA

Spectral Line Half-Width

A;\

35

nm

IF

=20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF

= 20 mA

Reverse Current. any Segment or D.P.

IR

100

/-lA

Iv-m

2:1

Luminous Intensity Matching Ratio

.

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERIs)TIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

..:

E

-E

40

II

30

~

'0

20

~

5

10

12

16

S
B:J

c:

E
:J

40

"'"

0;

20

o
24

480

28

24

J
Ii

560

;"
>

0;

a:

U
<.>
Cl

12

V

/

05

\
640

120

800

Wavelength ( ). I - nm
Fig 2 SPECTRAL RESPONSE

10

15

20

25

30

Forward Current (IFI - mA
Fig 3 RELATIVE LUMINOUS INTENSllY Vs
FORWARD CURRENT (PER SEGMENTI

1,\

500

..:

E
I

20
16

15

1000
800

..:

iii

L

V

'"

-'

a:

28

~

"
E

60

">

20

/

25

0

Forward Voltage (VFI - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

E

If

0

)

o

80

~
;;;
c:

:J

II

ro

u..

'J'.

/

5

u

100

r--..

)(

....

g

"

"

'"

:;;

i'...

40

5

50

60

80

r--...

"'"

a.

90

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"~

'\.

~

'r--...

~

I

20

100
80

U

"1

200

E
~

.

20
10

~

......

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHzl
(AVERAGE IF = lOmA PER SEG I

5-57
720

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-4600AE SERIES
PARAMETER

MIN.

TYP.

Iv

850

2200

!lcd

IF=10mA

Average Luminous IntensitY

MAX.

TEST
CONDITION

SYMBOL

UNIT

Peak Emission Wavelength

A:p

630

nm

IF = 20 mA

Spectral Line Half-Width

A"A

40

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF=20mA

Reverse Current, any Segment or D.P.

IR

100

IJ.A

Iv-m

2:1

Luminous Intensity Matching Ratio

VR = 5V
IF = 20 mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

,--

50

E

40

-E

30

~

~
U

20

'0

;;;
~

a

u.

,--

.

,0

o

'2

'6

'20

~

/
II

q;

.,">
'"

a;

20

20

o

24

28

480

1000

24

500

"

,

/

560

"

...J

..,">

'"

a;
II:

o

720

640

/

05

800

V

If
o

10

15

20

25

30

Forward Current (lFI - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

'2

E
I 200

t'..

'""x
:;;:'"
o

20

40

I\,
\.

q;

"-

'6

o

V
,5

800

E 20

~
U

E

Wavelength ( ). I - nm
Fig 2 SPECTRAL RESPONSE

28

q;

~

"'"c

-

40

II:

/
/v

0

-

,--

25

-"

0

Forward Voltage (VFI - Volts
Fig 1 FORWARO CURRENT Vs FORWARD VOLTAGE

E

~
l'l

f

80

'5
"- 60
'5

/
II
J

::

'00
if

~

r-'~

60

g
E

"II
80

90

~
~
U

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D..

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80

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c

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50

l'l

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I"

" "-

">

iii

.......

a;

II:

20
'0

"-

'5

-"

,
10

20

50

100

'0

20

.......

40

DC

Ambient Temperatu!e (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE.
(REFRESH RATE - F ~ 1 KH21
(AVERAGE IF ~ lOrnA PER SEG I

5-58
721

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-4900AH R SE R I ES
PARAMETER

TEST
CONOITION

SYMBOL

. MIN.

TYP .

Average Luminous Intensity

Iv

850

2200

~cd

IF = 10 mA

Peak Emission Wavelength

ltp

635

nm

IF=20mA

Spectral Line Half·Width

!.>.A

40

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF" 20 mA

Reverse Current, any Segment or D.P.

IR

100

~A

Iv-m

2:1

Luminous Intensity Matching Ratio

UNIT

MAX.

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
--r- r-I-

50

E

-E

i!!
'5
u
~

40

u.

;!1

/
'2

'6

60

">

40

'"

J

20

24

4BO

2B

l-

E

'6

i!!

'5

U
u
0

560

/

E

,
640

'5

">

I

iii

'"
0::

05

o
720

BOO

Wavelength ( ). I - nm
Fig 2 SPECTRAL RESPONSE

/

V

~

..J

V
o

10

15

20

25

30

Forward Current 11,1 - rnA
Fig. 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

I\,

500

f'



20

20

24

480

28

Forward Voltage IV,I - Volts
Fig.' FORWARD CURRENT Vs FORWARD VOLTAGE

16

1'\

~

5

U

"

E
I

" II

<.l

.,X

:;;;

726

o

40

g-

~

Cl

5-63

560

640

1\

0:

05

1.800

720

10

Wavelength I ). I - nm.
Fig 2 SPECTRAL RESPONSE

«

12

o

1/

15

20

25

60

80

90

200

C

100
80

5

50

~

U

I II
[ I!

i'.,
i'~

I

z:-

oo
S
c:

'"

'".,
Q)

Q.

30

Forward Current (1,1 - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI

500

24

t:

/

V

v

1000
800

28

20

a;

o
16

V

Q)

iii

0
12

15

...J

40

0:

E
I

:s

60

>

«

25

Q)

'"0

Q)

(;
u..

c:

80

S
B:J

~

~

oo

\

:J

Q)

U

z:-

100

!

15

"

5

Q)

i'.,

>

iii

a;

.........

...........

0:

20
10

.......... 1--.
1

10

20

50

100

10

20

40

DC

Ambient Temperature ITal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ , KHzI
IAVERAGE I, ~ , OmA PER SEG I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LT8-S40AP SERIES
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

300

750

/-Lcd

IF = 10 mA

Peak Emission Wavelength

i\.p

697

nm

IF

Spectral Line Half-Width

Ai\.

90

nm

IF'" 20mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF =20mA

Reverse Current, any Segment or D.P.

IR

100

j.!A

Iv·m

2:1

Luminous Intensity Matching Ratio

MAX.

UNIT

= 20 mA

VR =5V
IF

=20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

/

..:

E

-E

40

V

30

:;
U

20

"C

;;;
~



40

"

a:'"
Q;

'2

'6

24

E

"

a:

BOO

05

o

....-- r-

/"

iii

Q;

\

720

./

>

\

640

'5

~

..J

o

10

15

20

Forward Current (IF) -

Wavelength ( ). } - nm
Fig. 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARO CURRENT (PER SEGMENT)

1000

2B

BOO

500

24

..:

..:

20

E
I

<:

'6

g

8

12

I
~

~

0

<:

\

J
560

~

[\

/

480

2B

25

<:

~
.E

II

o
20

Forward Voltage (V,) - Volts
Flg.1 FORWARO CURRENT Vs. FORWARO VOLTAGE

E

/

20

)

o

in

If,

0

'0

0

u.

l:-

'00

'00

........

E so
~
:; 50

........

"

o

o

I'...

I
20

40

60

,

......

.........

U

........
o

200

80

90

~

"

Q.

.........

20
'0

10

20

I'-.
50

....
100

Ambient Temperatu.re (Ta) - °C
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)

5-64

727

ELECTRICAL/OPTICAL CHARACTERISTIC$' AT TA = 25°C
LTS-540AG SERIES
PARAMETER

MAX;

TEST
CONOITION·

SYMBOL

MIN.

TYP.

Average luminous IntensitY

Iv

800

2000

Ilcd

IF'" 10mA

Peak Emission Wavelength

i\p

565

nm

IF'" 20mA

Spectral line Half-Width

Ai\.

30

nm

IF'" 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF =20mA

Reverse Current, any Segment or D.P.

IR

100

IlA

Iv·m

2:1

Luminous Inte~ity Matching Ratio

UNIT

VR =5V
IF "'20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

----

/

0.:

E

-1':

40

V
/

30

l'

5

u
"E

20

~
5
LL

12

16

.3
~

o

20

24

12

i'.

E
I

."-

g.
1':

"""

"
x

5-65
728

640

720

800

Wavelength ( }. ) - nm
FIg 2 SPECTRAL RESPONSE

o

1

1/
o

10

15

20

25

Forward Current (IF) -

30

mA

F,g. 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

4

o

20

~

0.:

CI

o

560

500

l'

~

L-~-L~~L-~~~~

480

28

05

V

800

20

5

-

'>"

g

10-+---I-.

I

U

V

1000

0.:

16

/V

""'oc

28

1':

/

25

E I.

Forward Voltage IV,I - Volts
FIg 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

Vi

c

-"

J

o

?:

l!!

II

10

24

1-+-----rri-r-t--t-1r-----1

100

40

60

"'1I
80

90

l'

200
100
80

'r'--

~

.....
~

5 50

I'

U

-;:i

'"

IL

~

I

20

"'

'\.

"....

10

-

~

"

1
10

20

50

100

10

20

40

DC

AmbIent Ternperatu.re lTal - °C
Duty Cycle %
Duty Cycle %
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAG~ I, ~ 10mA PER SEG)

ELECTRICAL/OPTICAL CHARACTIER~STICS AT TA = 25°C
LTS-540A Y SE R I ES
PARAMETER

MIN.

TYP.

Iv

700

2000

,ucd

IF=10mA

Average Luminous Intensity

MAX.

TEST
CONDITION

SYMBOL

UNIT

Peak Emission Wavelength

:\p

585

nm

IF = 20 mA

Spectral Line Half-Width

A?<.

35

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

,uA

Iv-m

2:1

LuminoUS Intensity Matching Ratio

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

120

/

..:

E

-C

40

II

30

20

ro
~

1;

10

16

">

15

>

o
480

!J

Qi

rr

\

560

05

o

640

800

720

Wavelength I " ) - nm
Fig 2 SPECTRAL RESPONSE

16

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSll'Y Vs
FORWARD CURRENT IPFR SEGMENT)

"'-..

500

..:

C

o

1000
800

24
20

/

jij

J

20

28

..:

E

/

Q)

40

Qi

28

"-

E

" " i'-

~
:J

j/

-'

Forward Voltage IVF) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

U

c

E
:J

jij

24

J

'"

0

20

/

25

£

60

J
12

cQ)

:J
0

rr

o

i?:
;;

L'

80

:;
0.
:;

/

."

u..

?f-

I

~

:;
U

100

12

(J

0

I

g
........

x

20

40

I

60

100
80

:;

50

U

I'l

::;:
'"

C
~

:-....

80

90

200

~
a.

"

20

~

i?:
;;
a5

'\

15

"\.

£

""'" '\'- r'--

">

"'"

IX:

10

1
10

20

50

100

"\

"

Qi

10

20

.......

40

DC

Ambient Temperature ITa) - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
IAVERAGE IF = 10mA PER SEG )

5-66

729

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-540AE SERI ES
PARAMETER

TEST
CONDITION

SYMBOL

MIN ..

TYP.

Average Luminous Intensity

Iv

800

2000

tled

IF

= 10mA

Peak Emission Wavelength

Xp

630

nm

IF

=>

Spectral Line Half-W,dth

AX

40

nm

IF ""20mA

Forward Voltage. any Segment or D.P.

VF

2.1

Reverse Current, any Segment or D.P.
Luminous Intensity Matching Ratio

UNIT

MAX.

2.8

V

IR

100

tl A

Iv-m

2:1

IF

20 mA

=20 mA

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
·--r- , - , -

50

I

..:

E

40

-E
5

20

'5
S-

12

E
::I

">

40

"

480

28

24

I'-

20

I

o

640

800

720

/

ri
o

/

/
10

15

20

25

30

Forward Current (IF) - rnA

Wavelength ( }. ) - nm
Fig 2 SPECTRAL RESPONSE

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

'\

r--...

12

g 100
E
l'
:;

I'-

U

I
40

60

80

80

r--....

90

"'"

"-

"

........

'\.

........

50

i'"

'"

')

x

20

'\..

I 200

16

o

I\.

500

~

5-67

\

05

E

u
Cl

730

/
560

oc

..:

l'

a

iii
Q;

1

20

o
24

15

/

V

1000
800

..:

8

V

"'0
~

~'"

28

~

25

~

..J

Forward Voltage (V,) - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

E

::-in
:£"

60

g!

20

16

I~

::I

J

o

~.

o

10

Ll.

80

--

--

---

::I

/

"E
l:

'"(;

#.

I

l'

u

r

100

V

30

r-,--

120

r--....

20
10

"D

.....

1
10

20

50

100

10

20

40

DC

Ambient Temperatu.re (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
(AVERAGE IF = l0mA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-S40AHR SERIES
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

900

2000

).Icd

IF = 10 mA

Peak Emission Wavelength

AP

635

nm

IF=20mA

Spectral Line Half-Width

6A

40

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IF

100

).IA

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SD C Ambient Temperature Unless Otherwise Noted)
--r- , - , -

50



40

a:

2Il

iii
Q;

)

o

20

24

480

28

24

E

16

5

12

i-- I--~

.L

V

"'a
c

I
560

E
:>

,
640

-'

"

~

>

iii
Q;
a:

05

o
720

800

~

V

L

V

o

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI

Wavelength I " I - nm
Fig 2 SPECTRAL RESPONSE

"

500



I-I-

o

16

Forward Voltage IV,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

-

~

0
~

'-T-'---

1- -

f

80

S
B-

/

l'

u
"E

100

II

30

,- -

120

g

~

E

"1I

x

~
20

40

60

80

90

l'

5

U

I'

1....... [ ' .

1.i

~

15

E

a:

20
10

"- .....

1
10

20

50

100

10

2Il

40

DC

Ambient Temperature ITal - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHzl
IAVERAGE I, = 10mA PER SEG I

5-68
731

ILITEr.) ~II

LTS-6000 SERIES
0.56 SINGlE DIGIT NUMERIC DISPLAYS

FEATURES
-0.56 INCH (14.2mm) DIGIT HEIGHT.
-CHOICE OF SIX BRIGHT COLORS-RED/BRIGHT
RED / GREEN / YELLOW/ORANGE/HIGH EFFICIENCY RED.
- LOW POWER REQUIREMENT.
- EXCE LLENT CHARACTERS APPEARANCE.
- CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
- EASY MOUNTI NG ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The LTS-6000, series are 0.56 inch (14.2mm) height
single digit displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series devices utilize LED
chips which are made from GaAsP on a transparent GaP
substrate. Red and bright red displays have black face
and red segment color.
Green and yellow displays
Orange
have gray face and white segment color.
displays have orange face and orange segment color.
High efficiency red displays have red face and red
segment color.

DEVICES
PART NO.
RED

5-69
732

..

BRIGHT GREEN YELLOW ORANGE HI.·EFF.
RED
RED

INTERNAL
CIRCUIT
DIAGRAM

DESCRIPTION

LTS-67OOR 6760P

6400G

6860Y

666GE. 6960HR

Common Anode,
Rt. Hand Decimal

LTS-6780R 6780P

6480G

6OO0Y

6680E

6980HR

Common Cathode,
Rt. Hand Decimal

LTs..6775R 6775P

6475G

6875Y

6675E

6975HR

Common Anode,
±10verflow

C

LTs..6795R 6795P

6495G

6OO5Y

6695E

6995HR

Common CathOde,
±10verflow

D

A

.

B

PACKAGE DIMENSION
LTS-6x60/6x80/6x75/6x95

D.

c{?

Pl.

MI·CJ

o~
DP

¢ll.70

(0.067)

1%11.70

(0.067)

NOTE:

millimeters
(inches)

tolerance are:

+1.00
mm
1. Lead length (from seating plane): minimum valum _-_O~.:,,::Oc::O___ 2.
+0.040"
-0.000" )

±0.25mm
(0.010")

un less otherwise noted.

INTERNAL CIRCUIT DIAGRAM
B. LTS-6x80

A. LTS-6x60
10

•

10

C. L TS-6x75
9

•

RDP

RDP

8

D. LTS-6x95
7

8

RDP

5-70
4

5

733

PIN eONNECTION
PIN

CONNECTION

NO.

A. LTS.6x60

B. LTS·6x80

C. LTS·6x75

,9. LTS·6x96

1
2
3
4
5

Cathode E
Cathode D
Common Anode * 1
Cathode C
Cathode D.P
Cathode B
Cathode A
Common Anode *1
Cathode F
Cathode G

Anode E
Anode D
Common Cathode" 1
AnodeC
Anode D,P.
AnodeB
Anode A
Common Cathode *1
Anode.F
AnodeG

Cathode Minus Sign
Anode PI., Mi *2
Cathode C
Anode B.C.Dp *3
Cathode Cp
Cathode B
Anode B.C,Dp *3
Anode PI., Ml. *2
Cathode Plus Sign
No Connection

Arode Minus Sign
Cathode PI., Mi *2
Anode C
Cathode B.C.Dp *3
Anode Dp
Anode B
Cathode B.C.Dp *3
Cathode PI .. Mi. *2
Anode Plus Sign
No Connection

6
7

8
9
10

I\JOTES: 1. Pin 3 & 8 are internally connected.

2. Pin 2 & 8 are Internally connected.
3. Pin 47 are internally connected.

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HI.·EFF.
RED

UNIT

Power Dissipation Per Segment

55

40

75

60

75

75

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

160

60

100

80

100

100

mA

Continuous Forward Current Per Segment

25

15

25

20

25

25

mA

Derating Linear From 25°C Per Segment

0.3

0.18

0.3

0.24

0.3

0.3

mArC

5

5

5

5

5

V

PARAMETER

Reverse Volt~ge Per Segment

5 .

Operating Temperature Range

_ 25°C to + 85°C

Storage Temperature Range

- 2~C to + 85°C

Solder Temperature 1/16 inch Below Seating PI.ane for 3 Seconds at 260°C

5-71
734

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-6700R SERIES
PARAMETER

TEST
CONDiTiON

SYMBOL

MIN.

TYP.

Iv

200

600

~cd

IF = 10 mA

Average Luminous Intensity

UNIT

MAX.

Peak Emission Wavelength

XP

655

nm

IF = 20 mA

Spectral Line Half-Width

AX

24

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

17

Reverse Current, any Segment or D.P.
Luminous Intensity Matching Ratio

2.0

V

IF

IR

100

~A

Iv-m

2'1

=20 mA

VR =5 V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

«

E

-C

100

40

;j!.
30

:;

"0

10

24

480

28

640

05

L_ .
800

720

10

15

20

25

Forward Current (IF) -

Wavelength I A I - nm
Fig 2 SPECTRAL RESPONSE

~

20

«

E
I

'\.

g

16

~

~

12

"
x
:;;
'"
0

C

"-

~

:;
U

1

I

20

40

60

80

90

Ambient Temperatu!e (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200
100
80

rnA

I
I,

1',

r-."

"

I

?:
in
c

l!l

!

15

" "-

.E

50

r"-,

~

0..

30

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

500

24

:;

560

II \

a:

1000
800

28

U

"iD

20

1/

1/
1/

~

>

o
20

V

15

g

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

C

c

E
:J

40

"iD

16

r---

...J

a:

12

25

~

60

0

E

in
c

.f

'"0

>

~

«

?:

:J

g'"

:0
<:;

'-r-

0

20

u.

80

:;
c.
:;

~

U

,

120

g">
"iD

a:

20

............

'" ......
1

10
10

20

50

100

10

20

40

I'DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

5-72
735

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-6700P SERIES
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

300

950

",cd

IF'" 10 mA

Peak Emission Wavelength

II.P

697

nm

IF =:20 mA

Spectral Line Half-Width

611.

90

nm

,IF = 20 mA

Forward Voltage,any Segment or D.P.

VF

2.1

2.8

V

IF "'20mA

Reverse Current. any Segment or" D.P.

IR

100

!J.A

Iv·m

2:1

luminous Intensity Matching Ratio

MAX.

UNIT

VR = 5 V

IF '" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless OtherWise Noted)

50

120

/

«

E
I

-I:

40

il

30

/
V

I!'

5

u
"E
;:

.

20

0

10

LL

100

12

16

80

S0.
S

60

/ \

/

0

"
:;;
~

Qj

a:

J

o



25

...J

500

24

«

U

c:

E

\

1000
800

28

E

£:"
"'"0

I

20

o

20

~
in
c:

r\

r-.
100

Ambient Temperature (Ta) - DC
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA

=

2SoC

LTS-6400G SE R I ES
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

800

2400

~cd

IF = 10 mA

Average Luminous Intensity

UNIT

MAX.

Peak Emission Wavelenqth

?.P

565

nm

IF = 20 mA

Spectral Line Half-Width

6?.

30

nm

IF =20mA

Forward Voltage, any Segment or D.P.

VF

2.1

Reverse Current, any Segment or D.P.
Luminous Intensity Matching Ratio

2.8

V

IR

100

p.A

Iv-m

2:1

IF

=0

20 mA

VR =5V
I~

= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

120

/



40

Qi
ct:

2D

E
e:;

IJ

480

28

V

/

24

500

05

o
560

640

800

720

Wavelength ( ~ ) - nm
Fig 2 SPECTRAL RESPONSE

1000

V

f

o

10

15

20

Forward Current

25

30

(Id - rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

800

"-

20
16
12

"

E
I

x

"-

~
20

40

60

Ambient Temperatu.re (Tal -

E
e
:;
U

')

0..

90

°C

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

"'-

100
80

20

'\

........

""-

.......

50



iii

28

?c

35

nm

IF =20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF'" 20 mA

Reverse Current, any Segment or D.P.

IR

100

j.lA

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

UNIT

VR =5V
IF'" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)

50

120

/
II

«

E

40

-E

30

U

20

"E

~

u.

;J!.

10

16

60

E

g"

40

>

Q;

20

o
24

480

28

Forward Voltage (VF) - Volts
FIg 1 FORWARD CURRENT Vs FORWARD VOLTAGE

2.

E

E
U

1
IJ

560

>

Q;
II:

/

05

\
640

800

720

Wavelength ( }. ) - nm
FIg 2 SPECTRAL RESPONSE

10

15

20

Forward Current (IF) -

25

30

rnA

FIg 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PFR SEGMENT)

I\,

500

~

16

......
12

E
I

,
""" J
I

x

::;:
'"

o

20

40

60

E

100
80

";

50

~

..........

0

\..
200

g

0

o

V

g"

«
20

~

";

15

/

1000
800

28

«

V

:J
-I

0

20

L

25

0

II:

12

c

S"
'"c
:J

)

o

~
iii

L

80

5
S:J

/
V

"~

(;

100

80

90

U

'to...

\..
...........
.......

-'"

"'"

IL

20
10

o

10

20

~

I,

"-

"

50

I,

.......

1

100

10

20

40

DC

5-75
738

Amb,ent Temperature {Tal - °C
Duty Cycle %
Duty Cycle %
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHz)
(AVERAGE IF = lOmA PER SEG)
Vs AMBIENT TEMPERATURE

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA

=

25°C

LTS-6600E SERIES
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

800

2400

!Jcd

IF

= 10 mA

Average Luminous IntensitY

UNIT

MAX.

Peak Emission Wavelength

AP

630

nm

IF

= 20 mA

Spectral Line Half-Width

AA

45

nm

IF

=20 mA

Forward Voltage,any Segment or D.P.

VF

2.1

Reverse Current, any Segment or D.P.
Luminous Intensity Matcning Ratio

2.8

V

IR

100

p,A

Iv-m

2:1

IF =20 mA
VR =5 V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

--

50

-r-

E

-E

40

20

ro

~

10

12

16

in

c

1:

c

E
::>

Qi

20

480

28

Volts

560

/

Il:

\

o

640

Wavelength (

800

720
~

05

) -

/

/

/

iii

o
-

15

">

40

Qi

24

/

-'

II:

20

/

25

~

V

I
o

10

nm

15

20

Forward Current (lFI -

25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

Fig 2 SPECTRAL RESPONSE

1000
800

2.

~

«

20
16

'!'..

u

E
I

g.

"'-

0

~

20

40

60

100
80

5

50

U

~

a.

I

80

90

200

E
l'

~

x

~
o

I\,

500

«

12

o

i':

.~

60

">

28

U

(

-

'"::>0

Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E
l'
5

-

iii

Forward Voltage (V F)

E

--~

0

j

o

- - -- -

.

80

':5
"':5

II

"E

5

;ft

/

5

u.

100

/

30

l'

u

120

I

«

\..

I
...... ~

'\

......

I'\..

I'-..

""

.............

20
10

-

......

1

10

20

50

100

10

20

40

DC

Ambient Temperatu!e (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE IF ~ l0mA PER SEG)

5-76

739

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-6900HR SERIES
PARAMETER

TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

Iv

800

2400

Ited

IF

Average Luminous Intensity

MAX.

= 10 mA

Peak Emission Wavelength

I\.P

635

nm

IF =20 mA

Spectral Line Half·Width

AI\.

45

nm

IF'" 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF =20mA

Reverse Current. any Segment or D ,P.

IR

100

itA

Iv·m

2:1

Luminous Intensity Matching Ratio

VR =5 V
IF'" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient 'Temperature Unless Otherwise Noted)
50

-~-

E

-

40

30

00

i!!

:;
U

20

"E

~

/

10

0

u-

o
12

16

120

-~I-

/
/



40

~

480

28

560

tt:

\

o

640

720

800

Wavelength ( }. ) - nm
Fig 2 SPECTRAL RESPONSE

/

05

/

V

1/
o

10

15

20

25

30

Forward Current (IF) - mA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

E
I

g

"- ~

12

E
~
:;
U

1
o

20

40

I\,

500



;

Q;

10

Q;

20

0:

o

0
12

20

16

24

480

28

E

C'

28

1000
800

24

500

r'-..

20

5

E

"-

16

l'

U

«

I

gr'\..

12

~

"
x
:;;;'"

0

o

o

40

60

80

/ 1\
640

5

50

'"

W
0..

90

/

05

o
800

720

V

V

v

L_ .
o

10

15

20

25

30

Forward Current (I,) - mA
Fig 3 RELATIVE LUMINOUS INTENSitY Vs
FORWARD CURRENT (PER SEGMENT)

II
I!

,

i'.,
~r'\..

I

?;
in
c:

~

!

15

"- ~

E

;"

>

r--.."

-'"

I

20

C'
U

'I

200
100
80

l'

560

0:

Wavelength ( ~ ) - nm
Fig 2 SPECTRAL RESPONSE

Forward Voltage (V,) - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

«

15

~

0
w
>

20

'0

25

~

20

Q;

0:

...........

....... i'-..

1

10
10

20

50

100

10

20

40

DC

Ambient Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ I KHz)
(AVERAGE I, ~ IOmA PER SEG)

5-81

744

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS·3400LP SERIES
PARAMETER

TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

Average luminous Intensity

Iv

300

950

",cd

IF =10mA

Peak Emission Wavelength

1\p

697

nm

IF = 20 mA

Spectral line Half-Width

1>1\

90

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

",A

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF

= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

'20

/

«

E

-E

40

I

30

5

u

-e

20

"

'0

~

u.

o
'2

'6

60

il
J

iii

Qi
rt:

20

/

o

20

24

480

28

560

1:
"'
0
~
~

E

\

/

,5

~

.,

...I

"'"

\

720

..,/

>

\

640

25

~

/ \

40

>

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

Qi
lI:

800

Wavelength I ). ) - nm
Fig 2 SPECTRAL RESPONSE

V

05

o

V r-

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENT)

1000
800

28

500

24

«

I

0

.,

~

.,

r'\

80

5c5

/

~

?:

,00

;j1.

«

E

20

E

E

16

g

I 200
~

5

U

........

'2

o

I

20

40

60

Ambient Temperature (Ta) -

5

50

"'.,'""

20

U

r-.... .......
o

,00
80

~

r-....

"

Cl

E

80

90

°C

Fig 4 MAX ALLOWABLE DC: CURRENT PER SEG
Vs AMBIENT TEMPERATURE

0-

'0

........

r-.... .......
r-

10

20

50

100

Duty Cycle %

Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHz)

5-82
745

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS3400LG SERIES
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

800

2400

#.led

IF'" 10mA

Averaf!!! Luminous Intensity

MAX.

UNIT

Peak Emission Wavelength

~p

565

nm

IF = 20 mA

Spectral Line Half·Width

L>.~

30

nm

IF'" 20mA

Forward Voltage, any Segment or D.P.

VI'

2.1

2.8

V

IF = 20mA

Reverse Current. any Segment or D.P.

IR

100

IJ.A

Iv·m

2:1

Luminous Intensity Matching Ratio

VR =5V
IF'" 20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25D C-Ambient Temperature Unless Otherwise Noted)
50

/

«

E

-E

40

"E
;:'"

0

J1

10

o
16

12

24

«

E

E

i-- I--

20

- t'-.

16

~

!;

U

12

40

<0

5-83

746

a;
a::

20

480

28

I
560

640

800

720

Wavelength I }, ) - nm
Fig 2 SPECTRAL RESPONSE

05

o

500

I

200

I

E

"'

I

~

:9-

40

60

E

100
80

!;

50

~

~

U

80

90

"

i"'-

/

10

"'
1

50

25

30

C'\.

~ ....

10
20

20

"\..

2.

10

15

\.

I"

I'-.

/

II

o

' ........

-'"
<0
D..

~

/

Forward Current (I,) - mA
Fig 3 RELATIVE LUMINOUS INTENSItY Vs
FORWARD CURRENT IPER SEGMENT)

«

1
I
20

15

"
.,">

1000
800

"
X
:;;
'"
o

"
E

o

Cl

o

/

...J

Forward Voltage IV,) - Volts
Fig 1 FORWARO CURRENT Vs FORWARO VOLTAGE

28

"'"

60

">

24

/

25

0

~
a;
a::

20

---

"
.E"

0

II
J

Ll.

in

80

Sc.
S

/

20

?:

100

II

30

~

"

U

--

120

100

10

20

"' "'

.......

40

DC

Ambient Temperature ITa) - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
IAVERAGE I, ~ 10mA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-3400L Y SER I ES
PARAMETER

MIN.

TYP.

Iv

750

2400

/lcd

IF =

10

mA

AP

585

nm

IF =

20

mA

t>A

35

nm

IF

= 20 mA

VF

2.1

2.8

V

IF

= 20 mA

IR

100

/lA

Iv-m

2:1

Average Luminous Intensity

Peak

Emission Wavelength

Spectral Line Half-Width
Forward Voltage, any Segment or

D.P.

D.P.

Reverse Current, any Segment or

TEST
CONDITION

UNIT

SYMBOL

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF

= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)
50

120

/
II

«

E

40

I

-E

30

20

'0

~

0

10

12

16

0:

20

"

>
~
a;

./
o

24

15

480

28

0:

J \
560

o

640

800

-720

o

10

15

20

Forward Current (IF) -

Wavelength I t.. I - nm

Fig 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PFR SEGMENTI

I\,
\.

500

«

E
I

20

r--..

16

......

12

,

X
<0
:;:

o

E
i!!
5

U

11

I

20

40

200

g

""- .......

"

0

o

I

/

05

/

1000
800

I

U

E
:J

40

24

E
i!!
5

/

..J

">

28

E

c

60

~
a;

20

/

25

"'a

0

Forward Voltage (VFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

c

"
E
:J

J

o

in

If

80

Sc.
S

/

ro

u.

if!

I

i!!

5

u

i':

100

60

80

90

.........
100
80
50

~

"

Q.

20

'\

""

I'\.
......~

10

10

20

"'\

"

50

"- ......
1

100

10

20

40

""

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs· DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz I
(AVERAGE IF ~ 10mA PER SEG)

5-84
747

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTS-3400LE SERIES
PARAMETER

TEST

SYMBOL

MIN.

TYP.

Iv

800

2400

/Jcd

IF'" 10mA

Average Luminous Intensity

MAX.

UNIT

CONDITION

Peak Emission Wavelength

i\p

630

nm

IF =20 mA

Spectral Line Half-Width

Ai\.

40

nm

IF'" 20mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF'" 20mA

Reverse Current, anv Segment or D.P.

IR

100

/JA

Iv·m

2:1

Luminous Intensity Matching Ratio

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Notedl
50

E
I

40

-C

30

/

~

~

(;

u.

"#

10

12

16

s-

Qj

20

o
480

28

560

a:

I \

05

o

640

800

720

Wavelength ( }. I - nm
FIg 2 SPECTRAL RESPONSE

f

/

/

V

1/

o

10

15

20

Forward Current

fld -

25

30

rnA

FIg 3 RELATIVE LUMINOUS INTENSity Vs
FORWARD CURRENT (PER SEGMENT I

E
I

'\

g

16

~

12

u

"-

'"

:;;

o

20

I

500

o
x

5-85

/

iii

\.
\.

«

~

748

15

">

40

&

~

20

o

E

::1
...J

~

24

V

V

1000
800

24

8

c

- I-

60

iii

20

25

'"

::1

28

E
I
E

c

::1
0

Forward Voltage (VF ) - Volts
FIg 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

in

e
.EO

o

J

o

~

--- I-

f

80

:;

/
/

20

"'"

100

V

:;
U

---

120

«

40

80

100
80

:;

50

U

~

~
a.

I

60

C
~

90

AmbIent Temperatu!e (Tal - DC
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

"

I

200

.......

'\
I........

I'-.

I'

I,

'\

i'-.

.......

20

......

1

10
10

20

50

100

10

20

40

DC

Duly Cycle %
Duty Cycle %
FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzI
(AVERAGE If ~ 10mA PER SEG I

ILlTE['] ~ II

10804/10304
LTS-I0805A/I0305A SERIES
1.0" SINGLE DIGIT NUMERIC DISPLAYS

FEATURES
.1.0 INCH (25.4mm) DIGIT HEIGHT.
• CONTINUOUS UNIFORM SEGMENTS.
• CHOICE OF THREE BRIGHT COLORS-GREEN/
YELLOW/ORANGE.
• LOW POWER REQUIREMENT.
• EXCELLENT CHARACTERS APPEARANCE.
• HIGH BRIGHTNESS .
• WIDE VIEWING ANGLE .
• SOLID STATE RELIABILITY.
• CATEGORIZED FOR LUMINOUS INTENSITY .
• I.C. COMPATIBLE.
• EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The L TS-l0000 series are 1.0 inch (25.4mm) height
single digit displays.
The and green series devices utilize LED chips which
are made from GaP on a transparent GaP substrate.
The yellow and orange series devices utilize LED chips
which are made from GaAsP on a transparent GaP
substrate. All devices have black face and white segment color.

DEVICES
PART NO. LTSDESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

A

A

A

B

GREEN

YELLOW

ORANGE

MULTI·
COLOR

10804G

10804Y

10804E

-

10304G

10304Y

10304E

-

-

-

-

10805A

Common Anode,
Rt Hand Decimal

B

C

-

-

-

10305A

Common Cathode,
Rt. Hand Decimal

B

0

Common
Rt. Hand
Common
Rt. Hand

Anode.
Decimal
Cathode
Decimal

5-86

749

PACKAGE DIMENSIONS
A.

LTS-1 Ox04

B.

LTS-1 Ox05A

(.~~
~

(~2fe) MIN.

r:

++~------~
1.50

(.060)

"-S4

(.100)

..Jh~.50
0.020)

NOTE: All dimensions are in millimeters tolerance are:
(Inches)
+1.00 mm
1. Lead length (from seating plane): minimum valum __--:-:o~..,;,O..,.O=- 2 ±0.25 mm unless otherwise noted.
+0.040"
. (0.010")
-0.000" )

PIN CONNECTION
PIN
NO.
1
2
3
4

5
6
7
8
9
10
11

12
13
5-87
750

14

CONNECTION
A. LTS-10804
Cathode E
Cathode D
No Pin
Common Anode
Cethode C
Cathode D.P.
No Pin
Cathode B
Cathode A
No Pin
Common Anode
Cathode F
No Pin
Cathode G

B.

LTS-10304

Anode E
Anode D
No Pin
Common Cathode
Anode C
Anode D.P.
No Pin
Anode B
Anode A
No Pin
CommOn Cathode
Anode F
NoPin
Anode G

C. LTS·10805A
Cathode E
Cethode D
No Pin
Common Anode Green
Cethode C
Cathode D.P.
No Pin
Cathode B
Cathode A
No Pin
Common Anode Orange
Cethode F
No Pin
Cathode G

D. L TS.10305A
Anode E
Anode D
No Pin
Common Cathode Green
Anode C
Anode D.P.
No Pin
Anode B
Anode A
NOPin
Common Cathode Orange
Anode F
No Pin
Anode G

INTERNAL CIRCUIT DIAGRAM
A.

B_

LTS-1 0804

LTS-1 0304
4 11

ABCDEFGDP
9

c_

8

5

2

1

12

14

6

9852112146

D_

LTS-1 0805A

LTS-1 0305A

9

8

12

I..

4

11

11 4

14

9

8

5

12

2

6

14

ORANGE

-KJ--GREEN

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

GREEN

YELLOW

ORANGE

UNIT

Power Dissipation Per Segment

120

100

120

mW

Feak Forward Current Per Segment
(1/10 Duty Cycle, O.lms Pulse Width)

100

80

100

mA

Continuous Forward Current Per Segment

25

20

25

mA

Derating Linear From 25° C Per Segment

0.3

0.24

0.3

mAtC

Reverse Voltage Per Segment

10

10

10

V

Operating Temperature Range

_25°C to +85°C

Storage Temperature Range

_25°C to +85°C

Solder Temperature 1/16 inch Below Seatmg Plane for 3 Seconds at 2600 C

5-88
751

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTS-l0000G/10000A (GREEN)

=

2SoC

UNIT

TEST
CONDITION

4.5

mcd

IF; 10 mA

?p

565

nm

IF'" 20 mA

Spectral Line Half·Width

l:i.A

30

nm

I r" 20 mA

Forward Voltage, any Segment

VF

4.2
(2.1l

5.6
( 2.8)

V

If = 20 m.A.

Reverse Current, any Segment

IR

100

JJA

Iv·m

2: 1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous IntensitY

Iv

2.5

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR = 10V
I F= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)

50

/
V

«

E

-t:

40

30

e
20

3
5

u.

?fi.

:;

e

E

&
24

20

cr:

480

28

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

28
24

t:
e:;
U

'"

16

640

800

720

Wavelength ( " ) - nm
Fig. 2 SPECTRAL RESPONSE

o

V
10

15

20

Forward Current

(lFi -

25

3D

rnA

Fig 3 RELATIVE LUMINOUS INTENSitY Vs
FORWARD CURRENT (PER SEGMENT)

\.

«

E

"-

12

"
x
::;;'"

I

"-

D

o

o
560

500

20

o

II

/

05

/

1000
800

....

«

E

IS

'>"

1il
a;

o

20

/

"

40

~~.

/

-'

%!

J
16

c

60

1il

10

12

"'"0

-

2'

-'=

80

o"

/

o

~
~
c
~

100

/

:;

u
'E

---

120

:e:

"-

t:
e
:;
U

I

40

60

80

i'.
.......

50

,

-"

'"'"

Q.

I

20

200
100
80

90

'\.

I

20

~

"'""-

;;

c

~

15

-'=

.......

Q)

'I'

10

>

1il

a;
cr:

"- .....
I'

1
10

20

50

100

10

20

40

DC

Ambient Temperatu!e (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE ~ F = 1 KHz)
(AVERAGE I, = lOrnA PER SEG)

5-89
752

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-l0000Y
PARAMETER

UNIT

TEST
CONDITION

4.5

mcd

IF = 10 mA

585

nm

IF=20mA

35

nm

IF = 20 mA

5.6
(2.8)

V

IF = 20 mA

IR

100

p,A

Iv-m

2:1

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

2.5

Peak Emission Wavelength

AP

Spectral Line Half-Width

I:;

Forward Voltage, any Segment

VF

Reverse Current, any Segment
Luminous Intensity Matching Ratio

A

MAX.

4.2
(2.1)

VR = 10V
IF

=20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)

50

120

j

00:

E

40

-1::

30

~

20

u.

10

16

e

60

E
W

40

>

>

20

o
480

2B

E
I

l'

16

......

12

,

o

640

BOO

720

Wavelength ( A ) -

.......

4

o

o

V
10

nm

15

20

Forward Current (IF) -

Fig 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PFR SEGMENTI

1,\

o

20

40

'\
200

~

x

"

\

560

L

05

00:
20

0

~

J

I)

500

24

00:

U
u

ji;
a;
a:

1000
BOO

28

1::
~
:;

15

~

...J

ji;
a;
a:

24

L

V

'"0

~

20

L

25

w

c

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

c

.s
~

0
w

)
12

~

If

80

:;

II

"E

"~
1;

J!.

/

:;
U

?:

100

II

I

60

........

1::
~
:;
U

~
BO

100
BO
50

........ ~

'\
..........

"

~

"

Cl.

J

90

I'\.

"

........

20
10

~

"

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KH21
IAVERAGE I, ~ 10mA PER SEG I
Vs AMBIENT TEMPERATURE

5-90

753

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTS-10000E/10000A (ORANGE)
PARAMETER
Average luminous Intensity

UNIT

TEST
CONDITION

4.5

mcd

IF

eo

630

nm

IF

= 20 mA

nm

IF = 20 mA

V

IF = 20 mA

SYMBOL

MIN.

TYP.

Iv

2.5

MAX.

Peak Emission Wavelength

lI.P

Spectral Line Half·Width

All.

40

Forward Voltage, any Segment

VF.

4.2
(2.1)

Reverse Current, any Segment

IR

100

fv·m

2: 1

Luminous Intensity MatChing Ratio

5.6
(2.8)

fJ.A

10 mA

VR'" 10V
IF'" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25 0 C Ambient Temperature Unless Otherwise Noted)

--

50

/
/

..:

E

40

I

-E

~
~
U

'"(;~

~

25

g"

40

0;

a:

>

0;

20

o
24

480

28

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

24

I--

- .....

20

E

16

~
U

12

~

"-

"

E
I

g

i'..

"
x

~
o

20

/ \

05

o

640

BOO

720

/
o

/

10

15

20

Forward Current (IF) -

Wavelength ( A I - nm
Fig 2 SPECTRAL RESPONSE.

25

30

mA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT I

500

I

200

I

..:

0

o

560

a:

V

1000
800

28

..:

IS

~

>

20

16

E
..J

g"

j

12

c

60

/

V

0

0

V

/

.E

80

'5
"'5

---

l'l
~

/
/

o

E

~
~
c

f--

(

~

10

u..

100

---

30

20

'E

-,--

120

-r-I~

40

60

E

"'-

~
~
U

'1
I

80

90

100
BO
50

"

'\.

I'-....

"

.......

1ii
0.

1\

I"

""
""

.......

20
1

10
10

20

50

100

10

20

....... r-..,

40

DC

Ambient Temperatu!e (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ 10mA PER SEG )

5-91
754

ILlTE(')~1i

LTD- ~~~ SERIES
0.3" DUAL DIGIT NUMERIC DISPLAYS

FEATURES
-0.3 INCH (7.62mm) DIGIT HEIGHT.
-CONTINUOUS UNIFORM SEGMENTS.
-CHOICE OF THREE BRIGHT COLORS-RED/
BRIGHT RED/GREEN.
_ LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- HIGH CONTRAST.
_ HIGH BRIGHTNESS.
-WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
- COMMON
ANODE OR COMMON CATHODE
MODELS.
_TWO DIGIT PACKAGE SIMPLIFIES ALIGNMENTS
& ASSEMBLY.
o LEADS ON .100" (2.54mm) CENTERS.
- CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
- EASY MOUNTING ON P.C. BOARD.

DESCRIPTION
The LTD-322/323 series are 0.3 inch (7.62 mm) height
dual digit displays.
The red series deVices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series deVices utilize LED chips which are made
from GaP on a transparent GaP substrate. Red, bright
red and green displays have black face and white segment color.

DEVICES
PART NO. LTDDESCRIPTION

INTERNAL
CIRCUIT
DIAGRAM

RED

BRIGHT
RED

GREEN

322R

322P

322G

Common Cathode

A

323R

323P

323G

Common Anode

B

5-92
755

PACKAGE DIMENSIONS

OlGIT1

DIGIT2

A

A

FQ~BFac:'oB
EQC)OCEQC)OC

=
o

<=>
0

8
0.'.

(.400

millimeters
tolerance are:
( inches)
1. Lead length (from seating plane): minimum valum

NOTE: All dimensions are in

+1.00
-0.000 mm
2.
+0.040"
-0.000"

_....::..:.c::.='--_ _

±o. 2 5mm
10.010")

unless otherwise noted.

PIN CONNECTION
PIN
NO.
1

2
3
4

5
6
7

8
9
10

5-93

756

CONNECTION

..

A. LTD·322

B. LTD·323

Anode G
No Pin
Anode A
Anode f,
Common Cathode (Digit 2)
Anode 0
Anode·E
Anode C
Anode B
Common Cathode (Digit 1 )

CathodeG
No Pin
Cathode A
Cathode F
Common Anode (Digit 2)
Cathode 0
Cathode E
Cathode C
Cathode B
Common Anode (Digit 1 )

INTERNAL CIRCUIT DIAGRAM
A. LTD-322

B. LTD-323

DIGIT

1

0

C

B

~

~

A

E

A~

F

A

G

~

0

C

B

A

A

DIGIT

1

E

F

G

A

A

B

.

~,

C

2

5

10

5

10

A

DIGIT

DIGIT 2

E

D

~

F~, G

~

A~, B ,

C~

D

E~,

f ,

G

8

3

9

8

6

4

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BRIGHT
RED

GREEN

UNIT

Power DISSipation Per Segment

55

40

75

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

160

60

100

mA

Continuous Forward Current Per Segment

25

15

25

mA

Derating Lmear From 25°C Per Segment

0.3

0.18

0.3

mAtC

5

5

5

V

PARAMETER

Reverse Voltage Per Segment
Operating Temperature Range

_25° C to +85° C

Storage Temperature Range

_25°C to +85°C

•

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C

5-94

757

ELECTRICAl/OPTICAL CHARACTERISTICS AT TA
LTD-322R/323R

= 25°C

UNIT

TEST
CONDITION

400

).Lcd

IF=10mA

AP

655

nm

IF = 20 mA

Spectral line Half-Width

611.

24

nm

IF = 20 mA

Reverse Current. an y Segment or D.P.

VF

1.7

2.0

.V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

IJ.A

VR =5V

Iv·m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average luminous intensitY

Iv

200

Peak Emission Wavelength

luminous Intensity Matching Ratio

MAX.

IF=20mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

«

E

?F-

-t:

?:

100

40

~

:J

80

'"

:;;
~

0
LL

60

">

40

II:

20

0

10

"'"
-;;

c

E
:J

">

16

20

24

480

2.

Forward Voltage IVFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

24

E
I

20

t:
~
:;

16

U

o 1._
720

640

.

o

800

10

15

20

Forward Current (IF) -

Wavelength ( ). I - nm
FIg 2 SPECTRAL RESPONSE

t"\

'"

0

0

x

'"

E
I

g

'"

~

o

20

25

30

rnA

FIg 3 RELATIVE LUMINOUS INTENSrFY Vs
FORWARD CURRENT (PER SEGMENT)

I

L
!

500

«

12

o

560

/

05

V

V

1000
800

28

«

0:

J \

o

0
12

15

..J

"'"
-;;

v

25

:J
0

SCo
S

20

"0

758

c

:£"

30

U

5-95

1n

\

40

60

~

t:
i!!
:;
U

1
J

80

90

"''""
"
0-

~~

200

,

r-.r--.....

100
80

!

'i'o

20
10

'""

"-

50

o

I.........

...........

.......

r-...

1

10

20

50

laO

10

20

40

i'DC

AmbIent Temperature (Ta) - °C
Duty Cycle %
Duty C;yele %
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLEO/O
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE IF ~ 10mA PER SEG )

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTO - 322P /323P
UNIT

TEST
CONDITION

650

/lcd

IF=10mA

l\p

697

nm

IF =20 mA

Spectral Line Half-Width

lll\

90

nm

IF =20mA

FDrward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF =20mA

Reverse Current, an y Segment or D.P.

IR

100

p.A

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous intensity

Iv

250

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/



I

0

40

~
a;
a:

J

o

80

'5

I
II

~

';
U

*

24

480

28

/ \

~

560

00

"0
~

E

\

''""

\

640

15

"
">

-'

11

V

25

~

.s

L

20

o

20

?:
;;;

In

100

a;
a:

800

720

05

V

/'

10

,..,...-

15

20

25

30

Forward Voltage IV,I - Volts

Wavelength I }. I - nm.

Forward Current (1,1 - rnA

Fig. 1 FORWARD CURRENT Vs FORWARD VOLTAGE

Fig 2 SPECTRAL RESPONSE.

Fig 3 RELATIVE. LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT IPER SEGMENT!.

1000
800

26

500

24



80

°C

90

200

"

......
..........

r-... . . .

20
10
10

20

50

100

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl

5-96
759

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-322G/323G

= 2SoC
UNIT

TEST
CONOITION

1600

}lcd

IF=10mA

i\p

565

nm

IF =20mA

Spectral Line Half-Width

Ai\

30

nm

IF'" 20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF =20mA

Reverse Current, any Segment or D.P.

IR

100

}lA

Iv-m

2:1

SVMBOL

MIN.

TYP.

Average Luminous, intensity

Iv

600

Peak Emission Wavelength

PARAMETER

Luminous IntensitY Matching Ratio

MAX.

VR "'5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)
50

E

/

40

30

U

20

"E

~

(;

10

u.

?f'.

12

16

0

-'

">

40

0:

20

~
a;

o
24

480

28

24

~

";

U

20

12

"

0

x

~

5-97

760

o
560

640

720

800

Wavelength ( A ) - nm
Fig 2 SPECTRAL RESPONSE

f

I

V

V

o

10

15

20

25

30

Forward Current ifF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSI"FY Vs
FORWARD CURRENT (PER SEGMENTI

1\

«

"

'6

o

1/

05

500

f',

I

E

">
"0:'"
a;

1000
800

28

E

V
'5

~

Forward Voltage (VFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

E

~

20

/
/V

~

c

60

---

25

"
E
'"0

80

e

)

o

~

c

:;

/
II

~

";

1':

100

V

I

-C

--,

120

«

o

E
I

;g

"r'\ '1

C
~

";

U

40

60

80

'00
80

"-

"

1':
~

I'

50

c

S

r-....

7;i
~

I

20

200

90

Ambient Temperature (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

\

'\

'5

~

.5

i"'"

1'. .

20

">

~
a;

II:

"-

"-

,

'0
10

20

50

100

'0

20

40

'"
DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE IF ~ 10mA PER SEG)

ILITEr.] ~ II

LTD- :~~~~ SERIES
0.4" DUAL DIGIT NUMERIC DISPLAYS

FEATURES
-0.4 INCH (10.21 mm) DIGIT HEIGHT.
-CONTINUOUS UNIFORM SEGMENTS.
-CHOICE OF FOUR BRIGHT COLORS-RED /
BRIGHT RED/GREEN/ORANGE.
- LOW POWER REqUIREMENT.
- EXCE LLENT CHARACTERS APPEARANCE.
- HIGH CONTRAST.
- HIGH BRIGHTNESS .
• WIDE VIEWING ANGLE.
- SOLID STATE RELIABI L1TY.
-COMMON
ANODE OR COMMON CATHODE
MODELS.
-TWO DIGIT PACKAGE SIMPLIFIES ALIGNMENTS
& ASSEMBLY.
_ LEADS ON .100" (2.54mm) CENTERS.
- CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
-EASY MOUNTING ON P.C. BOARD.

DESCRIPTION
The LTD-432XC/482XC series are 0.4 inch 11021mml
height dual digit di splays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The orange
series devices utilize LED chips which are made from
GaAsP on a transparent GaP substrate. Red, bright
red and orange displays have red cap. Green displays
have green cap.

DEVICE
PART NO. lTDDESCRIPTION

INTERNAL
CIRCUIT
DIAGRAM

RED

BRIGHT
RED.

GREEN

ORANGE

432RC

432PC

432GC

432EC

Common Cathode

A

482RC

482PC

482GC

482EC

Common Anode

B
5-98
761

PACKAGE DIMENSIONS

PIN
NO.1

Irt'===;::::=====*===~

8

(.5001

NOTE: All dimensions are in

millimeters
(inches)

tolerance are:
+1.00
mm
-0.00
2
+0.040"
.
-0.000" )

-~.,;-

1. Lead length (from seating plane): minimum valum

±0.25mm
(0.010")

unless otherwise noted.

PIN CONNECTION
CONNECTION
PIN NO.

1
2
3
4

5
6
7

8
9
10

11
12
13
14
15

16
5-99
762

\

A. L TD-432XC

B. L TD-482XC

Anode C (Digit 1 )
Anode E (Digit 1)
Anode 0 (Digit 1 )
Common Cathode (Digit 1 )
Common Cathode (Digit 2)
Anode 0 (Digit 2)
Anode E (Digit 2)
Anode C (Digit 2)
Anode G (Gigit 2)
Anode A (Digit 2)
Anode F (Digit 2)
Anode B (Digit 2)
Anode B (Digit 1)
Anode F (Digit 1 )
Anode A (Digit 1 )
Anode G (Digit 1)

Cathode C (Digit 1)
Cathode E (Digit 1)
Cathode 0 (Digit 1)
Common Anode (Digit 1 )
Common Anode (Digit 2)
Cathode 0 (Digit 2)
Cathode E (Digit 2)
Cathode C (Digit 2)
Cathode G (Digit 2)
Cathode A (Digit 2)
Cathode F (Digit 2)
Cathode B (Digit 2)
Cathode B (Digit 1 )
Cathode F (Digit 1)
Cathode A (Digit 1 )
Cathode G (Digit 1 )

INTERNAL CIRCUIT DIAGRAM
A. LTD-432XC
16

15

B. LTD-482XC
14

13

12

11

10

16

9

15

14

13

12

11

10

9

B

c

2

2345678

ABSOLUTE MAXIMUM RATINGS AT TA

=

3

4

5

6

8

25°C

RED

BRIGHT
RED

GREEN

ORANGE

UNIT

Power Dissipation Per Segment

55

40

75

75

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

160

60

100

100

mA

Continuous Forward Current Per Segment

25

15

25

25

mA

Derating Linear From 25° C Per Segment

0.3

0.18

0.3

0.3

mArC

5

5

5

5

V

PARAMETER

Reverse Voltage Per Segment
Operating Temperature Range

-2~ C to +850 C

Storage Temperature Range

-2~ C to +85° C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C

5-100

763

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD·432RC/482RC SERIES
PARAMETER

=

25°C

TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

Iv

100

300

/lcd

IF = 10 rnA

Average Luminous Intensity

MAX.

Peak Emission Wavelength

~p

655

nm

IF'" 20 rnA

Spectral Une Half-Width

AA

24

nm

IF'" 20 rnA

Forward Voltage Segment or D.P.

VF

1.7

2.0

V

IF = 20 rnA

100

/lA

Reverse Current

any Segment or D.P.

IR
Iv-m

Luminous Intensity Matching Ratio

VR =5V

,

2:1

IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C

Ambient Temperature Unless Otherwise Noted)
50

'20

40

'00

«

E

#.

-1':

30

s-

5

"0

20

0

,0

iii
a;

ro
~

0
L.L.

0
'2

,6

c

60

24

'>"

40

0::

20

'">

iii
a;

V 1\

480

2B

24

«

E

i-- I--

-

20

~

5

U

"

«

E

'2

I

r'-..

x
4

20

40

60

1':

"'1I
BO

90

Ambient Temperature (Tal - DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

5-101

200

g.

"
'"

o
BOO

720

1- _

o

10

15

20

25

Forward Current (IF) -

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT !PER SEGMENTI

r

500

0

:2

640

V

V

1/

1000
BOO

"-

1': '6

560

1/

05

0::

Wavelength I ~ I - nm
Fig_ 2 SPECTRAL RESPONSE

Forward Vollage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

2B

,5

E
::>

...J

o
20

25

~

:£'"
::>
'"0

::>

u

764

i':

BO

S

~

,

~

5

U

""~'"

'00

,

I"-r-..

I

i':

f'..,

in

BO

50

1'"
20
'0

1

ec
E
'">

!

'5

'"

-- ~

iii

a;

0::

,
1Q

20

50

100

'0

"""" ...... ,....,
20

40

j..
DC

Duty Cycle %
Duty yycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLEO/O
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 10mA PER SEG I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-432PC/482PC SERIES
PARAMETER

=

25°C

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

200

500

!led

IF = 10 mA

Average Luminous Intensity

MAX.

UNIT

Peak Emission' Wavelength

~p

697

nm

IF=20mA

Spectral Line Half-Width

"'~

90

nm

IF = 20 mA

Forward Voltage Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

., Reverse Current any Segment or D.P.

IR

100

!lA

Iv-m

2:1

Luminous Intensity

M~tehing

Ratio'

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

'20

/
/

«

E

40

I

-E

20

~

(;

c.

5

o

~

'6

"

~'"

20

/

o

20

24

'"
~

0

c

E

\

480

28

/

Wavelength ( ).. ) - nm
Fig 2 SPECTRAL RESPONSE

05

V

./'"

10

v

15

"""'"

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

1000
800

28

500

24

«

E

20

I 200

I

g

E '6
~
:;
U

II:

800

Forward Voltage (V,) - Volts

E

iii



\

640

560

,5

~

...J

40

J
'2

II

25

.E'"

/ 1\

60

o

'0

u.

80

~

/
/

:;
'E

cF.

;;;
c

In

30

~

U

i':

'00

........

'2

E
~
:;

........

"

0

x

........

£1

o

U
-'"

i'-.

• j
o

20

40

60

80

'"
~

'00
80

......

......

50

.........

i'-.

20

~

,0
90

10

20

50

100

Amblent,Temperatu.re (Ta) - DC
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)

5-102

765

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-432GC/482GC SERIES
PARAMETER

=

2SoC

MIN.

TYP.

Average Luminous Intensity

Iv

500

1100

/Lcd

IF=10mA

Peak Emission Wavelength

AP

565

nm

IF = 20 mA

Spectral Line Half-Width

AA

30

nm

IF'" 20 mA

Forward Voltage Segment or D.P.

VF

2.1

Reverse Current any Segment or D.P.
Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

2.8

V

IR

100

/LA

Iv-m

2:1

IF

= 20 mA

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

/

..:

E

40

-t:

i:'

100

;J

if

in

c:

:£"
'"
0

80

30

(;

u.

5c.
5

/

5

"~

20

/

g"

20

o
24

480

28

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

16

"-

l!!

U

12

"

E
I

g

"- f'.

5-103

~

I

o

/

/
10

15

20

25

30

Forward Current (IF) - rnA

Fig 3 RELATIVE LUMINOUS INTENSI'FY Vs
FORWARD CURRENT (PER SEGMENT)

'\.
'\.

4

20

40

60

5

50

80

i:'

~

in

.......

c:

r-...

.>t.

2l

"

90

'\

15

E

I'\..

" "-

'">

..............
i'



40

>

J
16

E
:J

-'

Oi

12

c:

-

60

0

10

o

5

/

:J

l!!

u

/

25

20

"


40

a:

20

iii
Q;

/

25

.!:

/

'"0
c

I-

E

1S

'">

iii
Q;

480

28

I
560

a:

\

o

640

720

800

500

o

10

15

20

Forward Current (IF) -

Wavelength ( " ) - nm
Fig 2 SPECTRAL RESPONSE

24

I

05

/

/

"

o

20

1000

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

800

"-

20

I
~
~
U

c

--

~

-'

28

..;

E

-

60

Co

0;

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

-

0

J
16

---

c-oo
~

10

12

r - 1-

T

80

0;

/

o

-

-~,-.----c--

100



60

">

40

0;
0:

20

4BO

2B

E

E

16

g

'5

12

I

I
~

f'.

">

\

0;
0:

BOO

../

,,-

~

/

iii

\

720

"
05

I
10

15

20

Forward Current (IF) -

Wavelength I }. ) - nm
Fig. 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSitY Vs
FORWARD CURRENT IPER SEGMENTI

U

r---. f'....

x

•
o

I
20

40

60

200

E
~
'5

r---.

0

o

..J

«

20

:<'"

'"::>0

"
E
::>

\

/

2.

500

24

U
u

/ 1\

640

560

"
.£"

1000
BOO

2B

E

/

o
2.

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE.

«

I

iii

20

in

In

0

j

,.

?:

100

80

90

Ambient Temperature ITal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

100
BO

......

......

50

...........

7.i

a.
"

20

I'-.. r-...

10
10

20

50

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F = 1 KHzl

5108

771

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-524G SER I ES
PARAMETER

=

25°C

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

700

1800

p.cd

I F= 10mA

Peak Emission Wavelength

AP

565

nm

I F= 20mA

Spectral Line Half-Width

AA

30

nm

I F= 20mA

Forward Voltage, any Segment

VF

2.1

2.8

V

I F=20 mA

Reverse Current, any Segment

IR

100

p.A

Iv·m

2:1

Luminous Intensity Matching Ratio

UNIT

MAX.

VR"'5V
I F=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

1

«

E

-E

40

l'

20

~

E:J

12

16

6'

">

40

II:

20

~
a;

24

48.

28

28

1000

500

20

E
l'
:;

16

U

~
a;

II:

11

05

o
56.

720

640

80.

Wavelength I ~ I - nm
Fig 2 SPECTRAL RESPONSE

24

E

">

o
20

IS

..J

Forward Voltage IV,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

E
:J

0

)

o

L

:J
0
~

V

/

V

~

10

U.

25

.E"

8.

S

II

10
i5

1l'1

1

:;
U

in
~

V

30

?:

100

~

/

V

II

o

10

15

20

25

30

Forward Current lid - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT !PER SEGMENTI.

8.0

r"-

12

E

"'

I 2.0

g
~

"

0

x

~
20

40

1,\
\.

«

60

r"-

E
l'
:;
U

')

80

"" .......
,.0
80

'\

.......

r-....

5.

~

"

Q.

I

90

20

......

, r...

I.

1"'-.

"'

"

......

1

10

20

50

100

10

20

40

DC

Ambient Temperatu,re ITa I - °C
Duty Cycle %
Duty Cycle 0/0
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHzl
IAVERAGE If = lOmA PER SEG I

5·109
772

ILITE[']~II

LTD- 535 SERIES
585
0.5" DUAL DIGIT NUMERIC DISPLAYS

FEATURES
-0.5 INCH (12.7mm) DIGIT HEIGHT.
-CONTINUOUS UNIFORM SEGMENTS.
-CHOICE OF SIX BRIGHT COLORS-RED/BRIGHT
RED/GREEN/YELLOW/ORANGE/HIGH EFFICIENCY RED.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- HIGH CONTRAST.
- HIGH BRIGHTNESS.
-WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
-COMMON ANODE OR COMMON CATHODE
MODELS.
-TWO DIGIT PACKAGE SIMPLIFIES ALIGNMENTS
& ASSEMBLY.
- CATEGORIZED FOR LUMINOUS INTENSITY.
-,I.C_ COMPATIBLE.
- EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCR IPTION
The L TD-535/585 series are 0.5 inch (12.7mm) height
dual digit displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are rllade
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series devices utilize LED
chips which are made from GaAsP on a transparent
GaP substrate.
Red, bright red, green, yellow and
orange displays have black face and white segment
color. High efficiency red displays have red face and
red segment color.

DEVICES
PART NO. L TDDESCRIPTION

INTERNAL
CIRCUIT
DIAGRAM

RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HI.-EFF_
RED

535R

535P

535G

535Y

535E

535HR

Common Cathode, Rt. Hand Decimal

A

585R

585P

585G

585Y

585E

585HR

Common Anode, Rt. Hand Decimal

B
5-110
773

PACKAGE DIMENSIONS

PIN

NO.1

'---+-1----!----T'

1:2 70J

Cl)1.50

0

10"

( .500)

(0.059)

lTD5X5
TXXX

15.24

( .600

NOTE: All dimensions are in

millimeters
(inches)

tolerance are:

+1.00

mm
-0.00
2.
1. Lead length (from seating plane): minimum valum --=-='-=-+0.040"
-0.000" )

±0.25mm
(0.010")

unless otherwise noted.

PIN CONNECTION
CONNECTION
PIN NO.

1
2
3
4

5
6
7

8
9
10
11
12
13
14

15
16
17

18
5·111

774

"

A. LTD·535

B. LTD·585

Anode C (Digit 1 )
Anode E (Digit 1 )
Anode D (Digit 1)
Common Cathode (Digit 1 )
Common Cathode (Digit 2)
Anode D (Digit 2)
Anode E (Digit 21
Anode C (Digit 21
Anode D.P. (Digit 2)
Anode G (Gigit 2)
Anode A (Digit 2)
Anode F (Digit 21
Anode B (Digit 2)
Anode B (Digit 11
Anode F (Digit 1)
Anode A (Digit 1)
Anode G (Digit 11
Anode D.P. (Digit 1)

Cathode C (Digit 1 )
Cathode E (Digit 1 )
Cathode 0 (Qigit 1)
Common Anode (Digit 1)
Common Anode (Digit 2)
Cathode D (Digit 2)
Cathode E (Digit 2)
Cathode C (Digit 21
Cathode D.P. (Digit 2)
Cathode G (Digit 2)
Cathode A (Digit 2)
Cathode F (Digit 2)
Cathode B (Digit 2)
Cathode B (Digit 1)
Cathode F (Digit 1)
Cathode A (Digit 11
Cathode G (Digit 1)
Cathode D.P. (Digit. 11

INTERNAL CIRCUIT DIAGRAM
B. LTD-585

A. LTD-535
18

17

16

15

14

13

12

23456

11

18

10

17

16

15

14

13

12

11

10

89
23456789

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HI.-EFF.
RED

UNIT

Power Dissipation Per Segment

55

40

75

60

75

75

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle. 0.1 ms Pulse Width)

160

60

100

80

100

100

mA

Continuous Forward Current Per Segment

25

15

25

20

25

25

mA

Derating Linear From 25 C Per Segment

0.3

0.18

0.3

0.24

0.3

0.3

mArC

5

5

5

5

5

5

V

PARAMETER

Q

Reverse Voltage Per Segment
Operating Temperature Range

_250 C to +8~ C

Storage Temperature Range

_25°C to +85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 2600 C

5-112

775

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTD-535R/585R
PARAMETER

SYMBOL

MIN.

TYP.

Iv

200

500

Average Luminous Intensity
Peak Emission Wavelength

r..P

Spectral Line Half-Width

"'r..

-- ---,

-------- -------

IF"" 10mA

.--------~---

,_¥

nm

.-

nm

IF = 20 mA

--------1.7
_.-

- ,---

--.

~--~~--.

IR

100

Iv-m

2:1

--

-,

V

2.0

~~-

IF"" 20 mA

--------~

24

-~~------

Luminous Intensity Matching Ratio

.-~

655

VF

Forward Voltage Segment or D.P.
Reverse Current any Segment or D.P.

,tIcd

---- 1------

TEST
CONDITION

UNIT

MAX.

IF = 20 mA

-- -----

.

--VR = 5V

pA

IF = 20 mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

«

100

E
I

40

-E

30

U

20

0

10

>
~
a;



LL

c

E
::>

"

"

40

rc

20

>
~
a;

o
12

16

20

24

Forward Voltage (V,) -

480

28

Volts

E
l!!
5

U
u
Cl

1000
800

24

500

~

16

E
I

"~

.

x
:;;

o

o

E
l!!
5

U

40

60

'I

Ambient Temperatu.re (Ta) -

80

776

"

Il..

90

°C

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

5-113

o
800

720

I ..
o

15

20

25

Forward Current (IF) -

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

,

r--"

100
80

c

E

.....

20

!

15

,--......

E

'r-o

I

>

ii

50

10

10

!

~

I

20

640

/

05

1',

200

E-

[\..

/

/

V

1

«

12

V \

Fig 2 SPECTRAL RESPONSE

28

20

560

rc

Wavelength ( }. ) - nm

Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

15

..J

0

«

E

~

"E
C;

"\

80

25

C

E
::>

"~
~

i:"
;;;

..........

">

..........

~
rc

a;

....... ....
1'-1--

1

10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE· F ~ 1 KHz)
(AVERAGE I, ~ lOrnA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-535P /585P
PARAMETER

=

25°C

MIN.

TYP.

Iv

300

750

}.lcd

IF = 10 mA

Average Luminous Intensity

MAX.

TEST
CONDITION

SYMBOL

UNIT

Peak Emission Wavelength

AP

697

nm

IF =20mA

Spectral Line Half-Width

"A

90

nm

IF = 20 mA

Forward Voltage Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current any Segment or D.P.

IR

100

}.lA

Iv-m

2:1

Luminous Intensity Matching Ratio

VR = 5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

I
II

«

E
I

-E

40
30

~

U

.,

"E
i:
(;

LL

;j?

20

o

16

>

~
a;

24

Forward Voltage (VF )

-

o

28

480

Volts

V

">

~
a;

\

640

0::

800

720

28

1000

500

V

05

o

o

L

10

v
15

~

20

Forward Current (IF) -

Fig. 2 SPECTRAL RESPONSE

2.

15

:J
...J

Wavelength ( }. ) - nm

Fig 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSI"FY Vs
FORWARD CURRENT (PER SEGMENT)

800

«

«

E
I 200

E 20

g

E 16
~

:; 12

.........

U
u

.,x
o

20

40

r-...

I

60

Ambient Temperature (Tal -

100
80

:;

50

U

~

:;;

E
~

~

0

o

560

:J

"
E

11

I

20

0::

20

,

II

25

"a>

5
'"0

I 1\

40

a>

)
12

80

60
E:J
a

II

10

in

In

S

I

:;

~

100

80

°C

90

"

.........

~

a>

a..

.........
20

........

I'
10
10

20

50

100

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KH21

5-114
777

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-535G/585G
PARAMETER

=

25°C

MAX,

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

750

2000

tLcd

IF '" 10 rnA

Peak Emission Wavelength

;\.p

565

nm

IF'" 20 rnA

Spectral Line Half-Width

A;\.

30

nm

IF'" 20 mA

Forward Voltage Segment or D.P:

VF

2.1

2.8

V

IF'" 20 rnA

Reverse Current any Segment or D.P.

IR

100

jJA

Iv-m

2:1

Luminous Intensity Matching Ratio

UNIT

VR =5V
IF = 20 rnA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

E

/

40

~

20

is

10

16

12

">

lS

iii

0;

20

o

0::

L--U~

480

2B

__

L-~~

560

__

640

~~

__

720

OS

o

800

Wavelength ( }. I - nm
Fig 2 SPECTRAL RESPONSE

~.

/

L

V

V

'I'

l

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI.

1000
BOO
~~

......
«
I

g

"

E
~
5

[\..

.,x

::;;

o

20

40

'\

E

16
12

1\

500

l' ,''-

20

o

V

"
">

40

0::

2B
24

E

iii

24

L

2S

--'

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

U
u
0

"'"ac:

50

0;

20

c:

-

-

E

0

)

o

E
~
5

-- ---

BO

5
"5

II

L1.

E

- - --

::in
!!l

;f

I

5

«

~- -

30

u
"E

~

r-- -

100

II

I

-E

--

120

«

1

I

60

80

90

U
-"

.,
"

11.

200
100
BO

::in

r"-

c

I......

!!l

50

~

15

E

I"-...

.............
i'

20

~

">

10

~

0;
0::

1
10

20

50

100

10

20

"

"
40

.....
i'
DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = lOrnA PER SEG)
Vs AMBIENT TEMPERATURE

5-115

778

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD·535Y /585Y
PARAMETER

=

2SoC

MIN.

TYP.

Average Luminous Intensity

Iv

600

2000

/lcd

IF = 10 mA

Peak Emission Wavelength

AP

585

nm

IF = 20 mA

Spectral Line Half-Width

AA

35

nm

IF = 20 mA

Forward Voltage Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current any Segment or D.P.

JR

100

/lA

Iv-m

2:1

Luminous IntensitY Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

"EI

40

-E

30

/

II

20

'E
;:
'"

5

12

16

If

80

S

e

~

E

0)

40

>

Q;

o
-

480

28

Volts

e

:;
U

J \
560

640

10

800

720

/

I

/

05

15

20

Forward Current (IF) -

nm

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PFR SEGMENT)

Fig 2 SPECTRAL RESPONSE

,\.

500

"

""
'"

12

"

0

x
~
o

a:

/

1000
800

24

16

iii
a;

Wavelength ( }. ) -

28

E

'">

I

20

a:

24

1

15

::J
..J

iii

Forward Voltage (V F )

20

'"0

60

Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

"E

:s'"

::J

20

/

25

~

0

J

o

~

::J

II

10

Ll.

~

I

~

:;
U

?:

100

o

E
I

E
~
:;

.........

U

"'I.

I

20

40

60

Ambient Temperature ITal -

........

80

°c

90

?:
~

100
80
50

~

...........

e
E-

......

-"

'"

20
10
10

20

Duty Cycle %

15

"-

1""-

"' "-

O)

>

"

iii

:"'-

0)

a.

"'

200

g

50

Q;

a:

......

1
100

10

20

40

DC

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE IF ~ lOrnA PER SEG)

5-116
779

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTO-535E/585E
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

750

2000

pcd

IF

Peak Emission Wavelength

xp

630

nm

IF = 20 rnA

Spectral line Half-Width

AX

40

nm

IF = 20 rnA

Forward Voltage Segment or D.P.

VF

2.1

2.8

V

IF = 20 rnA

Reverse Current any Segment or D.P.

IR

100

pA

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

= 10 rnA

VR '" 5V
IF =20 rnA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)
--

50

E

40

V

I

-C

30

Q)

20

'E

~
5
Ll.

10

1.2

16

,-- , - , -

100

I - - I-- I -

f

80

505

C
I!!
5

U

-

Q)

24

c:

40

II:

20

~

x

~

560

I

II:

\
800

120

/

os
o

840

Wavelength ( }. I - nm
Fig 2 SPECTRAL RESPONSE

40

60

200

E-

"-

c

100
80

5

50

I!!

U

'1

V
o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

'\.

80

.....

,
-......

,

Q)

90

'\.

I

'"OJ
a.

I

20

iii
Q;

500

"

o

/

>

480

q;
E
I

0

o

15

1000
800

"

12

/

Q)

>

28

~

16

/"

E
'"0
E
:J

o

20

/

25

---'

iii
Q;

.....

20

c:
Q)

0

28
24

0;

60

Forward Voltage (V,I - Volts
Fig I FORWARD CURRENT Vs FORWARD VOLTAGE

q;
E

~

:J

J

o

120



"
OJ

Q;
II:

.....

1

10
10

20

50

100

10

20

40

DC

Ambient Temperatu!e (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE '0
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = I KHz I
(AVERAGE I, = IOmA PER SEG I

5-117

780

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-535HR/585HR
PARAMETER

=

25°C

TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

750

2000

/lcd

IF = 10 rnA

Peak Emission Wavelength

Xp

635

nm

IF = 20 rnA

Spectral Line Half-Width

"'x

40

nm

IF =20 rnA

Forward Voltage Segment or D.P.

VF

2.1

2.8

V

IF = 20 rnA

Reverse Current any Segment or D.P.

IR

100

/lA

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF = 20 rnA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)

---,-

50

E

40

-E

~

20

~

:;
B-

24

«:

E

~
U

-

"

40

>

Q;

a:

Q;

20

480

28

560

a:

\

05

o

640

800

720

V
o

10

15

20

Forward Current (IF) -

Wavelength ( A I - nm
Fig 2 SPECTRAL RESPONSE

25

30

mA

Fig 3 RELATIVE LUMINOUS INTENSI'FY Vs
FORWARD CURRENT (PER SEGMENTI

'2

E
I

"-

(J

x

~

E
~
:;
U

')

60

80

.......
'00
80
50

"'

'\
.......

~

'"

0-

I
40

200

g

i'..

Cl

20

'\
'\.

500

«:

"

'6

o

I

o
24

/

iii

/

/

/

~

"

~

20

o

c
E ,5

I-

V

1000
800

I

E

0

..J

Forward Voltage IV,I - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

28

/

~

iii

20

'6

-

60

>

)

,2

E

~

'0

o

r

80

25

~

0

/

"E

::-u;
~

I

~

:;

C;
u.

'20

'00

V

30

U

,---

I

«:

90

I"'-

I"~

r'--.. .

'0 o

,
10

20

50

100

.......

"'

20

'0

20

40

DC

Ambient Temperatufe (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 10mA PER SEG I
Vs AMBIENT TEMPERATURE

5-118
781

ILlTErl] ~ II

LTD-5250 SERIES
5260
0.52" DUAL DIGIT NUMERIC DISPLAYS

FEATURES
-0.52 INCH (13.2mm) DIGIT HEIGHT.
-CONTINUOUS UNIFORM SEGMENTS.
- CHOICE OF SIX BRIGHT COLORS·RED/BRIGHT
RED/GREEN/YELLOW/ORANGE/HIGH EFFICIEN·
CY RED.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- HIGH BRIGHTNESS.
-WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
-CATEGORIZED FOR LUMINOUS INTENSITY.
-I.C. COMPATIBLE.
- EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The LTD·5000 series are 0.52 Inch (13.2mm) height
dual digit displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red, and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series devices are utilize
LED chips which are made from GaAsP on a transparent
GaP substrate.
Red, bright red, yellow and orange
displays have gray face and white segment color. Green
displays have gray face and green segment color. High
efficiency red displays have red face and red segment
color.

DEVICES
PART NO. LTORED

5·119

782

BRIGHT
HI.·EFF.
GREEN YELLOW ORANGE
RED
RED

DESCRIPTION

INTERNAL
CIRCUIT
DIAGRAM

5250R

5250P

5250G

5250Y

5250E

5250HR

Common Anode, Rt. Hand Decimal

A

5260R

5260P

5260G

5260Y

5260E

5260HR

Common Cathode. Rt. Hand Decimal

B

PACKAGE DIMENSIONS

F~B@

E~~~T{p

PIN NO. 1

DIGIT 1

..
millimeters
NOTE: All dimensions are In (inches)

tolerance are:

1. Lead length (from seating plane): minimum valum

DIGIT 2

+1.00
=o:oomm

to.040n )

±0.25mm
2. (O.01O n) unless otherwise noted.

-O.OOOn

PIN CONNECTION
CONNECTION
PIN NO.

1
2

3
4

5
6

7

8
9
10
11
12
13
14

15
16

17
18

LTC-5250

LTC-5260

Cathode E (Digit 1)
Cathode 0 (Digit 1)
Cathode C (D igit 1)
Cathode D.P. (Digit 1)
Cathode E (Digit 2)
Cathode 0 (Digit 2)
Cathode G (Digit 2)
Cathode C (Digit 2)
Cathode 0 P (Digit 2)
Cathode B (Digit 2)
Cathode A (Digit 2)
Cathode F (Digit 2)
Common Anode (Digit 2)
Common Anode (D igit 1)
Cathode B (D iglt 1)
Cathode A (Digit 1)
CathodeG (Digit 1)
Cathode F (Digit 1)

Anode E (Digit 1)
Anode 0 (Digit 1)
Anode C (Digit 1)
Anode D.P. (Digit 1)
Anode E (Digit 2)
Anode 0 (Digit 2)
Anode G (Digit 2)
Anode C (Digit 2)
Anode D.P. (Digit 2)
Anode B (Digit 2)
Anode A (Digit 2)
Anode F (Digit 2)
Common Cathode (Digit 2)
Common Cathode (Digit 1)
Anode B (Digit 1)
Anode A (Digit 1)
AnodeG (Digit 1)
Anode F (Digit 1)

5120

783

INTERNAL CIRCUIT DIAGRAM
A. LTD-5250
18

B. LTD-5260
17

16

15

14

13

3

4

5

6

12

11

10

8

9

18

ABSOLUTE MAXIMUM RATINGS AT TA

=

BRIGHT
RED

Power Dissipation Per Segment

55

40

75

Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

160

60

Continuous Forward Current Per Segment

25

Derating Linear From 25° C Per Segment
Reverse Voltage Per Segment

5-121

15

3

4

14

13

12

11

10

8

9

ORANGE

HI.-EFF.
RED

UNIT

60

75

75

mW

100

80

100

100

mA

15

25

20

25

25

mA

0.3

0.18

0.3

0.24

0.3

0.3

mArC;

5

5

5

5

5

5

V

GREEN YELLOW

Operating Temperature Range

-25"C to +85°(:

Storage Temperature Range

-25°C to +85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C

784

16

2SoC

RED

PARAMETER

17

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-5250R/5260R
PARAMETER

= 25°C

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

200

500

/-Icd

I F= 10 mA

Peak Emission Wavelength

AP

655

nm

I F= 20 mA

Spectral Line Half-Width

A"A

24

nm

IF'" 20 mA

Forward Voltage, any Segment

VF

1.7

2.0

V

IF'" 20 mA

Reverse Current, any Segment

IR

100

/-IA

Iv-m

2:1

Luminous I ntensity Matching Ratio

MAX.

UNIT

VR=5V
I F= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

«

E

100

40

I

-C

#

S

E

~

0

10

iii
Qi

c--

40

cr:

I.L

20

24

Forward Voltage (VFl -

480

28

28

1000
800

24

500

1'-

20

5"
U

«

E

"i'I.

I

E

16
12

I

"

['..

"

0

x

'"

:2

o

o

40

60

E

100
80

5

50

U

'I
80

640

1\

"'"

0.

90

Ambient Temperature (Tal - DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE.

t-05

o
800

720

o

lL

~

10

~

15

v

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

U
I!

I'..r-...
i':
;;;

"

c

S

.....

20

15

"- ~

E

'I'

-"

I

20

200

g
~

560

Wavelength ( }. I - nm
Fig 2 SPECTRAL RESPONSE

Volts

Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

Qi

II

o
16

">

"'"
cr:

j

20

0
12

15

~

...J

">

«

25

i3
c

60

S-

20

"E

"

;;;

~

~

~

i':

E
"'0

80

30

S

U

t---

'~

10

">

iii

Qi

cr:

~

--.. r--..

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

5-122

785

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-5250P /5260P
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

300

750

p,cd

IF'" 10mA

Peak Emission Wavelength

AP

697

nm

IF'" 20mA

Spectral Une Half-Width

t>A

90

nm

IF'" 20mA

Forward Voltage, any Segment

VF

2.1

2.8

V

IF'" 20 mA

Reverse Current, any Segment

IR

100

p,A

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR=5V
IF''''2OmA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/



ji;
a:

)

I

40

24

480

28

560

ji;
a:
a;

\

800

720



~

640

15

"

..J

1000
800

28

25

0

E

\

V

o
20

"'"c:

/

20

Forward Voltage (VF) - Volts
Flg,1 FORWARD CURRENT Vs FORWARD VOLTAGE

~
~
U

I \

60

a;

c:

2l

1:

80

I

'5

in

F\

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-5250G/5260G
PARAMETER

=

25°C

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

800

2000

/Jed

IF

Average Luminous Intensity

UNIT

MAX.

= 10 mA

Peak Emission Wavelength

~p

565

nm

IF = 20 mA

Spectral Line Half-Width

D.~

30

nm

IF

= 20 mA

Forward Voltage, any Segment

VF

2.1

2.8

V

IF

= 20 mA

Reverse Current, any Segment

IR

100

/JA

Iv-m

2:1

Luminous I ntenslty Matching Ratio

VR'" 5 V
IF

=20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

/



40

Q;
0:

20

480

28

24

"


~

~

20

25

...J

Forward Voltage (VF) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

"::>
E

60

B::>

0

J

o

<0

:£
'"::>0

80

'5

I
II

20

i':"

iii

II

~

;:
0
LL

-,------,-

30

5

u

120

20

15

E

">

i'

10

~

Q;
0:

""' "

.....

1
10

20

Duty Cycle %

50

100

10

20

40

DC

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
IAVERAGE IF = 10mA PER SEG )

5-124

787

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTO-5250Y /5260Y

= 25°C

MIN.

TYP.

Average luminous Intensity

Iv

700

2000

Il~.

IF=10mA

Peak Emission Wavelength

i\.p

585

nm

1 F= 20 mA

Spectral line Half·Width

Ai\.

35

nm

I F= 20mA

Forward Voltage, any Segment

VF

2.1

2.8

V

IF"' 20 mA

Reverse Current, any Segment

1.1:1

100

!lA

Iv-.m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

PARAMETER

UNIT

VR=5V
I F= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
125°C Ambient Temperature Unless Otherwise Noted)

50

120

/


~

a:;
cr:

J

2D

o
24

11

\

560

o

640

BOO

720

/

05

o

10

15

20

25

Forward Current (IF) -

Wavelength ( " I - nm
Fig 2 SPECTRAL RESPONSE.

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

1000
800

24

~

500


~

20

15

~

-'

Q)

2B

U

I

1:
'"0

60

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

~

/

25

Q)

~

)

o

C
Q)

e:

0

II

'E

E

If

BO

S
S-

I

20

~
5
u.

t1

'"
~

:;

U

::-

100

II

I

o

20

40

60

C

100
80

:;

50

~

"-

r'1
J

80

90

-".

200

U
-'"
ro

I"-

.~

"- ...........

20

.

"I, "

~

Q)

0.

."-.

10

1
10

20

50

100

10

2D

40

DC

Ambient Temperature (Tal - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 1 DmA PER SEG I

5·125
788

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTD-5250E/5260E
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

M('{"':

2000

}.lcd

IF = 10 mA

Peak Emission Wavelength

i\p

630

nm

IF = 20 mA

Spectral Line Half-Wldth

t.i\

40

nm

IF = 20 mA

Forward Voltage, any Segment

VF

2.1

2.8

V

I F= 20 mA

Reverse Current, any segment

IR

100

J.lA

Iv-m

2:1

Luminous I ntensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

V R= 5 V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

-

50



20

I

o
24

15

480

28

560

"
II:

\

05

o

640

800

720

Wavelength ( ~ I - nm
Fig 2 SPECTRAL RESPONSE

I

f

V

'I

o

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

l\.

500

"- "-

~

U

/v

iii

II:

20

/

25

~

...J

"

24

16

c

.

1000
800



J
16

-- -

.--

r-

0

/
12

r---

80

c.

10

o

._-

:J

/

~

u

120

V

I

-C

-,-,-

«

E
I

""

"

0

20

40

60

80

C

100
80

5

50

~

U

~

x
ro
:;;

200

g.

I"-

'\

.......
~

""row
0..

I
90

Ambient Temperature (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

'\.

I

20

"\.
......

"-

'r-

10

-

"- ......
r-

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE 0."
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 10mA PER SEG I

5-126

789

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-5250HR/5260HR
PARAMETER

= 25°C
TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

MAX.

Average luminous Intensity

Iv

900

2000

/Jcd

IF'" 10mA

Peak Emission Wavelength

il.p

635

nm

IF'" 20 mA

Spectral line Half-Width

"-iI.

40

nm

IF'" 20 mA

Forward Voltage Segment or D.P.

VF

2.1

2.8

V

IF'" 20 mA

Reverse Current any Segment or D.P.

IR

100

p.A

Luminous I ntensity Matching Ratio

Iv-m

2'1

VR=5V
IF=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25 0 C Ambient Temperature Unless Otherwise Noted)

so

;--

.-.-

E

-

40

-C
~

0

~

1.2

16

5
"5

60

28
24

«

e

"

c:

25

-

---- t - - -

~

/

~

40

/

0

-

-

c:

:-

E

Q;
0:

~

iii
Q;

20

o

20

24

/

~

>

iii

J

1S

...J

>

480

28

560

I

0:

\
720

/

os

o

640

-

800

V

f

o

10

15

20

25

30

Forward Current (ld - rnA

Wavelength ( ). I - nrn
Fig 2 SPECTRAL RESPONSE

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI

800

-

"- '\.

«

E
I

~

12

c

"-



r"-....

"\

15

~

I"

~

')

I

i':

........
100
80

_\.

I

200

50

U

I
20

I

E-

16

o

\.

500

20

o

- 1-

~

1000

I

U

in

---

E

0

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

C

-

{

80

- -

i':

~

f

20

o

E

--

.-

~

10

u..

100

/

e

"

---

120

I

-. l-

30

u
'E

--,-

-

.

«

"- ......

Q;
0:

1

10
10

20

Duty Cycle %

50

100

10

20

40

DC

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzI
IAVERAGE I, ~ lOrnA PER SEG I

5-127

790

ILITEr·] ~ II

LTD-6000 SERIES
0.56" DUAL DIGIT NUMERIC DISPLAYS

FEATURES
00.56 INCH (14.2mm) DIGIT HEIGHT.
oCHOICE OF SIX BRIGHT COLORS-RED/BRIGHT
RED/GREEN!YELLOW/ORANGE/HIGH EFFICIENCY RED.
o LOW POWER REQUIREMENT.
o EXCELLENT CHARACTERS APPEARANCE.
o CATEGORIZED FOR LUMINOUS INTENSITY.
ol.C. COMPATIBLE.
o EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The LTD-6000, series are 0.56 inch (14.2mm) heigh,
dua I digit displays.
The red serres devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green serres devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow.
orange and high efficiency red series devices are utilize
LED chips which are made from GaAsP on a transparent
GaP SUbstrate. Red and bright red displays have black
face and red segment color. Green and yellow displays
have gray face and white segment color.
Orange
displays have orange face and orange segment color.
High efficiency red displays have red face and red
segment color.

DEVICES
PART NO. L TDDESCRIPTION

HI.-EFF.

INTERNAL
CIRCUIT
DIAGRAM

RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

67l0R

67l0P

64l0G

68l0Y

66l0E

69l0HR

Common Anode,
Rt. Hand Decimal

A

6730R

6730P

6430G

6830Y

6630E

6930HR

Common Anode.
±1.8 Overflow

S

6740R

6740P

644(jG

6840Y

6640E

6940HR

Common Cathode,
Rt. Hand Decimal

C

6750R

6750P

6450G

6850Y

6650E

6950HR

Common Cathode,
Overflow

D

RED

:!: 1.8

5-128

791

PACKAGE DIMENSIONS
LTD-6x 10/6x30/6x40/6x50

DIGIT2

,

OlGIT2

D· il~D'

GfD~ D:D~
DP

(.315)

'.00

3.26 ,"UN
(.128)
•

!

D

.
.
. millimeters
NOTE: All dimensions are In (inches)

DP

8

tolerance are:

1. Lead length (from seating plane):

+1.00

--mm
minimum value

15.24

-0.00
+0.040"
( -0.000" )

±0.25 mm
2. (0.010")
unless otherwise noted.

(.600

PIN CONNECTION
PIN
NO.
1
2

3
4

5
6
7

8

9
10
11
12
13
14
15
5-129
792

16
17

18

CONNECTION
A. LTD-6x10

8. LTD-6x30

Cathode G (0 igit 1)
Cathode E (Digit 1)
CathodeJ. H (Digit 1)
Cathode 0 (Digit 1)
Cathode C (Digit 1)
Cathode C (Digit 1)
Cathode D.P. (Digit 1)
Cathode D.P. (Digit 1)
Cathode'E (Digit 2)
Cathode E (Digit 2)
Cathode 0 (Digit 2)
Cathode 0 (Digit 2)
Cathode G (Digit 2)
Cathode G (Digit 2)
Cathode C (Pigit 2)
Cathode C (Digit 2)
Cathode D.P, (Digit 2)
Cathode D,P. (Digit 2)
Cathode B (Digit 2)
Cathode B (Digit 2)
Cathode A (Digit 2)
Cathode A (Digit 2)
Cathode F (Digit 2)
Cathode F (Digit 2)
Common Anode (Digit 2) Common Anode (Digit 2)
Common Anod,e (Digit 1) Common Anode (Digit 1)
Cathode B (Digit 1)
Cathode B (Digit 1)
Cathode A (Digit 1)
No Connection
Cathode G (Digit 1)
No Connection
Cathode F (Digit 1)
No Connection

.

C. LTD-6x40

D. LTD-6x50

Anode E (Digit 1)
Anode 0 (Digit 1)
Anode C (Digit 1)
Anode D.P. (Digit 1)
Anode E (Digit 2)
Anode 0 (Digit 2)
Anode G (Digit 2)
Anode C (Digit 2)
AnodeO.P (Digit 2)
Anode 8 (Digit 2)
Anode A (Digit 2)
Anode F (Digit 2)
Common Cathode (Digit 2)
Common Cathode (Digit 1)
Anode 8 (Digit 1)
Anode A (Digit 1)
Anode G (Digit 1)
Anode F (Digit 1 ~

Anode G (Digit 1)
AnodeJ. H (Digit 1)
Anode C (Digit 11
AnodeD.P, (Digit 1)
Anode E (Digit 2)
Anode 0 (pigit 2)
Anode G (Digit 2)
Anode C (Digit 2)
Anode D.P. (Digit 2)
Anode B (Digit 2)
Anode A (Digit 2) .
Anode F (Digit 2)
Common Cathode (Digit 2)
Common Cathode (Digit 1)
Anode B (Digit 1)
No Connection
No Connection
No Connection

INTERNAL CIRCUIT DIAGRAM
A. LTD-6x10
18

17

B. LTD-6x30
16

15

14

13

12

4

11

10

15

17

13

12

8

11

10

8

C. LTD-6x40
18

14

D. LTD-6x50
16

15

14

13

5

6

12

11

10

8

2

15

14

4

5

13

12

11

10

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BRIGHT
RED

Power DIssipation Per Segment

55

40

75

Peak Forward Current Per Segment
(1/10 Duty Cycle, O.lms Pulse Width)

160

60

Continuous Forward Current Per Segment

25

Derating Linear From 25°C Per Segment

PARAMETER

Reverse Voltage Per Segment

ORANGE

HI.·EFF.
RED

UNIT

60

75

75

mW

100

80

100

100

mA

15

25

20

25

25

mA

0.3

018

0.3

0.24

0.3

0.3

mAtC

5

5

5

5

5

5

V

GREEN YELLOW

Operating Temperature Range

-25°C to +85°C

Storage Temperature Range

-25°C to +85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Second~ at 260Q C

5-130

793

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTD-6700R SERIES
PARAMETER

= 25°C
TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

200

600

!lcd

IF'" 10 mA

Peak Emission Wavelength

l\p

655

nm

IF'" 20 mA

Spectral Line Half-Width

D.l\

24

nm

IF =20mA

Forward Voltage, any Segment

VF

1,7

Reverse Current, any Segment
Luminous I ntensity Matching Ratio

MAX.

UNIT

2,0

V

IR

100

!lA

Iv-m

2:1

=20 mA

IF

VR = 5V

IF = 20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

E
I

40

-C

30

'00

#.

5
20

"C

~
~

80

">

40

0

'0

'a:"

20

'"0"
~

E

12

16

20

24

480

28

Forward Voltage (VFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

20

C

16

5"
U

"'"

12

E
I

~

x

:;;;
'"

o

20

40

200

g.

0

o

640

BOO

720

o

1-

o

10

15

20

25

Forward Current (IF) -

Wavelength ( ~ ) - nm
Fig 2 -SPECTRAL RESPONSE

«

0

60

C

"-

5"

U

1

so

I

90

Ambient Temperatu.re (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

5-131

/ 1\
560

~

05

rnA

"'"

1

1

!

I
1"-1'-..

!

'00
BO

'"

50

t"--r--

..........

...........
........ r-.,

20

'0 o

1

,

I'-~

-"

0..

30

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

500

24

E
I

'a:"

V

V

v

1000
BOO

28

«

,5

"
"iii>

--'

o

0

25

~

"
E

iii

LL

794

~
in

S
B- oo
a"

l'

u

,

'20

«

,
10

20

50

100

I''0

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F = 1 KHz)
(AVERAGE IF = lOrnA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTD-6700P SE R I ES
PARAMETER

TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

300

950

/-Icd

IF = 10 mA

Peak Emission Wavelength

i\p

697

nm

IF = 20 mA

Spectral line Half-Width

Cl.i\

90

nm

IF

= 20 mA

Forward Voltage, any Segment

VF

2.1

2.8

V

IF

= 20 mA

Reverse Current, any Segment

IR

100

JlA

VA

Iv-m

2:1

Luminous I ntensity Matching Ratio

MAX.

=5 V

IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

120

/

..:

E

40

-E

30

U

20

'E

'"~

0

u..


g"

~

V

15

..J

Wavelength ( Jo. ) - nm
Fig 2 SPECTRAL RESPONSE

/"

05

o

..---

o

10

15

-

20

Forward Current (IF) -

25

3D

rnA

Fig 3 RELATIVE. LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

500

20

E
I

16

g

I

I'-..

12

E
~
:;

:--...

"

0

x

::;;'"

c:

E
:::I

..:

..:

U

'"

0

1000
800

28

E
~
:;

560

25

:::I

I

20

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

I

0

>

c:

/ \

60

g"

'"
.f"

Ir\

80

Sc.
S

/
II

~

:;

~

100

II

I

4

o

U

I'-.. r-.....
o

20

40

60

Ambient Temperature (Ta) -

80

ac

I

90

200
100
80

.......

50

..........

'i:i

"

Cl.

20

I'-.. .......
i'

10
10

20

50

100

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)

5-132

795

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTO-6400G SERIES
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

8(10

2400

/tcd

IF'" 10 mA

Peak Emission Wavelength

AP

565

nm

IF'" 20mA

Spectral Line Half-Width

tAA

30

nm

IF'" 20 mA

Forward Voltage, any Segment

VF

2.1

2.8

V

IF'" 20mA

Reverse Current, any Segment

IR

100

/tA

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR=5V
IF"'20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

E

/

40

-E
~

20

;;

16

;"
>

Q;

20

a::

o

20

24

480

28

Forward Voltage (V, I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

24

E
I

20

E

16

II
640

560

8..

720

Wavelength ( ). I - nm
Fig 2 SPECTRAL RESPONSE

/

05

o

f

V

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

E
I

g

"'1I

0

x

~
20

40

\.
\.

«

~

12

I

500

"- '\

~

~
U
u

V

1000
8. .

28

«

V
IS

..J

a::

J
12

c:

E
:J

40

Q;

o

/11'

:J

>
;"

10

25

'"0
60

0

/

"C

~

:£"

80

"ic.
"i

/

~

ro
5
U.

""

/

C;

100

II

30

U

--

120

«

60

80

90

200
100

E so
~
~

50

"'"

20

U
-'"

0.

I

'

........

'"

"\
........

10
10

20

I""-

"

50

I'\.

- - r--

"

"\

.......

1
100

10

20

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzI
(AVERAGE I, ~ lOrnA PER SEG I
Vs AMBIENT TEMPERATURE

5-133

796

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTD-6800Y SERIES
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

BOO

2400

/led

IF = 10 mA

Peak Emission Wavelength

ltp

585

nm

IF = 20 mA

Spectral Line Half·Wldth

AA

35

nm

IF'" 20 mA

Forward Voltage, any Segment

VF

2.1

2.B

V

IF = 20 mA

Reverse Current, any segment

IR

100

JJ,A

Iv·m

2.1

Luminous I ntensity Matching Ratio

MAX.

UNIT

VR = 5 V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

120

50

j



'">

40

~

a;

20

II:

o

20

24

15

V

~

.J

480

28

j

~
a;

J

II:

\
560

720

/

05

o

640

800

Wavelength ( ~ ) - nm
FIg 2 SPECTRAL RESPONSE

Forward Voltage (V,) - Volts
FIg 1 FORWARD CURRENT Vs FORWARD VOLTAGE

V

I

o

10

15

20

25

30

Forward Current (IF) - rnA
FIg 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PFR SEGMENT)

1000
800

28

I\,

500

24



40

a;
a:

20

'"'"

24

E
~
:;

16

U
u

,.

Q)

>

iii
a;
560

I

a:

\

o

640

800

720

Wavelength ( A I - nm
F,g_ 2 SPECTRAL RESPONSE.

/

05

o

/

/

"

10

15

20

Forward Current (IF) -

25

30

mA

Fig 3 RELATIVE. LUMINOUS INTENSity Vs
FORWARD CURRENT (PER SEGMENTI

I\,

500

"-

12

0

«

"

E
I

"- ~

E
~
:;
U

"I

x

o

I

20

40

60

80

90

~
Q)
"-

100
80

\..

I

200

g

::;
'"

o

/

i'

1000
800

24
20

c

480

28

28

E

"'"0
E

o
20

/

25

--'

Forward Voltage (V,I - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

«

~

c

---

e
E

60

Q)

j

o

r

80

5
"5

~

0

II

"E

~



iii

a;
a:

20

'\....

-......

1

10
10

20

50

100

10

20

40

oc

DC
Duty Cycle %
Duty Cycle %
Ambient Temperatu.re (Tal
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH,RATE - F = 1 KHzl
(AVERAGE I, = lOrnA PER SEG I

5-135

798

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTD-6900HR SERIES
PARAMETER

MIN.

TYP.

Average Lum i nous Intensity

Iv

800

2400

~cd

IF = 10 mA

Peak Emission Wavelength

AP

635

nm

IF = 20 mA

Spectral Line Half-Width

D.A

40

nm

IF=20mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

J.lA

Iv-m

21

Luminous I ntensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR = 5 V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

--

50

/
/

«

E

-C

40

20

ro

;:

12

16

24

0:

20

480

2.B

15

iii
c;;

560

0:

/ \

o

640

BOO

720

Wavelength ( }. I - nm
Fig 2 SPECTRAL RESPONSE

/

/

/
/

05

V
1

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

I\,
\.

500

"-

20

I
16

i"

12

«

"'

E
I

g.

"

"-

"

0

x

4

o

c

'"

40

24

~

V

'"0

V

1000
BOO

«

~
U

E

E
::>

o

20

25

-'
>

'">

2B

C

in
c

--

2l

- -

60

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

i:

::>

iii
c;;

J

o

---

0

10

LL

r--

--

T

BO

:;
":;

/
/

'C

5

if

---

- - -- -- -

100

30

i"

~
U

,---- - - ,----- -

120

- '--1-

o

20

40

60

C
i"

~
U

I

80

~

1

90

Ambient Temperature (Tal - DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

"-

I

200
100
BO
50

'I"-

i:
in

"

c

2l

E

i'..

"'I'-

20

"\

15

10

I,

" -=" "

'">

iii

c;;

0:

1

10

20

50

100

10

20

40

I'DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzI
(AVERAGE I, ~ lOrnA PER SEG I

15-136

799

·5836 .

1LITE(') ~ II

LTC-5336 SERIES
0.52" THREE-DIGIT NUMERIC DISPLAY$

FEATURES
-0.52 INCH (13.2mm) DIGIT HEIGHT.
- CONTINUOUS UNI FORM SEGMENTS.
- CHOICE OF SIX BRIGHT COLORS-RED/BRIGHT
RED/GR EEN/YELLOW/ORANGE/HIGH E FF ICI ENCY RED.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- HIGH BRIGHTNESS.
-WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
- CATEGORIZED FOR LUMINOUS INTENSITY.
- I.C. COMPATIBLE.
- EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The LTC-5000 series are 0.52 inch (13.2mm) height
three-digit
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series devices are utilize
LED chips which are made from GaAsP on a transparent
GaP substrate.
Red, bright red, yellow and orange
displays have gray face and white segment color. Green
displays have gray face and green segment color. High
efficiency red displays have red face and red se"gment
color.

DEVICES
PART NO. L TC-

5-137

800

DESCRIPTION

INTERNAL
CIRCUI;r
DIAGRAM

RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HI-EFF.
RED

5836R

5836P

5836G

5836Y

5836E

5836HR

Common Anode
Rt. Hand Decimal

A

5336R

5336P

5336G

5336Y

5336E

5336HR

Common Cathode
Rt Hand Decimal

B

PACKAGE DIMENSIONS
LTC-5x36

NOTE: All dimensions arc

millimeters tolerance arc:
+1.00
(inches)
-0.00 mm
2.
1. Lead length (from seating plane): minimum valum -+-=0-':.0:":4:-::0-::"In

1
2
3

4
5
6

7
8

9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

(0.010")

-0.000"

PIN CONNECTION
PIN
NO.

+ 0.25 mm unless otherwise noted.

CONNECTION

CONNECTION

LTC-5836

LTC-5336

E

(Digit 1)
Anode
E
(Digit 1)
Anode
0
Common Cathode Digit
(Digit 1)
Anode
C
Anode
DP (Digit 1)
(Digit 2)
Anode
E
(Digit 2)
Anode
0
Common Cathode Digit
(Digit 2)
Anode
C
DP (Digit 2)
Anode
(Digit 3)
Anode
E
(Dlgit3)
Anode
0
Common Cathode Digit
(Digit3)
Anode
C
Anode
DP (Digit3)
(Digit3)
Anode
B
(Digit 3)
Anode
A
Common Cathode Digit
(Digit3)
F
Anode
(Digit3)
Anode
G
(Digit 2)
Anode
B
(Digit 2)
Anode
A
Common Cathode Digit
(Digit 2)
F
Anode
(Digit 2)
G
Anode
(Digit 1)
Anode
B
(Digit 1)
Anode
A
Common Cathode Digit
(Digit 1)
F
Anode
Anode
(Digit II
G

Cathode
Cathode
Common
Cathode
Cathode
Cathode
Cathode
Common
Cathode
Cathode
Cathode
Cathode
Common
Cathode
Cathode
Cathode
Cathode
Common
Cathode
Cathode
Cathode
Cathode
Common
Cathode
Cathode
Cathode
Cathode
Common
. Cathode
Cathode

(Digit 11
(Digit 1)
Anode Digit 1
(Digit 11
C
DP (Digit 1)
(Digit 2)
E
(Digit 2)
0
Anode Digit 2
(Digit2)
C
DP (Digit2)
(Digit 3)
E
(Digit 3)
0
Anode Digit 3
(Digit.3)
C
DP (Digit 3)
(Digit 3)
B
(Digit 3)
A
Anode Digit 3
F
(Digit 3)
(Digit 3)
G
(Digit 2)
B
(Digit 2)
A
Anode Digit 2
(Digit2)
F
(Digit 2)
G
(Digit 1)
B
(Digit 1)
A
Anode Digit 1
F
(Digit 1)
(Digit 1)
G

0

1

2

3

3

2

1
5-138
801

INTERNAL CIRCUIT DIAGRAM
A.

LTC-5836
3 28

DIGIT 2

DIGIT 1

13 18

8 23
DIGIT 3

ABCDEFGDP
27 26 4

B.

2

1

29 30 5

LTC-5336
3 28
DIGIT 1

8 23
DIGIT 2

ABCDEFGDP

27 26 4

2

1 29 30 5

1318
DIG IT 3

ABCDEFGDP

22 21

9

7

6

24

ABCDEFGDP

5 10

17 16 14 12 11 19 20 15

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

RED

BRIGHT
GREEN
REO

HI.·EFF.
REO

UNIT

Power Dissipation Per Segment

55

40

75

60

75

75

mW

Feak Forward Current Per Segment
(1/10 Duty Cycle, 0.1ms Pulse Width)

160

60

100

80

100

100

mA

Continuous Forward Current Per Segment

25

15

25

20

25

25

mA

Dereting Linear From 25"C Per Segment

0.3

0.18

0.3

0.24

0.3

0.3

mArC

5

5

5

5

5

V

Reverse Voltage Per Segment
Operating Temperature Range

_250 C to +850 C

Storage Temperature Range

-25°C to +85°C

5-139
802

YElLOW ORANGE

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at· 2600 C

.5

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTC-5836R/5336R
PARAMETER
Average Luminous Intensity

=

25°C

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

200

500

/.tcd

IF = 10 mA

MAX.

UNIT

Peak Emission Wavelength

AP

655

nm

I F= 20 mA

Spectral Lme Half-Width

6A

24

nm

I F= 20 mA

Forward Voltage, any Segment

VF

1.7

2.0

V

IF = 20 mA

Reverse Current, any Segment

I R

100

p,A

Iv-m

2 1

Luminous Intensity Matching Ratio

VR = 5V
I F= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25 0 C Ambient Temperature Unless Otherwise Noted)

E

-E

100

40

if.

'5

"

20

0;

10

""'0
c

"
">
"0:'"
0;

E

20

24

480

28

1000
800

24

500

20

I"-

E

16

""



0

12

U

c

60

0

e

in

e
E

80

e-

u
'E

~

~

30

e

u.

,

120

50



\

640

15

~

.J

1\

/

25

0

c

E

500

E
I

20

I

:;

/ \

«

«

U

;;;
c

"
E
'"

1000
BOO

2B

E

/

o

20

~

40

>

Forward Voltage (V,) - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

I

~

0

II
J

10

,

100

/

:;
U

/

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzl

ELECTRICAL./OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5836G/5336G
PARAMETER

TEST
COf"DITION

UNIT

SYMBOL

MIN.

TYP.

Average Luminolls IntenSity

Iv

SOO

2000

).Lcd

I F ~ 10 mA

Peak Emission Wavelength

AP

565

nm

I F= 20 mA

Spectral Line Half-Width

boA

30

nm

I F= 20 mA

Forward Voltage, any Segment

VF

2.1

2.S

V

I F= 20 mA

Reverse Current, any Segment

IR

100

).LA

Iv-m

2: 1

Luminous Intensity Matching Ratio

MAX.

VR = 5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25 0 C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E

~:;
U

40

V

30

'E

~

(;

u.

0"
o.
~

">

40

o
24

4BO

2B

24

500

"-

~

:;

U

12

1/

I
640

560

BOO

720

10

15

Forward Current

20

25

lid -

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENT)

E

"

I

~

<.J

X

g

"-

:;;;'"
o

40

60

Ambient Temperatu.re (Tal -

80

°C

100
BO

:;

50

U

1
90

200

C
~

I

20

I\.

«

0

o

/

05

I

/

/

BOO

«

16

Il:

Wavelength I ~ ) - nm
Fig 2 SPECTRAL RESPONSE

1000

C

'is

20

V

/

>

iii

'is

20

15

.,

iii

28

20

E
:J

-'

Forward Voltage IV,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E
I

c

60

II:

16

/

:J
0

~

j

12

25

E

BO

0

10

o

in

.,c
V>

/
1/

20

~

100

...... ~

.......

'\

r-...

~

"

0..

'\.

I

I.......

. - r---

r--...

I"

20
10

"1:"-

-

t......

1

10

20

Duty Cycle %

50

100

10

""

40

DC

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE
IREFRESH RATE - F ~ 1 KH2)
IAVERAGE I, ~ 10mA PER SEG)
Vs AMBIENT TEMPERATURE

5-142

805

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5836Y /5336Y
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

700

2000

j.tcd

I Fe 10mA

Average Luminous IntensitY

MAX.

UNIT

Peak Emission Wavelength

~p

585

nm

IF'"

Spectral Line Half-Width

,,~

35

nm

IF'" 20 mA

Forward Voltage, any Segment

VF

2.1

Reverse Current, any Segment
Luminous Intensity Matching Ratio

2.8

V

I

IA

100

j.tA

Iv-m

2:1

20 mA

f.= 20 mA

VA'" 5V

I F"'20mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

120

J
V

od:

E

40

I

-E

30

e
:;

u
'E

~

0

12

16

60

Q)

40

j

.f

V

~

c

E
~

iii
a;

Q)

>

20

II:

o
24

'5

...J

>

20

480

28

iii
a;

j

II:

IJ

\

560

o

640

800

720

Wavelength I l\ I - nm
Fig 2 SPECTRAL RESPONSE

12

E
I

"'-

g

",,-

E

........

0

Cl

.

~

:;

r-....

..

U

')

x

:;;;

o

10

15

20

Forward Current (IF) -

25

30

rnA

l'-.

500

E 20

E

o

Fig 3 RELATIVE LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT IPFR SEGMENTI

od:

od:

U

/

05

V

1000
800

28
24

16

/

25

0

5c.
5

Forward Voltage IVFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

e:;

If

80

c

0

)

o

;;

Q)

~

II

10

u..

;j!.

I

20

i':

'00

o

40

60

80

~

200
,00
80
50

i'-

~

..........

"

""

Q)

Q.

J

90

L"'-..

" "- ,

- - J-.........

20

,

10
10

20

50

100

I'
10

20

40

DC

Ambient Temperature ITal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
IREFRESH RATE - F ~ 1 KHzI
IAVERAGE IF ~ lOmA PER SEG I
Vs AMBIENT TEMPERATURE

5-143

806

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5836E/5336E
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

800

2000

}.Lcd

IF= 10mA

Peak Emission Wavelength

'A.p

630

nm

I F= 20 mA

Spectral Line Half-Width

6A

40

nm

I F= 20 mA

Forward Voltage Segment or D.P.

VF

2.1

2.8

V

I F= 20 mA

Reverse CUrrent any Segment or D.P.

IR

100

}.LA

Iv-m

2.1

Luminous Intensity Matching Ratio

UNIT

MAX.

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

-,--

50

«

E

-E

40

~

I

100

ift

10

o
12

,.

---

60

">
iii

40

0:

20

a;

J

24

~

I
560

0:

\

05

o

640

720

800

~

o

/

V
10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

Wavelength ( A I - nm
Fig 2 SPECTRAL RESPONSE

«

E
I

"-

x

"'-

:;;'"

o

E
~
:;
U
-'"

~

40

60

80

"'"

0..

I

20

200

E-

r'\.

12

o

V
IS

800

~

U
u
0

~

E
:>

">

480

28

500

«

:;

/v

"
E
:>
"'0
iii
a;

o

20

/

25

~

..J

24

16

in

0

1000

E

i:'

I~

- I-

9:>

2.

20

~

f

Forward Voltage (V,I - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

--

-- r-,----

80

S

/
/

20

'E

~
5
Ll.

120

/

30

:;
U

-r-,-

90

Ambient Temperatu!e (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

100
80

,

~
'\.

I
i:'
in

c:

.......

S

......

50

I......
20

'\

15

""- "-

E

'r-.

">

iii

a;
0:

.......

1

10
10

20

50

100

10

20

40

oc

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLED,
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 10mA PER SEG I

5-144

807

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5836HR/5336HR
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

800

2000

/lcd

IF'" 10 mA

Peak Emission Wavelength

AP

635

nm

IF = 20 mA

Spectral Line Half-Width

"'A

40

nm

IF" 20 mA

Forward Voltage. any Segment

VF

2,1

2,8

V

I F= 20 mA

Reverse Current, any Segment

I R

100

/lA

Iv-m

2:1

Luminous Intensity Matching Ratio

UNIT

MAX.

VR = 5V

I F= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)

-

50

,---

I
II

<::

E

40

I

-C

30

5
20

1;

10

~

u.

;J!-

12

16

:;
B-

"

40

a::

20

>
~
a;

24

V

"'0=>
c

E
=>

1S

>
~
a;

560

a::

I \

o

640

720

/

05

800

/

V

V

f

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

800

i'

12


0

)

o

120 ,------

100

I
II

l'

u
'E

-r-,-

60

Ambient Temperature (Ta) -

"'1I
80

°C

90

200

C

100
80

5

50

"'"

20

l'

U
-'"

"-

--'"

I

t'--

"-"-

-....

"'t'-- ....

10

"I"

.....

t

10

20

Duty Cycle %

50

100

10

20

40

DC

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = 10mA PER SEG)

5-145

808

ILITEr.] ~ II

LTC-5837 SERIES
5337
0.52" FOUR·DIGIT NUMERIC DISPLAYS

FEATURES
-0.52 INCH (13.2mm) DIGIT HEIGHT.
-CONTINUOUS UNIFORM SEGMENTS.
-CHOICE OF SIX BRIGHT COLORS-RED/BRIGHT
RED/GREEN!YELLOW/ORANGE/HIGH EFFICIENCY RED.
- LOW POWER REQUIREMENT.
- EXCELLENT CHARACTERS APPEARANCE.
- HIGH BRIGHTNESS.
_WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
- CATEGORIZED FOR LUMINOUS INTENSITY.
- I.C. COMPATIBLE.
- EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The LTD-5000 series are 0.52 Inch (13.2mm) height
four-digit.
The red senes deVices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bnght red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series deVices are utilize
LED chips which are made from GaAsP on a transparent
GaP substrate.
Red, bright red, yellow and orange
displays have gray face and white segment color. Green
displays have gray face and green segment color. High
effiCiency red displays have red face and red segment
color.

DEVICES
PART NO. LTDDESCRIPTION

INTERNAL
CIRCUIT
DIAGRAM

REO

BRIGHT
REO

GREEN

YELLOW

ORANGE

HI.·EFF.
REO

5837R

5837P

5837G

5837Y

5837E

5837HR

Common Anode
Rt. Hand Decimal

A

5337R

5337P

5337G

5337Y

5337E

5337HR

Common Cathode
Rt. Hand Decimal

B

5-146

809

PACKAGE DIMENSION

OIGIT1

DIGIT 2

DIGIT3

DIGIT4

. ~R

11..-1

{.012~i::=-'5.24

0.50
(.02grl

I

(.600r--l

INTERNAL CIRCUIT DIAGRAM
A. LTC-5837
3 38

13 28

8 33

DIGIT 1

DIGIT 2

18 23

DIGIT 3

DIGIT 4

p

373642139405

32 31

9

7

6 34 35 10

ABC
27 26 14 12 11 29 30 15

22 21

0

E

F

19 17 16 24 25 20

B. LTC-5337

.
3736

4

2139405

~

..

B

C

A

ABCDEFGDP
32 31

9

7

6

34 35 10

18 23

13 28
IDIGIT 3

833
DIGIT 2

3 38
DIGIT 1

~

.

~ ~~

~

o

·IDIGIT 4

E

IF

G

~~

~

~ ~

A

B

C

0P

27 26 14 12 11 29 30 15

22 21

~. ~

.~

0

E

F

G 0P

19 17 16 24 25 20

ABSOLUTE MAXIMUM RATINGS AT TA = 25 C
v

RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HI.·EFF.
RED

UNIT

Power Dissipation Per Segment

55

40

75

60

75

75

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle, O.1ms Pulse Width)

160

60

100

80

100

100

mA

Continuous Forward Current Per Segment

25

15

25

20

25

25

mA

Derating Linear From 25°C Per Segment

0.3

0.18

0.3

0.24

0.3

0.3

mArC

5

5

5

5

5

5

V

PARAMETER

Reverse Voltage Per Segment
Operating Temperature Range

-25°C t6 +85°C

Storage Temperature Range

-25°C to +85°C

5-147

810

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260Q C

PIN CONNECTION
CONNECTION
PIN NO.

1
2
3
4
5
6
7

8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

LTC-5837

LTC-5337

Cathode E (D191t 1)
Cathode D (D iglt 1)

Anode E (Digit 1)

Common Anode (Digit 1)
Cathode C (0 igit 1)

Common Cathode (Digit 1)
Anode C (Digit 1)

Cathode D P. (Digit 1)

AnodeD.P (Digit 1)

Cathode E (Digit 2)
Cathode D (D igit 2)

Anode E (Digit 2)

Common Anode (Digit 2)

Common Cathode (Digit 2)
Anoge C (Digit 2)

Cathode C (Digit 2)
Cathode D.P. (Digit 2)
Cathode E (Digit 3)
Cathode 0 (Digit 3)
Common Anode (Digit 3)
Cathode C (Digit 3)
Cathode D.P. (Digit 3)
Cathode E (Digit 4)
Cathode D (Digit 4)
Common Anode (Digit 4)
Cathode C (Digit 4)
Cathode D P. (Digit 4)
Cathode B (Digit 4)
Cathode A (Digit 4)
Common Anode (Digit 4)

Anode D (Digit 1)

Anode 0 (Digit 2)

Anode D.P. (Digit 2)
Anode E (Digit 3)
Anode 0 (Digit 3)
Common Cathode (Digit 3)
Anode C (Digit 3)
Anode D.P. (Digit 3)
Anode E (Digit 4)
Anode 0 (Digit 4)
Common Anode (Digit 4)
Anode C (Digit 4)
AnodeD.P (Digit 4)
Anode B (Digit 4)
Anode A (Digit 4)

Cathode F (Digit 4)

Common Cathode (Digit 4)
Anode F (Digit 4)

25
26
27

Cathode G (Digit 4)

Anode G (Digit 4)

Cathode B (Digit 3)
Cathode A (Digit 31

Anode B (Digit 3)
Anode A (Digit 31

28
29
30
31
32

Common Anode (Digit 3)
Cathode F (Digit 3)

Common Cathode (Digit 3)

Cathode G (Digit 3)

Anode G (Digit 3)

Cathode B (Digit 2)
Cathode A (Digit 2)
Common Anode (Digit 2)

Anode B (Digit 2)
.Ll.node A (Digit 2)

33
34
35
36
37
38
39
40

Anode F (Digit 3)

Cathode F {Digit 2}

Common Cathode (Digit 2)
Anode F (Digit 2)

Cathode G (Digit 2)

Anode G (Digit 2)

Cathode B (Digit 1)
Cathode A (Digit 1)

Anode B (Digit 1)
Anode A (Digit 1)

Common Anode (D igit 1)
Cathode F (Digit 1)

Common Cathode (Digit 1)
Anode F (Digit 1)

CathodeG (Digit 1)

Anode G (Digit 1)
5-148
811

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5837R/5337R
PARAMETER

MIN.

TYP.

Average Luminous Intensity

Iv

200

500

~cd

IF" 10 mA

Peak Emission Wavelength

"Ap

655

nm

IF'" 20mA

Spectral Line Half·Width

e:.].,.

24

nm

I FO'20 mA

Forward Voltage, any Segment

VF

L7

2.0

V

I F= 20 mA

Reverse Current, any Segment

IR

100

~A

Iv..fT1

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

VR=5V
I pO' 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

E

-E

100

40

*

80

30

:;
S:J

60

20

0

~

~

U

"E
;:
'"

5

LL

l:in

c:

c:

E
:J

">

40

Q;
0:

20

">

"'"

16

20

24

480

2.

Forward Voltage (V,) - Volts
Fig 1 FORWARO CURRENT Vs FORWARD VOLTAGE

1000
800

24

500

E
I

20

i'.

E

16

«

"

12

E
I

g~

"- ')

"
x
:;;:
'"

Cl

40

60

80

640

100
80

~
U

50

"'"

0-

90

/

05

o
800

720

i/

o

/
10

/

15

20

25

30

Forward Current (IF) - rnA

Fig 3 RELATIVE LUMINOUS INTENSItY Vs
FORWARD CURRENT (PER SEGMENT).

II

"

!
:
I

r-.~

l:in
c:

~

t"--"

~

I
20

200

E
~

560

Wavelength ( ~ ) - nm
Fig 2 SPECTRAL RESPONSE

28

«

Q;
0:

V 1\

o
12

15

..J

iii

10

25

"
E
'":J0

0

~
~
U

,

120

50

«

20

I

15

""

"

.~

Q;
0:

I"..

..........

........

r-....

1

10
10

20

50

100

10

20

40

DC

Ambient Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = 10mA PER SEG)
Vs AMBIENT TEMPERATURE

5-149
812

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5837P /5337P
PARAMETER

MIN.

TYP.

Average Lum inous Intensity

Iv

300

750

J,tcd

I

Peak Emission Wavelength

Xp

697

nm

IF'" 20 mA

Spectral Line Half·Width

AX

90

nm

I F= 20 mA

Forward Voltage, any Segment

VF

2.1

2.8

V

I F= 20 mA

Reverse Current, any segment

IR

100

J.tA

Iv·m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

'" 10 mA

V R=5 V
IF'" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless OtherWise Noted)
120

50

/

..:

E

-E

40

/

/
1/

20

-0

:a
;:
(;

80

5
B:J

60

J

o
12

16

40

Q;
0:

20

24

480

28

25

/ 1\

0

c

E
:J

\

\

640

15

..J

1\

1/
560

'"

:J

">
""
Q;
0::

800

720

V

05

o

o

/'"

10

....-

15

-

20

25

30

Forward Current 11,1 - mA
Fig. 3 RELATIVE LUMINOUS INTENSll'Y Vs
FORWARD CURRENT IPER SEGMENT!.

Wavelength I 1\ I - nm
Fig 2 SPECTRAL RESPONSE.

1000
800

28

500

24

..:

..:

E

20

E
I

E

16

g

U
u

12

.........

E
e:;

.........

0

x

::;;"

in

/

o

20

Forward Voltage IV,I - Volts
Flg.l FORWARD CURRENT Vs. FORWARD VOLTAGE

e
:;

I

">

""

?:

§
.E

0

10

u..

#-

30

"~

U

,

100

U

.........
4

........

I
20

40

60

80

90

200
100
80

......

........

50

..........

~

"

0..

"

i'

20
10
10

20

50

.....
100

Ambient Temperatu.re fTa) - °c
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
IREFRESH RATE - F ~ 1 KHzl

5-150

813

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5837G/5337G
MIN.

TYP.

Average Luminous Intensity

Iv

800

2000

j.Lcd

I P' 10 mA

Peak Emission Wavelength

;>..p

565

nm

I F"'20mA

Spectral Line Half-Width

61..

30

nm

I F= 20 mA

Forward Voltage, any segment

VF

2.1

2.8

V

IF" 20 mA

Reverse CUrrent. any Segment

IR

100

IlA

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

PARAMETER

UNIT

VR=5V
IF=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)
50

120

/

0.:

E

-E

40

II

30

u

20

0;
~

5

10

e-

12

16

24

16

i'.

5

12

480

28

a:

II

05

o

560

640

800

720

Wavelength ( A I - nm
Fig 2 SPECTRAL RESPONSE

f

o

10

15

20

Forward Current

25

30

(ld - rnA

Fig 3 RELATIVE LUMINOUS INTENSitY Vs
FORWARD CURRENT (PER SEGMENTI

1,\

"
x
'"
::!:

E
I

,i'.

E
:!:!

5

U

o

I

40

60

~

200

E-

1
20

~

500

Q

o

03

20

0.:

:!:!

U

V

I

iii

1000
800

0.:

E

V
15

">

40

o
24

LV

..J

">
"a:'"
03

28

20

c:

E
::>

0

20

/

25

"
E
::>
"'0

60

Forward Voltage (V,I - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

E
I

c:

::>

)

o

in

80

:;

V

"C

u-

if

/

:!:!

5

?:

100

80

90

100
80
50

r--..

"

~
.......
........

'"

""'"

,

20

I'

10

~

'\

'" "

1
10

20

50

100

10

40

DC

Ambient Temperatu!e (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

5-151
814

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTC-5837Y /5337Y
PARAMETER

=

25°C

MIN.

TYP.

Average Luminous Intensity

Iv

700

2000

/.Lcd

I F= 10 mA

Peak Emission Wavelength

;>..p

585

nm

IF = 20 mA

Spectral Line Half-Width

c,;>..

35

nm

I F= 20 mA

Forward Voltage, any Segment

VF

2.1

2.8

V

I F= 20 mA

Reverse Current, any Segment

IR

100

p.A

Iv-m

2:1

Luminous I ntensity Matching Ratio

MAX.

TEST
CONDITION

SYMBOL

UNIT

V R= 5 V
I F= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

120

/

«

E

40

-E

30

~

20

"0

<0
~

0

u..

10

80

12

16

60

'">

40

Q;
0:

20

480

28

15

'">

24

I

J

580

Q;
0:

05

\
640

800

720

Wavelength I }. ) - nm
Fig 2 SPECTRAL RESPONSE

10

20

E

16

U
u

12

20

25

30

I\,

500

\..

E

r--..
......

I

,

g

"'" ........

0

x

::;;'"
o

15

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPFR SEGMENT) .

«

E

/

/

ji:

J

1000
800

28

'"~

E

o
24

/

:J
...J

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

c:

ji:

20

/

25

'"

0

J

o



40

24

a:

20

>

480

28

\

J
560

a:

05

o

640

720

800

Wavelength I }. ) - nm.
F'g 2 SPECTRAL RESPONSE

~

/

V

V

o

10

15

20

25

30

Forward Current II,) - rnA
F'g 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENT)

1000
800

l-

i'-

E
I

'\

g

x

~
20

40

~

500

«

'-

12

"

60

"-

E
~
:;
U

.'"

~

80

100
80

1
90

~

I

200

"

~
in
c:

.......

f!

"

50

~

0.

Ambient Temperature ITa) - °C
F'g 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMB)ENT TEMPERATURE

5-153

15

.

iii
a;

o
20

Cl

816

E

/

/

:J
...J

iii
a;

28

E

c:

'- 1-

60

V

/

'"

S:J

,--

25

:J
0

Forward Voltage IV,) - Volts
F'g.1 FORWARD CURRENT Vs FORWARD VOLTAGE

~
~
U

in
c:

0

)

o

«

.
:£

{

80

S

I
II

10

LL

100

II

.. --

~

30

20

'E

---r-Y--,-,-

120

I

«

E

-r-,--

y--

'\

15

.

E
I.......

~

>

iii

r--..

10

"

~

a;

a:

20

......

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
F'g 5 MAX PEAK CURRENT Vs DUTY CYCLE % F'g 6 LUMINOUS INTENSITY Vs DUTY CYCLE '"
(REFRESH RATE -- F = 1 KHz)
IAVERAGE IF = 10mA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-5837HR/5337HR
PARAMETER

SYMBOL

MIN.

MAX,

T'/P.

TEST

UNIT

CONOITION

2000

J,lcd

I F ~

10

mA

AP

635

nm

I F~

20

mA

Spectral Line Half·Width

b."A

40

nm

IF =

20

mA

Forward Voltage. any Segment

VF

2.1

2.S

V

I F=

20

mA

Reverse Cu rrent , a ny Segment

IR

100

J,lA

Iv·m

2:1

Average Luminous Intensity

Iv

Peak Emission Wavelength

Luminous I ntensity Matching Ratio

SOD

5V

VR=
IF =

20

mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

E

-E

--,- ,----

--

50

..:

/

r--- --

40

~

/
/

:;

U

::
~

0

100

II

30

20

12

16

80

s"-

60

U

20

c

24

1:

/

"'::>0
c

IS

">

II:

20

iii
a;

560

II:

\

/
480

28

640

720

Wavelength ( A I -

/

25

l!!

05

800

~

/

/

/

V

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

nm

Fig 2 SPECTRAL RESPONSE

800

\.

SOD

"-

..:

E

"

12

u.

I

"I
"I

x

~
o

20

40

60

Ambient Temperatu.re (Ta) -

80

°C

90

E
~
:;
U

~
~

z:in

........
100
80
50

"-

I

200

E-

"-

0

o

-------I~

1000

..:

16

f--+-+--+-r",t-

- - - - ,------

, - - -,-----

z:in

I"::>

40

24

E
~
:;

--- --

~1--+-H-~-+-t-1-~

">

iii
a;

28

20

----

-'

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

-~

0

J

o

~
S

10

u.

r--

120

"

C

l!!

I'-..

'\

IS

..... i'-

.....

20

,

'\..

1:

g">

"'-

a;
II:

"

1

10

10

20

Duty Cycle %

50

100

10

20

40

DC

Duty Cycle %

Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE '0
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ 10mA PER SEG )

5-154
817

SELECTION GUIDE
• ALPHANUMERIC DISPLAYS
PACKAGE

ilWlJ!J

fFjJ]o

12.7mm ('5")
Oual-In-Line
1"H x.63"W
x .38" 0

II

13.8mm (.54")
Oual·ln-Line
.84"H xl" W
x .32" 0

5-155
818

PART
NO.

COLOR

LTP537R
537P
537G
537Y
537E
537HR

Red
Bright Red
Green
Yellow
Orange
Hi. -Eff. Red

587R
587P
587G
587Y
587E
587HR

Red
Bright Red
Green
Yellow
Orange
Hi. ·Eft. Red

LTP.
3784R
3784G
3784E

Red
Green
Orange

DESCRIPTION

TVP.lv/SEG.
@'F '" 10mA

Common Cathode
Single Character, Rt. Hand Decimal

500 J.'cd
750 J.'cd
2000J.'OO
2000 J.'cd
2000 J.'cd
2000 J.'cd

Common Anode,
Single Character, Rt Hand Decimal

500 J.'OO
750 J.'cd
2000 J.'cd
2000J.'OO
2000 J.'OO
2000J.'OO

Multiplex. Dual Character.
Rt. Hand Decimal

400 J.'OO
1800 J.'OO
1800 J.'cd

PAGE
NO.

5·156

5·156
3785R
3785G
3785E

Red
Green
Orange

Multiplex. Dual, Character.
Rt. Hand Oesimal

4OOJ.'OO
1800 J.'OO
1800 J.'OO

ILITEr.) ~ II

SERIES
LTP- 537/587
3784/3785
0.5" & 0.54" ALPHANUMERIC DISPLAYS

FEATURES
_ LOW POWER REQUIREMENTS .
• EXCELLENT CHARACTER APPEARANCE.
- HIGH CONTRAST.
- HIGH BRIGHTNESS.
-WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
-COMMON ANODE OR COMMON CATHODE
MODELS.
-CATEGORIZED FOR LUMINOUS INTENSITY.
EASY MOUNTING ON P.C. BOARD.

DESCRIPTION

,,

~

The LTP-537/587 series are 0.5 inch (12.7mml hieght
16-segment single digit alphanumeric displays.
The red, bright red, green and orange displays have
black face and white segment colors.
The high
efficiency red display has red face and red segment
colors.
The LTP-3784/3785 series are 0.54 inch (13.8mm l
height 14-segment dual digit alphanumeric displays.
The dual digit displays have gray face and white
segment color.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high efficiency red series devices utilize
LED chips which are made from GaAsP on a transparent
GaP substrate.

DEVICES
PART NO_ L TPRED

BRIGHT
GREEN
RED

YELLOW

HI_-EFF_
ORANGE
RED

DESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

537R

537P

537G

537Y

537E

537HR

Common Cathode,
Rt. Hand Decimal

A

A

587R

587P

587G

587Y

587E

587HR

Common Anode,
Rt. Hand Decimal

A

B

Multiplex Common
Cathqde, Rt. Hand Decimal

8

C

Multiplex Common
Cathode, Rt. Hand Decimal

B

D

3784R

-

3784G

3785R

-

3785G

-

3784E
3785E

-

5-156
819

PACKAGE DIMENSIONS

D:O~:2 D:oil:

f~;5~~
A2
CPA
!J)1e60 DIGIT A
(0.063) LTPIPART NO.
TXXX: DATE CODE

NOTE: All dimenSions are in

millimeters
(inches)

A4
OPe
DIGIT B

tolerance are:

1. Lead length (from seat'ing plane): minimum valum

~ mm
-0.000
2.
+0.040"
( -0.000"

±0.25mm
(0.010")

unless otherwise noted.

PIN CONNECTION
PIN
NO.
1
2
3

4
5
6
7

8
9
10

11
12
13
14
15
16

17
18
5-157

820

CONNECTION
A. LTP·537
Anode 8
Anode A
Anode M
Anode K
Anode H
Anode G
Anode T
Anode F
Anode E
Anode D.P.
Anode S
Anode R
Anode D
Anode U
Anode P
Anode C
Anode N
Common Cathode

B. LTP·587

C. LTP·3784

D. LTP·3785

Cathode B
Anode E
Anode D,. D 2 • D 3 • D.
No connection
Cathode A
Anode M
Cathode M
No Connection
Anode G,. G z • G 3 • G.
Cathode K
Anode L
Anode C,. C•• C,. C.
Cathode H
Anode K
Cathode A •• 8 •• C •• E •• F •• G •• D.P.A.
Cathode G
Anode D.P.A.
Anode J
Cathode T
No Connection
Anode D
Cathode F
Anode D.P
Cathode A 3 • B,. C3 • D 3 • E,. F" G,
Cathode E
Anode D.P.B.
Anode C
Cathode D.P.
Anode B
Cathode A •• B •• C•• D •• E 4 • F4' G •• D.P.B.
Cathode S
Common Cathode. Character 2
No Connection
Cathode R
Anode A
Anode A, • A •• A,. A.
Cathode D
Anode N
No Connection
Cathode U
Anode H
Anode 8,. 8 •• 8 3 .8.
Cathode P
Anode G
Cathode AI' 8 I • C, • D, • E 1 • F , • G I
No Connection
Cathode C
Common Cathode. Character 1
Cathode N
Anode P
Anode E,. Ez • E,. E.
Common Anode
Anode F
Anode F ,. F 2' F 3' F 4

INTERNAL CIRCUIT DIAGRAM
B. LTP·587

A. LTP·537

,.

,.
•

2

c.

~B

1

C

16 13

F

E

0

9

8

G

6

K

"
5

4

M

3

17

R

P

N

15

12

S

11

U

0

14

10

T

7

.
2

16

10

9

7

1

0

C

16

E

13

9

F

8

G

6

H

5

K

4

M

3

P

N

17

S

R

15

T

12 11

~

0

U

7

14

10

D. LTp·3785

LTP·3784

12

.
B

1

18

15

14

6

5

4

2

13

17

8

12

11

DIGITl DIGIT2

fo"I ~

lGl

14

,.

17

81
.

3

~

1

C

01

~,

"

6.
1

F3

F1

E3

1

~' ~

E2

B2

4

F2

F4

OP

~,

0 P8

G

P

DIGIT

2

155 8 10

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

BRIGHT
RED

55

40

75

160

60

Continuous Forward Current Per Segment

25

Derating Linear From 25° C Per Segment

PARAMETER
Power Dissipation Per Segment
Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

Reverse Voltage Per Segment

ORANGE

HI.·EFF.
RED

UNIT

60

75

75

mW

tOO

80

100

100

mA

15

25

20

25

25

mA

0.3

0.18

0.3

0.24

0.3

0.3

mArC

5

5

5

5

5

5

V

GREEN YELLOW

Operating Temperature Range

- 25°C to + 85°C

Storage Temperature Range

- 25°C to + 85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C
5·158
821

ELECTRICAl/OPTICAL CHARACTERISTICS AT TA
LTP-537R/587R & LTP-3184R/3785R
PARAMETER

Average Luminous Intensity

= 25°C

MAX.

TEST
CONDITION

LTP-

SYMBOL

MIN.

TYP.

UNIT

537R/587R

Iv

200

500

).Icd

IF '" 10 mA

3784R/3785R

Iv

200

400

).Icd

IF "'lOmA

Peak Emission Wavelength

;>..p

655

nm

IF '" 20 mA

Spectral Line Half-Width

LI;>"

24

nm

IF'"

Forward Voltage, any Segment or D.P.

VF

1.7

Reverse Current, any Segment or D.P.
Luminous Intensity Matching Ratio

2.0

V

IR

100

).IA

Iv-m

2:1

20 mA

IF = 20 mA
VR =5 V
IF = 20 mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

00:

E

100

40

;J!.

-E

30

U

20

0

10

~
a;

25

0

c-

~

5

in
c

"
E
.,

80

"""

<0
LL

i':

:J

"~

-0

,

120

12

E
:J

20

24

V

"

>

40

a:

20

a:

II 1\

480

28

>
~
a;

j

o

16

15

...J

j)

o

c

60

Forward Voltage (V,) - Volts
Flg.1 FORWARD CURRENT Vs. FORWARD VOLTAGE

560

640

o

Wavelength ( }. ) - nm.
Fig. 2 SPECTRAL RESPONSE

1/

05

BOO

720

V

~

1- .

o

10

15

20

25

Forward Current (IF) -

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENT)

1000
800

28

1

24

"-

00:

E

E
~
5

U

20
16
12

500

"

"

E
I

g

"-

Cl
X

<0

:<
o

5-159

822

o

20

40

200

60

E

i'-.

~

5

U

J

I
so

90

""

50

-Iii

"

"-

in

,

c

2l

o

!

15 ~

~

.5

">

~
a;
a:

20
10

I

i':

.........

100
80

1

1 il

~ I'-..

00:

"

~

..............

1

10

20

50

100

10

20

40

DC

Ambient Temperatu!e (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE IF ~ 10mA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA

=

25°C

LTP-537P/587P
PARAMETER

SYMBOL

MIN.

Iv

300

Average Luminous Intensity

TYP.

MAX.

750

- - - I-----

-

TEST
CONDITION

UNIT

IF = 10 mA

/led

---~-------

--"--------- 1---

Peak EmiSSion Wavelength

AP

697

nm

IF '" 20 mA

Spectral Lille Half-Width

6A

90

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

IR

100

/lA

Iv-m

2'1

'-Reverse Current, any Segment or D.P.
Lumillous Intensity Matching Ratio

VR =5 V
IF'" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
{25°C Ambient Temperature Unless Otherwise Noted)
120

50

/



40

0::

20

jij
a;

/

/

o

20

16

60

0

J

o

I \

:J

II

"C

0
u-

e-

24

480

28

0;

"'\

80

:;

/

~

:;

;:

100

c

£
'"0

:J

c

E
:J

\

Forward Voltage IV,) - Volts

Wavelength I }, ) - nm.

Flg.1 FORWARD CURRENT Vs. FORWARD VOLTAGE

Fig 2 SPECTRAL RESPONSE

/'

05

o

......

o

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

500

24



jij
a;

\

640

15

..J

\

/

560

25

Q)

i'

E
~
:;

i'

u

0
x

U

I'- I'-..

~
o

o

I
20

40

60

80

90

Ambient Temperatu.re (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200
100
80

......

50

...........

~
Q)
0..

20

r-.... 1'jo..

10
10

20

50

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzl

5-160
823

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-537G/587G & LTP-3784G/3785G
PARAMETER

LTP-

MAX.

TEST
CONDITION

SYMBOL

MIN.

TYP.

UNIT

537G/587G

Iv

750

2000

pcd

IF = 10 mA

3784G/3785G

Iv

,600

1800

#lcd

IF=10rnA

Average Luminous Intensity

Peak Emission Wavelength

;\p

565

nm

IF'" 20 mA

Spectral Line Half-Width

6;\

30

nm

IF '" 20 mA

Forward Voltage, any Segment or D,P,

VF

2.1

2,8

V

IF = 20 rnA

Reverse CUrrent, any Segment or D.P.

IR

100

pA

Iv-m

2:1

Luminous Intensity Matching Ratio

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E

-E

40

e
20

0

10

~

u.

c?
:J

'"

-

480

28

Volts

"-

20

I
16

U
u
Cl

12

5-161

V
o

10

nm

15

20

Forward Current (IF) -

Fig 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT).

500

"

E
I

g

r'\.

4

20

824

800

720

40

1,\

«

x

~

o

640

L

os

V

1000
800

24

e:;

560

Wavelength ( )" ) -

28

E

'"'"

a;
a:

20

Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

15

">

IJ
24

Forward Voltage (V F )

«

E

40

~'"

20

/

t/

:J
..J

g!

J
16

c

60

C.

'5

o

II
12

25

E
'"0

80

:J

I

:;

u
'E

in

L

iii

V

30

,-~

100

60

E

"-

"~

U

1
I

80

90

'\.
200
100
80

. . . r--..

~

in
c

.......
.......

50

.......

'"

"'"

0..

20

, r-.

10

2l

"I'

1.5

oS

g">

......
........

£

......

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Tal - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHzl
(AVERAGE IF = 10mA PER SEG I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-537Y /587Y
PARAMETER

MIN.

TYP.

Iv

750

2000

}lcd

IF = 10 mA

Average Luminous Intensity

MAX.

TEST
CONDITION

SYMBOL

UNIT

Peak Emission Wavelength

AP

585

nm

IF = 20 mA

Spectral Line Half-Width

6A

35

nm

IF =20 mA

Forward Voltage, any Segment or D.P

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment

IR

100

}lA

Iv-m

2.1

Luminous Intensity Matching Ratio

VR = 5 V
IF = 20 mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/



40

w

20

0:

20

24

15

480

28

Forward Voltage (V,I - Volts
Fig 1 FORWARO CURRENT Vs FORWARD VOLTAGE

">

J

IJ

W

0:

\

560

05

o

640

720

800

Wavelength ( X I - nm
Fig 2 SPECTRAL RESPONSE.

'"

12

x

ro

E
I

g-

. . . . r---.,

E

"

:;;

o

10

15

20

25

30

\.



"

'-.......

~
0-

~

in

ro

W

0:

10

-

~

.......

1

10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

5-162
825

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-537E/587E & LTP-3784E/3785E
PARAMETER

LTP-

UNIT

TEST
CONDITION

2000

!led

IF = 10 mA

1800

!lcd

IF = 10 mA

SYMBOL

MIN.

TYP.

537E/587E

Iv

750

3784E/3785E

Iv

600

MAX.

Average Luminous Intensity

Peak Emission Wavelength

AP

630

nm

IF = 20 mA

Spectral Line Half-Width

AA.

40

nm

IF = 20 mA

Forward Voltage,any Segment or D.P.

VF

2.1

2.8

V

IF '" 20 mA

Reverse Current, any Segment or D.P.

IR

100

/LA

Iv-m

2:1

Luminous Intensity Matching Ratio

VR =5 V
IF'" 20 mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

5.

,-- -

E

-E

/
II

"

«

4.

3.

'0

2.

<;;
~

I.

(;
ll.

12

16

24

I--

«

E

20

E

16

-

~

5

()

12

.~

20

480

2B

5-163

826

\

560

05

o

640

BOO

720

I
o

/

V
10

15

20

25

30

Forward Current (1,1 - mA
Fig 3 RELATIVE LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

Wavelength ( }. I - nm
Fig 2 SPECTRAL RESPONSE

"-

I

500

«

"

E
I

g

~

)(

4

40

60

200
100

E so
~
5 50
()

1
I

20

j

q;
c::

/

1000
BOO

"o

15

"
">

o

"
.,
o

E

40

c::

24

/

..J

~
q;

Cl

:;;;

c

60

"
">

20

/

25

0

Forward Voltage (V,! - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

2B

c

e
.E
"'"

0

J

o

~
in

I

BO

S
B-

/
II

~

5

()

100

if.

_.

--,---

12.

~-

80

90

......

,

"

""-

.......
........
I.......

'".,
Q.

\.
\.

I

'"1"'-

i'

20
10

......

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 10mA PER SEG)

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA

=

25°C

LTP-537HR/587HR
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

750

2000

~cd

IF

= 10

mA

Average Luminous Intensity

UNIT

MAX.

Peak Emission Wavelength

AP

635

nm

IF

= 20

mA

Spectral Line Half-Width

C,A

40

nm

IF

= 20

mA

Forward Voltage, any Segment or D.P.

VF

2.1

20

mA

Reverse Current,any Segment or D.P.

Luminous Intensity Matching Ratio

IF =

2.8

V

IR

100

~A

Iv-m

2.1

VR

=5

IF

= 20

V

mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C

Ambient Temperature Unless Otherwise Noted)
50

/



20

V

...J

g

J
16

"'"

60

Qi

1.2

25

-=

0

10

o

c

-_.

~
0

'5c.
'5

/
/

20

80

-.
~
in

r

100

V

:;
U

-,--

120

'--,- r-I-

o

20

40

"-

C

100
80

:;

50

~

U

.

"1

80

......

I

,
.......

,

-"
Q)

0..

I

60

200

90

'\.
'\.
~
in
~

"

I'

....

20

""

15

.£

""

Q)

'."
>

Qi

a:

......

1

10
10

20

50

100

10

20

40

DC

Ambient TemperatuIe (Tal - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE% 5-164
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 10mA PER SEG J
827

·ILlTE(')~11

LTB-1400 SERIES
RED 7-SEGMENT MAGNIFIED
MONOLITHIC NUMERIC DISPLAYS

FEATURES
elNTEGRATED MAGNIFIER LENS.
e LOW POWER REQUIREMENTS.
eMONOLITHIC CONSTRUCTION FOR MAXIMUM
BRIGHTNESS AT MINIMUM POWER.
e COMMON CATHODE FOR SIMPLICITY OF MUL TIPLEXING.
eCATEGORIZED FOR BRIGHTNESS UNIFORMITY.

DESCRIPTION
The L TB-0022/0028/0038/004 7 & L TB-1466/1468/
1488/1498 are red numeric LED displays. Low cost
is achieved through minimum use of monlithic GaAsP
material and magnification to full height using a simple
integrated lens construction.
These displays are designed for multiplex operation
the desired digit being displayed by selecting the appropriate cathode. A right hand decimal point is provided.
All devices are optimized for low power portable
battery operated equipment uSing MOS and CMOS
integrated logic circuits.

DEVICES

5-165

828

PART NO.,
LTB-

DESCRIPTION

0022

2

0028

.

CIRCUIT

PIN
CODE

P.O •

BxB

MPX

A

A

?

xBS

MPX

B

A

0038

3

8:8.8

MPX

C

A

0047

4

88B8

MPX

. 'D

B

1466

6

xxB.8 8 8 8.8x

MPX

E

C

DISPLA Y FONT

,

1478

7

x8.8.8 8.8.8Hx

MPX

E

C

1488

8

x8..
8.8.8.8.8S.8.

MPX

E

C

1498

9

E3S.8.8.a.8S 8.8.

MPX

E

C

PACKAGE DIMENSIONS
A. L TB-0022/0028/0038
5.16

('227~1.60
(.063)

I

f

5·

7.49
(.295)

18.29±O.SO

( .720±.020

'27
~
IL
( 050)

R2.59
( R.(02)

---+--+-+-----+--+-----€t-I

KJ1-----+-----+'

(~;~~::~:~~~i;~0"0,)------~~11

~

B. LTB-0047

(.".,.",) I L~
1.21

/pl.aD

(0.039)

.

___

~I
(.050)

27.8 :to.50
(100941.020 1

--------EIl-

2.54~11:27.04

LIo88

(.,00.,1=1.,00) - - - - - '

c.~-----(7:;~~~~~~~)

(.014)

--------..l

C. LTB-402/1466/14 78/1488/149R

r----___________ 48 • 96 ±O.50
(1.928=.020)

r------------

5.09><8=40.72

(.200><8-" 1.603)

.. t:::::;::::=-i
8.12
(.3:20)

18.28±0.50

( .720±.020)

R2.59
(R.,D2)

I

1....~

2.54><17= 43.18

_ _ _ _ _ _ _ _-<(.100><17= 1.70DJ-_ _ _ _ _ _ _ _ _.,..J

¢ll.00
(0.039)

'---------------:(~~~~~~~~~~)

NOTE: All dimensions are

In

millimeters
(inches)

• tolerance

IS

0.25mm
(0.010")

unless otherwise noted.
5-166

829

INTERNAL CIRCUIT DIAGRAM
A. LTB·0022
DIGIT 1

..

A

C .•

11

10

4

5

DIGIT 3

E

F

3

9

G OP

8

A

B

A

B_1

D.!

C

F

G OP

F

G 0

6

B. LTB-0028
DIGIT 3

DIGIT 2

,

A

B

11

c.

10

E

0

C

4

5

G~D,!

F

3

9

8

E

0

6

LTB-0038
DIGIT 1

~B

C

DIGIT 2

e

0

B

A

G OP

F

11

C

10

0

4

F

E

5

3

A

GOP

9

8

B

DIGIT

3

C

E

0

F

G DP

6

D. LTB-0047
DIGIT 1

A

10

5-167

830

B

9

C

6

DIGIT 2

0

E

5

3

F

11

G

4

A

B

C

0

DIGIT 3

E

F

G

A

B

C

DIGIT 4

0

E

F

G

AI'-~ c

0

E

F

G

PIN NO.

LTA-1488

LTA-1478

LTA-1466

1

NC

LTA-1498

NC

NC

NC

NC

2

Digit 1

NC

NC

NC

V

3

Segment C

Segment C

Segment C

Segment C

4

Digit 2

Digit 1

Digit 1

NC

DP

DP

DP

DP

6

Digit 3

Digit 2

Digit 2

Digit 1

7

Segment A

Segment A

Segment A

Segment A

8

Digit 4

Digit 3

Digit 3

Digit 2

9

Segment E

Segment E

Segment E

Segment E

10

Digit 5

Digit 4

Digit 4

Digit 3

11

Segment D

Segment D

Segment D

Segment D

12

Digit 6

Digit 5

Digit 5

Digit 4

13

Segment G

Segment G

Segment G

Segment G

14

Digit 7

Digit 6

Digit 6

Digit 5

15

Segment B

Segment B

Segment B

Segment B

16

Digit 8

Digit 7

Digit 7

Digit 6

17

Segment F

Segment F

Segment F

Segment F

18

Digit 9

Digit 8

NC

NC

=

ANODE

V
V

5

ABSOLUTE MAXIMUM RATINGS AT TA

CATHODE

V
V
V
V
V
V
V
V
V
V
V
V

V

25°C
SYMBOL

MAXIMUM RATING

UNIT

Average Forward Current Per Segment/D.P. Direct Drive Current

PARAMETER

ICF

5

mA

Peak Forward Current Per Segment/D.P. (Duty 1/10 1 KHz)

IPF

40

mA

Reverse Voltage (Segment of Decimal Point)

VR

3

V

Operating Temperature Range

Topr

_250 C to 60° C

Storage Temperature Range

Tstg

_25° C to 70° C

Power Dissipation per Digit

Po

50

mW

Max. Solder Temperature 260°C From 3 Seconds at 2mm From the Case or Reflector Edge

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
f'ARAMETER

SYMBOL

MIN

TYP

= 25°C
MAX

UNIT

TEST CONDITION

Luminous IntensitY per Digit

Iv

100

!-Icd

IF = 5 mA

Peak Emission Wavelength

i\p

655

nm

IF = 5 mA

Spectral Line Half-Width

Ai\

40

nm

IF = 5 mA

Forward Voltage

VF

1.6

Reverse Current

IR

!-IA

VR =5V

Luminous Intensity Matching Ratio

Iv-m

2:1

IF = 5mA

IF = 5 mA
100

5-168
831

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C

Ambient Temperature Unless Otherwise Noted)

50

E

-E

40

30

~

u
"E
;:

.

20

(;

10

100

/

5

II

u.

16



J
12

,

120

j
II

~

li

20

480

Forward Voltage (V,) - Volts
Fig. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

560

~

~

.J

o

28

640

800

720

Wavelength ( A ) - nm
Fig. 2 SPECTRAL RESPONSE

28

~
in

v

25

~

5

.!:
~

~

15

~

...J

">

"..

a;
a:

~

05

o

~

o

"

I"

16

E
~

~ f.--

~ ~I-..

20

E
I

V

'"
0
E

24

r--....

12

~

U

.....

u
0

.

l'\

I"-

10

15

20

25

o

3D

Forward Current (I,) - rnA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

"Q-'
l'

x
:;:

o

40

20

60

80

90

Ambient Temperature (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

1000
800
500

~

g
E
~

~
in
~

I'i'..
10.
80

5
u

50

0..

2.

""..
"

l'1"-

200

5

.E

""" i'- ...... r"-~
o

a:

I........
............
......~

1
10

20

50

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
IREFRESH RATE - F ~ 1 KHzl

5-169

~

iii
a;

i'

I.

832

'5

">

t-

10

20

40

oc

Duty Cycle %
Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE %
(AVERAGE I, ~ 10mA PER SEG I

ILITE~le..,j~ ~~ II: LTF 216141/804 SERIES
0.2" & 0.3" MULTI·DIGIT DISPLAYS

FEATURES
00.2 & 0.3 INCH (5.08mm/7.6mm) HEIGHT CHARACTER RED COLOR .
.. COMMON CATHODE, MULTIPLEX PINOUT ARE
AVAILABLE.
oCONTINUOUS UNIFORM SEGMENTS.
oWIDE ANGLE, LONG DISTANCE VIEWING .
.. COLOR FILTER PROVIDES HIGH CONTRAST.
o LOW POWER REQUIREMENTS, HIGH RELIABILITY AND LONG LIFE.
o RED (GaAsP) 14 DIGIT LED CLOCK DISPLAY
VERSION
STANDARD
BRIGHT RED
(GaP)
DISPLAY SUFFIX PARE AVAILABLE.

DESCRIPTION
The L TF-2000 Series devices are designed for viewing
distance of up to two meters and for using In instrument, test equipment, communication equipment,
business machines, computers, microprocessor ... etc.

DEVICES
DESCRIPTION
PART
NO.
LTF-

DRIVE

COLOR
BRIGHT
RED

DISPLAY
FONT

PACKAGE
DEMENSION

PIN
CONNECTION

x888 8 8 8 8 8 8 8 8.8 8.8x

A

A

FORM

CIRCUIT

216141Al

C. C.

MPX

216141A1P

C. C.

MPX

V

x8 8 8 8 8 8 8 88 888 88 x

A

A

804-12P

C. C.

MPX

V

8888.88888888

B

B

804-12

C C.

MPX

8888888888.88

B

B

804-08P

C. C.

MPX

xx88888888xx

B

B

804-08

C. C.

MPX

xx88888888xx

B

B

NOTES: 1. C.C. common cathode

RED
V

V
V
V
2. MPX multiplex

5-170

833

PACKAGE DIMENSIONS
A. LTF-216141A1P

I
-~--I

I

I

I
2.54>e23=58.42

_J

'--_ _ _ _ _ _ _--4 0100 )(23=2.300-1-_ _ _ _ _ _ _- - - '
74.16

$0.89
(0.035)

.. -·~-----f2.92'UJ----_ _ _ _ _ _ __'

t"20
-(.047)

4.50

(.177)

85.34.:!:O.50

'----------~~--f3.360±.020)

B. LTF-804

r
rt
(04001

23,37±0.50

r~·

(.92o±

(orO)

109.22

(4.300)

-

0035)
~~~ lr·~·90

16.02± 0.50
(.631 ± .020 )

NOTE: All dimensions are

In

_ ________________________ " "'-

~

tl

$1.00
(0.039)

2.541<19=48.26
(.100><19= 1.900)

!.

J,

~

I

(~~O~~)~

60.32
(2.375 )

120.SS± 0.50

mi(\I~~:::;S. tolerance is ~O~051~~)

unless otherwise noted.

3)

r-

I

L __ -""______________________

f~
.23.

5.08

r'\ !O=U""'~~O q, n qc~Wnt:/[jJc7J q'bfLllc:JlJlcUcO r'\
'\ pt:/o.n=O$nc#o.nt:/o.ncO.A:J~~cU./Jc7J. oco.oco.ocu. oco~ ,../

l__ ~:=

5-171

'O

o

(:;~~) r--

i~ '---~--__;b---;;---- ,,~--- p~L~--~- __ ~~--t;.t-~U---;; ~

(0.146)

834

93.50:!:8:~g
(3.681~:~)

,.•t

.3°r

II
+

II

L_

PIN CONNECTION
A. LTF-216141
FUNCTION

PIN NO.

1

Pad A Anode

2

PIN NO.

PIN NO.

FUNCTION

9

Digit 7 Cathodes

17

Digit 11 Cathodes

Digit 2 Cathodes

10

Segment E Anode

18

Segment F Anode

3

Digit 3 Cathodes

11

Digit 8 Cathodes

19

Digit 12 Cathodes

4

Digit 4 Cathodes

12

Segment A Anode

20

Segment B Anode

5

Digit 5 Cathodes

13

Digit 9 Cathodes

21

Digit 13 Cathodes

6

Decimal Point Anode

14

Segment G Anode

22

Digit 14 Cathodes

7

Digit 6 Cathodes

15

Digit 10 Cathodes

23

Digit 15 Cathodes

8

Segment C Anode

16

Segment D Anode

24

Pad B Cathode

LTF-804-8

B. LTf-804-12
PIN

FUNCTION

FUNCTION

PIN

FUNCTION

PIN

FUNCTION

FUNCTION

PIN

1

Digit 1 Cathodes

11

Digit 11 Cathodes

1

Nc

11

Nc

2

Digit 4 Cathodes

12

Segment A Anode

2

Digit 4 Cathodes

12

Segment A Anode

3

Digit 3 Cathodes

13

Segment B Anocde

3

Digit 3 Cathodes

13

Segment B Anode

4

Digit 2 Cathodes

14

Segment C Anode

4

NC

14

Segment C Anode

5

Digit 5 Cathodes

15

Segment D Anode

5

Digit 5 Cathodes

15

Segment D Anode

6

Digit 6 Cathodes

16

Decimal Point Anodes

6

Digit 6 Cathodes

16

Decimal Point Anodes

7

Digit 7 Cathodes

17

Segment G Anode

7

Digit 7 Cathodes

17

Segment G Anode

8

Digit 8 Cathodes

18

Segment F Anode

8

Digit 8 Cathodes

18

Segment F Anode

9

Digit 9 Cathodes

19

Segment E Anode

9

Digit 9 Cathodes

19

Segment E Anode

10

Digit 10 Cathodes

20

Digit 12 Cathodes

10

Digit 10 Cathodes

20

Nc

5-172

835

ABSOLUTE MAXIMUM RATINGS AT TA

=

2SoC

PARAMETER

SYMBOL

RED

BRIGHT
RED

GREEN

UNIT

Average Forward Current Per Segment/D.P. Direct Drive Current

leF

25

20

20

mA

Peak Forward Current Per Segment D.P. (Duty 1/10 1 KHz)

IpF

200

150

150

mA

IF Ipulse

30

30

30 30

VR

5

5

5

V

Continuous Forward Current Duplex Circuit (Duty 1/2)
Reverse Voltage (Segment of Decimal Point)

mA

Operating Temperature Range

Topr

-25°C to 60°C

Storage Temperature Range

Tstg

_25°C to 70°C

Power Dissipation Per Segment

Po

60

60

60

mW

0.35

0.42

0.42

mA/oC

Derating Linear From 25°C

Max Solder Temperllture 260°C C From 3 Seconds at 2mm From the Case or Reflector Edge
NOTE: Caution
Please be careful of the follOWing.
1) Avoid washing the LED DISPLAY In water.
2) Except for the printed wiring board, Avoid heating the LED DISPLAY over MAXIMUM RATING.
3) Avoid using chemicals except for the following, when washing off flux and wiping off stain on surface of
the LED DISPLAY
Freon TE or TF
Methyl or Ethyl Alcohol
Dai-Fron Solvent S3 or S3-E

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
PARAMETER

SYMBOL

Luminous Intensity

Iv

Peack Emission
Wavelength

AP

Spectra I Li ne
Half-Width

AA

Forward Voltage

VF

Reverse Current
Luminous Intensity
Matching Ratio
5-1 T3

836

DEVICES

MIN.

TYP.

RED

35

70

BRIGHT RED

40

80

RED

630

655

=

2SoC

MAX.

TEST CONDITION

",cd

IF'" 10 mA

nm

IF =20mA

nm

IF =20 mA

V

IF =20mA

680

BRIGHT RRE

697

RED

24

BRIGHT RED

90

RED

1.7

2.2

BRIGHT RED

2.1

2.8

RED

100

BRIGHT RED

100

All Model

2:1

IR

Ivm

UNIT

p.A

VR =5V

IF "'10mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

E

-C'

/

40

/

20

80

Sc.
S

60

0

/

"E

~

;f-

30

~

0;

100

/

:;
U

,,

120



~

Qi

j

U.

12

16

,\

/

II

\

40

\

20

\

0::

24

20

J

o

28

480

Forward Voltage IVF) - Volts
Fig 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

\

560

640

800

720

Wavelength ( ~ ) - nrn
Fig. 2 SPECTRAL RESPONSE

28

~
~

24

25

/

c

.E"
:J
'"
0
C

E
:J

15

"2

fI'

0;
0::

05

o

E
I

/

...J

Qi

 x 32mm

~

~

f-

1/16"
Soldeclo,
Bath

3. PREVENTING OVER CURRENT
3.1

Do not overcurrent

3.2

In order to operate Liton LED displays under stable conditions. Put protective resistors in series (Fig. 1).
ReSistor values can be determined by supplYing voltage or current for the led display. Recommended current
IS In the range of forward current 5mA to 20mA.

.

3.3

Circuit must be deSigned so that overvoltage (overcurrent) IS not applied to the LED dUring on/off sWitching.
Transients or pulse current will damage the junction of LED die.

Rx

4.

BRIGHTNESS AND COLOR
4.1
4.2
4.3
4.4

5.

For obtalnning even brightness. Each segment should be at the same current, so the best circuit design IS to
supply constant current for each segment.
To Increase brightness. Increase current. But do not over maximum rating.
To check the appearance defect of LED display, the viewing distance should be 30cm minimum.
For obtalnnlng more uniform brightness on yellow and green display. The supplYing forward current
should over 1OmA, but do not over maximum rating.

HOW TO TEST LUMINOUS INTENSITY OF LED DISPLAY
5.1

5.2

EqUipment: Taktronlx
A. J 16-Photometer
B. J6501-Yellow & Green Probe
C. J6505-Red Probe
Measurement Hints
, - - - - - - Display

5.3

5.4

Filter

LED Probe and Adapter
At one foot, one footcandle IS equ Ivalent to one candela.
At 3.8 Inches one footcandle IS equivalent to 100mililcandelas.
The average luminOUS Intensity IS obtained by summing the luminous intensity of each segment and dividing
by the total number of segments. The numeric displays are categorized for luminous intenSity with the intensity
category designated by a letter located on the Side of the package.

6-6
847

:.HOW:.TO USE.·LITON ·LED.·DISPLAYS.:
6.

RELIABILITY TESTS AND CONDITIONS
TEST

Operating Life Test

CONDITONS
IF '" maximum rating current
Ta" 25°C ± 5"c
1000 +72 Hours
-24

High Temperature
storage test

low Temperature
storage test

High Temperature
high humidity Test

Ta '" 65°C ± 5°C (Air type)
Ta'" 85°C ± 5°C (Epoxy type)
1000 +72 Hours
-24
Ta'" 25°C ± 5°C (Air type)
Ta = 35°C ± 5°C (Epoxy type)
1000 +72 Hours
-24
Ta'" 40°C ± 2°C RH= 90 -95%
(Air.type)
Ta = 65°C ± 2°C RH '" 90 - 95%
(Epo>s.V type)

DESCRIPTION

This test is conducted for the purpose of
determining the resistance of a part in
electrical and thermal stresses.

The purpose of this test is to determine
the resistance of the device which is laidunder condition of high temperature for
hours.
The purpose of this test is to determine
the resistance of the device which is laid
under condition of low temperature for
hours.

The purpose of this test is to determine
the resistance of the device under
tropical condition for hours.

1000 +72
Hours
-24

6-7

848

Thermal Shock Test
(Air to aid

_25°C ± 5"c to 65°C ± 5°C (Air type)
_350 C ± 50 C to 85" C ± 5° C
(Epoxy type)
10 Min./Temp., Transfer 5 Sec.
10 Cycles

The purpose of this test is to determine
the resistance of the device to sudden
extreme. Transition time between temp.
Ambients shall be 5 sec. maximum

Solderability Test

(Ta = 230°C ± 5°C)
Dwell flux T '" 5 ± 1 Sec.
Dwell solder T 5 ± .5 Sec.

This test is intended to see soldering
is well performed or not.

Drop Test

o ~ 9kg H = 760mm
9.1 - 22kg H = 610mm
22.1 - 45.5kg H = 530mm
one angle, three corners, six surfaces.

. This test is intended to see the certain
height drop to affect the device.

Vibration Test

F'" 600·3600RPM
Amplitude = 1.5mm
At acceleration of 9G T'" 15 min.
To each direction.

This vibration test is intended to
determine the suitability of the device.

7. MECHANICAL

I..

[f

.. ,

A

.-

..

..

--

-.

--

J

..

Window

~
- ..

IA

Flg.3

J:--

Ref. Dim. +1mm.

'/

r

8. 8mm.
Window

_lLDISPlay

II 1A

II

__ dJ

'-'=-Panel Type
Fig.4

Notes:

f~

~~

A

j

r
~

Type

rn-DisPlay

Ir

Window
Ink Mask (coverlet)

1. For mechanical deSign of LED display application, we recommend to refer Fig. 3 and Fig. 4.
2. For 8.6" - 1.8" clock display of liton's product, the "A" dimension deSign should cover typically O.5mm
on the each edge of lite pipe. For the special type LED clock display, such as the segments or the dots are
too close to the edge of lite pipe. To obtain the O.5mm buffer area, the "A" dimension should be adlusted
to the optlmun. Please refer to the detail package dimensions In Liton's data book.

6-8

849

8. The BIN brightness classification as follow:
CATEGORY A:

/.Icd/seg.

BIN CODe

A

B

C

RANGE

80130

131210

211340

PROPERTY:

D
341540

E

F

G

541860

8611380

13812210

H
22113540

J

K

35415660

56619060

LTS-4x05A, 4x1 OA, 4x30A, 4x80A, 6x60, 6x75, 6x80, 6x95
LTD-322,323,6x10,6x30,6x40,6x50
LTA-1000
LTL-5x173
LTM-8522, 8529, 8530.

CATEGORY B:

/.Icd/seg.

D

BIN CODE

B

C

RANGE

5080

81130

PROPERTY:

F

G

H

341540

541860

8611380

E

131- 211210 340

J

L

K

M

LTS-31 xA, 36x ,54xA, 340x
LTD-4x2, 524, 52xO, 5x5
LTP-5x7, 378x
LTM-8647
LTC-5x36, 5x37

CATEGORY C:

/.I cd /seg.

B

A

BIN CODE

E

F

G

H

I

281370

371480

481620

621810

8111050

D

C

100- 131- 171- 221130 170 220 290

RANGE

J

BIN CODE

N

P

a

R

s

RANGE

30013900

39015070

50716590

65918570

857111140

PROPERTY:

T

6-9

850

1448118820

/.Icd/seg.

D

E

F

RANGE

711820

821940

9411080

PROPERTY:

U

1114114480

All single color matr,ix . ser,ies displays.
(L TP-2x44 Exclude)

BIN CODE

RANGE

M

L

K

1051- 1371- 1781- 23111370
1780
3000
2310

CATEGORY 0:

BIN CODE

P

N

1381- 2211- 3541- 5661- 9061- 145019060 14500 23200
3540
5660
2210

G

H

1081- 12411240
1430

s

I

J

K

L

M

N

14311640

16411890

18912170

21702£"00

25012880

28813310

x

P
a
R
V
W
Y
Z
T
U
z\
3311- 3811- 4381- 5041- 5801- 6671- 7671- 8821- 10141- 11661- 13411- 154214380
5040
5800
6670
7670
3810
8820 10140 11660 13410 15020 17730
All multi-color dot matrix. ser,les display.
(LTP-2x44 Exclude)

CATEGORY E:
BIN CODE

3
131.8

RANGE
PROPERTY:

mcd/seg.
2
1.92.5

1
2.63.5

B
5.17.0

A
3.65.0

C
7.110.0

D
10.114.0

E
14.120.0

F
20.128.0

G
28.139.0

M
39.155.0

J
55177.0

LT J-811
LT L-2xOO, 2x20, 2x50, 2x55, 2x85
LTP-2x44
/Jcd/seg.

CATEGORY F:
BIN CODE

3

2

1

A

B

C

D

E

F

G

H

RANGE

220320

321380

381450

451520

521630

631900

9011250

12511750

17512450

24513430

34314450

PROPERTY:

LTP-305

CATEGORY G:
BIN CODE
RANGE
PROPERTY:

mcd/seg.
E
2.03.2

F

3.35.0

G
5.18.0

H

J

K

L

M

8.113.0

13.121.0

21.134.0

34.154.0

54.186.0

N
86.1138.0

0

138.1221.0

LTS-30x01, 30x02, 50x01, 50x02, 10x04, 10x05.

NOTE: 1. The average luminous intensity is obtained by summing the luminous intensity of each segment and dividing
by the total number of segments. The displays are categorized for luminous Intensity with the intensity
category designated by a letter located on the side of the package. The BIN brighteness classification is as
above.
2. Please put same BIN grade of brightness together when displays are assembled together for the uniformity.

6-10
851

ILITEr.) ~ II

LTP-3~5

SERIES

0.3" 5 x iSINGLE COLOR DOT MATRIX DISPLAYS

FEATURES
_0.3 INCH (7.62mm) MATRIX HEIGHT.
_CHOICE OF THREE BRIGHT COLORS-RED/
GREEN/HIGH EFFICIENCY RED.
- !-UGH BRIGHTNESS.
-SINGLE PLANE, WIDE VIEWING ANGLE.
_SOLID STATE RELIABILITY.
-36 LIGHT EMITTING DIODES.
- LOW POWER REQUIREMENTS.
- 5 x 7 ARRAY WITH X-Y SELECT AND DECIMAL
POINT.
-COMPATIBLE WITH
USASCII
AND EBCDIC
CODES.
- CATEGORIZED FOR LUMINOUS INTENSITY.
- EASY MOUNTING ON P.C. BOARD OR SOCKETS.

DESCRIPTION
The LTP-305 series are 0.3 inch (7.62mm) matrix
height 5x7 dot matrix displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The green series
devices are utilize LED chips which are made from GaP
on a transparent GaP substrate. The high efficiency red
series devices utilize LED chips which are made from
GaAsP on a transparent GaP substrate. Red displays
Green displays have green
have red package color.
package color.
High effiCiency displays have red
package color.

DEVICES
PART NO. L TP-

6-11

852

RED

GREEN

HI.-EFF
REI?,

305R

305G

305HR

'.

DESCRIPTION

Anode Column, Cathode Row; Lt. Hand Decimal

PACKAGE DIMENSIONS

COL.
1 234 5

DODDDl

000002

_8 ggg8__

7.62

000 DOC. 300

(.728)

~

DDDDO
c DD?IlD-

00000 3
aODDD 4

18.50

'-------L+-'---

000005
aODCD 6

000000 7
OP
ROW.

BOTTOM MARK

LTP: PART NO.
TXXX: DATE CODe

Z: BIN CODe

-r.;;;;:~-d0'50
MIN.

(.120±.050)

7.05
(.278)

1----=

0.30

----..,

(.012)

L J

0.50
(.020)

7.62
(.300)

NOTE: All dimensions are

In

millimeters
(inches)

tolerance are:

1. Lead length (from seating plane): minimum valum

+1.00
-0.000
+0.040"
-0.000"

mm

2.

±0.25mm
(0.010")

unless otherwise noted.

PIN CONNECTION
PIN
NO.

1
2

3
4
5
6
7

CONNECTION
Anode, Column 2
Cathode, Row 1
Cathode, Row 3
Cathode, Row 4
Anode, Column 1
No Pin
Anode, Decimal (Point)

PIN
NO.

8
9
10
11
12
13

14

CONNECTION
Anode, Column 3
Cathode, Row 7
Cathode, Row 6
Cathode, Row 5
Cathode, Row 2
Anode, Column 5
Anode, Column 4

6·12
853

INTERNAL CIRCUIT DIAGRAM
COL.

ROW

2

6

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

GREEN

HI.-EFF.
RED

UNIT

Power Dissipation Per Display

750

1000

1000

mW

Peak Forward Current Per Dot
(1/10 Duty Cycle, 0.1 ms Pulse Width)

100

60

60

mA

Continuous Forward Current Per Dot

20

20

20

mA

0.25

0.25

0.25

mAfC

5

5

5

V

PARAMETER

Derating Linear From 25°C Per Dot
Reverse Voltage Per Dot

6-13

854

Operating Temperature Range

_25° C to +85° C

Storage Temperature Range

_250 C to +85 0 C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-305R

25°C

=

UNIT

TEST
CONDITION

400

/.Lcd

Ip = 48 mA
1/8 DUTY

i\p

655

nm

IF = 20 mA

Spectral Line Half-Width

Ai\

24

nm

IF = 20 mA

Forward Voltage any Dot

VF

1.7

20

V

IF =20 mA

Reverse Current, any Dot

IR

100

/.LA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average LuminolJs Intensity

Iv

200

Peak EmiSSion Wavelength

Luminous Intensity Matching Ratio

MAK

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

~

z-

<{

E
-

~

30

U

20

"

"#.

80

'5
"'5

60

~

40

c

E
>

20

24

/

/

iii

Qi

zo

/

a
16

15

...J
W

OJ

~

10

12

480

28

640

560

cr.

\

28

1000
800

24

500

as
a

800

720

1- --

a

10

7
15

/

20

25

T
!

<{

<{

E

20

E

16

E
I

1"........

~

12

u
Cl

g
I'..

E
~

1"-

x

"

U

~
40

60

80

"

c.

I
20

:
100
80

90

Ambient Temperatu.re ITa) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

I

I

200

r---.

!

"'" I '

'~

50

t--.

-'"
OJ

'r'l

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSI"FY V5
FORWARD CURRENT (PER SEGMENTI

Wavelength ( ). I - nm
Fig 2 SPECTRAL RESPONSE

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

"

:£
"'"0

25

"

"

~

LL

U

c
w

""\

o

"0

"a

~

100

40

20

r---.

...........

1-1-

....... I-....

1

10
10

20

50

100

10

20

40

II
U
DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

6-14

855

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-305G SER I ES

25°C

=

UNIT

TEST
CONDITION

1600

~cd

Ipoo48mA
1/8 DUTY

AP

565

nm

IF'" 20 mA

Spectral Line Half-Width

AA

30

nm

IF = 20 mA

Forward Voltage any Dot

VF

2.1

2.8

V

IF =20 mA

Reverse Current. any Dot

lA

100

~A

lv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous intensity

Iv

600

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)
50

120

L



o
20

/

...J

>
~
a;

480

28

~
a;
0:

J
560

05

o

640

800

120

Wavelength ( A I - nm
Fig 2 SPECTRAL RESPONSE

20

E

16

~

/

o

V
10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSI,Y Vs
FORWARD CURRENT (PER SEGMENTI

~

500



//

/
,5

">

40

"
rr:
ro
Qi

\

20

480

28

If

560

I

\

05

o

640

800

720

I
o

/

10

15

20

Forward Current (IF) -

Wavelength ( ).. I - nm
Fig 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

1000
800

I\,

500

24

«

E
I

20

'"

'6
'2

0

x

ro

:::;

o

/

25

:s"

1-

o

20

--

?:

.J

">
ji;

«

U
u

----

--,---

0

28

E
I!!
5

(

~

'"::>0

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE.

E

~~--

'00

/
II

I!!

'20

~--

/
II

«

E

~

o

20

40

.......

\.
200

E-

........

E

" h
........

60

I

80

90

DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE
Ambient Temperature (Ta) -

I!!

5

U

'00
80
50

i'-

?:
;;;

..........

'~

~

"

Cl.

20
'0

ec
.5
">
ji;

r--..

Qi

rr:

,
10

20

Duty Cycle %

50

"-

'5

100

'0

""' "-

20

.......

40

DC

Duty Cycle %

Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ l0mA PER SEG I

6-16
857

ILITEr.] ~ II

LTP- ~:~ SERIES
0.7" 5x 7 SINGLE COLOR DOT MATRIX DISPLAY

FEATURES
•
•

•
•
•
•
•
•
•

0.7 INCH (17.2 mm) MATRIX HEIGHT.
CHOICE OF SIX BRIGHT COLORS - RED I
BRIGHT RED I GREEN I YEELOW I ORANGE I
HIGH EFFICIENCY RED.
LOW POWER REQUIREMENT.
5 x 7 ARRAY WITH X-Y SELECT.
COMPATIBLE WITH USASCII AND EBCDIC
CODES.
STACKABLE VERTICALLY AND HORIZONTALLY.
CHOICE OF TWO MATRIX ORIENTATION
CATHODE ROW, OR CATHODE COLUMN.
EASY MOUNTING ON P.C. BOARD OR SOCKETS.
CATEGORIZED FOR LUMINOUS INTENSITY.

fJ}J1II/.

DESCRIPTION
The LTP-747/757 series are 0.7 inche (17.2 mm)
matrix height 5 x 7 dot matrix displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow,
orange and high-efficiency red series utilize LED chips
which are made from GaAsp on a transparent GaP
substrate. The red, green, yellow and orange displays
have gray face and white dot color. The bright red and
high efficiency red displays have red face and red dot
color.

DEVICES
PART NO. L TP-

,
YELLOW

ORANGE

HI.·EFF,
RED

747R

747G

747Y

747E

747HR

Anode Column, Cathode Row

A

757R

757G

757Y

757E

757HR

Cathode Column; Anooe Row

B

,.'

858

ITERNAL
CIRCUIT
DIAGRAM

GREEN

RED

6-17

DESCRIPTION

PACKAGE DIMENSIONS

COL. 1

2

3

4

5

00000'
00000
00000
0000000000·
00000·
00000
2

3

7

ROW

U
IholDa)
7 •• 2

NOTE: All dimensions are In

6.30

~)

t3.BO

4

millimeters
(inches)

tolerance are:
+1.00

1. Lead length (from seating plane): minimum valum __-=O.:..:.O:..::O=-O_mm 2.
+0.040"
-0.000"

±0.25mm
(0.010")

unless otherwise noted.

PIN CONNECTION
CONNECTION
PIN NO.
LTP·747

LTP·757
Cathode Column 1

1

Anode Column 1

2

Cathode Row 3

Anode Row 3

3

Anode Column 2

Cathode Column 2

4

Cathode Row 5

Anode Row 5

5

Cathode Row 6

Anode Row 6

6

Cathode Row 7

Anode Row 7

Anodel Column 4

Cathode Column 4

8

Anode Column 5

Cathode Column 5

9

Cathode Row 4

Anode Row 4

Anode Column 3

Cathode Column 3

11

Cathode Row 2

Anode Row 2

12

Cathode Row 1

Anode Row 1

7

10

"

6-18

859

INTERNAL CIRCUIT DIAGRAM
A. LTP-747

B. LTP-757

ROW

ROW

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
RED

GREEN

YELLOW

ORANGE

HI.·EFF.
RED

UNIT

45

60

50

60

60

mW

Peak Forward Current Per Dot
(1/10 Duty Cycle, 0.1 ms Pulse Width)

120

80

60

80

80

mA

Continuous Forward Current Per Dot

20

20

16

20

20

mA

0.24

.0.24

0.2

0.24

0.24

mAfC

5

5

5

5

5

V

PARAMETER
Power Di ssi pati on Per Dot

Derating Linear From 25° C Per Dot
Reverse Voltage Per Dot
Operating Temperature Range

_25° C to +85° C

Storage Temperature Range

_25°C to +85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260° C
6-19
860

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-747R/757R

=

25°C

UNIT

TEST
CONDITION

500

/lcd

Ip -48 mA
1/8 DUTY

i\.p

655

nm

If = 20 mA

Spectral Line Half-Width

t>i\.

24

nm

IF

Forward Voltage, any Dot

VF

1.7

Reverse Current. any Oct·

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

200

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

= 20 mA

2.0

V

IF =20 mA

IR

100

/lA

VR =5V

Iv-m

2:1

IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

'E"

120

if

-E

30

U

20

0

10

0;
0:

in
c

80

'"0

5

e

c

60

E
:J

:J

l'

">

40

">

20

0;
0:

20

24

480

28

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARO VOLTAGE

V 1\

E
~
5

U

24

500

'E"I

16

.......

12

"

0

x

~
20

40

g

"-

"

60

E
~
5

U
-'"

~

I

80

"'"

0..

90

Ambient Temperature (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

640

a
800

720

200
100
80

V

V

lL'

1 __

a

10

15

20

25

Forward Current (IF) -

Fig 2 SPECTRAL RESPONSE

1000
800

i'-.

560

05

Wavelength ( ~ I - nm

28

20

1/

iii

a
16

15

...J

iii

12

'"E

25

:s"
:J

"~

;:
'"
Ci
LI.

~

100

40

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

II
I!
:

i'..

"-

I
I

.......

~

I'..

50

['.

20

Kr---...........

I'-

10

....... r-..

10

20

50

100

I
I'"

1
10

20

40

J.
DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

6-20
861

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-747Y /757Y
UNIT

TEST
CONDITION

2000

~cd

Ip =4SmA
l/S DUTY

AP

585

nm

IF = 20mA

A

35

nm

IF" 20 mA

Forward Voltage, any Dot

VF

21

2.S

V

IF =20mA

Reverse Current, any Oct

iR

100

p.A

VR=5V

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

700

Peak Emission Wavelength
Spectral Line Half-Width

I::.

Luminous Intensity Matching Ratio

MAX.

IF=20mA'

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

q;

E

40

I

-E

/

:;;

;:

15



40

~

2D

o
20

24

480

28

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

iii
0;
a:

\

560

V
15

>

1

Ii

L

:£
:J
'"0

o

iii

o

640

720

800

Wavelength I " ) - nm
Fig 2 SPECTRAL RESPONSE

24

E

16

5

12

o

10

15

20

25

30

Forward Current II,) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENT)

I\.

500

q;

q;
20

/

05

V

1000
800

28

E

L

25

~



:J

j

E
I

i!!

U
u

in

:J

/
II

20

"0

LL

?:

100

30

i!!

5
u

/

g

.......

E
i!!

"'r-... .......

0

X

::;
'"

5

U

40

60

?:
100
80

'"

r-.

c

~

60

90

1.5

.f

50

........



0..

"' "-

in

~

0<

I

20

\.

200

20



>

r-... i'~

iii

0;

a:

10

-

""

~

......

1
10

20

50

100

10

20

40

DC

Ambient Temperature ITa) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
IAVERAGE I, ~ 10mA PER SEG )

6-21
862

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-747G/757G

PARAMETER

UNIT'

TEST
CONDITION

2000

!lcd

Ip =48 mA
1/8 DUTY

565

nm

IF =20mA

30

nm

IF =20 mA

2.8

V

IF =20mA

1J.A

VR =5V

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

700

Peak Emission Wavelength

i\p

.

MAX.

Spectral Line Half·Width

6i\

Forward Voltage, any Dot

VF

Reverse Current, any Oct

IR

100

Iv·m

2:1

Luminous Intensity Matching Ratio

2.1

IF=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

/

«

E

40

30

~:;
ro
~

0

10

12

16

/

E
::>

">

">

40

iii

iii

Qi

Qi

a:

20

a:

o
24

15

..J

4BO

2B

I

05

o
560

640

BOO

720

Wavelength ( A ) - nrn
Fig 2 SPECTRAL RESPONSE

E
~
:;

16

/

V

o

10

15

20

Forward Current (IF) -

25

30

rnA

\.
\.

«
20

/

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

500

24

E

~

/

1000
BOO

2B

U

c

60

Forward Voltage (VF) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

/

25

"'0

S0.
S

20

~

c

£"

BO

0

J

o

::::>

V

"0

u.

if

/

20

I-

'DO

II

I

U

---

120

50

" ... r--..

12

"

E
I

g
........

Cl

x

~

r-....

E
~
:;
U

"l

I

20

40

60

80

90

Ambient Temperature (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBiENT TEMPERATURE

200
100
BO
50

I"-

\.
..........

"'ro"

"

0..

'\.

"-

..............

20
10
10

20

"

50

,
100

'0

20

"

......

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F = 1 KHz)
(AVERAGE iF = lDrnA PER SEG)

6·22

863

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-747E/757E
UNIT

TEST
CODITION

2000

ped

Ip =4SmA
l/S DUTY

;>..p

630

nm

IF == 20 mA

Spectral line Half-Width

6;>"

40

nm

IF "'20mA

Forward Voltage, any Dot

VF

2.1

2.S

V

IF =20mA

Reverse Current, any Oct

fR

100

p.A

Iv-m

2:1

SYMBOL

MIN.

TYP.

Average luminous IntensitY

Iv

700

Peak Emission Wavelength

PARAMETER

Luminous Intensity Matching Ratio

MAX.

VR =5V

IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
-

50

E
I

40

-E

30

~
~
U

"E
;:
'"
(;

-,-

~

120

I

«



24

/

'"
T::

E

1S

g"
>

480

28

560

I

II:

\

o

640

720

800

Wavelength ( ~ ) - nm,
Fig 2 SPECTRAL RESPONSE

E

16

1/
o

10

15

20

25

30

rnA

Fig 3 RELATIVE, LUMINOU,S INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

1,\

500

"-

12

E
I

"I'-

X

20

40

60

E

100
80

~
U

50

~

r-....

Il
I

~

o

"-

200

g
........

"

Cl

o

V

Forward Current (IF) -

«
20

/

os

/

1000
800

24

E

/

"
E

a:;

o

20

---

25

::I

g"

28

~
~
U

T::

-'

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

-

- I-

60

a:;

J
16

-

~--

c;;;

0

LJ.

1,2

-

::I
0

5c.
5

II

o

T

80

I

j

10

-

100

II

20

r-,.--

~

80

90

f'..

"

'l:i

"

CL

20
10

o

...... \'-.

"."

'\

I'-

.........

......

1
10

20

50

100

10

20

40

DC

AmbTent Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ 10mA PER SEG )
Vs AMBIENT TEMPERATURE

6-23
864

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-747HR/757HR
UNIT

TEST
CODITION

2000

~cd

Ip = 48 mA
1/8 DUTY

71.p

635

nm

IF = 20 mA

Spectral Line Half-Width

"A

40

nm

IF = 20mA

Forward Voltage, any Dot

VF

2.1

2.8

V

IF=20mA

Reverse Current. any Oct

IR

100

p.A

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous IntensitY

Iv

700

Peak Emission Wavelength

Luminous IntensitY Matching Ratio

MAX.

VR ==5V
IF == 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
,--

50

E

-C

40

30

~

20

"E

~

(;

10

u.

>-

100

if

12

16

20

460

\

/
560

0::

os

o

640

720

600

Wavelength ( A ) - nm
Fig 2 SPECTRAL RESPONSE

o

/

10

15

20

25

3D

Forward Current (IF) - rnA
Fig 3 RELATIVE, LUMINOUS INTENSitY Vs
FORWARD CURRENT (PER SEGMENTI

i\

500

00:

E
I

20

I

"-

16

~

12

0

x

:;;'"

o

I

V

1000
600

24

U
u

"'"
a;

o
26

00:

:;

">

0::

a;

24

1S

..J

40

/

V

"'0
~

g">

28

C

LV

:J

E
:J

0

20

25

~

"
E

60

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

;;;

f

60

5
"5

J

o

--

-

r-:--

120

~.,-

/
:/

:;
U

-

/
/

00:

o

20

40

"

g

" I'-.. ')
I
60

60

90

Ambient Temperature (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

C
~
:;
U

""'"
"

0..

'\..

200
100
80
50

20

"'-

~

'\

;;;
~

"

2l

1S

E

-......

......

~"

"I" .....

g">

........

a;

0::

10

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX. PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = lOmA PER SEG)

6-24

865

·2344
LTP-2044 A3 SERIES·

·IU1E(')~11

2.0" 4x4 SINGLE COLOR & MULTICOLOR
DOT MATRIX DISP.LAYS

FEATURES
-2.0 INCH (50.80mm) MATRIX HEIGHT.
- LOW POWER REQUIREMENT.
- HIGH CONTRAST.
- HIGH BRIGHTNESS.
- SINGLE PLANE, WIDE VIEWING ANGLE.
-SOLID STATE RELIABILITY.
_4x4 ARRAY WITH X-Y SELECT.
-COMPATIBLE WITH USASCII AND EBCDIC
CODES.
- STACKAB LE HOR IZONTALL Y.
-CHOICE
OF
TWO MATRIX ORIENTATION
CATHODE ROW OR CATHODE COLUMN.
- EASY MOUNTING ON P.C. BOARD.
- CATEGORIZED FOR LUMINOUS INTENSITY.
- SINGLE COLOR DISPLAYS HAVE THE CHOICE
OF THREE BRIGHT COLORS-GREEN/YELLOW/
ORANGE.
- MUL TICOLOR DISPLAYS ARE APPLICABLE TO
THREE BRIGHT COLORS:
GREEN, ORANGE
AND YELLOW (GREEN AND ORANGE MIXED).

DESCRIPTION
The L TP-2x44 series are 2.0 inch (50.80mm) matrixheight 4x4 dot matrix displays.
The L TP-2044A 3 are multicolor applicable displays.
The multicolor displays have gray face and white
dot color.
The L TP-2344 series are single color displays. The
bright red green, yellow and orange displays have
gray face and white dot color. The high efficiency
red displays have red face and red dot color.
The green series devices are made from GaP on a utilize
LED chips which transparent GaP substrate.
The yellow, orange and high efficiency red series devices
utilize LED chips which are made from GaAsP on a
transparent GaP substrate.

DEVICES
PART NO. LTP-

6-25
866

DESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

GREEN

YELLOW

ORANGE

MULTICOLOR

2344G

2344Y

2344E

-

Anode Row, Cathode Column

A

A

-

-

-

2044A 3

Anode Row, Cathode Column

B

B

PACKAGE DIMENSIONS
A.

B.

LTP-2344

L TP-2044A 3

z.
~z

--u;'o

--1};o

(.118]

,.11BJ

II]

IIII
U

II]

IIII
U

U
~'O
(,.031)

U

~'O
W

W

(.031)

25.40
( 1 .. 000)

25.40
(,1.000)

NOTE: All dimensions are in ----,m=il,"",li-cm-,ec-t..;;e-;-rs'----ltolerance are:
(inches)
1. Lead length (from seating plane): minimum valum

+1-00
- - - mm
2.
-0.00
( +0.040" )
-0.000"

±0.25mm
(0.010")

unless otherwise noted.

PIN CONNECTION
PIN
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14

15
16

CONNECTION

B. LTP.2044A,

A. LTP·2344
Cathode Column
Cathode Column
Cathode Column
Cathode Column
Apode Row 1
Anode Row 2
Anode Row 3
Anode Row 4

1
2
3
4

Cathode orange Column 1
Cathode Green Column 1
Cathode orange Column 2
Cathode Green Column 2
Cathode orange Column 3
Cathode Green Column 3
Cathode orange Column 4
Cathode Green Column 4
Anode orange Row 1
Anode Green Row 1
Anode orange Row 2
Anode Green Row 2
Anode orange Row 3
Anode Green Row 3
Anode orange Row 4
Anode Green Row 4
6-26
867

INTERNAL CIRCUIT DIAGRAM
A.

B.

LTP-2344

LTP-2044A 3

COL

2

3

4

COL

PIN

2

3

4

PIN 1

2
2

3

3

4

5

4

7

6

ROW PIN

9

ROW PIN

10

5

11
2

2

6

12

13
3

3
14

4

B

15
4

16
3 CHIPS IN SERIES

3 ORANGE IN SERI ES

3 GREEN IN SERIES

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
GREEN

YELLOW

ORANGE

UNIT

150

180

150

mW

Feak Forward Current Per Dot
(1/10 Duty Cycle, 0.1ms Pulse Width)

15

80

75

mA

Continuous Forward Current Per Dot

18

20

18

mA

0.26

0.24

0.26

15

15

15

PARAMETER
Power Dissipation Per Dot

Derating Linear From 25°C Per Dot
Reverse Voltage Per Dot
Operating Temperature Range

_25°C to +85°C

Storage Temperature Range

-25°C to +85°e

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C

6-27

868

mAfe
V

8

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-2344G/2044A 3 (GREEN)

=

25°C

UNIT

TEST
CONDITION

110

mcd

IP=48mA
1/8 DUTY

AP

565

nm

IF = 20 mA

Spectral Line Half-Width

b.A

30

nm

IF = 20 mA

Forward Voltage, any Dot

VF

6.3

8.4

V

I F= 20mA

Reverse Current, any Dot

IR

100

JJ.A

Iv-m

2: 1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous IntenSity

Iv

5.0

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR = 15V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)

50

'20

/

«

E

40

-E

30

"

20

/

~

U

'E
'"l:

(;
u-

#

24

c

60

E
::>

">

40

ji;
a;
a::

20

480

560

640

BOO

120

o

o

V
10

15

20

25

Forward Current (IF) -

Wavelength ( X I - nm
Fig 2 SPECTRAL RESPONSE

rnA

E
I

20

"-

E '6
~
'2

0

Cl

x

......

E

'i'..

'"

~

~

"
I'l '""'"
U

D-

o

I

20

40

I

200

g
i'-...

60

80

90

Ambient Temperature (Tal - DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

III
II!

'\.
'\..

500

«

"-

'00
80

r--...

50

"
i'""

..... 1"-

"

"-

......

10

20

50

100

!

......

,

'---- -

I
I

20
'0

30

Fig 3 RELATIVE LUMINOUS INTENSrFY Vs
FORWARD CURRENT (PER SEGMENTI

«

o

/

05

J

1000
800

24

::>

I

o

56

28

U

'5

.J

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E

/

0

">

48

/

25

'"::>

ji;
a;
a::

40

32

c

0

)

o

in

e
1:

80

:;
C.
:;

/
1/

,0

;:

'00

I

IJ.
'0

2D

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHzI
(AVERAGE IF = lOrnA PER SEG I

6-28
869

ELECTRICAl/OPTICAL CHARACTER ISTICS AT TA = 25°C
LTP-2344Y
TEST
CONDITION

SYMBOL

MIN.

TYP.

MAX.

UNIT

Average Luminous IntensitY

Iv

5.0

9.0

-.

mcd

IP= 48mA
1/8 DUTY

Peak Emission Wavelength

AP

585

nm

IF = 20 mA

Spectral Line Half-Width

All.

35

nm

IF = 20 mA

Forward Voltage, any Dot

VF

6.3

8.4

V

IF=< 20 mA

Reverse Current, any Dot

IR

100

fJ.A

Iv.m

2:1

PARAMETER

Luminous Intensity Matching Ratio

VR = 15V
IF=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25 0 C Ambient Temperature Unless Otherwise Noted)

50

120

/
/

«

E

40

I

-E

30

~
~
U

10

LJ..

o

24

e-

J

E

40

0:

20

56

480

1000

24

500

16

g

........
12

E

~
~
U

i',

u

Cl

6-29

I

0:

J \
560

o

640

720

I

05

800

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

\.
\.

«

o

I
20

40

60

80

200
100
80
50

........

"\

. . . r.........

'"

i' . . .

4

o

I

800

~

870

">

~
a;

Wavelength ( ~ I - nm
Fig 2 SPECTRAL RESPONSE

28

E

'"

15

~

">

E
I

x
:2

/

V

...J

o

48

40

32

c

60

~
a;

20

~

/

25

:£"
'"0

Cl

E

U

c

~

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

If

80

S

/
II

'E

'"~

;f.

~

I

~

20

(;

i':

'00

90

"'"

"-

I,

"" "

' - f--

1"-,

20
. 10

1
10

20

50

100

10

20

40

rDC

Ambient Temperature (Tal - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ lOmA PER SEG I
Vs AMBIENT TEMPERATURE

ELECTRICAL/OPTICAL CHARACTER ISTICS AT TA = 2SoC
LTP-2344E/2044A 3 (ORANGE)
II

!

PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

5,0

110

mcd

IP'" 48 mA
1/8 DUTY

Peak Emission Wavelength

il.p

630

nm

IF'" 20 mA

Spectral Line Half-Width

6i1.

35

nm

IF'" 20 mA

Forward Voltage, any Dot

VF

6.3

8.4

V

IF = 20 mA

Reverse Current, any Dot

IR

100

IJ.A

Iv-m

2:1

MAX.

UNIT

I:

i

Luminous Intensity Matching Ratio

VR'" 15V
I r = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25 0 C Ambient Temperature Unless Otherwise Noted)

120

50

/

«

E

40

-E

i':

100

/



'2

'6

40

"'"

OJ

20

II:

j

o

24

.80

28

~

~

">

"'"

\

OJ

\

640

,5

II:

800

720

,/'

./

....-

i-""

05

o

o

10

15

20

25

30

Forward Current (IF) - rnA
FIg 3 RELATIVE, LUMINOUS INTENSI'FY Vs
FORWARD CURRENT (PER SEGMENTI

Wavelength ( }. I - nm
FIg 2 SPECTRAL RESPONSE

«
20

E
I

'6

g

I

U

E

:J
..J

500

2.

E

560

"'

:J
0
C

\

/

25

1000
800

28

E

/

o
20

Forward Voltage (V,I - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

«

v

60

0

'0

c

:s"

/ 1\

30

~

~

If'

r--.

'2

"

0

..........

:'Ii
o

o

r-....

I

20

40

60

E

100
80

~
U

50

~

r---

x

80

90

Ambient Temperature (Tal - °C
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200

""'"

"

0..

.......

r--

20

.........

i' r--

10
10

20

50

100

Duty Cycle %
FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE %
[REFRESH RATE - F = 1 KHz I

6-30
871

ILITE['] ~ II

. 1257Au\/1357Au\
LTP-1457A/1557A
SERIES .
. 1.2" 6 x 7 SINGLE COLOR & MULTICOLOR
DOT MATRIX DISPLAYS

FEATURES
-1.2" INCH (30.48mm) MATRIX HEIGHT.
- LOW POWER REQUIREMENT.
- HIGH CONTRAST.
- HIGH BRIGHTNESS.
-SINGLE PLANE, WIDE VIEWING ANGLE.
-SOLID STATE RELIABI LlTY.
-5 x 7 ARRAY WITH X-Y SELECT.
-COMPATIBLE
WITH
USASCII AND EBCDIC
CODES.
-STACKABLE HORIZONTALLY.
-CHOICE
OF
TWO
MATRIX ORIENTATION
CATHODE ROW OR CATHODE COLUMN.
- EASY MOUNTING ON P.C. BOARD.
- CATEGORIZED FOR LUMINOUS INTENSITY.
-SINGLE COLOR DISPLAYS HAVE THE CHOICE
OF FOUR BRIGHT COLORS-GREEN / YELLOW /
ORANGE / HIGH EFFICIENCY RED.
- !IIIULTICOLOR DISPLAYS ARE APPLICABLE TO
THREE BRIGHT COLORS: GREEN, ORANGE AND
YELLOW (GREEN AND ORANGE MIXED)

DESCRIPTION
The LTP-1 x 57 A series are 1.2 inch (30.48mm) matrix
height 5 x 7 dot matrix displays.
The LTP-1257AA/1357AA are multicolor applicable
displays. The multicolor displays have gray face and
white dot color.
The LTP-1457A/1557A series are single color displays.
The green, yellow and orange display.s have gray face
and white dot color. The high efficiency red displays
have red face and red dot color. The green series devices utilize LED chips which are mad
e from GaP on a transparent GaP substrate.
The yellow, orange and high efficiency red series devices
utilize LED chips which are made from GaAsP on a
transparent GaP substrate.

6-31
872

DEVICES
PART NO. L TPGREEN

-

YELLOW

ORANGE

HI.·EFF.
RED

MULTI·
COLOR

-

-

-

1257AA

DESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

Anode Column, Cathode Row

A

A

-

-

-

1357AA

Cathode Column, Anode Row

A

B

1457AG

1457AY

1457AE

1457AHR

-

Anode Column, Cathode Row

B

C

1557AG

1557AY

1557AE

1557AHR

-

Cathode Column, Anode Row

B

0

PACKAGE DIMENSIONS
B. LTP·1457A/1557A

A. LTP·1257AA/1357AA

COL.

COt.,

2

3

4

2

J

4

5

2

00000'
000 00
o a 00 0 3
00000o a a 0 as
0000000
2

31.79
(1.252)

I

00000'
00000
00000
00000
00000·
00000000007

5

ROW.

7

ROW

[

~

II ]

II

u

1_22.8S J
(.900)

NOTE: All dimensions are in

millimeters
(inches)

tolerance are:
+1.00

1. Lead length (from seating plane): minimum value _----"o-,.o:-o:-:o-,-,-_mm 2.
+0.040"
-0.000" )

±0.25mm
(0.010")

unless otherwise noted.

6·32
873

PIN CONNECTION
PIN
NO.
1
2
3
4
5
6
7

8
9
10
11
12
13
14
15
16
17

18
19
20

CONNECTION
A
LTp·1257AA
Cathode Row 7 Green
Cathode Row 7 Orange
Anode Column 1
Anode Column 2
Anode Column 3
Anode Column 4
Anode Column 5
Cathode Row 6 Green
Cathode Row 6 Orange
No Connection
Cathode Row 5 Green
Cathode Row 5 Orange
Cathode Row 4 Green
Cathode Row 4 Orange
Cathode Row 3 Green
Cathode Row 3 Orange
Cathode Row 2 Green
Cathode Row 2 Orange
Cathode Row 1 Green
Cathode Row 1 Orange

B
LTP·1357AA

C

LTP·1457A

Anode Row 7 Green
Anode Row 7 Orange
Cathode Column 1
Cathode Column 2
Cathode Column 3,
Cathode Column 4 '
Cathode Column 5
Anode Row 6 Green
Anode Row 6 Orange
No Connection
Anode Row 5 Green
Anode Row 5 Orange
Anode Row 4 Green
Anode Row 4 Orange
Anode Row 3 Green
Anode Row 3 Orange
Anode Row 2 Green
Anode Row 2 Orange
Anode Row 1 Green
Anode Row 1 Orange

Cathode Row 5
Cathode Row 7
Anode Column 2
Anode Column 3*1
Cathode Row 4 *2
Anode Column 5
Cathode Row 6
Cathode Row 3
Cathode Row 1
Anode Column 4
Anode Column 3*1
Cathode Row 4 *2
Anode Column 1
Cathode Row 2

NOTES: 1. Pin 4 & 11 are internally connected.
2. Pin 5 & 12 are internally connected.

INTERNAL CIRCUIT DIAGRAM
B. LTP-1357AA

A. LTP-1257AA

NOTE: The sign" -tl- .. stands for GREEN color chips
stands for ORANGE color chips
The sign"
6-33

874

-* ..

0
LTP·1557A
Anode Row 5
Anode Row 7
Cathode Column
Cathode Column
Anode Row 4*2
Cathode Column
Anode Row 6
Anode Row 3
Anode Row 1
Cathode Column
Cathode Column
Anode Row 4*2
Cathode Column
Anode Row 2

2
3*1
5

4
3*1
1

c.

D. LTP·1557A

LTP·1457A
COL. 1

3

5

COL.

1

2

3

4

5

ROW

2

3

3

4

4

5
5

6
6

70

7

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C

GREEN

YELLOW

ORANGE

HI·EFF
RED

UNIT

Power Dissipation Per Dot

75

60

75

75

mW

Peak Forward Current Per Dot
(1/10 Duty Cycle, 0.1 ms Pulse Width)

100

80

100

100

mA

Continuous Forward Current Per Dot

25

20

25

25

mA

Derating Linear From 25°C Per Dot

0.3

0.24

0.3

0.3

mArC

5

5

5

5

V

PARAMETER

Reverse Voltage Per Dot
Operating Temperature Range

_25°C to + 85°C

Storage Temperature Range

_25°C to + 85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Sec. at 260° C

6-34

875

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP·1257AA/1357AA (GREEN) & LTP·1457AG/1557AG
UNIT

TEST
CONDITION

3000

}ted

Ip= 48 mA
1/8 DUTY

i\p

565

nm

IF "'20mA

Spectral Line Half-Width

Ai\

30

nm

IF =20 mA

Forward Voltage, any Dot

VF

2.1

2.8

V

IF '" 20 mA

Reverse Current, any Dot

IR

100

}tA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous IntensitY

Iv

800

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

J



o
24

L
LV

...J

28

20

,.

r::

Forward Voltage IVFI - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

E
I

'"0

E
:J

40

a:

20

16

'5
"'5

">
ji;

)

o

80

25

£"

Cl

II

"C

#-

~
iii
r::

:J

I

~

u

100

40

U
-'"

~

I

60

80

"'"

0-

90

I

200
100
80

i'

'\

......

r-....

50

......

I"

, ....

20

"

~

......

1

10

10

20

50

100

10

20

40

DC

Ambient Temperature ITal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE IF ~ lOrnA PER SEG I

6-35

876

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-1457AY/1557AY
UNIT

TEST
CONDITION

3000

/Lcd

Ip=48mA
1/8 DUTY

AD

585

nm

IF =20mA

Spectral Line Half-Wldth

b.A

35

nm

IF = 20 mA

Forward Voltage, any Dot

VF

2.1

2.8

V

IF =20mA

Reverse Current. any Dot

IR

100

/LA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity *1.2

Iv

800

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 Ambient Temperature Unless Otherwise Noted)
120

50

/

<0:

E

40

-C

30

l'
5
u
"E

V

0

10

u.

o
1Z

16

80

c:

S
"S

/

"'0
c:

60

E

g"

40

a:

20

a;

I

o

24

15

480

28

I-- r--

I

I}

g">

a;

a:

\

560

640

10

800

720

U
u

12

E

"-

)

)

g

"I'-

"

0

x

::<'"
o

30

\.
\.

<0:

16

25

800

<0:

C
l'

20

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PFR SEGMENTI

Wavelength ( ).. 1 - nm
Fig 2 SPECTRAL RESPONSE

500

24
20

15

1000

28

E

/

05

/

I

~

..J

>

Jzo

/

25

"
E

0

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

5

0;

~

/
/

zo

~

#.

~

r

100

o

zo

i'...

C
l'
5

U

'1

60

80

100
80
50

-"

I

40

200

90

"'"

"-

ZO

i'-

\.

" ",

- - I--

........

""-

-

.........

"
1

10
10

20

50

100

10

40

DC

AmbIent Temperature iTal - 0 C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE If ~ lamA PER SEG)

6-36
877

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-1257AA/1357A (ORANGE) & LTP-1457AE/1557AE
UNIT

TEST
CONDITION

3000

"cd

Ip=48 mA
1/8 DUTY

i\p

630

nm

IF

Spectral Line Half-Width

6?c

40

nm

IF'" 20 mA

Forward Voltage, any Dot

VF

2.1

2.8

V

IF =20 mA

Reverse Current. any Dot

IR

100

"A

Iv-m

2:1

SYMBOL

MIN.

TYP.

Average Luminous IntensitY

Iv

800

Peak Emission Wavelength

PARAMETER

Luminous Intensity Matching Ratio

MAX.

=20 mA

VR =5V
IF'" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
-,--

50

40

-E
~

;;;
~

6

o
1.2

E

20

E

,.

U
u
0

/

16

~

J

Q)

>

40

a:

20

>

"

24

4BO

2B

'"
a:
-.;

I

o

20

15

~

-'

Q)

560

\

o

640

720

BOO

Wavelength I }. I - nm.
FIg 2 SPECTRAL RESPONSE.

I

05

/

/

V
o

10

15

20

Forward Current (IF) -

25

30

rnA

FIg 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI

1000
BOO

I\.

500

24

~

/

~

E

-

25

.s

- -

60

iii
-.;

2B

Q)

~
l!l
0

Forward Voltage IV,I - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

i':

-

0

10

u.

f

BO

'5c.
'5

/
!/

20

"C

if'-

I - - I--

~

5

u

100

/

30

--

----,--r--

120

I

«

E

,-,-

-

""

12

«

E
I

~

g
E
~

i'-.

5

U

'"

40

60

BO

BO

. . . 1'-

i':
in
~

I'.

l!l

I'....

50

Q)

n.

I

20

100

.>!.

'1

)(

'"
:2'

\..
200

90

"I"
"' "'

15

.s

. . . i'- ....

20
10

Q)

>

iii

a;
a:

-

........

1

10

20

50

100

10

20

40

DC

AmbIent Temperatu!e ITal - °C
Duty Cycle %
Duty Cycle %
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHzl
IAVERAGE IF = 1 OmA PER SEG I

6-37

878

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-1457AHR/1557AHR
PARAMETER

UNIT

TEST
CONDITION

3000

},Icd

Ip = 48 mA
1/8 DUTY

SYMBOL

MIN.

TYP.

Iv

800

Average Luminous Intensity

= 25°C
MAX.

Peak Emission Wavelength

~p

635

nm

IF = 20 mA

Spectral Line Half-Width

A~

40

nm

IF = 20 mA

Forward Voltage, any Dot

V1'

2.1

2.8

V

IF = 20 mA

Reverse Current, any Dot

fR

100

},IA

Iv-m

2:1

Luminous fntensity Matching Ratio

VR =5V
11' = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 Ambient Temperature Unless Otherwise Noted)
' , - - r - r-- -

50

E

-E

40

30

20

"0

;;;
~

5

10

u.

?Ii

12

16

S0S

0::

20

Qi

U
u

,.

\

480

28

560

:;

-

""

/

~

Qi
0::

J \

05

o

640

800

720

o

10

15

20

Forward Current (IF) -

Wavelength I A ) - nm
Fig 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI

800

\.
\.

500

"-

= 48 mA
1/8 DUTY

;\p

565

nm

IF

Spectral Line Half-Width

b;\

30

nm

IF'" 20 mA

Forward Voltage,any Dot

VF

2.1

2.8

V

IF >= 20 mA

Reverse Current, any Dot

IR

100

folA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

1500

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

= 20 mA

VR "'"5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 C Ambient Temperature Unless Otherwise Noted)
,--,-

50

E

40

I

-E

30

5
20

'0

~

"

#.

10

12

c

E
:J

60

Q)

Q)

40

>

20

o
480

28

~

I

12

~

Q;
0::

05

o
800

720

640

/

V
o

10

15

20

Forward Current (IF) -

Wavelength ( }. ) - nm
Fig. 2 SPECTRAL RESPONSE

..:

E
I

"-

t"-.

"

0

x

'"

:;;
o

L

\
\

/
25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSI'FY Vs
FORWARD CURRENT (PER SEGMENT)

800

20

5

560

~

\.

500

..:

E

1--'

>

~

Q;
0::

24

15

-'

1000

24

U

V

~

a

28

16

/

E

:J

Forward Voltage (V,) - Volts
Fig.' FORWARD CURRENT Vs FORWARD VOLTAGE

E

/

25

0

e

20

16

I

80

':5

J

o

~

c

2
:J

/

:-

u.

;:
100

I

~

u

120

~-

/
II

..:

o

g
c

~

40

60

80

80
50

""'"

20

.....

,

90

"-

I

'\

.......

r-....

.....

,

Q)

Q.

I

20

100

~
:;

U

I

200

I

I"\.

"-

.--

i'

-

.......

.......
i'

1

10
10

20

50

100

10

20

40

DC

Ambient Temperatu.re (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ , KHz)
(AVERAGE IF ~ , OmA PER SEG )

6-43

884

ELECTRICAl/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-2057A Y /2157 A Y
PARAMETER

SYMBOL

MIN.

TYP.

Iv

1200

4000

/Lcd

Average Luminous Intensity

MAX.

TEST
CONDITION

UNIT

48

Ip =

1/8

mA

DUTY

Peak Emission Wavelength

i\p

585

nm

IF =

20

mA

Spectral Line Half-Width

6i\

35

nm

IF =

20

mA

Forward Voltage, any Dot

VF

2.1

2.8

V

IF =

20

mA

Reverse Current, any Dot

IR

100

/LA

Iv-m

2-1

Luminous Intensity Matching Ratio

VR =5V
IF =

20

mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C

Ambient Temperature Unless Otherwise Noted)
50



24

15

~

..J

">

40

ji;

Qi
II:

I)

480

\

o

640

560

05

120

800

--

/

I
I

I

o

10

15

20

25

Forward Current (IF) -

Wavelength I l\ ) - nm
Fig 2 SPECTRAL RESPONSE

rnA

1000
800

E
I

~

16

"

12

x

g

"

........

'"

:;;

o

20

40

60

Ambient Temperature (Ta) -

1'1
I

E
~
U

50

80

°C

90

I

i'-~

"'"

'r--..

20
10

o

"

........

..........

-"
0..

,

200
100
80

e

........

I
I

\.
\.

500

20

30

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPFR SEGMENT)

4:

o

/

ji;

I

20

28

24

e

c

1--

60

Qi
II:

28

E

~

~

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE



i;
a:

Q)

.~
Q;

20

o
20

24

480

28

660

J

a:

\
720

800

Wavelength ( }. I - nm.
FIg 2 SPECTRAL RESPONSE

I

05

o

640

/

V

1/
o

10

15

20

25

30

Forward Current (1,1 - mA
FIg 3 RELATIVE LUMINOUS INTENSI"FY Vs
FORWARD CURRENT (PER SEGMENTI

1000
800

28
24

8

E I.
--'

Q)

)

,.

c:

60

Forward Voltage (V,I - Volts
FIg.' FORWARD CURRENT Vs FORWARD VOLTAGE

~

L

V

V

U>

~

Q;

12

E

25

0

e-

10

o

«

c:

e

E

0

II

<0

6
LL

80

S

I

:;
~

in

f

~

~

U

;f!.

---

~

~

100

II

30

r-,---

120

I

«

E

-.----, -

-,--

50

~

500

f'

20

«

E
I

'\

g.

16

.......

12

E
~
:;

f'

"

o

U

-'I
20

40

60

80

90

_\.

200
100
80

'1'
b-..

""

<0
Q)

0-

"1"'-

~

50

20

I......

'!'o.

10

'\

I........

......

1
10

20

50

100

10

20

40

DC

AmbIent Temperature (Tal - DC
Duty Cycle %
Duty Cycle %
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE % '
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = , KHzl
(AVERAGE I, = , OmA PER SEG )

6-45

886

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-2057AHR/2157AHR

=

25°C

UNIT

TEST
CONDITION

4000

.ued

Ip =48 mA
1/8 DUTY

il.p

635

nm

IF = 20 mA

Spectral Line Half-Width

Ail.

40

nm

IF = 20 mA

forward Voltage. any Dot

VF

2.1

2.8

V

IF=20mA

Reverse Current, any Dot

Iii

100

.u A

Iv-m

2·1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

1500

Peak Emission Wavelength

Luminous IntensitY Matching Ratio

MAX.

VR = 5V
=20mA

I

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25D C Ambient Temperature Unless OtherWise Noted)
50

,--

40

-E

30

~

"C

1ft

24


~

\

/
560

Q;
0::

640

800

720

Wavelength ( }, I - nm
Fig 2 SPECTRAL RESPONSE

05

~

V

/

°o

10

15

20

25

30

Forward Current (I,) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

1000
800

.....

500

f',

I

X

~

20

40

60

f'.

E

100
80

:;

50

~

1

1

80

90

U
-'"

"

I

l'.

"

.,

0..

\.

i

200

g
:......

12

I\,


~

J

20

o

in

£"

'"0

Forward Voltage (V,I - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

28

?:

:J

:5

1/
16

[

80

~l=

1--1--

6

10

12

._-,-

I

1

20

0;

;:
0
LL.

100

/

:;
U

120 '--.,--r -

- r-I-

1

 10.16

( 0 . 4 0°:-,), - - - - - . . . . ,

00000
0000000000
5

NO.1

IH-lf--H-++t

7

I

I f-~

I

15.24,,4
(.600"4)

___

I

- - l,

ROW

~ 10.1.
(0.400)

76.00~

(2.992)

/'

13. 00
(05 12 )

~ UUUUu~rJ~X~7~ uu~
~ 0.80 --.JL

(D.031)

NOTE: All dimensions are in

millimeters
(inches)

-LL

5.08

(.200)

Ll""'----n~u,.J-I-=--=-1---1....,-_~.--1o::J
L~':9) I-~ __
J
76.20

(3.00)

tolerance are:

.
1. Lead length (from seating plane): minimum value

+1.00
-0.000 mm
+0040"
2.

0 25
±. mm
(0.010")

unless otherwise noted.

(-0:000" )

PIN CONNECTION
CONNECTION

PIN NO.
1

A. LTP·4057A

B. lTP·4157A

Cathode Row 5

Anode Row 5

2

Cathode Row 7

Anode Row 7

3

Anode Column 2

Cathode Column 2

4

Anode Column 3

Cathode Column 3

5

Cathode Row 4

Anode Row 4

6

Anode Column 5

Cathode Column 5

7

Cathode Row 6

Anode Row 6

8

Cathode Row 3

Anode Row 3

9

Cathode Row 1

Anode Row 1

10

Anode Column 4

Cathode Column 4

11

Anode Column 3

Cathode Column 3

12

Cathode Row 4

13

Anode Column 1

Cathode Column 1

14

Cathode Row 2

Anode Row 2

I

,'Anodr Row 4

6·48
889

PIN NO.
1

CONNECTION
C. LTP·4257 AA

D. LTP·4357AA

Anode Column 1 Green

Cathode Column 1 Green

2

Anode Column 1 Orange

Cathode Column 1 Orange

3

Cathode Row 7 Green

Anode Row 7 Green

4

Cathode Row 7 Orange

Anode Row 7 Orange

5

Anode Column 2 Green

Cathode Column 2 Green

6

Anode Column 2 Orange

Cathode Column 2 Orange

7

Anode Column 3 Green

Cathode Column 3 Green
Cathode Column 3 Orange

8

Anode Colunn 3 Orange

9

Cathode Row 5 Green

Anode Row'5 Green

10

Cathode Row 5 Orange

Anode Row 5 Orange

11

Cathode Row 4 Green

Anode Row 4 Green

12

Cathode Row 4 Orange

Anode Row 4 Orange

13

Cathode Row 6 Green

Anode Row 6 Green

14

Cathode Row 6 Orange

Anode Row 6 Orange

15

Anode Column 5 Green

Cathode Column 5 Green

16

Anode Column 5 Orange

Cathode Column 5 Ora'1ge

17

Cathode Row 1 Green

Anode Row 1 Green

18

Cathode Row 1 Orange

Anode Row 1 Orange

19

Anode Column 4 Green

Cathode Column 4 Green

20

Anode Column 4 Orange

Cathode Column 4 Orange

21

Anode Column 3 Green

Cathode Column 3 Green

22

Anode Column 3 Orange

Cathode Column 3 Orange

23

Cathode Row 3 Green

Anode Row 3 Green

24

Cathode Row 3 Orange

Anode Row 3 Orange

25

Cathode Row 4 Green

Anode Row 4 Green

26

Cathode Row 4 Orange

Anode Row 4 Orange '

27

Cathode Row 2 Green

Anode Row 2 Green

28

Cathode Row 2 Orange

Anode Row 2 Orapge

INTERNAL CIRCUIT DIAGRAM
A. LTP·4057 A
COL. 1

6-49
890

B. LTP·4157A

D. LTP-4357 AA

C. LTP-4257 AA

2

COL.

3

4

5

ROW

2

2

3

3

4

4

5

6

6

NOTE: The Sign" --D*- .. stands for ORANGE color 2 chips series
The Sign" --j)j- .. stands for GREEN color 2 chips series

ABSOLUTE MAXIMUM RATINGS AT TA
PARAMETER

Power Dissipation Per Dot
Peak Forward Current Per Dot
(1/10 Duty Cycle, 01 mS Pulse Width)
Continuous Forward Current Per Dot
Derating Linear From 25°C Per Dot
Reverse Voltage Per Dot

=

25°C
HI·EFF

GREEN

YELLOW

ORANGE

120

100

120

120

mW

80

60

80

80

mA

20

16

20

20

mA

0.24

0.2

024

024

mA/oC

10

10

10

10

V

Operating Temperature Range

_25°C to

+ 85°C

Storage Temperature Range

_25°C to

+ 85~C

RED

UNIT

Solder Temperature 1/16 inch Below Seating Plane for 3 Sec. at 260°C
6-50
891

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-4057AG/4157AG & 4257AA/4357AA (GREEN)
PARAMETER

SYMBOL'

MIN.

TYP.

Iv

3000

Average Luminous Intensity

UNIT

TESTCOND

8000

p.cd

Ip'" 48 mA
1/8 DUTY

MAX.

Peak Emission Wavelength

~p

565

nm

IF =20 mA

Spectral Une Half-Width

tl.~

30

nm

IF =20 mA

Forward Voltage, any Dot

VF

4.2

5.6

V

IF ""20mA

Reverse Current, any Dot

IR

100

p.A

Iv-m

2:1

Luminous Intensity Matching Ratio

VR "" 10V
IF "'20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(250 Ambient Temperature Unless Otherwise Notpril
120

50

/

0.:

E

40

-E

II

3D

20

";;;~

5

#

10

24

'5

B-

'">

U
u
Cl

15

'"

40

>

"'"
a;
a:

20

II
48

56

640

BOD

720

24

500

,.

"- ......~

12

i!:!

i'"

5

U

I'l
I

X

::;:'"

20

40

80

80

90

'"'"

25

rnA

T1

8D

r--....

50

i""-

20
10 '-----

i

I

"I"':

.......

lDO

I'-

1

20

50

100

10

2D

I
I

......

'"

1"-..

10

30

11
~

200

'"
Cl.

20

~

g
E

15

,

0.:

E
I

10

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT).

BO~

20

o

V

Forward Current (IF) -

Wavelength ( A ) - nm
Fig 2 SPECTRAL RESPONSE

lDOO

/

05

o
580

2B

0.:

E
i!:!
5

E
~

"'"
a;
a:

40

V

.J

Forward Voltage (V,) - Volts
Fig 1 FORWARO CURRENT Vs FORWARO VOLTAGE

E
I

c

60

~

J
32

j

:E'"
'"0

BO

0

ll.

o

/

25

~

/
I

i!:!

5

u

~c

lDO

I

II
N.l
DC

Ambient Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX_ ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE.% Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ 10mA PER SEG )

6-51

892

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-4057AY/4157AY
UNIT

TEST eOND

8000

/-Lcd

Ip; 48 mA
1/8 DUTY

;\.p

585

nm

IF; 20 mA

Spectral Line Half·Width

b.;\.

35

nm

IF; 20 mA

Forward Voltage, any Dot

VF

4.2

5.6

V

IF; 20 mA

Reverse Current, any Dot

IR

100

/-LA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

2000

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR ; 10V
IF

=20 mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

I

«

E

40

/

I

-C

;f!.

u

20

;;;
~

(;

10

u.

o

e-

E
W

40

>

~

0;

a:
48

20

o

56

480

~
0;
a:

I

/

J \

o

640

560

800

720

/

05

o

/

10

15

20

25

30

Forward Current (ld - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

Wavelength ( } ) - nm
Fig 2 SPECTRAL RESPONSE

1000
800

28

\.
\.

500

24

«

E

20

E
I

<=

16

g

5

12

I'-..

l'
U

15

~

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

7

...J

>

40

32

c

60

0
w

j
24

.E.,

~

II

"C

7

25

i3
0

:;

j

5

If

80

;;;

I

~

30

l'

?:

100

X

<0

:2
20

40

C

100
80

5

50

l'

1'-.."

"

Cl

60

U

I'-..

'"I

80

90

Ambient Temperature (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200

.>f.
<0
W
D..

........

":--.

.........

I'-.

20

1"-"

""'-

I,
I"'"

t-.

1

10
10

20

50

100

10

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE ~ F = 1 KHz)
(AVERAGE I, = lOrnA PER SEG)

6-52

893

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-4057AE/4157AE & 4257AA/4357AA (ORANGE)
PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

3000

Peak Emission Wavelength

UNIT

TESTCOND

8000

Jlcd

lp=48 mA
1/8 DUTY

;>..p

630

nm

IF =20 mA

Spectral Line Half-Width

AA

40

nm

IF

= 20 mA

Forward Voltage, any Dot

VF

4.2

5.6

V

IF

= 20 mA

Reverse Current, any Dot

IR

100

JlA

VR

= 10V

Iv-m

2:1

Luminous Intensity Matching Ratio

MAX.

IF'" 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

/
/

«

E

40

-E

*

20

"E

'"~

5

10

u..

o

J
24

40

32

80

E
a5

8

25

V

~

c

E

15

~

..J

~

'">

40

iii

~

iii

\

20

/

o
56

560

480

a;

a:

\

500

05

o

640

800

120

"-

16

g

"- I"-

12

E
~
5

h
I
20

40

60

80

90

Ambient Temperat",e (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

U
-'"

"'"

Il.

/

/

[,7
V

o

/
10

15

20

25

30

--

\

«

E
I

l

V

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

Wavelength ( ). I - nm
Fig 2 SPECTRAL RESPONSE

24
20

f----

.£

o

1000
800

u

894

''"c"

- 1-

60

28

o

6-53

I~

~

Forward Voltage (V,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

- - --

~

0

S-

48

- --

--,--

~

:;

I
II

~

5

r

100

30

u

--.~--

120

50

'\

I

I
'

I

I

200
100
80
50

~

r-....

'c"

r-.......

2

'\

15

E

I' t--.

20

">

iii

r-..

I--- 1--

a;

a:

10 L -

"""

1

10

20

50

100

10

20

J-

f"'...

I

"""
40

1

N

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ 10mA PER SEG I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-4057AHR/4157AHR
PARAMETER

SYMBOL

MIN.

TYP.

Iv

3000

Average Luminous Intensity

=

25°C

UNIT

TESTCOND

8000

,!Lcd

Ip=48 mA
1/8 DUTY

MAX.

Peak Emission Wavelength

i\p

635

nm

IF = 20 mA

Spectral Line Half-Width

AX

40

nm

IF = 20 mA

Forward Voltage, any Dot

VF

4.2

Reverse CUrrent, any Dot
Luminous Intensity Matching Ratio

5.6

V

IF

=20 mA

IR

100

,!LA

VR

=10V

Iv-m

2:1

IF

=20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

E

-E

/
/

40

30

5
20

~

"

LL

100

if

1·-

I

~

u
1"

32

i

80

'50.
'5

60

~

I-

c

w
~

0

E

I

~

Q;

a:

40

g">

20

a:

Q;

0

48

40

in

"
E
-'

>
g"

-

C

c

0

1/

,.
•24

56

480

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

640

560

800

720

Wavelength I X I - nm
Fig 2 SPECTRAL RESPONSE

28

1000
800

24

500

25

lo '---'---'- ----''----'---'---'
o
10
15
20
25
30
Forward Current (IF) -

E

20

E
~
5

16

I'-

12

"- ;~

I,
-

E
I

--

-~.

x

o

g

--

E
t':'
5

U

-

,1

~
o

.-

20

40

60

SO

90

Ambient Temperature (Ta) - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200

,---

100
80
50

-1&

"

Il.

20
10

- -I - -

-

50

I
i I

" '\.

~~~"Ir;~=
__ J
20

--m

--

1\
'\.'

-.

10

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENT)

<40

NOTE: All dimensions are In

4>5.08><40
(0.200><40)

r:----,

(0.'00"0)

[t~":
millimeters
(inches)

[

JJ

-----,I

tolerance are:

1. Lead length (from seating plane): minimum value

PIN CONNECTION

5

3

7

r:----,

3

1

3

(?3g~:~)

2

00000
00000'
00000
00000'
0 0 0 0 0
00000·
00000
00000·

1

~

I I

ROW

I J
U

L-'5.72 --------lI
(1.BOO)

+1.00

=0:00
+0.040"
( -0.000"

mm

2.

±0.25mm
(0.010")

un less otherwise noted.

CONNECTION

PIN NO.
A. L Tp·2058A

B. LTP·2158A

Cathode Row 6

Anode Row 6

2

Cathode Row 8

Anode Row 8

3

Anode Column 2

Cathode Column 2

4

Anode Column 3*1

Cathode Column 3*1

5

Cathode Row 5

6

Anode Column 5

Cathode Column 5

7

Cathode Row 7

Anode Row 7

8

Cathode Row 3

Anode Row 3

9

Cathode Row 1

Anode Row 1

Anode Row 5

10

Anode Column 4

Cathode Column 4

11

Anode Column 3*1

Cathode Column 3*1

12

Cathode Row 4

13

Anode Column 1

Cathode Column 1

Anodr Row 4

14

cathode Row 2

Anode Row 2

NOTE: 1. Pin 4 & 11 are Internally connected.
6-56

897

PIN NO.

CONNECTION
C. L TP·2458AA

D. LTP·2558AA

1

Cathode Row 6 Green

Anode Row 6 Green

2

Cathode Row 6 Orange

Anode Row 6 Orange

3

Cathode Row 8 Green

Anode Row 8 Green

4

Cathode Row 8 Orange

Anode Row 8 Orange

5

Anode Col. 2 Green

Cathode Col. 2 Green

6

Anode Col. 2 Orange

Cathode Col. 2 Orange

7

Anode Col. 3 Green

Cathode Col. 3 Green

8

Anode Col. 30rangw

Cathode Col. 3 Orange
Anode Row 5 Green

9

Cathode Row 5 Green

10

Cathode Row 5 Orange

Anode Row 5 Orange

11

Anode Col. 5 Green

Cathode Col. 5 Green

12

Anode Col. 5 Orange

Cathode Col. 5 Orange

13

Cathode Row 7 Green

Anode Row 7 Green

14

Cathode Row 7 Orange

Anode Row 7 Orange

15

Cathode Row 3 Green

Anode Row 3 Green

16

Cathode Row 3 Orange

Anode Row 3 Orange

17

Cathode Row 1 Green

Anode Row 1 Green

18

Cathode R9w 1 Orange

Anode Row 1 Orange

19

Anode Col. 4 Green

Cathode Col. 4 Green

20

Anode Col. 4 Orange

Cathode Col. 4 Orange

21

Anode Col. 3 Green

Cathode Col. 3 Green

22

Anode Col. 3 Orange

Cathode Col. 3 Orange

23

Cathode Row 4 Green

Anode Row 4 Green

24

Cathode Row 4 Orange

Anode Row 4 Orange

25

Anode Col. 1 Green

Cathode Col. 1 Green

26

Anode Col. 1 Orange

Cathode Col. 1 Orange

27

Cathode Row 2 Green

Anode Row 2 Green

28

Cathode Row 2 Orange

Anode Row 2 Orange

INTERNAL CIRCUIT DIAGRAM
A. LTP·2058A

B. LTP·2158A
COL. 1

6-57

898

C. LTP-2458AA
COL.

D. LTP-2558AA
2

4

5

3

COL.

ROW

ROW

2

2

3

3

4

4

5

5

6

6

4

5

7

8

8

NOTES: 1. The sign" --.!-- .. stands for ORANGE color chip.
2. The sign" --t>I-- .. stands for GREEN color chip.

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
GREEN

YELLOW

ORANGE

HI·EFF
RED

UNIT

75

60

75

75

mW

100

80

100

100

mA

Continuous Forward Current Per Dot

25

20

25

25

mA

Derating Linear From 25°C Per Dot

0.3

0.24

0.3

0.3

mA/oC

5

5

5

5

V

PARAMETER

Power Dissipation Per Dot
Peak Forward Current Per Dot
(1/10 Duty Cycle, 0.1 ms Pulse Width)

Reverse Voltage Per Dot
Operating Temperature Range

_25°C to + 85°C

Storage Temperature Range

-2SoC to + 8SoC
6-58

Solder Temperature 1116 inch Below Seating Plane for 3 Sec. at 260°C

899

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-2058AG/2158AG & LTP-2458AA/2558AA (GREEN)
PARAMETER

SYMBOL

TYP.

MIN.

MAX.

TEST
CONDITION

UNIT

Ip=48mA

4000

#lcd

AP

565

nm

IF

Spectral Line Half-Width

AA

30

nm

IF '" 20 mA

Forward Voltage, any Dot

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Dot

fR

100

itA

Iv-m

2:1

Average Lummous Intensity

Iv

Peak Emission Wavelength

Luminous Intensity Matching Ratio

1500

1/8 DUTY

=20 mA

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

E

40

-E

30

/

20

~

10

0

#

""
"
a

E
:0

Q;

Q;

a:

20

24

«

E

-

480

Wavelength ( 1\ ) - nm
Fig 2 SPECTRAL RESPONSE

o

V
10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

"- "-

20
16

«

E
I

g

"-

12

x

4

"-

E
~
;;
U

1
I

20

40

I

500

0

:;;'"

BOO

720

/

800

.....

~

;;
U
u

640

560

/

/

1000

I-

I

E

05

o

0
2B

Forward Voltage (V,I - Volts
Fig I FORWARD CURRENT Vs FORWARD VOLTAGE

28

/

ji:

a:

24

15

">

40

>

20

V

..J

ji:

J
16

12

c

60

0

L1.

o

E
'"0

80

--

r-- - -

:0

/

"E

25

iii

/

~

i:"
u;

100

II

;;
U

---

120

50

«

60

80

90

I

200
100
BO

.......

"-

,,,"

......

50

I'

-'"

"'"

a.

I\,
\.

1'. . . .

I""-

20

I. . . . .

....

1

10

10

20

50

100

10

20

40

DC

Ambient Temperatu!e ITa) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX. ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ I KHz)
(AVERAGE I, ~ lOrnA PER SEG i

6-59

900

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-2058AY /2158A Y
PARAMETER

25°C

UNIT

TEST
CONDITION

4000

}.led

Ip=48 mA
1/8 DUTY

SYMBOL

MIN.

TYP.

Iv

1200

Average Luminous Intensity

=

MAX.

Peak Emission Wavelength

1\p

585

nm

IF = 20 mA

Spectral Line Half-Width

"1\

35

nm

IF = 20 mA

Forward Voltage, any Dot

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Dot

IR

100

}.IA

Iv·m

2:1

.r,

Luminous Intensity Matching Ratio

VR =5V
IF =20 mA

TYPICAL ELECTRICAl/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

E
I

40

-C

30

20

'C

:0
~

"

~

/
II

~

10

12

60

">

40

c

Qi

a:

o
24

480

28

U

/

\
;)60

o

640

800

720

/

05

o

10

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

Wavelength ( ~ ) - nm
Fig 2 SPECTRAL RESPONSE

\.

«

E
I

20

"

16

~

5

/

Qi

a:

500

24

C

15

J

1000
800

28

E

/

"
">
1;;

I

20

Forward Voltage (VF) - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VpLTAGE

«

"'"0
E

1;;

20

/

25

...J

J
16

If

80

5c.
5

~

c

e
E

0

L1.

o

~

100

/

5

u

120

/

«

12

"

Cl

g 100

'!'1'..

80

5

50

U

r'1
I

X

40

C
~

t........

~

20

'\..

200

60

80

90

Ambient Temperature (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

~t-..

~
~

.........

'i"-

'"

"'"

0..

ec
E
">
1;;

20

t-....

'\

15

I'\.

" "'-

Qi

a:

......

1

10
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE IF ~ 1 DmA PER SEG )

6-60
901

ELECTRICAL/OPTICAL CHARACTERISTICS'AT TA = 25°C
LTP-2058AE/2158AE & LTP-2458AA/2558AA (ORANGE)
PARAMETEP

SYMBOL
.-

Iv

1500

--

R30

>-

-1--"--'--'

luminous Intensity Matching Rntio

- 1---.- - ' -

nm

IF = 20 mA

nm

IF'" 20 mA

-.

--.- --_._- -_.
V
2.B
2.1
._--- :-- ..

,....--._-

!R

100

Iv-m

2:1

_.__.-f-.

Reverse CUrrent, any Dot

Ip= 48 rnA
1/8 DUTY

40

Sh
1-- ..._- ---- t----

VF
~.

pee!

.. I - - ._--

--- 1--------- 1 - - - - -1---.. -

.... ----~-

TEST
CONDITION

, "-

]..p

Spectral Line Half-Width
.
1--Forward Voltage, any Dot

UNIT

4000

--- i-- - .... .-

MAX.

-~

Average Luminous Intensity
Peak Emission Wavelength

TV?,

MIN.

IF

IlA

-.

=<

20 mA

VR ""5V

--

IF "20 rnA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

,- r - ,---

50

---

,-- ,-

-

I
II

«

E

4.

I

-E

30

:,
U

20

"

'#

10

LJ..

12

16

"-

E

20

E

16

""

E
:J

iii

~

20

o
24

V
1S

480

28

560

I

E
I

1"-

Q

x

~

40

60

g
E

"'1I
80

90

~

'".."

U

"

0.

L

iii

1

Qi
0::

\
640

720

800

Wavelength I l\ I - nm
Fig 2 SPECTRAL RESPONSE

05

V

10

30

rnA

'\.
'\

.......

I.......

I"

r--.

20
10

"

~

......

1
10

25

~

~

50

20

Forward Current (IF) -

.........
100
80

15

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENT)

I

200

k'"

• oL_~_

I

500

"-

_L

">

40

I

/v

«

12

20

~

1-

-

25

.s

1000
800

~

U

~
J'l

...J

~

i-- +- ......

1'-

~

- - I - l- t -

Q

28
24

-

60

:;

20

--

r---r----

:J
0

Forward Voltage IV,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

--,-

--

V>

)

o

----

{

80

:J

V

'E

~

100

I

~

,--,--,---

12.

20

50

100

10

40

oc

Ambient Temperature ITal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE -- F ~ 1 KH21
(AVERAGE I, ~ 10mA PER SEG I
Vs AMBIENT TEMPERATURE

6-61

902

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-2058AH R/2158AH R

=

25°C

UNIT

TEST
CONDITION

4000

/Lcd

Ip=4SmA
l/S DUTY

AP

635

nm

IF = 20 mA

Spectral Line Half-Width

t!.A

40

nm

IF =20 mA

Forward Voltage, any Dot

VF

2.1

2.S

V

IF = 20 mA

Reverse Current, any Dot

IR

100

/LA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous IntenSity

Iv

1500

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
-,--

50

/

-0:

E

40

-E

20

"C

:a
~

(;

10

u..

o
12

16

80

-

60

>

OJ

a:

24

E
i!!
:;

16

U
u
C\

c:

E
:J

g"

20

a:

OJ

480

\

/
560

o

640

800

720

x

I

E
i!!
:;
U

'1

40

I

200

I

60

80

100
80

..... r--.,

"

90

/
10

'\
........

50

/

'"

20
10

1
20

50

20

25

30

~

I' r--.,

10

15

\.
\.

.......

-"
<0

Il.

I

20

500

g-

f

o

/

Forward Current 11,1 - rnA
FIg 3 RELATIVE LUMINOUS INTENSIl;Y Vs
FORWARD CURRENT IPER SEGMENTI

Wavelength I }. I - nm
FIg 2 SPECTRAL RESPONSE

E

~

~

OS

-0:

"

12

IS

>

1000
800

"- "-

/

'"0

40

28

-'-

-0:

20

E

-f--

o

20

/

25

-'

g"

26

E

:g

~

0

Forward Voltage IV,) - Volts
FIg 1 FORWARO CURRENT Vs FORWARO VOLTAGE

24

~

:J

:;
B:J

I
V
J

i!!

:;
U

#

-

--

r

100

II

30

--,--

120

-~-

100

10

20

"

.......

40

DC

Ambient Temperatu.re (la) - °C
Duty Cycle %
Duty Cycle %
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl
IAVERAGE I, ~ lOrnA PER SEG I

6-62

903

ILITEr.) ~ II

LTP_18088X SERIES
18188A
1.85" 8 x 8 SINGLE COLOR & MUL TICOLOR
DOT MATRIX DISPLAYS

FEATURES
-1.85INCH (47.0 mm) MATRIX HEIGHT.
- LOW POWER REQUIREMENT.
- HIGH CONTRAST.
- HIGH BRIGHTNESS.
-SINGLE PLANE, WIDE VIEWING ANGLE.
-8x8 ARRAY WITH X-Y SELECT.
USASCI! AND EBCDIC
- COMPATIBLE WITH
CODES.
- STACKABLE
VERTICALLY
AND
HORIZONTALLY.
-CHOICE
OF
TWO
MATRIX ORIENTATION
CATHODE ROW OR CATHODE COLUMN.
- EASY MOUNTING ON P.C. BOARD.
- CATEGOR IZED FOR LUMINOUS INTENSITY.
-SINGLE COLOR DISPLAYS HAVE THE CHOICE
OF BRIGHT COLORS-GREEN/ORANGE/.
-MULTICOLOR DISPLAYS ARE APPLICABLE TO
THREE BRIGHT COLORS: GREEN, ORANGE AND
YELLOW (GREEN AND ORANGE MIXED)

DESCRIPTION
The LTP-18x88 series are 1.85 inch (47.0 mm) matrixheight 8x8 dot matrix displays.
The L TP-18188A are multicolor applicable displays.
The multicolor displays have black face and white dot
color.
The L TP-18088 series are single color displays. The
green, and orange displays have black face and white
dot color.
The green series devices utilize LED chips which are
made from GaP on a transparent GaP substrate.
The orange series devices utilize LED chips which are
made from GaAsP on a transparent GaP substrate.

DEVICES
PART NO. L TP-

6-63

904

DESCRIPTION

GREEN

ORANGE

MULTI·
COLOR

LTP-18088G

la088E

-

Anode Column. Cathode Row

-

-

18188A

Anode Column. Cathode Row

PACKAGEDIMENSION

INTERNAL
CIRCUIT
DIAGRAM

A

A

B

B

.

PIN CONNECTION
CONNECTION

PIN
NO.

B: LTP·18188A

A: LTP·18088

Cathode Row 2
Anode Column 2 Green
Anode Column 2 Orange
Cathode Row 4
Anode Column 4 Green
Anode Column 4 Orange
Cathode Row 6
Anode Column 6 Green
Anode Column 6 Orange
Cathode Row 8
Anode Column 8 Green
Anode Column 8 Orange
Cathode Row 7
Anode Column 7 Green
Anode Column 7 Orange
Cathode Row 5
Anode Column 5 Green
Anode Column 5 Orange
Cathode Row 3
Anode Column 3 Green
Anode Column 3 Orange
Cathode Row 1
Anode Column 1 Green
Anode Column 1 Orange

Cathode Row 2
Anode Column 2
NoPm
Cathode Row 4
Anode Column 4
No Pin
Cathode Row 6
Anode Column 6
No Pin
Cathode Row 8
Anode Column 8
No Pin
Cathode Row 7
Anode Column 7
No Pin
Cathode Row 5
Anode Column 5
No Pin
Cathode Row 3
Anode Column 3
No Pin
Cathode Row 1
Anode Column 1
No Pin

1
2
3
4
5
6
7
8
9
10

11
12
13
14
15
16

17
18
19
20
21
22
23
24

ABSOLUTE MAXIMUM RATINGS AT TA :; 25°C
GREEN

ORANGE

UNIT

75

75

mW

Peak Forward Current Per Dot
(1/16 Duty Cycle, O.lms Pulse Width)

100

100

mA

Continuous Forward Current Per Dot

25

25

mA

Derating linear From 25°C Per Dot

03

0.3

mA/oC

S

5

V

PARAMETER
Power Dissipation Per Dot

Reverse Voltage Per Dot

_..

Operating Temperature Range

-25°C to + 85°C

Storage Temperature Range

_25°C to + 85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Seconds at 260°C

6-64
. 905

PACKAGE DIMECTIONS
A. L TP-18088

B. LTP-18188A

NOTE: All dimensions are in millimeters tolerance are:
(inches)
1. Lead length (from seating plane): minimum value
2. ±0.25mm
(0.010")

unless otherwise otherwise noted.

+1.00

-=0:000

mm

+0.040"
-0.000" )

INTERNAL CIRCUIT DIAGRAM
A. LTP-18088

B. L TP-18188A
L
5

6

8

3
-l>I-GREEN

-..-ORANGE

6

8

6-65
906

= 25°C

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
L TP-18088E/18188A (DRANGE)

PARAMETER

SYMBOL

MIN.

TYP.

Iv

1000

3500

Average Lum inous Intensity

;\p

Peak Emission Wavelength

TEST
CONOITION

UNIT

MAX.

,ucd

Ip = 48 mA
1/8 DUTY

nm

I

= 20mA

nm

I

= 20mA

2.8

V

I

= 20mA

100

,uA

V

630

-Spectral Line Half-Width

C,;\

40

Forward Voltage any Dot

V

2.1

Reverse Current any Dot

I
Iv-m

Luminous I ntensity Matching Ratio

50

E

I
II

-E

40

30

e:;

u

<;;

;:
(;
LL

10

12

16

U

l'

20
16

V
.I

">

40

20

o
480

2B

560

I

~
a;
a::

\
640

o

BOO

720

05

Wavelength ( ). I - nm.
Fig 2 SPECTRAL RESPONSE

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

~

..:

E

"-

I

E

e
:;

"- ')

"

CI

x

~
o

U

40

60

80

in
C

........

!'l

~

50

-"
ro

"

0-

I
20

~

........
100
BO

90

Ambient Temperature (Tal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

~

I

200

E-

r'\..

12

o

V
15

500

24

e

L

1000
BOO

..:

:;

c

= 20 mA

LV

.!:

E
:J

= 5V

-

25

oJ

2B

E

in
c

"'0

~
a;
a::

24

~

:J

">

20

--

!'l

60

Forward Voltage (V,I - Volts
Fig 1 FORWARO CURRENT Vs FORWARD VOLTAGE

E

I-- l -

0

)

o

{

BO

:;
c.
:;

I
II

20

'C

---

100

if

I

,-,--

120

'r-'r' .--,-

..:

2: 1

-.-

~

I.

.!:

,"\.

'" "

">

I........ r--..

~
a::

a;

20

r........ ~

1

10
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 10mA PER SEG I

6·66

907

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTP-18088G/18188A (GREEN)

PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

1000

3500

,",cd

Ip= 48 mA
1/8 DUTY

Average Luminous Intensity

MAX.

UNIT

Peak Emission Wavelength

Xp

565

nm

I

=20mA

Spectral Line Half-Width

D.'A.

30

nm

I

=20mA

Forward Voltage any Dot

V

2.1

28

V

I

., 20mA

Reverse Current any Dot

I

100

p.A

V

Luminous Intensity Matching Ratio

--

50

E

40

-E

30

~

(;

m

>

4"

"m

20

0:

24

E

480

28

E
~
5

U

l'

4

20

\

o

640

800

720

Wavelength ( )0. I - nm
Fig 2 SPECTRAL RESPONSE

V
o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

40

r\

500

E
I

'\

g

"l' '1

12

x

'"

j
560

..:

lG

u
0

:;;

/

05

--r----

V

1000
800

......

20

15

>

a;

o
24

2.

..:

c

E
iii

0:

20

/

V

..J

Forward Voltage (V,I - Volts
Flg.1 FORWARD CURRENT Vs FORWARD VOLTAGE

l-I-

"'"0

iii

)
1G

L

25

E

GO

a;

12

~

§

0

10

u.

80

'5
"'5

/
1/

20

";:ro

?f-

~

r

100

V

5

u

=20mA

I

120

/

..:

2: 1

Iv-m

"'5V

E
~
5

U
-"

'"m
0..

I

60

80

90

'\

200
100
80

l'

'\

.......

~

~

50

........

..............

"-

I'-

20
10

r--

1
10

20

50

100

......

10

20

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cvcle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHzI
(AVERAGE I, = 10mA PER SEG I
Vs AMBIENT TEMPERATURE

6-67

908

ILITE('J~II

2088A
LTP- 2188AA SERIES
2.3" 8 x 8 SINGLE COLOR & MULTICOLOR
DOT MATRIX DISPLAYS

FEATURES
02.3" INCH (58.42mm) MATRIX HEIGHT .
• LOW POWER REQUIREMENT.
o HIGH CONTRAST.
o HIGH BRIGHTNESS.
-SINGLE PLANE, WIDE VIEWING ANGLE.
08 x 8 ARRAY WITH X-Y SELECT.
-COMPATIBLE
WITH
USASCII AND EBCDIC
CODES.
oSTACKABLE
VERTICALLY
AND
HORIZONTALLY.
oCHOICE
OF
TWO
MATRIX ORIENTATION
CATHODE ROW OR CATHODE COLUMN.
- EASY MOUNTING ON P.C. BOARD.
- CATEGORIZED FOR LUMINOUS INTENSITY.
o SINGLE COLOR DISPLAYS HAVE THE CHOICE
OF FOUR BRIGHT COLORS-GREEN I YELLOW I
ORANGE I HIGH EFFICIENCY RED.
oMULTICOLOR DISPLAYS ARE APPLICABLE TC
THREE BRIGHT COLORS: GREEN, ORANGE AN!
YELLOW (GREEN AND ORANGE MIXED)

DESCRIPTION
The L TP-2x88A series are 1.2 Inch (30.48mm) matrlxheight 5 x 7 dot matrix displays.
The LTP-2188AA are multlcolor applicable displays.
The multi color displays have gray face and white dot
color.
The L TP-2088A series are single color displays. The
green, yellow and orange displays have gray face and
white dot color.
The high effiCiency red displays
have red face and red dot color.
The green series devices utilize LED chips which are
made from GaP on a transparent GaP substrate.
The yellow, orange and high efficiency red series devices
utilize LED chips which are made from GaAsP on a
transparent GaP substrate.

DEVICES
PART NO_ L TPGREEN

YELLOW

ORANGE

HI.-EFF.
RED

2088AG

2088AY

2088AE

2088AHR

-

-

-

-

MULTI·
COLOR

2188AA

DESCRIPTION

PACKAGE
DIMENSION

INTERNAL
CIRCUIT
DIAGRAM

Anode Column, Cathode Row

A

A

Anode Column, Cathode Row

8

B
6-68

909

PACKAGE DIMENSIONS
A. L T~-2088A

B. L TP-2188AA

1----- 6 0.20----1
(2.370)

COL.

rm::{j'i={i~~~m:::m:~:1==;:,6

COL.

6 6 6 6 6 6 6,

000000002
00000000'
7.62><7
(.300><1)
0000000 O'
1EB--EB--EB--ffitEB--EB--&ffi
60.200 0 0 0 0 0 0 0'
(2.37"b 0 0 0 0 00 06
00000000'
~~~~~~~=--.lO 0 0 0 000 ~;

666666061

]

00000000'
00000000'
1~~~~~tl=i (~;~~=;) 0 0 0 0 0 0 0 o'
1
60.2000000000'
(,.370l 0 0 0 0 0 0 0 O.
00000000'
~w-tlt~

:Jj

~~~~~~~

OOOOOOO~;
0.200)

NOTE: All dimensions are in millimeters tolerance are:
(inches)
1. Lead length (from seating plane): minimum value

+1.00
mm
-0.000
+0.040"
-0.000"

2. ±0.25mm
(0.010")
)

INTERNAL CIRCUIT DIAGRAM
A. LTP-2088A

B. L TP-2188AA

COL. 1

ROW

6-69
910

NOTES:

1. The Sign"
2. The Sign"

-DI- .. stands for GREEN color dice.
-.!- .. stands for ORANGE color dice.

unless otherwise noted.

PIN CONNECTION
CONNECTION
PIN NO.
A. LTP·2088A
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

Anode Col 1
Anode Col 2
Anode Col 3
Anode Col. 4
Cathode Row
Cathode Row
Cathode Row
Cathode Row
Anode Col. 8
Anode Col. 7
Anode Col. 6
Anode Col. 5
Cathode Row
Cathode Row
Cathode Row
Cathode Row

ABSOLUTE MAXIMUM RATINGS AT TA

B. LTp·2188AA
A , Col., 1 , Green
A., Col. 1, Orange
A ,Col. 2, Green
A., Col. 2. Orange
A., Col. 3. Green
A, Col. 3. Orange
A, Col. 4, Green
A ,Col 4. Orange
C., Row 5, Green
C., Row 5, Orange
C., Row 6. Green
C., Row 6, Orange
C., Row 7, Green
C., Row 7, Orange
C., Row 8, Green
C., Row 8. Orange
A., Col. 8, Green
A., Col. 8, Orange
A., Col. 7. Green
A., Col. 6, Green
A., Col. 6, Green
A .. Col. 6, Orange
A., Col. 5, Green
A ,Col. 5, Orange
C., Row 4, Green
C.. Row 4. Orange
C., Row 3, Green
C., Row 3. Orange
C. Row 2 Green
C., Row 2, Orange
C., Row 1 , Green
C., Row 1 , Orange

5
6
7
8

4
3
2
1

= 25°C

GREEN

YELLOW

ORANGE

HI·EFF
RED

UNIT

Power Dissipation Per Segment

75

60

75

75

mW

Peak Forward Current Per Segment
(1/10 Duty Cycle, 0.1 mS Pulse Width)

100

80

100

100

mA

Continuous Forward Current Per Segment

25

20

25

25

mA

Derating Linear From 25°C Per Segment

0.3

024

0.3

0.3

mArC

5

5

5

5

V

PARAMETER

Reverse Voltage Per Segment
Operating Temperature Range

_25°C to + 85°C

Storage Temperature Range

_25°C to + 85°C

Solder Temperature 1/16 inch Below Seating Plane for 3 Sec. at 260°C

6-70
911

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-2088AG/2188AA (GREEN)

=

25°C

UNIT

TEST
CONDITION

4000

/led

Ip=48mA
1/8 DUTY

AP

565

nm

IF'" 20 mA

Spectral line Half-Width

AA

30

nm

IF =20 mA

Forward Voltage, any Sbgment or D.P.

VF

2.1

V

IF "'20 mA

Reverse Current, any Segment or D.P.

IR

100

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average luminous IntensitY

Iv

1500

Peak ·Emission Wavelength

L.uminous Intensity Matching Ratio

IlllAX.

2.8

-

VR =5V

y.A

IF'" 20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

/

«

E

40

30

~
~
U

20

/

"E

~

0

;::

il

I

-E

12

16

;;

80

e"
E

:;
B-

/

"'"0
"E

60

"
'">

iii
a;

a:

20

480

16

~
U

12

800

720

~

/

/

o

/

/

10

15

20

Forward Current (IF) -

Wavelength I ). I - nm
Fig 2 SPECTRAL RESPONSE

25

30

rnA

Fig 3 RELATIVE LUMINOUS INTENSity Vs
FORWARD CURRENT IPER SEGMENTI

I\,

500

24

""'-

20

E

640

560

V

1000
800

28

E

05

o

0
28

Forward Voltage IV,I - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

15

'">

40

a:

24

V

-'

iii
a;

20

25

"

0

J

o

100

;f

10

u.

--

120

50

1!

«

I

~

"

0

x

~
20

40

"-

E

60

g
E

"'1I
80

90

~
~
U

200
100
80

t'-

>-

ii
.........

50

0<

'"'"

Q.

ec
">

."'-

"-

15

E

...... ~

....

20

iii

a;
a:

""'-

"

.......

1

10
10

20

50

100

10

20

40

oc

Duty Cycle %
Duty Cycle %
Ambient Temperatu.re ITal - °C
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
IREFRESH RATE - F = 1 KHzl
IAVERAGE I, = 10mA PER SEG I

6-71

912

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-2088AY
PARAMETER

-

=

2SoC

TEST
CONOITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

900

4000

JLcd

IP = 160 mA
1/16 DUTY

Peak Emission Wavelength

i\.p

585

nm

IF

= 20 mA

Spectral Line Half.-Width

"'i\.

35

nm

IF

= 20 mA

Forward Voltage,any Segment or D.P.

VF

21

Reverse Current, any Segment or D.P.
Luminous Intensity MatchIng Ratio

UNIT

MAX.

IF = 20 mA

2.8

V

IR

100

JLA

Iv-m

2:1

VR =5V
IF

= 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

/

«

E

-C

40

V

30

l'

/
/

5

u

20

"C

ro

~

"

u..

If

10

80

16

60

">

40

Qi

480

28

16

5

12

E
I

" "-

g

......

........

J

I)

Qi
0::

--

I

/

05

/

\

560

640

10

800

720

15

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

Wavelength I X I - nm
Fig 2 SPECTRAL RESPONSE

\.

........

o

20

40

60

100
80

5

50

U

I

80

90

Ambient Temperature ITa) - DC
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

"\.
200

C
~

I'l

x

~
o

">

ji:

«

l'

U
u
0

15

500

24
20

C

/

>000
800

28

E

c

20

Forward Vollage IV,) - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE

«

w

E
:J

a
24

/

25

--'

ji:

20

c

a

J
12

0;

.E"
:J

:;
B:J
a

0::

a

~

r

100

"

"\

I"-

-'"

"'"

a.

l"

..........

20
10
10

20

"

50

"'

........

......

1

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(AVERAGE I, = 10mA PER SEG I
IREFRESH RATE - F = 1 KHz)

6-72

913

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTP-2088AE/2188AA (ORANGE)
PARAMETER

=

2SoC

TEST
CONDITION

UNIT

SYMBOL

MIN.

TYP.

Iv

1500

4000

J.lcd

Ip= 160 mA
1/16 DUTY

Average Luminous Intensity

MAX.

Peak Emission Wavelength

1.P

630

nm

IF "" 20 mA

Spectral Line Half-Width

61.

40

nm

IF

=20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF

=20 mA

Reverse Current, any Segment or D.P.

IR

100

J.lA

V

Iv-m

2:1

LuminOUS Intensity Matching Ratio

=5V

IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

",--

/
/

«

E

-1:'

40

30

i!!

20

";;;~
0;
u.

10

if

12

16

-

60

.,

E
i!!
5

16

U

V

'":J0
c:

I-

E
:J

15

>

20

480

28

I
560

a: os

\

o

640

800

720

Wavelength I A I - nm
Fig 2 SPECTRAL RESPONSE

I
o

V

/

/

~

.,

Q;

o
24

2S

g

a:

20

/

10

15

20

25

30

Forward Current 11,1 - mA
Fig. 3 RELATIVE, LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT 'PER SEGMENTI

1000
BOO

\.
\.

500

«

""- "\

E
I

g

"

12

"'1I

"

Cl

x

ro

:2
o

c:

- _.

e
E

40

>

g

24
20

?:
;;;

-

oJ

Q;

2B

E
I

---

0

Forward Voltage IV,I - Volts
Fig 1 FORWARO CURRENT Vs FORWARO VOLTAGE

«

1'-r-

f

80

'5
B:J

J

o

r--

120

100

/
/

5

u

- r-I-

o

20

40

60

80

90

200

E

100
BO

5

50

i!!

U

I

'-......

'\

I......

I'...

"'

'-...... i'

'".,ro
0..

1"-.

20

........

......

1

10
10

20

50

100

10

20

40

DC

Ambient Temperatu!e ITal - DC
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
IRE FRESH RATE - F = 1 KHzl
IAVERAGE I, = , OmA PER SEG I

6-73
914

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTP-2088AHR
UNIT

TEST
CONDITION

4000

ILcd

Ip = 160 mA
1/16 DUTY

i\p

635

nm

IF = 20 mA

Spectral Line Half·Width

Ai\

40

nm

IF = 20 mA

Forward Voltage, any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

IJ.A

Iv·m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

1500

Peak Emission Wavelength

luminous Intensity Matching Ratio

MAX.

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

E

/

-E

40

'C

ro
~
5
U.

20

12

16

IS

I

/

560

/

05

1/
o

640

720

/

800

o

10

15

20

Forward Current (IF) -

25

30

rnA

Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTI

800

~

E
I

g

'" "-

12

"

0

x



D-

90

"\

,

'"

480

24

16

/

Q>

o
28

1000

E

c

E

20

_.

25

iii

28

20

c

"'0:J



"
W
oc
24

in

:J
..J

Q>

20

i':
~
.E

60

13:J

j

o

I--

0

II

10

80

:;

I

~

5

u

~

,.- -

r

100

II

30

.

'-,---

120

',--,- r-- -

«

I"\..

"

r--...

I" ......

20
1

10
10

20

50

100

10

20

40

DC

Ambient Temperature ITal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ 1 KHzl
(AVERAGE I, ~ lOmA PER SEG I

6·74
915

7. LED Clock &

Frequency Displays
• SELECTION GUIDE
• CLOCK & FREQUENCY DISPLAYS

SELECTION GUIDE
CLOCK & FREQUENCY DISPLAYS
BRIGHT RED
DIGIT
SIZE

0,3"
EPOXY
TYPE

0.3"

0.4"

PART
NUMBER

GREEN

TYP.
Iv/SEG.
@10mA

LTC·371OP

PART
NUMBER

DESCRIPTION
TYP.
Iv/SEG.
@10mA

DRIVE MODE

LTC·3710G
350~cd

DISPLAY DISPLAY
MODE
FONT
(HOUR)

MULTIPLEX C,C,

FF

:88:88:

1000~ed

7·2

LTC·3718P

L TC·3718G

MULTIPLEX C.C,

FF

: 18'8.8.

L TC·3137 A 1P·12
LTC·3137A lP·24
LTC·3137A3P

LTC·3137A1G·12
L TC·3137A lG·24

DUPLEX
DUPLEX
DUPLEX

C,C.
C,C.
C.C.

12
24
12

:IS.8S.
as-S8

MULTIPLEX C.C.
MULTIPLEX C,C.

FF
FF

:88:8.8:
:88:88,5

LTC·3702SP
LTC·3708SP

155~cd

LTC·3702SG
LTC·3708SG

220~cd

LTC-3808SP

LTC·3808SG

DIRECT

C.A.

FF

:18:S.8.

LTC·3730PMA·'
LTC·3614MSJ

L TC·3730G L Y·l

MULTIPLEX C.C.
MULTIPLEX CA

FF
FF

S8'88t

LTC·14401 A 1P·2
LTC·14403A 1P·2
LTC·4401 PAA2

145~cd

LTC·1440l'A1G·2
L TC·14403A 1G·2

210~cd

DIRECT
DIRECT
DUPLEX

CA
C.A.
C;A.

12
12
FF

.1888
:18.8.8:
:Cl8SS

LTC·5502A1P.l2S

350~ed

LTC·5502A1G·12S

61O~cd

DUPLEX

C.C.

12

'IS'88,

LTC·5612ELM

600Med

MULTIPLEX C.A.

FF

giit.i's

C.A.
CA
C.C.
C.C.
C,C.
C.C.
C,C.
C.C.
C.C.
C.C.
C.A.
C.A,

FP
FF
FF
12
FF
12
FF
12
FF
FF
12

,S.8:8.B
:88'88
:88.8S.

L TC·674D lG·12
LTC·674D1G

MULTIPLEX
MUL TIPLEX
MULTIPLEX
DUPLEX
DUPLEX
DUPLEX
DUPLEX
DUPLEX
DUPLEX
DUPLEX
DIRECT
DIRECT

FF

:88'8.8

LTC·937S1G

DUPLEX

C,C.

FF

'i38:88.

L TC·937S1 G·12

DUPLEX

C,C.

12

:18:8.8

LTC·14501A1G·2 1100~ed

DUPLEX

C.C.

12

.18:88

LTC·18501A1G·2
LTC-18501A1G

DUPLEX
DUPLEX

C.C,
C.C.

12
FF

.Ia:88,
:a8:88.

DIRECT
DIRECT

C.C.
C,C.

12
FF

'18:88.
a8:8.8:

DUPLEX

C.C,

FF

:aSHS.

MULTIPLEX C.A.

FF

.S8:88.

0.5"

0.6"

LTC·612D1P
LTC·617DlP
LTC·627D1P
LTC·637C1P·12
LTC·637C1P
LTC·637D1P·12
LTC·637D1P
LTC·637D1P·12S
,LTC·637D1 p·s
LTC·637Dl P·W
LTC-674Dl P·12
LTC·674D1P

350MeQ

LTC·937S1P
0.9"

1.4"

LTC·612D1G
LTC·617D1G
LTC·627D1G
LTC-637C1G·12
LTC·637C1G
LTC·637D1G·12
600~ed
LTC·637D1G
LTC·637D1G·12S
LTC·637D1G·S

L TC·14501 A 1P·2

600~d

LTC·18501A1P·2
LTC·18501A1P
1.8"

670MCd

LTC·25501PAK
25"
7-1
918

·a8B8.
:18:88
:a8:88.
:i38:S8.

7·26

7·31

7·36

7·44

7-48

7·52

7·57

670Med
LTC·25601 PAK

Notes. C.C,. COMMON CATHODE

7·18

:18.8.8

1200MCd
LTC·1867A1G·2
LTC-18501A1G4

LTC· 1867Al P·2
LTC·18501Alp·4

:18:88.
:B8:88.
:18:88.

600~cd

340MCd
LTC·937S1p·12

PAGE
NO.

C.A,: COMMON ANODE

FF. FULL FEATURE

JL1rCC=~I1L @ §JEJruIJE§
0.3" fOUR LED CLOCK FREQUENCY DISPLAYS

FEATURES
00.3 INCH (7.62mm) DIGIT HEIGHT.
o CONTINUOUS UNIFORM SEGMENTS.
oCHOICE OF SIX BRIGHT COLORS RED/BRIGHT
RED/GREEN/YELLOW/ORANGE/HIGH
EFFICIENCY RED.
o LOW POWER REQUIREMENT.
o EXCELLENT CHARACTERS APPEARANCE.
o HIGH CONTRAST.
o HIGH BRIGHTNESS.
oWIDE VEIWING ANGLE.
oSOLlD STATE RELIABILITY.
o CATEGORIZED FOR LUMINOUS INTENSITY.
o I.C. COMPATIBLE.
o EASY MOUNTING ON P.C. BOARD OR SOCKETS.

.~

!

DESCRIPTION
The L TC-371 0 series devices are 0.3 inch (7.62mm)
height four digit displays.
The red series devices utilize LED chips which are made
from GaAsP on a GaAs substrate. The bright red and
green series devices utilize LED chips which are made
from GaP on a transparent GaP substrate. The yellow.
orange and high efficiency red series devices utilize
LED chips which are made from GaAsP on a transparent
GaP substrate. Red and bright red displays have black
face and red segment color. Green. and orange displays
have black face and white segment color. Yellow displays
have black face and yellow segment color. High efficiency
red displays have red face and red segment color.

DEVICES
PART NO. L TCDESCRIPTION

RED

BRIGHT
RED

GREEN

YELLOW

ORANGE

HI.·EFF.
RED

3710R

3710P

3710G

3710Y

3710E

3710HR

Multiplex, Common Cathode

3718R

3718P

3718G

3718Y

3718E

3718HR

,Multiplex, Common Cathode
7-2
919

PACKAGE DIMENSIONS
A.' LTC-3710 Series
DIGIT

DIGIT2

0lGI13

0lGIT4

.B

folDP
~~ ~ I[J]
0:0 B~tEo
't1Jo
L3

0

0

tid

.
millimeters
0
NOTE: All dimensions are In
(. h ) tolerance are:
+1.0 mm
inC es
1. Lead length (from setting plane) MINIMUM VALUM +~.040n

--=000

LC't;J

2

D~

o

0

DP2

±0.25mm unless otherwise noted.
. (0.D10 n )

( -O.OOOn)

PIN NO.

CONNECTION

Anode L3

13

Cathode U.D.P.

14

Cathode D.P. 2.

Anode D, Digit " 2. 3. 4
Anode L2

15

Anode U.D.P.

4

16

Cathode D.P.1.

3

920

PIN NO.

Common Cathode Digit 1

1
2

7-3

CONNECTION

5

Common Cathode, Digit 2

17

Anode A, Digit 1,2,3,4

6

Cathode UC. LC

18

Anode F, Digit 1 , 2, 3,4

7

Anode UC, LC

19

Anode B, Digit 1,2,3,4

8

Common Cathode, Digit 3

20

Anode C, Digit 1,2,3,4

9

Anode D.P.!.

21

Anode E, Digit 1

10

Common Cathode, Digit 4

22

Anode G, Digit 1 ,2,3,4

11

Anode E, Digit 2, 3, 4

23

Anode L1

12

Anode D.P.2

24

Cathode L 1 , L2, L3

PACKAGE DIMENSIONS
B. LTC·3718 Series
DIGIT2

0lGIT3

NOTE: All dimensions are in millimeters tolerance are:
+1.00 mm
(inches)
1. Lead length (from setting plane): MINIMUM VALUM __
--=0,;,,:.0:.;:0'-2.
+0.040"
( -0.000"

PIN NO.

CONNECTION

PIN NO.

01GI1:.4

± 0.25 mm unless otherwise noted.

(0.010")

CONNECTION

1

ANODE Dl

13

ANODE G

2

ANODE D3

14

COMMON CATHODE DIGIT 4

3
4

COMMON CATHODE DIGIT 1
ANODE D

15
16

ANODE B

5

ANODE 3

17

ANODE F

6

CATHODE UC. LC

18

ANODE UC. LC

7

COMMON CATHODE DIGIT 3

19

COMMON CATHODE DIGIT 2

ANODE A

8

ANODE D.P.

20

ANODE E

9

CATHODE D.P.

21

ANODE D2

10

ANODE D6

22

ANODE 4

11

ANODE D5

23

CATHODE D2. D4

12

CATHODE D5. D6

24

CATHODE Dl • D3

7-4
921

INTERNAL CIRCUIT DIAGRAM
LTC-3710 Series
2

24

L1 L2 L3

23

~

~

AII' ~

~

B

C

5

.

DIGIT 1

D

..

E

0

F

r ~~

~

G

A

~

..

B

0

C

~

6

8

DIGIT 2

.

'0

A

~

~

D

E

F

~

~ AII'

0

~

G UCLc

A

19

17

21

4

B

~

~

c

0

20

~ AII'

3

~

F

E

11

or t~

~~

0

0

II'

10

16

DIGIT 3

~

,

G DPl

18 22

B

t~
C

13 14

DIGIT 4

.

~

D

~ ~ ~ o~

F

E

GUI

15 12

9

LTC-3718 Series
23
24

3

6

19

or

~~. ~ r2~ '2~ ~2~ 1I'2~ "2~ 2~~2G
~

r or

B 1C

9

7

0

°

~3A 3~"3~ 3~ 3~ 1I'3~

U:

12

14

0

r

~

3~ D~~4A ~4~ 4~ ~4~ ~4~ 1I'4F "4~~

>-

1

21

18

2

16 15

5

20 17 13

4

8

22 11

10

ABSOLUTE 'MAXIMUM RATINGS
Hl.-EFF.
RED

UNIT

60

60

mW

60

80

80

mA

16

20

20

mA

0.24

0.2

0.24

0.24

mAtC

5

5

5

5

V

RED

BRIGHT
RED

GREEN

Power Dissipation Per Segment

45

30

60

50

Peak Forward.' Ourrent Per Segment
(1/10 Duty Cycle, 0.1 ms Pulse Width)

120

40

80

20

12

20

PARAMETER

Continuous

~drward

Current Per Segment

Derating Linear From 25"C Per Segment
Reverse Voltage Per Segment

0.24
5

0.14 '
5

YELLOW ORANGE

:~0

Operating Temperature Range

_25°C to + 85°C

Storage Temperature Range

_25°C to +85°C

Solder Tempera~ure 1/16 inch Below Seating Plane for 3 Seconds at 260° C
7-5

922

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-371OR
UNIT

TEST
CONDITION

450

/oLcd

IF=10mA

AP

655

nm

IF = 20 mA

Spectral line Half-Width

L>A

24

nm

IF = 20 mA

Forward Voltage any Segment or D.P.

VF

1.7

2.0

V

IF = 20 mA

Reverse Current. any Segment or D.P.

IR

100

IJA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

200

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5 V
IF=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

«

E
I

40

-E

30

;,'I.

~

5

u

"0

60

Q)

40

20

24

480

28

V

V \
640

05

o
720

800

Wavelength ( A I - nm.
FIg. 2 SPECTRAL RESPONSE.

o

I
10

15

20

25

30

Forward Current (lFI - rnA
FIg. 3 RELATIVE, LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

500

24

«

E
I

20

E

16

"- "-

~

"
x
:::;'"

560

Qj
II:

1000
800

28

U

V

li:

o
16

/
15

"
">

20

Forward Voltage (VFI - Volts
FIg.' FORWARD CURRENT Vs. FORWARD VOLTAGE

5

"

'E"

li:

1.2

/

U)

..J

Qj
II:

10

25

"
:£"
0

'5
Co
'5

0

«

"

BO

>

~

1;

in

0

20

to

LL

;:

100

12

0

E
I

g

"-

E

"-

o

5

U

"I
I

4

o

~

20

40

60

80

90

AmbIent Temperature (Tal - °C
Flg.4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

200
100
BO

50

.......

"

;:
in

c:

.......

2l

r--.

-'"

"'"

0..

15

"

.5

20
10

10

20

.,">

"

50

'"

Qj
II:

..........
~

....... .......

I

100

10

20

40

r-rDC

Duty Cycle %
Duty Cycle %
FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ , KHz)
(AVERAGE IF = , OmA PER SEG )

7-6

923

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTC-3710P
PARAMETER

SYMBOL

Average Luminous Intensity

MIN.

Iv

UNIT

TEST
CONDITION

600

pcd

IF =10mA

TYP.

250 '

MAX.

Peak Emission Wavelength

;>..p

697

nm

IF

Spectral Line Half-Width

6;>"

90

nm

IF = 20 mA

Forward Voltage any Segment or D.P.

VF

2.1

Reverse CUrrent, any Segment or D.P.
Luminous Intensity Matching Ratio

2.8

V

IR

100

pA

Iv-m

2:1

IF

= 20 mA

= 20 mA

VR =5 V
IF

=20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

J

«

E
I

~
E

40

V

30

"E
OJ
;:
/;

20

'5c.
'5

12

16

80

">

40

a;
a:

20

480

2.B

24

Forward Voltage (VF) - Volts
Fig. I FORWARD CURRENT Vs. FORWARD VOLTAGE.

24

V

640

1.•

-'

"~

1ij

a;
a:

o

BOO

720

Wavelength ( )0. ) - nm.
Fig. 2 SPECTRAL RESPONSE.

o

/'" V

10

15

r-

20

25

30

Forward Current (IF) - rnA
Fig 3 RELATIVE, LUMINOUS INTENSitY Vs.
FORWARD CURRENT (PER SEGMENT).

I\,
\.

500

E
I

20

1:

16

g

12

E
~
::>

r-... ........

"

C

X

U

o

40

60

100
BO
50

"

Q.

BO

90

"- ~

t'-.

1'1"----

OJ

1
20

200

~

r-.... r-...

OJ

::;:
o

V

o.

«

E
I

8"

c:

1000
BOO

26

«

560

0

E
::>

II
\

J

o
20

,

1/

2.

~.,
::>

/ 1\

80

iii

)

o

~
;;
c:

V",

0

V

10

u.

~

J

~

5
u

100

20

~

r-...

10
10

20

r-...
50

1"-I.......

1
100

10

20

40

DC

Ambient Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Flg.4 MAX. ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F ~ I KHzl
(AVERAGE IF ~ lOrnA PER SEG)
Vs AMBIENT TEMPERATURE.

7-7

924

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTC-3710G

=

25°C

UNIT

TEST
CONDITION

1800

/lcd

IF =10mA

;\.p

565

nm

IF = 20 rnA

Spectral Line Half-Width

t:;;\.

30

nm

IF = 20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current. any Segment or D.P.

IR

100

/lA

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

750

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR = 5 V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

I

«

E

-E

40

/

30

~

5
u
'E

~

0

LL

0"

'5c.
'5

I
II

20

10

12

1.6

Q)

"'"
c:

60

E

2.4

15

"
Q)

40

>
~

a:

20

a:

480

2.8

a;

II
640

720

800

Wavelength ( }. I - nm.
Fig. 2 SPECTRAL RESPONSE.

E

16

5

12

10

15

20

25

30

\.

500

"-

~

E
I

" "-

0

0

x

g.
E
~
5

"-

U

o

20

40

I

60

80

.:"\.

200
100
80
50

~
Q)

'I

~

o

o

Forward Current (lFI - rnA
Fig. 3 RELATIVE. LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI.

«
20

/

/

/

05

o
560

/

1000
800

24

E
I

I

...J

o

20

/

25

0

>

"'"
a;

28

U

c:

80

Forward Voltage (VFI - Volts
Fig. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

«

e"
E

0

j

o

i?:

100

90

a.

20

i?:

.........

""

e"c:

........

"" "-.

15

E

,

'"

Q)

>

~
a;

a:

10

"

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Flg.4 MAX. ALLOWABLE DC CURRENT PER SEG. Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHz)
(AVERAGE IF = lOrnA PER SEG.)
Vs AMBIENT TEMPERATURE.

7-8

925

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTC-3710Y
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Iv

600

1300

~cd

IF =

Average Luminous Intensity

UNIT

MAX.

10 mA

Peak Emission Wavelength

AP

585

nm

IF = 20 mA

Spectral Line Half·Width

A;\.

35

om

IF =20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF =20 mA

Reverse Current, any Segment or D.P.

IR

100

IJA

'v·m

2:1

Luminous Intensity Matching Ratio

VR =5V
IF =20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C

Ambient Temperature Unless Otherwise Noted)
120

50

/

«

E

40

-E

30

V

~

:;
U

'E
.,

20

;:

(;

u.

100

10

o
1.2

/
... J

0'1

;;

/

80

e

."

40

2.4

II:

20

480

28

560

\

o
800

720

640

/

05

o

10

15

20

25

30

Forward Current (1,1 - mA
Fig 3 RELATIVE, LUMINOUS INTENSity Vs
FORWARD CURRENT (PER SEGMENT).

Wavelength ( }. I - nm.
Fig. 2 SPECTRAL RESPONSE.

I\,

500

«

\.

E

20

"-

16

12

o

C

x

I

"

~

"

4

o

J

II:

800

~

:1

"

a;

/

V

>
~

I

II'

1000

I

8

/

1.5

"

o

20

24

-:=

E
...J

>
~

28

E

c:

60

0

a;

/

25

~

'""0

Forward Voltage (V,I - Volts
Fig.! FORWARD CURRENT Vs. FORWARD VOLTAGE.

«

~c:

{

o

20

40

60

E

100
60

:;

60

~

"-

"I

60

90

200

U
.><

.

'"
a.

r-.....

"\

"""

20

""

"r---.

""

1

10

10

20

50

100

10

20

40

oc

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Flg.4 MAX. ALLOWABLE DC CURRENT PER SEG. Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE%
Vs AMBIENT TEMPERATURE.
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = ! OmA PER SEG )

7·9

926

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-3710E
UNIT

TEST
CONOITION

1800

~cd

IF = 10 mA

AP

630

nm

IF = 20 mA

Spectral Line Half-Width

"'A

40

nm

IF = 20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current. any Segment or D.P.

IR

100

~A

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

750

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5V
IF = 20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

..:

E

-E

40

1/

20

"

c.

10

J

o
12

16

~

E

24

15

"
">

cr:

20

480

28

iii
a;

/
560

cr:

\

o

640

720

800

16

r--..

~

12

E
I

g-

"'~

E
~
5

["..,

"

D

"

U

~

~

o

10

15

20

25

30

rnA

Fig 3 RELATIVE. LUMINOUS INTENSitY VS
FORWARD CURRENT (PER SEGMENT)

~

..:

E

o

Forward Current (IF) -

Wavelength ( }. ) - nm
Fig 2 SPECTRAL RESPONSE

500

24
20

I

05

1000
800

..:

E

/

..J

40

28

5

"

60

o

20

/

/

~

Forward Voltage (V,) - Volts
Flg.l FORWARD CURRENT Vs FORWARD VOLTAGE.

U

.f"
0

>

iii
a;

/

25

~

0

1/

L1.

in

{

80

"""

/

'E

'"~

""

30

~

"

U

~

100

o

20

40

60

""'"
"
0..

I
so

90

" "-

200
100
80
50

i'.
i"'....

.......

20

I'-

I'\..

"- .........

r--.

'"

10

1

10

20

50

100

10

20

40

DC

Ambient Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
(AVERAGE I, = 10mA PER SEG)

7-10
927

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-3710HR
PARAMETER

UNIT

TEST
CONDITION

1800

#led

IF '" 10 mA

SYMBOL

MIN.

TYP.

Iv

750

Average luminous Intensity

MAX.

Peak Emission Wavelength

i\p

635

nm

IF =; 20 mA

Spectral Une Half-Width

l>i\

40

nm

IF '" 20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

/loA

Iv-m

2:1

Luminous Intensity Matching Ratio

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

/
II

c(

E

-E

40

30

e
20

~

(;

""

c:

60

E

"

...J

Q)

Q)

>

40

0:

20

24

>

480

28

Forward Voltage (VF) - Volts
Flg.l FORWARD CURRENT Vs. FORWARD VOLTAGE

\

I
560

iii
a;

0:

\

o

640

800

720

16
12

i'-

E
I

g

',-

E
e
5

1',

CJ

0

o

U

I'l
I

X



I,

iii

a;

0:

......

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Ta) - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F = 1 KHz)
(AVERAGE IF = 10mA PER SEG)

7-11

928

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-3718R
PARAMETER

MAX.

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous IntensitY

Iv

200

450

/Jcd

IF;

10

mA

Peak Emission Wavelength

Xp

655

nm

IF;

20

mA

Spectral Line Half-Width

6X

24

nm

IF ;

20

mA

1.7

2.0

V

IF =

20

mA

p.A

VR =

Forward Voltage any Segment or

D.P.

VF

Reverse Current, any Segment or

D.P.

IR

100

Iv-m

2:1

Luminous IntensitY Matching Ratio

UNIT

IF;

5

20

V

mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C

Ambient Temperature Unless Otherwise Noted)

50

120

00:

E
I

40

-E

30

'#-

'"~
0

u.

20

c:

60

E
:J

'"

16

20

24

V

"

40

480

28

>
~
a;
cr:

I

20

Forward Voltage IVF) - Volts
Fig.' FORWARD CURRENT Vs. FORWARD VOLTAGE

II \\
560

640

o
BOO

720

Wavelength I ).. I - nm.
Fig 2 SPECTRAL RESPONSE

lL"

05

o

10

15

20

25

30

Forward Current (IF) - mA
Flg.3 RELATIVE, LUMINOUS INTENSIl'Y Vs
FORWARD CURRENT (PER SEGMENTI

1000
800

28
24

500

00:

00:

E
I

20

E

16

"" ,

~

"
x
'"
:2

V

15

.J

>
~
a;
cr:

10

v

25

:J

o

U

c:

0

12

5

ii;

.£'"
"'0

80

'5c'5

~

"E

i:-

I

5

u

,

100

12

Cl

4

o

o

20

40

E
I

g

"
60

E
~
5

U

')

I
80

90

"'a.'""
"

200
100
80

r-....

I'-

i:ii;

c:

......

~

I'-...

50

~
.........

">

"

20

15

E

iii

"

a;
0::

10

1
10

20

50

100

10

20

....... r-..
40

DC

Ambient Temperature ITa) - °C
Duty Cycle %
Duty Cycle %
Flg.4 MAX ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
Vs AMBIENT TEMPERATURE
(REFRESH RATE - F ~ , KHz)
(AVERAGE IF ~ , OmA PER SEG )

7-12

929

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTC-3718P
UNIT

TEST
CONDITION

600

#cd

IF =10mA

?.p

697

nm

IF = 20 mA

Spectral Line Half-Width

/::,.?.

90

nm

IF =20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

#A

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

250

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5 V
IF "'20mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

/
/

«

E
I

-E

5"
u

..1:

"E

4D

3D

S

S:J

1.2

16

60

I

"
~

40

II:

2D

0;

)

o

80

0

V

10

0

u.

*

/

20

,

100

24

480

28

Forward Voltage (V,I - Volts
Flg.1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

\

640

15

..J

0;

\

8DO

720

..".-

">
l5

II:

/'

05

o

/

o

10

15

20

25

30

Forward Current (I,) - mA
Fig. 3 RELATIVE. LUMINOUS INTENSI,Y Vs.
FORWARD CURRENT IPER SEGMENT).

Wavelength ( }. ) - nm.
Fig 2 SPECTRAL RESPONSE

800

\.
\.

«

E
I

20

E
I

E

16

g-

5

12

~

"

.......

"

~

o

20

40

100
80

5

50

"

20

6D

U
-'"

"-

.

0..

1
80

90

2DD

E
~

....... .......

0

o

c:

1\

V

-

:J

"
E
:J

500

24

U

560

25

1000

28

«

/

o
20

/ \

>
~
c:

e
oS
.,

" "I\.

.......
..........

.......
.......
1

10

10

20

50

100

10

2D

"-

"

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Flg.4 MAX. ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE%
(REFRESH RATE - F ~ 1 KHz)
(AVERAGE I, ~ 10mA PER SEG.)
Vs AMBIENT TEMPERATURE.

7-13

930

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTC·3718G
PARAMETER

UNIT

TEST
CONDITION

1800

Mcd

IF = 10 mA

SYMBOL

MIN.

TYP.

Iv

750

Average Luminous Intensity

MAX.

Peak Emission Wavelength

i\p

565

nm

IF =20 mA

Spectral Line Half-Width

Lli\

30

nm

IF = 20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF = 20 mA

Reverse Current, any Segment or D.P.

IR

100

,.,A

Iv-m

2:1

Luminous Intensity Matching Ratio

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)
50

120

/

<{

E
I

40

-E

30

II

5

u

20

'E

;:
"

5

10

L1.

o
12

16

80

E

B::>

60

E
::>

">
'iii

40

.">

20

a;
a:

'"::>a

5

c

0

"

Forward Voltage IV,I - Volts
Fig. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

28

1000

24

500

800

720

20

E

16

r--..

~

12

0

Cl

" r-... f'

X

10

15

20

25

30

~

o

40

60

-:

10D

I

"

80

'\
~

""

11.

80

Ambient Temperature ITa) - °C
Fig 4 MAX. ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE.

" ""

.......

...............

-'<

I

20

200

e

,

'\..

E
I
]:

80
:; ~ 50
U

r'I

:;:
"

o

o

Forward Current (IF) - mA
Fig 3 RELATIVE. LUMINOUS INTENSitY Vs
FORWARD CURRENT (PER SEGMENT)

Wavelength I A ) - nm.
Fig. 2 SPECTRAL RESPONSE.

<{

E
I

5

640

fOO

<{

U

560

/

05

o
480

28

/

/

.,

0
24

/

15

..J

a;
a:

20

/
/It"

25

2l

~

/
V
J

~

?;
in
c

100

20
10

o

" '"

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE%
IREFRESH RATE - F = 1 KHz)
IAVERAGE IF = 10mA PER SEG )

7-14
931

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
LTC-3118V
UNIT

TEST
CONDITION

1300

!Jed

IF = 10 mA

AP

585

nm

IF = 20 mA

Spectral Line Half·Width

AA

35

nm

IF =20mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF =20 mA

Reverse Current, any Segment or D.P.

IR

100

p.A

Iv-m

2:1

PARAMETER

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

600

Peak Emission Wavelength

Luminous Intensity Matching Ratio

MAX.

VR =5 V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
120

50

..;
E
I

40

-E

30

/

II

"E

~

0

IJ..

;j!.

20

e-

c

60

E

"

>
~

40

a:

20

Q;

24

IJ

480

28

28

1000

24

500

.
r-....

16

~

U

12

0

Cl

x

::;:'"

o

\

580

800

720

932

o

10

15

20

25

30

Forward Current (1,1 - mA
Fig. 3 RELATIVE. LUMINOUS INTENSITY Vs.
FORWARD CURRENT (PER SEGMENT).

Wavelength ( ).. I - nm.
Fig. 2 SPECTRAL RESPONSE.

o

",

g

"

r-....

40

80

100
80

:;

50

U

"I
80

90

.......

E
~

I

20

\.
\.

..;
E
I 200

""0..'"
"

~

c

"" '

20
10

"- I'\..

in

o

10

20

~

15

.E

50

"-

">

;:;

.......

'"
a:

Q;

100

Ambient Temperature (Tal - DC
Duty Cycle %
Fig 4 MAX. ALLOWABLE DC CURRENT PER SEG Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
Vs AMBIENT TEMPERATURE.
(REFRESH RATE _ F = 1 KHzl

7-15

/

05

o

640

/

800

..;
E 20

:;

'"

Q;

a:

/

I

~

I

o
20

I

15

:l

..J

Forward Voltage (V,I - Volts
Flg.1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

E

~
'"

:J

j
16

/

25

0

S

/
12

If

80

0

10

o

~c
:J

/

'"~

U

100

"-

"

1
10

20

40

DC

Duty Cycle %
Fig 6 LUMINOUS INTENSITY Vs DUTY CYCLE %
(AVERAGE I, = 1DrnA PER SEG.I

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 2SoC
LTC-3718E
PARAMETER

TEST
CONDITION

SYMBOL

MIN.

TYP.

Average Luminous Intensity

Iv

750

1800

/-led

IF

= 10 mA

Peak Emission Wavelength

l\p

630

nm

IF

= 20 mA

Spectral Line Half-Width

Al\

40

nm

IF

= 20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF

= 20 mA

Reverse Current, any Segment or D.P.

IR

100

/-lA

VR

= 5V

Iv-m

2:1

IF

= 20 mA

Luminous Intensity Matching Ratio

UNIT

MAX.

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/
II



0:

20

a;

o
480

560

V

0:

/ \

05

o

640

720

800

Wavelength ( )0. I - nm
FIg 2 SPECTRAL RESPONSE

V
o

/

V

/

10

15

20

Forward Current (IF) -

25

30

rnA

FIg 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENTJ

1000
800

J\

500

2'

..:

E
I

20

~

I
16
12

g

"
~

0

x

ro

:;:
o

15

iii

28



iii
a;

28

E
~
'5

j

"'

-'

Forward Voltage (V,I - Volts
F,g. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

E

5

c

60

:J

2'

E
:J
0

e-

20

25

C

0

)

o

~

f

80

:;

/
1/

"~

i:

100

o

E
~
'5

" "l

U

I

20

40

BO

80

100
80
50

........

'\
:..........

.......

"".,ro
0-

90

Ambient Temperature ITa) - °C
FIg 4 MAX ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

\.

200

20

"'

r-. r-...

10
10

20

I"\.

50

100

1 '--10

20

~

.....

40

DC

Duty Cycle %
Duty Cycle %
FIg 5 MAX PEAK CURRENT Vs DUTY CYCLE % FIg 6 LUMINOUS INTENSITY Vs DUTY CYCLE%
(REFRESH RATE - F = 1 KHzl
(AVERAGE I, = 1 DmA PER SEG I

7-16

933

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
LTC-3718HR
PARAMETER

=2SoC
TEST
CONDITION

SYMBOL

MIN.

TVP.

Iv

750

1800

pcd

IF

= 10 mA
= 20 mA

Average Luminous Intensity

UNIT

MAX.

Peak Emission Wavelength

;\p

635

nm

IF

Spectral Line Half·Width

AX

40

nm

IF =20 mA

Forward Voltage any Segment or D.P.

VF

2.1

2.8

V

IF =20 mA

Reverse Current. any Segment or D.P.

IR

100

pA

Iv-m

2:1

Luminous IntensitY Matching Ratio

VR =5V
IF =20 mA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E

40

-E

1/

30



40

"

20

>

o
480

28

5

/ \

05

o

640

720

800

o

10

15

20

25

30

r\.

500

E
I

20

"-

16

12

',,-

"- i'..

40

60

100
80

~

50

.."

80

........

'\.
..........

.......

~

Q.

I
20

E
Q)
U

')
o

'\.

200

g.

4

o

V

Forward Current (1,1 - rnA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT {pER SEGMENT!.

Wavelength ( }. I - nm.
Fig 2 SPECTRAL RESPONSE.

«

o

x
~

0::

/

/

1000
800

I

~

560

"

V

V

/

iii

0::

24

15

Q)

iii

24

U
u

V

:J
..J

Q)

20

25

£

a

28

E

c

B

'"0
c
E

Forward Voltage (V,I - Volts
Fig. 1 FORWARD CURRENT Vs FORWARD VOLTAGE

«

~
in

:J

/
V
J

~

5
u
."
:;;
;:
5
U.

100

90

'\.

"

r--:--..

20
10

.......

.......

1
10

20

50

100

10

20

40

DC

Ambient Temperature (Tal - °C
Duty Cycle %
Duty Cycle %
Fig 4 MAX. ALLOWABLE DC CURRENT PER SEG Fig 5 MAX. PEAK CURRENT Vs. DUTY CYCLE % Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE%
Vs AMBIENT TEMPERATURE.
(REFRESH RATE - F = 1 KHzI
(AVERAGE I, = lOrnA PER SEG I

7-17

934

ILITEr.] ~ II

LTC~3000 SERIES
0.3" FOUR DiGIT LED CLOCK FREQUENCY DISPLAYS

FEATURES
-0.3 INCH (7.62 mm) HEIGHT CHARACTER RED
OR GREEN COLOR.
-COMMON CATHODE, COMMON ANODE; DIRECT,
DUPLEX AND MULTIPLEX PIN OUT ARE AVAILABLE.
- FLEXIBLE TO SELECT BOTH 12/24 HOURS AND
FULL FEATURE.
-CONTINUOUS UNIFORM SEGMENTS.
-WIDE ANGLE, LONG DISTANCE VIEWING.
-COLOR FILTER PROVIDES HIGH CONTRAST.
- LOW POWER REQUIREMENTS, HIGH RELIABILITY AND LONG LIFE.
-PRACTICAL BRIGHTNESS ARE OBTAINED AT
ABOUT SMA/SEGMENT DIRECT DRIVE; 20MA
(WITH Y. DUTY RATIO) FOR DUPLEX DRIVE;
SOMA (WITH 1/6 DUTY RATIO) FOR MULTIPLEX
DRIVE.
- RED (GaASP) 4 DIGIT LED COLOCK DISPLAY
VERSION STANDARD [GREEN (GaP) DISPLAY
SUFFIX G, BRIGHT RED (GaP) DISPLAY-SUFFIX
PARE AVAI LABLEJ.

DESCRIPTION
The LTC·3000 Series devices are designed for viewing
distance of up to two meters and for using in instrument, test equipment, communication equipment,
business machines, computers, micro processor •.. etc.

1. CLOCK mSPLAY
-DESCRIPTION
PART
NO.
LTC.

PIN OUT

DRIVE

COLOR
SEGA.G.D. ALARM
E.F.OF 1ST
FORM CIRCUIT BRIGHT GREEN
UP LOW
DIGIT
RED
V
3137A1P·12
DPX
NO
CC.
V
DPX
v
3137A1G·12 C.C.
V
NO
3137A1P-24
DPX
V
A.G.D.E.
V
CC.
V
DPX
V
3137A1G·24 C.C.
AG.D.E.
3137A3P

·C.C.

DPX

%
PM

INTERNAL
PACKAGE
CIRCUIT DIMENSION
DIAGRAM

V/V
v/V

A

A

A

A

A

A

A

A

A

A

V

A.G.D.E.
AG.D.E.F.

V

V

VIV

B

B

V

AG:D E F.
AG.D.E.F.

V

v

viV
v/V .
v/V
VIV
v/V

8

s-

C

C

V

V

3702SP

C.C.

MPX

37025G
370SSP

C.C.
C.C.

MPX
MPX

370SSG

C.C.

MPX

V

A.G.D.t;.F.

V

380SSP

C.A.

D.O.

V

NO

38085G

C.A

D.O.

v

NO

v
V

v

V.

v
V

--

REMARK

C

C

'D

D

D

0

BLACK FACE
WHITESEGS.

7-18
935

2. MULTI - FUNCTION DISPLAY (Customer design is acceptable)
DESCRIPTION
PART
NO.
LTC·

DRIVE

COLOR

FROM CIRCUIT

BRIGHT
GREEN YELLOW
RED

DISPLAY FONT

TAI'f ... .. IIEe

3614 MSJ

CA

MPX.

V

V

V

INTERNAL
PACKAGE
CIRCUIT
DIAGRAM DIMENSION

V,"

1.
--_
-_
R ---_
dS-20_10_fi411 3C 6-

MEMO

H

H

88"88 g

I

I

88"88 g

I

I

'""

TRAI"'''

8

INO'll!"

....~oc:" I B8.8 B:~
'"
TU

3730PMA·1

C.C.

MPX

3730GLY·1

C.C.

MPX.

NOTES.

V
V

1. C.A. common anode, C C . common cathode
2 MPX multiplex, DPX. duplex, DO direct drive

PACKAGE DIMENSIONS
A. LTC-3137 A 1 X Series

'-----(,.,:~~~:~!:~~;:~.)--~~

'------ (~~4:~;?O~~)c------..l
'-------( ~:6~~!~~g)c-------.J
B. LTC-3702S x Series

7·19

936

L

Filo

+

0.50
(.020)

-

(.012)

SLIP OUT TOLERANCE

0.30

C. L TC-3708S x Series

~~~
CjIS 0.60
CD .024)

D. L TC-3808S x Series

0.20
(.080)

10.16
(0400)

E. LTC-3614 MSJ

107 OOtO • 5 0

(4•• , . ± 0.02)

I'

C>

REC

V,D

'9 !94

..~

.. \

I~
4:V

-~

++ ++-t-+
0: 0.64

~'~
.,)

40. 40

C

(1.5

~

I

!3,O0
(.512)

1

I

19.50
(.76.)

101.50

(3 •• 9 ~

7-20

937

F. L TC-3730 Series

10.HS
(.400)

Wk~~9
\l0.60
(0.024)

)'
FILM

NOTE: All dimensions are in

SLI P OUT TOLERANCE

millimeters
0.25mm
tolerance is (0.010") unless otherwise noted.
(inches)

INTERNAL CIRCUIT DIAGRAM
A. LTC-3137
4

1

30

AM P,~

~
~1~ ~1~"'16
"'1~
~

l'

20 19

29

1~

.

.

.

~)
2~~26 1"2~~2F 1"2~~c( r-~~
ON 3A 1"3~ 3~

21 "'21

5

2

6

~

3

3D 3E '"

,.-.

~

f-

to • r- _~ r

r-

3~~3~

'~

4~"'4~

4i

4t

r-

4EPI'41

4~1"

~

,....7

10

8

28

9

11

14

12 13

21 18

17 15 16

B. LTC-3702
DIGIT 1

~

L1

L2 L3

6

5

2

24

~~

~ t- -:t- ~ t" ~t-

8

~

-:t- ~ • t"

16

D~IT

r

to ~:"

• t-

"

~

-:t-

~I"~~cl"~ ~ : ~I"~ ~I"~I"~ ~I"~ G~~O~A BI"~·DI"EI": ~D~

13 14

10

DIGIT 3

DIGIT :2

t

4

'G
~:"u

~ ~I"~I"EI"F ~

2

~

23

7-21

938

21

7

17 19 20

3

11

18 22

9

15 12

C. LTC-3708
5

2

24

r- •~ ~~
c t EiL

"l

tr- ~

23

4

F ~~

r- tr-

17

21

D. L TC-3808S

r

h

31

~ ~~

B ~C

D

16

10
DIGIT 4

DIGIT 3

~ E iL: r-

G iLC

~L~ ~ ~ ~B

C~

.~ ~
D

E

r- : G~~-DP

~t" ~ ~ ~

~

A

......

19 20

3

11

18

22

7

C iLD

13

14

~~ .~

~~

F

G

g

,
" r,

~

T

,

, , , ,, ,, , ,, r

, ,,, ,

DI IT

L3 lIi lC 2A 2B 2<: '"2D 2E 2F 2G

1

8

15

12

Series

X

DI ITI

I~L2

6

DIGIT 2

DIGITI

32 30

2

27 26

6

5

4

28

~C \C '"3A '"3B '"3C fo3D

3

7

,

DI ;JT

DI IT

25 23 22

11

,r ,. ,
.. '

r

, ,.fo ,, ~)~

3E 3F 3G ;Pl 4A 4B 4C 4D 4E '"4F 4G UDP DP2

10

9

24

8

12 20 19

15 14

13 21

18

17

16

E. L TC-3614 MSJ
4

!v

P T

~~~~

P"
~

g~ ~~

,

C

2

4 3 2

1 5

46

42

45

i!

R

'---L=
7
~

3.

36

,

, ?

,

l
6

l
3
l
4

,

~

~

33

11

,

1\',

M~:~ 'N. •18 II ~U
o C
MI •
NO c

R

R

K

DODD

DO 0

2 2 2 2 2 2 2 J
ABC 0 E F G A

DODO

H B~ ~ ~

o 0 DO DO o 0 0 o 0 DO 0
4 4 4 4 5 5 5 5 55 5
0 E F GAB C 0 < F G

1 a C4

~ ~ 6DO• 6DO6 6DOD
6 6
A B Co < F G

7

5453 7 82

3)

•

2120191817161

1422ZJ2425262128

F. L TC-3730 Series

,
lA

1

lC 'lE

"

1F

'Gf~2~2C

,

r-

.
26 2< 2Ff:>rir...: LC . f3E

af

30 3E 3F

3Gf~4f4C

4

4< 4F 4G 9U 9L

~

13

12

9

14

6

11

10

7-22

939

CONTINUOUS NEXT PAGE

7-23
9<10

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

SYMBOL

RED

BRIGHT
RED

GREEN

UNIT

Average Forward Current Per Segment/D.P. Direct Drive CUrrent

leF

25

20

20

mA

Peak Forward Current Per Segment/D.P. (Duty 1/10 1 KHz)

IPF

200

150

150

mA

IF /pulse

30

30

30

mA

VR

5

5

5

V

Continuous Forward Current Duplex Circuit (Duty 1/2)
Reverse Voltage (Segment of Decimal Point)
Operating Temperature Range

Topr

_25° C to 60° C

Storage Temperature Range

Tst9

_25°C to 70°C

Derating linear From 25°C

Po

Derating linear From 25"C

2.4

2.4

2.4

W

0.35

0.42

0.42

mArC

Max. Solder Temperature 260°C For 3 Seconds at 2 mm From The Case Or Rellector Edge
NOTE: Caution
Please be careful of the following.
1) Avoid washing the LED DISPLAY in water.
2) Except for the printed wiring board, Avoid heating the LED DISPLAY over MAXIMUM RATING.
3) Avoid using chemicals except for the following, when washing off flux and wiping off stain on surface of the
LED DISPLAY
Freon TE or TF
Methyl or Ethyl Alcohol
Daiflon Solvent S3 or S3·E

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
PARAMETER

Luminous Intensity

Peak Emission
Wavelength

Spectral Line
Half·Width

Forward VoltagEl

Reverse Current

Luminous Intensity
Matching Ratio

SYMBOL

Iv

~p

~~

VF

IR

Ivm

DEVICES

MIN.

TYP.

RED

35

80

BRIGHT RED

65

155

GREEN

90

220

RED

630

655

BRIGHT RED

697

GREEN

565

RED

24

BRIGHT RED

90

GREEN

30

=

25°C
MAX.

UNIT

TEST CONDITION

~cd

IF = 10 mA

nm

IF =20mA

nm

IF = 20 mA

V

IF =20mA

680

RED

1.7

2.2

BRIGHT RED

2.1

2.8

GREEN

2.1

2.8

RED

100

BRIGHT RED

100

GREEN

100

All Model

2:1

p.A

VR =5V

IF = 10 mA

7·24
941

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)
50

120

/

«

E

-~

40

2Q

II

"E

~

0

S0.
S

10

o
12

.."

0;

20

16

/

20

a:
24

:\

V

o

28

,

1/

40

.~

J

u.

60

0

~

L

I

/

~

If

80

;j!.

30

:;
U

100

'/

480

560

\

640

800

720

Wavelength ( ~ ) - nm.
Fig. 2 SPECTRAL RESPONSE

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

28

~
in

/

25

c

~
""'

/V

E

15

"

..J

">

".

0;

a:

«

~

05

o

o

I'
I"

18

~
~

l?V

I-- 1--1-0.

20

E
I

V

0

c

24

:;

J"...

12

U
u

. . . 1'

I'.

l'

Cl

1'Q

X
:;;:
co

10

15

20

25

o

30

Forward Current 11,) - rnA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT).

j
o

40

20

60

80

90

Ambient Temperature (Ta) - °C
Fig. 4 MAX. ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE.

1000
800

~

500

«

E

g
~
~

:;

..
8!.

'\

~
in

200

c

l'

~

..E

100
80

t'-

50

U
.><

......

"\

15

1"-

">
iii

r......

I"-.1"- ~

~

0;

a:

,....

20
10

o

~

"r-..
l'

1
10

20

50

100

10

20

40

DC

Duty Cycle %
Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE %
(AVERAGE I, = lOrnA PER SEG)

7-25
942

ILlTE('] ~II

LTC.;.4000 SERIES
0.4" FOUR DIGIT LED CLOCK FREQUEr~CY DISPLAYS

FEATURES
.0.4 INCH (10.16mm) HEIGHT CHARACTER RED
OR GREEN COLOR.
• COMMON CATHODE, COMMON ANODE; DIRECT.
DUPLEX AND MULTIPLEX PIN OUT ARE AVAILABLE.
• FLEXIBLE TO SELECT BOTH 12/24 HOURS AND
FULL FEATURE.
• CONTINUOUS UNI FORM SEGMENTS .
• WIDE ANGLE, LONG DISTANCE VIEWING .
• COLOR FILTER PROVIDES HIGH CONTRAST.
• LOW POWER REQU IREMENTS, HIGH RELIABILITY AND LONG LIFE.
• PRACTICAL BRIGHTNESS ARE OBTAINED AT
ABOUT SMA/SEGMENT DIRECT DRIVE; 20MA
(WITH Yo DUTY RATIO) FOR DUPLEX DRIVE;
50MA (WITH '/6 DUTY RATIO) FOR MULTIPLEX
DRIVE.
• RED (GaASP) 4 DIGIT LED COLOCK DISPLAY
VERSION STANDARD [BRIGHT RED (GaP)
DISPLAY-SUFFIX PARE AVAI LABLE.

,I
I

DESCRIPTION
The L TC-4000 Series devices are designed for viewing
distance of up to two meters and for using in i nstrument, test equipment, communication equipment,
business machines, computers, micro processor ... etc.

DEVICES
DESCRIPTION
PART
NO.
LTC-

DRIVE
FORM

PIN OUT

SEG A.G.D. ALARM
E.F. OF 1ST
BRIGHT
CIRCUIT
GREEN
UP LOW
DIGIT
RED

14401A1P-2

CA

D.O.

14401A1G·2

CA

D.o.

14403A1P-2

C.A.

D.o.

14403A1G-2

CA

0.0,

4401PAA2

CA,

DPX

COLOR

V

NO

V
V

NO

V
V

NO

NO

A.G.D.E.

V
V

V
V
V

%

INTERNAL
PACKAGE
CIRCUIT
DIMENSION
DIAGRAM

PM

y/V
VjV
V/V
V/V
V/V

A

A

A

A

B

B

B

B

C

c
7·26

943

PACKAGE DIMENSIONS
A. LTC-14401A1 x Series
52.00

_81-.

(::~~~)~

ff,

" t4"

9.00
.3"5}

1h

21.0010.!iO

)

""'G
•• 0
• 059)

~.

(2.041)
42.2o±O.50
(1.661:1:.020)

t-(~3~g) -

1f fr·~·70
."'If""
0.90

l

au r-4- (J'JJ·i
I

I

a u ,a:~" a=O~
,,':!R

LV I,a

CDDP

~.

I

~;:~~ 1.80

/

5O:t.0.50

7 1 1.020)

=

"

2.154><26-118.0.
(.,00><26 .. 2.600
70.00:1;0.50

J

LM Sll(OUT

TOLE RANCE t.~~g)

~

II

r1

03.'0

f~·'22)

.
'D .

00
"'-.~, 039)

""'{2.756:1:.020)

0.30

-(.012)

B. LTC-14403A1 x Series

l __-I-~~=:::~~~=:::~~~=:::~~~=:::~~~=:::::::::~~~=:$t_~'·80

(.07')

'---------------,~;~~:~::~64~~r_------------'1

FILM SLIP OU1+0050
TOLERANCE
(.020)

_0.30
(.012)

'--------------,(:~i~~:;-------------...

C. LTC-4401 PAA2

'------- ~t~~~ - - - - - - - - - - - 1
1------------ (~1~:~~::~3~~)------'
1-------- ~:~g~?o~) - - - - - - - - - - - - - 1
NOTE: All dimensions are in

7-27

944

millimeters
(inches)

+(~~g)
0.30
-C·0 12)
FILM SLIP OUT TOLERANCE

0.25mm
tolerance is (0.010") unless otherwise noted.

(.063)

INTERNAL CIRCUIT DIAGRAM
A. LTC-14401A
27
DIGIT 2

DIG IT 1

I;c ~A 28 ~c ~D

'FpM AM" lEj

1

2

3

4

11

10

8

7

DIGIT 4

DIGI T 3

2E

6

r

r r

r

~
~
~
~
~
2G 3A faB 3C 3D 3E 3F 3G DP 4A 48 4C 40 4E 4F 4 G

~F
5

9

12 18

17

16

15

13

14

19

20

26

24 23 22 21

25

B, LTC,14403A

DIGIT 1

r
AM PM'

~A ~B

2

9

DIGIT 2

r

~

IC 10 IE IF" IG 2A 2B

~C

DIGIT 4

DIG IT 3

~

~

20' 2E 2F 2G CO ON 3A 3B 3C' faD 3E raF 3G DP 4A' 4B 4C 40

~~ 4F

~

4G Mtt; KHZ

I3

10

8

7

6

5

4

17

16

15

14

13

12

11

18

25

24 23

22 21

20

19 26 33

32

31

30

29 28

27 34

35

C, LTC-4401 PAA2
3 123

2020

.,
.M PM , .

4

5

'8 ',"

...

10 IE 1G 2A 2B 2C 20 2E 2F 2G

L-

uc lC

L-

•

7

11

L-

9

12 10

24

3A 38 3C 3D 3E 3F 3G 4A 48 4C 40 4E 4F -4(

'-

15

DP

'-

13

14

18

16 19 17

21

7-28
945

ABSOLUTE MAXIMUM RATINGS AT TA = 2SoC
PARAMETER

SYMBOL

REO

GREEN

UNIT

Average Forward Currflnt Per Segment/D.P. Direct Drive Current

reF

25

20

mA

Peak Forward Current Per Segment/D.P. (Duty 1/101 KHz)

IPF

200

150

rnA

IF/pulse

30

~

'A

VR'

5

5

V

Continuous Forward Current Duplex Circuit (Duty :1/2)
Reverse Voltage (Segment of Decimal Point)
Operating Temperature Range

Topr

_250 C to 60° C

Storage Temperature Range

Tstg

-2'ff'Cto 70°C

Derating Linear From 25

".

II

,

J

1\

/ 1\

40

20

Ii

II:

o

24

20

16

S
S-

a;

)
12

80

~

10

"-

~

0

II

"0

0

100

480

28

560

\

640

800

720

Wavelength I ~ ) - nm.
Fig. 2 SPECTRAL RESPONSE

Forward Voltage IV,) - Volts
Fig 1 FORWARD CURRENT Vs. FORWARD VOLTAGE

28

i:"
in

24

25

c:

e
E
~

c:

E

15

~

...J

">

V

iii

a;
II:

 6.00

SLIP OUT

TOLERANCE

0.30

tl·O~ I

- (.012)

4-D (0236)

~~------~~r-----t±~r--+~±--i--~~-~~-----.--r

~

~

.3~

\

II

(.063)

6.00
(.236)

6.00
(.236)

NOTE: All dimenSions are

47.00
(1.850)

In

6.00
(.236)

(.012)
MAX.

2.00

(.079)
77.00±o.,SO
(3.031 ±.020)

millimeters tolerance IS 0.25mm unless otherwise noted.
(inches) •
(0.010")

7-32

949

INTERNAL CIRCUIT DIAGRAM
A. LTC-5502
3 1,23

2.20

22

AM ~M

.

~A' ~B

~

1C

~

~

~

~D ~E ~G ~A

~
28

. .

.r~C ~D

2E

~

~r ~G

COL

~N

~

~
3A'

~8

3C 3D 3E

~F ~G' ~A' ~B' ~C ~D ~E

~G

4F

AL

~

~

~

f-

DIGIT 4

DIGIT 3

DIGIT 2

DIGIT 1

I-12

457698

10

11

13

24

17

16

14 15

18

21

19

B. L TC-5612 ELM
12

9

,~' ~. ,. ,
'~.
.. 1 . .. ~ J!
~

,. ,. ,. ,.
-

/l; ~ If; ~

~

Col

~
Col

....
ci.~

'"

13

10

11

r
il e; I'.

~n \-n

,. ,

,,.
0;

IS ;:; ~

,

a.

n

'" '"

~

~

~

::

!!. S:

Ir

,.,

n

~

.-L
!!

2345678

7-33
950

~~..

III

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C
SYMBOL

RED

GREEN

UNIT

Average Forward Current Per Segment/D.P. Direct Df/ve Current

ICF

25

20

mA

Peak Forward Current Per Segment/D.P. (Duty 1/101 KHz)

IPF

200

150

mA

IF Ipulse

30

30

A

VR

5

5

V

PARAMETER

Continuous Forward Current Duplex Circuit (Duty 1/2)
Reverse Voltage (Segment of Decimal Point)
Operating Temperature Range'

Topr

_25° C to 60· C

Storage Temperature Range

Tstg

_25° C to 70° C

Derating Linear From 25°C

Po

Derating Linear From 25"C

2.4

2.4

W

0.42

0.42

mAtC

Max. Solder Temperature 260°C For 3 Seconds at 2 mm From The Case Or Reliector Edge
NOTE: Caution
Please be careful of the following.
1) Avoid washing the LED DISPLAY in water.
2) Except.for the printed wiring board, Avoid heating the LED DISPLAY over MAXIMUM RATING.
3) Avoid using chemicals except for the following, when washing off flux and wiping off stain on surface of the
LED DISPLAY
Freon TE or TF
Methyl or Ethyl Alcohol
Dai-From Solvent S3 or S3-E

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
PARAMETER
Luminous Intersity

SYMBOL

i\.p

Spectral Line
Half·Width

Ai\.

Forward Voltage

VF

Luminous Intensity
Matching Ratio

MIN.

TYP.

BRIGHT RED

140

350

GREEN

245

610

MAX.

Iv

Edge Peak Emission
Wavelength

Reverse Current

DEVICES

BRIGHT RED

697

GREEN

565

BRIGHT RED

90

GREEN

30

BRIGHT RED

2.1

2.8

GREEN

2.1

2.8

BRIGHT RED

100

GREEN

100

All Model

2.1

IR

Ivm

UNIT

TEST CONDITION

= 10 mA

J.lcd

IF

nm

IF" 20mA

nm

IF'" 20mA

V

IF =20mA

J.lA

VR=5V

IF

= 10 mA
7-34

951

.. ,:.':...-..

--.,

~,:~~-

".~

_____

<_.~

__

~,_~.::.~:...~

.: "':

~:_-_

~ ~:

.....

... -, - .

'.'N:~~"_

:~:

,.....~.~:: .. ,'"

w.

~

;:;.-,

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(2SoC Ambient Temperature Unless Otherwise Noted)

50

ot
E
I

-1':

/

40

30

2Q

~

10

o
12

V

40

"
~
a;

20

a:
20

16

60

S
0

j

LL.

/ \

I

5

1/

"E.,

II

80

~

/

:;

(;

100

II

~

U

'20

/

o

24

480

28

,
/

25

c:

.

.£

"c:

E

"
~
.,a;"

15

...I

a:

~

05

o

24

ot

o

\

-

-'-

":,

16

1':
~

~~

:;

..........

12

"~

U
0

0

.'"

~

"I
i'. ~

:2

10

15

20

800

720

640

560

20

E
I

~V

0

\

28

/

Q)

/

Wavelength ( A ) - nm.
Fig. 2 SPECTRAL RESPONSE.

Forward Voltage (VF) - Volts
Fig. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

~
in

\

25

o

30

Forward Current (IF) - rnA
Fig. 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT).

o

40

20

60

80

90

Ambient Temperature (Ta) - °C
Fig. 4 MAX. ALLOWABLE DC CURRENT PER SEG.
Vs AMBIENT TEMPERATURE.

1000
800

I'\.

500

~

g

200

E

100
80

:;

50

~

.."

U
.><
0..

"

J!l

.....

"......... ......... ......
.........

20

~

.5

1ii

......... ....

,

~

.....

" .......

.......

1
10

20

50

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F = 1 KHz)

952

'\

1.5

.~

10

7-35

'\.

~
in
c:

10

20

40

DC

Duty Cycle %
Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE %
(AVERAGE IF = lOrnA PER SEG.)

ILITE('J~II

LTC-6000 SERIES
0.6" FOUR DIGIT LED CLOCK FREQUENCY DISPLAYS

FEATURES
-0.6 INCH (15.24mm) HEIGHT CHARACTER RED
OR GREEN COLOR.
-COMMON CATHODE, COMMON ANODE; DIRECT,
DUPLEX AND MULTIPLEX PIN OUT ARE AVAILABLE.
_ FLEXIBLE TO SELECT BOTH 12/24 HOURS AND
FULL FEATURE.
- CONTINUOUS UNIFORM SEGMENTS.
-WIDE ANGLE, LONG DISTANCE VIEWING.
-COLOR FILTER PROVIDES HIGH CONTRAST.
- LOW POWER REQUIREMENTS, HIGH RELIABILITY AND LONG LIFE.
-PRACTICAL BRIGHTNESS ARE OBTAINED AT
ABOUT 8MA/SEGMENT DIRECT DRIVE; 20M A
(WITH % DUTY RATIO) FOR DUPLEX DRIVE;
50MA (WITH '/. DUTY RATIO) FOR MULTIPLEX
DRIVE.
-BRIGHT RED (GaP) 4 DIGIT LED COLOCK DISPLAY VERSION STANDARD [GREEN (GaP)
DISPLAY SUFFIX G.].

DESCRIPTION
The L TC-6000 Series devices are designed for viewing
distance of up to two meters and for using In instrument, test equipment, communication equipment,
business machines, computers, micro processor ... etc.

DEVICES
DESCRIPTION
PART
NO.
LTC-

DRIVE

PIN OUT

COLOR

SEG A.G.D. ALARM
E_F. OF 1ST
BRIGHT
FORM CIRCUIT
GREEN
DIGIT
UP LOW
RED

61201 P

C.A.

MPX

61201G

C.A.

MPX

61701P

C.A.

MPX

61701G

C.A.

MPX

62701P

C.C

MPX

62701G

C.C.

MPX

V
V
V
V
V

%

INTERNAL
PACKAGE
CIRCUIT
DIMENSION
DIAGRAM

PM

YES

V

V

V/V

A

A

YES

V

V

V/V

A

A

YES

V

V/V

B

B

YES

V

V/V

B

B

YES

V

V/V

C

C

YES

V

V/V

C

C

7-36

V

953

DESCRIPTION
PART
NO.
LTC·

DRIVE

PIN OUT

COLOR

ALARM
SEGA.G.D.
E.F. OF 1ST
BRIGHT
GREEN
DIGIT
UP LOW
RED

FORM

IRCUIT

C.C.

DPX

V

AG.D.E.

V

637C1P·12

C.C.

DPX'

V

NO

637C1G·12

C.C,

DPX

V

637C1G

C.C.

DPX

V

637D1P·12

C.C.

DPX

637D1G·12

C.C.

DPX

637D1G

C.C.

637D1G·12S

INTERNAL
PACKAGE
CIRCUIT
DIMENSION
DIAGRAM'

X
PM

V/V

D

D

V

V/V

D

D

NO

V

V/V

D

D

A.G.D.E.

V

V/V

D

D

NO

V

V/V

D

E

V

NO

V

V/V

D

., E'

DPX

V

A.G.D.E.

V

viv'

D

E

C.C.

DPX

V

NO

V

VjV

D

E

637D1G·S

C.C.

DPX

V

AG.D.E.

,V

,V/V

D

E

637D1P ,.

, C;C.

DPX

AG.D.E.

V

V/V

'D

E
E

'637C1P

V

V

"

e.c.'

DPX

637D1 P·S

e.c.

DPX

637DIP-W'

c.e.

DPX

674D1G·12

C.A.

D.D.

674D1P·12

C.A.

D.D.

' C.A.

D.D.

63701P.12S

NO

V

VjV

D

V

A.G.D.E.

V

V/V

D,

V

AG.D.E.

V

V!V

D

E

V
.'

V
V
."

,

674D1G

V

I''''

674D'lP
\.

7-37

954

' ..'~'.'.:

'C~A:

:

. D.D.
"

: V

"
\""\

V

V/V

I

K

NO

V

VjV

I

K

'V

v/V

I

K

V

. ,V/V

' I

K

YES

.

.','

,

'YES'
,'.'

E

NO

.,
"

"

.

PACKAGE DIMENSIONS
A. LTC-612 Dl x Series

JL

'.60
(.053

B. LTC-617 Dl x Series

"c:;:~1

5.80
°(.228

F

,..oo,[!

(°''''''1°'-l .. ,0
.063)
FILM SLIP OUT TOLCRAHCE

11---------.30327.--------'

+(~O~)
0.30

-(.OI2)

'---------.:~~;~~~--------'

.....------.{~:~';~~;~~~~)'-------l

C. LTC-627 D 1 x Series
FILM SLIP OUT TOLERANCE
0.50
+,.020)

0.30
-(0012)

3.20
(.126)

'---------,(.~~~:;::~:;~~5r_----'

/Il---------i;~i:~r------~~I
86'.00'~_ _ _ _ _~.J

01.00-'/

(3'~"5.00

(0.039)

(1,172)

D. LTC-637Cl x Series
72.00t:O.50
(11of135:!:O.02)

l

F~~:!l

;;~"..'
'~~~~~[~::~"
~

,,DID.loaD

..J

(Oo..039I o 003S-30)

- - - r 3".00'
. 38S r - - - -

~'~I

{~~;~!~~~.~~)~----..J

;...

FILM SLIP OUT TOLERANCE

"f.020)

0.30
1'.012)

7-38

955

E. LTC·637 01 x Series
12.00 to.5 0
(2.835±O.02)
34.00
(1.339)

~ ~~~g:):::

11 ~;:o:~)

f('O.40

1S.00±C.50

(0 409)

(0. 748±.020)·

-

L

\

¢ll.0±O.')(24

J

(00..039±.0039><24 )

II-----------,~~\-------~ \

(:~;~~)

. ___ FILM

~

15.00

,0.59)

1.50---L
SLIP OUT TOLERANCE

t.020)
0.30

(~~:~~8pl(~:~~8JAj

1:.012)

92.0Q±O.50

(3.822±.020 )

F. LTC-674 01 x Series
+ 0.50
FilM SUP OUT TOLERANCE

-

(~~:~)
(.012)

'.'OO±c~
L
(.748±.020

JJ~'60

(.063)

o
A

NOTE: All dimensions are in

millimeters'
0.25mm
tolerance is
unless otherwise noted.
(Inches),
(0.010")

5.90

232)

6.90
(.272

II\lTIERNAL CIRCUIT DIAGRAM
A. LTC·612
2

1

6

10

7 7
~'n '7 ~ '7~ '7 ~ 7 ~h ~ '-j;.
A r ii i- c Di- E ~ r G DP1

PM AM

3

30

21

12

DIGIT 2

DIGIT 1

11

4

~

c:'

B

24 1B

5

:.~ '7 ~

7

~

D

F

E

9

~'7

G UC lC

'7 ~ '7;:.
A

B

C

28

22
DIGIT 4

DIGIT 3

'7 ~ .. E f-

F

D

Z;:

~

G D

B 25 23 29 13

~

7

B

A

C

~~D

~7 ~

]U

Ei- F

G

26 27

20

B. LTC·617
6

5

DIGIT 1

~7
Af- jj

PM AM

~ (~

9

23
DIGIT 3

DIGIT 2

'n 7

70;

E

D

F

~

'7

G

~

~

7

'7

C

B

-7
'7
7~F ~;: . rON
~~A ii 7. c
G C~

.,

~

C'-

E

[

28

24
DIGIT 4

'7 '71
E

F

7~

7
A

G

B

C

.,

~ [ '7 E~ ~ ~~
~

'- F

'--0

2

3

4

26 22

B

7

27 25

29

10

C. LTC·627
5

6
DIGIT 1

":- ~
~~ ~

2

3

4

~~ I>

~

~

D

~ ~Fi'a

E

8

7

~

23

9

DIGIT 2

:- :-~ :- ~ ,..
A

B

C

.

~ ~ :-

D~ E

~~

24
DIGIT 4

DIG T

.

a,ci to~

~

"

i'A ~B

~ ~ ~~ F~~ t"A r\ ~

t

:D

8

E~ ~

~

29

10

D. LTC-637
3 1.29

2.26

28
DIGIT 2

DIGIT 1

:PM AM

1i l~~lC 1t

:1E

~

• r-:-

1Gr\2A'~2B~2C 2~ 2~

DIGIT 4

DIGIT 3

:2F

~

~"r- ~~ ~~

r-

~

2G~ ~Ol~N:J1>3~ 3C"'3~1\~~3~~~~4A 4~

r4Ci"-4C

~

4E

4~"'4~~

Al

t--

45769B

13

-

10 12

7-40
30

15

16 17

18

21

19 20

957
27

E. LTC-674
DIGIT 2

DIGIT 1

DIGIT 4

DIGIT 3

,.
PM AM 1A 18 1C

2

7-41

958

3

10

9

8

1F 1G

10 lE

7

6

5

4

2A 28 2C 20 2E 2F

17

16 15

14

13 12

11

--

18

~

~

2G UC LC 3A 38 3C 3D 3E

25

24

23 22

21

3F

3G

,.

OP 4A 48 4C 40 4E 4F 4G M HZ

20 19 26

33 32 31

:io

29

28 27 34

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C

..

SYMBOL

BRIGHT
RED

GREEN

UNIT

Average Forward Current Per Segment/D.P. Direct Drive Current

leF

20

20

mA

Peak Forward Current Per Segment/D.P. (Duty 1/10 1 KHz)

IPF

150

150

mA

IF /pulse

30

30

A

VR

5

5

V

PARAMETER

Continuous Forward Current Duplex Circuit (Duty 1/2)
Reverse Voltage (Segment of Decimal Point)
Operating Temperature Range

Topr

-25~ C to 60° C

Storage Temperature Range

Tstg

_25°C to 70°C

Derating Linear From 25°C

Po

2.4

Derating Linear From 25°C

0.42

W

0.42

mA/oC

.-

'""

Max. Solder Temperature260°C

2.4

F~r3 second~ at2 ~ni Frqm Tlie caSe Or Rellector,Edge

NOTE: Cavtion
Please be careful of the following.
11 Avoid washing the LED DISPLAY'in water.
2) Except for the printed wiring board, Avoid heating,the LED DISPLAY over MAXIM!JM RATING.
3) Avoid using chemicals except for the following, when washing off flux and wiping of~ stain on surface of, the
LED DISPLAY
F.reon TE or TF
Methyl or Ethyl Alcohol
Dai-From Solvent S3 o~ S3-E

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
PARAMETER

SYMBOL

Luminous Intersity

Iv

Edge Peak Emission
Wavelength

i\p

Spectral Line
Half·Width

Ai\

Forward Voltage

VF

Reverse Current

,

,

",

' IR.'

"
LUmiQoudrifensi'ty
Matching Batio

DEVICES

MIN.

TYP.

BRIGHT RED

140

350

GREEN

245

600

BRIGHT RED

697

GREEN

565

BRIGHT RED

90

GREEN

30

BRIGHT RED

2.1

2.8,

GREEN

2.1

2.8'

B~H"'HTRED\

",
",

"

,'Ivm

MAX.

"G"R,~EN

i ,

".

.",

,',

\ t+,,,

~~.~;,,:

,':':,ipo:":'

~." i ~.' .& ' ,

, All Model

t1 :

..

UNIT

TEST CONDITION

/.led

IF'" 10 mA

nm

IF "'20mA

nm

IF =20mA

V

IF =2Q·mA.

uP!., '

VR.=5V
'\' ,

"," ..
IF =10mA
7-42
959

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

E

-E

40

<;

;J<

80

S

60

30

/
I

:;

"E
'"
l:

r

100

I

~

U

120

/

«

20

10

o
12

20

16

40

a;

20

cr'"

J

"-

5
0
.,">
24

I

560

L

25

e
.E
"::J0
c:

E
::J

.,">

'"
cr

~

05

o

«

E
I

/V
f..-r-"

15

--J

a;

24

)1'

c:

o

5

E
~
::J

~

\

640

I--

--

16

"- "-

12

~

20

'I'\.

...... 1'.

U

U

"-

Cl

I'. ~

X

::;;:'"

10

15

20

25

30

Forward Current IIF) - mA
Fig. 3 RELATIVE, LUMINOUS INTENSITY Vs.
FORWARD CURRENT (PER SEGMENT).

BOO

720

Wavelength ( ~ ) - nm
Fig. 2 SPECTRAL RESPONSE.

28

u;

\

V

480

Forward Voltage (VF) - Volts
Fig I FORWARD CURRENT Vs. FORWARD VOLTAGE

~

\

/

o

2B

/ \

o

I

o

20

40

60

80

90

Ambient Temperature (Ta) - °C
Fig. 4 MAX. ALLOWABLE DC CURRENT PER SEG
Vs AMBIENT TEMPERATURE

1000
BOO

I\,

500

~

g
E
~
::J

\.
200

100

80
50

r-..
~

U

'"

a..
"'"

'\

.......

.......

I'\..

.......
.......

'\,

10

1
10

20

50

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F ~ I KHz)

7-43

960

"

1"-.' . . .

20

10

20

......

40

roc

Duty Cycle %
Fig 6 LUMINOUS INTENSITY Vs. DUTY CYCLE %
(AVERAGE IF ~ IOmA PER SEG.)

~.

ILlTE['] ~ II

LTC ..9000 SERIES
0.9" FOUR DIGIT LED CLOCK FREQUENCY DISPLAYS

FEATURES
.0.9 INCH (22.86mm) HEIGHT CHARACTER RED
OR GREEN COLOR .
• COMMON CATHODE, COMMON ANODE; DIRECT,
DUPLEX AND MULTIPLEX PIN OUT ARE AVAILABLE.
• FLEXIBLE TO SELECT BOTH 12/24 HOURS AND
FULL FEATURE.
• CONTINUOUS UNIFORM SEGMENTS .
• WIDE ANGLE, LONG DISTANCE VIEWING .
• COLOR FILTER PROVIDES HIGH CONTRAST.
• LOW POWER REQUIREMENTS, HIGH RELIABILITY AND LONG LI FE.
• PRACTICAL BRIGHTNESS ARE OBTAINED AT
ABOUT 8MNSEGMENT DIRECT DRIVE' 20MA
(WITH 'h DUTY RATIO) FOR DUPLEX DRIVE;
50MA (WITH'/. DUTY RATIO) FOR MULTIPLEX
DRIVE.
• BRIGHT RED (GaP) 4 DIGIT LED COLOCK DISPLAY VERSION STANDARD SUFFIX p.

,

L

DESCRIPTION
The L TC-9000 Series devices are designed for viewing
distance of up to two' meters and for using I n instrument, test equipment, communication equipment,
business machines, computers, micro processor ... etc.

DEVICES
DESCRIPTION
PART
NO.
LTC·

COLOR

DR.lVE

SEGA.G.D. ALARM
E.F. OF 1ST
BRIGHT
FORM CIRCUIT
GREEN
DIGIT
UP LOW
RED

937S1P-12

C.C.

DPX

937S1G-12

C.C.

DPX

937S1P

C.C.

DPX

937S1G

C.C.

DPX

NOTES

PIN OUT

V
V
V
V

1. C.A .. common anode C.C . common cathode

INTERNAL
PACKAGE
CIRCUIT
DIMENSION
DIAGRAM

%
PM

NO

V

V/V

c

c

NO

V

V/V

c

c

AG.D.E.

V

V/V

C

C

A.G.D.E.

V

V/V

c

c

2 MPX multiplex DPX. duplex DO .. direct drive
7-44
961

PACKAGE DIMENSIONS
A. LTC·937S1 x Series
8.10

('3';-FJ 1.60
(.063)

I

14.00
(.552)

+-H+I-++-/-

I--------(~~~~::::;:~~w_------I
1--_ _ _ _ _ _ _

..

~89.30±O.50

(~~8gg)

f-----------

0.50

FILM SLIP OUT TOLERANCE

~2.20

(3.S16±.020)

----------i

(0020)

-.'

go~g)

.870)

NOTE: All dimensions are in millimeters tolerance is O.25mm unless otherwise noted.
(inches)

(0.010")

INTERNAL CIRCUIT DI.AGRAM
A. LTC·937S
28

3 129 226
DIGIT 1
A

PlI!'e ~!! ~c
~~ A~. ~~

~~

tt

457698

7-45

962

G
.~

A B .l<,..D .~
~ ~ ; A~ ~~.

.

~

1310 12

..
DIGIT 3

DIGIT 2

~~

..

G

u !;L~~ B
'jI. ~

~.

.......

30

.

ct1~. ~'~

15 16 17

18

DIGIT 4
G
.~

e
J

B l-P

•

.~

.~ .f~~

~~ jI.' •• jI. ...

AL

~

21 19 20

27

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

SYMBOL

MAXIMUM RATINq

UNIT

Average Forward Current Per Segment/D.P. Direct Drive Current

ICF

20

mA

f'I!oak Forward Current Per Segment/D.P. (Duty 1/10 1 KHz)

IPF

150

mA

IF /pulse

30

mA

Reverse Voltage (Segment.of Decimal Point)

VR

5

V

Operating Temperature Range

Topr

-25" C to 60° C

Storage Temf*/rature Range

Tstg

_25°C to 70°C

Derating Linear From 25°C

Po

2.4

mW

0.42

mA/oC

Continuous Forward Current Duplex Circuit (Duty 1/2)

Derating Linear From 25°C
Max. Solder Temperature 2600 C For 3 Seconds at 2 mm' From The Case Or Reflector Edge

NOTE: Caution
Please .be careful of the following.
1) Avoid washing the LED DISPLAY in water.
2) Except for the printed wiring board, Avoid heating the LED DISPLAY over MAXIMUM RATING.
3) Avoid using chemicals except for the following, when washing off flux and wiping off stCfin on surface of the
LED DISPLAY
Freon TE or TF
Methyl or Ethyl Alcohol
Dai-From Solvent S3 or S3-E

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
MAX.

UNIT

TEST CONDITION

PARAMETER

SYMBOL

MIN.

TYP.

Luminous Intensity

Iv

1"35

340

/.Icd

IF

= 10 mA

Peak Emission
Wavelength

AP

697

nm

IF

= 20 mA

Spectral Li ne
Half-Width

AA

90

nm

IF

= 20 mA

Forward Voltage

VF

2.1

2.B

V

IF

= 20mA

Reverse Current

IR

100

/.IA

Luminous Intensity
Matching Ratio

Ivm

,
2:1

VR =5V
IF = 10 mA

,
7-46

963

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

120

/
V

«

E
I

-1:

40

30

!!

:;

U

20

/

~

~

0

100

?!1

/

12

18

60

0

40

~

"
.~
a;

J

o

S

1\

II
If.

I

10

u.

r

80

\

1/

1\

20

\

0::

24

20

o

28

480

Forward Voltage (V,) - Volts
Fig. 1 FORWARD CURRENT Vs. FORWARD VOLTAGE.

560

640

800

720

Wavelength ( ), ) - nm
Fig. 2 SPECTRAL RESPONSE.

28

~
in

/.

25

~

.."

~

0

c:

E
.3

15

"

~

~

10

a;
0::

05

o

24

/.V

c:

o

«

E
I

V

i?-

E
~

......-

"

r-r- ~

1'\

20
18

"r---

r--.. .......

12

U
0

0

.

"\

I'\.

~

r--- ~

x

::;;

10

15

20

2S

30

Forward Current (I,) - rnA
Fig. 3 RELATIVE. LUMINOUS INTENSITY Vs.
FORWARD CURRENT (PER SEGMENT).

o

I

o

40

20

60

80

90

Ambient Temperature (Ta) - DC
Fig. 4 MAX. ALLOWABLE DC CURRENT PER SEG.
Vs AMBIENT TEMPERATURE.

1000
aDO
500

~

g
E
~

.""

200

100
80
50

~

i\.
'\.

r-....

i' 1"-:--'"
.....

.......

U

",

Q.

"\.
............

.....::::~
........

20

r-...

I"-

~
~

1
10

20

SO

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F = 1 KHz)

7-47

"- ['..
""'" .............
.......

'r--.

10

964

I'\.

10

20

40

DC

Duty Cycle %
Fig. 6 LUMINOUS INTENSITY Vs. DUTY CYCLE %
(AVERAGE I, = lOrnA PER SEG)

LTC~14000.

ILlTErl) ~ Ir

SERIES

1.4" FOUR DIGIT .LED CLOCK FREQUENCY DISPLAY

FEATURES
-1.4 INCH (35.56mm) HEIGHT CHARACTER RED
OR GREEN COLOR.
- COMMON CATHODE, COMMON ANODE; DIRECT,
DUPLEX AND MULTIPLEX PIN OUT ARE AVAILABLE.
-CONTINUOUS UNIFORM SEGMENTS.
-WIDE ANGLE, LONG DISTANCE VIEWING.
-COLOR FILTER PROVIDES HIGH CONTRAST.
LOW POWER REQUIREMENTS, HIGH RELIABILITY AND LONG LIFE .
• PRACTICAL BRIGHTNESS ARE OBTAINED AT
ABOUT SMA/SEGMENT DIRECT DRIVE; 20MA
(WITH Yo DUTY RATIO) FOR DUPLEX DRIVE;
50MA (WITH
DUTY RATIO) FOR MULTIPLEX
DRIVE.
- BRIGHT RED (GaASP) 4 DIGIT LED CLOCK
DISPLAY VERSION STANDARD_

.

.

1'1",1,'

' "

If"

DESCRIPTION
The LTC-14000 Series devices are designed for viewing
distance of up to two meters and for using in instrument, test equipment, communication equipment,
business machines, computers, micro processor ... etc.

DEVICES
PART
NO.
LTC-

DESCRIPTION
DRIVE
FORM

PIN OUT
COLOR

CIRCUIT

BRIGHT RED
V

14501A 1P-2

C.C.

DPX.

14501A1G-2

C.C.

OPX

GREEN

V

NOTES: 1. C.C.: common cathode 2_ DPX: d; uplex D.O.: direct drive

SEG A.G.D.
E.F. OF 1ST
DIGIT

ALARM
UP

LOW

~

PM

NO

V

V!V

NO

V

V!V
7-48

965

PACKAGE DIMENSIONS
LTC-14501A1 xSeries

11

7'";,:0 1.60
(.063)

-+-

0.50

FILM SLIP OUT TOLERANCE (.020)
0.30
- (.012)

NOTE: All dimensions are in millimeters
(inches)

tolerance is 0.25mm
(0.010")

unless otherwise noted.

INTERNAL CIRCUIT DIAGRAM
5

4

6

9

13 10 12

15

30

16 17

18

21

19 20

27

~
~

~

0

.,
PM AM

3

7-49

966

18 lC 2A 282C

2t

~f- '

r'

~

,
oF-

0

~o

, : f-

,

2E 2/ 2G CC

.

to; 3A

2. 26.29

~

r

1

,.,.'

' 'IP' ,

1 . 1

38 3C 31

,

0

F-

~-~

~

r'
r

: : f-

~~

' :~

:

,,

f- of-

,

1

3E 3F 3( "4A f-4E 4C 40 41

4

4G

A

28

ABSOLUTE MAXIMUM RATINGS AT TA

=

25°C

PARAMETER

SYMBOL

MAXIMUM RATING

UNIT

Average Forward Current Per Segment/D.P. Direct Drive Current

I

20

mA

Peak Forward Current Per Segment/D.P. (Duty 1/10 1 KHz)

IPF

150

mA

IF /pulse

30

mA

VR

5

V

Operating Temperature Range

Topr

_25°C to 60°C

Storage Temperature Range

Tstg T5tg

-25°C to 70°C

Continuous Forward Current Duplex Circuit (Duty 1/2)
Reverse Voltage (Segment of Decimal Point)

\

Derating Linear From 250°C

2.4

W

0.42

mArC

Po

Derating Linear From 25°C
Max. Solder Temperature 260°C From 3 Seconds at 2mm From the Case or Reliector Edge

NOTE: Caution
Please be careful of the following.
1) Avoid washing the LED DISPLAY in water.
2) Except for the printed wiring board. Avoid heating the LED DISPLAY over MAXIMUM RATING.
3) Avoid using chemicals except for the following. when washing off flux and wiping off stain on surface of the
LED DISPLAY
Freon TE or TF
Methyl or Ethyl Alcohol
Dal-Fron Solvent S3 or S3-E

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA = 25°C
UNIT

TEST CONDITION

600

Mcd

IF = 10 mA

Xp

697

nm

IF =20mA

Spectral Line Half-Width

AX

90

nm

IF = 20 mA

Forward Voltage

VF

2.1

2.8

V

IF = 20 mA

Reverse Current

IR

100

p,A

Liminous Intensity Matching Ratio

Ivm

2-1

SYMBOL

MIN.

TYP.

Luminous Intensity

Iv

245

Peak Emission Wavelength

PARAMETER

MAX.

VR =5V
IF=10mA
7-50

967

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

<

II>

20

I'

'0
10

20

50

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE %
(REFRESH RATE - F = 1 KHz)

7-51

968

f'."",

"

:;;

U

"

f'.

II>

500

11.

.......

"

800

E
~
:;

r-.......

'2

0

'000

g

'6

U

Forward Current (I,) - mA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT)

';'00

(0.157)

NOTE: All dimensions are in millimeters
(inches)

7-53

970

--i---(~~~~~ >,----1--

tolerance is

/

FILM SLIP OUT TOLERANC;

0.25mm
0.010" unless otherwise noted.

-

0.50
(.020)
0.30
(.012)

INTERNAL CIRCUIT DIAGRAM
A. LTC·18501A
3 1.29

2.26

~ t:!. ~

).

~ . ~

,. ..

C ~_E

G

~ ~~~

jtt.

~~ ~d ,.~~

.1-

B

DIGIT3

DIGIT2

DIGITI

).

~

~ ~- C ~
.

A,. .. ~

td

"'~

I'-

'"

..
E

f6.A .... .1.

~
;t.

U~

A~

.-A!o.

~~

~

30

13 10 12

45769B

G

~

'"

DIGIT 4

.... ~- ~ F-:.
B

~). ~

....

-

~~

~ ~ ]

15 16 17

~ G

II..

.

A

B••

~

~
~

. ... .
...

D

~

~ G

..~ Il ..
.

~

lB

21

19 20

27

B. LTC-1867T
2,41
DIGIT 2

DIGIT 1

1

9

8

5

4

3

7

6

12 13 16 15

14 10 11

DIGIT 3

DIGIT 4

26 17 29 30 33 32 31 27 28 36 37 40 39 38 34 35 42

7·54
971

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

SYMBOL

MAXIMUM RATING

UNIT

Average Forward Current Per Segment/D.P. Direct Drive Current

ICF

20

mA

Peak Forward Current Per Segment/D.P. (Duty 1/10 1 KHz)

IPF

150

mA

IF {pulse

30

mA

VR

5

V

Operating Temperature Range

Topr

_25°C to 60°C

Storage Temperature Range

Tstg

-.25°C to,70oC

Derating Linear From 2500 C

Po

2.4

W

0.42

mA/oC

Conti nuous Forward Current Duplex Circuit (Duty 1/2)
Reverse Voltage (Segment of Decimal Point)

Derating Linear From 25°C
Max. Solder Temperature 260°C for 3 Seconds at 2 mm From The Case or Rellector Edge

NOTE: Caution
Please be careful of the following.
1) Avoid washing the LED DISPL.AY in water.
2) Except for the printed wiring board, Avoid heating the LED DISPLAY over MAXIMUM RATING.
3) Avoid using chemicals except for the following, when washing off flux and wiping off stain on surface of
the LED DISPLAY
From TE or TF
Methyl or Ethyl Alcohol
Dai·From Solvent S3 or S3-E

ELECTRICAl/OPTICAL CHARACTERISTICS AT TA
PARAMETER

SYMBOL

MIN.

TYP.

Luminous Intensity

Iv

270

670

#.ted

IF=10mA

Peak Emission Wavelength

AP

697

nm

IF =20mA

Spectral line Half·Width

AA

90

om

IF "'20 mA

Forward Voltage

VF

2.1

2.8

V

IF''''20mA

Reverse Current

IR

100

pA

Ivm

2:1

Uminous Intensity Matching Ratio
7-55
972

= 25°C
MAX.

UNIT

TEST CONDITION

VR "'5V
IF "'lOmA

TYPICAL ELECTRICAL/OPTICAL CHARACTERISTIC CURVES
(25°C Ambient Temperature Unless Otherwise Noted)

50

'20

/



V

iii

a;

a:

05

/'"

E
~

~

:;

20

'6

r......

'2

U
0

0

.x

:;;

o

o

10

15

20

25

30

Forward Current II,) - mA
Fig 3 RELATIVE, LUMINOUS INTENSITY Vs
FORWARD CURRENT IPER SEGMENTI.

o

o

20

40

......

" "t....I
60

80

90

Ambient Temperature ITa) - °C
Fig. 4 MAX ALLOWABLE DC CURRENT PER SEG.
Vs AMBIENT TEMPERATURE

'000
800
500

<29=73.66
(.100><29 -2.900)

OUT

+

(~~~~)

0.80

0.031)

193.00
( 7.600)
205.30
8.0B3
217.00

2.00

(.079)

SLIP

(.063)
5.60

(.220)

(8.543)

10.8

(.425)

B. LTC-25601 Series

2.00

1.60
·063

(.079)

5.60

(a.083
217.00

(.220)

10.eo
(.4250

(a.543)

millimeters'
0.25mm
NOTE: All dimensions are in - - - - - , - - tolerance is
unless otherwise noted.
(inches)
(0.010")

7-58
975

INTERNAL CIRCUIT DIAGRAM
A. LTC-25501 Series
3

1 29

2.26

28

DIGIT 1

AM ~~

lC 10 IE

lA lB

~~ ~

~ A

II.

DIGIT

~ .~ .

II- !I-

~

II.

II.

II.

lG

2A 2B 2C 20 2E

~~ ~ ~ ~

A~

AII-

II. ~ II.

~

II-

A~

~

~ ~ A~~ ~ ~ ~ AII- !lII- AII- A ~ II- AII- II-

~

II- A

...-

13

698

3

DIGIT

2F 2G UC LC 3A 3B 3C 32 ~3~ 3~
rII- ~
~ ~
II- ~ II- ~ ~ ~

~ :- ~ II- ~ r- ~ II- ~

...-

457

DIGIT

2

II.

~~

..r- ~
~

A II.

.. A

r-~
....

~
~

~

r-

4A

4B 4
\:

II-

~

II- ~ II-

~

II-

~

~ ~~
II- AII-

~

..

...

...-

~

15 16

30

10 12

~

II- •

~,

17

4

~~~

4E 4F ...4G AL

II-

~ ~

II- AII- ~ ~ !lA~ AII- ~
II-

~

>--

18

21

27

19 20

B. LTC-25601 Series
3
IDIGITI

~i ~~ ~ C ~ ~ ~ ~
~,. ~

i

1

2

~,.

12

9

~ ~; r,.
~ r ..;;.

7

6

13

NOTES: All dimensions are in

7-59
976

IDIGIT2

11
DIGIT3

:

IDIGIT4

~ ~ ~ ~ ~ ~ h ~ ~ ; ~ ~ ~ ., ~ ~ ~ ~ ~ ~ ; ~
,.
.
~ .
,.
,. ~ ~ IF • IF ., ,. ~ ,. ,. r·
.
.
.
.
r
,. ., ,. ,. ,. , ,. ,. , ,. ,. ,. ., IF , ,. ;~ ~ IF ,. ~~.~ ~ ,.

~F ~

,.
,. . ., ~ ~

,,.

8

4

.,

A

~

~

~~..; ~

;.

~

~

~ ~., ~ ~
~ .. .~ ~
L

A

B

;.

G

;.

~

~

~

~

~,.

~

;.

~

~

~

;.

10

millmeters Tolerance is ±0.25mm unless otherwise noted.
(Inches,),
(.010")

;.

;.

.,~

L

ABSOLUTE MAXIMUM RATINGS AT TA = 25°C
PARAMETER

SYMBOL

MAXIMUM RATING

UNIT

Average Forward Current Per Segment/D.P. Direct Drive Current

ICF

20

mA

Peak Forward Current Per Segment/D.P. (Duty 1/10 1 KHz)

IpF

150

mA

IF /pu Ise

30

mA

VR

5

V

Operating Temperature Range

Topr

-25°C to 60°C

Storage Temperature Range

Tstg

-25°C to 70°C

Derating Linear From 2~C

p'o

2.4

mW

0.42

mA/oC

Continuous Forward Current Duplex Circuit IDuty 1/2)
Reverse Voltage ISegment of Decimal Point)

Derating Linear From 25°C
Max. Solder Temperature 260° C for 3 Seconds at 2 mm From The 'Case or Reflector Edge

NOTE. Caution
Please be careful of the following.
1) Avoid washing the LED DISPLA Y In water
2) Except for the printed wiring board, Avoid heating the LED DISPLAY over MAXIMUM RATING.
3) Avoid using chemicals except for the following, when washing off flux and wiping off stain on surface of
the LED DISPLAY
From TE or TF
Methyl or Ethyl Alcohol
Dal-From Solvent S3 or S3-E

ELECTRICAL/OPTICAL CHARACTERISTICS AT TA
PARAMETER
Luminous Intensity

=

25°C

SYMBOL

MIN.

TYP.

MAX.

UNIT

TEST CONDITION

Iv

270

670

J,lcd

IF '" 10 mA

Peak Emission Wavelength

;\p

697

nm

IF = 20 mA

Spectral Line Half-Width

b.;\

90

nm

IF '" 20 mA

Forward Voltage

VF

2.1

2,8

V

IF '" 20 mA

Reverse Current

IR

100

J,lA

Ivm

2.1

Liminous Intensity Matching Ratio

VR =5V
IF'" 10 rnA
7-60

977

'"",

TYPICAL ELECTRICAL CHARACTERISTIC CURVES
25°C Ambient Temperature Unless Otherwise Noted)

50

E

40

-c:

30

20

;;
Co
;;
0

V

"E

;:
"

#.

/

e

(;
u.

'00

V

:;

u

'20

/

«

,0

"
"

I

40

~
56

\

1\

\

I)

o

48

/ 1\

/

20

CE:

40

32

60

>

j
24

80

480

560

840

800

720

Wavelength ( X ) - nm
Fig, 2 SPECTRAL RESPONSE

Forward Voltage (V,) - Volts
Fig 1 FORWARD CURRENT Vs FORWARD VOLTAGE,

28

>

;;;

24

25

c

«

~

on

::J
0

C

E
::J

'5

,,/

..J

"
""
0;
CE:

05

o

o

10

15

20

25

30

200

50

i'

............

U

...........

~

""

Il.

20
,0
10

20

50

100

Duty Cycle %
Fig 5 MAX PEAK CURRENT Vs DUTY CYCLE,%
(REFRESH RATE - F ~ 1 KHzl

7-61

978

i'-

"

500

'00
80

.........

........ 1-0.

:z"

800

e
:;

I'-..

C

'000

g
c:

'2

IJ

Forward Current (I,) - mA
Fig, 3 RELATIVE. LUMINOUS INTENSITY Vs
FORWARD CURRENT (PER SEGMENT).

~

1!::J

U

V

>

,6

c:

,--

20

E
I

Y: Yellow R: Red P: Bnght Red G: Green 0: Orange

o

o

I
20

40

60

80

90

Ambient Temperature (Ta) - °C
Fig 4 MAX. ALLOWABLE DC CURRENT PER SEG.
Vs AMBIENT TEMPERATURE.

7-62

979

· . .LITON"S PRQl.lUc;TS
OPTO DIVISION

LED LAMP

PHOTOCOUPLERS

NUMERIC & SPECIAL DISPLAY

CLOCK DISPLAY

NUMERIC DISPLAY WITH
DRIVER IC BUILT·IN

MODEM

CLOCK MODULE

LIGHT SOURCE

LCD BACK LIGHT

MICOM DIVISION

SWITCHING POWER SUPPLY

I'll 0 !Ii ]: ;"! I"
l~

."

:~:: I C;; ",.1

" "'"ft~j~,::'i,"i

MOVING SIGN

8·1

980

:.

.-

<

THE'LITON GROUP
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Richmond, B C V6V 1Z4
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Fax 604-273-1403

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SUite 230
Atlanta, GA 30328
Tel 404-256-9640
Fax 404-256-1398

ARIZONA

Designtronics
5-B Zalols Bay SUite 3
Pomte Claire, Quebec, H9S 5H3
Tel 514-695-3124
Fax. 514-695-5823

System Sales of Arizona
540 West Iron SUite 106
Mesa, AZ 85210
Tel 602-464-9989
Fax 602-464-9701

Designtronics
5 Edvac Drive Unit 1
Brampton, Ontario L6S 5P3
Tel 416-793-5155
Fax 416-793-5170

ARKANSAS
Ram Electronics Sales Inc,
400 Chisolm Place SUite 418
Plano, TX 75075
Tel 214-424-4455
Fax 214-424-7078

COLORADO
Candal, Inc.
7500 W MIssIssIPPI Avenue
A-2
Lakewood, CO 80226
Tel 303-935-7128
Fax 303-935-7310

IDAHO
OR/Crown Inc.
375 118th Ave Ste 110
Bellevue, WA 98007
Tel 206-453-5100
Fax. 206-646-8775

ILLINOIS
Circuit Sales Inc.
650 E Devon Avenue
Itasca, IL 60143
Tel. 312-773-0200
Fax: 312-773-2721

INDIANA
CALIFORNIA
Ouadrep Inc.
2713 N First Street
San Jose, CA 95134
Tel 408-432-3300
Fax 408-432-3428
Ouadrep Southern
28720 Roadside Drive
SUite 227
Agoura, CA 91301
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Fax 818-597-1116

CALIFORNIA (CONT)
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4 Jenner Street # 120
Irvine, CA 92718
Tel 714-727-4222
Fax 714-727-4033
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7585 Ronson Road
SUite 100
San Diego, CA 92111
Tel 619-560-8330
Fax 619-560-9156
8-3
982

CONNECTICUT
Gerber Sales
399 Farm HIli Road
Middletown, CT 06457
Tel 203-347-3000

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2300 Computer Avenue
Willow Grove, PA 19090
Tel 215-784-0170
Fax 215-784-9201

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Beacon Electronic Association
1843 State Road 434
SUite 215
Longwood, FL 32750
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SUite 245
Boca Raton, FL 33487
Tel 407-997-5740
Fax 305-994-4518

Corrao Marsh, Inc.
6211 Stoney Creek Drive
Fort Wayne, IN 46825
Tel 219-482-2725
Fax. 219-484-7491
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3117 West U S 40
Greenfield, IN 46140
Tel. 317-462-4446
Fax 317-462-6568

IOWA
Hitec Central Inc.
1644 26th Street NW
Cedar Rapids, IA 52405
Tel 319-396-3228
Fax 319-396-8025

KANSAS
Hi-tec Central, Inc.
803 Choctaw
Independence, MO 64056
Tel 816-796-6684
Fax 816-796-6562

KENTUCKY

MISSOURI

NEW JERSEY

Corrao Marsh. Inc.
6211 Stoney Creek Drive
Fort Wayne. IN 46825
Tel 219-482-2725
Fax 219-484-7491

Hi-tec Central Inc.
3466 Brldgeland Drive
Bridgeton, Mo 63044
Tel 314-291-5920
Fax 314-291-5713

R.O.1. Sales Company
1 Route 46 West
Totowa, NJ 07512
Tel 201-812-9606
Fax 201-812-9058

LOUSIANA
Ram Electronic Sales
400 Chisolm Place SUite 418
Plano, TX 75075
Tel 214-424-4455
Fax 214-424-7078

MAINE
Gerber Sales
28 Blanchard Road
Burlington, MA 01803
Tel 617-229-1150
Fax 617-272-0203

MARYLAND
Third Wave Solutions
8335 H GUilford Road
Glen Burnie, MD 21046
Tel 301-290-5990

MASSCHUSSETTS
Gerber Sales
28 Blanchard Road
Burlington, MA 01803
Tel 617-229-1150
Fax 617-272-0230

MICIDGAN
AP Associates
810 E Grand River Road
Brighton, MI 48116
Tel 313-229-6550
Fax 313-229-9256

Hi-tec Central. Inc.
803 Choctaw
Independence. MO 64056
Tel 816-796-6684
Fax 816-796-6562

NEW MEXICO
System Sales of Arizona
2403 San Mateo, NE SUite-W5
Albuquerque, NM 87110
Tel 505-889-2901
Fax 505-889-2749

MONTANA
QR/Crown. Inc.
375 118th Ave Ste 110
Bellevue, WA 98007
Tel 206-453-5100
Fax 206-646- 8775

NEBRASKA
Hi-tec Central. Inc.
803 Choctaw
Independence, MO 64056
Tel 816-796-6684
Fax 816-796-6562

NEVADA/NORTH
Quadrep Inc.
2613 N First Street
San Jose, CA 95134
Tel 408-432-3300
Fax 408-432-3428

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540 West Iron Ste 106
Mesa, AZ 85210
Tel 602-464-9989
Fax 602-464-9701

MINNESOTA

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Comstrand
2852 Anthony Lane South
Minneapolis, MN 55418
Tel 612-788-9234
Twx 901-629-5337
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Gerber Sales
28 Blanchard Road
Burlington, MA 01803
Tel 617-229-1150
Fax 617-272-0203

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Mullahy-Welch Sales
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Rochester, NY 14617
Tel 716-244-1100
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Tel 315-673-1009
Fax 315-673-4428
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1 Route 46 West
Totowa, NJ 07512
Tel 201-812-9606
Fax 201-812-9058

NORTH CAROLINA
Beacon Electronic Association
2100 Wychffe Ste 204
Raleigh, NC 27607
Tel 919-787-0330
Fax 919-781-8431

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Com strand
2852 Anthony Lane South
Minneapolis, MN 55418
Tel 612-788-9234
Twx 901-629-5337
Fax 612-788-7218

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Mentor, OH 44060
Tel 216-942-7811
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1405 S 7500 W
Ogden, UT 84404
Tel 801-546-9570
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Comstrand
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Minneapolis, MN 55418
Tel 612-788-9234
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Gerber Sales
28 Blanchard Road
Burlington, MA 01803
Tel 617-229-1150
Fax 617-272-0203

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Ram Electronic Sales
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Plano, TX 75075
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QR/Crown Inc.
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8-5
984

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Glen Burnie, MD 21046
Tel 301-290-5590

WASHINGTON
TEXAS
Ram Electronics Sales Inc.
400 Chisolm Place SUite 418
Plano, TX 75075
Tel 214-424-4455
Fax 214-424-7078

QR/Crown. Inc.
375 118th Ave Ste 110
Bellevue, WA 98007
Tel 206-435-5100
Fax 206-646-8775

WEST VIRGINIA
TEXAS (CONT)
Ram Electronic Sales
11044 Research Blvd
BUilding B, SUite 280
Austin, TX 78759
Tel' 512-345-2982
Fax 512-345-1948
Ram Electronic Sales
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Houston, TX 77060
Tel 713-855-0768
Fax 713-444-3563

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7575 Tyler
Mentor, OH 44060
Tel 216-942-7811
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WISCONSIN
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Brookfield, WI 53005
Tel 414-784-7773
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Tel: (408) 946-4873
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LITE-ON INC.
COPYRIGHT 1990

First Edition . July, 1990
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