1990_GI_Power_Semiconductor_Data_Book 1990 GI Power Semiconductor Data Book
User Manual: 1990_GI_Power_Semiconductor_Data_Book
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INTRODUCTION
General Instrument Corporation is a major multinational company
manufacturing a wide range of products from data systems, broadband
communications, and components to semiconductor products. The corporation, which has been in existence over 50 years, has manufacturing
and sales locations throughout the world serving al/ major electronic
markets.
The Power Semiconductor Division has manufacturing facilities in the
United States and the Far East and is one of the leading producers of
discrete semiconductor devices. These devices include low and medium
power rectifiers from standard thru ultrafast recovery, bridge assemblies
and transient voltage suppressors. We offer the widest selection of
rectifier package types and junction structures including plastic encapsulated, glass passivated, superectifier, and surface mounted. Advanced
junction technologies include double diffusion, double diffused fast
recovery, narrow base epitaxial, PAR and Schottky.
Particular emphasis has been focused on the superectifier product family
including our new super surface mounted devices. The superectifier,
when introduced ten years ago increased rectifier reliability by several
orders of magnitude. Today it still remains unmatched as the cost performance leader in axial leaded rectifiers. Now the superectifier features of
metallurgically bonded junction, glass passivation, and flame retardant
encapsulation are available in our line of super surface mounted rectifiers.
For the ultimate in surface mounted rectifier reliability it's super surface
mount.
The information contained in this data book is intended to provide the
necessary technical and support data to assist the design engineer. It is
our policy to maintain high standards of product manufacturing. The
General Instrument logo (GI), printed on every component, ensures that
it reaches the highest level of quality and reliability. In the complex and
competitive semiconductor industry, high standards of quality using the
latest methods of statistical quality control are of the utmost importance
since they constitute, for our customer the assurance of reliable product
performance.
Not every application problem can be solved using a standard device, in
this case we often develop special products to meet the customer requirements. If in doubt, call your local Sales Office or our Application Engineering Laboratory for further information.
I
SYMBOLS
CJ
IF
I(AVl
IFSM
10
IR
Irr
IRSM
IT
12t
Po
PPK
R9JA
R8JC
R9JL
TA
Tc
Junction Capacitance
Forward Current
Average Forward Rectifier Current
Peak Forward Surge Current
Mean Forward Current
Reverse Current
Reverse Recovery Current
Maximum Non-Repetitive Peak Current
On-State Test Current
Rating for Fusing
Steady State Power Dissipation
Peak Power Dissipation
Thermal Resistance (Junction to ambient)
Thermal Resistance(Junctiono to case)
Thermal Resistance (Junction to Lead)
Ambient Temperature
Case Temperature
TJ
TL
tr
trr
VBR
VF
VFR
VR
VRM
VRMS
VRRM
VRSM
VRWM
Vz
Zk
,",unction Temperature
Maximum Lead Temperature
Rise Time
Reverse Recovery Time
Breakdown Voltage
Forward Voltage
Forward Recovery Voltage
Reverse Voltage
Maximum Recurrent Peak Reverse Volta
RMS Input Voltage
Repetitive Peak Reverse Voltage
Maximum Reverse Voltage
(Clamping Voltage) at IRSM
Working Peak Reverse Voltage
(Stand-off Voltage)
Zener Voltage
Dynamic Impedance
DRAWINGS
All dimensions in inches and (millimeters.)
Figures not to scale.
TEMPERATURES
Ratings at 25' C ambient temperature unless
otherwise specified.
The General Instrument data book is not a document
for official acceptance tests. Relevant is only the
detailed data sheet, which is available on request.
The Manufacturer reserves the right to change the contained
data at any time in order to improve performance and supply
the best product possible.
-2-
CONTENTS
POWER
SEMICONDUCTOR
DIVISION
DATA BOOK
199011991
I~
General information
Introduction . . . . . • . . . . • . • • . • . • . . . . . • • • • • • •• 1
Symbols . . . • . . . . . . . . . . . . . . • • . • • • . . . . . . . . . 2
Contents ••••.•••••.••••••••••••••..••••• 3
Numerical Index . . • . . • . . . . • . • • • • . • • • . • . • • . . . 5
Quality Assurance
Introduction • . • . . . • . . . . . . . • • • • • • • • • • • • • • • . • 14
Test Conditions . . . . . . . . . . • . . . . . . . . . . . • . . . • . . 15
High Reliability-Test Capabilities ..•.••..•••••••••.. 16
Military Approved Rectifiers
Introduction ••. . . . . . . . . . . . . • • • • • • • • • • . • • •. 19
List of approved JAN-JANTX devices .••....••••.••••• 21
JAN. JANTX. JANTXV devices 0.2 to 10.0 AMP . . . . • . . • . • • 22
Schottky Rectifiers
Introduction . . . . . • . . . . . . . • • . • • • . • • . . . . . . . . . 53
Quick Selector Guide . . . • . • • • • • • • . . . . • • • • • • • • • • 55
Axial Plastic Schottky Rectniers 0.6 to 5.0 AMP • • . . . . • • . . • 59
Medium Current Schottky Rectniers 5.0 to 40 AMP • • • • • • • • • • 79
Fast Efficient Rectifiers
Introduction . . . . • • . . • • . • • • • • • • • • • • • . . . . . . • . 181
Quick Selector Guide . . . . . . . • . . • • • • . . • • • • • • • • • .183
Glass Passivated Fast Efficient Rectmers 1.0 to 6.0 AMP ••.••• 187
Fast Efficient Superectnier 1.0 to 5.0 AMP . . . . . • . . . . • . . .209
Plastic Fast Efficient Rectifiers 1.0 to 3.0 AMP ..•.••••••.•219
Medium Current Fast Efficient Rectniers 6.0 to 30 AMP ••••••. 225
Superectlflers
Introduction . . . . . • . • • . . • • . • • • • . . • • • • • • • • • • • 257
Quick Selector Guide . . . . . . . . . . . . . . . . . • • . . . . • .259
Zener Regulator Diode 1.5 Watt . . . . . • . . . . • . . . • . . . . •301
Fast Recovery Superectifiers 0.4 to 3.0 AMP . . . • . • . . • • • • •305
Miniature GPP Plastic Rectifier 1.0 AMP ••..••••••••••.• 331
Glass Rectifiers
Introduction • • . • . . . • . . • . . • . • • • • • • • • • . • • . • . . 338
Quick Selector Guide . . • . . . • . • • • • • • . • • • • • • • . • • .341
High Vokage Glass Passivated Rectniers 1.0 to 3.0 AMP •••••• 365
Fast Recovery Glass Passivated Rectifiers 1.0 to 3.0 AMP . . . . .379
Plastic Rectifiers
Introduction . . . . . . . . . . . . . . . . . • . . . . . . • . . • . . .402
Quick Selector Guide . . . . . . • . . . . . . • . . . . • • • . • • . •405
Plastic Rectifiers 8.0 to 30 AMP . . . . . . . . . . . . . • . . • . • .425
Fast Recovery Plastic Rectifiers 1.0 to 30 AMP . . . . . . . . . • • .437
Bridge Rectifiers
Introduction ..•...••••••••••••..•••••••••.. 466
Quick Selector Guide . . . • • • • • • • • • • . • • • • • • . • • • . .468
Bridge Rectniers 0.9 to 35 Amps . . . . • . . . . . • . . . . . . . • .470
Surface Mounted Bridge Rectniers 1.0 AMP . . . . • . . . • . . . .523
Surface Mounted Rectifiers
Introduction • . . . . . . . . . . . . . . • . . . . • • . . • . • • • • . 528
Quick Selector Guide . . . . . . . . . . . . . . . . • . . • . • . • • .529
Surface Mounted Rectifier 0.5 to 5.0 AMP. . . . • • . . • . • • . . .532
Transient Voltage Suppressor
Introduction • . . . . . . . . . . . • . • • . • • • • • • • . . • • . • •561
Appllcetlon Notes
Schottky Rectifier . . . . . . . . . . . . . . . . . •• • • • • • • • . .599
Transient Voltage Suppressor . . . . • . • • • . . . • • . . . . . . .603
Surface Mount Superectifier . • • . . . . . . . . • • . . . . • . . . .607
Thyristor Surge Suppressor !Transient Vokage Suppressor
. . . . 611
Standard Rectifiers . . . . . • . • • • • • • • • • • • . • • . . . • . .615
Transient Voltage Suppressor - Automotive •••••..•...••. 619
Packaging
Inform~tion
. . . . . . . • • . . . . • . . . . . . . . . • • • • • . •623
Sales OIIlees and Distributors
Information . . . . . . . . . . . . . • . • • • • • . • . . • . . . _ ..• 630
-3-
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-4-
NUMERICAL INDEX
1.SKA10 ........... 570
1.SKA lOA .•••.•.... 570
1.SKA11 ........... 570
1.SKAllA .......... 570
1.SKA12 .....•.•.•• 570
1.SKA12A .......... 570
1.5KA13 .....••.... 570
1.5KA13A .•.••..•.• 570
1.5KA15 .•••••....• 570
1.5KA15A .••••....• 570
1.5KA16 .••.•.••.•. 570
1.SKA16A •.•••....• 570
1.5KAIB ...•••..•.. 570
1.001BA ••••.•.... 570
1.5KA20 .•••••..... 570
1.5KA2OA •......... 570
1.5KA22 .•.•••..... 570
1.5KA22A •..•...... 570
1.5KA24 ......•.... 570
1.SKA24A .•........ 570
1.5KA27 ......••... 570
1.5KA27A ••........ 570
1.5KA30 ...••••.... 570
1.5KA3OA ...•...... 570
1.5KA33 ...••••.... 570
1.OO33A ••••...... 570
1.5KA36 ...•.•..... 570
1.OO36A ...•...... 570
1.5KA39 ......•.... 570
1.5KA39A •••....... 570
1.5KA43 ....•....•. 570
1.5KA43A ...•...... 570
1.5KA6.B .....••... 570
1.5KA6.BA .•••••.•. 570
1.5KA7.5 ....•....• 570
1.5KA7.5A ......... 570
1.5KAB.2 ....••••.. 570
1.5KAB.2A ••••.•... 570
1.5KA9.1 ..•..••••. 570
1.5KA9.1A •••...... 570·
1.5KE10 ...•.•.•... 586
1.5KE100 .......... 586
1.5KE100A ....•.... 586
1.5KEIOA ...•...... 586
1.5KEll ......•.•.. 586
1.5KEll0 .......... 586
1.5KEll0A .......•. 586
1.5KEllA ......•... 586
1.5KE12 ......••... 586
1.5KEl20 .......... 586
1.5KEl20A ..••••.•. 586
1.5KEl2A •••....... 586
1.5KE13 ...•••.•... 586
1.5KEl30 •........• 586
1.5KEl30A ......... 586
1.5KEl3A .....•.••. 586
1.5KE15 ., ....•..•. 586
1.5KEl50 ..•••.•••. 586
1.5KEl50A .•.•...•. 586
1.5KEl5A ••••...... 586
1.5KE16 ..•••...... 586
1.5KEl60 •......••• 586
1.5KEl60A ••..•...• 586
1.5KEl6A ••.••••.•• 586
1.5KE170 ....•...•• 586
1.5KE17OA •.••...•. 586
1.5KEIB •••..•••.•• 586
1.5KEl80 .••••.•••. 586
1.5KE18OA •••..••.• 586
1.5KEIBA •.••••.•.• 586
1.5KE20 ••••...•••• 586
1.5KE200 .•...••.•• 586
1.5KE2OOA ••.•.•.•• 586
1.5KE2OA ••.•••.••. 586
1.5KE22 •••....•.•. 586
1.5KE220 •.••.•.••. 586
1.5KE220A •.•••..•• 586
1.5KE22A •••••••••. 586
1.5KE24 •.•.••..••. 586
1.5KE24A .••..••••• 586
1.5KE250 ...••..•.. 586
l.5KE250A •.•••.••• 586
1.5KE27 •...••..••• 586
1.5KE27A ••..••.••• 586
l.5KE30 •.•.•...••. 586
l.5KE300 ••..•••.•• 586
l.5KE300A ......... 586
l.5KE3OA ••.•••.••. 586
l.5KE33 ..•.••..... 586
l.5KE33A .•..•••... 586
l.5KE350 ..•....••. 586
l.5KE350A •.•••..•. 586
1.5KE36 •..•••..••. 586
l.5KE36A .•..••.... 586
l.5KE39 •...•...... 586
1.5KE39A •...•....• 586
l.5KE40 •.•.•••.... 586
l.5KE400 •••.••.... 586
l.5KE4OOA ..•••.... 586
1.5KE4OA ••..•••..• 586
1.5KE43 ••.•••...•. 586
l.5KE43A ••..••..•• 586
1.5KE47 .....•..•.. 586
1.5KE47A •..••...•• 586
1.5KE51 •..•••...•. 586
1.5KE51A ••..•••.•• 586
l.5KE56 ........... 586
1.5KE58A •••.•••.•• 586
1.5KE6.B ••..••..••. 586
1.5KE6.BA •..••.... 586
l.5KE62 .....••.... 586
1.5KE62A ...••...•• 586
l.5KE68 •...••...•. 586
1.5KE68A ..•.•...•. 586
1.5KE7.5 •..••...••. 586
1.5KE7.5A ..•...... 586
1.5KE75 .•.••...•.. 586
1.5KE75A ••••.•••.• 586
1.5KEB.2 .••...•.••. 586
1.5KEB.2A .•••••... 586
l.5KE82 •..••••.••• 586
1.5KEB2A .•.•••..•• 586
1.5KE9.1 ••••••••••• 586
1.5KE9.1A ••••••••• 586
1.5KE91 .••.••••••• 586
1.5KE91A ••••••••.• 586
lN3611GP •••.•.•.. 270
lN3612GP ......... 270
lN3613GP ..•....•. 270
lN3614GP ••..•••.. 270
1N39576GP ...•••.• 270
lN4001 •....•....•• 406
lN4001GP ..•••••.• 272
1N4001 P •..•••.••• 406
lN4002 .....••...•. 406
1N4002GP ..•••.••. 272
lN4002P •••...••.. 408
lN4003 •..•.•..•.•. 406
1N4OO3GP ......•.. 272
1N4003P .•••...•.. 408
lN4004 ....•......• 406
lN4OO4GP ••..••••. 272
lN4004P ....••..•• 408
lN4005 ............ 406
lN4005GP ..•....•• 272
1N4005P •......•.. 408
lN4006 •••........• 406
lN4OO6GP ......... 272
lN4006P ••••.•••.• 408
lN4007 .........•.• 406
lN4007GP ...•••••• 272
lN4007P •....•.•.. 408
lN4245 ..•....•••.. 346
lN4245GP ....•.... 274
lN4246 ............ 346
lN4246GP ......... 274
lN4247 ...••...•... 346
lN4247GP ......•.• 274
lN424B .........•.. 346
lN424BGP .•...••.• 274
lN4249 ....•....... 346
lN4249GP ....•...• 274
lN4383GP ........• 280
lN4384GP ...••..•• 280
1N4385GP ....••..• 280
lN4585GP ..•.••... 280
lN4586GP ......... 280
lN4B3B ........... 342
lN4B5B ...•..•.••• 342
lN4B6B ......••... 342
lN4933 •........... 436
lN4933GP ....•.... 312
lN4934 .......••... 436
lN4934GP ••.••...• 312
lN4935 ...•...•.•.• 436
lN4935GP •.••...•. 312
lN4936 .•....••..•• 436
lN4936GP ......•.. 312
lN4937 ...•.••...•. 436
lN4937GP •.....••. 312
lN4942 ••.•......•. 380
lN4942GP ....•...• 314
lN4944 .......•••.• 380
lN4944GP •.••..••. 314
lN4946 .••••.••.••• 380
lN4946GP •.•..•••. 314
lN4947 •••••••...•. 380
lN4947GP •...••.•. 314
lN4948 ••.•..••••.• 380
-5-
1N4948GP ...•...•. 314
lN5059 •........... 346
lN5059GP ..•...... 282
lN5080 ......•..... 346
lN5080GP ••...•... 2B2
lN5061 ....•....... 348
lN5061GP •...•.... 2B2
lN5062 •........... 34B
1N5062GP ..•....•. 2B2
lN5391 •......•.... 412
lN5391GP ..••..••. 286
lN5392 .....•...... 412
lN5392GP •.....•.. 286
lN5393 .....•...... 412
lN5393GP .•....•.. 286
lN5394 .•...•...•.. 412
lN5394GP .....•... 286
lN5395 .....•...•.. 412
lN5395GP ....••... 286
lN5396 ....•....•.. 412
lN5396GP •....•... 286
lN5397 ....•....... 412
lN5397GP .....•... 286
lN5398 .........•.. 412
lN5498GP ......... 286
lN5399 •.•.....•... 412
lN5399GP .....•... 286
lN5400 •.•......... 414
lN5401 ..•..•••...• 414
lN5402 ..••....•... 414
lN5403 .•.......... 414
lN5404 •........... 414
lN5405 ..••••.••..• 414
lN5406 ............ 414
lN5407 .•...•....•• 414
lN5408 •........... 414
lN5415 ....••..•••. 392
lN5416 •.......•... 392
lN5417 •..•........ 392
lN541B •........... 392
lN5419 ............ 392
lN5420 ...•........ 392
lN5550 .........•.. 356
lN5551 •........... 356
lN5552 ...•........ 356
lN5553 ..••..•..... 356
lN5554 •.......•... 356
lN5614 ............ 350
lN5615 •........... 382
lN5615GP ........• 31B
lN5616 ..••.......• 350
lN5617 ............ 382
lN5617GP ......... 31B
lN561B ....••...... 350
lN5619 ...••...••.. 382
lN5619GP ......... 318
lN5620 ............ 350
lN5621 ............ 382
lN5621GP ......... 318
lN5622 ............ 350
lN5623 ....•...•..• 382
lN5623GP ......... 318
lN5624 ...•....•... 358
I
NUMERICAL INDEX
1N5624GP ••••••..• 296
1N5625 ........... 358
1N5625GP .•.•..••• 296
1N5626 •.•.••••... 358
1N5626GP •..•••..• 296
1N5627 ..••....... 358
1N5627GP .•...••.. 296
1N5817 •.•.....•.•. 62
1N5818 ............ 62
1N5819 .... " ...... 62
1N5820 ............ 68
1N5821 ............ 68
1N5822 ............ 68
1N645 ••...•..•••. 344
1N646 ••.••••••.•. 344
1N647 ............ 344
1N648 ............ 344
1N649 ............ 344
1N6267 ........... 586
1N6267A •••.•...•• 586
1N6268 ..•..•••... 586
1N6268A .......... 586
1N6269 ..•.....••• 586
1N6269A •........• 586
1N6270 ..•.•...••• 586
1N6270A .•......•. 586
1N6271 ........... 586
1N6271A .......... 586
1N6272 •....•..... 586
1N6272A .......... 586
1N6273 ........... 586
1N6273A .......... 586
1N6274 ........... 586
1N6274A .......... 586
1N6275 ........... 586
1N6275A .......... 586
1N6276 ........... 586
1N6276A .......... 586
1N6277 ........... 586
1N6277A .......... 586
1N6278 ........... 586
1N6278A .......... 586
1N6279 ........... 586
1N6279A .......... 586
1N6280 ........... 586
1N6280A .......... 586
1N6281 ........... 586
1N6281A .......... 586
1N6282 ........... 586
1N6282A .......... 586
1N6283 ........... 586
1N6283A .......... 586
1N6284 ........... 586
1N6284A .......... 586
1N6285 ..••.••.•.. 586
1N6285A .......... 586
1N6286 ••.•.•.••.. 586
1N6286A .......... 586
1N6287 ••......••• 586
1N6287A .......... 586
1N6288 ........... 586
1N6288A .......... 586
1N6289 ........... 586
1N6289A ••••••••••• 586
1N6290 ............ 586
1N6290A •••••••.... 586
1N6291 ............ 586
1N6291A •••••...•.. 586
1N6292 •••.•••••••• 586
1N6292A •..••.••••. 586
1N6293 ............ 586
1N6293A •••••• " ••• 586
1N6294 .•.....••••. 586
1N6294A ........... 586
1N6295 ••••••••••.• 586
1N6295A •....••••.. 586
1N6296 •••••••..... 586
1N6296A ••••••••••. 586
1N6297 ............ 586
1N6297A ......•..•. 586
1N6298 .••.•.....•. 586
1N6298A •••...•...• 586
1N6299 .•......••.. 586
1N6299A ........... 586
1N6300 ....•.••••.. 586
1N6300A ........... 586
1N6301 ............ 586
1N6301A .•••.•.•.•. 586
1N6302 ............ 586
1N6302A ........•.. 586
1N6303 ..•....•.••. 586
1N6303A ••••••...•. 586
1N6478 ••••.•.••••• 538
1N6479 ••••...•.•.• 538
1N6480 •...•..••.•. 538
1N6481 ............ 538
1N6482 .•••.••...•. 538
1N6483 ..........•. 538
1N6484 •..•••.••••• 538
2KBPOO5M ......... 492
2KBP01 M .......... 492
2KBP02M .......... 492
2KBP04M .......... 492
2KBP06M .......... 492
2KBP08M .......... 492
2KBP10M .......... 492
2WOO5M ........... 490
2W01M ............ 490
2W02M •••••••...•. 490
2W04M ............ 490
2W06M ............ 490
2W08M ............ 490
2W10M ............ 490
3N246 ............. 482
3N247 ............. 482
3N248 .••••.•.•.••. 482
3N249 ............. 482
3N250 ............. 482
3N251 ............. 482
3N252 ............. 482
3N253 ............. 492
3N254 ............. 492
3N255 ..••.••.•..•. 492
3N256 ............. 492
3N257 ............. 492
3N258 ............. 492
3N259 ............. 492
5KP10 •••••••••••.. 590
5KP100 ............ 590
5KP100A ..•....•.. 590
5KP1OA ..•.....•.. 590
5KP11 ............. 590
5KP110 .....•••.•.. 590
5KP110A .......... 590
5KPl1A ........... 590
5KP12 .••••........ 590
5KP12A ........... 590
5KP13 ......••...•• 590
5KP13A ........... 590
5KP14 .....••.•.... 590
5KP14A ........... 590
5KP15 .•••......•.• 590
5KP15A ........... 590
5KP16 ...........•. 590
5KP16A ........... 590
5KP17 ............. 590
5KP17A ........... 590
5KP18 .•.•.•.•••••. 590
5KP18A ........... 590
5KP20 .......••.•.. 590
5KP20A ........... 590
5KP22 ......•••.•.. 590
5KP22A ........... 590
5KP24 ............. 590
5KP24A ....•.....• 590
5KP26 ............. 590
5KP26A ........... 590
5KP28 ............. 590
5KP28A ........... 590
5KP30 ............. 590
5KP30A ........•.. 590
5KP33 ............. 590
5KP33A ........... 590
5KP36 ............. 590
5KP36A ........... 590
5KP40 ............. 590
5KP40A ........... 590
5KP43 ............. 590
5KP43A ...••...•.. 590
5KP45 ....•......•• 590
5KP45A .•......•.. 590
5KP48 ............. 590
5KP48A ........•.• 590
5KP5.0 ......••.•.. 590
5KP5.0A ........... 590
5KP51 .•..•.....••• 590
5KP51A ........... 590
5KP54 ............. 590
5KP54A ..•....•.•• 590
5KP58 ............. 590
5KP58A ........... 590
5KP6.0 ..•.••••.... 590
5KP6.0A .••......•• 590
5KP6.5 ............ 590
5KP6.5A ...••••••.. 590
5KP60 ..•........•• 590
5KP60A ........... 590
5KP64 .•••......•.• 590
5KP64A ........... 590
-6-
5KP7.0 ............ 590
5KP7.0A ........... 590
5KP7.5 ............ 590
5KP7.5A ........... 590
5KP70 ............. 590
5KP70A ........... 590
5KP75 .•.•..•...•.• 590
SKP75A ........... 590
5KP78 •......••.•.• 590
5KP78A ..•.•.....• 590
5KP8.0 ............ 590
5KP8.0A ...•...••.. 590
5KP8.5 ............ 590
5KP8.5A ..•...•..•. 590
5KP85 ............. 590
5KP85A ........... 590
5KP9.0 ............ 590
5KP9.0A ........... 590
5KP90 ............. 590
5KP90A .....•..... 590
AGP15-200 ......... 290
AGP15-400 .••...... 290
AGPl5-600 ......... 290
AGPl5-800 ......•.• 290
AR25A ............ 434
AR25B ............ 434
AR25D ............ 434
AR25G •......•.... 434
AR25J ............. 434
AR25K ............ 434
AR25M •..•.•...... 434
ARS25A ........... 434
ARS25B ........... 434
ARS25D ........... 434
ARS25G ........... 434
ARS25J .....••.... 434
ARS25K .......•..• 434
ARS25M ....•...... 434
AW02G ............ 486
AW02M ...•........ 484
AW04G ...•........ 486
AW04M ....•....... 484
AW06G ............ 486
AW06M ........••.. 484
AW08G ••••........ 486
AW08M ............ 484
B125C1000M ....... 476
B125Cl500M ......• 488
B125C370012200 •••• 496
B125C5OO0/33OO ..•. 502
B125CSOOM ........ 470
B125CSOODM .•••••. 472
B250C1000M ..•••.. 476
B250Cl500M ...•.•. 488
B250C370012200 •••• 496
B250C5OO0133OO .•.. 502
B250C800M •...•... 470
B250C800DM •..•... 472
B380C1000M .•••••• 476
B380C1500M •....•. 488
B380C370012200 .... 496
B380C5OO0/3300 .... 502
B380CSOOM .•..•••. 470
NUMERICAL INDEX
B380C8000M .•••.. 472
B4OO1000M ...•••.• 476
B4OOI500M ...•••.. 488
B4OO370012200 ••..• 496
B40C5000/3300 •••.• 502
B4OC1000M ...•••.. 476
B4OO800M ......... 470
B4OO8000M ....... 472
B8OCI500M ....•... 488
B8OC370012200 .••.. 496
B8OC5000133OO .••.. 502
B8OC800M ......... 470
B80C8000M ....... 472
BAI57GP .•...••..• 310
BAI58GP .•...•...• 310
BAI59DGP ........ 310
BYI59GP •••.••..•• 310
BYI26MGP ........ 294
BA127MGP ........ 294
BYI33GP ••••.•..•• 264
BYI34GP •••.••...• 284
BYI35GP ••..••..•• 264
BY206GP .......... 308
BY207GP .......... 308
BY226MGP ........ 294
BY227MGP ........ 294
BY228 ............ 374
BY296P ........... 444
BY297P ........... 444
BY298P ........... 444
BY299P ........... 444
BY396P ........... 452
BY397P ........... 452
BY398P ........... 452
BY399P ........... 452
BY448 ............ 370
BY458 ............ 370
BY500-100 •••.•.••. 454
BY500-2OO ......... 454
BY500-400 ......... 454
BY500-800 ......... 454
BYM05-100 ........ 532
BYM05-200 ........ 532
BYM05-400 ........ 532
BYM05-50 ......... 532
BYM05-600 ........ 532
BYM06-100 ........ 534
BYM06-200 ........ 534
BYM06-400 ........ 534
BYM06-S0 ......... 534
BYMQ6.600 ........ 534
BYM07·100 ........ 536
BYM07·150 ........ 536
BYM07·200 ........ 536
BYM07-300 ........ 536
BYM07-400 ........ 536
BYM07-50 ......... 536
BYM10A·l00 ••••••• 540
BYM1()'1000 ....... 540
BYMl ()'200 ........ 540
BYMI Q..4OO ........ 540
BYMI ().50 ......... 540
BYM10.600 ........ 540
BYM10A-800 ••.•..• 540
BYMll·l00 ........ 542
BYM11-1000 ....... 542
BYMll·200 ........ 542
BYMll-400 ........ 542
BYMII-50 ......... 542
BYMI1-600 ........ 542
BYMII-800 ........ 542
BYM12·100 ........ 544
BYM12·150 ........ 544
BYM1{!·200 ........ 544
BYM12-300 ........ 544
BYM12-400 ........ 544
BYM12-50 ......... 544
BYMl3-20 ......... 550
BYMI3-30 ......... 550
BYMI3-40 ......... 550
BYMI3-50 ......... 550
BYMl3-60 ......... 550
BYV27·100 ••••...•• 194
BY27·150 .•.•..•••• 194
BYV27·200 ......... 194
BYV27-50 ••..•.••.. 194
BYV28-50 .......... 200
BYV2B-l00 .••••..•. 200
BYV2B-150 .•••...•• 200
BYV2B-200 ......... 200
BYV32·50 .......... 248
BYV32·100 •.•..••.. 248
BYV32·150 ...••..•. 248
BYV32·200 ......... 248
BYV95A ........... 386
BYV95B ........... 386
BYV95C ........... 386
BYV960 ........... 386
BYV96E ........... 386
BYW27·100GP ..•••• 278
BYW27·1000GP .••.• 278
BYW27·2OOGP ••••.. 278
BYW27-4OOGP •••..• 278
BYW27·5OGP •••.... 278
BYW27·8OOGP •••.•. 278
BYW27-8OOGP ••..•• 278
BYW29-50 ......... 236
BYW29-100 ........ 236
BYW29-150 ........ 236
BYW29-2OO ........ 236
BYW32 ............ 390
BYW33 ............ 390
BYW34 ............ 390
BYW35 ............ 390
IBYW36 ............ 390
IBYW72 ............ 398
IBYW73 ............ 398
IBYW74 ............ 398
IBYW75 ............ 398
'BYW76 ............ 398
BYX10GP ••••..•.•• 266
BYX55-350P ....... 442
BYX55-600P ....... 442
BZW04-10 ......... 578
BZW04-102 ........ 578
BZW04·11 ......... 578
BZW04·111 ........ 578
BZW04·128 ....•... 578
BZW04·13 •....•... 578
BZW04·136 ........ 578
BZW04·14 ......... 578
BZW04·145 ........ 578
BZW04·15 ......... 578
BZW04·154 .•.....• 578
BZW04·17 ......... 578
BZW04·171 .••...•.. 578
BZW04·188 •...•... 578
BZW04·19 •....•... 578
BZW04·20 ......... 578
BZW04-213 ....•..• 578
BZW04·23 ..••..•.• 578
BZW04·239 .•...••. 578
BZW04·256 •...•... 578
BZW04·26 •....•... 578
BZW04·273 ....•... 578
BZW04·28 ......•... 578
BZW04-299 ...•..... 578
BZW04-31 .......... 578
BZW04-33 ....•..••• 578
BZW04·342 ..•...••. 578
BZW04-37 .......... 578
BZW04-376 •....•... 578
BZW04-4O ••..••.... 578
BZW04-44 ....•..... 578
BZW04-48 ....•..••• 578
BZW04·53 ..•...•••. 578
BZW04-58 .••....••. 578
BZW04-5V8 •.....•. 578
BZW04-64 .••....... 578
BZW04-6V4 •.•.•... 578
BZW04·70 •••..•.... 578
BZW04·78 •..•••.... 578
BZW04-7VO .•••.••• 578
BZW04·7V8 •••..••• 578
BZW04-85 .••...•••. 578
BZW04-8V5 •..••••. 578
BZW04-94 .••..••.•. 578
BZW04Pl0 ......... 578
BZW04P102 ........ 578
BZW04Pll ......... 578
BZW04P111 ........ 578
BZW04P128 ........ 578
BZW04P13 ......... 578
BZW04Pl36 ..••..•• 578
BZW04P14 ......... 578
BZW04PI45 ..••..•• 578
BZW04P15 ......... 578
BZW04PI54 ••...••• 578
BZW04P17 ......... 578
BZW04P171 ••...••• 578
BZW04PI88 ........ 578
BZW04P19 ......... 578
BZW04P20 ......... 578
BZW04P213 ••.•.••• 578
BZW04P23 ••...•.•. 578
BZW04P239 ••.••... 578
BZW04P256 .••••..• 578
BZW04P26 ..•••..•• 578
BZW04P273 .•••.••• 578
·7·
BZW04P28 ......... 578
BZW04P299 ........ 578
BZW04P31 ......... 578
BZW04-33 ......... 578
BZW04P342 ........ 578
BZW04P37 ......... 578
BZW04P376 ........ 578
BZW04P40 ......... 578
BZW04P44 ......... 578
BZW04P48 ......... 578
BZW04P53 ......... 578
BZW04P58 ......... 578
BZW04P5V8 .•...•. 578
BZW04P64 ......... 578
BZW04P70 ......... 578
BZW04P78 ......... 578
BZW04P7VO .•...•. 578
BZW04P7V8 .•..••. 578
BZW04P85 ......... 578
BZW04P8V4 .•.••.. 578
BZW04P8V5 •...•.. 578
BZW04P94 ......... 578
BZW04P9V4 ..•••.. 578
CGl .............. 366
CG2 .............. 372
CG3 .............. 376
OFOO5M ••.•.••..•. 474
OF005S ........... 524
OFOIM •.•••..•••.. 474
OFOl S ............ 524
DF02M ............ 474
DF02S ............ 524
DF04M .•.••..••.•. 474
DF04S ............ 524
DFOBM ............ 474
DF06S ............ 524
DFOSM .••.•.••..•• 474
DFOSS ............ 524
DFIOM •••.•.•.•••. 474
OFIOS ............ 524
001 .............. 366
002 .............. 372
003 .............. 376
EDFIAM .......... 520
EOFI BM .......... 520
EDF1CM .......... 520
EDF1DM .......... 520
EGL34A ........... 536
EGL34B ........... 536
EGL34C ........... 536
EGL34D ........... 536
EGL34F ........... 536
EGL34G ........... 536
EGL41A ........... 544
EGL41 B ........... 544
EGL41C .••••.••.•. 544
EGL41D ........... 544
EGL41F ........... 544
EGL41G •••..•••.•• 544
EGP10A ••.•.••..•• 210
EGP10B " ......... 210
EGP1OC .••••..••.. 210
EGP10D •••••.••... 210
NUMERICAL INDEX
EGP10F ........... 210
EGP10G •.•...•••.. 210
EGP20A ........... 212
EGP20B ........... 212
EGP20C ........... 212
EGP20D ........... 212
EGP20F ........... 212
EGP20G ........... 212
EGP30A ........... 214
EGP30B ........... 214
EGP30C ........... 214
EGP30D ........... 214
EGP30F ........... 214
EGP30G ........... 214
EGP50A ........... 216
EGP50B ........... 216
EGP50C ........... 216
EGP50D ........... 216
EGP50F ........... 216
EGP50G ........... 216
FE1A •.•.••......•• 188
FE1B .............. 188
FE1C ............. 188
FE1D ............. 188
FE2A .............. 192
FE2B .............. 192
FE2C ............. 192
FE2D ............. 192
FE3A •••.•.•••..•.• 198
FE3B ..•...•.•....• 198
FE3C ............. 198
FE3D ............. 198
FE5A .........•...• 202
FE5B .............. 202
FE5C ............. 202
FE5D ............. 202
FE6A .............. 204
FE6B .............. 204
FESC ............. 204
FE6D ............. 204
FEP16AT .......... 244
FEP16BT .......... 244
FEPl6CT .......... 244
FEP16DT .......... 244
FEP16FT .......... 244
FEF lOOT .......... 244
FEP16HT .......... 244
FEPl6JT ......•.... 244
FEP6AT ........... 228
FEP6BT ........... 228
FEP6CT ........... 228
FEP6DT ........... 228
FEPF1SAT ......... 242
FEPFl6BT ......... 242
FEPFl6CT ......... 242
FEPF16DT ......... 242
FEPF16FT ......... 242
FEPF100T ......... 242
FEPF16HT ......... 242
FEPFl6JT ......... 242
FEPF30AP ......... 250
FEPF30BP ......... 250
FEPF30CP ......... 250
FEPF30DP ......... 250
FEPF30FP ......... 250
FEPF30GP ......... 250
FEPF30HP ......... 250
FEPF30JP ......... 250
FEPFSAT .......... 226
FEPF6BT .......... 226
FEPF6CT .......... 226
FEPF6DT .......... 226
FEP30AP .......... 252
FEP30BP .......... 252
FEP30CP .......... 252
FEP30DP .......... 252
FEP30FP .......... 252
FEP30GP .......... 252
FEP30HP .......... 252
FEP30JP .......•.. 252
FESBAT ........... 232
FES8BT ........... 232
FESSCT ........... 232
FES8DT ........... 232
FES8FT ........... 232
FESSGT ........... 232
FES8HT ........... 232
FES8JT ........... 232
FESISAT .......... 240
FES16BT .......... 240
FESI6CT .......... 240
FES16DT .......... 240
FES16FT .......... 240
FES100T .......... 240
FES16HT .......... 240
FESI6JT .......... 240
FESFBAT .......... 230
FESF8BT .......... 230
FESFSCT .......... 230
FESF8DT .......... 230
FESF8FT .......... 230
FESFSGT .......... 230
FESF8HT .......... 230
FESF8JT .......... 230
FESF1SAT ......... 238
FESF16BT ......... 238
FESFl6CT ......... 238
FESF16DT ......... 238
FESF16FT ......... 238
FESF100T ......... 238
FESF16HT ......... 238
FESFI6JT ......... 238
G1A .............. 352
GIB .............. 352
G1D .............. 352
G1G .............. 352
G1J ...........••.• 352
G1K .•.....•.....• 352
GIM .............. 352
G3A ............... 360
G3B ............... 360
G3D ............... 360
GaG ....•..•....•.. 360
G3J ............... 360
G3K ............... 360
G3M .............. 360
G4A ............... 362
G4B ............... 362
G4D ............... 362
G4G ............... 362
G4J ............... 362
G4K ............... 362
G4M .............. 362
GI1-1200 •........•. 368
GI1-1400 •........•. 368
GI1-1600 •.......... 368
Gll00l ............ 190
Gll002 ............ 190
GI1003 ............ 190
Gll004 ............ 190
Gll101 ............ 196
Gll102 ............ 196
Glll03 ............ 196
Glll04 ............ 196
GI1301 ............ 206
GI1302 ............ 206
GI1303 ............ 206
GI1304 ............ 206
GI1401 .•...•...... 234
GI1402 •...•...•..• 234
GI1403 ............ 234
GI1404 ............ 234
GI2401 ............ 246
GI2402 ............ 246
GI2403 ............ 246
GI2404 ..•.......•. 246
GI250-1 ............ 264
GI250-2 •...•...•... 264
GI250-3 •...•....... 264
GI250-4 ..•....••... 264
GI500 ............. 416
GI501 ............. 416
Gl502 .•...•...•... 416
GI504 ............. 416
GI506 ............. 416
GI508 ............. 416
GI510 ............. 416
G1750 ............. 420
GI751 ............. 420
G1752 ............. 420
G1754 ..•...•...... 420
G1756 ..•........•. 420
G1758 ............. 420
GI810 .....•...•... 320
GI811 .•...•...•..• 320
GI812 .•.•....•.... 320
GI814 ............. 320
GI816 ............. 320
G1817 .•...•...•... 320
GI818 ............. 320
GI820 ............ .456
GI821 ............. 456
G2A .............. 354
G2B .............. 354
G2D .............. 354
G2G .............. 354
G2J ............... 354
G2K .............. 354
G2M .............. 354
-8-
GI822 ............. 456
GI824 ............. 456
GI826 ............. 456
GI850 ............. 446
GI851 ............. 446
GI852 ............. 446
GI854 ............. 446
GI856 ............. 446
GI910 •...•....•••. 446
GI911 ............. 446
GI912 ..••...••.... 446
GI914 ...•.•.••.... 446
GI916 ...•.•.••.... 446
GI917 ............. 448
GL34A ............ 532
GL34B ............ 532
Gl34D ............ 532
GL34G ............ 532
GL34J ............ 532
Gl34K ............ 532
GL41A ............ 540
GL41B ............ 540
GL41D ............ 540
GL41G ............ 540
GL41J ............ 540
GL41K ............ 540
GL41M ............ 540
GLL4735 .......... 546
GLL4736 .. , ....... 546
GLL4737 .......... 546
GU4738 .......... 546
GLL4739 .......... 546
GLL4740 .......... 546
GLL4741 .......... 546
GLL4742 .......... 546
GLL4743 .......... 546
GLL4744 .......... 546
GLL4745 .......... 546
GLL4746 .......... 546
GLL4747 .......... 546
GU4748 .......... 546
GLL4749 .......... 546
GLL4750 .........• 546
GLL4751 .........• 546
GLL4752 .......... 546
GLL4753 .......... 546
GLL4754 .......... 546
GLL4755 .......... 546
GLL4756 .......... 546
GLL4757 .......... 546
GLL4758 .......... 546
GLL4759 .......... 546
GLL4760 .......... 546
GU4761 .......... 546
GLL4762 .......... 546
GLL4763 .......... 546
GP02-2O ........... 262
GP02-25 ........... 262
GP02-3O ........... 262
GP02-35 ........... 262
GP02-4O ........... 262
GPOBA ............ 268
GP08B ............ 268
NUMERICAL INDEX
GPOSD ............ 268
GP08G ............ 268
GPOSJ ••••••••••••• 268
GP10A ............ 276
GP10B ............ 276
GP10D ............ 276
GP10G ............ 276
GP1OJ ............. 276
GP10K ............ 276
GP10M ............ 276
GP10N ............ 276
GP100 ............ 276
GP10T ............ 276
GP10V ............ 276
GP10W ............ 276
GP10Y ............ 276
GPl5A ............ 288
GP15B ............ 288
GP15D ............ 288
GP1SG ............ 288
GP1SJ ••••••••••••• 288
GP15K ............ 288
GP15M ............ 288
GP20A ............ 292
GP20B ............ 292
GP20D ............ 292
GP20G ............ 292
GP2OJ ............. 292
GP30A ............ 298
GP30B ............ 298
GP30D ............ 298
GP30G ............ 298
GP3OJ ............. 298
GP30K ............ 298
GP30M ............ 298
GPP1A ............ 556
GPP1B ............ 556
GPP1D ............ 556
GPP1G ............ 556
GPP1J ............ 556
GPP1K ............ 556
GPP1M ............ 556
GPP5A ............ 556
GPP5B ............ 556
GPP5D ............ 556
GPPSG ............ 556
GPPSJ ............ 556
GPPSK ............ 556
J,JTX1N3811 ........ 26
J,JTX1N3812 ........ 26
J,JTX1N3813 ........ 26
J,JTX1N3814 ........ 26
J,JTX1N395~ ........ 26
J,JTX1N4B3B ........ 22
J,JTX1N485B ........ 22
J,JTX1 N486B •••..••• 22
J,JTXM195OO1469-01 •• 46
J,JTXMl95001469-02 •• 46
J,JTXM195OO1469-03 .• 46
J,JTXM195OO1469-D4 •• 46
J,JTX1N4245 ........ 28
J,JTX1N4246 •••••••• 28
J,JTX1N4247 ........ 28
J,JTX1N4248 .••••..• 28
J,JTX1N4249 ........ 28
J,JTX1N4942 •••.•••• 30
J,JTX1N4944 ........ 30
J,JTX1N4946 ••...••• 30
J,JTX1N4947 •••••••• 30
J,JTX1 N4948 •••...•• 30
J,JTX1N5415 •••.•••• 32
J,JTX1N5416 ........ 32
J,JTX1N5417 .•••..•• 32
J,JTX1N5418 •••...•• 32
J,JTX1N5419 ........ 32
J,JTX1 N5420 ••••...• 32
J,JTX1 N5550 ••...••• 34
J,JTX1N5551 •••••••• 34
J,JTX1N5552 ........ 34
J,JTX1N5553 ........ 34
J,JTX1N5554 •••••••• 34
J,JTX1N5614 ..••••.. 38
J,JTX1N5615 ••••...• 38
J,JTX1N5616 •••••••• 38
J,JTX1N5617 ..••••.• 38
J,JTX1N5618 ..••...• 38
J,JTX1N5619 •.•.•••• 38
J,JTX1N5620 ........ 38
J,JTX1 N5621 •••••.•• 38
J,JTX1N5622 •••••••• 38
J,JTX1N5623 ........ 38
J,JTX1 N5624 ••••..•• 40
J,JTX1N5625 •••••••• 40
J,JTX1 N5626 ••..•.•• 40
J,JTX1 N5627 ••.•.••• 40
J,JTXV1N5B02 ••••••• 42
J,JTXV1 N5604 .•...•• 42
J,JTXV1N5806 •..•••• 42
J,JTXV1N5807 ....... 44
J,JTXV1 N5809 ....... 44
J,JTXV1N5811 ....... 44
J,JTX1N6113 ........ 48
J,JTX1 N6114 ........ 48
J,JTX1N6115 ........ 48
J,JTX1N6116 ........ 48
J,JTX1NS117 ........ 48
J,JTX1NSl18 ........ 48
J,JTX1NSl19 ........ 48
J,JTX1N6120 ........ 48
J,JTX1NS121 ........ 48
J,JTX1NS122 ••...••• 48
J,JTX1N6123 ••..•••• 48
J,JTX1N6124 ••...••• 48
J,JTX1N6125 .•••••.• 48
J,JmN6126 ........ 48
J,JTX1N6127 ........ 48
J,JTX1N6128 ..••••.• 48
J,JTX1N6129 ........ 48
J,JTX1N6130 ........ 48
J,JTX1NS113A •• '" •• 50
J,JTX1NS114A ..••••• 50
J,JTX1N6115A .••••.. 50
J,JTX1N6116A .•••••. 50
J,JTX1N6117A •••••.• 50
J,JTX1N611BA •.••••• 50
J,JTX1NS119A •...••• 50
J,JTX1N6120 A .•••••• 50
J,JTX1N6121A .•••••• 50
J,JTX1N6122A ••••..• 50
J,JTX1N6123A ••••••. 50
J,JTX1N6124A ••••••• 50
J,JTX1N6125A ••••..• 50
J,JTX1N6126A ....... 50
J,JTX1N6127A ....... 50
J,JTX1N612BA ••.•..• 50
J,JTX1N6129A ••.•••. 50
J,JTX1NS13OA ••.•••. 50
J,JTX1N645 .•••••.•• 24
J,JTX1N647 ......... 24
J,JTX1N649 ..••.••.. 24
J,JTX1N645-1 •••••.•• 24
J,JTX1N647-1 ........ 24
J,JTX1N649-1 •.••..•• 24
KBLOOS ............ 498
KBL01 ............. 498
KBL02 ............. 498
KBL04 ............. 498
KBlO6 ............. 498
KBL08 ............. 498
KBL10 ............. 498
KBPOOSM .......... 482
KBP01M ........... 482
KBP02M ........... 482
KBP04M ........... 482
KBPOSM ........... 482
KBP08M ........... 482
KBP10M ........... 482
KBPC1005 ......... 494
KBPC101 •..•..•... 494
KBPC102 .......... 494
KBPC104 .......... 494
KBPC106 .......... 494
KBPC108 .......... 494
KBPC110 .......... 494
KBPC1Q.005 •••••••• 512
KBPC1D-OOSW .••..• 512
KBPC1D-01 •••.••..• 512
KBPC1D-01W •••••.• 512
KBPC1D-02 ..•..••.• 512
KBPC1D-02W •..•..• 512
KBPC10-D4 •.••.••.. 512
KBPC1D-04W •..••.. 512
KBPC1D-OS ..•.•••.. 512
KBPC1D-06W .•.•.••. 512
KBPC1D-08 •.••. " .. 512
KBPC1D-08W ••.••.. 512
KBPC1()'10 ••....••. 512
KBPC1()'10W ....••. 512
KBPCl5-005 ..•..••. 512
KBPC1!HlOSW .•.•.• 512
KBPC1!Hl1 ...•..••. 512
KBPC1!Hl1W ••.••.. 512
KBPC1!Hl2 ...•.•••• 512
KBPC1!Hl2W ••.••.. 512
KBPCl5-D4 ••..•.•.. 512
KBPC1!Hl4W •••.••• 512
KBPC1!Hl6 .•.•..••. 512
KBPC1!Hl6W •.••... 512
KBPC1!HlB ••••••••• 512
~9-
KBPC1!Hl8W •..•••. 512
KBPCl5-10 ........ 512
KBPC15-1OW •.•••.. 512
KBPC25-005 .•••.. 512
KBPC2!HlO5W •..•• 512
KBPC2!Hl1 ........ 512
KBPC2!Hl1W ••••••. 512
KBPC2502 •.•••..•• 512
KBPC2502W ••.••.. 512
KBPC2504 ••••.•••. 512
KBPC2504W •••..•• 512
KBPC2506 ......... 512
KBPC2506W ••..••. 512
KBPC2508 •.•.•...• 512
KBPC2508W ••..••. 512
KBPC2510 •••...••. 512
KBPC2510W •••..•• 512
KBPC35005 •..••... 512
KBPC3500SW .••... 512
KBPC3501 ......... 512
KBPC3501W •..•••. 512
KBPC3502 •..•••... 512
KBPC3502W .••...• 512
KBPC3504 .•.•..••• 512
KBPC3504W ••..••. 512
KBPC3506 •...••... 512
KBPC3506W ••..••• 512
KBPC350B .•••.•••• 512
KBPC350BW .•••..• 512
KBPC3510 ..••..••• 512
KBPC3510W •••..•• 512
KBPC6005 ......... 506
KBPC601 .......... 506
KBPC602 .......... 506
KBPC604 .......... 506
KBPC606 .......... 506
KBPC60B .......... 506
KBPCS10 .......... 506
KBPC6005 ......... 508
KBPC601 .......... 508
KBPC802 .......... 508
KBPC604 .......... 508
KBPC806 .......... 508
KBPCBOB .......... 508
KBPC810 .......... 508
KBU4A ............ 500
KBU4B ............ 500
KBU4D ............ 500
KBU4G ............ 500
KBU4J ............ 500
KBU4K ............ 500
KBU4M ............ 500
KBU6A ............ 504
KBUSB ............ 504
KBUSD ............ 504
KBU6G ............ 504
KBU6J ............ 504
KBU6K ............ 504
KBUSM ............ 504
KBUBA ••••••...••• 510
KBU8B ............ 510
KBUBD ••...••...•• 510
KBUBG .••••..••••. 510
NUMERICAL INDEX
KBUBJ ............ 510
KBUSK ............ 510
KBUSM ............ 510
Ml00A ............ 410
Ml00B ............ 410
Ml00D ............ 410
Ml00G ............ 410
Ml00J .............. 410
Ml00K ............ 410
Ml00M ............ 410
MBR1035 .......... 100
MBR1045 .......... 100
MBR1050 .......... 102
MBR1060 •••••••••• 102
MBR1090 •••••••••• 104
MBR10l00 ••••••••• 104
MBRl535CT •••••••• 118
MBRl545CT •••••..• 118
MBR155OCT •••••••. 120
MBR156OCT •••••••• 120
MBRl635 .......... 126
MBRl645 •••••.•••. 126
MBRl650 .......... 128
MBRl660 .•.••..•.• 128
MBR2035CT •.••••.• 140
MBR2045CT ••.••..• 140
MBR2050CT .••..••• 142
MBR2060CT ••.••••• 142
MBR2090CT •••••.•• 144
MBR20100cT •.••..• 144
MBR2535CT •••••..• 154
MBR2545CT ........ 154
MBR2550CT ..•••••• 152
MBR256OCT •••••••• 152
MBR3035PT ••.•••.• 162
MBR3045PT ••••••.• 162
MBR3050PT ••.••••• 164
MBR3060PT ••.••••• 164
MBR4035PT ••••..•• 176
MBR4045PT .••.•••• 176
MBR4050PT ••.••..• 178
MBR4060PT ••.••..• 178
MBR735 ............ 90
MBR745 •••••.•••••• 90
MBR750 ............ 92
MBR760 ............ 92
MBRF1035 .......... 94
MBRF1045 .......... 94
MBRF1050 .......... 96
MBRF1060 .......... 96
MBRF1090 .......... 98
MBRF10l00 ......... 98
MBRFl535CT •••••• 114
MBRl545CT ••.••••• 114
MBRF1550CT ..... 116
MBRF1560CT ...... 116
MBRFl635 ......... 122
MBRFl645 •••••••.• 122
MBRFl650 •••••••.• 124
MBRFl660 •••••••.• 124
MBRF2035CT •••••• 134
MBRF2045CT •••••• 134
MBRF2050CT ••••. 136
MBRF2060CT .••••• 136
MBRF2090CT •..••• 144
MBRF20100cT ••.•• 138
MBRF2535CT •••••• 150
MBRF2545CT ••••.• 150
MBRF2550CT •••••• 152
MBRF2560CT •••••• 152
MBRF3035PT •.•••• 158
MBRF3045PT •••••• 158
MBRF3050PT ••••.• 160
MBRF3060PT .••••• 160
MBRF4035PT ••••.• 172
MBRF4045PT ..•••• 172
MBRF4050PT ••••.• 174
MBRF4060PT •••••• 174
MBRF735 ........... 86
MBRF745 ........... 86
MBRF750 ........... 88
MBRF760 ........... 88
MPG06A ........... 332
MPG06B ........... 332
MPG06D ........... 332
MPG06G .......... 332
MPGOBJ ........... 332
MPG06K ........... 332
MPG06M .......... 332
NP16AT ........... 432
NP16BT ........... 432
NP16DT ........... 432
NPl6GT ........... 432
NPl6JT ........... 432
NP16l
95%RH
•
•
GP15
GP20
GP30
0041
WOSeries
KBPSeries
KBPC Series
KBUSeries
;.
85% RH
•
•
•
•
•
•
•
•
•
100%RH
30 Days Continuous
•
•
•
•
•
•
•
•
-15-
95%RH
30 Days Continuous
Balance Occasional
100% RH
•
•
•
•
•
•
•
•
•
•
•
•
•
•
I
HIGH RELIABILITY - TEST CAPABILITIES
• Barometric Pressure: This equipment simulates tow atmospheric pressure encountered
in non-pressurized environments up to
200,000 feet.
• Humldny: This equipment evaluates units in
an accelerated manner, and monitors the effects of their resistance: to high humidity and
heat conditions. Typical RH of 90 to 98% is
achieved.
• San (Spray) and san Atmosphere: The
equipment provides an accelerated
laboratory corrosion test simulating the effects of seacoast atmospheres. Salt concentration and velocity per day can be
maintained between 10,000 and 50,000
mgmlm21day. Salt Atmosphere - Salt spray
5% - 20% salt solution.
• Thermal Shock Temp.-Cycllng: This test
determines the resistance of devices to exposure at extremely high and low temperatures. Chamber limits - 74 'C to 250 ·C.
• Mass Spectrometer Leak Detector (Fine
Leak): To determine the effectiveness (or
the hermeticity) of the seal on devices with internal cavities which are evacuated on contain air or gas. Machine limits 1 - 10 -9 to 10
- 10 -6atm.
• Gross Leak: Determine seal leak greater
than 10 - 10 -6ATM cc/Sec.
• Constant Acceleration: Determines the effects of a centrifugal force on devices up to
700,OOOg under space environment
(refrigerated vacuum).
• Shock: Subjects the devices to conditions
resulting from sudden applied forces or
abrupt changes in motion produced by rough
handing, transportation or field operation
from 10 to 4,500g.
• Vibration Noise: Measures the amount of
electrical noise produced by the devices under
vibration from 9-5kHz and 0-70g.
• "Non-Operating Life: To determine the effects
on devices at elevated temperatures.
Temperature ranges up to 300 ·C.
• Operating Life Test: To operate the devices
under intended condition to screen and
eliminate marginal devices and eliminate mortality.
• Steady State Operating Life
• Reverse Bias Operating Life
• Intermittent Operating Life
• Solderabllny - Lead Integrity
(Lead Tension):
Determine the solderability on all devices
from 0 to 400· C. Lead Tension - Designed
to check the capabilities of the devices to
withstand straight pulls.
• Lead Integrny (bending stress):
Check the quality of leads, welds and seals of
the devices to withstand bends under specific
weights.
• Lead Integrny (lead torque):
Check the devices, leads and seals for resistance to twisting motion. Equipment limits
from .5 cmkg to 100 mkg.
• HI-Power Microscopic Inspection:
Examine internal and external construction of
our devices up to 600 times.
• Bond Strength: This determines strength of
lead bonding between the active area of the
device and connecting packaging lead.
• Vibration Fatigue: Tests the effects of vibration within the frequency range of 60 Hz at 070g.
-16-
MILITARY APPROVED
RECTIFIERS
0.2 AMPERE TO 70 AMPERES
- - - - - - - INsfaM\- --17-
-18-
GENERAL INSTRUMENT
# 1 IN PRICE, # 11N SERVICE, # 11N MILITARY
General Instrument Power Semiconductor Division, is
the world's largest manufacturer of rectifiers and
bridges, supplying over 2 billion annually. We're proud
to be number one in quality and reliability as we are
in being number one in price and servles. And no one
beats our delivery. Think bigger and better. Design-in
General Instrument JAN, JANTX and JANTXV rectifiers and bridges, and see why we're The Decisive
Factor in military rectHiers.
JAN COMPONENTS
The most economical Hi-Rei device, JAN components
are MIL quaiHied and subjected to environmental and
life sample tests to assure quality conformance. JAN
devices are 100 % tested, lot traceable and must pass
a number of other tests (see comparison chart.) Aside
from military circuits they are frequently used in commercial applications requiring superior potential life
cycle performance that can not be guaranteed with
standard commercial components.
DELIVERY
As you well know, ensuring on time delivery, for those
hard-to-get parts, is one of the most important and
frustrating aspects of a purchasing agent's many
responsibilities. We remove that stumbling block for all
the JAN, JANTX, JANTXV devices we produce. As the
world's largest rectifier manufacturer, you can ALWAYS
count on JAN parts from stock. In addition, we have
MORE BURN-IN CAPACITY THAN ANYONE, which
guarantees shorter JANTX lead times. That's why you
can count on General Instrument Power Semiconductor Division to be the Decisive Factor in your military
project.
JANTX AND JANTXV COMPONENTS
In addition to JAN processing, JANTX and JANTXV
devices are subjected to extra environmental and
electrical test as outlined in MIL-S-19500. (See comparison chart.) These screening procedures eliminate
the possibility of infant mortality failures that might
occur in the early stages of component system use.
PDA (percent defects allowable) requirements are applied to every lot, thereby assuring continuous quality
and reliability. This effectively restricts the probability
of shipping defective lots. The selection of TX and TXV
components assures both maximum component
reliability and standardized reliability testing procedures.
PRICING
WE ARE NOW, AND WILL ALWAYS BE, THE PRICE
LEADER IN JAN, JANTX AND JANTXV MILITARY
RECTIFIERS AND BRIDGES!
SPECIFICA TlON CONTROL DRAWINGS
TECHNICAL ASSISTANCE
You'll find that buying from General Instrument Power
Semiconductor Division makes a lot of sense. Consider the potential headaches we head off or eliminate
with our technical assistance and support. Every one
of our components is supplied with concise product
data sheets that give engineers and designers complete details on electrical parameters, mechanical data,
and maximum ratings as well as other vital information.
Additional reliability testing, electrical screenings, or
special markings are often required. General Instrument Power Semiconductor Division will guarantee that
all those standards are met. We can guarantee this
thanks to our state- of - the - art testing facility which
provides the capability to screen devices to an
equivalent "JANS· level.
HIGH RELIABILITY SCREENING SEQUENCE
GROUP A TestIng - Group A testing is performed on
each lot which consists of visual inspection mechanical
inspections and specified electrical parametric testing
Equally important is our access ability. When questions
arise with initial design, redesign, or current application, just pick up the telephone and call our applications
engineering department at (516) 933-3164. We're extremely well staffed with experienced professionals to
clearly and accurately answer every question.
Group B Testing - Group B Testing is performed on
each lot and consists of reliability testing.
Group C Testing - Group C Testing is performed on a
6 month periodic basis, and consists of long term
realiability and environmental testing.
MicroscopIc Inspection -100% microscopic inspection is performed on all TXV device.
AVAILABILITY
The following is intended as a quick guide and reference to the types of components General Instrument
Power Semiconductor Division supplies:
-19-
Traceability - Traceability is maintained per the applicable specification and MIL-S-19500.
I
JAN, JANTX, JANTXV
High Temperature Storage (Non-operating) Devices are stored in high temperatures ranging
from 1S0'C to 200'C for stabilization.
Temperature Cycling. Devices are cycled for
temperatures ranging from -6S'C to +17S'C to
weed out structural weakness, I.e. welds, glass
to metal seals and molecular lattice structure.
Shock· Specified devices are subjected to a
mechanical shock test.
Acceleration· Specified devices are subjected
to centrifuge.
Seal Leak (Fine) - Devices are tested with a
helium mass spectrometer to locate any leaks
down to 1x1 0- CC's per second leak rate.
Seal Leak (Gross) - Devices are checked for
leaks too large for detection by tracer gases.
100% Electrical Test· Devices are subjected to
all parameters of the applicable specification.
High Temperature Reverse Bias· Devices are
subject to reverse bias for fourty eight hours
under elevated temperature.
Power ·Bum In • Devices are subjected to
ninety six hours of burn-in to the conditions in
the applicable specifications.
100% Delta Electrical Test· Devices are subjected to all parameters of the applicable
specification and deHa calculations are determined. Those devices not meeting the requirements are rejected.
Resistance to Solvents - Devices are exposed
to various solvents to ensure marking permanency.
Solderability· Testing is performed to
determine the degree of solder
coverage on the leads.
HIGH·RELIABILITY
COMPARISON CHART
JAN JANTX JANTXV
Microscopic Inspection
(Internal Visual)
Tracebility (lot)
100% Electrical Test
High Temp Storage
(Non-Operating)
Temperature Cycling
Acceleration (When Applicable)
Seal Leak (Fine)
Seal Leak (Gross)
High Temp Reverse Bias
(When Applicable)
Electrical Test (Read & Record)
Power Age (Burn-in)
Electrical Test (Read & Record)
(with Delta Limits)
Group A Inspection
per MIL-S-19500
Group B Inspection
per MIL-S-19500
Group C Inspection
per MIL-S-19500
PDA (Max. Pct. Def Allow.)
thru Power Bum-in
GROUP
MlUTARYLOJS
ASSEMBLED
ANDIOI)'j(,
ELECTRICAU Y
TESTTED
A
B
C
SAMPLE
TEST
-20-
----
No
Yes
Yes
No
Yes
Yes
Yes
Yes
Yes
Yes
No
No
No
No
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
No
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
QUALIFIED PRODUCTS LIST
PRODUCT'S QUALIFIED UNDER MILITARY SPECIFICATION MIL-S-19500
GOVERNMENT
DESIGNATION
DETAIL
SPEC
GOVERNMENT
DESIGNATION
RECTIFIERS (continued)
DIODES
JAN. JANTX. 1N483B
JAN. JANTX. 1N485B
JAN. JANTX. 1N486B
1118
1118
1118
JAN. JANTX. 1N645
JAN. JANTX. 1N647
JAN. JANTX. 1N649
JAN. JANTX. 1N645-1
JAN. JANTX. lN647-1
JAN. JANTX.1N649-1
1240
1240
1240
1240
1240
1240
DETAIL
SPEC
JAN.JANTX.1N5624
JAN. JANTX. 1N5625
JAN. JANTX. 1N5626
JAN. JANTX. 1N5627
JAN. JANTX. JANTXV. 1N5802
JAN. JANTX. JANTXV. lN5804
JAN. JANTX. JANTXV. 1N5806
JAN.JANTX.JANTXV.1N5907
JAN. JANTX. JANTXV. 1N5809
JAN. JANTX. JANTXV. 1N5811
RECTIFIERS
JAN. JANTX. 1N3611
JAN. JANTX.1N3612
JAN. JANTX. 1N3613
JAN. JANTX. 1N3614
JAN. JANTX. 1N3957
1228
JAN. JANTX • 1N4245
JAN. JANTX. 1N4246
JAN.JANTX.1N4247
JAN. JANTX. 1N4248
JAN. JANTX. 1N4249
1286
1286
1286
1286
1286
JAN. JANTX.
JAN. JANTX.
JAN. JANTX.
JAN. JANTX.
JAN. JANTX.
1N4942
1N4944
1N4946
1N4947
1N4948
/359
/359
/359
/359
/359
JAN. JANTX. lN5415
JAN. JANTX. 1N5416
JAN.JANTX.1N5417
JAN. JANTX.1N5418
JAN. JANTX. 1N5419
JAN. JANTX • 1N5420
1411
1411
1411
1411
1411
1411
JAN. JANTX. 1N5550
JAN. JANTX.1N5551
JAN. JANTX. 1N5552
JAN. JANTX. 1N5553
JAN. JANTX. 1N5554
1420
1420
1420
1420
1420
JAN. JANTX.1N5614
JAN. JANTX. lN5616
JAN. JANTX. lN5618
JAN. JANTX. 1N5620
JAN. JANTX. 1N5622
1427
1427
1427
1427
1427
BRIDGES
JAN. JANTX. M19500/469-01
JAN. JANTX. M19500/469-02
JAN. JANTX. M19500/469-Q3
JAN. JANTX. M19500/469-04
1228
1228
1228
1228
1432
1432
1432
1432
1477
1477
1477
1477
1477
1477
1469
1469
1469
1469
TRANSIENT VOLTAGE SUPPRESSORS
-21-
JAN.JANTX.1N6113.A
JAN. JANTX. 1N6114.A
JAN. JANTX. 1N6115.A
JAN. JANTX. 1N6116.A
JAN. JANTX. 1N6117.A
1516
1516
1516
1516
1516
JAN. JANTX. 1N6118.A
JAN. JANTX. 1N6119.A
JAN. JANTX. lN6120.A
JAN. JANTX.1N6121.A
JAN. JANTX. 1N6122.A
1516
1516
1516
1516
1516
JAN. JANTX.
JAN. JANTX.
JAN. JANTX.
JAN. JANTX.
JAN. JANTX.
1N6123.A
1N6124.A
lN6125.A
1N6126.A
lN6127.A
1516
1516
1516
1516
1516
JAN. JANTX. 1N6128.A
JAN. JANTX. lN6129.A
JAN. JANTX. lN6130.A
1516
1516
1516
•
POWER
SEMICONDUCTOR
DIVISION
INsr~
JAN AND JANTX 1 N4838 THRU 1 N4868
LOW POWER MINIATURE GLASS PASSIVATED SILICON DIODES
VOLTAGE - 70 to 225 Volts CURRENT - 200 Milliamperes
.0221.561 lUll...
• 0181.461
... f
FEATURES
1.50 (38.U
1.00125.41
!
.~~; g:~:i DIA....
-
I
t
.300 17.6)
.230 15.8)
l
,--1.50t(38.1)
1.00 (25.4)
1
Dimensions in inches
and
(millimeters)
• Qualified to MIL-S-19S00/118C
• High temperature metallurgically
bonded "'~
• 0.2 amperes······" •.•
operation at
~"' __
TA = 2S'C with
""""
no thermal runaway
~~
• Hermetically sealed package
• Ideally suited for miniaturized equipment
• Glass passivated cavity-free junction
• High temperature soldering guaranteed 3S0'C/1 0 secondsl.37S",
(9.Smm) lead length at Sibs.,
(2.3kg) tension
MECHANICAL DATA
Case: One piece glass,
herrmetically sealed
Terminal: Plated Axial leads,
solderable per MI-STO-202,
Method 208
Polarity: Color band denotes
cathode
Mounting Position: Any
Weight: .02 ounce, .S6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase. half wave, 60Hz.resistive or inductive load.
For capacitive load, derate current by 20%
SYMBOI.S JAN1N483B JAN1N485B JAN1N486B
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 1001lA
Maximum Average Forward Recitified
TA=25'C
Current .375" (9.5mm) Lead Length at TA - 150'C
Peak Forward Surge Current,
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method) TA = 150'C
Maximum Instantaneous Forward Voltage at 100mA
Maximum DC Reverse Current
TA = 25'C
at Rated DC BlockingVoltage
TA= 150'C
Typical Junction Capacitance (Note 1 )
Typical Thermal Resistance (Note 2 )
Operating and Storage Temperature Range
I(AV)
180
127
180
200
200
50.0
IFSM
VF
IR
IR
CJ
R9JA
TJ.TsTG
2.0
1.0
25
5.0
15.0
80.0
-65 to +200
VRRM
VRMS
Voc
VBR
70
50
70
80
25
5.0
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
2. Thermal Resistance from Junction to Ambient at .375" (9.5mm) lead lengths, p.e. Board Mounted.
-22-
225
159
225
250
UNffS
Volts
Volts
Volts
Volts
Milliamps
25
5.0
Amps
Volts
nA
IlA
pI
'CIW
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N4838 THRU 1N4868
FIG. 2 -
FIG. 1 0
w
~m
f-a:
Uw
Wo..
a:::;;
0<
~:3
;;;:-
NoueTt
REStS IVEDR
O.375~
'"
100
125
150
AMBIENTTEMPERATURE, "C
FIG. 3 -
'"
175
>-'
Z
W
0:
0:
::::>
U
0
0:
wUJ
UJW
a: a:
WW
>0..
W::;;
a:<
UJO
::::>a:
OU
~~
V
V
1.0
.....
.......
8 10
20
40 60 BO 100
TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
/
1/
10
.50
oSS
u.o..
II
UJ::;;
::::><
-
TJ ==1 poC
6
50
200
TYPICAL REVERSE CHARACTERISTICS
5.0
•
25"
100
~m
FIG. 4 -
)
NUMBER OF CYCLES AT 60Hz
-.........
E LOA
75
50
50"
==
2
(9.Smm LEAD Lt NGTHS
25
--
TA
2.0
E
"'r-....
4.0
0..
~
SINGL PHAS
HALF AVE
B. ms IN
51 E-~ V
(J DE M
T,
'"-"
u.z
WW
"a:
wU
FORWARD CURRENT DERATING CURVE
200
150
10.0
>-'
Z
w
0:
0:
::::>
U
w
ClUJ
o:w
::::>0:
UJw
00..
a:::;;
<{<
TJ
0
Z
~
= 25°C
P IseWI h = 3 O"S
1%0 Y eyel
WJ
.100
Z
~
UJ
050
;;:;
I
125°C
'/
010
0.6
0.8
1a
,2
14
16
18
FIG. 5 -
TYPICAL JUNCTION CAPACITANCE
50
~~
~a:
UJO:
z::::>
-U
0.01
10§ll§.
-- T
0.001
2.0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
0.1
25"C
20
....--
40
f - 1
60
aD
100
120
Hz
140
PERCENTAGE OF PEAK REVERSE VOLTAGE
10
REVERSE VOLTAGE, VOLTS
-23-
100
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN AND JANTX 1N645 THRU 1N649
JAN AND JANTX 1N645-1 THRU 1N649-1
MINIATURE GLASS PASSIVATED SILICON DIODES
VOLTAGE- 225 to 600 Volts CURRENT - 400 Milliamperes
f
.J!llil!:!} I!l8... +.0181.05)
FEATURES
1.50138.11
1.00125.4)
-
1
t
.300 17.6)
.23015.8)
I I'"
:~~~ 1113}d) DIA,.
1
t
1.50 138.11
1.00 125.4)
!
Dimensions in inches
and
(millimeters)
• Qualified to MIL-S-19S00/240E
• Glass passivated cavity-free junction
• 0.4 amperes operation at TA = 2S'C
with no thermal runaway
• High temperature metallurgically
bonded ..
• Ideally
suited for
miniaturized
equipment
• Hermetically sealed package
• High temperature soldering guaranteed:3S0'C/1 Oseconds/.37S" .(9.Smm)
lead lengthlS Ibs., (2.3kg) tension
MECHANICAL DATA
case: One piece glass, hermetically sealed
Terminals: Plated Axial
leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes
cathode
Mounting Position: Any
Weight: .02 ounce, .S6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Single phase. half wave. 6OHz,resistive or inductive load.
For capacitive load, derate current by 20%
SYMBOLS
VRRM
VRMS
Vee
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Vo~age
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 10011A
5011A
VBR
Maximum Average Forward Recitified
TA=25'C
Current, .375" (9.5mm) Lead Length at
TA= 150'C I(AVJ
Peak Forward Surge Current, 8.3.ms single half sinewave superimposed on rated load
(JEDEC Method) at TA = 150'C
IFSM
Maximum Instantaneous Forward
TA= 150'C
Voltage at 400 mA
TA = 25'C
VF
TA a-55'C
Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA= 150'C
IR
Maximum Average Reverse Current at Peak Reverse
Voltage,lo=150 mA TA=150'Cat .375' 9.Smm Lead Lengths IR(Av)
Maximum Junction Capacitance (Note 1)
CJ
Typical Thermal Resistance (Note 2 )
RaJA
Operating Junction Temperature Range
TJ
Storage Ambient Temperature Range
TSTG
NOTES: 1. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
2. Thermal Resistance from JuncilOn to Ambient at .375",
(9.5mm)lead lengths, P.C. Board mounted.
-24-
JAN
JAN
JAN
JAN JAN
JAN
1NUS 1N645-1 1N647 1N647·11N649 1N649-1 UNITS
225
225
400
400
600
600 Vo~
156
156
280
280
420
420 Vo~s
225
225
400
400
600
600 Volts
270
480
720
480
720 Vo~s
270
milli400
150
Amps
-
-
- -
-
~mps
5.0
0.95
1.0
1.20
25 1 50 1 25
15 I 25 I 15
Volts
50150150
25125125
100
20.0
80.0
-65 to +175
-65 to +200
nA
IIA
IIA
pf
'CIW
'C
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N645 THRU 1N649
JAN AND JANTX 1N645·1 THRU 1N649·1
FIG. 2 - MAXIMUM NON· REPETITIVE PEAK
FORWARD SURGE CURRENT
15
"-
........
8.3msS ngle all In J DEC Mel 0
~~
"- ....... .......
I'-- ............
w
u::
i=en
Ow
Woc
OCw
00.
OC::;:
««
~,.:
U.oc
om
wOC
C!l:>
«0
oc
w
0.3
............
0.2
0.1
:::
SINGLE HASE
HALFW VE
60Hz
EOR
VE LOAD
0.375" ( .5mm)LE
~E~~~i
o LENG
-- -
............
1\
125
150
40
20
FIG. 4 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
175
10.6
5.0
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
,.:
Z
w
30
"
OC
OC
:>
0
20
TJ = 5Q"C
OC
~en
wen
enw
OCOC
UJW
>0.
UJ::;:
OC«
enO
:>OC
00
~~
~~
;:!:oc
/
1.0
0
10
25°C
-~
1.0
!-
.50
ocil!
Ow
U.a.
en::;:
:>«
0
-
T,
I
II
w
Z
25°C
P seWid h = 3C
1%0 yeyel
.100
;:!:
~s
Z
;:!:
.050
en
;;;
I
I
010
0.1
0.6
0.8
1.0
1.2
1.4
1.6
1.B
2.0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
OC
en
z:>
-0
FIG. 5 - JUNCTION CAPACITANCE
50
I"
.01
.......
U.
c-
./
T,
ui
25°C
0
10
T,
~
i'-
5°
MAXI~U
Z
;:!:
u
it
«
.001
20
40
60
80
100
120
60
NUMBER OF CYCLES AT 60 Hz
AMBIENT TEMPERATURE, °C
T,
i
t-r-
10
\
100
150
T,
H
75
50
25
"-...
•
5°C
FIG. 1 - FORWARD CURRENT DERATING CURVE
0.4
0
v
140
I
.......
L
0
PERCENT OF RATED PEAK REVERSE
VOLTAGE
f= 1 Hz
VS1G = 500
1
10
REVERSE VOLTAGE, VOLTS
·25·
100
100
POWER
SEMICONDUCTOR
DIVISION
INsr~
JAN AND JANTX 1N3611 THRU 1N3614 AND 1N3957
MINIATURE GLASS PASSIVATED JUNCTION SILICON RECTIFIER
VOLTAGE-200to 1000 Volts
CURRENT-1,OAmpere
FEATURES
• Qualified to MIL-S-19S00/22SE
,:~~g((2i.'iiJDIA . • High temperature metallurgically
bonded ".
• Hermetically
~
.140{3.561
sealed package
• Glass passivated
cavity-free junction
• 1.0 ampere operation at TA = 100'C
,:~~~ ~~:~llDIA.
with no thermal runaway
• TypicallR less than 0.1 IlA
Dimensions in inches
• High temperature soldering guaranand
teed 3S0'C/10 seconds/.37S",
(millimeters)
(9.Smm) lead length aUSlbs.,
(2.3kg) tension
1
MECHANICAL DATA
Case: One piece glass, hermetically sealed
Terminals: Plated Axial
leads, solderable per
MIL-STO-202, Method 20S
Polarity: Color band denotes
cathode
Mounting Position: Any
Weight: 0.02 ounce,
0.S6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2S'C ambient temperature unless otherwise specified.
Single phase, half wave, 60HZ,resistive or inductive load.
For capacitive load, derate current by 20%
JAN
SYMBOLS IN3611
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at IOOIlA
Maximum Average Forward Recitilied Current
.375" (9.5mm) Lead Length at TA = 100'C
Peak Forward Surge Current,
8.3ms single haH sine-wave superimposed on
rated 10ad"(JEDEC Method) at TA = 150'C
Maximum Instantaneous Forward
TA - 25'C
Voltage at 1.0A
TA = -65'C'
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA=150'C
Typical Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3 )
Operating Junction Temperature Range
Storage Ambient Temperature Range
VRRM
VRMS
Voc
VBR
200
140
200
240
JAN
JAN
JAN
JAN
IN3612
IN3613
IN3614
IN3957
UNITS
400
280
400
480
600
420
600
720
800
560
800
920
1000
700
1000
1150
Votts
Votts
Volts
Votts
hAvl
1.0
Amps
IFSM
30
1.1
1.5
1.0
300
2.0
10.0
50.0
-65 to +175
-65 to +200
Amps
VF
IR
TRR
CJ
RSJA
TJ
TSTG
NOTES:
1. Reverse Recovery Conditions: IF = O.SA, IR = 1.0A, Irr = 0.2SA.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .37S" (9.Smm) lead lengths P.C. Board mounted.
-26-
Volts
IlA
j.lS
pI
'CIW
'c
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N3611 THRU 1N3614 AND 1N3957
FIG. 1 - FORWARD CURRENT
DERATING CURVE
\
>-'
Z
\
AVE
~;~:
RESI
~'~7~
~
UJ
a:
a:
::0
U
\
SING E PHA E
25
~fB
a: a:
OUJ
"-"Ul=>
\
\
LENG HS
75
~
100
13
50
UJ
<.'JUl
a:UJ
::0 a:
UlUJ
0"a:=>
40
lW
Z
;0
Z
;0
175
0.1
05
£:
01
5:>-,
20
.........
.8
1.0
1.2
1.4
1.6
1.8
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
t
TYPICAL JUNCTION CAPACITANCE
'C
i'--- i'-r-.
i'-r-.
T,
~
II
.6
FIG. 4 0
2 C
;~L~~ ~~'~~~L _"UU~
Ul
WAVE JED C
T,
30
",«
a:z
OUJ
"-a:
",a:
«::0
UJU
"-
T,
/
UJ
SING E H LF
I
r-.. r-I--
1(1'
10
10
20
40 60 80100
NUMBER OF CYCLES AT 60Hz
FIG. 5 -
TYPICAL REVERSE CHARACTERISTICS
1.0 L---'-...I...l..J..LllJ.L.---JL.....I-L-LlJ..u..._.L-.L-L.LJ.J.....
1.0
100
10
REVERSE VOLTAGE, VOLTS
.01 L - _ - - '_ _- ' -_ _...I.._ _......_ _L-_--'~_....J
20
40
60
I
05
0
MAXIMUM NON· REPETITIVE PEAK
FORWARD SURGE CURRENT
"'-I'...
-
1.0
::0«
AMBIENT TEMPERATURE
FIG .. 3 -
---
10
5.0
0
a:
IVE 0
"vc,
(9.Sm r'I~~A
•
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
20
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
·27·
2.0
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN AND JANTX 1 N4245 THRU 1 N4249
GLASS PASSIVATED JUNCTION MEDIUM SWITCHING RECTIFIERS
VOL TAGE - 200 to 1000 Volts
CURRENT - 1.0 Ampere
FEATURES
• Qualified to MIL-S-19500/286C
• High temperature metallurgically
bonded "'"
• Glass
"'.~
j:a!H~l
passivated cavity- --...
free Junction
~
• 1.0 Ampere operation at
~
TA =1OO'C with no thermal runaway
1.00 (25.4)
( 841
T ' II I
h 01 A
I
.. I ' 033
028 (7 lI DIA•• YPlca R ess t an . (l
-L-'
.
• Hermetically sealed package
• High temperature soldering guaranDimensions in inches
teed: 350'C/10 seconds/.375",
and
(9.5mm) lead leng1h at 5lbs.,
(millimeters)
(2.3kg) tension
I'
.150 13.8)
.100 12.5)
~
MECHANICAL DATA
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads,
solderable per MIL-STD-202.
Method 208
Polarity: Color band denotes
cathode
Mounting Position: Any
Weight: .02 ounce •.56 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified,
Single phase, half wave, 6OHz,resistive or inductive load.
For capacitive load, derate current by 20%,
JAN
JAN
1N4246
1N4247
1N424B
1N4249
UNITS
200
140
200
240
400
2S0
400
480
600
420
600
720
SOO
560
SOO
960
1000
700
1000
I1S0
Volts
Volts
Volts
Volts
SYMBOLS 1N4245
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Vee
Minimum Reverse Breakdown Voltage at 1001lA
VBR
Maximum Average Forward Recitified Current
.37S" (9.Smm) Lead Length at TA .100·C
I(AV)
Peak Forward Surge Current.
S.3ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA = 100'C
IFSM
Maximum Instantaneous Forward Voltage at 3.0A
VF
Maximum DC Reverse Current
TA=2S'C
at Rated DC Blocking Voltage
TA= IS0'C
IR
Maximum Thermal Resistance (Note 3 )
RaJA
Typical Junction Capacitance (Note 1)
CJ
Maximum Reverse Recovery Time (Note 2)
TRR
Operating and Storage Temperature Range
TJ,TsTG
JAN
JAN
JAN
1.0
Amps
2S.0
1.3
1.0
ISO
SO.O
15
S.O
-65 to +175
Amps
Volts
IlA
'CIW
pf
I1S
'C
NOTES: 1. Measured at 1MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF - 0.5A, IR • 1.0A. Irr = 0.2SA.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) lead lengths P.C. Board mounted.
-2S-
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N4245 THRU 1N4249
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 1 -
FORWARD DERATING CURVE
1.0
0.8
0,6
04
0.2
20
IX
0::
"-0-
<1)=>
::0«
100
125
150
Z
10
~
05
~
\
LENG H
.50
oUJ
1\
~E~tl j!iY-7FChAn n Lw
'"
175
I
UJ
40
FIG. 4 -
"'"
a::i.U
::>0:
<1)UJ
00-
a:=>
30
««
S:>-'
a:z
OUJ
"-a:
",a:
20
30
j'--...~
~mss
- AVE (
~g ~~~
"C.
~
ui
e.>
...........
UJe.>
10
0.8
10
12
1.4
1.6
TYPICAL JUNCTION CAPACITANCE
r-.....
10
"
2 C
T,
z
~
"I"-
13
11:
«
e.>
00'
«::0
0-
'"
5'
s
0.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
"-
"<
.0 1
0.4
50
~
J
<1)
AMBIENT TEMPERATURE, 'C
FIG. 3 -
/
1,0
!f3
offi
I----+_+--+_+--+_\-\I-~
~1~Gj~,:'~
\
25
10
0::
0::
Z
UJ
1---+-+--1--4--4-\+----4--1
(9.5mln) LEA
>-'
~ .....
f~
1lAH
VSlg
50
10
100
10
>-'
zUJ
100
REVERSE VOLTAGE, VOLTS
NUMBER OF CYCLES AT 60 Hz
FIG. 5 -
TYPICAL REVERSE CHARACTERISTICS
10
0::
0::
::0
e.>
UJ<1)
~~
10
,.
1/
UJUJ
>0-
UJ ~
0::«
.4
35
0.1
~
04
.-
<1)0
~~
Z
~
<1)
'"
I
0;;.
01
20
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
-29-
140
1.8
POWER
SEMICONDUCTOR
DIVISION
INsr~
JAN AND JANTX 1 N4942 THRU 1 N4948
GLASS PASSIVATED JUNCTION FAST SWITCHING RECTIFIER
VOLTAGE - 200 to 1000 Volts
CURRENT - 1.0 Ampere
MECHANICAL DATA
FEATURES
• Qualified to MIL-S-19500/3598 High
case: One piece glass, hermetically sealed
temperature metallurgically bonded
1-:~i:lgJWGlass passi~ated cavityTerminals: Plated Axial
free junction ""'"
leads, solderable per
.205 [S.211
.1.0 Ampere
~MIL-STD-202' Method 208
.14013.561
operation at
Polarity: Color band denoted
TA =55'C with
cathode
no thermal runaway
Mounting POSition: Any
1.50 38.11
• Hermetically sealed package
Weight: .02 ounce, .56 gram
41 • <=g::ll! DIA • • Typical temperature soldering
guaranteed: 350'C/l0
Dimensions in inches
seconds/.375", (9.5mm) lead length
and (millimeters)
at 5 Ibs., (2.3kg) tension
I
•
~
I,OOr
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
For capacitive load, derate current by 20%.
~N
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 100!LA
Maximum Average Forward Recitified Current
.375" (9.5mm) Lead Length at TA ~ 55'C
Peak Forward Surge Current,
8.3ms single half sine·wave superimposed on
rated load (JEDEC Method) at TA =1 OO'C
Maximum Instantaneous Forward
TA-25'C
Voltage at 1.0A
TA- ·65'C
Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA = 150'C
Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
Maximum Junction Capacitance (Note 2 )
Typical Thermal Resistance (Note 3 )
Operating and Storage Temperature Range
VRRM
VRMS
Voc
VBR
~N
~N
~N
~N
1N49421N4944 1N4946 1N4947 1N4948
UNITS
200
140
200
220
Volts
Volts
Volts
Volts
400
280
400
440
600
420
600
660
800
560
800
880
1000
700
1000
1100
ICAV)
1.0
Amps
IFSM
15.0
1.3
1.5
1.0
200
Amps
VF
IR
TRR
CJ
RaJA
TJ.TsTG
150
45
35
II
250
25
I 20
50.0
·65 to +175
Volts
!LA
500
15
NOTES:
1. Reverse Recovery Test Conditions: IF - 0.5A, IR - 1.0A, Irr - 25A
2. Measured at 1 MHz and appliede reverse voltage of 12 volts.
3. Thermal resistance from Junction to Ambient at .375"(9.5mm) lead lengths P.C.Board mounted.
-30-
ns
pf
'cm
C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N4942 THRU 1N4948
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
v
20
I-'
Z
10
W
a::
0:
:::>
0
0
0:
~ffl
FIG. 1 - FORWARD CURRENT
DERATING CURVE
'zW"'
75
W
t5fB
Woo
.5a.
««
;:
0:
0
25
U-
0
Z
«
0:
;c
25
50
75
100
~~s
,co,
""
""
00
~
01
1.0
125
1.2
1.4
1.6
1.8
2.0
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
\
D
0.375" (9.5mm LEAD ENGTfS
W
0.1
300J.(
WIdth
Z
~S 'Y~E~~
INDue
W
eJ
I
W
1\
iI
o:w
00..
o:::i'
I
:::>«
"\
0
0
T = 25°C
oo::i'
1.00
0:
0:
:::>
V
1.0
0:0:
Ow
... 0..
FIG. 4 -
TYPICAL REVERSE CHARACTERISTICS
20
150
175
10
AMBIENT TEMPERATURE·C
'a::"'
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
30
Z
W
0:
0:
:::>
0 00
20
~
.;
:::>
r>s
0
""- .......
WOO
(/)w
0:0: 10
WW
>0..
W::i'
0:«
000
ww
eJO:
o:W
:::>0..
oo::i'
0«
0:
w
N L
H LF-Y Y
(J DEC M
8.
'"'
Z
a::
~
......... ...... 1-10
:::>0:
55"
~~
........ !"-
""Z
~
t-;-
0:
0
u-
,.;
00
0.1
"
00
""
~
./
'
./
2
4
6
B
10
20
40 60 80100
NUMBER OF CYCLES AT 60 Hz
FIG. 5 -
'<0
.;
.01
20
TYPICAL JUNCTION CAPACITANCE
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
30
Lfi.
FIG. 6 -
r-....... ....... f..
TJ
= 25
10
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
soo
100
NONINDUCTIVE
NONINDUCTIVE
+0 SA
ui
o
z
~
""
_
-
(+)
50Vdc
(approx.)
(-)
1-----.
10
NON·
f= 1 H
v•• 5eln
INDUCTIVE
5
10
50
REVERSE VOLTAGE. VOLTS
100
NOT~.s.
r\
D.V.l.
,. Rise Time == 7ns max. Inpuf Impedance ==
1 megohm, 22pF
2. Rise Time = 10ns max Source Impedance =
so ohms.
1/
-0.25
OSCILLOSCOPE
(NOTE 1)
J
I' V
Ie-
-1.0
-.!
SET TIME BASE FOR
1em
-31-
50 lOOns cr
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN AND JANTX 1N5415 THRU 1N5420
GLASS PASSIVATED JUNCTION FAST SWITCHING RECTIFIER
VOL TAGE - 50 to 600 Volts CURRENT- 3,0 Amperes
t
FEATURES
--------....;..,;;,;,..;.;;..,;;.;...;=
Qualified to MIL-S-19500/411 0
1.30 (32.02]
0.90122.86] •
.180 14. 57l0IA
.115 12.921
...
.26016.60]
.130 (33.02]
. . . ----+-1__
J!9!..!!.lll0~ _
.037 1.941
t
130 (32 02]
0:90 122:861
1
Dimensions in inches
and
(millimeters)
• Glass pafilliivated cavity-free
junction "''''~
• High
temperature
metallurgically bonded
• Fast switching for high efficiency
3.0 Ampere operation at TA =55'C
with no thermal runaway
• Hermetically sealed package
• High temperature soldering guaranteed: 350'CI10 secondsl.375"
(9.5mm) lead lengthl5 Ibs., (2.3kg)
tension
•
MECHANICAL DATA
esse: One piece glass, hermetically sealed
Terminals: Plated Axial
leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes
cathode
Mounting Position: Any
Weight: .037 ounce,
1.04 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 6OHz,resistive or inductive load.
For capacitive load, derate current by 20%.
JAN
JAN
JAN
JAN1 JAN
JAN
SYllBOLS 1N5415 1N5416 1N5417 1N54181N5419 1N5420
Maximum Recurrent Peak Reverse Vokage
Maximum RMS Vokage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 1001lA
Maximum Average Forward Recitified Current
.375" (g.5mm) Lead Length at TA = 55'C
Peak Forward Surge Current,
S.3.ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA a 100'C
Minimum Peak Reverse Power at 20 IJ.S pw
Maximum Instantaneous Forward
1.5A TA=25'C
Voltage at
9.0A TA - 25'C
0.5A TA - -55'C
Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA 100'C
Maximum Junction Capacitance (Note 1)
Maximum Reverse Recovery Time (Note 2)
Maximum Thermal Resistance (Note 3 )
Operating and Storage Temperature Range
K
VRRM
VRMS
Voc
VBR
50
35
50
55
100
70
100
110
400
2S0
400
440
500
350
500
550
IFSM
PRM
VF
430
150
SO.O
1000
1.2
1.5
1.3
1.0
20.0
250
165 140
150
150 250
20.0
·65 to +200
NOTES:
I. Measured at I MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF = I.OA, IR = I.OA, Irr =.2SA.
3. Thermal Resistance from Junction to Lead at .37S",(9.5mm)lead lengths with both leads atached to heat sink.
-32-
600
420
600
660
3.0
I(AY)
IR
550
CJ
150
TRR
R8JL
TJ,TsTG
200
140
200
220
UNITS
Voks
Volts
Voks
Voks
Amps
Amps
Watts
Voks
IlA
120
400
pi
ns
'CIW
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5415 THRU 1N5420
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
200
g
F~G. 1 - FORWARD CURRENT DERATING CURVE
a:
a:
:::>
u
30
a: W
....
«ffi2
0
:S:a.
a::::t;
f2 <
Cloo
a: W to0
:::>a:
UlW
0
000
1.0
~~
<<
:S:..:
u..a:
"a:
0
25
<
50
75
;li13
a.
r--.....
~
0
~
r--.
OW
........
100
I
50
a:Z
RESISTIVE OR
INDUCTIVE LOAD
.375" (9.SmmJ LEAD LENGTH
W
Cl
<
a:
'"
8 3 SINGLE HALF
SINE~WAVE JEDEC METHOD
TA = 100°C
W
125
150
10
10
175
50
100
NUMBER OF CYCLES AT 60Hz
200
AMBIENT TEMPERATURE, °C
FIG. 4 -
TYPICAL JUNCTION CAPACITANCE
100
u..
C-
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
0
..:
Z
W
a:
0
u
3. 0
L
~
~ffl
II a:
1. 0
6<
o. 3
Ow
u..a.
Ul:::t;
/
/
o. 1
"r--
20
4
Pulse Width ~ 300p
2% Duty Cycle
5
0
I
I
0.6
0.8
10
1.2
1.4
1.6
18
W
a:
2
II:
TJ
:::>
f---lrr~
100
NON INDUCTIVE
NQNINOUCTIVE
C
~~VOC
,
1.0A
'VV>.
i\
,
DVT
1/
OSCILLOSCOPE
INOTE 11
NOTES 1 Rise Time = 7ns max Inpullmp"'dance
1 megohm 22pF
2 Rise Time = IOns max Source Impedance
50 ohms
. lOA
~
6
4
<
000
-.25A
NONINDUCTIVE
Gi ~
:::>a:
00
lapprox)
,0
ffl
ffi ffi
a:
25" C
0,
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM ~
500
t--
Z
20
U
~
FIG.5 - TYPICAL REVERSE
CHARACTERISTICS
6
4
f-'
INSTANTANEOUS FORWARD VOLTAGE VOLTS
_'
100
60
.03
.0 1
0.4
FIG. 6 -
40
20
10
6
REVERSE VOLTAGE, VOLTS
TJ: 25°C
Z
00
Z
,-
II
Z
<
I-
~J ~5'~
0
-........
10
V
W
<
40
U
a:
I-
60
<
IU
<
U
Z
a:
:::>
o
ui
"
I
11eml
SET TIME BASE FOR
50100nS:Clll
-33-
~~
1
<
6
Z
4
I-
;':
00
Z
~
:/
20
./
40
-
60
80
100
120
140
PERCENT OF PEAK REVERSE
VOLTAGE
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN AND JANTX 1 N5550 THRU 1 N5554
GLASS PASSIVATED JUNCTION MEDIUM SWITCHING RECTIFIER
VOL TAGE - 200 to 1000 Volts
CURRENT - 3,0 Amperes
f
FEATURES
1.30 (32.02) - - - - - - - - - - - ; . . . . - - . . ; ; .
:.90(2.9) • Qualified to MIL-S-19500/420A
.IBO (4.57)DIR
.115 (2.92)
.042 [1.07) D!ft..... _
.037 (.94)
u _ _~__
Dimensions in inches
and
(millimeters)
• Glass passivated cavity-free junction
• Medium """'"
swiching for ~
good efficiency
~'• High temperature
.~
metallurgically bonded
~
• 3.0 Ampere operation at
TA = 55'C with no thermal
runaway
• Hermetically sealed package
• High temperature soldering guaranteed:
MECHANICAL DATA
case: One piece glass, hermetically sealed
Terminals: Axial leads,
solderable per MIL-STO-202,
Method 208
Polarity: Color band denotes
cathode
Mounting Position: Any
Weight: .037 ounce,
1.04 gram
350'C/10seconds/.375".(9.5mm)
lead lengthl5 Ibs., (2.3kg) tension
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'0 ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz,resistive or inductive load.
For capacitive load, derate current by 20%.
JAN
SYMBOLS 1N5550
Maximum Recurrent Peak Reverse Vottage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at SOItA
Maximum Average Forward Recitified Current
.375" (9.Smm) Lead Length at
TA =SS'C
TL =SS'C
Peak Forward Surge Current,
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA a 55'C
Maximum Instantaneous Forward
TA=25'C
Voltage at 9.0A
TA--55'C
Maximum Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA =100'C
Maximum Reverse Recovery Time (Note 1)
Maximum Thermal Resistance (Note 2 )
Operating Junction Temperature Range
Storage Ambient Temperature Range
VRRM
VRMS
Voc
VBR
200
140
200
240
JAN
1N5551
JAN
1N5552
JAN
1N5553
JAN
1N5554
UNITS
400
280
400
480
600
420
600
660
800
560
800
880
1000
700
1000
1100
Volts
Volts
Volts
Volts
3.0
5.0
I(Av)
100
IFSM
1.2
VF
IR
TRR
R8J-L
TJ
TSTG
Amps
Amps
I
1.5
1.0
75.0
2.0
22.0
-65 to +175
-65 to +200
1.3
Volts
ItA
ItS
'CIW
'C
'C
NOTES:
1. Reverse Recovery Test Conditions: IF =0.5A, IR = 1.OA, Irr = .25A.2. Thermal Resistance from Junction to Lead at .375" , (9.5mm) lead lengths with both leads attached to heat sink.
-34-
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5550 THRU 1N5554
FIG. 2 -
MAXIMUM NON· REPETITIVE PEAK
FORWARD SURGE CURRENT
200
FIG. 1 -
I"
FORWARD CURRENT DERATING CURVE
5.0
0
w
II:
;=00
OW
Wa:
a:w
00.
a:::;;
,0:<
4.0
3.0
T••
~~
oai
LLa:
wa:
Cl:::J
<0
a:
w
~BIENT
T MPER
2.0
T~,
LEA TEMP
25
~ 1'1 ~-
8.3msS NGL
SINE-W VE (
2 C
T,
50
IE';':, F~,
r-: c:::- tT.
)
~
I
r-
5'C
0.
O.S" x O.S" x .040"
(~mm x 20mm x 1mm Cu)
~~~:i
75
50
J
--1- 1- .
~~
RESIS IVE ORI DueTI
O.375 ff 9.5mm) LEAD L
RATUR~_
~
00.
a:::;;
,0:<
5:>-,
a:z
OW
LLa:
",a:
<:::J
wO
L =375" (95mm)
1.0
~
w
Cloo
a:w 100
:::Ja:
OOW
r--.... ~
.......
100
125
10
10
50
100
NUMBER OF CYCLES AT 60Hz
FIG. 4 -
~
150
175
200
LL
100mmm~
"-
TEMPERATURE. 'C
TYPICAL JUNCTION CAPACITANCE
50
W
0
z
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
r---......
'iE"
13
100
<
f = 1M!
0
50
VS1G
'"
TJ
pmv -p
'C
=
"'t-
10
~
>-'
Z
w
a:
a:
:::J
0
0
a:
/
10
10
~m
T,
offi
LLo.
00::;;
:::J<
0
w
Z
'"
'"
50
100
REVERSE VOLTAGE. VOLTS
5.0
TYPICAL REVERSE CHARACTERISTICS
30
20
~
IL
10
FIG. 5 -
2 ·C
2%0 Y Cycle
~
~
10"C
V
10
05
Z
I
00
I
~
0.1
wOO
ooW
a: a:
WW
>0.
w::;;
a:<
000
:::Ja:
00
~~
05
0.8
1.0
1.2
1.4
1.6
18
1.0
~~
01
06
-
ZUJ
2.0
~~
Z:::J
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
-0
0.1
-
7"~
'
./
.01
b--":
20
.....
T,
25~C
i""
40
60
80
100
120
140
PERCENTAGE OF PEAK REVERSE VOLTAGE
·35·
POWER
SEMICONDUCTOR
DIVISION
INsr~
JAN AND JANTX 1N5615 THRU 1N5623
GLASS PASSIVATED JUNCTION FAST SWITCHING RECTIFIER
VOLTAGE-200to 1000 Volts
CURRENT-1.0Ampere
FEATURES
1
·110 (2.79)
.065 (l.GS)
OIA.
• 225 (S.72)
.130 m.oo)
, .033 (838) ,
.028 L 7ll) I
OIA
Dimensions in inches
and
(millimeters)
• Qualified to MIL·S-19500/429C
• High temperature metallurgically
bonded
• Hermetically .
sealed package
• Glass passivated
cavity-free junction
• 1.0 ampere operation at TA = 55'C
with no thermal runaway
• TypicallR less than 0.1 itA
• High temperature soldering guaranteed: 350'C/10 seconds/.375",
(9.5mm) lead length atl5 Ibs.,
(2.3kg) tension
MECHANICAL DATA
Case: One piece glass, hermetically sealed
Terminals: Plated Axial
leads, solderable per MIL-STD202, Method 208
Polarity: Colorband denotes
cathode
Mounting Position: Any
Weight: .02 ounce, .56 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz,resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
VDC
Minimum Reverse Breakdown Voltage at 50!1A
VBR
Maximum Average Forward Recitilied Current
.375" (9.5mm) Lead Length at TA = 55'C
I(AV)
Peak Forward Surge Current,
S.3ms single hall sine-wave superimposed on
IFSM
rated load (JEDEC Method) at TA = 100'C
Maximum Instantaneous Forward Voltage at 3.0A
VF
Maximum DC Reverse Current
TA= 25'C
at Rated DC Blocking Voltage
TA = 100'C
IR
Maximum Reverse Recovery Time(Note 1)TJ = 25'C TRR
Maximum Junction Capacitance (Note 2)
CJ
Maximum Thermal Resistance (Note 3 )
ReJL
Operating JunctionTemperature Range
TJ
Storage Ambient Temperature Range
TSTG
JAN
lN5615
JAN
lN5617
JAN
lN5619
JAN
lN5621
JAN
lN5623
UNITS
200
140
200
220
400
2S0
400
440
600
420
600
660
SOO
560
SOO
SSO
1000
700
1000
1100
Volts
Volts
Volts
Volts
150
45
1.0
Amps
25.0
Amps
1.6
0.5
25.0
250
150
300
25
35
20
3S.0
-65 to +175
-65 to +200
Volts
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5 A, IR = 1.0A. Irr = 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 12 Volts.
3. Thermal Resistance from Junction to lead at .375" (9.5mm) lead lengths P.C. Board mounted.
-36-
500
15
!1A
Ns
pi
'cm
'c
'c
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5615 THRU 1N5623
FIG. 2 -
TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
20
>-'
Z
-'" V
10
UJ
0:
0:
::0
U
1/
0
T,
25'C
Pul e Width
300,u.
0:
if'"
~ffi
"-"-
FIG. 1 - FORWARD CURRENT
DERATING CURVE
z>-'
UJ
100
0:
0:
::0
U
0
75
UJ
~
"~
L
u:
fO",
UUJ
UJoo
OOUJ
0"0:::;;;
««
375" (9.5mm)
RESISTI E
INDUCTIV LOAD
«
.01
.6
UJ
:;:
25
75
50
lQO
125
150
FIG. 4 -
50
z>-'
UJ
40
a:
a:
::0
U",
UJUJ
(!lOO 30
ooUJ
::0"-
"'::;;;
0«
a:
if0:
~r-.
1.2
1.4
16
1.8
2.0
10
175
-'"
83 sSN L
"
A
~~ ~~~~
"
TJ
., . /
= 55'
I'-- r--.t--
20
TA = 10 C
[2
a
TYPICAL REVERSE CHARACTERISTICS
MAXIMUM NON-REPETITIVE
SURGE CURRENT
""~
1
0
AMBIENT TEMPERATURE. 'C
FIG. 3 -
8
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
0.375 (95mIT ) LEAD LENGT S
a:
01
I
1%"Uu y ye.
/
~
1\
1\
25
UJ
(!l
i'!
Z
i'!
en
(5mm x 5mm)
0.2" 0.2"
0:
"-
UJ
Z
I\~~
x
5:
0
en::;;;
::0«
0
I
~-
50
1.0
............
10
./
r--.
./
.01
FIG. 6 -
TYPICAL JUNCTION CAPACITANCE
30
60
80
100
10n
NON INDUCTIVE
NONINDUCTIVE
(+)
O.SA
100
r\
-0.25
NOTES 1. Rise Time = 7ns max. Input Impedance =
1 megohm, 22pF
2 Rise Time = 1Ons max. Source Impedance =
SOol'fms.
-37-
I
II
\
ascI LLOSCOPE
(NOTE 1)
-1.0
10
140
DV.T
25Vdc
(approx.)
(-)
REVERSE VOLTAGE. VOLTS
120
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
son
~
f = 1 H
VS1G 50
40
PERCENT OF RATED PEAK REVERSE VOLTAGE
NUMBER OF CYCLES AT 60 Hz
FIG. 5 -
5°C
/
20
100
10
,
":'
, J
-til cmt--
;g/~66~~::SE FOR
POWER
SEMICONDUCTOR
DIVISION
INsr~
JAN AND JANTX 1 N5614 THRU 1 N5622
GLASS PASSIVATED JUNCTION MEDIUM- SWITCHING RECTIFIER
VOLTAGE-200to 1000 Volts
• 225 15.721
.130 (3.301
. ·.:~:~~I:
DIA
Dimensions in inches
and
(millimeters)
CURRENT-1,OAmpere
FEATURES
MECHANICAL DATA
• Qualified to MIL-S-19S00/427C
• High temperature metallurgically
bonded ...••
• Hermetically"""-""'.
sealed package
--"--...
• Glass passivated cavity.~
free junction
• 1.0 ampere operation at TA '" SS'C
with no thermal runaway
• Typical IR less than 0.1 ~A
• High temperature soldering guaranteed: 3S0'C/l 0 seconds/.37S",
(9.Smm) lead length atlS Ibs.,
(2.3kg) tension
Case: One piece glass, hermetically sealed
Terminals: Plated Axial
leads, solderable per MIL-STD202, Method 208
Polarity: Color band denotes
cathode
Mounting Position: Any
Weight: .02 ounce, .S6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
JAN
SYMBOLS 1N5614
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 50~A
Maximum Average Forward Recitified Current
.375" (9.5mm) Lead Length at TA = 55'C
Peak Forward Surge Current.
8,3ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA '" 100'C
Maximum Instantaneous Forward Voltage at 3.0A
Maximum DC Reverse Current
TA-25'C
at Rated DC Blocking Voltage
TA=100'C
Maximum Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Maximum Thermal Resistance (Note 3 )
Operating Junction Temperature Range
Storage Ambient Temperature Range
VRRM
VRMS
Voe
VBR
200
140
200
220
JAN
JAN
JAN
JAN
1N5616
1N5618
1N562D
1N5622
UNITS
400
280
400
600
420
600
660
800
560
800
880
1000
700
1000
1100
Volts
Volts
Volts
Volts
440
I(AV)
1.0
Amps
IFSM
30.0
Amps
VF
1.3
0.5
25.0
2.0
15
38.0
-65 to +175
-65 to +200
Volts
IR
TRR
CJ
R8JL
TJ
TSTG
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5 A, IR = 1.0A, Irr = 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to lead at .375" (9.5mm) lead lengths P.C. Board mounted.
-38-
~
~
pf
'CIW
'C
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5614 THRU 1N5622
v
20
10
100
",,~75 (9 5~_
0
w
u::
Fen
UW
woo
oow
0"'a::2
««
a:z
OW
CLa:
wa:
C)::J
«U
a:
w
(5mmx 5m~)
02' x 02
50
"'"'"
f\
25
RESIS IVEO
INDU
IVE L AD
0375"
) LEAD ENGT S
"
/
0
1\1' ,
75
(95m'
25
50
75
100
125
-,
1\
150
I
/
1
yclc
% Duty
1
6
8
10
1.2
14
16
18
20
INSTANTANEOUS FORWARO VOLTAGE, VOLTS
175
AMBIENT TEMPERATURE °C
20
10
50
Z
"'W
"
a:
40
a:
::J
Uen
ww
C)a:
a: w
::J"'U):2
0«
a:
30
~ l'...
V
JE EC ME H
~t--
l'--
20
~
a:
t--."
T =
0
~,~~Sv
IN L
t---..j-..
0
Z
a:
::J
U
wen
w
en
a: a:
wW
>"'w:2
00«
enO
::Ja:
OU
~~
~5
,...
;:;
10
CL
::/
"'a:W"
Z
/'
10
,
/""
,;
)
01
;:;
U)
£;
.-
100
10
NUMBER OF CYCLES AT 60Hz
T, -
5°C
./
/
40
30
01
f"""-...
20
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
i'-- t-...
T,
CL
"-
10
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
5
~~~'NDUCT'VE
~~~'NDUCT'VE
ui
+0 SA
U
Z
1\
I<- t" ---tf
;:;
o
V
if
()
-025
f= 1 H,
VS1G 50 C \p P
OSCILLOSCOPE
(NOTE 1)-
a
10
REVERSE VOLTAGE, VOLTS
100
NOTES 1 Rise Time = 7ns max Input Impedance =
1 megohm, 22pF
':'
2 RISe Time = 10ns max Source Impedance = 50 ohms
-1.0
~1
\ j.......I
emit-
I
II
SET TIME BASE FOR
SOl100ns/em
GENERAL
INSfRUM ENT
-39-
POWER
SEMICONDUCTOR
DIVISION
INsr~
JAN AND JANTX 1 N5624 THRU 1 N5627
PASSIVATED JUNCTION SILICON RECTIFIER
CURRENT· 3,5 Amperes
VOL TAGE ·50 to 800 Volts
r
.230 (5.841 DIA
.17D [4.321
....
u _ _- ' - _ _
Dimensions in inches
and
(millimeters)
MECHANICAL DATA
FEATURES
1.25 (31.751 -----------;;.-.~
0.90 (22.861 • Qualified to MIL-S-19500/432
• High temperature metallurgically
bonded '"
• Hermetically
sealed package
• Glass passivated cavityfree junction
• 3.5 ampere operation at TA = 55'C
with no thermal runaway
• TypicallR less than 0.1 J.IA
• High temperature soldering guarnateed 350'C/l 0 seconds/.375",
(9.5mm) lead length atl5 Ibs.,
(2.3kg) tension
Case: One piece glass, hermetically sealed
Terminals: Axial leads,
solderable per MIL-STD-202,
Method 208
Polarity: Colorband denotes
cathode
Mounting Posit/on: Any
Weight: .037 oLlnce,1.04
gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave. 60Hz. resistive or inductive load.
For capacitive load. derate current by 20%,
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 501lA
Maximum Average Forward Recitified Current
.375" (9.5mm) Lead Length at TA = 55'C
Peak Forward Surge Current,
B.3.ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA = 100'C
Maximum Instantaneous Forward TA = 25'C
Voltage at 3.5A
TA = -65'C
Maximum DC Reverse Current
TA - 25'C
at Rated DC Blocking Voltage
TA = 150'C
Typical Junction Capacitance (Note 1)
Maximum Reverse Recovery Time (Note 2) TJ-25'C
Maximum Thermal Resistance (Note 3 )
Operating and Storage Temperature Range
JAN
JAN
JAN
JAN
SYMBOLS
1N5624
1N5625
1N5626
1N5627
UNTrS
VRRM
VRMS
Voc
VBR
200
140
200
240
400
2BO
400
460
600
420
600
660
BOO
560
BOO
BBO
Volts
Volts
Volts
Volts
IIAV)
3.5
Amps
IFSM
125
1.0
1.5
1.0
100
40.0
5.0
lB.O
-65 to +200
Amps
VF
IR
CJ
TRR
R9JL
TJ.TsTG
NOTES:
1 Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
2. Reverse Recovery Test Conditions: IF - 0.5A, IR = 1.0A, Irr = 0.25A.
3. Thermal Resistance Irom Junction to Lead at .375', 9.5mm lead lengths, w~h both leads attached to heat sink.
-40-
Volts
IlA
pf
jl.S
'CIW
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5624 THRU 1N5627
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
200
SIN LE
8.3m
100
FIG. 1 0
LU
iI
i=U)
llLU
LUa:
a:LU
00.
a:::>
~«
FORWARD CURRENT DERATING CURVE
3.5
~~
2.0
LUa:
('):0
«ll
a:
LU
1.0
o"-a:
iii
(JED
50
...........
..........
R~S'~
O.375~
~
"-
i'-- to-..
IVE OR
NOUCT VE LOA
(9.5mm LEAD
NGTH
25
50
100
75
125
CM TH D
-
4.0
3.0
L
SINE WAV
r---.....
I
10
"'"
150
10
""
175
AMBIENT TEMPERATURE. °C
100
50
NUMBER OF CYCLES AT 60Hz
FIG. 4 -
200
TYPICAL JUNCTION CAPACITANCE
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
100
.,
50
f= 1M Z
VS1G =
m V -p
10'
>-'
Z
LU
a:
a:
:0
I
0.5
;or;
0.1
~
........"
T J = 150"C
TJ = 25°C
10
--
~
II
V
-
1
.05
1.0
01
0.6
0.8
100
TYPICAL REVERSE CHARACTERISTICS
20
I
Z
Ul
FIG. 5 30
Z
50
REVERSE VOLTAGE. VOLTS
'/
1.0
;or;
2S°C~""
10
a:
~fB
=
/
10
5.0
II
0
a: a:
OLU
"-0.
U)::>
:0«
0
LU
T,
a
10
1.0
1.2
1.4
16
1B
20
.... "-
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
T,
'C
0.1
."r-.01
T,
. /V
20
40
60
25°C
80
100
120
140
PERCENTAGE OF PEAK REVERSE VOLTAGE
-41-
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN,JANTX AND JANTXV 1N5802 THRU 1N5806
MINIATURE GLASS PASSIVATED FAST EFFICIENT SILICON RECTIFIER
VOL TAGE RANGE - 50 to 150 Volts
CURRENT- 1.0 Ampere
t
+ ,.032 (0.811
1.30133.021
.027 (0.691
0.70117.781 I
-.....i--r:!:~:-tt-
t
FEATURES
• Qualified to MIL-STO-19500/477
• Glass passivated cavity free junction
• Superfast recovery times for very high
efficiency
.250 [S.35)
.125 (3.10) • Low forward
I
,
•
005(216) •
+--+ ':06511:65J •
Dimensions in inches
and
(millimeters)
•
voltage, high current
capability
Hermetically sealed
package
High forward surge capability
High temperature metallurgically
bonded
High temperature soldering guaranteed: 350·C, .375",(9.5mm), from case
for 10 seconds at 5Ibs., (2.3kg) tension
MECHANICAL DATA
case: One piece glass hermetically sealed
Terminals: Plated Axial
leads, solderable to
MIL-STO-202, Method 208
Polarity: Color band denotes
cathode end
Mounting Position: Any
Wleght: 0.012 ounce, 0.34
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings al25'C ambienllemperalure unless otherwise specified.
Single phase, half wave, 6OHz,resistive or inductive load.
For capacitive load, derate current by 200/0
SYMBOLS
JAN1N5802
JANfN5B114
JAN1N580fI
UNITS
VRRM
VRMS
Voo
VBR
50
35
50
SO
100
70
100
110
1.0
2.5
150
105
150
160
Volts
Volts
Volts
VollS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage atl00JlA
Maximum Average Forward Recitilied Current TA = 55'C
.375" (9.5mm) Lead Length at
TL= 75'C
Peak Forward Surge Curren~
8.3ms single hall sine-wave superimposed on
rated load (JEDEC Method) at TA = 55'C
Maximum Instantaneous Forward 1.0A TA = 25'C
Voltage at 2.5A TA = 25'C
1.0A TA = 100'C
1.0A TA=·65·C
Maximum DC Reverse Current
TA= 25'C
at Rated DC Blocking Voltage
TA= l00'C
Maximum Reverse Recovery Time (Note 1) TJ = 25'C
Maximum Forward Recovery Time at 250 rnA
Maximum Forward Voltage Recovery at 250 rnA
Maximum Junction Capacitance (Note 2)
Maximum Thermal Resistance (Note 3)
Operating Junction Temperature Range
Storage Ambient Temperature Range
I(AV)
IFSM
VFM
IR
IR
TRR
TFR
VFR
CJ
ReJL
TJ
TSTG
NOTES:
1. Reverse Recovery Tesl Condition: IF = O.SA, IR - O.SA, IRR - O.OSA, dVdl_ 65 A/J1S.
2., Measured all MHz and applied reverse vollage of 10 volts.
3. Thermal Resistance from Junction to Lead at .375", (9.Smm) lead lengths, P.e. Board mounled.
-42-
35.0
0.875
0.975
0.800
1.075
1.0
50.0
25.0
15.0
2.2
25.0
36.0
·65 to +175
-65 to +200
Amps
Amps
VollS
JlA
JlA
ns
ns
VollS
pi
'CIW
'C
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN, JANTX AND JANTXV 1N5802 THRU 1N5806
FIG. 2 FIG. 1
FORWARD CURRENT DERATING CURVE
40
D'
6.0 .---,r----;--;---.----r----r--...
o
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
en 5.0 I--I--I-"-.....!--r---
a:W
«a:
~ ~ 4.0 .........-1--+--'-+""-1..-
8.3 ms SINGLE HALF SINE-WAVE
JEOEC METHOD
TA. 65'C
I
......
0
~::!;
~~ 3.01-~r-~~~!--~~+--+---i
WfC)Z
~~ 2.0r--r--r-~~~~~~~+---i
wac
10
>::J
« U 1'0I-...,r--+-;;;I;;:::::-t.-.:~~..rr-t
TA. Ambient Tel11)8'atu,.
20
40 60 100
NUIIlER OF CYCLES AT 60Hz
.375" (9.5mmJ LEAD LENGTHS
00
25
50
75
100
125
150
175
TEIf'ERATIlRE, "c
100
FIG. 3
TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
o
a:
~ffl
a: a:
o Pulse Width = 300!-ts
-
2% Duty Cycle
10
Ow 5. o =;;=1;;~ ,'50 ~
~o..
en::!;
6 «r: o.1. 50
!z ~
TA,..-4Oo C
'Ar
'/
~_f=1MHz-YH+H-_+-+1-HH+H--+-+1~H+H
Vsig = 50mVp-p
TA =25°C
1·~1~~~~~~1.~0~~-L~~~1~0-~-L~~~100
,
W
~~
FIG. 4 - ;TYPICAL JUNCTION CAPACITANCE
o. 1
REVERSE VOLTAGE, VOLTS
~6 .OS
en
Z
FIG. 6 .01
L2
I II I
L4
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
I
L6
L8
1.0
1.2
1.4
1.6
50 II N.1.
1.8
.002
~f
r-~r-~----~~------~
INSTAHTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
100
!!!!Ill:
10
_
l.RISE WE '3ns MAX. INPUT IIf'EDANCE'50 Olt! MIN.
2. RISE TIME,Sns MAX. SOURCE IMPEOANCE=50 OHM MAX.
4
,.'00
1.0
.4
T+
~
0.1
0.4
0.11
0
20
40
60
80
100
0 • 5A
I\"
IREt
_1_0
"
120
~ I"'"
~
T
I
1-
PERCENT OF RATED PEAK REVERSE VOLTAGE
-0.5A
-43-
II
"
.... l1clll ... SET
"
~
TIME SASE FOR 5ns/cm
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN, JANTX AND JANTXV 1N5807 THRU 1N5811
GLASS PASSIVATED FAST EFFICIENT SILICON RECTIFIERS
VOLTAGE RANGE- 50 to 150 Volts
CURRENT- 6,0 Amperes
.042 (7.07J
• .037 (0.94J
DIA.
1.30 i33.02t
I"
0.70r·78J
I
t
.300(7.62J
,13013.30J
~
I
I,
--
.165(4.19J
.115(2.92J
Dimensions in D~~hes
and
(millimeters)
FEATURES
• Qualified to MIL-STO-19500/477
• Glass passivated cavity free junction
• Superfast recovery times for very high
efficiency
• Low forward~",'IIII!L
voltage, high current ~~
capability
~
• Hermetically sealed package
• High forward surge capability
• High temperature metallurgically
bonded
• High temperature soldering
guaraneed:350·C,.375",(9.5mm),
from case for 10seconds at 5Ibs.,
(2.3kg) tension
MECHANICAL DATA
case: One piece glass hermetically sealed
Terminals: Axial leads,
solderable to MIL-STO-202
Method 208
Polarity: Colorband denotes
cathode end
Mounting Position: Any
Wleght: 0.037 ounce,
1.04 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase. half wave. 60Hz.resistive or inductive loed.
For capacitive loed. derate current by 20%
SYMBOL
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 1001lA
Maximum Average Forward Reeitilied Current TA = 55'C
.375' (9.5mm) Lead Length at
TL= 75'C
Peak Forward Surge Current,
8.3,ms single half sine-wave superimpoSed on
rated load (JEDEC Method) at TA = 55'C
Maximum Instantaneous Forward 4.0A TA = 25'C
Voltage at 6.0A TA = 25'C
4.0A TA = 100'C
4.0A TA = -65'C
Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA = 100'C
Maximum Reverse Recovery Time (Note 1) TJ = 25'C
Maximum Forward Recovery Time at 500 mA
Maximum Forward Voltage Recovery at 500 mA
Maximum Junction Capacitance (Note 2)
Maximum Thermal Resistance (Note 3 )
Operating Junction Temperature Range
Storage Ambient Temperature Range
VRRM
VRMS
Voe
VBR
I(AY)
IFSM
VF
IR
TRR
TFR
VFR
CJ
ReJL
TJ
TSTG
JAN 1N5807 JAN 1N5809 JAN 1N5811
50
35
50
60
100
70
70
110
3.0
6.0
125
0.875
0.925
0.800
1.075
5.0
150
30.0
15.0
2.2
60.0
22.0
-65 to +175
-65 to +200
NOTES:
I. Reverse Recovery Test Condition: IF= I.OA, In- 1.0A, Inn-O.IA, dVdt_lOOAlps.
2., Measured at I MHz and applied reverse voltage of 10 volts.
3. Thermal Resistance from Junction to Lead at .375", (9.5mm llead lengths with both leads attached to heal sink ..
-44-
150
105
150
160
UNITS
Volts
Volts
Volts
Volts
Amps
Amps
Volts
IlA
ns
ns
Volts
pi
'CIW
'C
'c
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN, JANTX AND JANTXV 1N5807 THRU 1N5811 SERIES
MAXIMUM NON-REPETITIVE SURGE CUR~ENT
FIG. 2 20a
IJ
~
FIG. 1- FORWARD CURRENT DERATING CURVE
-1
-r 1111
8.3ms Single Half Sme-Wave
(JEDEC Method)
12,
""'iiiiO,;;:
I
-iiO;
TA -= 55°C
10
10
1
50
100
NUMBER OF CYCLES AT 60 Hz
FIG. 4- TYPICAL JUNCTION CAPACITANCE
100
50
25
75
100
"Co
150
125
uj
U
Z
TEMPERATURE, ·C
FIG. 3 -
60
TJ
u '"
>S
TYPICAL FORWARD CHARACTERISTICS
100.0
~
<
U
en
0:
./
UJ
:::;:
f -,- 1MHz
10
V '119 - 150Tvn
~~I~
6
10
i'
<
>-'
Z
....... .....
20
UJ
0-
10.0
-
20
25°C
~
40
60
100
REVERSE VOLTAGE, VOLTS
UJ
0:
0:
RG. 5 -
:;J
>-'
U
Cl
~
0:
10
200
0:
0:
100
UJ
I
0:
Z
:;J
U
!(
UJen
",UJ
'"
UJUJ
0:0:
:;J
>0-
0
UJ
z
>S
Z
~
10
TJ
J
01
'"
~
UJ:::;:
25°C
-
PULSE WIDTH =2% DUTY CYCLE
300~s
I----
0:<
",0
I
04
p-
-
~
'"~
0.8
1.2
10
1.4
T,
25°C
F
16
40
20
I
60
PERCENT OF RATED PEAK REVERSE VOLTAGE
1.8
TEST CIRCUIT DIAGRAM AND REVERSE RECOVERY TIME CHARACTERISTICS
5~/'
=
0.1
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 6 -
100°C::
1.0
>S
z
06
T,
:;JO:
OU
~~
,
001
TYPICAL REVERSE CHARACTERISTICS
.002 ~f
~
f"
--tI
"
Lo
T+1.0A
p.U.T
I,
(+)
I REC
r7 rr
II
-1.0A
NOTES
1. RISE TIME = 3ns MAX INPUT IMPEDANCE = 50 OHM MIN
2 RISE TIME", 8ns MAX. SOURCE IMPEDANCE = 50 OHM MAX.
I\, 1/
1
,
I.
~1 cm~ SET TIME BASE FOR Snslcm
-45-
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN AND JANTX M19500 /469·01 THRU /469·04
HIGH POWER SINGLE PHASE SILICON BRIDGE RECTIFIER
VOLTAGE - 200 to 800 Volts
CURRENT - 10 Amperes
MECHANICAL DATA
FEATURES
Dimensions in inches
(millimeters)
• Qualified to MIL-S-19500/469
• Electrically isolated metal case for
maximum heat dissipation
• Hermetically sealed
internal diodes
• Low forward
voltage drop
• All external surfaces
corrosion resistant
• Typical IR less that 0.1 11 A
• High temperature soldering
guaranteed 250'C/1 0 seconds
at 5Ibs.,(2.3kg) tension
Terminals: Tinned plated,
solderable per MIL-STO-202,
Method 208
Case: Metal, electrically isolated
Mounting Position: Any
Weight: 1.0 ounce,
28.3 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
JAN
JAN
JAN
469-02
469-03
469-04
UNITS
200
140
200
240
400
2S0
400
460
600
420
600
660
SOO
560
SOO
S80
VoRs
VoRs
VoRs
VoRs
Maximum Recurrent P~ak Reverse Vo~age
VRRM
Maximum RMS VoRage
VRMS
Maximum DC Blocking Voltage
Voc
Minimum Reverse Breakdown Vo~age at 5O!tA
VBR
Maximum Average Forward Recitilied Current
.375" (9.5mm) Lead Length at Tc - 55'C
ICAV)
Peak Forward Surge Current,
S,3.ms single sine-wave superimposed on
rated load (JEDEC Method) at Tc =55'C per leg
IFSM
Maximum Instantaneous Forward Tc=25'C
Tc a -65'C
VoRage at 15.7A per leg
VF
Maximum DC Reverse Current
Tc=25'C
at Rated DC Blocking Voltage
IR
Tc =100'C
Typical Junction Capacitance (Note 1)
CJ
Maximum Reverse Recovery Time(Note 2)TJ=25'C TRR
Dielectric With stand voltage (Note 3)
Maximum Junction Temperature TJ
TJ
Operating and Storage Temperature Range
Tc.TsTG
10,0
Amps
100
1.35
1.50
2.0
125
60
2.0
2S00
+175
-65 to +150
Amps
NOTES: 1 Measured at 1.0 MHz and applioed reverse voltage of 4.0 Voc.
2. Reverse Recovery Test Conditions: IF = 0.5A. IR = 1.0A. Irr = 0.25A.
3. Measured between metal case to terminal with a 10 11 A maximum leakage limit.
-46-
JAN
469-01
VoRs
IIA
pI
lIS
VoRs
'C
'C
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX M19500 1469-01 THRU 1469-04
100
FIG. 2 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERlsnCS PER
BRIDGE ELEMENT
50
FIG. 1 - DERATING CURVE FOR
OUTPUT REcnFlED CURRENT
10
~
v
0
l"-..
"""-
~ffl
offi
u..a.
z
:><
0...UJz
1,0
~~
0,5
ZUJ
r\.
f,o
/
~
l\
100
50
I
s
I
,01
II
.6
.8
---' -
~i'-i'-
THOe
TJ
BO
60
f,
40
0
Z
U
=2
<
~
00
~~
1.6
1,0
-
-
T, - 125°C
~~-
C
f,a:
~!5
-0
0,1
t--....
it
0
UJ(I)
(l)UJ
a:
a:
UJUJ
>a.
UJ::;:
a:<
000
:>a:
200
"-
1.4
i--""'"
50"C
l,....--' ~
100
50
20
T,-
10
FIG. 5 - TYPICAL JUNCTION CAPACITANCE PER
BRIDGE ELEMENT
W
1.2
100
NUMBER OF CYCLES AT go Hz
100
1.0
20
I" 1 M~z
VSIO = Om
0,4
.-fo"""
......
T,- 5°C
p-~M
10
0,1
1.8
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
-t-
·c
10
u..
300, S
IcLE
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
PER BRIDGE ELEMENT
8.3msSI GLEH LF
;~~~~~
"c'
,05
150
125
T,
25 C
2%01)
CASE TEMPERATURE, 'C
r-..
T,
0,1
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT PER BRIDGE
ELEMENT
--- -
I
(I)
pAr
ISTI EO IN UC VE
5,0
(I)::;:
1\
~~
"
10
Q:
1,0
,10
40
80 100
REVERSE VOLTAGE, VOLTS
,01
1---
20
40
60
80
100
120
140
PERCENTAGE OF PEAK REVERSE VOLTAGE
-47-
2.0
POWER
SEMICONDUCTOR
DIVISION
IN~
JAN AND JANTX 1N6113 THRU 1N6130
BI·DIRECTIONAL TRANSIENT VOLTAGE SUPPRESSORS
VOL TAGE . 20 to 100
1,.033
(.838)
.026 (.68)
.185 (4.70)
1.40 (3.56)
Dimensions in inches
and
(millimeters)
POWER· 500 Watts Peak
FEATURES
MECHANICAL DATA
• Qualified to MIL-S-19500/516A
• High temperature metallurgically
bOnded-glass passivated cavity-free
junction """.,.
.Voidless
~
hermetically sealed
.
glass package
• Low zener impedance
• Fast response time: typically less
than 1.0ps from 0 volts to BV min.
• Excellent clamping capability
• High temperature soldering guaranteed 350'C/1 Oseconds/.375"
(9.5mm) lead length/5Ibs., (2.3kg)
tension
case: One piece glass, hermetically sealed
Terminals: Plated Axial
leads, solderable per MIL-STO202, Method 208
Polarity: No marking with bidirectional devices
Mounting Position: Any
Weight: .02 ounce, .56 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave 60 Hz, resistive or inductive load.
OPERATING AND STORAGE TEMPERATATURE·65 to +1 75'C
Braakdown
VoHag.
Typo
@"
MIn
(Noto I)
J and JTX, JV1N6113
J and JTX, JV1N6114
J and JTX, JVl N6115
J and JTX, JV1N6116
J and JTX, JV1N6117
J and JTX, JV1N6118
J and JTX, JV1N6119
J and JTX, JVl N6120
J and JTX,JV1N6121
J and JTX, JVl N6122
J and JTX, JVl N6123
J and JTX, JV1N6124
J and JTX, JVl N6125
J and JTX, JVl N6126
J and JTX, JVl N6127
J and JTX, JV1N612B
J and JTX, JV1N6129
J and JTX, JV1N6130
Max DC
Power
Dissipation
TL=7S'C
(Noto2)
Toat
Currant
Mulmum
PoakSurgo
Currant
@Iml
(Note 3)
Isu
2S'C
IA
API<
IIA
VA
VoftS
17.2
15.7
14.4
12.8
11.5
10.4
9.6
6.9
8.1
7.4
6.8
6.2
5.6
5.1
4.6
4.2
3.8
3.5
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
15.2
16.7
18.2
20.6
22.8
25.1
27.4
29.7
32.7
35.8
38.8
42.6
47.1
51.7
56.0
62.2
69.2
76.0
V..
Vofts
WATTS
mA
"
V..
VPK
18.0
19.8
21.6
24.3
27.0
29.7
32.4
35.1
38.7
42.3
45.9
50.4
55.8
61.2
67.5
73.8
Bl.9
90.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
65
60
50
50
40
40
30
30
30
25
25
20
20
20
20
15
15
12
29.0
31.9
34.8
39.2
43.6
47.9
52.3
56.2
62.0
67.7
73.5
80.7
89.3
9B.0
108.1
llB.l
131.1
144.1
PO
NOTES:
1. Breakdown Voltage Tolerance with no Suffix is + /-10%.
2. Lead Lengths of .375" (9.5mml.
3. Surge Current waveform per Figure 3 and Derate per figure 2.
-48-
Maximum
Tempuatura
Coefflcl.nt 01
VIA
Maximum
Peak ourg.
IIlml
IIA
%/"C
WATTS
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
.085
.085
.090
.090
.090
.095
.095
.095
.095
.095
.095
.095
100
100
100
100
100
100
500
500
500
Maximum
Leakage
current
@T..
Maximum
PoakSurgo
VoHage
@lml
ISO'C
IA
.....
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N6113 THRU 1N6130
FIGURE 2 FIGURE 1 -
PULSE RATING CURVE
100
"Xl
~
oc
W
u..
0t1I'Z
~~
1l'lill''l''JC
10
~ ~
~
0-
«
'"
ei
r\.
'\
'\
50
-'0-
W
0-
0-
~
75
,,0:
Z::J
_u
';{oc
ocO
Wo:
OW
W;s:
U)O
PULSE DERATING CURVE
II
~~
1.0
~~
"'w
~O-
1\
25
'\
0-
10x1
a,d
~:.:
25
0.1
10ttS
1.0.... 5
I
r\.
'\
R.E.A
50
10ms
1.Oms
100.,..5
lorm
75
100
125
150
175
200
TA AMBIENT TEMPERATURE (OC)
tp. PULSE WIDTH
FIGURE 3 -
,
10-
J'
11'
I
tZ
W
100
"
0:
0:
::J
W
U)
::J
U
-'
It'"
0-
'"
W
«
1'--'1
cu"
....., v.,ue
Z
Oou
~ uec~
aue
I-
I"..
.....
0
iii
U)
CU)
o:tw\;(
.......
-'
2.25
1.5
~:;:
=
~~'v
0-
10x1
asue
W
U)
w
>
W
~ lorm
,,~uy
MAXIMUM CONTINUOUS POWER DISSIPATIOI
3.0
~
"-
0-
FIGURE 4 -
T ~ ~"C
r -
.Puls< ~
aslh tpoint ~elh peak
ec
'" 10
"-
50
PULSE WAVEFORM
0:
'.C"
.........
,75
'"
4JJ
50
TYPICAL REVERSE CHARACTERISTICS
10
Wu)
CIlw
Ww
--
0:0:
>0-
~p;
§1
1.0
u)C§
::Ja:
@S::?
.4
z:2
t-Z
ZW
0.1
U)::J
,04
«f-'
«0:
1-'0:
~U
.01
~
20
40
75
"
100
"-
125
LEAD TEMPERATURE. °C
T TtME(ms)
AGURE 5 -
~
RESIST fiE OR
INDUe [VELDA
0.375" .5mm)L AD LEN THS
0:
3.0
2.0
........
PHASE
WE
25
1,0
1'0...
60
80
100
120
PERCENT OF RATED BREAKDOWN VOLTAGE
-49-
140
"~
150
175
POWER
SEMICONDUCTOR
DIVISION
INsr~
JAN AND JANTX 1N6113A THRU 1N6130A
BI-DIRECTIONAL TRANSIENT VOLTAGE SUPPRESSORS
VOL TAGE - 20 to 100
POWER - 500 Watts Peak
FEATURES
I'
.033 (.838)
.026 (.68)
.140 (3.56)
.085 (2.16)
Dimensions in inches
and
(millimeters)
MECHANICAL DATA
• Qualified to MIL-S-19S00/S16A
• High temperature metallurgically
bonded-glass passivated cavity-free
junction",
• Voidless
~"'''~
hermetically sealed
~~
glass package
"'"".
• Low zener impedance
• Fast response time: typically less
than 1.0ps from 0 volts to BV min.
• Excellent clamping capability
• High temperature soldering guaranteed 3S0·C/1 Oseconds/.37S"
(9.Smm) lead length/Sibs., (2.3kg)
tension
Case: One piece glass, hermetically sealed
Terminals: Plated Axial
leads, solderable per MIL-STD202, Method 208
Polarity: No marking with bidirectional devices
Mounting Position: Any
Weight: .02 ounce, .S6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified.
Single phase, half wave 60 Hz, resistive or inductive load.
OPERATING AND STORAGE TEMPERATATURE -65 to +17S'C
Typo
J and JTX, JV1N6113A
J and JTX, JV1N6114A
J and JTX, JV1N6115A
J and JTX, JV1N6116A
J and JTX, JVl N6117A
J and JTX, JV1N6118A
J and JTX, JV1N6119A
J and JTX, JV1N612OA
J and JTX, JV1N6121A
J and JTX, JV1N6122A
J and JTX, JV1N6123A
J and JTX, JV1N6124A
J and JTX, JVl N6125A
J and JTX, JVl N6126A
J and JTX, JV1N6127A
J and JTX, JV1N6128A
J and JTX, JVl N6129A
J and JTX, JV1N6130A
B"akdown Max De
Power
VOIiaSI
@II
Dissipation
Min
TL=75'C
(Hotel)
(Hote2)
Test
Currlnt
Maximum
PoakSurge
Voll8ga
@lms
Mllimum
Polk SII'SO
Cur"nt
@1m.
(Hole')
VB.
Volts
PD
WATTS
II
mA
V...
V..
IsM
API<
19.0
20,9
22.8
25.7
28.5
31.4
34.2
37.1
40.9
44.7
48.5
53.2
58.9
64.6
71.3
77.9
86.5
95.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
65
50
50
50
40
40
30
30
30
25
25
20
20
20
20
15
15
12
27.7
30,5
33.3
37.4
41.6
45.7
49.9
53.6
59.1
64.6
70.1
77.0
85.3
97.1
103.1
112.8
125.1
137.6
18.0
16.4
15.0
13.4
12.0
10.9
10.0
9.3
8.5
7.7
7.1
6.5
5.9
5.1
4.8
4.4
4.0
3.6
NOTES:
1. Breakdown Voltage Tolerance with Suffix A is + 1-5%: '
2. Lead Lengths of .375" (9.5mm).
3. Surge Current waveform per Figure 3 and Derate per figure 2.
-50-
Maximum
Lelkego
Maximum
Tlmpo"lu"
CotIIllcl.nt of
Maximum
Poaksulllo
111m.
pA
%l"C
WATTS
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
.085
.085
.090
.090
.090
.095
.095
.095
.095
.095
.095
.095
100
100
100
100
100
100
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
current
VBA
@T..
25'C
I.
pA
V.
Volts
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
15.2
16.7
18.2
20.6
22.8
25.1
27.4
29.7
32.7
35.8
38.8
42.6
47.1
51.7
56.0
62.2
69.2
76.0
150'C
I.
.....
MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N6113A THRU 1N6130A
FIGURE 2 FIGURE 1 -
PULSE RATING CURVE
100
~
a:
w
0>.,.Z
Zw
_0:
~o:
25
0:0
wo:
Ow
50
"'w
25
~25
--'0~~
'"
«
w
0..
ci
"" '\
75
~3
10
0..
0..
f'-
L!-
100 _ _. . .
1.0
~O-
PULSE DERATING CURVE
t,
'\
1Ox1
OWav form
"
asd ined b R.E.A.
~
0.1
O.1.,.s
10.... 5
1.011-5
100J,LS
1.0ms
~
W
10ms
@
~
~
l-
~
.,.
I
>Z
W
0:
0:
::>
0
w
~
::>
PULSE WAVEFORM
T
,
=:
FIGURE 4 -
5"C
3.0
Jws. ~
ec
10
~
lis.
100
It""'""
'\.
~~:~~
aUB
"""a
au.
50
~
0..
'"«w
.....
0
~
2.25
0:>-
-=
w\i:
"-
r--
........
2.0
1.0
1.5
25$:
SINGLE PHASE
HALF~ WE
0-
w
C/)
0:
w
>
W
0:
IOOWa form
=u. I".u uy 1"'"
10 xl
~
a.
f4-t
Z
CvU
1.0
C/)
OC/)
"-
75
25
4.0
50
TYPICAL REVERSE CHARACTERISTICS
10
wC/)
"'w
0:0:
Ww
T
>0-
tl!::;:
",(5
::>0:
00
wZ::;:
«f-'"
>-Z
zw
~~
"'::>
~O
1
1.0
.4
0.1
.04
.01
--
20
40
'"I"
I'..
75
100
125
LEAD TEMPERATURE, "C
T, TIME (ms)
FIGURE 5 -
""
RESIST VEOR
INDUe IVElDA
0.375" .Smm)
AD LEN THS
......'"3.0
200
MAXIMUM CONTINUOUS POWER DISSIPATIOI
~
"'-
as th tpoint hereth peak
".uoca
1~
TA AMBIENTTEMPERATURE (OC)
tp, PULSE WIDTH
FIGURE 3 -
I
I\-
0..
60
80
100
120
PERCENT OF RATED BREAKDOWN VOLTAGE
-51-
140
......
~
150
175
-52-
SCHOTTKY RECTIFIERS
0.6 TO 40 AMPERES
- - - - - - - INs&~ ....
-53-
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
-54-
I
I
I
I
I
I
I
I
I
I
LOW CURRENT AXIAL SCHOTTKY RECTIFIERS
TYPE
PACKAGE
IO(A)
VR=20(V)
VR-30(V)
VR·40(V)
VR=50(V}
VR060(V)
VR-90(V)
Vllo100(V)
SB020
thm
SB120
1N5817
1N5820
SB520
thm
thm
thm
SB040
SB1100
1N5819
SB3100
1N5822
SB5100
MPG06
0.6
5B02O
5B03O
8B04O
1)().41
1.0
5B12O
5B13O
8B14O
8B15O
8Bl60
5Bl90
581100
00-41
1.0
lN5617
lN5618
lN5619
00-201 AD
3.0
5B320
88330
8B34O
88350
5B360
S8390
883100
D0-201AD
3.0
lN5620
lN5621
lN5822
DO-201AD
5.0
5B52O
5B530
5B54O
8B55O
8B560
SB590
8B5100
SB320
thm
I
MEDIUM CURRENT SCHOTTKY RECTIFIERS
SINGLE RECTIFERS
TYPE
PACKAGE
BARRIER
HEIGHT
IO(A)
VR=30(V)
VR-35(V)
VR=4D(V)
VR=45(V)
VR=(50(V)
VR·60(V)
VR=90(V)
VR=l00(V)
SBLF1030
SBL1030
thm
thN
MBRF760
MBR735
thm
MBR760
SBLF1040
SBLf040
T0-22O
ITO-220
T0-220
1T0-220
TO-220
IT0-22O
LOW
5.0
SBL530
HIGH
7.5
HIGH
7.5
LOW
10.0
8BLF103O
LOW
10.0
SBL1030
HIGH
10.0
MBRF735
MBR735
SBLF1040
SBL1040
SBLF530
SBL530
MBRF735
thm
thm
thm
SBLF540
SBL540
IT0-22O
LOW
5.0
SBLF530
8BLF54O
SBL540
MBRF745
MBRF750
MBRF760
MBR745
MBR750
MBR760
-55-
MBRFf03li MBR1035
thN
thN
MBRFf631
MBRf635
thm
thm
MBRF1661
MBRf660
T0-22O
ITO-220
TO-22O
HIGH
10.0
HIGH
16.0
HIGH
16.0
MBRF1035
MBR1035
MBRFl635
MBR1635
MBRF1045
MBRF1050
MBRF1060
MBRF1090
MBRF10l00
MBR1045
MBR1050
MBR1OBO
MBR1090
MBR10l00
MBRFl645
MBRF1650
MBRFl6BO
MBR1645
MBR1650
MBR1660
MBRF1010 MBR1Ofoo
-56-
MEDIUM CURRENT SCHOTTKY RECTIFIERS
DUAL RECTIFIERS
SlLFl3DCT 1IBLF103DCT SlLlD3DCT
/llru
TYPE
Ihru
/IJru
SBLFlffJCT IIBLF1DffJCT SBLlIJ4DCT
PACKAGE lTCl-22ooT
1T0022OOT
TO-220CT
BARRIER
LOW
HEIGHT
LOW
LOW
IO(Aj
5.0
10.0
10.0
VRo3OM SBLFS30CT SBLF1030CT SBL1030CT
VR035M
VR-40M SBLF540CT SBF1040CT SBL1040CT
VR-45M
VRo5OM
VR.sGM
VR.ooM
VR.l00M
I~
1IBRF1536CT IIBR1536CT SlLF163DCT SBLl63D IIBRF2D35CT IIBR2D36CT 1IB1IF2536CT
/llru
/llru
/IJru
Ihru
Ihru
/IJru
/IJru
1IBRF15811CT IIBR15IIJCT SlLF1B4DCT SBL16ffJCT IIBRFlID1/IIICT IIBR2D1DDCT 1IB1IF256DCT IIIBR2SIIDC
1T0022ooT
TO·22ooT
1T0·220CT
TO-22OOT
1T0-220CT
T0-22OCT
lTCl-22ooT
TO-220CT
HIGH
15.0
HIGH
15.0
LOW
16.0
SBLFl6300T
LOW
16.0
SBLl630
SBLFl640CT
SBL1640CT
MBRF1535CT MBR1535CT
HIGH
20.0
HIGH
20.0
HIGH
30.0
HIGH
30.0
MBRF2035CT MBR2035CT MBRF2535CT MBR2535C
MBRFl545CT MBR1545CT
MBRF1550CT MBR15SOCT
MBRF1560CT MBR1560CT
MBRF2045CT
MBRF2050CT
MBRF2060CT
MBRF2090Ci
MBRF20100CT
MBR2045CT MBRF2545CT MBR2545C
MBR2050CT MBRF2550CT MBR25500
MBR2050CT MBRF2560 MBR25600
MBR2090CT
MBR20100cT
MEDIUM CURRENT SCHOTTKY RECTIFIERS
.
DUAL RECTIFIERS CONT.
SlLF203DfIT SlI2tJ3Of1T SBLF3D3IIfIT SlL303DfIT
TYPE
/llru
Ihru
Ihru
Ibru
SBI.FI04DfIT SlI.2IJ4DIIT SBl.F3D4DfIT SBL3D4IfIT
PACKAGE
IT0-3P
TO-3P
1T0-3P
TO-3P
BARRIER
HEIGHT
LOW
LOW
LOW
LOW
IO(Aj
20.0
20.0
30.0
30.0
VR-3OM SBLF2030PT SBL2030PT SBLF3030PT SBL3030PT
VR-3SM
VR-40(V) SBLF2040PT SBl2040PT SBLF3040PT SBL3040PT
VR=45V)
VR-5O(V)
VR.SOM
IIBRF3D36PT 1IB1I3D35fIT
/llru
Ihru
1IBRF306DPT IIBII3D6IJfIT
IT0-3P
T0-3P
HIGH
30.0
HIGH
30.0
SD241P
TO·3P
HIGH
30.0
MBRF3035PT MBR3035PT
MBRF3045PT MBR3045PT
MBRF3050PT MBR30SOPT
MBRF3060PT MBR3060PT
-57-
IIBRF4D36fIT IIBR4II36PT
/llru
/ll1U
IIBR_fIT IIBIUMOfIT
IT0-3P
T0-3P
HIGH
40.0
HIGH
40.0
MBRF4035PT MBR4035PT
SD241P
MBRF4045PT MBR4045PT
MBRF«l50PT MBR4050PT
MBRF4060PT MBR4060PT
I
-58-
AXIAL PLASTIC
SCHOTTKY RECTIFIERS
.6 TO 5.0 AMPERES
_______
-59-
INsrIl.
W::;;
a:«
en-
TYPICAL JUNCTION CAPACITANCE
500
400
300
.01
10
TJ" 25°C
5
0.1
I-
en
0.4
1.0
1
40
80100
REVERSE VOLTAGE VOLTS
~
./
-'
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
.
FORWARD SURGE CURRENT
25
.001
20
"0
60
80
100
120
I I
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
20
15
10
~
........
r--- ~
r--..
10
~
20
NUMBER OF CYCLES AT 60Hz
-61-
llU
AT RATED Tl
8.3ms SINGLE HALF SINE·WAVE
JEDEC METHOD
I50
100
1 N5817 THRU 1 N5819
HIGH CURRENT SCHOTTKY BARRIER RECTIFIERS
VOL TAGE - 20 -40 Volts CURRENT - 1.0 Amperes
FEATURES
• Low cost
• Plastic package has Underwriters Laboratory
Flammability Classificaiton 94V-O
• Metal to silicon rectifier, majority
carrier conduction ""
• Low power loss,
"~,~,
high efficiency
"",-.
• High current capability,low VF
.~
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use in low voltage,high frequency inverters,
free wheeling, and polarity protection applications.
• High temperature soldering guaranteed: 250
'C/10 seconds/.375" (9.5 mm) lead lengths at
5 Ibs., (2.3 kg) tension
D0-41
f
1.0 (25.4)
.107(2.7)
.080(2.0)
MIN
.1
1+- !....205(5.2)
.160(4.1)
---±....-
t
1.0 (25.4)
IIIN
.034 (.86) •
.028 (.71)
!
+
MECHANICAL DATA
Dimensions in inches
and
millimeters
case: Molded Plastic
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounces, .34 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2S'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
1N5817
1N5818
1N5819
UNITS
VRRM
VRMS
VOC
20
14
20
30
21
30
40
28
40
Volts
Volts
Volts
'Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
'Maximum Average Forward Rectified Current
.375", 9.5mm Lead Length TL = 90'C
I(AV)
Peak Forward Surge Current, 8.3ms single
ha~ sine-wave superimposed on rated load
(JEDEC Method) TL - 70'C
Maximum Forward Voltage at 1.0A
Maximum Forward Voltage at 3.1A
'Maximum Average Reverse Current at
Peak Reverse Voltage TA_ 25'C
TA = 100'C
Typical Thermal Resistance (Note 1)
Typical Junction Capacitance (Note 2)
IFSM
VF
.45
VF
.75
IR
IR
R8JA
CJ
25
.55
.875
1.0
10
80
110
'Storage and Operating Temperature Range
TJ,TsTG
-65 to +125
NOTES:
1. Thermal Resistance Junction to Ambient Vertical PC Board Mounting, 0.5", 1.27mm Lead Length.
2. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
•JEDEC registered values
·62-
Amps
1.0
Amps
.60
90
Volts
Volts
mA
mA
'cm
pf
'c
RATINGS AND CHARACTERISTIC CURVES 1N5817 THRU 1N5819
flO. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
!zW
a::
a::
10
a
o
a::
~(I)
FIG. 1 - FORWARD CURRENT DERATINO CURVE
1.0
~~
II.~
~
.7&
\
SINGLE PHASE
HALF WAVE
110Hz
RESISTIVE OR
INDUCTIVE LOAD
.375" (8.5mm) LEAD LENGTH
20
40
110
110
1.0
(1)2
::l<
I
oW
Z
~
\
100
120
i
0.1
.3
.1
.5
.7
.8
1.1
1.3
1.5
1.7
1.8
INSTANTANEOUS FORWARD VOLTAGE •
VOLTS
140
LEAD TEMPERATURE. ·C
30
25
W
\!l(l)
FlO. 2 - TYPICAL REVERSE CHARACTERISTICS
a::w
::la::
20
C/lW
,
OIL
a:: 2
«
15
~..,:
a::Z
OW
II. a::
:.:a::
<::l
we..>
10
flO. 4 - MAXIMUM NON-REPETITIVE
SUROE CURRENT
I
a.3rna Singte H.n Sine-W..,.
JEDECMoeOOd
'"
.....
........
........ .......
IL
10
I- "'150
20
100
NUMBER OF CYCLES AT 60 Hz
'01~~
II.
Q.
u.i
e..>
Z
<
I(3
c(
0..
c(
REVERSE VOLTAGE
e..>
--
FlO. 5 - TYPICAL JUNCTION .CAPACITANCE
200
........ .....
100
110
110
TJ
I.
alc
""'" 1"10
40
20
10
0.1
0.4
1.0
10
REVERSE VOLTAGE. VOLTS
-63-
40
110 100
S8120 THRU S8160
MINIATURE SCHOTTKY BARRIER RECTIFIER
VOLTAGE RANGE - 20 to 60 Volts CURRENT - 1.0 Ampere
FEATURES
D0-41
-r
.107(2·~41
.080 (2.0)
1.0 (25.4)
MIN
1+ i
+
.20~5.2)
.160(4.1)
~
t
1.0(25.4)
.0341.86) ~ +
.028 (.m
MIN
I
..
• Low cost
• Plastic material used carries Underwriters Laboratory FlammabiHiy Classifications 94V-O
• Metal to silicon rectifier, majority
'~
carrier conduction
• Low power loss,
"',"~
high efficiency
~
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use in low voHage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250·C/10 seconds/.375" (9.5mm) lead
lengths/5Ibs., (2.3kg) tension
MECHANICAL DATA
Dimensions in inches
and
(millimeters)
CBse: Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD- 202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounces, .34 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS SB120
Maximum Recurrent Peak Reverse Vottage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.Smm) Lead Lenath See Fia. 1
Peak Forward Surge Current,
8.3ms single half sine-wave superimposed
on rated load (JEDEC Methodi
Maximum Instantaneous Forward Voltage
at 1.0A
Maximum Average Reverse Current at
TJ= 2S·C
Rated DC Blocking Voltage
TJ= 100·C
Maximum Thermal Resistance (Note 1)
Operating Temperature Range
VRRM
VRMS
Vrx;
Storage Temperature Range
TSTG
20
14
20
SB130
SB140
SB150
SB160
UNITS
30
21
30
40
28
40
50
35
50
60
42
60
Votts
Volts
Volts
ICAV)
1.0
Amps
IFSM
40.0
Amps
VF
IR
IR
ReJL
TJ
NOTES:
.70
.50
0.5
10.0
15
-65 to +125
-65 to +150
-65 to +150
1. Thermw Resistance Junction to Lead Vertical PC Board Mounting .375" (9.5 mm) Lead Lengths.
-64-
I 5.0
Volts
mA
mA
·CIW
·C
·C
RATINGS AND CHARACTERISTIC CURVES S8120 THRU S8160
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
tZ
UJ
~
FIG. 1 -
Z
UJ
a:
a:
1.0
U
.75
oen
a: UJ
~ ffi
.50
~~
w
.25
a: a.
S~I30
(!)
RESIS IVEOR
'~7~~~
«
a:
0
UJ
IVE L AD
50
25
>
«
EAO L NGTH
.5mm)
100
75
~f3
OUJ
S816
u.a.
en::'
:J«
125
1-
L'
a: a:
5815 thru
\ r\
\ \
S~140
-,' tI'"
a:
\
R170\
~
10
U
r\ r\
:J
20
a:
a:
:J
FORWARD CURRENT DERATING CURVE
1.0
J
j
;
p
58 20
58 40
0
UJ
z
«
tZ
150
«t-
175
en
0.1
~
LEAD TEMPERATURE, ·C
.1
.3
.5
~SE
.7
lOT
.9
: 30
1.1
%0
~s.
1.3
1.5
TV C ClE
1.7
1.9
2.1
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 38 - TYPICAL REVERSE CHARACTERISTICS
FIG. 3A - TYPICAL REVERSE CHARACTERISTICS
100
100
00'
~
~5C
10
All
0
~
TJ
,;' I/f
50~C
1.0
.10
...-
."
/
~
.0 1
;' ,#/
TJ = 25°C
/
/
-
"
sc,c
TJ
L
.00 1
.001
20
40
60
80
100
120
o
140
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
400
.-:
TJ = 25°
U.
200
ui
«
t-
O
«a.
«
u
100
80
80
40
:J
I
100
120
140
>T,
40
U
~cn
30
a:UJ
.....
80
50
:Ja:
40
60
Z
LLJ
a:
a:
1
--
t:::::1'"",
a.
U
Z
20
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
PERCENT OF RATED PEAK REVERSE VOLTAGE
~~
20
:;:
10
~~
...
a:
20
""'
>lGLE ALF 51 ~E
ETHO
3
E
......
"'"
...... ~
o
u.
x:
10
0.1
0.4
1.0
10
40
80 100
REVERSE VOLTAGE, VOLTS
-65-
li'a.i
4
6
B 10
20
40
60 80100
NUMBER OF CYCLES AT 60Hz
I
88190 AND 881100
MINIATUSRE SCHOTTKY BARRIER RECTIFIER
VOLTAGE RANGE -90 and 100 Volts CURRENT -1.0 Amperes
FEATURES
00-41
--r
1.0 (25.4)
.107 (2.7)
.080(2.0)
.1
1+
MIN
~
.205'5.2)
.160 (4.1)
-t.034 (.86).
.028(.71)
+
1.0 (25 .4)
MIN
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-0.
• Metal to silicon rectifier,
majority carrier con- ...."""_.•...
duction
.._
.~
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
I
+
Dimensions in inches
and
(millimeters)
MECHANICAL DATA
Case: 00-41 Molded Plastic
TermInals: Axial leads, solderable per
MIL-STD- 202, Method 208
Polarity: Color band denotes cathode
MountIng PositIon: Any
WeIght: 0.012 ounces, .34 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive loed. For capacitive load. derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum Average Forward RectHied Current
atTe= 135·C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0us. 1KHz)
Voltage Rate of Change. dv/dt (rated VR)
Maximum Forward Voltage (Note 1)
IF = 1A. TL =25·C
IF = 1A, TL = 100·C
Maximum Reverse Current at
Peak Reverse Voltage Tc = 100·C (Note 1)
Peak Reverse Voltage TL =25·C
Maximum Thermal Resistance.
Junction to Lead
Maximum Operating Junction Temperature
Maximum Storace Temperature
NOTES: 1. Pulse Test Pulse Width 300 liS. Duty Cycle 2%. 2. 2.0us.
-66-
VRRM
VRWM
Voc
SB190
S81100
90
64
90
100
71
100
UNITS
Volts
Volts
Volts
I(AV)
1.0
Amps
IFSM
50
Amps
IRSM
V/IlS
1.0
10
Amps
VlIlS
VF
0.79
0.69
Volts
IR
IR
5
.5
mA
mA
R8JL
Te
TSTG
15
-65 to +150
-65 to +175
·cm
1.0KHz.
·C
·C
RATINGS AND CHARACTERISTIC CURVES S8190 AND S81100
FIG. 2 -
o~
0
MAXIMUM NON-REPETITIVE
SURGE CURRENT
I
Tc = 95°C
HALF
JEDEC METHOD
la.3ms SINGLE
.....
r--.. r.... i""i'o
-............
.:
z
,
FIG. 1-FORWARD CURRENT DERATING CURVE
w
II:
II:
10
:;)
()
o
C/')
75
~~
~~ 50
W
5
W
>
«
50
10
- ..
I
100
20
NUMBER OF CYCLES AT 60 Hz
\
(!)
«
II:
5
\
II:W
«II:
---
10
SINE~WAVE
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
\
50
150
100
......
.:
z
W
II:
II:
CASE TEMPERATURE. 'C
:;)
()
TJ
0
2S'C/
"",
10
0
a:
«V)
i: w
a: a:
Ow
u.a.
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
100
0
=
TJ
W
150'C
C
/
V)::;;
:;)«
J
.10
Z
tZ
«
«
tV)
TJ:: 125°C
1.0
I
01
U
3
10
--
./
~
6
ff-
,7
, 0
TJ :: 75°C
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
./
i"'"
u.
~
0.
Z
«
t-
a.
,
~
T~ = 25°~
60
80
«
()
r-.
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
100
r--
r........
ao
60
40
-
r-
/'f"
40
200
W
«
20
1""'-1-..
()
0
00 l'
5
YCL
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
400
1
rT1
PULSE WIDTH'" 300 j.1S
j
~
./
140
I TJ =25°C
F= lMHz
20
IlnigoSOtl
10
0.1
0.4
1.0
2
10
REVERSE VOLTAGE. VOLTS
-67-
20
40
100
1N5820 THRU 1N5822
HIGH CURRENT SCHOTTKY BARRIER RECTIFIERS
VOLTAGE - 20 to 40 Volts CURRENT - 3,0 Amperes
FEATURES
• Low cost
• Plastic package has Underwriters Laboratory
Flammability Classificaiton 94V-O
• Metal to silicon rectifier, majority
carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications.
• High temperature soldering guaranteed: 250
'C/l0 seconds/.375" (9.5 mm) lead lengths at
5 Ibs., (2.3 kg) tension
DO-201AD
f
.210 (5.3)
r
.19~1~~·8)
1.0 (25.4)
LIj--LJ'-i ---ft- .315 (9.5)
~
1.0 (25.4J
T
.052 n.3J
.048 n.2)
MECHANICAL DATA
Case: Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Dimensions in inches
and
(Millimeters)
Polarity: Color band denotes cathode
MountIng PosItIon: Any
Weight: 0.04 ounces, 1.12 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTIS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
1N5820
1N5821
1N5822
UNITS
VRRM
VRMS
Voc
20
14
20
30
21
30
40
28
40
Volts
Volts
Volts
'Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
'Maximum Average Forward Rectified Current
.375", 9.5mm Lead Length TL = 95'C
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method) TL = 75'C
Maximum Forward Voltage at 3.0 (Note 1)
Maximum Forward Voltage at 9.4 (Note 1)
'Maximum Average Reverse Current at
Peak Reverse Voltage
TA= 25'C
(Note 1)
TA = 100'C
Typical Thermal Resistance (Note 2)
'Storage and Operating Temperature Range
I(Av)
IFSM
VF
VF
IR
IR
ReJL
TJ,TsTG
3.0
.475
.850
80
.500
.900
2.0
20.0
20
-65 to +125
NOTES:
1. Measured at Pulse Width 300I1·s. Duty Cycle 2%.
2. Thermal Resistance Junction to Lead Vertical PC Board Mounting, .375" (9.5mm) Lead Lengths.
'JEDEC registered values
-68-
Amps
.525
.950
Amps
vons
Volts
mA
mA
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES 1N5820 THRU 1N5B22
FIG. 3 - MAXIMUM NON-REPETITIVE
SURGE CURRENT
o~
70
~
W
~
CJU)
a:W
U)W
FIG. 1 - FORWARD CURRENT DERATING CURVE
w
a:
a:
4
tJ
3
~~
2
:::I
~~
8.3ml SINGLE HALF $INE·WAVE
~
JEDEC METHOD
:::I a:
"
00.. SO
a:~
w
HALF WAVE 80Hz
RESISTIVE OR
INDUCTIVE LOAD
.375" (9.5mm) LEAD LENGTH
~w
20
:c
40
60
a:Z
OW
... a:
:00: a:
\,
SINGLE PHASE
1
«
;:..:
~
OU)
f2~
80
120
100
I'
"-
30
.....
I
~"'"
20
1\
60
40
ti'i5
Q.
11 11
TL.JC
10
140
5
LEAD TEMPERATURE.·C
10
50
20
100
NUMBER OF CYCLES AT 60 Hz
FIG. 4 - TYPICAL FORWARD CHARACTERISTICS
20
~
TJ .. 25·C
Pulse Width = 3OOJ,J.I
Ht OutyCyc:le
1/
10
~lll
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
a: a:
U)~
I
:::1<
~
1==
~ ~TJ"OO'C ~
J
'~
@..:
~~
VJ
1.0
!zlf
;:5
U)
~
,
~ ...
It~~
I,'
lN58~::§
==
0.1
0.2
iii;
0.3
~0.4
0.5
0.8
FIG 5 -
.001
60
60
0.1
TJ
800
TJ" 75°C
TJ = 25·C
Pulse Wictth .. 300 J.I.'
2010 DUlr Cyel",
40
lN5822
0.8
TYPICAL JUNCTION CAPACITANCE
...
400
W
!OO
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
tJ
~
r-....
Z
;:
i3
<
Q.
<
tJ
=25'C
f""'oooo..
Q
20
~ lN5821
0.7
1000
800
~
~
INSTANTANEOUS FORWARD VOLTAGE
VOLTS
~
V
---
....
~
f2~
0
~
'00
80
80
20
10
0.1
.4
1.0
10
REVERSE VOLTAGE. VOLTS
-69-
40
100
S8320 THRU S8360
HIGH CURRENT SCHOTTKY BARRIER RECTIFIERS
VOL TAGE - 20 to 60 Volts
CURRENT - 3.0 Amperes
FEATURES
• Low cost
• Plastic package has Underwriters Laboratory
Flammability Classificaiton 94V-O
• Metal to silicon rectifier, majority
carrier conduction ""_
• Low power loss,
'''''<~
high efficiency
..
1IIIIIIIlJ,
• High current capability, low VF
- •••,,'_
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applica
tions.
• Guard Ring for transient protection
• High temperature soldering guaranteed: 250
·C/l0 seconds/.37S" (9.5 mm) lead lengths at
Sibs., (2.3 kg) tension
DO-201AD
.210 (5.3)
.190 (4.8)
DIA.
1
1.0 (25.4)
MIN.
L, I· 1
"'«,
t
.375 [9.5)
~
1.0 [25.4)
T
.0520.31
.0480.21
MECHANICAL DATA
Dimensions in inches
and
(millimeters)
case: Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounces, .34 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capecitive load, derate current by 20%.
SYMBOLS SB320
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
.375", 9.5mm Lead Length
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Forward Voltage at 3.0A
Maximum Average Reverse Current at
Peak Reverse Voltage
TA = 25'C
TA = 100'C
Maximum Thermal Resistance (Note 1)
Operating Temperature Range
Storage Temperature Range
VRRM
VRMS
Voc
20
14
20
SB330
SB340
SB350
SB360
UNITS
30
21
30
40
28
40
50
35
50
60
42
60
Volts
Volts
Volts
I(AV)
IFSM
VF
IR
IR
R8JL
TJ
TsrG
3.0
80
I
.50
.74
0.5
20.0
Amps
Volts
mA
mA
I
20
-65 to +125
10
I -65 to +150
-65 to +150
NOTES:
1. Thermal Resistance Junction to Lead Vertical PC Board Mounting, .375" (9.5 mm)Lead Length.
-70-
Amps
'cm
·C
·C
RATINGS AND CHARACTERISITC CURVES S8320 THRU S8360
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 1 -
FORWARD CURRENT DERATING CURVE
\
50
25
75
a: W
Oa:
/
Ll.~
en:::!:
::lc(
0
W
Z
c(
IZ
c(
Ien
175
150
LEAD TEMPERATURE, °C
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
10
,
3: en
\ \
125
1.0
-'"
I
, . ...
-"'"I-o~
~
z
V
I.01
~
~4
.001
20
40
60
D
.4
.5
.6.7
.9
1.0
600
400
Ll.
a.
ui
U
Z
c(
~~
TJ = 25"C
-
80
.3
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
0..
40
20
S8350 thru
56360
10
12Cl
~ ~"'"
100
$8320 thru
86340
100
TJ '" 25"C
I11III
80
60
a0..
W:::!:
1I:c(
en::l..J
~
'f
0.1
..
V
J
1.0
~
TJ - 125"C
","
V
10
a:
c(
f--
56360
100
I
0
1\
o
I
$8320 thru $9340
()
156350
THRU
"
RESISTIVE OR
INDUCTIVE LOAD
.375" 1j"5mm) lEAD LEtGTH
o
Z
W
II:
II:
::l
~\.
5632~
56330
88340
I-
._-
1 - 58320 thru 88340
S8350 thru S8360
I I111111
0.1
140
0.4
1.0
40 80 100
10
REVERSE VOLTAGE VOLTS
PERCENT OF RATED PEAK
REVERSE VOLTAGE
FIG. 5 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
W
(!len
a:W
::la:
enW
120
00..
90
3:~
60
II::::!:
c(c(
a:Z
OW
Ll.1I:
:.:a:
c(::l
wU
'"
I
.......
..... ~
I
II I
. AT RATED TL
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
~
30
- ......
r--
0..
10
20
NUMBER OF CYCLES AT 60Hz
-71-
50
100
S8390 AND S83100
SCHOTTKY RECTIFIER
VOLTAGE RANGE -90 and 100 Volts CURRENT -3.0 Amperes
FEATURES
DO-201AD
f
.210 (5.3)
.190 (4.8)
DIA.
1.0 (25.41
I~
~
LI
.375 (9.5)
1.0 (25.41
.052U.31
• 048U.21
l
..
Dimensions in inches
and
(millimeters)
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier con.....". . . ~I;:"
dUct"Ion
'~
• Low power
"-~
loss, high efficiency
".",
• High current capability, low VF
,.,.",.•
• High surge capacity
• Epitaxial construction
• For use in low voHage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
..
MECHANICAL DATA
Case: DO-201AD Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD- 202, Method 208
Polarity: Color Band denotes cathode
Mounting Position: Any
Weight: .04 ounces, 1.1 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS
SB3!IO
SBS100
Maximum Recurrent Peak Reverse Voltage
MaxImum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc.. 135·C
Peak Forward Surge Current
8.3ms single han sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0us, 1KHz)
Voltage Rate of Change, dv/dt (rated VR)
Maximum Forward Voltage (Note 1)
IF =3A, TL = 25·C
IF" 3A, Tc =100·C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc .. 100·C (Note 1)
Peak Reverse Voltage Tc .. 25·C
Maximum Thermal Resistance,
Junction to Lead
Maximum Operating Junction Temperature
Maximum Storage Temperature
VRRM
VRWM
Voc
NOTES: 1. Pulse Test Pulse Width 300 jlS, Duty Cycle 2%.
-72-
90
64
90
100
71
100
UNITS
Volts
Volts
Volts
I(AV)
3.0
Amps
IFSM
150
Amps
IRsM
1.0
1000
Amps
VlILS
VF
0.79
0.69
Volts
IR
IR
.6
0.1
mA
mA
R9JL
Tc
TSTG
10.0
-65 to +150
-65 to +175
·cm
VlILS
·C
·C
RATINGS AND CHARACTERISTIC CURVES S8390 THRU S83100
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
40
FIG .. , - FORWARD CURRENT DERATING CURVE
,
50
75
Z
UJ
0:
0:
:>
883100
8B390
()
tOO
125
10
C
0:
«
't\.\
RESISTIVE OR
INDUCTIVE LOAD
.375" (9.5mm) LEAD LENGTH
25
I-
:ten
o:UJ
i0oi'"
/
00:
u.~
1/
en::;:
150
:>«
0
1.0
I
UJ
175
Z
«
LEAD TEMPERATURE. ·C
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
I-
~
Z
«
TJ ' 25"C
I-
10
en
~
0.1
PULSE wrOTH. 3OO~s1% DUTY CYCLE
'/
.2.3.4.5.6.7
V
TJ = 125°C
~
Z
UJ
7
1.0
0:
0:
:>
FIG. 4 - TYPICAL JUNCTION CAPAICTANCE
()
UJ en
enUJ
UJUJ
>a. 0.1
UJ::;:
883100
SB390
z
I-
Q.
ui
1/
l...,.oo' V
«
200
....
.... TJ'25"C
()
Z
«
I-
TJ = 25°C
0
.01
«
a.
I-
en
«
~
100
eo
60
40
()
~
20
.001
~
20
,..
u.
7
O='
UJ::;:
,...
400
TJ = 75°C
0:«
en:>--'
Z
1000
BOO
600
1..1
0:0:
«
.8.91.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
S83100
SB390
io""
10
40
60
80
100
120.
140
0.1
0.4
1.0
40 80100
10
REVERSE VOLTAGE VOLTS
PERCENT OF RATED PEAK
REVERSE VOLTAGE
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
0
'"
0
........
t--.
~
10
SINE~W AVE
r- r--1"20
NUMBER OF CYCLES AT 60Hz
-73-
II I
AT RAJO Tl
8.3ms SINGLE HALF
JEOEC METHOD
50
100
S8520 THRU S8560
HIGH CURRENT SCHOTTKY BARRIER RECTIFIERS
CURRENT - 5.0 Amperes
VOL TAGE - 20 to 60 Volts
FEATURES
DO-201AD
• Low cost
• Plastic package has Underwriters Laboratory
Flammability Classificaiton 94V-O
• Metal to silicon rectifier, majority
carrier conduction
• Low power Ioss~.....
f
.210 (5.31
.190 (4.81
OIA.
1.0 (25.41
LI
T'
1+
•
High surge capacity
"'~"
Epitaxial construction
Guard Ring for transient protection
For use in low voltage, high frequency inverters,
,free wheeling, and polarity protection applications.
• High temperature soldering guaranteed: 250
'C/10 seconds/.375" (9.5 mm) lead lengths at
5 Ibs., (2.3 kg) tension
.375 (9.51
•
•
•
•
+
1.0 (25.4)
.05211.31
.04811.21
T'
+
~i~~ ~~~~~~~apab::~_~.",
10WVF
t
MECHANICAL DATA
Dimensions in inches
and
(millimeters)
case: Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounces, .34 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%
SB530
SB540
SB550
SB560
UNITS
Maximum Recurrent Peak Reverse Voltage
VRRM
20
30
40
50
60
Volts
Maximum RMS Voltage
VRMS
14
21
28
35
42
Volts
Maximum DC Blocking Voltage
Vee
20
30
40
50
60
Volts
Maximum Average Forward Rectified Current
.375", 9.5mm Lead Length TL = 90'C
I(AV)
SYMBOLS SB520
Peak Forward Surge Current, 8.3ms single
haij sine·wave superimposed on rated load
(JEDEC Method) TL • 70'C
Maximum Forward Voltage at 5.0A
Maximum Instantaneous Forward Voltage at
DC Blocking Voltage
TA=25'C
TA = 100'C
Maximum Thermal Resistance (Note 1)
Operating Temperature Range
Storage and Operating Temperature Range
IFSM
VF
5.0
Amps
150
.55
IR
IR
0.5
50.0
Amps
.67
Volts
25.0
mA
mA
R8JL
15
10
'CNI
TJ
-65 to +125
-65 to +150
'C
TJ,TsTG
·65 to +125
NOTES:
1. Thermal Resistance Junction to Lead Vertical PC Board Mounting, .375' (9.5mm) Lead Length.
-74-
'C
RATINGS AND CHARACTERISTIC CURVES S8520 THRU S8560
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
300
250I
W
(!l(/)
W
a:
200
:::Ja:
(/)W
~
zw
a:
a:
:::J
o
FIG. 1 - FORWARD CURRENT DERATING CURVE
"-
4.0
O(/)
a:W
<{ a: 30
5 52
~~
5 54
2~
W
(!l
<{
a:
W
~
"
~
2.0
1.0
150
~~[
_~r ,lli]
",( 5mlnl
VE R
LE GT
ell E OA
3:~
~
5
50
5
60
a::
Z
...............
100
OW
AT RATED TL
20
40
60
80
8.3ms SINGLE HALF SINE·WAVE
JEDEC METHOD
~§
50
wO
0..
1'\
~
100
50
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
LEAD TEMPERATURE. °C
~
Z
40
W
a:
a:
:::J
~
~
10
, ..
~(/)
a: W
aa:
~
u.~
W
z
~
""r'
..." ~
10
z<{
,.
~
(/)
~
-
W(/)
(/)W
pi ;';F
j
J
0,1
.2
.3
l
DUTY FYCLE
"
.4
.5
.6
.7
.8
.9
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
L
a: a:
./
Ww
>0..
W::;;
S855 thru
S856
L I
(/)::;;
<{
0
a:<{
k?
\
:::J<{ 1.0
a
~
a:
a:
:::J
.--
a:
=
z
W
0
10
0
~
till..hn
58
0
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
20
100
NUMBER OF CYCLES AT 60Hz
150
120
20
10
"- ['\
o
---
I'- too.....
u.a:
"-
o
~
~~
<{<{
5.0
V
lL
.10
CIl-
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000
:::J--'
O:::!
W::;;
z
J.
<{
~
~
Z
<{
~
CIl
fIIII'~
.01
V
Il1"'"
2000
TJ = 5"C
u.
W
1000
() 800
Z
600
~
25" C
....
1-
c.
<{
.001
---20
5
.......
400
<{
5B5
0..
-5B5 0
<{
o
5B5 p-5B 60
----I'"
200
-
100
40
60
80
100
120
5
55
0
-
-..,;; ~
Iii;
0
140
0.1
PERCENT OF RATED PEAK REVERSE
VOLTAGE
0,4
1,0
10
REVERSE VOLTAGE. VOLTS
-75-
40
80 100
I
S8590 AND S851 00
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 90 and 100 Volts CURRENT - 5.0 Amperes
FEATURES
DO-201AD
1
L, ,~
.21015.3)
.19014.8)
oiA.
1.0125.4)
.37519.5)
.285f·2)
1.0 125.41
T
.05211.31
.04BU.2)
Dimensions in inches
and
(millimeters)
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
~ __
• Low power
~
loss, high efficiency
" ' , ' __
• High current capability, low VF
-.""
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
"""-,
MECHANICAL DATA
case: DO-201AD Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD- 202, Method 208
Polarity: Color Band denotes cathode
Mounting Position: Any
Weight: .04 ounces, 1.1 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS
S85IIO
SB5111tJ
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
at .375" (9.5 mm) lead length, see fig. 1
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0us, 1KHz)
Voltage Rate of Change, dv/dt (rated VR)
Maximum Forward Voltage (Note 1)
IF - 5A, TL - 25'C
IF = 5A, Tc = 100'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc -100'C (Note 1)
Peak Reverse Voltage Tc - 25'C
Maximum Thermal Resistance,
Junction to Lead
Maximum Operating Junction Temperature
Maximum Storage Temperature
VRRM
VRWM
Voc
NOTES: 1. Pulse Test Pulse Width 300 lIB, Duty Cycle 2%.
-76-
90
64
90
100
71
100
UNfTS
Volts
Volts
Volts
I(AV)
5.0
Amps
IFSM
150
Amps
IRSM
V/IJ.S
1.0
1000
Amps
V/jJ.S
VF
0.79
0.69
Volts
IR
IR
20.0
0.6
mA
mA
R8JL
Tc
TSTG
15.0
-65 to +150
-65 to +175
'cm
·C
·C
RATINGS AND CHARACTERISTIC CURVES S8590 AND S85100
FIG. 3 -
MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
300
B.3ms
SIN~LE H~LF ~'N~-';A~E'
JEDEC METHOD
FIG. 1 ~
zW
a:
a:
::l
U
,
FORWARD CURRENT DERATING CURVE
5.0
,
4. 0
\
0
0
,
TJ :; 12S"C
200
150
100
wU
r-......... r--....
o
50
100
130
5
Tc ~ '25'C
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~CI)
a: W
Oa:
LL!t'
CI)::;
::l«
0
W
Z
«
fZ
«
= 1==
~~
5~
W::;
V
1.0
fCI)
01
0.1
0.2
0.3
I
~t~ir~IDTH = 300 ~s 2% DUTV CYCLE
0.4
0.5
06
0.7
0.8
09
, 0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
~
0'
FIG. 5 -
TYPICAL JUNCTION CAPACITANCE
4000
z
~
z
«
f-
-'
~
ffiffi
Gj ~
10
a:
U
~t1
100
50
.JI' i"""
~
,......,
.. Ll.L_
50
f-
'0
1.0
1
20
Z
W
a:
a:
::l
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
W
10
NUMBER OF CYCLES AT 60Hz
U
0
~
Z
!
Uillii
.+ t ++1
---
50
150
CASE TEMPERATURE. 'C
a:
a:
::l
I
I
-I"-
0..
\
0
o
W
(!)(/)
a:W
::la:
Cl)W
00..
a:::;
««
~~
a:Z
OW
LLa:
:.:a:
«::l
250
Tc~75'C-
l/
l-
C-
.0'
U
CI)
Z
LL
.,.
~
Tc:; 25"C
Z
«
i3
600
«
0..
«
I
, /V'
TJ'" 2S"C
1000
f-
."...
2000
ui
)
U
BOO
400
~
200
.00
~o
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140
100
0.1
0.4
10
10
REVERSE VOLTAGE. VOLTS
·77·
"" ,,~
40
80100
I
-78-
MEDIUM CURRENT
SCHOTTKY RECTIFIERS
5 TO 40 AMPERES
SEE
NEW
ISOLATED
PACKAGES
~
...._ _ _ _ _ _
-79-
INsr,,-
e
«
I-
~
0
W::;:
a:«
CIl::l--'
o:::!
W::;:
z
«
Iz
«
ICIl
Tc = 1000
10.0
0.1
0.2
0.3
0.4
0.5
.6
0..7
0.8
0.9
-
1.0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
1.0
FIG_ 5 - TYPICAL JUNCTION CAPACITANCE
4000
Tc = 75°C
i"...o-'
0.1
u..
2000
0
1000
«
800
(3
800
a.
ui
)
Z
I-
~
V.01
1/V"
20
40
....
60
Tc:: 25°C
t--
I
80
100
«
".0;:
0
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
TJ = 25°C
400
200
""'" .....1'
140
100
0.1
0.4
1.0
10
REVERSE VOLT AG E, VOLTS
-81-
l
I
200
NUMBER OF CYCLES AT 60Hz
1.0
>
«
W
C!l------t...:.
STRNDARD POLARITY PIN 2 - ~CASE
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25 M , (6.35mm) from case
• Guard Ring for transient protection
MECHANICAL DATA
Case: TO-220 Molded Plastic
Terminals: Solderable per
MIL-STO-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram.
Dimensions in inches
and
(millimeters)
CROSS REFERENCE GUIDE
GI
SBL530
SBL540
FUJI
SHINDENGEN
S5S3M
S5S4M
ERC80-004
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
atTc-114'C
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage at 5.0A,
Tc ~ 25'C (Note 2)
Maximum Average Reverse Current at Tc • 25'C
Rated Peak Reverse Voltage (Note 3)Tc - 100'C
Typical Thermal Resistance (Note 1)
Operating and Storage Temperature Range
SYMBOLS
SBL530
SBL540
UNITS
VRRM
VRMS
Voc
30
21
30
40
28
40
VoRs
VoRs
Volts
I(AV)
5.0
Amps
IFSM
175
Amps
VF
.55
0.5
33.0
3.0
-40 to +125
Volts
IR
R8JC
TJ,TsTG
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 lIS Pulse Width, 2% Duty Factor.
-82-
mA
'cm
'c
RATINGS AND CHARACTERISTIC CURVES SBL530 AND SBL540
FIG. 3 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
300
W
0(1)
a:w
::Ja:
",W
00.
a:::;:
FIG. 1 - FORWARD CURRENT DERATING CURVE
~
zW
,
5.0
a:
a:
::J
~
4.0
U
0'"
a: W
~ffi 3.0
a: 0.
o
~
a:z
OW
u..a:
~a:
<::J
wU
0.
,
<
1.0
o
50
100
TJ
=:
125°C
200
150
..........
r--.... ~ t'-o
100
r-- r-
50
5
10
1-"",
2Q
50
100
NUMBER OF CYCLES AT 60Hz
1
o
8.3ms SINGLE HALF SINE-WAVE
IEDEC METHOD
,
:;:~
~
12~ 2. 0
W
ffi
«
250
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
,
130
-
50
CASE TEMPERATURE. 'C
I'-
Z
W
a:
a:
::J
U
o
a:
"..
V
1~
<
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
,
~ffJ
I
Oa:
100
u..~
L
"'::;:
o::J<
1.0
W
Z
~
Z
<
ti;
~
Z
W
a:
a:
::J
U
w'"
"'w
a: a:
Ww
>0.
W::;:
a:<
::J..J
O::!
W::;:
z
<
Tc = 10Doe
10.0
-
0.1
0.2
25°C
==
PULSE WIDTH ~ 300 ~s
2% DUTY CYCLE
0.3
0.4
0.5
.6
0.7
0.8
0.9
1.0
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
1.0
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000
I
To - 75°C
u..
"..,...
a.
ui
I'-
~
TJ
I
0.1
"'Z
I
~
J
0.1
U
<
Z
'"~
,
I'Tc
=25°C i-'-
.",
.01
./
~
'-0
40
60
80
tOO
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
(3
<
0.
<
U
2000
TJ = 25°C
1000
BOO
BOO
, ,
400
200
.....
140
100
0.1
0.4
1.0
10
REVERSE VOLTAGE. VOLTS
-S3-
40
80100
I
SBLF530CT AND SBLF540CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts CURRENT - 5.0 Amperes
FEATURES
ITO-220 CT
13 •• 008
(3.3 '0.21
• Isolated Plastic package has Underwriters
Laboratory Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
PIN1~N2
PIN3~ -
Dimensions in inches
and
(millimeters)
Case: ITO-220 Molded Plastic
Terminals: Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25 'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20"k.
Maximum Recurrent Peak Reverse Vottage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single
haW sine-wave superimposed on rated load
_(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF = 2.5A,Tc = 25'C (Note 2)
Maximum Average Reverse Current at Tc = 25'C
Rated DC Blocking Voltage per element TC-100'C
Typical Thermal Resistance (Note 1)
SYMBOLS
SBLF530CT
VRRM
30
SBLF540CT
40
UNITS
Volts
VRMS
Voc
21
30
28
40
Volts
Volts
IIAV)
5.0
Amps
IFSM
100
Amps
VF
.55
0.5
33.CJ
3.5
Volts
-40 to +125
-40 to+150
'0
'0
IR
R8JC
Operating Temperature Range
Storage Temperature RanQe
Tc
TSTG
NOTES:
1. Thennal Resistance from Junction to Case psr element.
2. 300 jlS Pulse Width, 2% Duty Factor.
-84-
mA
'C/w
RATINGS AND CHARACTERISTIC CURVES SBLF530CT AND SBLF540CT
FIG. 3 -
MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
120
SIN~-~~V~
83m' SINGLE HALF
JEDEC METHOD
TJ 125°C
100
W
C)V)
a:w
::::>a:
"'w
oa.
a:~
<{<{
FIG.1FORWARD CURRENT DERATING CURVE
,..:
50
1\
Z
W
a:
a:
::::>
4C
o en
",W
30
?;,..:
<{a:
?;~
a:::::2
~<(
,
C)
40
""
.........
....... ~
20
o
5
0
50
100
tt'"
0
20
J
100
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
0
10
r- i"'-
NUMBER OF CYCLES AT 60Hz
\
10
--
...........
I
20
W
<{
a:
W
>
<{
60
a:z
OW
u..a:
",a:
<(::::>
wU
a.
~
U
80
50
tZ
w
a:
a:
::::>
130
CASE TEMPERATURE. °C
U
~
10
~ r--
o
a:
<{
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
~fB
1
offi
u.a.
100
If
(f)~
::::><{
o
)
10
W
Z
<{
,..:
Z
W
Tc
~
tZ
1OD"e
<{
100
_...
a:
a:
::::>
U
t-
TJ - 25"G
Z
PULSE WIDTH = 300/..ls 2% DUTY CYCLE
(f)
I
01
~~
~~
10
6~
W~
<(
t-
TC"W~ ~
-
F
03
04
05
06
07
08
, 0
09
FIG. 5 -
I....... I-""""
0 I
u..
0-
/
U
Z
<{
800
600
<{
a.
<{
Tc=25°C -
V
I
'0
40
60
U
M
100
PERCENT OF RATED PEAK
REVERSE VOLTAGE
TJ "2'5°C
120
1000
U
t-
Z
~
2000
W
(f)
V
TYPICAL JUNCTION CAPACITANCE
4000
I"""
z<{
tZ
I
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
ffiffi
~~
02
400
I'..
200
140
100
01
04
10
4
10
REVERSE VOLTAGE. VOLTS
-85-
~~
40
80 100
I
MBRF735 AND MBRF745
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 7,,5 Amperes
FEATURES
ITO-220
.158'.008
j ,.405 MAX"j (4<.0211+-+ ,.189 MAX.
.;-;13,,;,t7.·rOO~8....... ii--"'[1""0."'3~1..+t'T""
I
(4. 81
(3.3 to. 21
.. ,.101t.008
<2.1 t 0.21
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-0
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250·C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
.-. ....4°REF.~ ..
PIN 10----,
PIH2~
Dimensions in inches and (millimeters)
Case: ITO.. 220 Molded Plastic
TermInals: Solderable per MIL..STD .. 202,
Method 208
Polarity: As marked
MountIng PosItIon: Any
MountIng Torque: 5 in. - lb. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Foward Surge Current,8.3ms single half sine ..
wave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Instantaneous Forward Voltage
IF - 7.5A, Tc -125"C
IF - 15A, Tc - 125"C
IF = 15A, Tc - 25"C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc=125"C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage (Note 2) Tc = 25"C
Voltage Rate of Change
Typical Thermal Resistance, (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Thermal Resistance Junction to Case.
2. 3001'S Pulse Width, 2% Duty Factor.
3. 2.01'S, 1.0 KHz.
-86 ..
SYMBOLS
MBRF735
MBRF745
UNITS
VRRM
VRMS
Voc
35
25
35
45
32
45
Vo~s
Volts
Volts
I
...:
75
wU
50
...::::J
,
00
50
25
-
I"'- ........
I
r-.
1
5
10
20
100
50
NUMBER OF CYCLES AT 60Hz
\
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
100
r--.......
0..
\
4.0
W
Cl
a::Z
OW
LLa::
",a::
r-
CASE TEMPERATURE. 'C
Z
W
a::
a::
:::J
U
0
~-
I
TJo125'C
~
10
./. ~5'C~
~
.",
a::
...:
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
~(/)
,,~
a:: W
offi
LLo..
10
'/
:::J...:
0
TJ = 125°C
""".
,..:
Z
W
a::
a::
W
Z
...:
Z
~
0.1.1
TJ = 75°C
0.1
./
",
.2
.3
PULSE WIDTH 300","s 2"10 Duty Cycle
.4
.5
.6
.7
.8
.9
1.0
FIG. 5-TYPICAL JUNCTION CAPACITANCE
V
r-
r(/)
1/ /
4000
O="
W:;;
z
...:
Z
I
INSTANTANEOUS FORWARD VOL TAGE
VOLTS
(/)~
:::J-'
...:
I
I
(/)
~
25°C
r-
r-
:::J
W(/)
fQW
Wa::
>W
wo..
a:::;;
1.0
...:
1.0
U
"
~ , ITJ'
(/):;;
,/
TJ
2000
U
Z
1000
800
...:
400
a.
ill
~25°C
.01
~
LL
...:
rU
,.
0..
TJ= 25°G
r--
F= 1MHz
VSlg= 50mVp'p
~
600
...:
..........
U
200
•001
~
~
00
00
100
1~
....
1~
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOL TAGE. VOL T5
-87-
40
80 100
MBRF750 AND MBRF760
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts
CURRENT - 7.5 Amperes
FEATURES
ITO-220
.008
12.1! 0.21
. . 0. 101 !
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss, high efficiency
• High current capability, 10W"VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed: 2S0'C/10
seconds/.2S", (6.3Smm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.Sk VRMS
MECHANICAL DATA
PIN 10----,
P1H2~
~ ...4°REF........
Dimensions in inches and (millimeters)
Case: ITO-220 Molded Plastic
TermInals: Solderable per MIL-STD-202,
Method 208
PolarIty: As marked
Mounting PosItIon: Any
MountIng Torque: 5 in. - lb. max.
WeIght: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Foward Surge Current,8.3ms single halfsinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Instantaneous Forward Voltage
IF = 7.5A, Tc - 125'C
IF - 7.5A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc=100'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage (Note 2) Tc=25'C
Voltage Rate of Change
Typical Thermal Resistance, (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES:
1. Thermal Resistance Junction to Case.
2. 300118 Pulse Width. 2% Duty Factor.
3. 2.0118. 1.0 KHz.
-88-
SYMBOLS
MBRF750
MBRF760
UNITS
VRRM
VRMS
Voc
50
35
50
60
42
60
Volts
Volts
Volts
I(AV)
7.5
Amps
IFSM
IRRM
150
.75
Amps
Amps
VF
0.65
0.75
VoRs
IR
50
mA
IR
dvldt
R8JC
TJ
TSTG
0.5
1000
3.5
-65 to +150
-65 to +175
mA
V/ILS
'CNoI
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBRF750 AND MBRF760
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
175
150
W
C)'"
cr:W
::Jcr:
enw
FIG. 1-FORWARD CURRENT DERATING CURVE
~
zW
10.0
cr:
cr:
::J
8. 0
()
1\
oen
cr: W
<{ 8} 6.0
~o.
~::.
«
u..
cr:::'
<{<{
100
~~
cr:Z
OW
u.cr:
75
<{::J
W()
50
C)
<{
2.0
o
o
50
,
1
aW
125·C . /
Z
<{
~
z<{
~
1.0
~
J
~
:;;:;
0.1
.1
TC~75·C/
0.1
Te
= 25°C
.01
'"
u.
W
()
1000
Z
<{
BOO
f::::
600
<{
/
.6
.7
r- t"--o
.8
.9
1.0
I
I I II
ITJ
)25U I
1
Vsig
= 1MHz
= 50mVp-p
400
0.
«
...........
()
200
40
.5
2000
0.
V
()
20
.4
= 3OOlJs-
FIG. 5- TYPICAL JUNCTION CAPACITANCE
en
L
.3
4000
:;;:;
.001
.2
/
TJ " 25°C
PULSE WIDTH
2% Duty Cycle
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
,I
./
~
Z
<{
/
I
en
Wen
en W
cr:cr:
Ww
>0.
l/
10
u.~
i...o-'"
"""
~en
()
W::.
cr:<{
en::J-'
O~
W::.
Z
<{
/"
cr: W
ocr:
en::'
::J<{
~
100
0
cr:
<{
Tc ~ 15O"C
Tc
~
50
~
Z
W
cr:
cr:
::J
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
-
'"
~
10
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
10
1.0
5
r---"",
NUMBER OF CYCLES AT 60Hz
()
:=
r........
25
150
100
"""
0.
CASE TEMPERATURE, ·C
Z
W
cr:
cr:
::J
""'" ""' ......
\
>
<{
~
"'
JEDEC METHOD
~cr:
~
4.0
W
ffi
125
00.
II
8.3 ms SINGLE HALF SINE-WAVE
60
80
100
120
""'''"'' ...
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE. VOLTS
-89-
40
80 100
I
MBR735 AND MBR745
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 7,5 Amperes
FEATURES
TO-220
190 (4'~i)
,.420110.67),
.380 IS.65)
~11·160(4. )
-+1 ' .05511.40)
.155 (3.94) OIA
.145 (3.68)
'....,.---:--i--
~
p
h==+==91.640 116.26)
.620 (15.75)
1
~
~
. f'..
"11,:gl~~::;l
_ _ .210(5.33)
.190(4.83)
1
.045 (1.14)
.150(3:8lJf-l
.110(!~)~ .600(1.24)
t
.575 (14.6lJ
1
f
.360 IS'14)
.320 (8.!3J
54~1 "lI"'9----''--I~,:~~tii J4'MAX.
1.163 (29
1.103 (28.02)
.025
'~"I"
"
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
2S0'C/10 secondsl.2S", (6.3Smm) from case
• Guard Ring for trnslentr protection
.110(2.79)
.090(2.29)
(CASE POSITIVE)
PIN 1 + <>------t.J.
STANOARD POLARITY PIN 2 - ~CASE
Dimensions in inches and (millimeters)
MECHANICAL DATA
case: TO-220 Molded Plastic
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2S'C ambient temperature unless otherwise specified. Resistive or inductive load. For capecitive load, derate current
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Foward Surge Current,8,3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Instantaneous Forward Voltage
IF = 7.5A, Tc = 125'C
IF = 15A, Tc = 125'C
IF -15A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc=125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage (Note 2)
Tc =25'C
Voltage Rate of Change
Typical Thermal Resistance, (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES:
1. Thermal Resistance Junction to CASE.
2. 300JlS Pulse Width, 2% Duty Factor.
3. 2.0JlS, 1.0 KHz.
-90-
~
20'4
SYMBOLS
MBR735
MBR745
UNITS
VRRM
VRMS
Voc
35
24.5
35
45
31.5
45
Volts
Volts
Volts
I(AV)
7.5
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.57
0.72
0.84
Volts
IR
15
mA
IR
dV/dt
R8JC
TJ
TSTG
0.1
1000
3.0
-65 to +150
-65 to +175
mA
V/IJ.S
'cm
'C
'c
RATINGS AND CHARACTERISTIC CURVES MBR735 AND MBR745
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
175
150
W
a:W
::Ja:
UlW
0"a::2
««
(!)(/)
....FIG. 1 ~ 10.0
FORWARD CURRENT DERATING CURVE
a:
a:
125
100
"""'~
r--.. .....
;:....-
3
B.O
-,
OUl
a:W
«a:
;: ~60
gj~
LL
4.0
W
(!)
«
a::
W
>
2.0
«
o
o
50
a:Z
OW
u..a:
",a:
«::J
wO
r - f-
\,
25
10
1
50
I-
Z
10
TJ :: 125°C
Z
I'
."
J "75"C
~~
"
I
'/TJ=25<>C
PULSE WIDTH
30a~
2"" Duty Cycle
, 0
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
'"
1/
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000
6~
u..Q.
Z
V
I-
/ ' TJ=25°C
«
«
I
'/ I
01
0.1
'/
-
/ . ~5·C"'!
I
I
~
w:2
Z
h
10
«
Ul
a:
a:
::J
o
a:~
Ul-
100
I-
W
~ a..
II
I-
1.0
ffiffi
.........
I
TJ"'25.C~
10
a:
«
;:Ul
a:W
offi
u..a.
Ul:2
::J«
0
W
Z
«
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
~~
50
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
0
0
Z
20
NUMBER OF CYCLES AT 60Hz
W
a:
a:
::J
~
~
"-
CASE TEMPERATURE, ·C
....-
......... ......
50
\
100
...............
75
2000
W
0
Z
1
I-
Ul
Z
BOO
U
600
«
a.
«
.....
1000
«
I-
--
I
F" lMHz
vsig= 50mVp~p
r--. ....
400
............
()
200
.00 1
20
40
60
80
100
120
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
I
T}" 25"C I
....
100
01
04
'0
'0
REVERSE VOLTAGE. VOLTS
-91-
40
80100
I
MBR750 AND MBR760
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 7.5 Amperes
FEATURES
TO-220
:j
.16014. J
•• 05511.4OJ
.04511.14J
~
-p- J
.15013.81J
.13013.30J
h==I==;I.640 116.26)
.620115.75J
PIN
PIN
1
~
1¥;:==F;2r=P..
~
+11·:m~:=;l
_ _ .210(5.33)
.19014.83)
.36019.14J
.320 (8.13J
i
~
3 ( .5
1.10
T~
i
.60011.24J
.575 (14.611
·
.5601124.22J
.S3°T· 46)
1
"'~i.
:8iiIS:UI+ ::.. .110(2.79)
.090(2.29)
ICASE POSITIVE)
PIN 1 +~
STANDARD POLARITY PIN 2 - ~CASE
Dimensions in inches
and
(millimeters)
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Lowpower
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
MECHANICAL DATA
Case: TO-220 Molded Plastic
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25 ·C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load. derate current by 20"k.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single half sine·
-wave superimposed on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage
(Note 2)
IF = 7.5A, Tc = 125'C
IF" 7.5, Tc = 25'C
Maximum Average Reverse Current at Tc .. 25'C
Rated Peak Reverse Voltage (Note 2) Tc .. 100'C
Typical Thermal Resistance (Note 1)
Maximum Operating Storage Temperature Range
SYMBOLS
MBR750
MBR760
UNITS
VRRM
VRMS
Voc
50
60
Vo~s
35
42
50
60
Volts
Volts
I(AV)
7.5
Amps
IFSM
150
Amps
VF
.65
.75
0.5
50.0
3.0
-65 to +175
Volts
IR
R8JC
Tc.TsTG
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 J.IS Pulse Width. 2% Duty Factor.
-92-
rnA
'cm
'c
RATINGS AND CHARACTERISTIC CURVES MBR750 AND MBR760
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
175
I
150
W
FIG. 1 -
..:
z
FORWARD CURRENT DERATING CURVE
10.0
W
cr:
cr:
::l
125
!I
I'
cr:Z
OW
u.cr:
><:cr:
«::l
wU
8. 0
oen
cr: W
ffi
\
6, 0
:;;:n.
cr:::;
~«
W
(!l
«
a:
>
W
,
..........
75
"-..... ~
50
!
n.
\
4.0
II
8.3 ms SINGLE HALF SINE-WAVE
JEDEC METHOD
.C-
r---. .....
100
:;;:..:
U
«
(!len
cr:w
::lcr:
en W
on.
cr:::;
««
I
25
5
1
10
20
100
50
NUMBER OF CYCLES AT 60Hz
2.0
«
o
1\
o
50
100
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
f-
CASE TEMPERATURE, ·C
Z
./
W
cr:
cr:
::l
U
a
V
10
----,
cr:
To
~
gsffi
u.n.
10
r==
,
~fB
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
en::;
::l«
150°C
o
.....
If
1.0
W
i"""""
..:
z
Z
«
f-
To· 125'C " . .
"
1.0
W
cr:
cr:
::l
~
Z
~
z
I
en
0.1
U
~~
ffiffi
fiJ ~
~:!
::l...J
TC=75"C~
.4
.8
.5
1.0
",
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000
I
z
«
./
~
f-
«
=25°C
PULSE WIDTH = 300 IJ 'S 2% Duty Cycle
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
o. 1
O:!
W::;
Z
TJ
/
Tc = 25'"C
01
U.
C-
/
f-
en
Z
L
.001
V
20
40
60
80
2000
ui
100
120
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
U
Z
1000
«
~
800
U
«
n.
«
U
600
r--
ITJ}25U
I
1 = 1MHz
~
'li'sig = 50mVp-p
400
..........
200
100
0.1
......... i"o
04
1.0
10
REVERSE VOLTAGE. VOLTS
-93-
40
80 100
I
MBRF1035 AND MBRF1045
SCHOTTKY RECTIFIER
VOLTAGE RANGE
- 35 and 45 Volts
.1
CURRENT - 10,0 Amperes
FEATURES
• Isolated overmolded package
• Metal to silicon rectifier majority
carrier conduction
• Low power loss,
high efficiency
• High current capability, low Vr• High surge capacity
'c,
• Guard ring for transient protection
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Internal Insulation: 1.SK VRMS
ITD-220
,13 •• 008
(3.3 to.2)
,.lon .008
MECHANICAL DATA
(2.7 t O.2)
......4°REF.... ...
PIN 10----,
PIN 2~
Dimensions and (millimeters)
Case: ITO-220 full olfermolded plastic
Terminals: Leads, solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: Sin.- Ib.max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2S'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Te = 135'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (2.0us, 1KHz)
Voltage Rate of Change, dv/dt (rated VR)
Maximum Forward Voltage (Note 1)
IF - lOA, Te = 125'C
IF = 20A, Te • 125'C
IF. 20A, Te = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Te = 125'C (Note 1)
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Te - 25'C
Maximum Thermal Resistance, Junction to Case
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Pulse Test Pulse Width 300 J.Ls, Duty Cycle 2%.
SYMBOLS
AfBRFf035
MBRFf045
UNITS
VRRM
VRMS
Voc
35
25
35
45
32
45
Volts
Volts
Volts
I(AV)
10
Amps
IFSM
20
Amps
IFSM
IRSM
dv/dt
150
1.0
1000
Amps
Amps
VF
0.57
0.72
0.84
Volts
IR
15
mA
IR
R9JC
Te
TSTG
0.1
2.2
-65 to +150
-65 to +175
mA
'CIW
'C
'C
2. 2.0us, 1.0KHz.
-94-
VlIlS
RATINGS AND CHARACTERISTIC CURVES MBRF1035 AND MBRF1045
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
Clrn
a:w
:Ja:
rnw
oil.
12
.,:
Z
W
I!:J
om
W
a:
<
o
o
50
100
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
,.
50
150
I-
CASE TEMPERATURE, ·C
Z
W
II:
II:
:J
(.)
o
T,
~
\25" C
10
~
./
~
,
/'
a:
~ffl
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
~ffi
10
rn~
:J<
oW
~
' - - -TJ "" 1250 C
1.0
I
0.1
"",
T,
TJ
~
25° C
II
~
~
1/
J
~
:;;
./
L
/
"'Q.
.1
/
/
.2
.3
/
PULSE WIDTH '"' 300
.4
.5
.6
.7
.8
1.0
75" C
FIG. 5-TYPICAL JUNCTION CAPACITANCE
V
...
./
TJ
"='
I
2000
Q.
W
25° C
(.)
Z
<
0
<
Q.
<
(.)
I-
1000
Tc
""-
40
60
80
100
120
~ ~5"J
800
600
400
....
~
200
20
.9
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
4000
.001
IJ,S -
~% Duty ICy~e I
..... r--
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE. VOLTS
-95-
40
80100
I
MBRF1050 AND MBRF1060
SCHOTTKY RECTIFIER
VOLTAGE RANGE -50 and 60 Volts CURRENT -10.0 Amperes
FEATURES
.13 ± .008
13.3 -0.2)
• Isolated plastic package has Underwriters
ITO-220
Laboratory Flammabiltiy Classifications 94V-O
.1581.008
•
Metal to silicon rectifier,
(4!.02)
.189 IoVlX.
majority carrier conj - ' (4.S)
duction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Internal Insulation: 1.SK VRMS
.. ,.10n.oos
(2.7 1 0.2)
......4°REF.... ..
PIN 10------,
PIN 2 e>---M-l
Dimensions in inches and (millimeters)
MECHANICAL DATA
Case: ITO-220 Fully over molded Plastic
Terminals: Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: S in-lb. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load. derate current by 20%
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Vottage
Maximum Average Forward RectHied Current
Peak Repetitive Forward Current.
(Square Wave 20 KHz) at Tc = 135'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (2.0us, 1KHz)
Voltage Rate of Change. dv/dt (rated VR)
Maximum Forward Voltage (Note 1)
IF. lOA, Tc - 125'C
IF = 20A. Tc = 125'C
IF = 20A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc = 125'C (Note 1)
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc = 25'C
Maximum Thermal Resistance, Junction to Case
Maximum Operating Junction Temperature
Maximum Stor~e Temperature
SYMBOLS
MBRFf050
MBRFf060
UNfTS
VRRM
VRMS
Voc
I(AV)
50
35
50
60
42
60
10
Votts
Volts
Volts
Amps
IFSM
20
Amps
IFSM
IRsM
150
1.0
1000
Amps
Amps
V/',!s
NOTES:
1. Pulse Test Pulse Width 300 ',!S. Duty Cycle 2%.
-96-
V/',!s
VF
0.70
0.85
0.95
Volts
IR
25
mA
IR
R8JC
Tc
TSTG
0.1
2.2
-65 to +150
-65 to +175
mA
'cm
·C
·C
RATINGS AND CHARACTERISTIC CURVES MBRF1050 AND MBRF1060
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
UJ
C)Ul
CI:UJ
::>CI:
Cl)UJ
FIG. 1-FORWARD CURRENT OERATING CURVE
12
,
50
0::::;:
««
100
~~
O:Z
OUJ
u..CI:
:.:0:
«::>
UJU
,
75
"
"-
""
!""'I~""
.............
50
Q.
25
10
r---.. ""'"
I-
20
50
100
NUMBER OF CYCLES AT 60Hz
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
100
125
Oil.
~
\
150
....
CASE TEMPERATURE. 'C
50
"
Z
UJ
CI:
0:
::>
U
TJ = 150° 0
10
J
~
V
/'"
""
0
0:
o:UJ
OCI:
u..~
Ul::!!
::>«
0
UJ
Z
«
10
:
~
Z
UJ
cr.
CI:
::>
I.......
I
1.0
Tc - 125°C
f-
i
~~
Ul::>...J
O::!
UJ:::;:
z
«
Z
.1
.2
.3
I
II..
.8
.7
Q
=<
300
.9
.8
2000
TJ
W
U
«
Z
f-
~
i3
«
Q.
«
U
~s
1.0
60
80
100
120
'"
2~O C
1000
600
600
400
....
200
40
.5
FIG. 5- TYPICAL JUNCTION CAPACITANCE
~
. / ~Tc -= 25°C
20
PULSE WIDTH
2% Duty Cycle
.4
4000
.01
.001
I
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
Tc = 75° C
f-
«
fUl
I
0.1
.----- -----
,
TJ =- 25" C
I
~
,.-
I
/
/ I
1.0
Z
!
0.1
I
«
fUl
u
UJUl
UlUJ
CI:0:
UJUJ
>0..
,
~Ul
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
........
i"""o
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-97-
40
80 100
I
MBRF1090 AND MBRF10100
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 90 and 100 Volts CURRENT -1 0.0 Amperes
FEATURES
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
.
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial constructiOn
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protectiOn
• Intemallnsulation: 1.5k VRMS
.ITo-220
.13 •• OOB
(1.3'0.21
MECHANICAL DATA
..-. ...4·REF.......
PIN 10---,
PIN2~
. Dimensions in inches
and
(millimeters)
CBse: ITO-220 Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: .08 ounces, 2.24 grams
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum AVerage Forward RectHied Current see Fig. 1
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Te - 125"C
Peak Forward Surge .Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (2.0us, 1KHZ)
Voltage Rate of Change, dv/dt (r~ted VR)
Maximum Forward Voltage (Note 1)
IF • lOA, Te = 25"C
IF • lOA, Te • 125"C
IF = 20A, Te - 125"C
IF = 20A, Te - 25"C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Te. 125"C (Note 1)
Peak Reverse Voltage Te = 25"C
Maximum Thermal Resistance, Junction to Case
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Pulse Test Pulse Width 300 I's, Duty Cycle 2"'{'.
-98-
10
UNITS
Volts
Volts
Volts
Amps
IFSM
20
Amps
IFSM
IRSM
VlIJ.S
150
1.0
1000
Amps
Amps
SYMBOLS
IIBRFf09ll
VRRM
VRMS
Voc
I(AV)
90
64
90
VF
IR
IR
R8JC
Te
TSTG
AfBRFf0100
100
71
100
0.80
0.70
0.85
0.95
25
0.1
2.0
. -65 to +150
-65 to +175
VI~s
Volts
mA
mA
"Cm
"C
"C
RATINGS AND CHARACTERISTIC CURVES MBRF1090 AND MBRF10100
FIG. 3-MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
175
8.3 ms SINGLE HALF SINE-WAVE
JEDEC METHOD
150
W
C)(/)
a:W
FIG. 1-FORWARD CURRENT DERATING CURVE
:J
,
1\
~
a:
w
~
o
o
~
.......
..... 1'-0.
~« 100
3:"'=
a:Z
OW
75
~a
50
... a:
,
a.
25
"" ....... ...... ........
10
1
-~
20
50
100
NUMBER OF CYCLES AT 60Hz
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
100
50
125
O~
~
w
a::
(/)W
10
CASE TEMPERATURE, ·C
/"
/
FIG. 2- TYPICAL REVERSE
CHARACTERISTICS
10
I
.1
Te = 125°C
./
1i,....oo"
f-TJ
~
-
25~
-
C
PULSE WIDTH
2% Duty Cycle
I
300
"s=
I
.01
,
~
1
",
.2
.4
.3
.5
.6
.7
..
.8
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
Tc'"' 75"C
FIG. 5-TYPICAL JUNCTION CAPACITANCE
4000
...
W
()
Tc=25"C
Z
1000
800
B
600
400
«
f0«
a.
«
()
./
~
1V
II
-
0-
V
.01
2000
TJ
= 25
C
C
II
1.0 MHz
f
V sig = 5OmVp-p
""'roo
200
.00
20
40
80
80
100
120
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-99-
40
80 100
I
MBR1035 AND MBR1045
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 10,0 Amperes
FEATURES
TO·220
.155 [3.941 DIA
~~t;r '-r---:-~-+".1Sgg.811
.301
-nkg
.13
h===+===11.640 [16.261
I
.620 [1S.7S1
PIN
PIN
2
1
bMm
lmmL
' I
t
"I I' :8~~ ~::;l
......... :I9O[4.83j
~
:;~~ [81~
l
1163 ~
1.103 [28.021
.025
.560 [124.221 ""MIIX.
.S30 [13.461
I .
I
~~]I![~
[CASE POSITIVEI PIN 1 + <>-----t...:.
STANDARD POLARITY PIN 2 - ~CASE
Dimensions and (millimeters)
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carri.er conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High Surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
MECHANICAL DATA
case:
TO-220 Molded Plastic
T.""",.,s: Axial leads, solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RA TlNGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwisa specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking VoRage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Tc = 135'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0us, 1KHz)
Voltage Rate of Change, dv/dt (rated VR)
Maximum Forward Voitage (Note 1)
IF • lOA, Tc • 125'C
IF - 20A, Tc • 125'C
IF = 20A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc -125'C (Note 1)
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc - 25'C
Maximum Thermal Resistance,
Junction to Case
Maximum Operating Junction Temperature
Maximum Storage Temoerature
NOTES: 1. Pulse Test Pulse Width 3()o I'S, Duty Cycle 2%.
-100-
SYMBOLS
MBR1D35
MBR1D45
UNITS
VRRM
VRWM
Voc
35
35
35
45
45
45
Vo~s
Vo~s
Volts
ICAV)
10
Amps
IFSM
20
Amps
IFSM
150
Amps
IRSM
dv/dt
1.0
10.00
Amps
V/jJ.S
VF
0.57
0.72
0.84
Vo~s
IR
15
mA
IR
0.1
mA
R9JC
Tc
TSTG
2.0
-65 to +150
-65 to +175
'CIW
'C
'C
RATINGS AND CHAJUCrm!lTIC C",!VE$ MBR1035 AND MBR1045
MAXIMUM NON-REPETITIVE
SURGE CURRENT
FIG. 3 -
FIG. 1 -
FORWARD CURRENT DERATING CURVE
12
....:
zW
10
\
a:
a:
::;)
o
oen
a: w
~ffi
a:Q.
...
-
I
,
1\1-
6
fr~
W
(!!
«
a:
W
~
o
o
50
100
\
FIG. 4 - TYPICM. INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
io"'"
f-
CASE TEMPERATURE, ·C
I
a:
a:
::;)
()
~
../
Z
W
./
TJ = lsoae
10
/
./
'"
V-
~
~ffl
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
I
gsa:
/
u. W
10
~ F-- TJ-=: 125°C
_.
.~~
-
0
W
Z
r-
/
/TJ
J
1.0
=
25°C
«
I-
....:
Z
Z
a:
~
.-
::;)
0.1
.",
0.1
./
TJ = 75°C
.3
FIG. 5 -
./
Z
«
I-
U.
Q.
, / TJ = 25°C
InZ
~
«
(3
600
«
Q.
«
0
I
I
~
I
TC~;5ocl
BOO
400
r-... '
I
200
00 1
00
10
2000
1000
I-
~
j.ls -
.5
ui
.0 1
~
PULSE WIDTH = 300
2% Duty Cycle
I
TYPICAL JUNCTION CAPACITANCE
4000
5~
«
/
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
./
W::;;
Z
/
./
ffiffi
[j a..
a:~
en-
f
en
a:
o
~fZ
I
«
I-
1.0
W
100
120
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
J
r-....
10
REVERSE VOLTAGE, VOLTS
-101-
~
40
80100
MBR1050 AND MBR1060
SCHOTTKY RECTIFIER
VOLTAGE RANGE -50 and 60 Volts
CURRENT -1 0,0 Amperes
FEATURES
• Plastic package has UnderwrHers Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to Silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
TO-220
1-7
...
.1&0 (4. )
..... 05511.40)
.2 4511,14)
~
.15013.81)
1F==I===ti.640 116.26)
~
PIN
P~N
!
1
.16014.i!m
.140(3.56)
t
.Ur\!!lp
.600J5.24)
.575 [l4.&ll
.36019.14)
.320 (8.13)
r J,,,.~
~
1_.1_63_
_
(29.54)
1.10 3 (28.02)
1
u'.';;
1
.,~t
•53O T·46)
-+,,·:mm:w
___ .210(5.]3)
:SmSjil·
MECHANICAL DATA
Case: TO-220 Molded Plastic
Terminals: Solderable per
.090(2.29)
.190(4.83)
MIL-STD- 202, Method 208
(CASE POSITIVE) PIN 1 + o--a....:,
STANDARD POLARITY PIN 2 - o---t>f--lCASE
Polarity: As marked
Mounting POSition: Any
Weight: .08 ounces, 2.24 gram
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capecitive load, derate current by 20%.
CYMBOLS
AfBR10S0
IIBR1060
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Tc = 135'C
Peak Forward Surge Current
8.3ms single haW sine-wave superimposed
on raled load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0us, 1KHz)
Voltage Rate of Change, dv/dt (rated VR)
Maximum Forward Vollage (Note 1)
IF = lOA, Tc - 125'C
IF = 20A, Tc -125'C
IF = 20A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Vollage Tc = 125'C (Note 1)
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc - 25'C
Maximum Thermal Resistance,
Junction to Case
Maximum Operating Junction Temperature
Maximum Siorage Temperature
NOTES: 1. Pulse Test Pulse Width 300 I!s, Duty Cycle 2%.
-102-
VRRM
VRWM
Voc
50
50
50
60
60
60
UNITS
Volts
Volts
Volts
I(AV)
10
Amps
IFSM
20
Amps
IFSM
150
Amps
IRSM
V/JlS
1.0
1000
Amps
VlIlS
VF
0.70
0.85
0.95
Volts
IR
25
mA
IR
0.1
mA
ReJC
Tc
TSTG
2.0
-65 to +150
-6510+175
'cm
'c
'c
RATINGS AND CHARACTERISTIC CURVES MBR1050 AND MBR1060
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
15 0
FIG. 1 -
W
a:w
L
I\,
10
a:
a:
::)
()
a: W
<:(ffi
l-
1\1
r
W
2
>
«
o
100
75
" ""
~a
a..
,
o
50
CASE TEMPERATURE,
.... 1"-
............
r--.... i"--o
5
10
20
50
100
NUMBER OF CYCLES AT 60Hz
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
100
r--..
50
~
«
a:
er::?:
'i:"':
a:Z
OW
,,-a:
",a:
««
1\ '
6
W
C)
12 5
U)W
00..
OU)
'i:o..
a:::;;
~«
a:
::J
12
rZ
W
C)(/)
FORWARD CURRENT DERATING CURVE
°c
f-
,,-
Z
W
a:
a:
TJ" 150 a C
::)
()
10
~
V l/
o
a:
, ,
«
~~
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
offi
10
"-a..
/ I
U)::;;
::)«
-
oW
Te = 125°C
10
Z
«
fZ
L
«
f-
f
I
Z
If
1
U)
01
~
1
~ i-"""'"
TJ = 25°G
PULSE W1DTH 300 j..IS
2"0 Duty Cycle
10
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
Te = 75<>C
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000
f
L
1
V
""-
V'Te'" 25°C
W
()
Z
«
>:::
,.
()
«
«
()
a..
2000
1000
I
600
400
i"-
00 1
20
40
ffi
80
100
120
2loc
800
200
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
TJ =
t--- -
100
01
1
II
04
10
......
10
REVERSE VOL TAGE. VOLTS
-103-
-40
80100
I
MBR1090 AND MBR10100
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 90 and 100 Volts CURRENT -10.0 Amperes
FEATURES
To-220
-
~.
~
.15g!HAI
.lj (i-I=.3606.14)
.320 (8.131
(4.
.600 (1 .24)
.575 [14.611
l
I. .·"1"··; .J. .
~ 128.02)
)
.055 (1.40)
.045f141
I
1
.025
>~.,w
I
"I
(I:mm];~
+--+ .210 (5.33)
.190(4.83)
'm~'i!!+I" ~)
••
.090(2.29)
(CASE POSITIVEI PIN 1 + ~
STANDARD POLARITY PIN 2 - ~CIiSE
Dimensions in inches and (millimeters)
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
MECHANICAL DATA
case: TO-220 Molded Plastic
Terminals: Axial leads, solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS
MBR1090
IlIBR10100
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Tc = 125'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0U8, 1KHz)
Voltage Rate of Change, dv/dt (rated VR)
Maxlmvm Forward. Voltage (Note 1)
IF = lOA, Tc:; 25'C
IF -lOA, Tc -125'C
IF = 20A, Tc = 125'C
IF:; 20A, Tc:; 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc - 125'C (Note 1)
Peak Reverse Voltage Tc:; 25'C
Maximum Thermal Resistance,
Junction to Case
Maximum Operating Junction Temperature
Maximum Storace TemDerature
VRRM
VRWM
Vee
-104·
100
100
100
UNITS
Volts
Volts
Volts
I(AV)
10
Amps
IFSM
20
Amps
IFSM
150
Amps
IRSM
V/Jl.s
1.0
1000
Amps
V/JJ.S
VF
NOTES: 1. Pulse Test Pulse Width 300 JJ.S, Duty Cycle 2%.
90
90
90
0.80
0.70
0.85
0.95
Volts
IR
IR
25
0.1
mA
mA
RaJC
Tc
TSTG
2.0
-65 to +150
-65 to +175
'CNI
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR1090 AND MBR10100
FIG. 3-MAXIMUM NON"REPETITIVE
PEAK FORWARD SURGE CURRENT
,
W
C)CI)
a:W
::la:
Cl)W
Oa.
a:::;;
FIG. l-FORWARD CURRENT DERATING CURVE
««
0
50
125
~ too....
100
a:Z
OW
u.a:
",a:
r-... r..~
--
r--......
U)B
a.
,
75
50
:
"'- ..... "'"
2S
1
5
10
20
50
100
NUMBER OF CYCLES AT 60Hz
~
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
100
8.3 ms ;INGLE HALF SINE-WAVE
JEDEC METHOD
~..,:
l
I'
150
10
CASE TEMPERATURE, 'C
/
FIG. 2- TYPICAL REVERSE
CHARACTERISTICS
I
100
.1
..; ". To
",.
,
= 125" C
.".,.
TJ· 2S'C
PULSE WIDTH' 3OO~.
DUTY FYCLEI
i
I
.01
.2
.,..,.
.3
.•
100"
~~
To
u.
Q.
25" C
«
800
(3
SOD
'00
t>
l/
60
80
100
- .....
.....
2000
t> 1000
Z
«
a.
«
./
40
.8
.9
TYPICAL JUNCTION CAPACITANCE
u.i
I-
20
.7
'TO = 75"C
FIG. 6 -
.01
.6
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
'000
I
.5
120
lIT
TIT
TJ
=25°C
'.1.0MHz
V oIg. SOmVp'p
~
"'"
200
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOl.TAGE
100
0.1
0.'
1.0
10
40
REVERSE VOLTAGE. VOLTS
IN~
-105-
80 100
SBLF1030 AND SBLF1040
SCHOTTKY RECTIFIER
VOLTAGE RANGE· 30 and 40 Volts
CURRENT - 10 Amperes
FEATURES
• Isolated overmolded package
• Metal to silicon rectifier,
.158t .008
majority carrier confA05MAX"-1 (4t.021_ •. 189 MAX.
duction
I
~~~....
10.31
1_
(4.81
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use in low voHage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
f·107t.008
C2.7 t O.21 • Internal Insulation: 1.5k VRMS
MECHANICAL DATA
PIH1~
P1N2~
Dimensions in inches
and
case:
ITO-220 fully over molded Plastic
Terminals: leads, solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .08 ounces, 2.24 grams
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at '0 ambient temperature unless otherwise specified.
Resistive or Inductive load.For capacitive or inductive load, derate current by 20%.
SYMBOLS
SBLF1030
SBLF1040
UNmI
VRRM
VRMS
Voc
30
21
30
40
28
40
Volts
Volts
Volts
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed en rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
IF .10A, Tc. 25'C (Note 2)
Maximum Average Reverse Current at Tc.25'C
Rated DC Blockina Voltage.per element Tc - 100'C
Typical Thermal Aesistance (Note 1)
Operatina and Storage Temperature Range
ICAV)
10
Amps
IFSM
250
Amps
VF
.60
1.0
50.0
3.5
-40 to +125
Volts
IR
R8JC
Tc,TsTG
NOTES:
1. Thermal Resistance from Junction to Case.2. 300jlS Pulse Width, 2% Duty Factor.
-106-
mA
'C/W
'C
RATINGS AND CHARACTERISTIC CURVES SBLF1030 AND SBLF1040
FlO. 3 • MAXIMUM NON·REPETITIVE
PEAK FORWARD SURGE CURRENT
300
1.3",. SINGLE HALF SINE-WAVE
JEDEC METHOD
~ ......
r.... ....
,,
FlO. 1 •
FORWARD CURRENT DERATINO CURVE
1\
o
o
\
5
'0
........
..... "'"
20
50
'00
NUMBER OF CYCLES AT 60Hz
i\
FIG. 4 • TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
,!So
'00
50
..........
~
CASE TEMPERATURE. ·C
100
W
I
a
~
/
'0
~(I)
FIG. 2 • TYPICAL
REVERSE CHARACTERISTICS
a: W
oa:
(1):1
... It'
,00
~C[
£
I
I
'.0
~
i
'tI'
./
:;;
~
TC. ,oo-C- I " -
~
2.3.'.&.6
.8.9
Tc·75·C
FIG. 5 • TYPICAL JUNCTION CAPACITANCE
4000
~
...
,l'TC'2I"C
III
D-
(,)
Z
C[
I-
~
~-..,.
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
.v,
,
PULSE WIDTH· 300"._
2fIIt Duty Cycle
I
.01
-
TJ • 2S·C
I
U
C[
--
Q,
~
-
2000
.........
,000
100
II I
Js}d
ITJ '.
f= 1MHz
Vlig = 50mVp~p
IDO
400
200
.0,
:10
40
10
10
'00
'20
PERCENT Of RATED PEAK
REVERSE VOLTAGE
'40
'00
0.'
·107·
0.'
'.0
'0
REVERSE VOLTAGE. VOLTS
80'00
I
SBL1030 ANDSBL1040
I
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts
CURRENT - 10 Amperes
FEATURES
To-220
-....
.15013'111
·ljf~.J!l ?"'
'.,::t::
575
•
.36019.14)
:ffi1iTIj
PIN
1
PIN
)1
~
3
5
1.10
+11·:8nm::sl
+-+ .210IS.3J)
.19014.8 )
T~
.05511.401
T·
6lJ
·
·
J,. ",.
.025
•5601124.221 "MAX •
.S3°T·(6)
:mlt.ifil"
~)
+o----u
ICASE POSITlIlEI PIN 1
STANDARD POLARITY PIN 2 - ~CIiSE
Dimensions in inches
and
(millimeters)
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier concJuctlon
• Low power
loss, high efficiency
• High current capabiHty, low VF
• High surge capacity
• Epitaxial construction
• For use in low voHage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
2S0·C/10 secondsl.2S", (6.3Smm) from case
• Guard Ring for transient protection
MECHANICAL DATA
case:
TO-220 Molded Plastic
T.rmln.18: Solderable per
MIL-STD- 202, Method 208
PtllllrIty:· As marked
Meum"" Position: Any
WeIght: .08 ounces, 2.24 gram
C"OSS REFERENCE GUIDE
GI
SBL1040
FWI
ERC62-004
SHINDENEN
MAXIMUM RA TlNGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'0 ambient temperature unless oIhetwise specified. Resistive or inductive load.
For capacitive or inductive load. derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
see Fig. 1
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
IF - 10A, Tc • 25'C (Note 2)
Maximum Average Reverse Current at Tc .25'0
Rated DC Blocking Voltage per element Tc - 100'C
Typical Thermal Resistance (Note 1)
Operating and Storage Temlterature Ranlle
SYMBOLS
SBL1030
SBLf040
UNITS
VRRM
VRMS
Voc
30
21
30
40
28
VoHs
Volts
VoHs
ICAV)
10
Amps
IFSM
250
AmpS
VF
.60
1.0
50.0
3.0
-40 to +125
Volts
IR
ReJC
TcTSIG
NOTES:
1. Thermal Resistance from Junction to Case.
2.300 JIB Pulse Width. 2% Duty Factor.
-108-
40
mA
'cm
·C
RATINGS AND CHARACTERISTIC CURVES SBL 1030 AND SBL 1040
FIG. 3 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
300
SIN~.~A~E'
8.3m. SINGLE HALF
JEDEC METHOD
250
r"-.
FIG. 1 - FORWARD CURRENT DERATING CURVE
.,:
illa:
10.0
5
8.0
\
a:
~
000
a: W
~ ffi 60
a:Cl.
O:::!
LL
~
W
2.0
~
o
o
50
,
,
5
r-..... r--- ...
10
20
100
50
NUMBER OF CYCLES AT 60Hz
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS
150
100
,
....... ~
I
~
« 4.0
W
(!l
......
0
CASE TEMPERATURE. ·C
/
0
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
I
100
'I
.,:
Z
W
10
-
a:
a:
::>
u
Woo
OOw
a: a:
Ww
>Cl.
~~
./
.,
"" f==
r--
L
Tc" l00·C=
"""7
JtJ'
~
.5
.6
---1.-----.l.
.8
-----=-.9
f
/
a.
uj
Tc=25°C
U
Z
«~
<3
«
Cl.
«
00
~
./
",.
U
.01
80
100
--.. r-.
u. 2000
0.1
60
,
4000
,
O::!
W:::!
40
.4
.3
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
00-
?O
PULSE WIDTH" 3OOjJ.s_
2% Duty Cycle
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
.Y" I
1.0
-
TJ "25°C
" , Tc· 75"C
::>...J
z
;:
z
«
~
-j
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140~
~~
'TJ '"
"'
II
J5!d
f= 'MHz
1000
Vsig
800
600
400
= 50mVp-p
~
200
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-10l1-
40
80 100
I
SBLF1030CT AND SBLF1040CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts
CURRENT - 10 Amperes
FEATURES
• Isolated Plastic package has Underwriters
Laboratory Flammability Classifications
ITO-220 CT
13 '.008
13.3 <0.21
.158t .008
MAX." !'4t.021_ ,.189 MAX.
1,.405
(1031
1 _ (4.8)
-""'I'--r ~ IIl
....\~.... d MAX.
P~N r
tLTr-m--n-.J_-<-
71
.103 MAX.
(2.61
1
3
.051'.008·~!·1 !~'-t
(l.3g~/1
.029!:008
(0.7S<8jl
qI", ! .531~ MIN.
.1.1
' .. '
1
I
,.1071.008
(2.7'0.21
UPI
I
2.54
~
40REF.
.028 '.008
......
... "'(O.7:tO.2)
..,up lID
MECHANICAL DATA
.-
PINl~N2
......4°REF.......
94V·O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Dual rectifier construction, positive center-tap
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
PIN3~
Dim9nsions in inch9s
and
(millim9t9rs)
CBse: IT0-220 Molded Plastic
Terminals: Solderable per
MIL·STD· 202, Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductiv& load.
For capacitive or inductive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single
half sine·wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF - 5.0A,To = 25'C (Note 2)
Maximum Average Reverse Current at To. 25'C
Rated DC Blocking Voltage per element To- 100'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Tem~erature Ran~e
VRRM
VRMS
Voc
1. Thermal Resis1ance from Junction to Case per element.
2. 300ilS Pulse Width, 2"10 Duty Factor.
·110·
SSLF1040CT
UNITS
40
28
40
VoKs
Volts
Valis
ICAVl
10.0
Amps
IFSM
175
Amps
VF
,55
0.5
50.0
3.5
-40 to +125
-40 to+150
Volts
IR
R9JC
To
TSTG
NOTES:
SSLFf030CT
30
21
30
mA
'cm
'c
·C
RATINGS AND CHARACTERISTIC CURVES SBLF1030CT AND SBLF1040CT
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
r--- - - , - - r
300
8 3ms SINGLE HALF SINE·WAVE
JEOEC METHOD
250
UJ
OCUJ
:JOC
",UJ
C)'"
...:Z
FIG. 1 -
FORWARD CURRENT DERATING CURVE
OC::;;
««
OCZ
OUJ
,,-OC
",OC
«:J
UJU
10
,
0'"
oc UJ
«OC
;:~
OC::;
~
75
\
~«
UJ
C)
«
OC
UJ
«
150
.........
1"0.......
;:...:
125
UJ
OC
OC
:J
U
200
011.
100
r-..........
50
,
1()()
20
Ll
""t-l
100
50
NUMBER OF CYCLES AT 60Hz
,
~
25
e:--
10
I
~
11.
>
50
r-.
~
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
r
150
Z
UJ
OC
OC
:J
U
CASE TEMPERATURE. °C
so
.........
V
./
10
0
OC
«
;:'"
oc UJ
offi
"-11.
FIG. 2 - TYPICAL REVERSE
CHARACTEFdSTICS
10
UJ
OC
OC
:J
U
UJ",
"'UJ
OCoc
UJUJ
>11.
UJ::;;
OC«
:J..J
O::!
UJ::;;
Z
«
r
Z
«
r
Tc
:J«
0
UJ
Z
«
V
I~ ~c
F===
10
r
Z
«
~
10
J
"'::;
f--
...:
Z
,/
/
I
r
'"~
75 C C
;~~S~O~tDTH = JQO/Js
1
01
10
2
.... 1-"""
~
01
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000
=
"'-
11
INSTANTANEOUS FORWARD VOLTAGE .
VOLTS
---
01
-
2% DUTY CYCLE
Tc - 25°C
,
"- 2000
0-
W
V
U
Z
«
U
«
11.
«
r
'"~
1000
800
600
400
U
200
001
~
~
~
M
100
100
1~
01
PERCENT OR RATED VOLTAGE PEAK
RFVERSE VOLTAGE
04
10
10
REVERSE VOLTAGE. VOLTS
-111-
40
80100
I
SBL1030CT AND SBL1040CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts CURRENT - 10Amperes
FEATURES
.To-220CT
11;
~ .6001~41
T·Sl
.055il.481
+
.150 (3.811
.YO(\@I
1 :i~~~1~
l
H.
~~ 1
h=::b=ll.640 116.261
]2oii5.'i5i
PIN
1 2 3. 6
~
t
.D4SIII:fl
.57S
l
I"'"..... ;J
3 (28.021
~ ~
.02S
.~.
'm~n!+I" ~I
"
.09012.291
PIN 2
POSITIVE CT
PIN1~
PIN 3~E
Dimensions in inches
and
(millimeters)
• Plastic package has UndelWriters Laboratory
Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Dual rectifier construction, positive center-tap
• Guard Ring for transient protection
MECHANICAL DATA
case:
TO-220 Molded Plastic .
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
CROSS-REFERENCE GUIDE
GI
SBL1040CT
FUJI
ESAC82-004
SHINDENGEN
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specifl9d.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single
.talf sine-wave ~uperimposed on rated load
JEDEC Method
Maximum Instantaneous Forward Voltage
Per Leg IF" 5.0A,Tc .. 25'C (Note 2)
Maximum Average Reverse Current at Tc .. 25'C
Rated DC Blocking Voltage per element Tc= 100'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Teml!erature Range
SYMBOLS
SBLf030CT
SBL1D4DCT
VRRM
VRMS
Voc
30
21
30
40
28
40
hAVl
10.0
Amps
IFSM
175
Amps
VF
.55
0.5
50.0
3.0
-40 to +125
40to+150
Volts
IR
R8JC
Tc
TSTg
NOTES:
1. Thermal Reslstanca from Junction to Case.
2. 3OO~s Pulse Width, 2% Duty Factor.
-112-
Volts
Volts
Volts
mA
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES SBL 1030CT AND SBL 1040CT
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
-----,--
300
8,3ms SINGLE HALF SINE·WAVE
JEOEC METHOD
FIG. 1 -
..:
2
W
W
(!)(J)
([W
FORWARD CURRENT DERATING CURVE
:::J([
12.5
"'W
0"([:::i
10
([2
([
([
:::J
0
0'"
([W
«([
:;:W
,
O:::i
W
(!)
«
([
OW
100
r--.....
I
......... ..........
I
50
:
«
__ L--;.1.
5
,
\
50
1()()
150
50
.
f-
2
w
([
([
:::J
0
0
./
10
([
:;:'"
([w
0([
u..~
"':::;
:::J«
..:
z
W
1.0
...i---"'"
~ ~Te'
r-
([
([
~-
:::J
0
w'"
"'W
([([
Ww
>,,W:::i
([«
:::J-'
2
«
.01
"
/
/
I
10
f-
«
I
f-
'"~
01
~t~;r;lDTH ~ 300 ~ s -
/
2% DUTY CYCLE
10
.. -
FIG. 5 Tc'" 25°C
TYPICAL JUNCTION CAPACITANCE
4000
u..a.
"".
0
2
«
fU
«
"«
'"~
TJ '
25~C
0
10
'"
1000
800
600
400
200
.()()1
~
[
[[I
2000
ui
f-
~
1.1
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
I
w:::i
f-
-'
......-
2
2
«
100
2
75°C
0.1
~
50
«
......
......
"'O:::!
0
w
..-
'f":;'~
20
«
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
10
Te'
10
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
CASE TEMPERATURE, °C
r--
. . . . . ~-~+ I
- -
NUMBER OF CYCLES AT 60Hz
~
2.5
W
>
150
wO
"-
~
u..«
««
:;:..:
u..([
«:::J
(["-
1
200
><:([
\
7.5
250
~
~
100
1~
PERCENT OR RATED VOLTAGE PEAK
RFVERSE VOLTAGE
100
01
04
10
REVERSE VOLTAGE, VOLTS
-113-
........
40
80 100
MBRF1535CT AND MBRF1545CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 15 Amperes
---
FEATURES
ITO·220 CT
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capabilHy, low VF
• High surge capacity
• EpHaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (S.35mm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
PIN1~N2
PIN3~
Dimensions in inches
and
(millimeters)
Case: .ITO-220 Molded Plastic
Terminals: Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load. derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
See Fig. 1
Maximum Average Forward Rectified Current
Peak Forward Surge Current, 8.3ms single
haW sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per leg IF = 7.5A,Tc - 125'C (Note 2)
IF = 15A, Tc=125'C
IF -15A, Tc '" 25'C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage per element
Tc'" 125 'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element
Tc=25'C
Voltage Rate of Change, (Rated VR)
Typical Thermal Resistance (Note 1)
Maximum Operating Junction Temperature
M\'lximum Storage Temperature
NOTES: 1. Thermal Resistance from Junction to Case per element.
-1'14-
MBRF1535CT MBRF1545CT
UNITS
I
I
I
15.0
Votts
Volts
Volts
Amps
IFSM
150
Amps
VF
.057
0.72
0.84
Votts
IR
15.0
rnA
35
25
VRRM
VRWS
Vee
I(AV)
35
45
32
45
0.1
1000
3.5
-65 to +150
-65 to +150
2. 300 J1S Pui&e Width, 2% Duty Factor.
IR
dV/dt
R8JC
Tc
TSTG
mA
VI)J.S
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBRF1535CT AND MBRF1545CT
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
-r::IA[IIrrr
160
W
140
~
(!)(I)
r:
a:W
:::J a:
CIlW
FIG. 1-FORWARD CURRENT DERATING CURVE
~
i3
fifil
a:'"
«
u.
~§
8.0
W
«
a:
4.0
W
~
o
o
50
'"
40 ,
10
5
I'-..
~
~
""""to- 100
20
50
NUMBER OF CYCLES AT 60Hz
~
100
........
60
\
(!)
r---......
60
wU
~
O:!!
""
I
r-.
c--.
12 ~
~
ffi12.0
JEDEC Method
!
~
100
~r:
a:Z
16.0
~
120
O~
a: «
20.0
a:
a:
........
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
~
CASE TEMPERATURE. 'C
Z
I
W
a:
a:
:::J
U
0
./
125'C-/
TJ
.-
,.,...
./
10
V"
a:
«
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
;;:CIl
W
/
u.~
10
CIl:::;;
:::J«
0
W
TJ - 1250 C
I;""
f
a:
Oa:
/
I
1.0
/
TJ
25~C
Z
«
I-
r:
zW
Z
«
CIl
~
a:
a:
:::J
0.1.1
U
WCIl
CIlW
a:
a:
Ww
>",
W:::;;
~
0.1
a:«
:::J..J
0=
W:::;;
CIl-
" , T, ~ 7S'C
"
u. 2000
./
I~
.01
tl""'-rJ
=
Q.
u.i
U
25° C
Z
«
I0
«
'"«
I-
CIl
~
.2
.3
.4
.S
.6
.7
"
1000
800
600
400
--
.9
1.0
-1'-0
U
...........
200
.001
20
.8
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
FIG. 5- TYPICAL JUNCTION CAPACITANCE
«
«
/ I
f
4000
Z
Z
J
I-
1.0
40
60
80
100
120
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
.... ~
100
0.1
0.4
1.0
10
REVERSE VOLTAGE. VOLTS
-115-
40
60 100
I
MBRF1550CT AND MBRF1560CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 15 Amperes
FEATURES
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 secondsl.25", (6.35mm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
ITo-220CT
.13 t .008
13.3 <0.21
,.107 t .008
12.7'0.21
MECHANICAL DATA
.,. ...4°REF.......
PIN 1 <>--*-t.!}.N 2
PIN3~ -
case: ITO-220 Molded Plastic
Terminals: Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting POSition: Any
Mounting Torque: 5 in. -lb. max.
Weight: .08 ounces, 2.24 grams
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings al 25 'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load. derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Vokage
Maximum Average Forward Rectified Current
See Fig,l
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on .rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF -7.5A,Tc - 125'C (Note 2)
IF - 7.5A, Tc - 25'C
Maximum'lnstantaneous Reverse Current at Rated
DC Blocking Voltage per element
Tc-l00'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element
Tc-25'C
Voltage Rate of Change, '(Rated VR)
Typical Thermal Resistance (Note 1)
Maximum Operating Junction Temperature
Maximum Storacie Temperature
NOTES:!. Thermal Resistan,os from Junction to Case per element.
-116-
SYMBOLS
MBRF15socT MBRF1560CT
UNITS
VRRM
VRWS
Vee
I
I
I
Voks
Volts
Volts
so
35
50
60
42
60
IIAV)
15.0
Amps
IFSM
150
Amps
VF
.65
.75
Volts
IR
50.0
mA
1.0
1000
3.5
-65 to +150
-65 to +150
2. 300 fIB Pulse Width. 2% Duty Factor.
IR
dv/dt
R8JC
Tc
TSTG
rnA
VlILS
'CIW
'C
'0
RATINGS AND CHARACTERISTIC CURVES MBRF1550CT AND MBRF1560CT
FIG, 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
180
140
UJ
II: 120
UlW
FIG. 1-FORWARD CURRENT DERATING CURVE
~
"'- .........
Urns SINGLE HALF SINE-wlvE
JEOEC Method
........
a~
~ <{ 100
20.0
II:
II:
..... ~
~..,:
II:Z
i3
16.0
I
~ ~ 12.0
~
II:~
~ <{
8.0
W
<{
II:
4.0
W
>
<{
o
o
50
~~
wO
a..
80
5
..........
10
"'-
~~""
20
50
100
NUMBER OF CYCLES AT 60Hz
~
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
100
~
40 ,
\
./
T, = \25 C
0
10
0
L
..,
~
a
II:
<{
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
~Ul
II: W
offi
u.a..
10
1500 C
Tc
~
Z
W
II:
II:
,..,
"..,
1.0
....Tc
= 125
0
Z
<{
I /
I~
0.1
.1
""
25° C
.2
.3
TJ = 25° C
PULSE WIDTH
2% Duty Cycle
.4
.6
.5
.7
.8
=:
300,...5
.9
1.0
INSTANT ANEOUS FORWARD VOLTAGE.
VOLTS
l/ io"""
FIG. 5-TYPICAL JUNCTION CAPACITANCE
II:<{
Ul-
4000
::>...J
L
Tc - 75 C
0==
G
W~
/
~'f'Tc :
,/
Z
<{
I-
Z
<{
TJ
I-
C
I-
0.1
/
V
W
Z
<{
::>
W~
J
=><{
0
Ul
~
0
WUl
Ul w
II: II:
Ww
> a..
/
Ul~
.01
25
u. 2000
a.
ui
0
0
Z
<{
I-
Ul
~
t:
0
<{
a..
/
-.....
1000
800
800
400
ITJ~ 125J/+
1= 1MHz
'!sig = 50mVp·p
-1-00
<(
........ ~
0
~,
200
.001
20
40
80
80
100
120
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
4
10
REVERSE VOLTAGE. VOLTS
·117·
I'~
40
80 100
I
MBR1535CT AND MBR1545CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 15 Amperes
FEATURES
• Plastic package has Underwriters Laboratory
TO-220CT
Flammabiltiy Classifications 94V-O
• Metal to silicon rectHier,
'i9°~Pl!
• so .0
majority carrier conduction
•• 05511.48)
.04511.141
• Low power
loss, high efficiency
.150 [U1J
.QO£~~J _
.soo [ .24J • High current capability, low VF
• High surge capacity
.3S06:14J
.575 U4.&ll
.320 [8.131
• Epitaxial construction
• For use in low voltage, high frequency inverters,
11~3 29.54J
"II"'9--L..-free wheeling, and polarity protection applications
.1 3 [28.02J
.025
• High temperature soldering guaranteed:
'5S0!l24'22i "'MAX.
250'C/10 seconds/.25", (6.35mm) from case
.530 [t4SJ
• Guard Ring for transient protection
1
1
PIN
1
--LJ
i
1
·gm~
"
m· ::.
.11012.791
.090 [2.29J
PIN 2
POSITIVE CT
PINI~
PIN 3 ~CIiSE
Dimensions in inches and (millimeters)
MECHANICAL DATA
Case: TO-220 Molded Plastic
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate currant by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc= 105'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Instantaneous Forward Voltage
Per Leg IF. 7.5A, Tc = 125'C (Note 2)
IF. 15A. Tc. 125'C
IF = 1SA. Tc = 2S'C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage per element Tc = 125'C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage per element Tc .. 25'C
Voltage Rate of Change. (Rated VR)
Typical Thermal Resistance (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES:
1. Thermal Resistance Junction to CASE.
2. 300 lIB Pulse Width. 2% Duty Factor.
3. 2.0 lIB. 1.0 KHz.
-118-
SYMBOLS
MBR1636CT
MBR1646CT
UNITS
VRRM
VRWM
Voc
35
24.5
35
45
31.5
45
Volts
Volts
Volts
IIAV)
15.0
Amps
IFSM
IRSM
150
1.0
Amps
Amps
VF
0.57
0.72
0.84
Volts
IR
15
mA
IR
dv/dt
R9JC
TJ
TSTG
0.1
1000
3.0
-65 to +150
-65 to +175
mA
V/jJ.S
'cm
'c
'c
RATINGS AND CHARACTERISTIC CURVES MBR1535CT AND MBR1545CT
FIG. 3 --- MAXIMUM NON-REPETITIVE
SURGE CURRENT
160
140
W
a:W
::la:
(J)W
aQ.
a:::;
««
3: ~.
a:Z
OW
... a:
><:a:
«::l
wU
~
ClUl
~
FIG. 1 --- FORWARD CURRENT DERATING CURVE
ffi
200
B
16.0
a:
a:
,
~8l
3: a.
c( ffi12.0
\
gj~
...
W
80
Cl
«
a:
4.0
W
~
o
50
100
JEDEC Method
~
laO
.L
.........
80
........
60
10
N
......... .....
20
I
"'1'-
50
100
FIG. 4 --- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
50
r
Z
W
a:
a:
::l
U
a
a:
«
~(I)
a: W
I
,
TJ" 125°C
~
1.0
./
,
J
~
0.1
/
I
/ /
.2
TJ - 75°C
~
L
I
1.0
~
./
10
0::5
(I)::;
::l«
0
W
Z
«
r
Z
«
r(I)
I
'125~r::/
TJ
"'0..
TJ"25°C
J
.3
.4
.5
.6
.7
.8
.9
1.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
I'"
FIG. 5 -
_.+-
TYPICAL JUNCTION CAPACITANCE
400a
~.
V
/'
TJ~25°C
r--
I.L.
C.
Z
1000
«
800
(3
600
0..
W::;
a:«
(1)::l-'
O:::!
W::;
z
«
~
Z
«
~
(J)
120
1\
o
........
40
60
80
lOa
120
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-119-
...
40
80 100
MBR1550CT AND MBR1560CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts
CURRENT· 15 Amperes
FEATURES
• Plastic package has Underwriters Laboratory
. TD-220CT
Flammabiltiy Classifications 94V-0
• Metal to silicon rectifier,
majority carrier conduction
• Low power
.1~g(3.~1l
loss, high efficiency
·l,..f[~J!) h=:::!:==11.640 (1626)
• High current capability, low VF
.360
(9.14)
.620(15.75)
• High surge capacity
.320tJ.3)
PIN
2 3
~
~l .'-n-'''I----:L-.- • Epitaxial construction
• 6014.06)
• For use in low voltage, high frequency inverters,
I:IOn28.02l
.025
.14013.56)
free wheeling, and polarity protection applications
t
J+MAX.
• High temperature soldering guaranteed:
2S0'C/10 seconds/.25", (6.3Smm) from case
• Guard Ring for transient protection
It
1
I
::~::i
r·II,:m~:l:l
.J
':AggglII
'~+I
••
.nill.W
.190 [4.83)
POSITIVE CT
+ .110[2.79)
.090(2.29)
PIN 2 _ _ _ _ _ _ _ _ _M_c_C_H_!A_N_'_C_:A_L_D_:A_t_:4_
PIN lo----tot-LJ::
. PIN ~~E
case: TO-220 Molded Plastic
Dimensions in inches and (millimeters)
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting PosUlon: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
atTc = 10S'C
Peak Forward Surge Current, a.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF = 7.5A,Te = 125'C (Note 2)
IF = 7.5A, Te = 25'C
Maximum Average Reverse Current at Te = 25'C
Rated DC Blocking Voltage per element Tc - 100'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
MBR1650CT
VRRM
VRMS
Vee
50
35
50
MBR166tJCT
UNITS
60
42
60
Votts
Volts
Volts
I
I
I
ICAVI
1S.0
Amps
IFSM
150
Amps
VF
.75
1.0
50.0
3.0
-65 to +150
-65 to+150.
.65
IR
R9JC
Te
TSTG
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 (.IS Pulse Width, 2% Duty Factor.
-120-
Volts
rnA
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR1550CT AND MBR1560CT
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
160
..:
.FIG. 1 -
if:
W
ClUl
a:W
=>a:
UlW
FORWARD CURRENT DERATING CURVE
.......
8.3ms SINGLE HALF SINE-WAVE
JEDEC Method
.........
120
.......
......
00.
a:::;
20.0
a::
a::
=>
U
140
««
~
100
~..:
a:Z
OW
u..a:
!<:a:
«=>
wU
16.0
OUl
a:: W
~ ai12.0
a:: 0.
O~
I.J...
W
\
Cl
«
a:
W
>
,
"""""'" r--....
60
i' r--i'o
0.
\
8.0
~
60
40 ,
5
10
20
50
l
4.0
1\
«
50
100
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
CASE TEMPERATURE, "C
50
f-
Z
W
a:
=>
U
./
a:
/
10
0
a:
«
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
~Ul
W
oa: a::
Ul~
~"C
=>«
W
Z
«
fZ
«
0
L.,..oo'"
..:
z
W
a:
a::
=>
U
WUl
Ul W
a: a::
Ww
,
1.0
"...- "":;:C" 125" C
I
10
,
f-
Ul
0.1
V
W~ 01
a:«
Ul=>-'
W~
~
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
V
/
~t,:C=25" C
.01
u..
a.
ui
U
Z
«
f-
~
U
«
«
U
2000
1000
I I II
/+.
ITJ"1251
........... r--.~
f= 1MHz
ysig = 50mVp-p
800
600
400
0.
/
V
~
I
Tc = 75" C
f-
.001
10
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
4000
I--- I--
oo::!
Tj = 25" C
PULSE WIDTH = 300.}Js2% Duty Cycle
II
~
>0.
Z
«
Z
«
fUl
I
/
u..~
10
~
00
00
100
1~
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
......... ~
200
1"1"0
100
01
0.4
10
10
REVERSE VOLTAGE. VOLTS
-121-
40
80 100
•
,;•••
100
NUMBER OF CYCLES AT 60Hz
MBRF1635 AND'MBRF1645
SCHOTTKY RECTIFIER
VOLTAGE RANGE -35 and 45 Volts CURRENT - 16 Amperes
FEATURES
ITO-220
.13 •• 008
(3.3-0.21
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
,.10H.008
(2.7'0.21 • Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
......4·REF.... ...
PIN 10-----,
PIN 2 o---+f-l
Dimensions in inches and (millimstsrs)
Case: ITO-220 Molded Plastic
Terminals: Solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any Mounting Torque: 5 in. -Ibs. max.
WeIght: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Vottage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
See Fig.l
Peak Repetitive Forward Current, Square Wave
20 KHz, 50% Duty Cylce at Tc = 125'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (2.0I1s, 1KHz)
Voltage Rate of Change, (rated VR)
Maximum Forward Voltage(Note 1) IF-16A, Tc=125'C
IF = 16A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc = 125'C (Note 1)
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc = 25'C
Maximum Thermal Resistance,Junction to Case
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTIES: 1. Pulse Test Pulse Width 300 lUI, Duty Cycle 2%.
-122-
SYMBOLS
AfBRF1635
MBRF1645
UNITS
VRRM
VRMS
Voc
35
25
35
45
32
45
Votts
Votta
Volts
I(AV)
16.0
Amps
IFSM
32.0
Amps
IFSM
IRSM
dv/dt
Amps
Amps
VF
VF
150
1.0
1000
0.57
0.63
IR
40
mA
IR
RaJC
TJ
TSTG
0.2
2.0
-65 to +150
-65 to +175
VlIlS
Votts
Votts
mA
'om
'C
'0
RATINGS AND CHARACTERISTIC CURVES MBRF1635 AND MBRF1645
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
150
125
W
(!lCll
a::W
:::>a::
CIlW
011.
a:::E
c(c(
FIG. 1-FORWARD CURRENT DERATING CURVE
20
~
Ire"
......
..........
100
.........
75
r-...... r--. r-..
;:...:
a::Z
OW
... a::
:.::a::
c(:::>
wO
16
\
OCll
~~
12
12a::~c(
8
;:W
~
0
25
II.
o
100
50
5
10
~
Z
W
V
TJ= 125°C
o
~ffl
=
lil
TJ" 15O"'C
W
""
10
a::
a::
:::>
°
r--
20
"
L
U.
2000
ui
0
Z
c(
1000
Q.
60
-
I
60
100
1
If I
~
~
PULSE WIDTH = 300 •.11:1
2% Duty Cycle
A
~
~
~
~
J
~
1~
FIG. 5-TYPICAL JUNCTION CAPACITANCE
5000
4000
~
13
c(
II.
I I
-
.......
800
TJ == 25° C
~
600
.....
400
c(
0
TJ '" 25°C
40
I
t;;
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
~ ~TJ = 75°C
,i. ....... V
TJ = 25°C
~
Z
c(
0.1
,.
/
Z
~
1
/
1.0
I'
c(
TJ'" 125°C
./
.0
I'
o a::
... ~
en::!!
:::>c(
100
z
./
V V
a::
c(
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
...:
~
10
o
.-
100
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
a::
a::
:::>
.J1>
50
50
150
CASE TEMPERATURE, ·C
./
20
NUMBER OF CYCLES AT 60Hz
i\
ffi
;c
,
50
\
W
I III
1WC
8.3 ms SINGLE HALF SINE-WAVe
JEDEC METHOD -
120
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
200
:-..
100
0.1
0.4
1.0
4
10
REVERSE VOLT AGE, VOLTS
-123-
40
80 100
MBRF1650 AND MBRF1660
SCHOTTKY RECTIFIER
VOLTAGE RANGE· 50 and 60 Volts CURRENT· 16 Amperes
FEATURES
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
2S0'C/10 seconds/.2S", (6.3Smm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.Sk VRMS
ITO-220
MECHANICAL DATA
PIN 1 <>----;
PIN2~
Dimensions in inches and (millimeters)
Case: ITO-220 Molded Plastic
Terminals: Solderable per MIL-STD- 202,
Method 208
Polarity: As marked
Mounting Position: Any Mounting Torque: 5 in .. Ibs. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current See Fig.l
Peak Repetitive Forward Current, Square Wave
20 KHz, 50% Duty Cylee at Tc -125'C
Peak Forward Surge Current
8.3ms single half sine·wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (2.0IlS, 1KHz)
Voltage Rate of Change, (rated VR)
Maximum Forward Voltage(Note 1) IF-I6A, Tc-125'C
IF alSA, Tc = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc = 100'C (Note 1)
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc = 25'C
Maximum Thermal Resistance,Junction to Case
Maximum Operating Junction Temperature
Maximum Storaoe Temperature
NOTES:
I. Pulse Test Pulse Width 300
j.LS,
Duty Cycle 2%.
·124·
SYMBOLS
AfBRF16S0
MBRF1660
UNITS
VRRM
VRMS
Voc
I(AV)
50
35
50
SO
42
SO
IS.0
Votts
Volts
Volts
Amps
IFsM
32.0
Amps
IFSM
IRSM
dV/dt
VF
VF
150
1.0
1000
0.S5
0.75
Amps
Amps
VIIlS
Votts
Votts
IR
50
mA
IR
R8JC
TJ
TSTG
1.0
2.0
·S5 to +150
·S5 to +175
mA
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBRF1650 AND MBRF1660
FIG. 3-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
160
~ U)
a:W
:Ja:
140
"
W 120
011.
CI)
FIG. 1-FORWARD CURRENT DERATING CURVE
~
w
a:
a:
:J
««
16.0
a:Z
OW
u.. a:
80
~
60
~~
a::::t
12«
12.0
\
6.0
4.0
,
()
40
0
o
50
~
I'....
.......
~
10
1
50
20
100
NUMBER OF CYCLES AT 60Hz
FIG. 4- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
100
'"
I""" i'ooi'oo
1\
W
::(
~§
\
w
~
~
~~ 100
()
oen
a: ~
a::::t
20.0
8.3m, SINGLE HALF SINE WAVE
JEDEC Method
~
r-
CASE TEMPERATURE,·C
50
Z
w
1/
a:
a:
:J
()
o
/
10
a:
«
~l3
FIG. 2- TYPICAL REVERSE
CHARACTERISTICS
LL~
en:::t
10
-
,
Oa:
5«
Te'" 150°C
I
I
1.0
W
Z
~,.,
""
«
r-
~C=125OC
Z
«
I
ren
0.1
A
~
~
J
~
~
1~
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
~
Te = 75°C
./
TJ=25°C
PULSE WIDTH = 300ps
2% Duty Cycle
1/
~
~
",
FIG. 5-TYPICAL JUNCTION CAPACITANCE
4000
1
,
"'"
Te;: 25°C
LL 2000
L
c.
ui
~
r-.
I
f = .1MHz
Vsig "" 50mVp-p
~ ...
1000
~ 600
6600
«400
«
()
f
,001
I
T,=~5.d
11.
V
20
......... ....
200
40
60
60
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-125-
I'~
40
60100
I
MBR1635 AND MBR1645
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 18 Amperes
FEATURES
TD-220
.420 (10.671
.380 ~.651
..
1
•• 055[1.401
.1 f[i:J!!I=-
.6001.241
.575 [14.611
+--:t .160[4
.155 [3.941 DIA
.145p.681
•
+
.045 iI.Iiil
'i58 [3.811
I
I
II
I
11==+=="11.640 [16.261
.620 [15.751
1
1I:.;9==f2~.~
PiN
.36019.141
.320 [8.13)
~
t
+1
_
I.:m~:g;l
.210[5.331
.190[4.831
~
1
!
PIN
Llliill.W
l'.".n"""r"'"
..... J
1.10 [ 2 i . i 1 .
.025
·gu~ 1til·l .. ~I
"
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capabUlty, tow VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250·C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
MECHANICAL DATA
.090[2.291
[CASE POSITIVEI PIN 1 + ~
STANDARD POLARITY PIN 2 - <>---t>t-JCASE
Dimensions in inches and (millimeters)
CBse: TO-220 Molded Plastic
Terminals: Solderable per MIL-STD202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings al 25'C ambienl temperature unless otherwisa specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
aITc= 125'C
Peak Repetitive Forward Current, Square Wave
20 KHz, 50% Duty Cylce at Tc .. 125'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0ILS, 1KHz)
Voltage Rate of Change, (rated VR)
Maximum Forward Voltage(Note 1)
IF=16A, Tc=125'C
IF • 16A, Tc. 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc .. 125'C (Note 1)
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc .. 25'C
Maximum Thermal Resistance,Junction to Case
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES:
1.· Pulse Test Pulse Width 300 !IS, Duty Cycle 2%.
-126-
SYllBOLS
MBR1635
1rIBR1S45
UNITS
VRRM
VRWM
Vee
35
35
45
45
35
45
Volts
Volts
Volts
I(AV)
16.0
Amps
IFSM
32.0
Amps
IFSM
150
Amps
IRSM
dv/dt
1.0
1000
Amps
VlILS
VF
VF
0.57
0.63
Volts
Volts
IR
40
mA
IR
R8JC
TJ
TSTG
0.2
1.5
-65 to +175
-65 to +175
mA
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR1635 AND MBR1645
FIG. 3 300
.,.:-
FIG. 1 -
z
FORWARD CURRENT DERATING CURVE
,
w
a:
a:
;:)
II
OCl)
W
«a: a:
~~
1
f2~
W
««
~
.....
200
.I,Te"15"C I .~..I.J
8.3 rna SINGLE HALF SINE-WAVE
JEDEC METHOD -
~~
r---.....
150
i"' ~ ~
~.,.:-
a:Z
OW
...
a:
:..:a:
«;:)
Wll
\
8
(!)
«
a:
W
(!)CI)
a:W
;:)a:
Cl)W
oil.
a::E
250
MAXIMUM lIION-REPETITIVE
SURGE CURRENT
100
50
!L
5
10
20
50
100
NUMBER OF CYCLES AT 60Hz
\
4
W
~
a
50
100
CASE TEMPERATURE. ·C
I'
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
~
fo-
Z
W
a:
a:
;:)
I'::
Io!!!:
~ ~
..1
TJ = 125°C
II
~
10
V V
0
a:
"'a:
Ow
"'!L
CI):E
100
;:)«
~ TJ' 15O"C
0
./
V
.,.:Z
W
10.0
W
. - r--
~
,
~ffl
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
Z
CI)
I
«f0-
.1.
~
0.1
;:)
II
~~
.2
PULSE WIDTH'" 300 jJs
2% Duty Cycle
.3
.4
...
r:;;; ~J=75°C
~
Q.
2000
ui
II 1000
Z
0.1
«
!ii
fo-
~
..... ~
~
.011 .......
20
40
U
«
«
V"
!L
II
TJ' 25'C
60
I
80
.6
.8
.7
.9
1.0
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
5000
4000
w:E
z
.5
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
V
/
1.0
5;j
z
c(
.1.
II I
.1
ffiffi
TJ '" 25°C
Z
TJ = 125°C
~ffl
"
«fo-
a:
a:
a;~
/
1.0
/
100
120
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
,
--
I'r--
TJ = 25°C
800
800
400
....... """
200
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-127-
"' ...
40
80100
I
MBR1650 AND MBR1660
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts
CURRENT - 16 Amperes
FEATURES
TO-22O
.420110.671
.38019.651
•
-p- J
.15013.811
.13013.301
tt
11===+===11.640116.26)
.620115.7S)
PIN
PIN
16::F;==r2~ l
1
. .
1.16014.061
...1 • .055 11.401
.045 (1.14)
.36019.141
.32018.131
~
~
3 29.54
1.10 3128.021
i
.60011.241
.575 (14.611
1
""
I"~"'
.,~~.
.5301t 461
"11·:m~::;l
____ .21015.331
.19014.831
ICASE POSITIVE)
.
.~
.01410.36)
PIN I
+
• Plastic package has Underwriters Laboratory
Flammabiltiy ClassificatiOns 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in Ibw voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protectiOn
I ... 11012.791
-
.09012.291
<>-----t..:.
STANDARD POLARITY PIN 2 - o---+t-lCASE
Dimensions in inches and (millimeters)
MECHANICAL DATA
Case: TO-220 Molded Plastic
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load.
For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectnied Current
see Fig. 1
Peak Forward Surge Current, 8.3ms single
ha~ sine-wave superimposed on rated load
. (JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg
IF = 16A, Tc = 125'C (Note 2)
IF = 16A, Tc = 25'C
Maximum Average Reverse Current at Tc =25'C
Rated DC Blocking Voltage per element Tc- 100'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storace TemDerature Rance
SYMBOLS
MBR165D
MBR1660
UNITS
VRRM
VRMS
Voc
50
35
50
60
42
60
Volts
Volts
Volts
ICAV)
16.0
Amps
IFSM
150
Amps
VF
IR
R8JC
Tc
TSTG
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 lIS Pulse Width, 2% Duty Factor.
-128-
.65
.75
1.0
50.0
3.0
-65 to +150
-65 to +150
Volts
mA
'CNoi
'C
'c
RATINGS AND CHARACTERISTIC CURVES MBR1650 AND MBR1660
FIG. 3 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
160
FIG. 1 ~
FORWARD CURRENT DERATING CURVE
,
200
zW
a::
a::
:::l
16.0
()
OUl
a:: ~ 120
:;:~
a::Z
OW
u.a::
>(a::
<{:::l
W()
11.
~
~~
a::::;
S:><{
W
(!)Ul
a::W
:::la::
UlW
011.
a::::;
<{<{
80
140
~
........
120
8.3ms SINGLE HALF SINE WAVE
JEDEC Method
"'-I"-
....
100
........
80
.......
60
........
:--..
40
10
20
""'!"-
50
100
NUMBER OF CYCLES AT 60Hz
W
(!)
<{
a::
W
~
4.0
>
<{
\
o
o
100
50
CASE TEMPERATURE,
0
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
50
I-
C
Z
1/
W
a::
a::
:::l
()
o
/
10
a::
<{
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
~~
a a::
f
/
u.~
10
-'
Ul::;
~ Tc-1S0°C
o:::l<{
I-
Z
1.0
W
~
Z
W
a::
a::
:::l
.",
1.0
......-;,
I'"
<{
1-.
Z
_12sac
<{
IUl
WUl
Ul W
a:: a::
Ww
>11.
W::;
a::<{
Ul- 0.1
:::l-'
O:::!
W::;
.2
Tc
=
25°C
/
I-
~
5
6
7
8
9
10
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
/
U.
a.
ui
Z 1000
<{
l- 800
600
II
<{
400
11.
<{
If
--
LJ5 1111
0
f=.tMHz
VSlg = 50mVp-p
r-~
MBR1650
MBR1660
()
/
20
2000
()
01
001
2% Duty Cycle
.4
4000
./
Z
<{
3
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
L ~
Tc= 75°C
TJ = 25~C
PULSE WIDTH = 300!J s
II
1
z<{
I-
Ul
I
Z
()
40
60
80
100
..........
I
200
I"ro-
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
40
80 100
REVERSE VOLTAGE, VOLTS
GENERAL
INSfRUMENT
-129-
SBLF1630CT AND SBLF1640CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts
CURRENT - 16 Amperes
FEATURES
ITO-220CT
.405 MAX .. ,
" 110.31
.13 t .008
(3.3 to.21
.1581.008
(4t.021_ ,.189 MAX.
1_
(4.81
.• '.:.ll..!:!!!:. .
.103 MAX.
12.6J
.
1 piN 3
1171
1
tL-Tr......M--I
I!!
!
-r-
.051t.008
l1.3 t O.21
I·
5312 MIN
004 , ., 1 U .51
•029!:00,
(O.75±8:~)
1.I .. l
2.54
Ii
I
'I'" -
.
,.107!.008
12.7 t O.21
~
4° REF.
.028 008,1"
.. ..
.. "10.710.21
• Isolated overmolded package
• Metal to silicon rectHler,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use In low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250·C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.5K VRMS
MECHANICAL DATA
t.
""
o
~
20.0
4.0
o
o
50
100
w
150
;
c(
100
..........
r--. ... ,..
"""
a:
ou..
50
><
I'
8.0
Ul
~~
12.0
!
~
:>a:
,
16.0
Ul 200
a:W
FIG. 1-FORWARD CURRENT DERATING CURVE
..:
W
0
Q,
"1\
1
--
10
:""--
""""~
20
50
100
NUMBER OF CYCLES AT 60 Hz
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
..:
z
CASE TEMPERATURE, 'C
100
w
a:
a:
:>
o
./
0
c
,/
a:
~~
FIG.2-TYPICAL
REVERSE CHARACTERISTICS
a: a:
Ow
100
u..Q,
UI::i!
:;) c(
o
.L
.L
1.0
Il
W
Z
..:
z
w
a:
..:
Tc ~ 100:';"
10
....
z
V
....
:>
o
WUl
UlW
Z
J
a: a:
Ww
~
>Q,
W::i! 1.0
a:..:
_I
o.
111
.2
""
T,
25° C
PULSE WIDTH -= 300 ~s
2% Duty Cycle
.3
.4
.5
.6
.7
.8
.9
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
,....Tc~75·e
FIG. 5-TYPICAL JUNCTION CAPACITANCE
UI:::;
~oo
:>....J
~2
z
u..
V
..:
....
z
~
I
~
UI
a:
C>.
..:
UI
!::
Z
0
..:
Q,
T, ~ 25. l e I I
f = 1MHz
r- ,..,..
ui
0
Z
K-25'e
0.1
2000
Vsig = 50mVp-p
1000
500
600
400
..:
/
l"-
0
200
0.01
~
~
50
50
100
ftO
1~
PERCENT OF RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
4
10
REVERSE VOLTAGE, VOLTS
-131-
..
~
50 100
I
SBL1630CT AND SBL1640CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts
CURRENT -16 Amperes
FEATURES
TD-220CT
19014.83)
~~
....1 ' .04511.14)
.05511.4111
•
•15013.81)
.lJfl~@)
h=====11.6401l626)
.620115.75)
PIN
123
1
:oMm
:l~~ t3:~6:
!..ill..illMl
3 29.54)
3128.02)
I:IDn28.lrn
,.·~~~itl~)
-~
.19014.83)
.025
+ MAX.
46)
.JI2lilMil..
•01410.36)
)
.6001.24)
.575114.611
1
r
It
I~n"'"
.530
+1 I' :~~ :~:::~
.J
.36019.14)
.320tl31
Jmu",
MECHANICAL DATA
.09012.29)
PIN 2
POSITIVE CT
• Plastic package had Underwrhers Laboratory
Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability,low VF
• High surge capacity
• Ephaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
2S0'C/10 seconds/.2S", (6.3Smm) from case
• Guard Ring for transient protection
PIN1~
PIN 3o--tot-1CASE
Dimensions in inches and (millimeters)
case:
TO-220 Molded Plastic
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
CROSS REFERENCE GUIDE
GI
SBL1640CT
FUJI
ESAD82-004
SHINDENGEN
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25 'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at TC=95'C
Peak Forward Surge Current, S.3ms single
haH sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF - S.OA,Tc = 25'C (Note 2)
Maximum Average Reverse Current at Tc = 25'C
Rated DC Blocking Voltage per element Tc.. 100'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
SBL1630CT
SBL1IUOCT
UNnS
VRRM
VRMS
Voc
30
21
30
40
28
40
Volts
Volts
Volts
ICAV)
16.0
Amps
IFSM
250
Amps
VF
.55
0.5
50.0
3.0
-40 to +125
-40 to+150
Volts
IR
R8JC
Te
TSTG
NOTES:
1. Thermal Resistance from Junction to Case.
2 300 JIB Pulse Width. 2% Duty Factor.
-132-
mA
'CNoI
'C
'C
RATINGS AND CHARACTERISTIC CURVES SBL 1630CT AND SBL1640CT
FlO. 3 -
MAXIMUM NON· REPETITIVE PEAK
FORWARD SURGE CURRENT
300
W
250
::>a:
200
~:a
II.)W
FIG. 1 - FORWARD CURRENT DERATINO CURVE
20.0
0'"
a::::;;
,
16.0
«
150
~~
a:z
OW
14. a:
",a:
...;513
1\
100
I 8.3ms SINGLE HALF SINE-WAVE
JEOEC Method
"
I '~
....... r-....
50
5
\
4.0
o
o
50
..
100
10
~
I-
Z
W
~
10
o
I'
a:
~:a
FlO. 2 - TYPICAL REVERSE
CHARACTERISTICS
,
~ffi
14. ...
100
11.):::;;
5<
II
10
W
~
Z
V
~
.2
i-"'"
,.", Te'
PULSE WIDTH::: 300 /J.s
2% Duty Cycle
I
0.1
o
TJ" 25°C
I
~
a:
a:
::>
./
100
100
o
Tc::: 100·C
~
50
Fig. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
a:
a:
::>
10
20
NUMBER OF CYCLES AT 60Hz
CASE TEMPERATURE, ·C
~
W
.....
.3
.•
.5
.6
.7
.8
.9
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
we
FlO. 5 -
TYPICAL JUNCTION CAPACITANCE
1
/
1
TC'2.S·C.=:
/'
./
.0
20
..a
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
80100
REVERSE VOLTAGE, VOLTS
·133-
I
MBRF2035CT AND MBRF2045CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 20 Amperes
FEATURES
ITD-220 CT
.13 •• 008
13.3 to.2l
.+. .+.ll....!I8L
.
1m
.103 MAX.
1 piN 3
1
"""'i2.6l"l 4.....Jr-Jr-J·
r l I
.051 !.oMlii- i T
11.30~42l,
.029<:008
IO.1S.Ul
,.107!.008
12.1" 0.2l
, .5312 MIN.
,1.1 IIT:'Sl
ii'
2.54
~
4° REF.
.028 ".008
.". ...
.". ... (0.7 :!:O.2)
• Isolated plastic package has Underwriters Classification 94-V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss, high efficiency
• High current capability,low VF
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed: 250'C/10
secondsl.25", (6.35mm) from case
• Intemallnsulation: 1.5k VRMS
MECHANICAL DATA
,,""'lID
PIN 1
case: ITO-220 molded Plastic
Terminals: Solderable per MIL-STD-202,
<>--*L.!.!." 2
PI"3~
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in.- Ibs. max.
Weight: ,08 ounces, 2.24 grams
Dimensions in inches
and
(millimeters)
MAXIMUM RA TlNGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig.1
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
Per Leg
IF"' 10A, Tc -125'C
IF - 20A, Tc = 125'C
IF. 20A. Te"' 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc - 125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Te - 25'C
Voltage Rate of Change. (Rated VR)
Typical Thermal Resistance (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Thermal Resistance to Case. per element.
SYMBOLS
MBRF2035CT
MBRFI/045CT
UNITS
VRRM
VRM
Vee
35
24.5
35
45
31.5
Volts
Volts
Volts
45
I(AV)
20
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.57
0.72
0.84
Volts
IR
25
mA
IR
dv/dt
R9JC
TJ
TSTG
0.1
1000
2.2
-65 to +150
-65 to +175
mA
VILS
'CIW
'C
'C
2. 300 IlS Pulse Width 300 1lS, 2% Duty Factor.
3. 2.0 1lS. 1KHz.
-134-
RATINGS AND CHARACTERISTIC CURVES MBRF2035CT AND MBRF2045CT
,,
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE:. CURRENT
160
140
,
..,:
~
20.0
::J
o
16.0
0::
0::
o::W
~Q.
12.0
0::::;;
l2 « •.0
4.0
W
~
100
50
'"
....
~roo.
!l:<
~~.
Ow
LLa:
,
~~
U
w
"-""'"
80
60
roo. I'40
5
1
Z
I
W
0
0
10
00::
::J«
0
=:
f
/
u..~
en::;;
TJ" 150"C
/
V I
1.0
TJ = 25°C
W
Z
«
125°C
~
I-
i"""
Z
«
I
I-
en
~
0.1
.1
J
t
PULSE WIDTH = 300 IJs _
2t
.2
.3
.4
.5
.6
Duty
.7
YCle
.8
I
.9
1.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
TJ = 75°C
FIG. 5- TYPICAL JUNCTION CAPACITANCE
0
..
4000
u.. 2000
./
u.i
0
Z
1
«
0
«Q.
«
TJ = 25°C
V
.J'
r--- 1"-01"-
a.
,/"
.01
-
,
«
~en
o::W
100
" ,,-
i"""
~
1
TJ:: 125°C/
0::
FIG. 2-TYPICAL REVERSE
CHARACTERISTICS
100
50
50
I0::
0::
TJ
20
FIG. 4- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
::J
",-
10
NUMBER OF CYCLES AT 60Hz
150
CASE TEMPERATURE, ·C
~
r-... .....
Q.
\
W
C)
~
120
O!i 100
,
~
oen
-< ffi
w
~ fn
cnw
::>a:
FIG. l-FORWARD CURRENT DERATING CURVE
I-
V
0
,/
20
40
60
80
100
120
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
1000
600
600
400
.........
200
.......
100
0.1
0.4
1.0
10
REVERSE VOLTAGE. VOLTS
-135-
40
80 100
MB'RF2050CT AND MBRF2060CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts
CURRENT - 20 Amperes
FEATURES
• Isolated plastic package has Underwriters
Laboratory Flammability Classification 94 v-o
• Metal to silicon rectifier, majority
carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
• Internallnsulation:1.5k VRMS
ITo-220 CT
.13 •. 008
13.3 to.2)
MECHANICAL DATA
PJN1~"2
PJ"3~-
Case: ITO-220 fully over molded Plastic
Terminals: Lead solderable per MIL-STO-202
Method 208
Dimensions in inches and (millimeters)
Polarity: As marked
Mounting Position: Any Mounting Torque: 5 in-Ibs max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTCS
Ratings at 2S'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current See Fig.1
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
Per Leg (Note 2)
IF = 1M, Tc = 125'C
IF" 20A, Tc -125'C
IF - 2M, Tc .. 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc " 125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Tc .. 25'C
Voltage Rate of Change, (Rated VR)
Typical Thermal Resistance (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Thermal Resistance Junction to Case.
MBRF2050CT MBRF2060CT
50
50
50
60
60
60
20
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.70
0.85
0.95
Volts
IR
25
mA
IR
dvldt
R8JC
TJ
TSTG
0.1
1000
2.2
-65 to +150
-65 to +175
mA
Vll1s
2. 300 I1S Pulse Width 300 us, 2% Duty Factor.
-136-
UNITS
Volts
Volts
Volts
Amps
VRRM
VRM
Voc
I(Av)
'CIW
'C
'C
3. 2.011s, 1KHz.
RATINGS AND CHARACTERISTIC CURVES MBRF2050CT AND MBRF2060CT
FIG. 3-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
160
~ en
~
,
:;)
20.0
16.0
~
t>
::e ff3 12.0
«CC
~~
3: ~
""""
~
100
60
0..
60
;:sa
6.0
,
4.0
oo
50
t'oo""
"" r--...
"""" ~
""'1'-",
10
150
IZ
W
CC
CC
I
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
-~
/
......
:;)«
aW
z
z~
1250 C
-
~~
J
1.0
",.
II
0.1.1
='
I
TJ
'=
"".
-----
25° C
,
~
en
~
TJ
~
~
'.
~en
CC W
OCC
u.te
en::;:
TJ
I
10
0
CC
100
,,'-
I
TJ = 125°C/
t>
150'" C
100
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
:;)
--
50
50
CASE TEMPERATURE, °C
I--- TJ
20
NUMBER OF CYCLES AT 60Hz
1\
100
Ha!f
Sine-Wave per leg
(JEDEC Method)
CCZ
OW
~~
!s Singl~
8.3
1"0
~
~te
f2 ~
te 120
~
FIG. 1-FORWARD CURRENT DERATING CURVE
W
CC
CC
140
CCw
:;)CC
PULSE WIDTH = 300
2% Duty Cycle
.2
.3
I
.4
.5
.6
I
.8
.7
~s
I
.9
-
1.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
75° C
FIG. 5-TYPICAL JUNCTION CAPACITANCE
4000
~
V
,...
TJ
'a
~
= 25'" C
V
2000
uJ
t>
Z
1000
600
t>
600
400
~
«
0..
«
t>
II'
-
J
t-r-.
i""oo.
.....
200
.01
20
40
60
80
100
120
I I I
TJ = 25'" C
f =: 1MHz
Vsig = 50mVp-p
,
140
PERCENT OF RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-137-
40
80 100
I
MBRF2090CT AND MBRF20100CT
SCHOTTKY RECTIFIER
CURRENT - 20 Amperes
VOLTAGE RANGE -90 and 100 Volts
FEATURES
IT0-220CT
.13 1.008
13.300.2)
• Isolated plastic package has Underwriters
Laboratory Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
PIN1~"2
.....4°REF._ ...
PI"3~
Dimensions in inches and (millimeters)
CBse: ITO-220 Molded Plastic
Terminals: Solderable per MIL-STD- 202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - Ibs. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Vo~age
Maximum Average Forward Rectified Current See Fig.1
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Te • 125'C
Peak Forward Surge Current
8.3ms single ·half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (2.0us, 1KHz)
Vo~age Rate of Change, dv/dt (rated VR)
Maximum Forward Voltage (Note 1 )
IF .10A, Te - 25'C
IF .10A, Te -125'C
IF - 20A, Te - 125'C
IF - 20A, Te = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Te • 125'C (Note 1)
Peak Reverse Voltage Te = 25'C
Maximum Thermal Resistance,
Junction to Case per element
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Pulse Test Pulse Width 300 jJ.S, Duty Cycle 2%.
-138-
SYMBOLS
1IBRF2D9DCT
MBRmtOOCT
UNnS
VRRM
VRMS
Voc
I(AV)
90
64
90
100
71
100
Volts
Volts
Vo~s
20
Amps
IFSM
40
Amps
IFSM
IRSM
VlIlS
150
1.0
1000
Amps
Amps
VlIlS
VF
0.80
0.70
0.85
0.95
Vo~s
IR
IR
25.0
0.1
mA
mA
R8JC
Te
TSTG
2.2
-65 to +150
-65 to +175
'CIW
'c
'c
RATINGS AND CHARACTERISTIC CURVES MBRF2090CT AND MBRF20100CT
FIG. 3-MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
a.3 ms SINGLE HALF SINE-WAVE
JEDEC METHOD
150
W
(!)(f)
FIG. 1-FORWARD CURRENT DERATING CURVE
,
~
Z
W
II:
II:
:>
U
OCl)
II:W
<{II:
20
I
12
II:Z
OW
75
",II:
<{:>
wU
50
"
1
5
10
20
50
100
NUMBER OF CYCLES AT 60Hz
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
f-
100
f". 1''--I0000
25
<{
II:
W
>
<{
50
r-.. i""""
Il.
~
(!)
per leg
u.1I:
~
II::::;
f2<{
W
f'.... "-
;;:~
~
16
;;:~
II:W
::JII: 125
Cl)W
Oil.
II::::; 100
<{<{
Z
150
~
II:
:>
CASE TEMPERATURE. 'C
_.
10
U
o
II:
<{
~~
o II:
FIG. 2-TYPICAL REVERSE
CHARACTERISTICS
/
1
I
po. log
u.~
CI):;
::J<{
I
oW
100
Z
<{
i
.1
f-
~
~
Z
10
W
II:
II:
:>
U
WCI)
Cl)W
II: II:
Ww
>Il.
W:; 1.0
II:<{
CI):>--'
---
Z
<{
fCI)
~.Tc~125'C
~
TJ:: 25 C C
1
.01
.2
.4
~
I""" Tc ~ 75' C
.6
.7
.9
.8
FIG. 5-TYPICAL JUNCTION CAPACITANCE
W:;
Z
<{
u.
f-
~
.1
~
Tc
a.
U
Z
<{
f-
Il.
./
1000
J
T J = 25° C
f
1.0 MHz
V sig
=
5OmVp-p
BOO
600
400
I"
<{
U
./
20
- r--r-.
2000
W
25' C
U
<{
.01
.5
4000
O~
Z
<{
fCI)
~
J-L_
I
.3
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
I--I--
~
PULSE WIDTH - 300 j.J S
2% DUTY CYCLE
I
~
200
40
60
80
100
120
140
PERCENT OR RATED VOLTAGE PEAK
RFVERSE VOLTAGE
100
0.1
~4
1~
10
REVERSE VOLTAGE. VOLTS
-139-
40
80 100
I
MBR2035CT AND MBR2045CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE· 35 and 45 Volts
CURRENT· 20 Amperes
FEATURES
TO-220CT
190(4831
+-t~
•• 05511.41ll
...
.04511.14l
_l """
.6001.241
.15~~·1~1
·lJ f1i
:s7s"li4.ill
.36019.14J
.320 (8.13J
PIN
1 2
1
!
~
3129. 4J1
f.I03128.02j
3 128.021
lM,H.,.W
.....;
J
.025
'W
·m~ Ul"'"
••
.11012.791
.09012.29J
PIN 2
PINl ~
POSITIVE CT PIN 3 <>---+t-JcAsE
Dimensions in inches and (millimeters)
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• Guard Ring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
MECHANICAL DATA
case: TO-220 molded Plastic
Terminals: Solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate curram by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
Per Leg (Note 2L
IF -10A, Tc - 125'C
IF - 20A, Tc -125'C
IF = 2M, Tc = 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc = 125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Tc = 25'C
Voltage Rate of Change, (Rated VR)
Typical Thermal Resistancec (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Thermal Resistance Junction to CASE.
2. 300 j1S Pulse Width 300 us, 2% Duty Factor.
3. 2.0 118, 1KHz.
-140-
SYMBOLS
MBR2035CT
MBR2045CT
UNfrS
VRRM
VRM
Voc
35
24.5
35
45
31.5
Volts
Volts
Volts
45
I(AV)
20
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.57
0.72
0.84
Volts
IR
15
mA
IR
dV/dt
R8JC
TJ
TSTG
0.1
1000
2.0
-65 to +150
-65 to +175
mA
VILS
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR2035CT AND MBR2045CT
FIG. 3 - MAXIMUM NON-REPETITIVE
SURGE CURRENT
160
W
0.
W:;;
a:<
oo::I..J
o::!
W:;;
z
~
z
<
l-
,
~ffl
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
f
I{
1.0
If
J
TJ = 25°C
Z
<
l-
I
?;
~I
(/)
0.1
I t
PULSE WIDTH
Duty
.2
.3
.4
.5
.6
.7
=300 "'S
YCle
.8
I
.9
_
1.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
TJ = 75°C
FIG. 5 -
1.0
TYPICAL JUNCTION CAPACITANCE
4000
I<.
C-
/
0.1
~
0
1000
Z
(/)
?;
V
.01
2000
~ ....
ui
TJ = 25°C
I-
<
SOD
.....
(3
600
400
<
0.
<
0
~
~
20
40
60
80
100
.......
200
......
120
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-141-
40
80100
I
MBR2050CT AND MBR2060CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 20 Amperes
FEATURES
TO-220CT
190(483)
I+-:' : 160 14:061
....1 •. 055 !lAID
.mlI.i~
~
.15013.811
·l]r~~1
j
.60UI1.241
.575T·611
.36UI9.14)
.32U 18.13)
!
PIN
1 2
3 29.54)
~
1.10 3 (28.U2)
i
1·",""·,,1
.,~~t
.530T·461
"11·:m:g:~;~
+
.~
•014(0.361
·:~m~:m
-~
.19014.83)
. I::.
.11U (2.791
.U90(2.291
PIN 2
POSITIVE
cr
PIN1"~
PIN 3- ~CIiSE
Dimensions in inches and (millimeters)
• Plastic package has Underwriters Laboratory
Flammabnility Classification 94 v-o
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25 M , (6.35mm) from case
• Guard Ring for transient protection
MECHANICAL DATA
Case: TO-220 Molded Plastic
Terminals: Leads, solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings a125'0 ambient temperature unless otherwise specified. Resistive or'nductiva load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig.l
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
Per Leg (Note 2)
IF = lOA, Tc = 125'C
IF = 20A, Tc = 125'C
IF = 20A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc = 125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Tc = 25'C
Voltage Rate of Change, (Rated VR)
Typical Thermal Resistance (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Thermal Resistance to CASE.
2. 300 lIS Pulse Width 300 us, 2% Duty Factor.
3. 2.0 lIS, 1KHz.
-142-
SYMBOLS
MBR2050CT
MBR20S0CT'
UNITS
VRRM
VRM
Voc
50
50
50
60
60
60
Vo~s
Vo~s
Vo~s
I{AV)
20
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.70
0.85
0.95
Vo~s
IR
15
mA
IR
dV/dt
R8JC
TJ
TSTG
0.1
1000
2.0
-65 to +150
-65 to +175
mA
VjI.S
'CIW
'C
'0
RATINGS AND CHARACTERISTIC CURVES MBR2050CT AND MBR2060CT
FIG. 3 - MAXIMUM NONoREPETITIVE PEAK
FORWARD SURGE CURRENT
.,.:
Z
160
a:a:w
:::>
I-'
Z
gj
o
w
0",
FIG. 1 - FORWARD CURRENT DERATING CURVE
W
II:
a:W
~ ffi
20.0
U
M:
~~
1\
o
16.0
\
>=UJ
UW
~ ffi12.0
~ « '.0
.
4.0
......
0
0
'DO
110
w.vepet' log
IJEDEC Melhod)
.... ~
100
< <
:;::
10
~
10
'"i1i
40
~
......
.......
I'
•
6
'0
20
i"o
110
IOD
NUMBER OF CYCLES AT 60Hz
\,
~
I.
'
~~3ms Single Hall
1\
o
iii:
~
'20
0.
II:
ffi
,
a:
~~
~
~
'40
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS
ID
'110
CASE TEMPERATURE, "C
....
I-'
Z
a:
a:
::J
U
~
iI'
W
• '25 C / ~
.0
I
...... ~I
0
a:
~fil
FIG. 2 • MAXIMUM REVERSE
CHARACTERISTICS
'DO~m-
~
, "I
Ul:;;
::J«
0
W
,
,f
a: a:
ow
0.0-
'.0
TJ. ~'C
i
Z
TJ
;:;;
Z
;:;;
'25'
f
UJ
~
D.•
.. /
'w,nT
"''' ll'0uty
pycle
• 'OM
2
.3
..
.7
.8
.5
.8
.f
• .0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
,
4000
0.
20DD
a.
.......
Z
;:;;
U
ct.«
'DOD
100
100
0100
200
.DO
PERCENT OF RATED VOLTAGE PEAK
REVERSE VOLTAGE
D.'
,
,
I,
I
U
I;
I
i ', ........
I
I II
i
/
0.'
'.0
•
II'
,
I,
: Illi
~
1/
.0
REVERSE VOLTAGE, VOLTS
-143-
"
fill
TJ.25"CI
I:iiiII 1.1
L1HzJ. J.I.I i ! '
Vala ~50;nyp,PI i! I
uJ
U
II
I
1
/
40
ill'
lill
IO'DO
I
MBR2090CT AND MBR20100CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE -90 and 100 Volts CURRENT-20Amperes
FEATURES
TO-220CT
•190 (4.831
~
:n
....1 •. 055 U.481
-r---:--+.150
(3~8lJ ~
.11 0(qg) -
II
1
.045 !I.l41
.600 (1 .241
.575114.611
1
.360 19.141
.320 (8J3J
!
PIN
1 2
1.163(2~
1.103 (28.021
I .
.025
1~~:J·MAX'
..l
"II.:m~l::
·:m(~·m
(.
~
.190 (4.031
.~
••
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
MECHANICAL DATA
. . . . . 110(2.791
.090(2.291
case: TO-220 Molded Plastic
TermInals: Solderable per
MIL-STD- 202, Method 20B
PIN 2
PINl·~
POSITIVE CT PIN 3- ~CAsE
Dimensions in inches and (millimeters)
Polarity: As marked
Mounting PosItIon: Any
Weight: .OB ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum Average Forward Rectified Current
at Te- 125'C
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Tc = 125'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0us, 1KHz)
Voltage Rate of Change, dv/dt (rated VR)
Maximum Forward Voltage (Note 1 )
IF = lOA, Tc =25'C
IF = lOA, Tc =125'C
IF =20A, Tc = 125'C.
IF =20A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage Tc = 125'C (Note 1)
Peak Reverse Voltage Tc - 25'C
Maximum Thermal Resistance,
Junction to Case
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Pulse Test Pulse Width 300 \!S, Duty Cycle 2%.
-144-
SYMBOLS
MBR2090CT
MBR20100CT
UNITS
VRRM
VRWM
Voc
90
90
90
100
100
100
Volts
Volts
Volts
I(AV)
20
Amps
IFSM
40
Amps
IFSM
150
Amps
IRSM
V/ILS
1.0
1000
Amps
V/lJ.s
VF
0.80
0.70
0.85
0.95
Volts
IR
IR
150
0.15
mA
mA
R8JC
Tc
TSTG
2.0
-65 to +150
-65 to +175
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR2090CT AND MBR20100CT
FIG. 3 - MAXIMUM NON·REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 1 -
W
,,
20
16
~ffi
a: 0.
C)(/)
FORWARD CURRENT DERATING CURVE
~
z
a:
a:
::>
U
OCl)
a: W
150
W
12
1\
~~
W
C)
a:W
:::la:
Cl)W
00.
a:::'
<{<{
1?5
100
~~
a:Z
OW
LLa:
",a:
<{:::l
wU
0.
I
,
75
50
25
.~
W
>
<(
o
0
5
.
I'1"-,..
~
1
l
i
~ ....
I
5
1
10
1
1\
20
50
100
NUMBER OF CYCLES AT 60Hz
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
15
100
SINE.~~V
porlog
:1--'
~
<{
a:
8.3ms SINGLE HALF
JEDEC METHOD
10
CASE TEMPERATURE. ·C
/
'perieg
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
.L
10
~
Z
W
a:
a:
::>
U
WCI)
Cl)W
a: a:
Ww
>0.
W::.
a:<{
CI)::>..J
10
~~
Tc =
L
125~C
I
1
.2
,
~
1.0
TJ = 25°C
PULSE WIDTH = 300 iJ S
2% DUTY CYCLE
I
I
I--L-,
.3
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
Te = 75°C
""""
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
0=
4000
I
W::.
Z
<{
LL
C.
V
f-
Z
<(
CI)
~
U
Z
<{
f-
...,
.001
V
20
40
U
<{
./
60
0.
<{
U
80
100
-
ui
Te: = 2SoC
f-
2000
120
1000
r--
""l"-
TJ:: 25°C
f.1.0MHz
V oig • 5OmVp-p
BOO
600
400
.....
200
140
PERCENT OR RATED VOLTAGE PEAK
RFVERSE VOLTAGE
100
0.1
0.4
10
1
REVERSE VOLT AGE. VOLTS
·145·
4
80100
I
SBLF2030PT AND SBLF2040PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE· 30 and 40 Volts
CURRENT· 20 Amperes
FEATURES
IT0-3P
.13an.50IOIA
.12213.1
•
I'
:::utN~
• II '.7
.66['.3)
,
I .-.i.-
cjtt:::±tJ
1 ---<*_....:.::~;::oll:.::.NI
.100(20.2]
.06[1.5)
•
145"_1
•
Chlllf.
REF
t=~~~
"I.,P7T-r.T"""1m
1N
b'llii:iiJ
.095(2.4)
.
• Dual rectifier construction, positive center-tap
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications
94V-O
• Metal to silicon rectifier,
majority carrier cemduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.17", (4.3mm) lead lengths at
5 Ibs. (2.3kg) tension
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
1......m.!Jll
~
Dim9nsions in inch9S
and
(mi/lim9t9rs)
CBse: ITO-3P Molded Plastic
Terminals: Lead solderable per
MIL-STD-202, Method 208
Polarity: As marked
Mounting POsition: Any
Mounting Torque: 5 in. - lb. max.
Weight: .47 ounces, 1.3.2 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwiss specified. Resistive or inductive load. For cape.citive or inductive load. data current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single
haij sine-wave superimposed on rated load
(JEDEC Method)
.
I
Maximum Instantaneous Forward Voltage
Per Lea IF - 10,0 Tc - 25'C (Note 2)
Maximum Average Reverse Current at Tc - 25'C
Rated DC Blocking Voltage per element Tc= 100'C
Typical Thermal Resistance (Note 1)
Operating and Storage Temperature Range
NOTES:
1. Thermal Resistance from Junction to Case per element.
2. 300 us Pulse Width, 2% Duty Factor.
VRRM
VRMS
Voo
40
28
40
30
21
30
UNITS
Volts
Volts
Volts
I(AV)
20.0
Amps
IFSM
250
Amps
VF
,55
1.0
50,0
2.0
-40 to +125
Volts
IR
R8JC
Tc,TsTG
-146-
SBLF2030PT SBLF2lUDPT
mA
'CN!
'C
RATINGS AND CHARACTERISTIC CURVES SBLF2030PT AND SBLF2040PT
...:
z
w
a:
a:
::>
300
250
(,)
~ en
...:
z
W
a:
a:
::>
~<
,
~
0'"
12.0
~~
a:2
~<
~2
\
16.0
(,)
~~
a:W
::>a:
r.n w
FIG. 1-FORWARD CURRENT DERATING CURVE
20.0
8.0
W
CI
<
4.0
<
0
a:
w
>
o
~
100
CASE TEMP'ERATURE, 'C
,
"
FIG. 3-MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
200
150
100
8.3 ms SINGLE HALF SINE·WAVE
(JEOEC Method)
'""
r--..
..
.....
a:
~
........ .........
50
I,
.........
I,
',,'
,
><
<
W
...
0
1
10
20
50
100
NUMBER OF CYCLES AT 80 Hz
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
1~
...:
z
W
a:
a:
::>
(,)
o
a:
~f:l
a: a:
FlG.2-TYPICAL
REVERSE CHARACTERISTICS
Ow
u. ...
100
g~
,
1.0
I +-+--t---f----1--i
f----1f-/I-
w
...:
z
W
a:
a:
::>
Tc: 1CX)";,
·10
z
~
z
~
V
'"
W",'
~
"'w
a: a:
Ww
W21.o
a:<
> ...
,.". " Tc :75"C
"'::::;
::> .....
,
~:i
z
~
z
2%, OU1y Cycle
"
0.1 "\!--1~~.-___7-__';;-_";_---j;-~
.2;3
.4.5
.6.7.6.9
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5-TYPICAL JUNCTION CAPACITANCE
4000 i
u.
Q.
KZ>25OC~_
0.1
~t~S:S~~TH : 300 .... L
I
Z
(,)
~
I
I
(,)
Z
(;
...
<
<
(,)
L
~
25-'C I I,
f"'" 1MHz
r-I--
W
~
'"
Z
T,
2000
Vsig = SOmVp-p
1000
800
800
400
200
0.01
20
40
60
60
100
120
140
100
0.1
PERCENT OF RATED VOLTAGE PEAK
REVERSE VOLTAGE
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-147-
40
80100
SBL2030PT AND SBL2040PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts
CURRENT - 20 Amperes
FEATURES
• Dual rectifier construction, positive center-tap
TD-3P
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier con.323(8.21
duction
.31317.91
• Low power
I .j.~~~-].lfs35:a3::il.4
loss, high efficiency
IF
•• 11512.9) • High current capability, low VF
d?f) • High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
u",..,..,.,.:l..J"':i..Oj;i8~f\~I:2:~m~~ free wheeling, and polar~ty protection applications
...-+_~' I
•
High temperature soldering guaranteed:
.160nJ~ 1 -: : I
.127(3.22)
250'C/10 seconds/.17", (4.3mm) lead lengths at
.140 3. ) I
.117(2.97)
5 Ibs. (2.3kg) tension
+ ~
.020 (.511
.1lliZD.2l
I
.775,(19.7)
1
-*----
I
I
1+-+1
~
+ •. 048(1.22)
.044(1.12)
MECHANICAL DATA
.205(5.2)
Positive CT
PIN1~ PIN2
PIN 3
CASE
Dimensions in inches
and
(millimeters)
Case: TO-3P Molded Plastic
Terminals: Lead solderable per
MIL-STD-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .2 ounces, 5.6 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectffied Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Lea IF = 8.0 Tc = 25'C (Note 2\
Maximum Average Reverse Current at Tc • 25'C
Rated DC Blocking Voltage per element Tc= 100'C
Typical Thermal Resistance (Note 1)
Operating and Storage Temperature Range
VRRM
VRMS
Voo
UNITS
Volts
Volts
Volts
20.0
Amps
IFSM
250
Amps
VE
.55
1.0
50.0
1.5
-40 to +125
Volts
Tc.TsTG
-148-
SBU040PT
40
28
40
I(AV)
IR
R8JC
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 us Pulse Width, 2% Duty Factor.
SBU030PT
30
21
30
mA
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES SBL2030PT AND SBL2040PT
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
300
FIG. 1 -
..:
z
W
FORWARD CURRENT DERATING CURVE
"
::::l
()
Den
16.0
ffi12 .0
~ a.
~~
u..
W
(!)
«
a:
W
>
,..
t--...
8.0
"
,
o
~
4.0
«
10
5
1
I
r-..... i't--
~
a: W
c(
r-..... r-...
.I
20 .0
a:
a:
~
8.3ma SINGLE HALF SINE-WAVE.
(JEDEC METHOD)
20
SO
100
NUMBER OF CYCLES AT 60Hz
0
50
100
FIG. 4 - TYPICAL FORWARD
CHARACTERISTICS
150
CASE TEMPERATURE, ·C
..:
z
100
W
a:
a:
::::l
()
o
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
a:
~
0
~ffl
100
a: a:
Ow
u..a.
en::;:
II
::::l«
@
..:
z
W
Tc = 10D G e
10
1........
Z
I."
~
«
--,
Z
a:
a:
~
.01
1.00'"
Wen
en W
a: a:
>a. 1.0
.3
.4
.5
.7
.6
.8
INSTANTANEOUS FORWARD VOLTAGE
VOLTS
~::;:
en~
::::l-'
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
O:::!
4000
W::;:
z
V'
t-
VTC=25°C
«
Z
«
PULSE WIDTH = 300 j.1S _
2% DUTY CYCLE
7
.2
[......-' ~TC ~ 75·C
Ww
TJ = 2S"C
7
~
::::l
()
t-
'I
1.0
- r--I'-
u.. 2000
0.
0.1
ui
en
()
~
Z
......
.J'
~o
«
t-
800
«
a.
«
()
400
C3
.01
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140
1000
600
"200
100
0.1
TJI~Tf
0.4
1.0
10
40
80100
REVERSE VOLTAGE, VOLTS
INslilMir
-149-
MBRF2535CT AND MBRF2545CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 30 Amperes
FEATURES
ITO-220 CT
.13 t .008
13.3 to.21
,.107 t .008
12.7 t 0.21
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O.
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss, high efficienc~
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
2S0'C/10 seconds/.2S", (6.3Smm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.Sk VRMS
MECHANICAL DATA
PIH1~N2
.,. ...4°REF.......
PIN3~ -
Dimensions in inches and (millimeters)
Case: ITO-220 Molded Plastic
Terminals: Leads, solderable per MIL-STD- 202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: Sin. - lb. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current see Fig. 1
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
Per Leg IF = 30A, Tc = 125'C (Note 2)
IF - 30A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage (Note 2) Tc = 125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Tc = 25'C
Typical Thermal Resistance, (Note 1)
Voltage Rate of Change, (Rated VR)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Thermal Resistance Junction to CASE per element.
2.300 IlS Pulse Width, 2%, Duty Factor
3. 2.01lS, 1KHz.
-150-
30
UNITS
Volts
Volts
Volts
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.73
0.82
Volts
IR
40
rnA
IR
R9JC
dv/dt
Tc
TSTG
0.2
1.8
1000
-65 to + 150
-65 to +175
SYMBOLS
MBRF2535CT
MBRF2545CT
VRRM
VRWM
Voc
I(AV)
35
24.5
35
45
31.5
45
rnA
'cm
V/us
'c
'c
RATINGS AND CHARACTERISTIC CURVES MBRF2535CT AND MBRF2545CT
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
150
~
125
W
~ ....
C)'"
a:w
::Ja:
I-
Z
a:::'
««
3:t-"
a:z
OW
u..a:
!<:a:
«::J
W<.)
30
W
a:
a:
::J
<.)
1\
24
1\
O(/)
w
a:
«a:
W
3:
a:Q.
0::'
u..«
18
W
,
C)
«
a:
W
oo
50
~
100
~~r-.
75
~
50
el.
o
,
5
10
50
150
I-
~
Z
a:
a:
::J
<.)
o
a:
V
TJ = 1250 C
~
10
~ffl
offi
u..Q.
100
I
Ul::;;
zt-"
W
f-TJ - 150'C
::J«
.........r
Z
oW
V
~
z
«
TJ = 25° C
/
II
"
I
I
I
Ul
~
0.1
II
PULSE WIDTH - 300 ILS
2% Duty Cycle
.1
TJ = 75'C ~
-~
2
A
.5
.7
~
.8
~
.."
0.1
(/)
-
25° C
..,},t'
"
2000
<.)
Z
1000
800
I-
600
«
U
«
Q.
«
<.)
l-
,01
u..
a.
ui
I-
TJ
~
20
I"""
40
1~
FIG. 5-TYPICAL JUNCTION CAPACITANCE
'--"
~
~
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
4000
w::.
z
«
«z
1.0
I-
10
1.0
/.V
I-
~~
a:::'
(/):'0
g~
.-
.........-J
«
I'"
a:
a:
::J
<.)
ffiffi
iii Q.
100
«
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
125°
50
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
W
-
20
NUMBER OF CYCLES AT 60Hz
CASE TEMPERATURE, 'C
TJ
--i""'".......
25
\
12
>
«
100
UlW
oel.
FIG. 1-FORWARD CURRENT DERATING CURVE
8.3 ms SINGLE HALF SINE-WAVE
(JEDEC Method)
TJ = 125°C
........
I II
r--
TJ = 25° C
f"" 1MHz
roo
Vsig "'" 50mVp-p
.....
r....
400
..... "'"
....
200
60
80
100
120
140
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-151-
40
80 100
I
MBRF2550CT AND MBRF2560CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts
CURRENT - 30 Amperes
FEATURES
ITO-220CT
ADS MAX
I~I
• ll1.008
Il.l10.21
.1581.008
(4t.021
.189 MAX •
~~
,
1 P~N
.103 MAX.
"""i2:'6lf-..............*-'
i..' ,',--'--
.0511 .008 ""
1l.3~0~21 ','.
.029 QP ,
!:e
(O.75:!:O·~)
'. 531~ MIN.
I. I I---rr-:sr-2.54
I
I
.. ,.10H.008
12.710.21
I
~
40REF.
.0281.008
.......
.. "'(O.7!O.21
""q,1tII
PINl~N2
.,. ..4° REF..... ....
PIN3~ -
Dimensions in inches
and
(millimeters)
• Isolated plastic package has Underwriters
Laboratory FlammabilitylClassifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
2S0'C/10 seconds/.2S", (6.3Smm) from case
• Guard Ring for transient protection
• Internal Insulation: 1.SK VRMS
MECHANICAL DATA
Case: ITO-220 Molded Plastic
Terminals: Leads, solderable per MIL-STD- 202,
Method 208
Polarity: As marked
Mounting POSition: Any
Mounting Torque: Sin. - lb. max.
Weight: .08 ounces, 2.24 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current see Fig. 1
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
Per Leg IF s 15.0A, Te = 125'C (Note 2)
IF - 15.0A, Te = 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage(Note 2) Te = 125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Te - 25'C
Typical Thermal Resistance, (Note 1)
Voltage Rate of Change, (Rated VR)
Maximum Operating Junction Temperature
Maximum Storage Temperature
NOTES: 1. Thermal Resistance Junction to Case per element.
SYMBOLS
MBRF2S5OCT
MBRF2560CT
UNITS
VRRM
VRMS
Voc
I(AV)
50
35
60
45
42
60
30.0
Volts
Volts
Volts
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
.65
.75
Volts
IR
50.0
mA
IR
R8JC
dv/dt
Te
TSTG
1.0
1.8
1000
·65 to + 150
·65 to +175
mA
'CIW
V/us
'C
'C
2. 300 lIS Pulse Width, 2%, Duty Factor
·152·
3. 2.0 lIS, 1KHz.
RATINGS AND CHARACTERISTIC CURVES MBRF2550CT AND MBRF2560CT
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
150
UJ
125
OCUJ
:::JOC
UlUJ
100
~
Cl.n
...Z
FIG. 1-FORWARD CURRENT DERATING CURVE
UJ
OC
OC
:::J
U
OUl
oc UJ
«OC
;;:~
OC::;:
12«
UJ
OC::i:
««
;;: ....
OCZ
OUJ
... OC
",OC
«:::J
UJU
24
\
Cl
«
OC
UJ
>
«
o
o
50
,
...
150
50
TJ
o:::J«
UJ
-
25~
10
L
1
Ul
Z
0.1
11
.1
T, - 75" C ~
PULSE WIDTH
.2
.3
.4
.5
.6
.7
.8
.9
1.0
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
~
4000
JI'
oo::!
...a.
L
2000
r--.....
u,j
U
Z
«
0.1
...
Ul
Z
T,
U
25' C
«
a.
«
U
~
.01
300 ItS
2% Duty Cycle
FIG. 5-TYPICAL JUNCTION CAPACITANCE
Ul~
:::J...J
UJ::;:
Z
C
I
I
1.0
«
...z
«
...
"
~~
...
TJ
Z
U
«
V V
I'
1£
~
Ul::;:
OCoc
~UJ
~~ 1.0
1250 C
-
10
~~
~
...«z
...... .-
05
150' C
~
100
50
V VT
"'0.
TJ""'125O~
~
ffl
5
o
OC
«
100
UJ
OC
OC
:::J
1
Z
UJ
OC
OC
:::J
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
~
1"- ...
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
U
I-T,
...... .....
25
NUMBER OF CYCLES AT 60Hz
CASE TEMPERATURE. 'C
...:
z
............
50
o
1\
100
1"-,...
75
0.
~
12
~
00.
30
18
83 ms SINGLE HALF SINE-WAVE
(JEDEC Method)
TJ - 125"G
~
V
~
I
-....
t"-I""
1000
800
r-....
600
400
..... ~
.... /"0
200
~
M
M
100
1~
I
T
J - 25 C
f - 1MHz
Vs'g - 50mVp·p
II
140
PERCENT OR RATED VOL TAGE PEAK
REVERSE VOL TAGE
100
0.1
0.4
1.0
10
REVERSE VOLTAGE. VOLTS
-153-
40
80100
I
MBR2535CT AND MBR2545CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 30 Amperes
FEATURES
To-220CT
"---' .n°
\4'~11
,.--:. 04
•
....1 •. 05511.481
.150(3~81Jf--~
.llO~(~~) ~
h==='11.640 (16.261
.620(15.151
1
PIN
1 2 3.~
~
r+ I·:m~:l::
+I
.]~~[ml
(,1
.2lill.W
.190 [4.831
1
.045(1.141
-r----:-+_
.600 (1 .241
.575 [14.611
.360 141
.320t131
1
r
11\:~:i 'JMAX.
l.lill2SM)
r:Im28.02l
.025
.~
••
...... 110[2.791
.090[2.291
PIN 2
POSITIVE CT
PINl~
PIN 3 ~CAsE
Dimensions in inches and (millimeters)
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O
.
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250·C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
MECHANICAL DATA
case: TO-220 Molded Plastic
ITerminals: Leads, solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram:
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverae Voltage
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
see Fig, 1
Peak Forward Surge Current
8,3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
Per Leg IF. 30A, Te = 125'C (Note 2)
IF. 30A, Te - 25'C
Maximum Instantaneous Reverae Current at
Rated DC Blocking Volitage(Note 2) Te = 125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Te = 25'C
Typical Thermal Resistance, (Note t)
Voltage Rate of Change. (Rated VR)
Maximum Operating Junction Temperature
Maximum Storage Temperature
SYMBOLS
MBR2535CT
IIBR2545CT
UNITS
VRRM
VRWM
Vee
35
24.5
45
31.5
35
45
Volts
Volts
Volts
I(AV)
30
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.73
0.82
Volts
IR
40
mA
IR
R8JC
0.2
1.5
1000
-65 to + 150
-65 to +175
dv/dt
Te
Tsm
NOTES:
1. Thermal Resistance Junction to CASE.
2. 300 us Pulse Width, 2%, Duty Factor
3. 2.0us, 1KHz.
-154·
mA
'CIW
Vlus
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR2535CT AND MBR2545CT
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
.&0
5~
r'
Z
a:
a:
::::>
()
30
OUl
W
a:
<{a:
;,:~
i'ooo, ....
c:l
<{
a:
W
>
<{
o
o
50
100
~
10
.A'
f-
I.."
Z
TJ
"-~
(f):2
::::><{
:=TJ - 150°C
zW
0
Z
/
11
PULSE WIDTH
2%Outy Cycle
.3
FIG. 5 -
1.0
.4
1/
z
<{
"- 2000
f-
()
0.1
Z
f-
<{
(f)
fTJ
U
<{
= 25°C
a.
~".
.0 1
t---.
Ti~ 25~ c l
!
r--
......
1000
800
600
400
.......
200
~
00
M
100
120
PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE
I I-
f= 1MHz
Vsig = 50mVp-p
<{
()
V
~
20
1.0
,
a.
u.i
Z
= 300~s -
.5
TYPICAL JUNCTION CAPACITANCE
4000
w:2
<{
I
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
~::!:
5~
Z
I
0.1
::::>
()
~
25°C
I
<{
f(f)
~
TJ~75'C
=
«
f-
10
~~
TJ
Z
a:
a:
[E[E
[U ~
1.0
W
r--
...........-J
, ,
/ I
<{
c-
/. / '
= 125°C
10
;,:(f)
a: W
Oa:
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
~
I
0
a:
~
--
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
::::>
()
<~12!~
100
50
50
150
a:
a:
r'
20
NUMBER OF CYCLES AT 60Hz
W
~-
"'r-
0
CASE TEMPERATURE. °C
100
...... r--
5
~
12
W
...............
0
,
24
a::2
~<{
0
FORWARD CURRENT DERATING CURVE
36
W
........
,
FIG. 1 -
8.3ms SINGLE HALF SINE-WAVE
(JEDEC Method)
Tj = 1250 C
100
0.1
II
0.4
10
10
REVERSE VOLTAGE. VOLTS
-155·
....
40
80 100
I
MBR2050CT AND MBR2060CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts
CURRENT - 20 Amperes
FEATURES
TD-220CT
.420 (10.67)
.380(9.65)
:~:~ ~~:::: DIA.
h=='==91.640 (1626)
.620 (15.75)
PIN
1 2
1
3.6~
f
.140 3.56)
"II,:m~:::~
,·m[w)
•
_
~
,."'--'.':I6014.m
...1 ' .055 (1.48)
-r-:rn1rni-~-0
(. . ,~ 8-~)~-f
+) '6'::~L::
ft
.360(9.14)
.320 (8.13)
l
}.IU
(29.54)
.1 (28.02)
i
~
!
.575 (14.m
.025
['1;~~~~~':i7 J+MAX.
'~+I"
"
.110[2.79)
.090(2.29)
(. 1)
.210(5.33)
.190 (4.83)
PIN 2
PINl"~
POSITIVE CT PIN 3 - ~ CASE
Dimensions in inches
and
• Plastic package has Underwriters Laboratory
Flammability Classification 94 v-o
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds/.25", (6.35mm) from case
• Guard Ring for transient protection
MECHANICAL DATA
case: TO-220 Molded Plastic
Terminals: Leads, solderable per
MIL-STD- 202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive lead, derate cunrent by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
VRRM
Working Peak Reverse Voltage
Maximum DC Blocking Voltage
VRM
Voc
Maximum Average Forward Rectified Current
See Fig.l
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Forward Voltage
IF a lOA, Te -125'C
Per Leg (Note 2)
IF = 20A, Te = 125'C
IF" 20A, Tc = 25'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc -125'C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage Te .. 25'C
Voltage Rate of Change, (Rated VR)
Typical Thermal Resistance (Note 1)
Maximum Operating Junction Temperature
Maximum Storage Temperature
-156-
MBR2080CT
60
60
60
UNrrB
Volts
Volts
Volts
I(Av)
20
Amps
IFSM
IRRM
150
1.0
Amps
Amps
VF
0.70
0.85
0.95
Volts
IR
15
rnA
IR
dv/dt
0.1
1000
R8JC
2.0
-65 to +150
-65 to +175
TJ
TSTG
NOTES: 1. Thermal Resistance to Case.
2. 300/IS Pulse Width 300 us, 2% Duty Factor.
3. 2.0 /IS, 1KHz.
MBR2050CT
50
50
50
rnA
VIlS
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR2050CT AND MBR2060CT
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
--,-r
160
w
«
20
o
50
100
,
,
50
150
fZ
CASE TEMPERATURE, °C
w
a:
a:
;:)
()
..A'
T, -125'C/
I
10
..-
~
/"
--
0
a:
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
I--- T,
150~
C
,,
~ff]
a: a:
Ow
"-c..
100
/1(
~/
00::;:
;:)«
~
..-~
0
TJ
1.0
i
Z
«
f
I00
1/
0".1
-
25' C
«f~
TJ
I
-
Z
.--. ~ i""'"
I
TJ
W
125' C
-
,
PULS;c~~~yH C~cI!OO ~$
i
I
.2
.4
.3
.5
.6
..
.7
_
I
.9
1.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
;5" C
FIG. 5-TYPICAL JUNCTION CAPACITANCE
4000
~ I""
,;""
TJ
-
aa
~
25' C
,;""
2000
u.i
~
~
(3
~
«
I
-
I
~ ~I'o
I I I
I
;J-25'C
I
1MHz
VSlg - SOmVp-p
1'0'
1000
800
600
""', I
400
'.......
()
200
.01
w
~
00
~
100
1W
1~
PERCENT OF RATED VOLTAGE PEAK
REVERSE VOLTAGE
100
0.1
0.4
I
1.0
I
10
REVERSE VOLTAGE, VOLTS
-157-
40
80 100
I
MBRF3035PT AND MBRF3045PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 30 Amperes
FEATURES
ITO-3P
.OSI1.51
~I'
Ch,;:.,~rJI ""'::i;::J
REF
bllii:ii]
.09512.41
• Dual rectifier construction, positive center-tap
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed: 250'C,
.17 (4.3mm) lead length at 5 Ibs. (2.3kg) tension
• Guard Ring for transient protection
• Intemallnsulation: 1.5k VRMS
MECHANICAL DATA
.. I' .028(.701
.0201.501
Dimensions in inches and (millimeters)
Case: ITO-3P Molded Plastic
Terminals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .47 ounces, 13.2 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectffled Current (see Fig. 1)
Peak Forward Surge Current, 8.3ms single
haW sine-wave superimposed on rated load
(JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Instantaneous Forward Voltage
Per Leg
IF = 20A, Tc • 125'C (Note 2)
IF = 30A, Tc .125'C
IF 30A, Tc - 25'C
Maximum Instantaneous Reverse
Tc=25'C
Current at Rated DC Blocking
Tc= 125'C
Voltage per element
Maximum Thermal Resistance (Note 1)
Voltage Rate of Change, (Rated VR)
Maximum Operating Temperature Range
Maximum Storage Temperature Range
NOTES: 1; Thermal Resistance from Junction \0 Case per element.
-HiS-
SYMBOLS
MBRF3035f1T
MBRF3045PT
UNITS
VRRM
VRMS
Vrx;
I(AV)
35
25
35
45
32
45
30
Volts
Volts
Volts
Amps
IFSM
IRSM
200
2.0
Amps
Amps
VF
0.60
0.72
0.76
Volts
IR
R8JC
dv/dt
Tc
TSTG
1.0
60
1.7
1000
-65 to +150
-65 to +175
2. 300 liS Pulse Width, 2% Duty Factor.
mA
'CIW
V/us
'C
'0
RATINGS AND CHARACTERISTIC CURVES MBRF3035PT AND MBRF3045PT
FIG. 3-MAXIMUM NON-Rt:PETITIVE
SURGE CURRENT
300
83mIHLF
250
<.!JVl
'"II:'"
Z
,
30 I
'"II:II:
::;)
\
24
0
oen
II:'"
«II:
5:~
II::::;;
t2«
18
'"<.!J«
200
a:="
««
150
a:Z
0'"
u.a:
",a:
«::l
......
-........-"""
""'"
100
50
",0
l.Nl.LU
I
.............. ........
5:f-
1
a.
1\,
12
::la:
en'"
00..
FIG. 1-FORWARD CURRENT DERATING CURVE
,..:
(JEOEC Method)
TJ = 12S"C
10
50
20
100
NUMBER OF CYCLES AT 60Hz
\
II:
>
«
'"
o
o
50
100
~\
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
150
f-
CASE TEMPERATURE. 'C
Z
II:
II:
::l
t--
I
'"
0
0
100
=TJ
~ '50'
0
Z
II:
II:
'"
10
~
0.1
0
4000
en~
0=
"':::;;
::;)--'
u.. 2000
z
«
fZ
«
fen
~
2
"-
W
o
Z
0.1
~
.01
... V
20
40
1000
;:
800
()
800
400
«
.L
~
A
~
.5
A
~
J
~
1~
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
~~7S'C
1.0
PULSE WIDTH 300ilS 2°g Duty Cycle
I
V
"'en
en",
II: II:
~:::;;
1I
1.0
Z
«
fen
::;)
>0..
"''''
I
f-
~ TJ ~ '25'C
/
I
'"«Z
......
./
,..:
10
a:
«
5: en
II:'"
offi
u.o..
en:::;;
::l«
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
....,.,..,.
I
TJ~'2S'Ch ,I' TJ ~ 2S0C I
0..
--
FIG. 5-TYPICAL JUNCTION CAPACITANCE
r-
........ .....
«
o
TJ = 25"C
TJ = 25 C C
200
80
80
100
120
PERCENT OR RATED VOL TAGE PEAK
REVERSE VOL TAGE
100
0.1
0.4
1.0
4
10
REVERSE VOL TAGE. VOLTS
-159-
40
80 100
I
MBRF3050PT AND MBRF3060PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts
CURRENT - 30 Amperes
FEATURES
• Dual rectifier construction, positive center-tap
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed: 250'C,
.17 (4.3mm) lead length at 5 Ibs. (2.3kg) tension
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
ITO-3P
.598115.21
'I
.. I' :g~g i:7:JI
Dimensions in inches and (millimeters)
MECHANICAL DATA
Case: ITO-3P Molded Plastic
Terminals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 lb. - in. max.
Welght:.47 ounces, 13.2 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2S'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
SYMBOLS
AfBRF3050PT
MBRF3060PT
Maximum Recurrent Peak Reverse Voltage
50
60
VRRM
Maximum RMS Voltage
42
35
VRMS
Maximum DC Blocking Voltage
60
50
Voc
Maximum Average Forward Rectified
Current (see Fig. 1)
30
I(AV)
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
. (JEDEC Method)
300
IFSM
Peak Repetitive Reverse Surge Current (Note 3)
2.0
IRSM
Maximum Instantaneous Forward Voltage
Per Leg
IF = 15A, Te .125'C
.65
IF 15A, Te = 25'C
.75
VF
Maximum Instantaneous Reverse
Current at Rated DC Blocking
5.0
Te-25'C
Voltage per element
Te= 125'C
100
IR
Maximum Thermal Resistance (Note 1)
R8JC
1.7
Voltage Rate of Change, (Rated VR)
dv/dt
1000
Maximum Operating Temperature Range
-65 to +150
Te
Maximum Storage Temperature Range
-65 to +175
TSTG
NOTES: t. Thermal Resistance from Junction to Case per element.
2. 300 JLs Pulse Width, 2% Duty Factor.
-160-
UNITS
Volts
Volts
Volts
Amps
Amps
Amps
Volts
mA
'CNoI
Vlus
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBRF3050PT AND MBRF3060PT
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
300
,
\
FIG. l-FORWARD CURRENT DERATING CURVE
,...:
z
30
a:
a:
::>
24
W
()
a::;;
...:...:
12
'"
8.3m.
250 ,
200
0"-
150
,
a:Z
OW
u..a:
",a:
...:::>
W()
r". r-...
...... i'i'o
~
100
...:
a:
W
>
...:
ol
o
50
o
5
1
10
,...:
100
Z
TI - 125 C
W
0
f1'
()
o
cr:
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
~~
1500 C
Z
W
a:
a:
::>
---
10
~ ~ Tc =
Z
...:
12S'C
I-
Z
...:
Ul
Z
0.1 .3
Tc = 75° C
1.0
-'
V
...:
T = 25' C
~ULSE WIDTH
I
=
3OO~s-
2% Duly Cycle
.4
.5
.6
.7
.9
.8
1.0
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
FIG. 5-TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
4000
V
...:
I-
I
I-
I-
Z
I /
W
()
WUl
Ul W
a: a:
Ww
>,,W:;;
a:...:
Ul::>...1
oo!
W:;;
Z
,
o
~
~
",
~ .". T, = 25' C
10
a: a:
Ow
u..,,Ul:;;
::>...:
100
,...:
100
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
PER ELEMENT
a:
a:
::>
t - - Tc
50
20
NUMBER OF CYCLES AT 60Hz
CASE TEMPERATURE. 'C
0.1
Ul
~
Tc = 25c C
~
~
00
00
100
2000
()
W
Z
10DD
...:
800
I-
/
0
...:
"...:
V
.01
u..Q.
1~
PERCENT OF RATED PEAK
REVERSE VOLTAGE
1~
r--.....
r--~
.......
600
400
i""oo
()
TJ = 25° C
i'o
200
100
I"·
\,
"-
150
100
r-- r--I'-
50
~
W
(9
SI~GLE HALF' SI~E-W~V~
(JEDEC Method)
TJ:: 1250 C
~,...:
,
OUl
a: W
« a: 18
~~
a:::;
~«
W
(9",
a:w
::>a:
UlW
0.1
0.4
1.0
4
10
REVERSE VOLTAGE. VOLTS
-161-
40
80 100
.f
MBR3035PT AN.D MBR3045PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 30 Amperes
FEATURES
TO-3P
.323(8.2]
.U3I7.9)
ir9=~~"ft-:mu
I· REF -L-
'~
-~ l'REI
~
•• 09512.4)
.085(2.1)
.. ,:~~~m~
u.,..""T"!",.:J-Yij'fsir.m
.160 !4J) I :IIII+-tt~~
.14013.5) I
I
I
I
.77~1
I
.lliJZD.n
1+-+1 ..
~
PIHl~ PIN 2
PIN 3
MECHANICAL DATA
,.048(1.22)
.044(1.12)
.205(5.2)
Positive CT
• Dual rectifier construciton, positi ve cener-tap
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capabilitY,low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed: 250'C,
.17 (4.3mm) lead length at 5 Ibs. (2.3kg) tension
• Guard Ring for transient protection
CASE
Dimensions in inches and (millimneters)
Case: T03P Molded Plastic
Terminals: Lead solderable per MIL-STD-202
Method 208
Polarity: As marked
MountIng PositIon: Any
WeIght: .2 ounces, 5.6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
.Ratings at 26'0 ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
see Fig. 1
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Peak Repetitive Reverse Surge Current (Note 3)
Maximum Instantaneous Forward Voltage
Per Leg IF =20A, Te = 125'C .(Note 2)
IF = 30A, Te = 125'C
IF = 30A, Te = 25'C
Maximum Instantaneous Reverse Current at Te = 25'C
Rated DC Blocking Voltage pert element Te = 125'C
Maximum Thermal Resistance (Note 1)
Voltage Rate of Change, (Rated VR)
Maximum Operating Temperature Range
Maximum Storage Temperature Range
NOTES:
1. Thermal Resistance from Junction to Case.
2. Measured all MHz and applied reverse voltage of 4.0 volts.
3. 300 us Pulse Width, 2% Duty Faolor.
-162-
SYMBOLS
MBR3035PT
MBR304SPT
UNITS
VRRM
VRMS
Voc
35
24.5
35
45
31.5
45
Volts
Volts
Volts
ICAV)
30
Amps
IFSM
IRSM
200
2.0
Amps
Amps
VF
IR
R8JC
dv/dt
Te
TSTG
0.60
0.72
0.76
1.0
60
1.4
1000
-64 to +150
-65 to +175
Volts
mA
'cm
Vlus
'C
'c
RATINGS AND CHARACTERISTIC CURVES MBR3035PT AND MBR3045PT
FIG. 3 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
300
83mIHLLl.LU
250
(JEOEC Method)
TJ = 125 C
G
FIG. 1 -
t--'
z
~
FORWARD CURRENT DERATING CURVE
6
W
I
~
~~
cr:
cr:
:::l
()
30
,
O(/)
cr: W
9)
'-...}!!.
..
• • Low power
~
.110
loss, high efficiency
~~',1Y~IOES
+ (4.3)
• High current capability, low VF
.840[21.3)
• High surge capacity
.B20!(20.8)
• Epitaxial construction
~
..I 1 ••~B~ ~~~~ • For use in low voltage, high frequency inverters,
, - '
.121(3.221
free wheeling, and polarity protection applications
TO-3P
.,., ,mp
07B REF
• II 9BI
rr
f
_
5:
.lS0 (UI I
.140 (3.5) ,
.mill..ll
..
030'7S)
~
.775119.7)
I
I
L-'
"1 ',1
.111 (2.971
,
1+-+1 .. ,:~!: ~~:~~)I
.225(5.7)
.205(5.2)
Positive CT
PIN1~ PIN 2
PIN 3
MECHANICAL DATA
1
CASE
Case: TO-3P
Terminals: Lead solderable per MIL-STD-202
Method 208
Polarity: As marked
Mounting Position: Any
Weight: .2 ounces, 5.6 gram
Dimensions in inches and (millimneters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25 'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
see Fig. 1
Peak Forward Surge Current. 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF = 2M, Tc = 25'C (Note 2)
IF = 20A. TC = 25'C
Maximum Average Reverse Current at Tc = 25'C
Rated Peak Reverse Voltage (Note 3) Tc = 100'C
Typical Thermal Resistance (Note 1)
Maximum Operating Temperature Range
Maximum StoraQe Temperature Range
SYMBOLS
MBR3050PT
MBR3060PT
UNITS
VRRM
VRMS
Voc
50
35
50
60
42
60
Volts
Volts
Volts
I(AV)
30
Amps
IFSM
300
Amps
VF
IR
R8JC
Te
TSTG
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 us Pulse Width. 2% Duty Factor.
-164-
.65
.75
5.0
100
2.0
-65 to + 150
-65 to +175
Volts
\I
mA
'cm
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR3050PT AND MBR3060PT
FIG. 3 300
FIG. 1 -
>2
w
FORWARD CURRENT DERATING CURVE
O(/)
o:w
ffi
<{
12
I'"
r-.~
~
100
OW
u..o:
r.... .... r- ..
",0:
wU
\
0:::;
,~
'5:1-'
0:2
SI~E-W~V~
8.3m' SINGLE HALF
(JEDEC Method)
Tj ~ 1250 C
150
«::J
24
'5:Cl.
~
I
oCl.
,
30
:"-
200
0:::'
0:
0:
::J
250
««
]6
()
<{
W
c.'JVl
o:w
::JO:
(/)w
MAXIMUM NON-REPETITIVE PEAK
FOrlWARD SURGE CURRENT
50
Cl.
a1
10
W
I
20
50
NUMBER OF CYCLES AT 60Hz
Cl
\
«
0:
w
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
PER ELEMENT
\
>
«
'10
10()
no
100
I-'
2
w
CASE TEMPERATURE. °C
,
0:
0:
::J
U
0
cr:
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
. / 10'
10
Ow
I
L.l.Cl.
Tc=1500C
(/):2'
I'
::J«
0
w
"...,
,.". ~
I-'
2
10
I2
«
(/)
~
::J
()
ffiffi
TC=75 C
C/
(/)~
w::.
2
/
1
u..Q.
ti2
2000
I--.
W
U
1000
«
800
2
Tc
=
25"G I '
t::
U
'" /
00 1
V
?O
«Cl.
«
40
~
8n
3001.J~
10
TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
4000
/
',/
2
«
TJ = 25° C
PULSE WIDTH =
2% Duty Cycle
I
FIG. 5 -
' r r--
I-
01
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
0 1
6;!
«
I
l-
~~
!
«
-TC" 125°C
0:
0:
0:::'
1a
2
W
Gj a..
-
I
~~
0:0:
10
-
I
I
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140
U
......
r-....
600
'" ......
400
TJ = 25"C
200
i'
100
01
04
10
REVERSE VOLTAGE. VOL T3
GENERAL
INSfRUMENT
-165-
100
SBLF3030PT AND SBLF3040PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE· 30 and 40 Volts CURRENT - 30 Amperes
FEATURES
ITCJ..3P
.13813.50]0IA.
.221 .10)
I'I' :::mt:! 'I 'I
.38119.7]
.36619.3)--*--
.~
r
.800120.2]
~"r
10"
"+r-r.-r--r'T'!
Wi!i:iiJ
.09512.4]
.. I•. 0281.70]
• Dual rectifier construction, positive center-tap
• Isolated Plastic package has Underwriters
laboratory Flammability Classifications
94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250'C/10 seconds,17 (4.3mm) lead lengths at
5 Ibs., (2.3kg) tension
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
.0201.50]
Dimensions in Inches
and
(millimeters)
case: ITO-3P Molded Plastic
Terminals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .47 ounces, 13.2 ounces
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·0 ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF = 15.0A,Tc = 25'C (Note 2)
Maximum Average Reverse Current at Tc =25'C
Rated DC Blocking Voltage per element Tc = 100'C
Maximum Thermal Resistance (Note 1)
Operating and Storage Temperature Range
VRRM
VRMS
Voc
-166-
30
21
30
40
28
40
UNITS
Volts
Volts
Volts
I(AV)
30
Amps
IFSM
275
Amps
VF
.55
1.0
75
2.5
-40 to +125
Volts
IR
R9JC
Tc,TsTG
NOTES:
1. Thermal Resistance from Junction to Case per element.
2. 300 us Pulse Width, 2% Duty Factor.
SBLF3030PT SBLF3040PT
mA
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES SBLF3030PT AND SBLF3040PT
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
300
W
z
w
36
U
30
a:
a:
:J
\
000
a: W
«
Cl",
FIG.1FORWARD CURRENT DERATING CURVE
0--:
ffi
i:n.
24
a:::;
~«
Cl
«
a:
a:W
:Ja:
CIlW
On.
a::::;
««
i:0--:
a:Z
OW
lLa:
",a:
«:J
wU
n.
,
~
12
W
250
200
'"........I'-..
8.3ms SINGLE HALF SINE-WAVE
(JEDEC METHOD)
.......
.........
150
...............
100
50
5
10
--r--..........
20
50
100
NUMBER OF CYCLES AT 60Hz
60
W
>
«
50
100
1\
FIG. 4 - TYPICAL FORWARD
CHARACTERISTICS PER ELEMENT
0--:
1JU
m
a:
CASE TEMPERATURE, ·C
100
a:
:J
U
o
a:
«00
/
0
i: w
a: a:
Ow
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
,
lLn.
:J«
00:::;
100
ow
1.0
Z
«
fZ
0--:
zW
Te
0
100·C./
10
;'!:
V
~
a:
a:
:J
0.2
~~
V
Tc=7SOC
1.0
FIG. 5 -
" , 10'
~~
W:::;
z
«
lLc.
V
f-
04
05
0.6
0.7
08
TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
U
0.1
Z
«
1000
0
600
f-
00
~
«
n.
«
./
U
./
.01
---:,::-.
20
40
60
80
100
.......... ..... r-.
2000
ui
/ITC=25°C
Z
f-
0.3
4000
CIl~
«
.01
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
U
a: a:
Ww
Ci:i a..
a::::;
-
TJ = 25°C
PULSE WIDTH::: 300/.1 s_
2% DUTY CYCLE
I
I
00
120
140
800
400
r-.
200
100
0.1
PERCENT OF RATED PEAK
REVERSE VOLTAGE
0.4
10
10
REVERSE VOLTAGE, VOLTS
-167-
40
80100
I
SBL3030PT AND SBL3040PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts CURRENT - 30 Amperes
FEATURES
l"REF..!-
~ .1
•
-~ l·REF
~
.095(2A
.08512.11
• .030 [.76)
.020 [.51)
• Dual rectifier construction, positive center-tap
TO-3P
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power
.32318.2)
.31317.9l
loss, high efficiency
fF*~~~-·i.nB~ug:9J:~i • High current capability, low VF
+
• High surge capacity
d?:) • Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
~-nT.~I~It':'i·.~ffl~~i'i~f.1~m~i • High temperature soldering guaranteed:
r--l--~'
,
250'C/10 seconds,17 (4.3mm) lead lengths at 5
.lS0 (U) I
Ibs., (2.3kg) tension
1 .127(3.22)
.140 (3.5) I
.117(2.97). Guard Ring for transient protection
:1 ' 1-
~'I
I
I
MECHANICAL DATA
• 75119.7)
L - '1+-+1
~
• •.048 (l.22)
.044(1.12)
.205[5.2)
Positive CT PIN1~ PIN 2
PIN 3
CASE
Case: TO-3P Molded Plastic
Terminals: Lead solderable per MIL-STD-202
Method 208
Polarity: As marked
Mounting Position: Any
Weight: .2 ounces, 5.6 gram
CROSS - REFERENCE GUIDE
Dimensions in inches
and
(millimeters)
Gl
SBL3030PT
SBL3040PT
FUJI
SHINDENGEN
S30SC3M
S30SCAM
ESAD83-004
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTIC S
Ratings at '0 ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
atTc = 100'C
Peak Forward Surge Current, 8.3ms single
haH sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF 5 a15, Tc = 25'C (Note 2)
Maximum Average Reverse Current at Tc - 25·C
Rated DC Blocking Voltage per element Tc = 100·C
Maximum Thermal Resistance (Note 1)
Operating and Storage Temperature Range
SYMBOLS
SBL3030PT
SBL3040PT
UNITS
VRRM
VRMS
Voc
30
21
30
40
28
40
Volts
Volts
Volts
ICAV)
30
Amps
IFSM
275
Amps
VF
.55
1.0
75
2.0
·40 to +125
Volts
IR
R8JC
Tc TSTG
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 us Pulse Width, 2% Duty Factor.
-168-
mA
'cm
·C
RATINGS AND CHARACTERISTIC CURVES SBL3030PT AND SBL3040PT
FIG. 3 300
FIG. 1 -
..:
z
FORWARD CURRENT DERATING CURVE
w
a:w
:::la:
mw
oa.
a:::;
~,I'-.
250
(!)(J)
36
W
a:
a:
:::l
««
30
II
a: W
« ffi
24
a:::;
~«
12
~a.
(!)
a:
W
a:z
OW
... a:
><:a:
«:::l
w ll
,
\
UJ
«
200
100
«
50
100
(JEDEC METHODI
..........
"'"
I
,II
...............
i
50
a.
o
I
1
6.0
>
8.3ms SINGLE HALF SINE-WAVE
'I
150
~..:
1\
om
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
-
5
10
..... ......
1'-00 1--1-
20
50
100
NUMBER OF CYCLES AT 60Hz
\
13u
CASE TEMPERATURE, 'C
..:
z
FIG. 4 - TYPICAL FORWARD
CHARACTERISTICS PER ELEMENT
100
UJ
a:
a:
:::l
II
o
a:
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
~ffl
100
Ow
... a.
(I)::;
:::l«
aW
z
..:
z
W
To
~
100·C./
10
I
0
~
z
«
ti;
V
a:
a:
~
:::l
II
;'
Tc '" 75 c C
1.0
V
-
TJ - 25°C
PULSE WIDTH" 300,u.s_
2% DUTY CYCLE
I
I
.01
0.2
wm
mw
a: a:
Ww
>a.
~::;
/
0
a: a:
-1.._
0.3
0.4
."
0.7
.08
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
m:f
0~
4000
w::;
V
Z
«
V
f-
Z
fm
0.6
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
:::l--'
«
0.5
0.1
Tc
...a.
= 25°C
II 1000
Z
~
«
800
C3
600
f-
~
«
a.
«
./
II
.01
?O
40
60
80
--
2000
W
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
........
400
200
140
100
0.1
0.4
1.0
10
REVERSE VOLTAGE, VOLTS
-1169-
40
80 100
SD241P
SCHOTTKY RECTIFIERS
VOLTAGE RANGE - 45 Volts
CURRENT - 30 Amperes
FEATURES
TO-3P
REF
.07S
U 98)
rr'
·"TI
219°33((45'
,106))•245 ,~•• 2)
•
•
. ,<,
'/!.
.323(8.21
.313(7.91
• Dual rectifier construction, positive center-tap
• Plastic package has Underwriters Laboratory
Flammabiltiy ClaSSifications 94V-O
• Metal to silicon rectifier, majority carrier conduction using an epitaxial
constructl'on
Fl:~~~4:Ufs~ug]J:9)
•
+ .170
Low power
loss, high efficiency
~ 10' TYP.
t (4.3)
• High current capability, low VF
., BOTH SIDES
• High surge c a p a c i t y - " · __ ',
::18Iak~)
• For use in low voltage, high frequency inverters,
+
..I 1 '.~~~ ~~~;
free wheeling, and polarity protection applications
• High temperature soldering guaranteed: 3QO'C,
-r--+-~'
,
.160 !4J) 1 :1 11 ,- :~~~g:~~:
.17", 4.3mm from case for 10 seconds
.140 (3.5) 1
• Guard Ring for transient protection
.~II
.030r.76)
.775(19.7)
1
I
MECHANICAL DATA
.. ~
L - 'I-I .. ,.048(1.22)
~
.044(1.12)
Case: TO-3P
.205(5.2)
Terminals: Lead solderable per MIL-STD-202,
Method 208
Positive CT PINI~ PIN 2
PIN 3
CASE
Polarity: As marked
Mounting Position: Any
Dimensions in inches and (millimeters)
Weight: .2 ounces, 5.6 gram
f
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load. For capacitive load, derate current by 20%
Maximum Recurrent Peak Reverse Voltage at Te- 25'C
Maximum Blocking VoHage at Te =25'C
Maximum Average Forward Rectified Current
see Fig. 1
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0us, 1KHz)
Maximum Instantaneous Forward Voltage
Pulse Width .. 300 us, Duty Cycle .. 1%
IF" 10A, Te .. 125'C
IF =20A, Te = 125'C
Maximum Instantaneous Reverse Current
Pulse Width .. 400 us, Duty Cycle = 1% at35V Te =25'C
Te = 125'C
Maximum Vo~age Rate of Change at 35V
Package Thermal Resistance (Note 1)
Maximum Operating TemperatureRange
Maximum Storage Temperature
NOTES:
1. Thermal Resistance Junction of Case.
-170-
SYMBOLS
SD24tP
UNffS
VRRM
Voc
45
45
VoHs
Volts
I(AV)
30
Amps
IFSM
400
Amps
IRSM
2.0
Amps
VF
.47
.60
Volts
IR
dv/dt
R8JC
Te
Tsm
25
1000
1.4
-65 to +150
-65 to +175
mA
V/fJ.S
'C
'C
'C
RATINGS AND CHARACTERISTIC CURVES SD241P
FIG. 2 400
W
~
""",
Clen
a:W
:::Ja:
en:f
0::.
Tc
FIG. 1-FORWARD CURRENT DERATING CURVE
300
~
..:
z
w
a:
a:
:::J
'"
u.a:
~~
200
0.
30
~
()
oen 24
a: W
<
100
5
1\
""
60
50
100
Hz
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
\
50
.1
TJ
..:z
W
a:
a:
:::J
150
100
,J
ro
10
I"
r--.... ~
NUMBER OF CYCLES AT
~
50
95°C
r-- ....
Ow
W()
=
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
~:
a:z
36
MAXIMUM NON-REPETITIVE
SURGE CURRENT
CASE TEMPERATURE, °C
12S"C
./
10
()
1
~
~
V'
.......,.
TJ = 25°C
0
a:
<
en
""
a: a:
Ww
>0..
W::;;
a:«
.1.2
.-'"
"'"
4000
W::;;
u.Q.
z
~
z
2000
ui
()
Z
<
tU
<
0.
<
0.1
~
-
TJ - 25°C
I
.01
.3 . .4
.5
()
---
60
80
.7
.8
100
-
.91.0
t-
r-..... r--..~
1000
BOO
600
400
TJ = 25°C
200
40
.6
I
./
20
PULSE WIDTH:::: 300 /J.s
'[DUTYCL,
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
(/)-
....... i"'"
,
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
::>-'
O:::!
~
C/)
I
0.1
,.. ~TJ=75°C
1.0
II
~
TJ:::: 125°C
()
W(/)
(/)W
II
I-
I
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140
.{t
F= 1MHz
9
~ 50 iVPT
100
0.1
0.4
1.0
2
10
REVERSE VOLTAGE, VOLTS
-171-
20
40
100
MBRF4035PT AND MBRF4045PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 40 Amperes
FEATURES
ITO-3P
.11B(1.SOJ 01A•
.122ll.IOl
r
.BOO(20.2J
.1ocm. BJ
I'I' :~:~~~!:~~ 'I 'I ~
.JBIlS.7J
.JGG(S.3J
.06[1.5J
~
Ch.~f~-I
---C-H--f-'lfll14.5l-.-.
~~~=~
f
_L~PIH
t
2°REF
10°
1.1;(2 BJ
I
.095(2.4J
• Dual rectifier constrution, positive center-tap
• Isolated plastic package has Underwriters
Laboratory Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
.. I' .020(.50)
.02B(.70J
Dimensions in inches and (millimeters)
Case: ITO-3P
Terminals: Leads solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .47 ounces, 13.2 ounces
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25 'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig.l
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per leg IF ~ 20A, Tc ~ 125'C (Note 2)
IF ~ 20A, Tc ~ 25'C
Maximum Average Reverse Current at Tc = 25'C
Rated Peak Reverse Voltage (Note 2) Tc ~ 100'C
Typical Thermal Resistance (Note 1)
Maximum Operating Temperature Range
Maximum Storage Temperature Range
NOTES: 1. Thermal Resistance from Junction to Case per element.
2. 300 J.1s Pulse Width. 2% Duty Factor.
-172-
SYMBOLS
MBRF4035PT
MBRF4045PT
UNITS
VRRM
VRMS
Voc
35
25
35
45
32
45
VoHs
Volts
Volts
I(AV)
40
Amps
IFSM
400
Amps
VF
IR
R8JC
Tc
TSTG
.60
,70
10
100
1.6
-65 to +150
-65 to +175
Volts
mA
'cm
'c
'c
RATINGS AND CHARACTERISTIC CURVES MBRF4035PT AND MBRF4045PT
FIG. 3-MAXIMUM NON-REPETITIVE
SURGE CURRENT
400
W
FIG. 1-FORWARD CURRENT DERATING CURVE
z>-'
~
300
L
r-. ....
0"-
a:::!:
a:
a:
.-
««
::J
~~
40
U
~
OUJ
a: W
~ ~ 30
~~
LL
20
«
10
«
o
50
~ .......
~
200
u..a:
l<:a:
,
«:::>
-
100
1
10
>-'
z
W
,a:
a:
o
a:
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
~~~-- -----~
;~-+----+L-~'I------
10
~~
10
LLCl.
UJ::;'
>-'
z
W
~
1.0
"
::J«
I--
oW
a:
a:
Z
~~
::J-'
z
«f-
/
.01
LL
Tc
I
Z
~
a.
25°C
..........
~
A
-.-
.......
TJ 25'C
PULSE
WID~H
-
300 pS
-
l __ ~:~J_~~~"~JV_~LE
-L ___ _
.6
~
3
.8
1.0
«
fU
«
Cl.
«
Z
I
/
V
IIII
....
2000
.......... .....
W
U
Z
UJ
.001
j _. ________
-
FIG. 5-TYPICAL JUNCTION CAPACITANCE
4000
~e- 7SoC
O='
W::;,
"._
-_.
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
./ V
0.1
UJ~
0.1
~
I'
/
ffiffi
~
_ 0 - - - - -______•
UJ
U
>Cl.
~ ~
--_
+ ---.-t--
f-
::J
----l
J
z
«
fz
«
Te = 125°C
-.- - -
- ~- -F-'- r-=-=-c
1----.--~.-~--.-.-4---_l__-_l__-+_--,
a: a:
OW
-
100
~-~!f--~!~--~-~I----~I--i-·t--~~~·~~~-~·-·~--'
100
::J
U
Teo 150°C"
50
FIG. 4-TYPICAL REVERSE
CHARACTERISTICS
CASE TEMPERATURE. 'C
I--
"--
20
NUMBER OF CYCLES AT 60Hz
150
100
--I-
.... 1-00 ...
wU
"-
1\
>
o
OW
\
W
~
ffi
1,-rrTT
8 3ms SINGLE HALF SINE - WAVE
(JEDEC METHOD)
~UJ
a:W
:::>a:
COW
50
w
~-'----"
~
1000
800
1111
....
MBRF4035PT THRU
MBRF4045PT
-
600
400
TJ '" 25°G
U
200
~
~
00
00
100
1~
1~
PERCENT OR RATED VOLTAGE PEAK
RFVERSE VOL TAGE
100
0.1
0.4
1.0
10
40
80 100
REVERSE VOLTAGE, VOLTS
GENERAL
INSfRUM ENT
-173-
MBRF4050PT AND MBRF4060PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 40 Amperes
FEATURES
ITD-3P
~
a..:.N°-1
.06[1.5)
um:w
.095[2.4)
.. I' .028[.70)
.020[.5ll)
Dimensions in inches and (millimeters)
• Dual rectifier construction, positive center-tap
• Isolated plastic package has Underwriters
Laboratory Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power loss,
high efficiency
-',
• High current capability, low Vf
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
CBse: ITO-3P
Terminals: Leads solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .47 ounces, 13.2 ounces
MAXIMUM RATINGS ANP ELECTRICAL CHARACTERISTICS
Ratings at 25 'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig.l
Peak Forward Surge Current, 8.3ms single
haH sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per leg IF - 20A, Tc = 125'C (Note 2)
IF = 20A, Tc = 25'C
Maximum Average Reverse Current at Tc = 25'C
Rated Peak Reverse Voltage (Note 2) Tc = 100'C
Typical Thermal Resistance (Note 1)
Maximum Operating Temperature Range
Maximum Storlige TemQerature Rance
SYMBOLS
MBRF40S0PT
AfBRF4060PT
VRRM
VRMS
Voc
50
35
50
60
42
60
IIAV}
40
Amps
IFSM
400
Amps
VF
IR
R8JC
Tc
TSTG
NOTES:
1. Thermal Resistance from Junction to Case per element.
2. 300 JlS Pulse Width, 2% Duty Factor.
·174·
UNITS
VoHs
Volts
Volts
.70
.80
10
100
1.6
-65 to +150
-65 to +175
Volts
mA
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBRF4050PT AND MBRF4060PT
FIG. 3-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
400
W
(,)",
a:w
::Ja:
UlW
00.
a:::;:
««
~j-C
a:Z
OW
'-La:
",a:
«::J
wU
FIG. 1-FORWARD CURRENT DERATING CURVE
>z
w
a:
a:
a
40
\,
OUl
a: W
~ ~30
gj~
'-L
«
a:
""
~~
~i'to.
~ .......
r-..
200
"""""
Cl.
~
20
5
\
W
(')
W
300
8.3ms SIGNLE HALF SINE-WAVE
(JEDEC Method)
10
«
50
100
.-
150
j-C
Z
100
W
~
a:
a:
::J
~
U
o
a:
FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS
a:
a:
::J
U
WUl
Ul W
a: a:
Ww
>0.
li!~
Ul-
u.o.
Tc = 150°C
--
1.0
V
/
1.0
«
,
>Z
«
>-
Ul
~
Tc = 75°C
".,. i--"'"
-=J
z
0,1
I
~/TC
,01
0
4000
'--'
2000
~
25°C
u.
Q.
ui
~
U
Z
«
~
~
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
3OOfJ.S-
.4
,5
.6
,7
,8
.9
1.0
140
I
r- "'to-
TJ
0
i50C:
1000
800
>-
600
«
0.
«
U
400
0
V
20
=
2% Duty Cycle
FIG. 5-TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
Ul
.001
~U~S~5~~DTH
I
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
/
./
>>-
~
Z
~C=125OC
0,1
«
«
Ul::;:
::J«
>--
.3
::J...J
O:::!
W::;:
z
,
a: a:
Ow
i-"""
j-C
Z
V
10
~ffl
10
w
100
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
PER ELEMENT
CASE TEMPERATURE, °C
~
50
20
NUMBER OF CYCLES AT 60Hz
\
>
10
......
,....
200
100
0,1
0.4
1.0
10
REVERSE VOLTAGE VOLTS
-175-
40
80 100
I
MBR4035PT AND MBR4045PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts
CURRENT - 40 Amperes
FEATURES
TO-3P
I
,
"---+--~:Ii -III
:f:g ~:~) I .. I
.795 [20.2)
I
.77~1
I
I
I_I ..
.225 (5.7)
.205(5.2)
Positive CT
PIN1~ PIN 2
PIN 3
.127(3.22)
.117(2.97)
CASE
Dimensions in Inches
and
(millimeters)
,.048(1.22)
.044 (1.12)
• Dual rectifier constrution, positive cneter-tap
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
MECHANICAL DATA
Case: TO-3P
Terminals: Leads solderable per MIL-STD202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .2 ounces, 5.6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25 'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at TCm 125'C
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage atTc • 125'C
20.0 A, Tc '" 25'C (Note 2)
Maximum Average Reverse Current at Tc = 25'C
Rated Peak Reverse Voltage (Note 3) Tc = 100'C
Typical Thermal Resistance (Note 1)
Maximum Operating Temperature Range
Maximum Storage Temperature Range
NOTES:
1. Thermal Resistance from Junction to Case.
2. 300 fiS Pulse Width, 2% Duty Factor.
-176-
SYMBOLS
MBR4035PT
MBR4045PT
UNITS
VRRM
VRMS
Vee
35
24.5
35
45
31.5
45
VoHs
Volts
Volts
IIAV)
40
Amps
IFSM
400
.60
.70
10
100
1.4
-65 to +150
-65 to +175
Amps
VF
IR
R8JC
Tc
TSTG
Vohs
mA
'cm
'C
'C
RATINGS AND CHARACTERISTIC CURVES MBR4035PT AND MBR4045PT
FIG. 3 400
'~
FIG. 1 ~
z
:J
U
0
OUl
a:
W
~~
30
20
W
a:
W
>
50
100
I
r-- r""- i"-I'-~
100
10
1\
50
20
100
NUMBER OF CYCLES AT 60Hz
~
10
«
........
...
l?
«
~'N~.-~~V~
1' ....
~
l\
a:::;
~«
""
,
a:
a:
,..... - - " . T-83m, SINGLE HALF
(JEDEC METHOD)
FORWARD CURRENT DERATING CURVE
W
MAXIMUM NON·REPETITIVE
SURGE CURRENT
-'-r- c -
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS
150
CASE TEMPERATURE. 'C
>-'
z
100
w
a:
a:
:J
U
a:
~i3
a: a:
10
~
~
Z
W
~ \WC .".,
Tc
V
10
io""
ow
z
«
fZ
«
fUl
;;,:
= 125°C
a:
a:
:J
U
WUl
Ul W
V
Ww
>,,-
~::;
01
Ul~
:J--'
W::;
z
fZ
«
V
Tc
j
01
C.
= 25°C
001
«
fU
«
"«
u
If
?O
40
I
.6
I
.7
---L __
.
-L---:
.9
...........
M
80
2000
r--..... r--I"'-
u.i
U
Z
,,
;;,:
V
-
i""'1"u..
f-
Ul
0.1
TJ = 25°C
PULSE WIDTH:: 300llS
2% DUTY CYCLE
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000
/
«
1
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
~=75OC
oo=!
j
10
.3
10'"
./
a: a:
10
Ow
u.,,Ul::;
:J«
....
Tc
v
o
FIG.2 - MAXIMUM REVERSE
CHARACTERISTICS
100
1000
800
600
400
TJ::: 25°C
200
1'"
PERCENT OR RATED VOLTAGE PEAK
RFVERSE VOLTAGE
100
01
0.4
10
10
REVERSE VOLTAGE, VOLTS
·177·
40
80 100
MBR4050PT AND MBR4060PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 40 Amperes
FEATURES
TO-3P
I
I
:t:g It~) I + ,
I -'''
+
•. 030 (.7&)
.020 (.5ll
.795 (20.2)
.775,(19.7)
-*----
I
,
I
,
I......'
.127(3.22)
.117
(2.97)
MECHANICAL DATA
+
.225 (5 7)
.205[5.2)
Positive CT
,.048(1.22)
.044 [1.12)
P1N1~ PIN 2
PIN 3
• Dual rectifier construciton, positive center-tap
• Plastic package has Underwriters Laboratory
Flammabiltiy Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conductioI'!
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guard Ring for transient protection
CASE
Dimensions in inches
and
Case: TO-3P
Terminals: Lead solderable per MIL-STD-202
Method 208
Polarity: As marked
Mounting Position: Any
Weight: .2 ounces, 5.6 gram
(mil/imneters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
aITe= 120'C
Peak Forward Surge Current, 8.3ms single
haft sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF = 20A, Tc = 25'C (Note 2)
IF = 20A, TC = 25'C
Maximum Average Reverse Current at Te = 25'C
Rated Peak Reverse Voltage (Note 3) Tc = 100'C
Typical Thermal Resistance (Note 1)
Maximum Operating Temperature Range
Maximum Storage Teml2erature Range
SYMBOLS
MBR40S0PT
MBR4060PT
UNI7S
VRRM
VRMS
Voe
50
35
50
60
42
60
Vo~s
I(AV)
40
Amps
IFSM
400
Amps
VF
IR
ReJC
Te
TSTG
NOTES:
1. Tharmal Resistance from Junction to Case.
2. 300 us Pulse Width. 2% Duty Factor.
-178-
Volts
Volts
,70
.80
10
100
1,4
-65 to + 150
-65 to +175
Volts
mA
'cm
'C
'c
RATINGS AND CHARACTERISTIC CURVES MBR40S0PT AND MBR4060PT
FIG. 3 -
400
-:
~--r·-Im
;~
-t ! 1 -1
,I
300
FIG. 1 -
0-:
FORWARD CURRENT DERATING CURVE
::J
40
a: W
«
ffi
30
30..
a:;:<
~«
100 I
_
\
10
W
«
50
100
."
'
.+ + .. ---.
I
:
10
I
>'-
.~
.
Til
L 1 _ 1 i Ij
L
50
20
I
100
NUMBER OF CYCLES AT 60Hz
\
>
1. -
...
___.1...
I
5
W
I
j.
. Iluitn-
20
Cl
«a:
-t-rt+t- ---I'
I!'
f
l-
'
' I ,
r--
j-t'-I
r\,
Oul
,
r
r'
ti-H
I I ..
sr~E HALF SINE.-WAVE l
~~rill;~f:l
w
a:
a:
U
3m.s
(JEDEC Mt01hOdlt-
" .
I
z
Fr
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
pER ELEMENT
150
0-:
z
w
CASE TEMPERATliRE. °C
a:
a:
::J
U
o
a:
FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS
~ffl
a: a:
10
Ow
==
-
u..o..
Tc'" 150"C
ul::>
::J«
..,.. """""'TC
oW
'"
z
«
f-
= 12;i"C
--1-
lom/m~--t::::=~
Z
«
f-
ul
Z
Tc = 75"C
"".
t--c-
/
,iVTO ~ 25°C
/
u..
U
Z
/
V
40
00
an
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
TJ
~
25°C
-
PULSE WIDTH" 300.us _
; 2%
D~TY
CY1LE
I
8
10
I
4000
1-0.
2000
Q.
~
--~-
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
W
00 I
-----.
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
.,."
-~
01
r----t
I
140
«
fLi
«
0..
«
U
r-
.....
TJ~i5°CI
1000
800
600
.....
400
r--.
200
lOa
01
04
10
10
REVERSE VOLTAGE, VOLTS
-179-
40
80100
I
I:
~
-180-
FAST EFFICIENT
RECTIFIERS
1 AMPERE TO 30 AMPERES
SEE
NEW
ISOLATED
PACKAGES
~
________
-181-
INsrCft~
--
182-
LOW CURRENT AXIAL FAST EFFICIENT RECTIFIERS
TYPE
FE1A
Ihlll
FE1D
PACKAGE D()'204AP
Io(A)
1
VR.SO(V)
FE1A
FE1B
VR=100(V)
VR.l50(V)
FE1C
VR=200(V)
FEW
VR=300(V)
VR=400(V)
VR.SOO(V)
VR=SOO(V)
VR=BOO(V)
VR=1000(V)
G11001
Ihlll
G11004
FE2A
Ihlll
FE2D
BYV27-50
Ihlll
BYV27·2QO
GI1101
Ihlll
GI1104
FE3A
Ihlll
FE3D
BYV28-50
Ihlll
BYV28·200
FE5A
Ihlll
FE5D
FE6A
Ihlll
FE6D
GI130f
!hili
GIt304
D()'204AP
1
Gil 001
Gll002
Gll003
Gil 004
1lQ-240AP
2
FE2A
FE2B
FE2C
FE2D
1lQ-204AP
2
BYV27-50
BYV27-100
BVV27-1S0
BVV27-200
D()'204AP
2.5
Glll0l
Gll102
Glll03
Gll104
G4
3.0
FE3A
FE3B
FE3C
FE3D
G4
3.5
BYV28-S0
BYV28-100
BYV2B-150
BVV2B-200
G4
5.0
FESA
FESB
FE5C
FESD
G4
S.O
FESA
FESB
FE6C
FESD
G4
S.O
GI1301
G11302
G11303
GI1304
I
LOW CURRENT AXIAL FAST EFFICIENT RECTIFIERS
EGP10A
EGP30A
Ihlll
EGP30D
EGP50A
Ihlll
EGPSOD
UF400f
Ihlll
UF4007
UF5400
Ihlll
UF5408
0()'201AD
EGP10D
EGP20A
Ihlll
EGP20D
PACKAGE
DQ.41
D()'lS
GP-20
GP-20
00.41
1o(A)
VR=5O(V)
VR.l00N)
UV.l50(V)
1.0
2.0
3.0
5.0
1.0
3.0
EGP10A
EGP20A
EGP30A
EGPSOA
UF4001
UFS400
EGP10B
EGP20B
EGP30B
EGPSOB
UF4002
UF5401
EGP10C
EGP20C
EGP30C
EGPSOC
TYPE
Mill
VR0200(V}
EGP100
EGP20D
EGP30D
EGPSOO
VR-300(V}
EGP10F
EGP20F
EGP30F
EGPSOF
VR.4QO(V}
EGP10G
EGP20G
EGP30G
EGPSOG
UF4003
UF5402
UF5403
UF4004
UV.5QO(V)
VR.SOO(V)
UF5005
UF5006
VR=BOO(V}
VR.l000(V)
UF5007
·183·
UF5404
UF5405
UF5406
UF5407
CONT.
-184-
MEDIUM CURRENT FAST EFFICIENT RECTIFIERS
SINGLE RECTIFIERS
TYPE
PACKAGE
IO(A)
VR.50(V)
FESFBAT
FES8AT
GI140f
BYW29-50
FESFf6AT
IhN
IhN
IhN
IhN
IhN
FES16AT
IhN
FESFBJr
FESsn
G11404
BYW29-200
FESFf6JT
FESf6JT
1T()'220
TO-220
T0-220
T0-220
1T()'220
T()'220
a
8
8
FESF8AT
FES8AT
8
G11401
BYW29-50
18
FESF16AT
FES16AT
18
VR-100(V)
FESF8BT
FES8BT
G11402
BYW29-1 00
FESF16BT
FES16BT
VR-150(V)
FESF8CT
FES8CT
G11403
BYW29-150
FESF16CT
FES18CT
VR.200(Vj
FESF8DT
FES8DT
G11404
BYW29-200
FESF16DT
FES16DT
VR-300(Vj
FES8FT
FESF16FT
FES16FT
VR-400(V)
FESF8FT
FESF8GT
FES8GT
FESF16GT
FES16GT
VR=500(V)
FESF8HT
FEti~HT
FESF16HT
FES16HT
VR=600(Vj
FESF8JT
FES8JT
FESF16JT
FES18JT
I'.·
,
MEDIUM CURRENT FAST EFFICIENT RECTIFIERS
DUAL RECTIFIERS
TYPE
PACKAGE
IO(A)
VR=50(V)
VR=100(V)
VR=150(V)
VR.200(Vj
VR=300(V)
VF-400(Vj
VR=500(V)
VR=600(V)
FEPF6AT
THRU
FEPF60T
FEP6AT
THRU
FEP6UT
FEPFf6AT
THRU
FEPF16JT
FEPf6AT
THRU
FEPf6JT
G1240f
THRU
GI2404
BYV32-50
THRU
BYV32-200
FEPF30AP FEP30AP
THRU
THRU
FEPF30JP FEP30JP
1T0-22OCT
8
FEPF6AT
FEPF6BT
FEPF6CT
FEPF6DT
TO-22OCT
6
FEP6AT
FEP6BT
FEP6CT
FEP6DT
IT()'220CT
16
FEPF18AT
FEPF16BT
FEPF16CT
FEPF16DT
FEPF16FT
FEPF16GT
FEPF16HT
FEPF18JT
T0-220CT
16
FEP16AT
FEP16BT
FEP16CT
FEP16DT
FEP16FT
FEP16GT
FEP16HT
FEP16JT
T()'220CT
16
GI2401
G12402
G12403
G12404
T()'22OCT
18
BVV32-50
BVV32-100
BVV32-150
BYV32-200
1TO-3P
30
FEPF30AP
FEPF30BP
FEPF30CP
FEPF30DP
FEPF30FP
FEPF30GP
FEPF30HP
FEPF30JP
-185-
T0-3P
30
FEP30AP
FEP30BP
FEP30CP
FEP30DP
FEP30FP
FEP30GP
FEP30HP
FEP30JP
-186-
GLASS PASSIVATED
FAST EFFICIENT
RECTIFIERS
1.0 AMPERE TO 6.0 AMPERES
~_ _ _ _ _ INsr~MIr .....
-187-
I
FE1A THRU FE1D
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage· 50 to 200 Volts Current· 1.0Amperes
FEATURES
•
•
•
•
DO-204AP
.034 (,861 ,
.028 (.711
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
"<"
of MIL-S-19500
"',
Hermetically sealed
~
Low Leakage
High surge capability
High temperature metallurgically
bonded, no compression contacts
• High temperature soldering guaranteed:
350'C110 secondsJ.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
•
•
•
•
+
MECHANICAL DATA
Case: Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting PosItion: Any
WeIght: 0.02 ounce, 0.6 gram
Dimensions in inches and (millimeters)
• Brazed-lead assembly is covered by
Patent No. 3,930,306 of 1976 and glass composition
by Patent No.3,7S2,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Vottage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TL = 75'C
Peak Forward Surge Current
8.3 ms single half sine-wave superimposed
on rated load (JEDEC Method) TA = 55'C
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current TA= 25'C
at Rated DC Blocking Voltage
TA = 150'C
Maximum Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
SYMBOLS
FE1A
FE1B
FE1e
FE1D
UNITS
VRRM
VRMS
Voe
50
35
50
100
70
100
150
105
150
200
140
200
Volts
Volts
Volts
I(AV)
1.0
Amps
IFsM
30.0
Amps
VF
IR
TRR
CJ
RaJA
TJ,TsTG
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recover to 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Ambient at.375" (9.5mm) Lead Lengths.
-188-
0.95
2.0
50.0
35.0
45.0
65
-65 to +175
Volts
~
Ns
pf
'cm
'c
RATINGS AND CHARACTERISTIC CURVES FE1A THRU FE1D
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
o
W
500
10
NON INDUCTIVE
NONINOUCTIVE
u::
(I
+O.SA
OUT
-0.25
~,
..
1 ~~
NONINDUCTIVE
_..
.1\.
OSCILLOSCOPE
{NOTE 1}
-1.0
NOTES 1 Rise Time ~ 7ns max .. Input Impedance 1 megohm. 22pF
2 Rise Time 10ns max .. Source Impedance -= 50 ohms
V
--
\
Z
J
1.5
OW
Wa:
a:W
~~
1.0
~
«
~t-=
o ili
f----- -
........
0.5
"-a:
Wa:
C)::l
<0
a:
~-
V
i=cn
"-
RESISTIVE OR
INDUCTIVE LOAD
0.375". 9.Smm LEAD LENGTH
25
W
----1 'Ons
i1em
>
50
75
100
125
~
150 175
AMBIENT TEMPERATURE, 'C
<
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
1000
t-=
zW
a:
a:
::l
o
~ 1-1J
100
-""
I-""
~
W
<
~ffl
~1J ~ 150°C
<
I-
Z
o
TJ = 10QoG
/
o
a:
~a:
I-""
1.0
V
10
TJ '" 25 c C
o
CIJ~
::l
"CIJ
::>
oW
~
<
I-
~
10.0
W
ffi(3
Z
50. 0
:;
a:
a:
::>
wo-
~O
FIG. 4 - TYPICAL FORWARD CHARACTERISTICS
W
0-
10
CIJ::;:
>a:
a;
J
C)
Wa:
--'w
ffl
175°C
0.1
@
z
~
TJ = 25°C
I
0.1
Pulse Width = 30011 5
2% Duty Cycle
<
Z
I-
Z
<
CIJ
I-
CIJ
Z
~
.01
m
~
~
~
100
1m
_
J
.01
0.4
0.6
PERCENTAGE OF PEAK INVERSE
VOLTAGE, VOLTS
0.8
1.0
1.2
"1.4
1.6
1.8
INSTANTANEOUS FORWARD
VOLTAGE, VOLTS
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
t-=
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
z
W
a:
a:
::l
0
W
C)CIJ
a: W
::la:
ClJW
30
25
20
0-
0:;;
~«
15
0
90
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
....... .....
,
~
a:
0
"-
10 5
"-
0.
TA '" 55°C
75
u.i
o
~
111~J~l:~)
"
....
'
60
I-
f'
10
~
Q.
o<
"t--
:.:
45
....
30
'"",..
15
«
W
l'-
0-
10
20
50
100
.5
NUMBER OF CYCLES AT 60Hz
10
20
50
100 200
REVERSE VOLTAGE. VOLTS
-189-
1-
Vsig '" 50mVp-p
500 1000
I
GI1001 THRU GI1004
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage - 50 to 200 Volts Current - 1.0 Amperes
FEATURES
•
•
•
•
DO-204AP
•
•
•
•
.034 (.86) , +
.028 (,71)
•
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
""<
"-,
Hermetically sealed
~
Low Leakage
~~
High surge capability
~
High temperature metallurgically
bonded, no compression contacts
High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
.150 (3.8)
.100(2.5)
MECHANICAL DATA
case:
Dimensions in inches and (millimeters)
----------------------------
• Brazed.Jead assembly is ooYered by Patent No. 3,930,306 of 1976
and glass composidon by Patent No.3,752,701 of 1973
Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.02 ounce, 0.6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless othelWise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at Tl = 75'C
Peak Forward Surge Current
10ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current TA =25'C
at Rated DC Blocking Voltage
TA = 100'C
Maximum Reverse Recovery lime (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Rang ..
SYMBOLS
GllOOI
GNOO2
GN003
GllOO4
VRRM
VRMS
Voc
50
35
50
100
70
100
150
105
150
200
140
200
I(Av)
IFSM
VF
IR
TRR
CJ
R8JL
TJ,TsTG
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recover to 0.25A.
2. Measured at 1.0 MHZ and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Lead at .375" (9.5mm) Lead Lengths.
-190-
1.0
30.0
.975
2.0
50
25
45.0
20
-65 to +175
UNITS
Volts
Volts
Volts
Amps
Amps
Volts
!lA
Ns
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES GI1001 THRU GI1004
FIG. 1 -
r-:
a:
a:
100
500
NONINDUCTIVE
NQNINDUCTIVE
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
zW
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
:;)
+O.SA
o
oen
_
a: W
«a:
D.U. T.
(.)
~~
-0.25
50Vdc
~~
-- (approx.)
(.)
W
(!l
OSCILLOSCOPE
«
a:
(NOTE 1)
W
NOTES. 1 Rise Time'" 7ns max., Input Impedance"
1 megohm, 22pF.
2. Rise Time = lOns max .. Source Impedance = 50 ohms
>
«
--Ilcmi-
25
10ns
50
75
100
125
150
175
LEAD TEMPERATURE, °C
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
t==.TJ ~
FIG. 4 - TYPICAL FORWARD CHARACTERISTICS
....-
100~
. TJ ~ 150;C
50 .0
r-:
IIU
z
Jl
W
a:
TJ ~ 25°C......
0::
::>
10. 0
o
o
r
-
~
a:
~~
/
a: a:
ft ~
en:;;:
L0
:;)«
oW
z
«
fTJ
0.1
~.
:;;
./
25°C
~ 300 J.l s 2% Duty Cycle
PoJlse Width
I
O. 1
f-
en
Z
.01
I
01
20
40
60
80
100
120
0.4
140
0.6
0.8
1.0
1.2
1.4
1.6
1.8
INSTANTANEOUS FORWARD
VOLTAGE, VOLTS
PERCENTAGE OF PEAK REVERSE
VOLTAGE, VOLTS
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
FIG. 5 -
r-:z
30
a:
a:
25
W
:;)
o
105
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
~ ..........
90
B.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
75
Tl = 75° C, .375"
9.5mm LEAD LENGTHS
....... ....
IIIIt2UI
",
f = 1MHz
Vsig = 50mVp-p
u.
a.
ui
60
«
45
a«
30
0
Z
.........
1'-... r-..
........ ~
f-
0..
«
0
5
10
20
50
100
to-.""
15
.5
NUMBER OF CYCLES AT 60Hz
10
20
50
-191-
'"
100 200
REVERSE VOLTAGE, VOLTS
500 1000
I
FE2A THRU FE2D
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage - 50 to 200 Volts Current - 2.0 Amperes
FEATURES
•
•
•
•
DO-204AP
.0341.861 ,
• 0281.711
•
•
•
•
4-
•
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
'"
Hermetically sealed ".'.""'~
Low Leakage
~.
High surge capability
.~
High temperature metallurgically
.,
bonded, no compression contacts
High temperature soldering guaranteed:
350'C/10 secondsl.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
.150 [3.81
.100[2.51
MECHANICAL DATA
case: Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.02 ounce, 0.6 gram
Dimensions in inches and (millimeters)
• 8razed-/ead assembly Is covered by Patent No. 3.930.306 of 1976
and glass compos/don by Patent No.3.752.701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load. derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375', (9.5mm) Lead Lengths at TL = 75'C
Peak Forward Surge Current
10ms single half sine-wave superimposed
on rated load (JEDEC Method) TA = 55'C
Maximum Instantaneous Forward Voltage at 2.0A
Maximum DC Reverse Current TA - 25'C
at Rated DC Blocking Voltage
TA = 150'C
Maximum Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
SYMBOLS
FE2A
VRRM
VRMS
Voe
50
35
50
I(AV)
IFSM
VF
IR
TRR
CJ
RaJA
TJ,TsTG
FE28
100
70
100
FE2e
150
105
150
2.0
50.0
0.95
2.0
50.0
35.0
45.0
60
-65 to +175
NOTES:
1. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, recover to 0.2SA.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Vee.
3. Thermal Resistance from Junction to Ambient at .375" (9.Smm) Lead Lengths, P.C. Board Mounted.
-192-
FE2D
200
140
200
UNITS
Volts
Volts
Volts
Amps
Amps
Volts
!LA
Ns
pf
'crw
'c
RATINGS AND CHARACTERISTIC CURVES FE2A THRU FE2D
FIG. 1 -
o
f--.
50 ',,)
10' ,l
NON INDUCTIVE
NQNINDUCTtVE
·0.25
W
u::
f-.+--+-
FIG. 3 -
1em
50 ohms.
w
I-
ffl
..,
n " 150"C
~ffi
500 -
~O
10
a:
~
1.0
a:
1.0
o
u.
00
@
Z
«
IZ
«
I-
",
TJ "2S"C
0.1
0.1
00
~
.01
20
40
60
80
100
120
I
::J
~
00
.01
140
FIG. 6 Z
60
!a.3ms
...............
r--..
3:
a:
0
LL
><:
u.
Q.
0
Z
«
--.. r--...
30
20
1.0
1.4
1.8
1.2
1.6
TYPICAL JUNCTION CAPACITANCE
11111111
90
StN~LE HALF SINEMWAVE
75
i'",
I 11111111
W
««
0.8
105
JEDEC METHOD
TA = 55"C
i""- "'1"-
::
INSTANTANEOUS FORWARD
VOLTAGE. VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
,.:-
TJ" 25"C
PUI~~ ~i~:; ~y~~f.LS
I
0.4 0.6
PERCENTAGE OF PEAK INVERSE
VOLTAGE. VOLTS
40
175
/
o
«
I-
50
~
150
/'r'
o
TJ = lOaGe
ow
W
(!)oo
a:W
::Ja:
ooW
Dc..
a:::;;:
125
a:
a:
::J
oo~
0
100
W
::J
W
a:
a:
::J
75
TYPICAL FORWARD CHARACTERISTICS
::;;:
~~
~~
50
AMBIENT TEMPERATURE. 'C
«
Wc..
Z
25
IZ 10.0
Cl
~
z
......
RESISTIVE OR
o. 5 INDUCTIVE LOAD
0.375". 9.5mm LEAD LENGTH
a:
W
c..
W
«
~ffl
.......
1.0
«
TJ = 175"C
100
o
.......
1.5
TYPICAL REVERSE CHARACTERISTICS
F=
Z
a:
a:
::J
,
2.0
3:,.:a:Z
OW
LLa:
Wa:
(!)::J
«0
a:
W.
>
-----1 10nsl__
1000
,.:-
2.5
««
(NOTE 1)
NOTES: 1 Rise Time 7ns max., Input Impedance
1 me~Ohm. 22pF
2 Rise Time 10ns max .. Source Impedance
3.0
f=oo
OW
Wa:
a:W
Dc..
a:::;;:
OSCilLOSCOPE
Z
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
REVERSE RECOVERY TIME CHARACTERISTIC ANO TEST DIAGRAM
"",
60
I-
U
r--.
«
c..
45
0
30
«
TJ = 2S"C
f= lMHz
Vsig = 50rnVpMp
~-i>
~
I
....
15
10
...........
«
W
c..
5
10
20
50
180
.5
1
2
5. 10
20
S()
100
REVERSE VOLTAGE. VOLTS
NUMBER OF CYCLES AT 60Hz
-193-
200
500 1000
I
BVV27-50 THRU BVV27-200
GLASS PASSIVATED FAST EPITAXIAL RECTIFIERS
Voltage • 50 to 200 Volts
Current· 2,0 Amperes
FEATURES
•
•
•
•
DO-204AP
• 034 [,861 ,
.028 [.711
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable Of meeting environmental standards
of MIL-S-19500
,
Hermetically sealed •• ""''''''--....
Low Leakage
'"""
High surge capability
~.
High temperature metallurgically
.~
bonded, no compression contacts
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
•
•
•
•
•
.150[3.81
.100[2.51
MECHANICAL DATA
case: Unitized glass hermetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Dimensions in inches and (millimeters)
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.02 ounce, 0.6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20"10.
SYMBOLS
Maximum Recurrent Peak Reverse Vo~age
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
VDC
Maximum Reverse Avalanche Voltage at 10011 A
VPK
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TL = 85'C
I(Av)
Peak Forward Surge Current
10ms single half sine-wave superimposed
on rated load (JEDEC Method) TA = 175'C
IFSM
Maximum Instantaneous Forward
TJ • 175'C
Voltage at 3.0A
TJ=25'C
VF
Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage
TA = 165'C
IR
Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
TRR
Typical Junction Capacitance (Note 2)
CJ
Typical Thermal Resistance (Note 3)
R8JL
Operating and Storage Temperature Range
TJ,TsTG
BYV27-50
50
35
50
55
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recover to 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Lead at .375" (9.5mm) Lead Lengths.
-194-
BYV27'100 BM7,150 BYV27,200
100
70
100
110
150
105
150
165
200
140
200
220
UNITS
Volts
Volts
Volts
Volts
2.0
Amps
50.0
0.88
1.07
1.0
150.0
Amps
25.0
45.0
20
-65 to +175
Volts
II.A
Ns
pf
'cm
'c
RATINGS AND CHARACTERISTIC CURVES BYV27-50 THRU BYV27-200
FIG.1 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
10<1
NONINDUCTIVf
SOli
NQNINDUCTIVE
+0 SA
~
I
J
DU 1
..:.. SOVdc
ill"""
02 0
rapproX)
1/
1\
i-I
HI
!\IONINDUCTIVE
OSCILLOSCOPE
(NOTE 1\
1\
-
)
'I'
10A
NOTES 1 Rise Time = 7ns max. Input Impedance
1 megohm. 22pF
2 Rise Time", 1Ons max Source Impedancf'
50 ohms
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT
I"
25
SET liME BASE FOR
lelll
10ns/em
50
TEMPERATURE °C
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
U)
LW
a:
100
FIG. 4 - TYPICAL FORWARD CHARACTERISTICS
w
T.I
[L
::;;
_
C§
a:
r-'
Z
17Soe
')00
en
P"'"
T, I, 150 o
U
;,
'=
w
a:
w
b_
~
<(
0
a:
a:
:::J
a:
a:
TJ" 100 D e
U
:::J
o
a:
0
<(
2% Duty Cycle
~
I
en
a:
I
:::J
T,
o. 1
~
2S D C
z
f"
z
f"
a:
(f)
:::J
ow
z
f"
z
f"
TJ = 25°C
Pulse Width = 3QOus
a:
U)
>
10
~
o
LL
'"
w
-"
w
LU
/
U
llJ
w
100
>Z
w
w
~
./
/
[L
01
U)
:;::
1
0.0 1
20
40
60
80
100
120
04
140
I
06
08
10
1?
14
16
18
U)
:;::
PERCENT OF PEAK REVERSE VOLTAGE
en
li!
~
~
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK FORWARD SURGE
CURRENT
90
60
5
r-'
Z
w
a:
a:
:::J
U
50
40
w
(!J
a:
:::J
30
en
o
0:
~
0:
oLL
'"«
LU
[L
0
~
LL
Q.
U
z
f"
JEDEC METHOD
TJ'" 17S c
e
~
"-..... ......
J
I
0
T.J
"I'
u.i
8,3 ms SINGl E HALF SINE·WAVE
t--,...
"'~
45
0
=
25°C
I
f = lMHl
Vsig = 50 mVp-p
~
r-
<{
U
I""'r-I'-
.....
5
10
10
20
10
20
20
50
100
REVERSE VOLTAGE, VOLTS
50
NUMBER OF CYCLES AT 60 Hz
-195-
200
500 100C
I
GI1101 THRU GI1104
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage - 50 to 200 Volts Current - 2.5 Amperes
FEATURES
•
•
•
•
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
""<"
• Hermetically sealed
~.
• Low L e a k a g e " ' ,•
• High surge capability
~~
• High temperature metallurgically
""
bonded, no compression contacts
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
Sibs., (2.3kg) tension
DO-204AP
• 034 (.861
•0281.711
I
+
.15013.81
.10012.51
MECHANICAL DATA
Dimensions in inches and (millimeters)
, Brazed-lead assembly Is covered by Patent ND. 3,930,306 of 1976
and glass composition by Pat9flt ND.3,752,701 of 1973
case: Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.02 ounce, 0.6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectnied Current
.375", (9,5mm) Lead Lengths at TL = 75'C
Peak Forward Surge Current
tOms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward
Voltage at 2.0A
Maximum DC Reverse Current TA=25'C
at Rated DC Blocking Voltage
TA .. 100'C
Maximum Reverse Recovery lime (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 5)
Operating and Storage Temperature Range
VRRM
VRMS
Voc
GIttOt
50
35
50
Glltot
100
70
100
I(AV)
2.5
IFSM
50
VF
.975
2.0
50.0
25
IR
TRR
C
R8JL
TJ,TsTG
NOTES:
I. Reverse Recovery Test Conditions: IF = 0.5A, IR = I.OA, recover to 0.25A.
2. Measured atl.O MHz and applied reverse voltage of 4.0 Vaw.
3. TL = 55'C, .375" (9.5mm) Lead Length.
4. IFM =I.OADC.
5. Thermal Resistance from Junction 10 Lead at .375" (9.5mm) Lead Lengths.
-196-
GItt03
150
105
150
Gllt04
UNffS
200
140
200
(Note 3)
2.0
Volts
Volts
Volts
20
(Note 4)
1.25
10.0
200
50
Amps
Amps
Volts
!LA
Ns
45.0
pI
20
-65 to +175
'cm
'c
1-65to+150
RATINGS AND CHARACTERISTIC CURVES GI1101 THRU GI1104
FIG. 1 -
10 (,1
NQNINDUCTIVE
500
NONINDUCTIVE
,
+05A
"\.
O.U. T.
(.)
--
(-)
OSCILLOSCOPE
(NOTE 1)
FIG. 3 ~
Z
~
.,(!'
~
o
o
0
UJ
()
l...I
1.0
a::
~
0::
o
TJ = 25°C
0.1
2
",'"
Z
Z
Z
«
~
CIl
~O.D1
.01
20
0
80
100
120
140
0.4 0.6
I'::::r--....
30
-:::-
10
u..
83m,
. . . r-. ~~
0.8
1.0
1.2
1.4
1.6
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
90
['..i'..
u.. 75
sLLE lJ sU-Llv~
a.
ui
0
JEOEC METHOD
AT TL
60
I'~
Z
<
f-
............... .........
45
(3
<
0.. 30
<
I- ~~I-
TJ = 25"C
~
()
f= lMHz
Vsig = 50mVp-p
15
Nil
>0::
<
UJ
0..
1.8
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
11
I II
;::
0::
40 60
Gll101 THRU
Gll103
20
0.1
~
O::UJ
CIlUJ
00..
0::::;;
TJ = 25°C
PULSE WIDTH = 300j.1s
2% DUTY CYCLE
I
~
Z
C!lCll
~o::
II
1.0
u..
CIl
PERCENT OF RATED PEAK
REVERSE VOLTAGE
FIG. 4 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
40
I
/'
o
<
50
175
0..
<
<
f-
~
150
::;;
~-10.0
TJ = 100"C
~
UJ
0::
0::
125
CIl
UJ
CIl~
60
100
~
UJo..
Z
75
UJ
0::
0::
~ffi
~
50
ffi 50,0
~fB
til
25
LEAD TEMPERATURE, °C
FIG. 5 - TYPICAL FORWARD CHARACTERISTICS
<
oUJ
~
50 ohms.
10
~~
~g
~O
2.0
<0 0.5
TJ = 150°C
UJ
C!l
u..<
J
I
UJ
0::
0::
0::;;
UJ~ 1.5
C!lZ
1---
TYPICAL REVERSE CHARACTERISTICS
10a
o::UJ
<0::
;::UJ 2.5
0::0..
~ J'L- -
-1.0
NOTES: 1. Rise Time'" 7ns max., Input Impedance 0:
1 megohm. 22pF
2. Rise rime'" 10ns max., Source Impedance
OCll
~
-0.25
50Vdc
. - (approx I
~
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
1.0
5.0
10
20
50
100
NUMBER OF CYCLES AT 60Hz
0.1
0.5
1.0
2.0
5.0
10
20
50
100
REVERSE VOLTAGE, VOLTS
-197-
200
SOD 1000
FE3A THRU FE3D
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage . 50 to 200 Volts Current· 3.0 Amperes
FEATURES
•
•
•
•
G4
•
•
•
•
.180 (4.6) •
.115 (2.9)
•
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
'''''''~
Hermetically sealed
Low Leakage
High surge capability
High temperature metallurgically
bonded, no compression contacts
High temperature soldering guaranteed:
350·C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
.042 (1.07), <.038 (.962)
MECHANICAL DATA
case: Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.037 ounce, 1.04 gram
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse VoHage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward RectHied Current
.375", (9.5mm) Lead Lengths at TA = 55'C
I(AV)
Peak Forward Surge Current
8.3 ms single half sine-wave superimposed
IFSM
on rated load (JEDEC Method) TA = 55'C
Maximum Instantaneous Forward Voltage at ~.. OA
VF
Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage
TA -150'C
IR
Maximum Reverse Recovery Time (Note 1) TJ - 25'C
TRR
Typical Junction Capacitance (Note 2)
CJ
Typical Thermal Resistance (Note 3)
RaJA
Operating and Storage Temperature Range
TJ.TSTG
FE3A
FE38
FE3C
FE3D
UNITS
50
35
50
100
70
100
150
105
150
200
140
200
Volts
Volts
Volts
NOTES:
1. Reverse Recovery Test Conditions : IF = O.SA, IR = 1.0A, recover to 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths.
-198-
3.0
Amps
125.0
Amps
0.95
5.0
50.0
35.0
100.0
55
-65 to +175
Volts
IIA
Ns
pf
·eIW
'0
RATINGS AND CHARACTERISTIC CURVES FE3A THRU FE3D
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
NONINDUCTIVE
+O.SA
u::
,
~ffl
Wa:
1\
50Vdc
(apprn~
-0.25
I
OSCILLOSCOPE
.- l - t--
(NOTE 1)
\
(.)
1 (I
~~~CTIVE
-1.0
NOTES: 1 Rise Time 7ns max., Input Impedance =
1 megohm, 22pF.
2. Rise Time = 10ns max., Source Impedance = 50 ohms.
3.0
I\.
2.5
"-
a:W
D.U. T.
(.)
_
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
o
W
10 U
NONINDUCTIVE
500
I
"
~~
2.0
«
~...:
1.5
oifi
10
"-a:
Wa:
CJ~
\ 1.1
o. 5
" '\
RESISTIVE OR
INDUCTIVE LOAD
~
0.375", (9.Smm) LEAD LENGTH
50
75
100 125 150 175
AMBIENT TEMPERATURE,
<
0
C
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
1000~~
FIG.4 - TYPICAL FORWARD CHARACTERISTICS
en
W
a:
50.0
W
Il.
::;
<
l/
10.0
I-
Z
W
'0
a:
a:
V
~
u
o
~
a:
o
"-
0.'._
_
T, ~ 25'C
40
60
(J)
~
./
80
100
Z
<
IZ
~
(J)
120
~
a:
a:
150
I
~
125
W
(!l(J)
a: W 100
~a:
(J)W
Il.
0::; 75
~<
:;:
a:
I
.01
0.4
0.6
50
........... ......
ITA
.15.I TTl I
"a.
a.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
1.6
1.4
1.2
1.8
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
U
......
Z 200
".. -......
r...... ....
~
U
<
~
11111111
150
25
Vsig = 50mVp-p _
...... ~
Il.
<
U
1_
TJ = 25°C
f = lMHz
100
r-....~
"-
~
1.0
250
ui
0
~
0.8
INSTANTANEOUS FORWARD
VOLTAGE, VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
W
U
Pulse Width = 300 /JS 1% Duty Cycle
[I
0.1
oW
PERCENTAGE OF PEAK INVERSE
VOLTAGE, VOLTS
...:z
TJ = 2S"C
a:
.-1"""
1.0 _
20
1.0
50
i""'-
Il.
10
20
50
100
.1
.5
10
20
50
100 200
REVERSE VOLTAGE, VOLTS
NUMBER OF CYCLES AT 60Hz
-199-
500 1000
I
BYV28-50 THRU BYV28-200
GLASS PASSIVATED FAST EPITAXIAL RECTIFIERS
Voltage - 50 to 200 Volts
Current - 3,5 Amperes
FEATURES
•
•
•
•
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
"'~,~
• Hermetically sealed
• Low Leakage
• High surge capability
• High temperature metallurgically
bonded, no compression contacts
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
G4
.180 (4.6) ,
.115 (2.9)
.042 (1. 071, +
.038 (.962)
MECHANICAL DATA
case: Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
WeIght: 0.037 ounce, 7.04 gram
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Reverse Avalanche Voltage at 100 JJ. A
VPK
Maximum Average Forward Rectffied Current
.375", (9.5mm) Lead Lengths at TL - 85'C
I(AV)
Peak Forward SurgE! Current
10ms single half sine·wave superimposed
on rated load (JEDEC Method) TA = 175'C
IFSM
Maximum Instantaneous Forward
TJ = 175'C
Voltage at 3.0A
TJ=25'C
VF
Maximum DC Reverse Current TA=25'C
at Rated DC Blocking Voltage
TA = 165'C
IR
Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
TRR
Typical Junction Capacitance (Note 2)
C
Typical Thermal Resistance (Note 3)
R8JL
Operating and Storage Temperature Range
TJ,TsTG
BYV28,50 BYV21Jo100 BYV28,150 BYV2B-200
150
200
50
100
105
140
35
70
50
100
150
200
165
55
110
220
UNITS
Volts
Volts
Volts
Volts
3.5
Amps
90
0.89
1.1
1.0
150.0
Amps
NOTES:
1. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, recover to 0.2SA.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Lead at.375" (9.5mm) Lead Lengths.
-200·
30.0
100
20
·65 to +175
Volts
JJ.A
Ns
pf
'cm
·C
RATINGS AND CHARACTERISTIC CURVES BYV28-50 THRU BYV28-200
FIG.1 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
50n
100
NONINDUCTIVE
NONINDUCTIVE
+0 SA
,
-025
1-)
OSCILLOSCOPE
NONINDUCTIVE
0:
i3
a: ~
V
w
j
~
'V
.. , OA
NOTES. 1 Rise Time -= 7ns max Input Impedance
1 megohm, 22pF
2 Rise Time = lOns max Source Impedance =
50 ohms
-=0
a:
w
ii'
SET TIME BASE FOR
lem
f--+-+--+-+---l-+--l
40
~ w~ 30~~:t~t-~~J.~-~-J
isLL«
l/
\
(NOTE 1)
50
O(f)
~
lappro,", I
HI
a:
1\
O. U. T.
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT
,~
Z
w
o 0-""2~5'-5-0------~"":""...c,--,J,::'I"
50 nslcm
LEAD TEMPERATURE, °C
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
(f)
w
a:
1000
W
Il.
FIG. 4 - TYPICAL FORWARD CHARACTERISTICS
:;;
50 0
C3
1.1
5 1000
:2'
r
zw
=
17s"e
1.1
(f)
T,
150°C
'2
-b
«
Z
w
a:
a:
100
w
T,
100 0 e
- j;f-
o
T,
1
25°C
8z
z
z
f"
z
20
w
a:
a:
::J
U
0",
o
0
0
C'J
a:
60
80
0
'"
1
1
TJ
1' .....
=
175"C
o
LL
'L
«
w
Il.
I
~
140
01
04
TTTll
06
08
1.0
1.2
14
16
18
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
250
I
i 10 SINGLE HALF SINE WAVE
LL
200 '
u.i
~
150
0.
"'-
..........
40
f"
I'-...
'"
~
a:
120
1
I
.......
(f)
o
a:
100
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK FORWARD SURGE
CURRENT
w
::J
40
PERCENT OF PEAK INVERSE VOLTAGE
~
w
(J)
L-
)
f"
(f)
«
r
z
01
f"
f"
ow
a:
~
II
::J
(f)
TJ = 25"C
PUI~~/~~~~~ Cy~~OUS ::
I
(f)
fT
::J
Il.
10
~
a:
oLL
)0
(J)
:;;
V
U
a:
a:
w
>
w
a:
f
::J
...J
W
~
10.0
f-
U
~
'L
«w
V
W
Il.
a:
§5
~
W
0:
0
~
~~
10
0
«
U
IIII
I TUJJII
........""
t = lMHz
VSlg = 50 mVp-p
t--..~
0
20
10
20
50
10
100
20
50
REVERSE VOLTAGE, VOLTS
NUMBER OF CYCLES AT 60 Hz
-201-
-
100
200
500
tOOO
FE5A THRU FE5D
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage - 50 to 200 Volts
Current - 5.0 Amperes
FEATURES
•
•
•
•
Glass passivated cavity·free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
"~~,
• Hermetically sealed ~
• Low Leakage
"
• High surge capability
• High temperature metallurgically
bonded, no compression contacts
• High temperature soldering guaranteed
350·C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
G4
.180 (4.61 ,
.115 (2.91
.042 (1.071,
.038 (.9621
.-
MECHANICAL DATA
case: Unitized glass hemetically sealed
TermInals: Axial leads, solderable per
MIL-STD-202, Method 208
PolarIty: Color band denotes cathode
MountIng PositIon: Any
WeIght: 0.037 ounce, 1.04 gram
Dimensions in inches and (millimeters)
• Brazed-lead assembly is ctJV8flJd by Patent No. 3,930,306 of 1976
and gla•• composition by Patent No.3,752,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Vokage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at Tl = 55'C
I(AV)
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method) TA = 55'C
IFSM
Maximum Instantaneous Forward Voltage at 5.0A
VF
Maximum DC Reverse Current
TA =25'C
at Rated DC Blocking Voltage
TA = 150'C
IR
Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
TRR
Typical Junction Capacitance (Note 2)
CJ
Typical Thermal Resistance (Note 3)
R8JL
Operating and Storage Temperature Range
TJ,TsTG
FE5A
FE5B
FE5C
FE5D
50
35
50
100
70
100
150
105
150
200
140
200
5.0
Amps
135.0
0.95
5.0
50.0
Amps
Volts
35.0
100.0
20
-65 to +175
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recover to 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Lead at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-202-
UNITS
Volts
Volts
Volts
IlA
Ns
pf
'CfW
'C
RATINGS AND CHARACTERISTIC CURVES FE5A THRU FE5D
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
t--
10 (1
NON INDUCTIVE
SOl,)
NON INDUCTIVE
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
o
UJ
u:
Trr __
i= en
79")(..79"x.040"I, Cu
{20mr:nX2~mx~
t) W
Wa:
10mmt}
a:UJ
fi! §1
D.U.l.
_-
4.0
..:oot
5QVdc
1 '.'
NOI'JINDUCTIVE
OSCILLOSCOPE
(NOTE 1)
FIG. 3 -
,..:
TYPICAL REVERSE CHARACTERISTICS
FIG. 4 -
1J;;',;-6
100
UJ
Cl
a
'-- ~
UJa.
(/):2
~(.)
-
TJ" 150°C
oot
ffie;
>a:
25
50
75
100
125
150
175
TYPICAL FORWARD CHARACTERISTICS
I
TJ
UJ
a:
UJ
a.
:2
~
==
/
..:
~
10.0
UJ
a:
a:
r-
~
(.)
o
I
a:
100°C
~
-I"'"
,. O~ ~
1.0
TJ '" 25°C
a:
o
(/):i'
u.
~
(/)
~
o
UJ
Z
..:
f-
a
(/)
~
~ffi
RESISTIVE OR
1.0 INDUCTIVE LOAD
i 0.37;", 9.5mm LEAD LENGTH
100.0
Z
~ffl
2 a 1--+-r--t--r-f~r-""1
;;: t-MBIENl IEMPI::HAIUHt:,"l"
lem
1000
UJ
a:
a:
(.)
3.01--+-t--+-P\ct--t--j
W
----1 lOns 1--
n/
I~
~,..:
~ U
50 ohms
L
a:Z
o UJ
u.. a:
lli §
NOTES' 1 Rise Time 7ns max., Input Impedance
1 megohm. 22pF
2 Rise Time lOns max., Source Impedance
I--+-/--f"~ ~1
./
TJ .:: 25°C
O. 1
@
~
O. 1
Pulse Width" 300118
1% Duty Cycle
Z
oot
Z
f-
;':
(/)
Z
oot
f-
Z
1
(fl
~
.0 1
20
40
60
80
100
120
140
.0 1
0.4 0.6
PERCENTAGE OF PEAK INVERSE
VOLTAGE, VOLTS
0.8
1.0.
1.2
1.4
1.6
1.8
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
f--
175
11
Z
UJ
a:
a:
150
~
(.)
UJ
125
Cl(/)
a:UJ
~a: 100
(/)UJ
Oa.
a::2 75
II
r"'-o.
~ ,.....
""1"-.,
~
0
FIG. 6 -
50
~ 200
-
..:
UJ
r-..
ui
(.)
Z
......... r--. ....
..:
fU
..:
a.
U.
:.::
TYPICAL JUNCTION CAPACITANCE
250
TL = 55°C
B.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
..:..:
a:
I
I I I III
oot
25
1'-,..
'
150
100
Vsig = 50mVp-p
.....
i"-
50
(.)
r--
a.
5
10
20
50
100
.1
.5
1
2
5
10 20
50
lOa
REVERSE VOLTAGE, VOLTS
NUMBER OF CYCLES AT 60Hz
-203-
I
111m
TJ = 25°C
f = 1MHz
200
500
1000
FE6A THRU FE6D
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage • 50 to 200 Volts Current· 6.0 Amperes
FEATURES
•
•
•
•
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
"~,.
• Hermetically sealed
• Low Leakage
• High surge capability
• High temperature metallurgically
bonded, no compression contacts
• High temperature soldering guaranteed
350'C/l0 8ecoOOs/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
G4
.180 (4.61 •
.115 (2.91
.042 (1.071 +
.0381.9621 •
MECHANICAL DATA
case: Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.037 ounce, 1.04 gram
Dimensions in inches and (millimeters)
• bed ·Isad assembly is covered by Patent No. 3,930,306 of 1976
and glass composition by Patflflt No. 3, 752, 701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Vottage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TL = 55'C
I(AV)
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method) TA =55'C
IFSM
Maximum Instantaneous Forward Voltage at'S.OA
VF
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA = 150'C
IR
Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
TRR
Typical Junction Capacitance (Note 2)
CJ
Typical Thermal Resistance (Note 3)
ReJL
Operating and Storage Temperature Range
TJ,TsTG
FE6A
FE68
FE6C
FE6D
50
35
50
100
70
100
150
105
150
200
140
200
6.0
Amps
150.0
0.975
5.0
50.0
Amps
Volts
35.0
100.0
18.0
·65 to +175
NOTES:
1. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, recoverto 0.2SA.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voo.
3. Thermal Resistance from Junction to Lead al.375" (9.5mm) Lead Lenglhs, P.C. Board Mounted.
-204·
UNITS
Volts
Volts
Volts
(.lA
Ns
pf
'cm
'C
RATINGS AND CHARACTERISTIC CURVES FE6A THRU FE6D
FIG. 1 -
+05A
f= en
r\'
~O.25
50VdC
(-)
OSCILLOSCOPE
(NOTE 1)
,.-
-1.0
9. 0 r-~---'--r
Ow
~
\
D.U.T.
(0)
W
u:
100
NONINDUCTIVE
500
NON INDUCTIVE
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
o
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
r,1/ V-
NOTES' 1 Rise Time - 7ns max. Input Impedance
1 megohm, 22pF
2. Rise Time = tOns max., Source Impedance" 50 ohms.
V
7.51--~1E:"1-+
~~
«
._--
~,..:
O~
--
u.r:r:
Wr:r:
(!l:;:J
1.5
<0
cr:
W
--1 '0n
'llem
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
en
25
>
<
FIG. 4 -
1000Mi~
ffi
50
75
100 125
150 175
LEAD TEMPERATURE, °C
TYPICAL FORWARD CHARACTERISTICS
100.0
I
W
r:r:
W
0..
~
/
<
I-
Z
10.0
W
r:r:
r:r:
:::J
0
0
r:r:
TJ = 25°C
J
1.0
<
:!:
r:r:
0
u.
en
II
:::J
0
W
0.1
Pulse Width = 300 J..i 5
1% Duty Cycle
Z
<
I-
Z
.01
~_~_~_~
W
~
<
en
I-
':c-_"""'----'
~
____~____
~
M
~
1~
lW
.01
1
0.4 0.6
PERCENTAGE OF PEAK INVERSE
VOLTAGE, VOLTS
0.8
1.0
1.2
1.4
1.6
1.6
INSTANTANEOUS FORWARD
VOLTAGE. VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
,..:
Z
w
r:r:
r:r:
:::J
0
W
150
125
(!len
r:r:W
:::Jr:r: 100
en W
0..
O~
~<
75
~
r:r:
50
u.
,,::
25
'"
I
. . . r--..
r--.
I
I
I 11111
TL'" 55 c C
B.3ms SItJ.1GLE HALF SINE-WAVe
JEDEC METHOD
..........
r--.. .....
W
NUMBER OF CYCLES AT 60Hz
50
250
200
(3
150
<
0..
o<
.
0..
10
a.
u.i
oZ
<
I-
0
<
W
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
u.
10
~
I
"
! I1111I1
TJ = 25°C
f = 1 MHz
Vsig = 50mVp-p
,~
100
""
50
.1
.5
10
20
REVERSE VOLTAGE,
-205-
r50
100 200
V~ TS
500 1000
GI1301 THRU GI1304
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage • 50 to 200 Volts Current· 6.0 Amperes
FEATURES
•
•
•
•
G4
•
•
•
•
.18014.61.
•11512.91
•
.042 11.071,
.0381.9621
Glass passivated cavity-free junction
Superfast recovery times-epitaxial construction
Low forward voltage, high current capability
Capable of meeting environmental standards
of MIL-S-19500
'"
Hermetically sealed
Low Leakage
High surge capability
.
High temperature metallurgically
bonded, no compression contacts
High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
~
4-
MECHANICAL DATA
case: Unitized glass hemetically sealed
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.037 ounce, 1.04 gram
Dimensions in inches and (millimeters)
• Brazed . lead assembly is coV6I8d by Patent No. 3,930,306 of 1976
end glass composition by Palenl No.3, 752, 701 0/ 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or Inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TL =75'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward
Vottage at!6.0A
Maximum DC Reverse Current TA= 25'C
at Rated DC Blocking Voltage
TA .100'C
Maximum Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 5)
Operating and Storage Temperature Range
SYMBOLS
GI130t
G11302
G11303
G11304
VRRM
VRMS
Voc
50
35
50
100
70
100
150
105
150
200
140
200
(Note 3)
5.0
I(AV)
6.0
IFSM
150
VF
0.925
5.0
150.0
30
IR
TRR
C
R8JL
TJ,TSTG
NOTES:
1. Reverse Recovery Test Conditions: IF =0.5A, IR = 1.0A, recover to 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. TL = 55'C, .375" (9.5mm) Lead Length.
4. IFM =3.0ADC.
5. Thennal Resistance from Junction to Lead at .375" (9.5mm) Lead Lengths.
-206-
70
(Note 4)
1.25
20.0
500
50
95
18
-65 to +175
UNITS
Volts
Volts
Volts
Amps
Amps
Votts
I1A
Ns
pI
'elW
1-65to+150
'C
RATINGS AND CHARACTERISTIC CURVES GI1301 THRU G11304
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERIS-IC AND TEST CIRCUIT DIAGRAM
.OS,A
,
,
~
2 RISE TIME
FIG. 3 -
V
r-
a:
U
-+-1"""
10
a:
LU
>
~ !::::. TJ
~ffi
~
Wa..
...
" 100°C
1.0
a:
« Ul
~ LU
a:
a: LU
Ul
:J
Z
Ul
20
:J
a:
«
50
f::::
0
80
100
I
.............
25
5
10
.6
.8
1.0
1.2
1.4
FIG. 6 -
TYPICAL JUNCTION CAPACITANCE
350
I I I I "I
11111111
300
IJ))!!ll If-
u..
a.
Z
r--
I
.4
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
~
~
a.
.2
u.i
r.......... ..........
I
.01
250
U
u..
«LU
120 140
8 3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
AT RATED TL
r---... .......
GI1304
~
a:
60
I
GI1301
THRU
GI1303
100
75
40
PERCENT OF RATED PEAK
REVERSE VOLTAGE
FIG. 4 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
:J
0
~
0.01
175
Ul
=
I-
«
a:
TJ "2S"C
PULSE WIDTH = 300M s~
2% DUTY CYCLE
0.1
«
IUl
LU
C)
GI1304 _
/1/
1.0
Z
«
«
U
/
«
IZ
IZ
125
L
LU
0.1
oLU
LU
V
0
TJ "25°C ... '
:J
a:
a:
100 125 150 175
0 a.
u.. :;
Ul~
Z
1
10.0
U
0
~U
150
75
:J
~~
«
50
AMBIENT TEMPERATURE, °C
GI1301
THRU
011303
LU
a:
a:
I"""
~~
I-'
25
«
IZ
-
C)
«
~fB
....
TJ " lS0"C
LU
LU
4.0
2.0
FIG. 5 - TYPICAL FORWARD CHARACTERISTICS
:J
a.
LU
C)
50.0
z
a:
a:
~~
f2 ~
TYPICAL REVERSE CHARACTERISITCS
LU
:;
a:LU
«a:
«
I-'
Ul
LU
-
GI1301 THAU
GI1303
OUl
---1 TOns I--
100
~
10.0
u
\ J
\ 1I
10
Ins MAX INPUT IMPEDANCE
1 MEGOHM 22 pF
lOns MAX SOURCE IMPEDANCE 50 OHM
RISE:. TIME
z
:J
r\
025
NOTES
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
I-'
LU
a:
a:
«
e::;
«
a.
«
200
f= lMHz
Vsig = 50mVp-p
~
l-
...........
U
--
20
150
i'-.i'o-
100
........ "'"
50
50
100
.5
NUMBER OF CYCLES AT 60Hz
1a
20
50
""
100
REVERSE VOLTAGE, VOLTS
-207-
200
500
1000
I
-208-
'LASS PASSIVATED
LASTIC FAST EFFICIENT
RECTIFIERS
1.0 AMPERE TO 5 AMPERES
- - - - - - - INsrllJ~M\= ....
-209-
I
EGP10A THRU EGP10G
GLASS PASSIVATED JUNCTION FAST EFFICIENT RECTIFIER
Voltage - 50 to 400 Volts Current - 1,0 Amperes
FEATURES
•
•
•
•
D0-41
-r
Glass passivated cavity-free junction
Superfast recovery times for high efficiency
Low forward voltage, high current capability
Capable of meeting I , ••
envionmental standards .'.~''''.'''~
of MIL-S-19500
Low leakage
High surge capability
High temperature metallurgically bonded, no
compression contacts
PlastiC package has Underwriters Laboratories
Flammability Classification 94V-O
High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
I.D (25.4)
MIN
.107(2.7) ~
.080(2.0)
1
--t-:-
•
•
•
,.
.205(5.2)
.160(4.1)
-r
•
1.0(25.4)
.034 (.86) ~..
,028(.71)
MIN
I
•
..
Dimensions in inches and (millimeters)
• Glass·plastic encapsulation technique is covered by Patent No. 3,996,602 _ _ _ _ _ _ _ _ _. .;...M_S.;...C.;;..;...H.;;..~_N_l....;C....;A---",L....;D.;...A....;.;.T.;....;.:4
of 1976; brazed ·Iead assembly to Patent No. 3,930,306 of 1976 and glass Case: Molded plastic over glass
composition by Patent No. 3,752, 701 of 1973
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, 0.3 gram
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capaCitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375', (9.5mm) Lead Lengths at TA = 55'C
Peak Forward Surge Current
8.3 ms single hall sine-wave superimposed
on rated load TA = 55'C
Maximum Instantaneous Forward Voltage a 1.0A
Maximum DC Reverse Current TA - 25'C
at Rated DC Blocking Voltage TA = 150'C
Typical Reverse Recovery lime (Note 1) TJ = 25'C
Typical Junction Capacitance (Note 2)
Operating and Storage Temperature Range
VRRM
VRMS
Voc
EGP
EGP
EGP
EGP EGP
EGP
lOA
lOB
100
50
35
50
100
70
100
IOC
150
105
150
lOG
400
280
400
200 300
140 210
200 300
I(Av)
1.0
IFSM
VF
30.0
0.95
5.0
50.0
50.0
IR
TRR
CJ
TJ,TsTG
NOTES:
1. Reverse Recovery Test Conditions: IF = .5A, If! = lA, Irr = .25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
-210-
10F
20.0
Volts
Volts
Volts
Amps
Amps
1.25
Volts
IIA
10.0
-65 to +150
UNITS
Ns
pi
'C
RATINGS AND CHARACTERISTIC CURVES EGP10A THRU EGP10G
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
!__ --trr
10
NONINDUCTIVE
50
NONINDUCTIVE
W
u:
~~
D.U.1.
o
o
/V
1. 0
en
=>
V
TJ = 25°C
o. 1
IJ
o. 1
Z
~
...l
Z
a:
I
V V
/
W
a:
a:
Z
W
o
125
TYPICAL FORWARD CHARACTERISTICS
W
~
~ffi
=>
\
100
50 .0
Q
WQ
30
75
AMBIENT TEMPERTURE, °C
a:
a:
-...1 1ons
f-lem
I
i\.1
'\
1\
RESISTIVE OR
INDUCTIVE LOAD
0.375", 9.Smm LEAD
LENGTHS
,,=>
NOTES 1 R
«
50 ohms
r\.
0
50
75
100
"
125
150
175
AMBIENT TEMPERATURE. °C
TYPICAL REVERSE CHARACTERISTICS
1000
f-'
zUJ
FIG. 4 -
r-- - .
::::J
0
(f)
I
ce
ce
."
100
UJ
~
(!)
«
~O
o
o
1. 0
L
CI)
V
0.1
/1
u.
0.1
::::J
Z
«
fZ
«
.01
40
60
80
100
120
fCI)
140
1
.01
0.4
Z
::::J
o
ITA~15J IIIII
iI.3ms SINGLE HALF SINE-WAVE
60r-____~~~~~~~~t-----JrED-E-C~M-E-TTH-OrD~rT~
..... r-. ...
U.
0.
W
o
z
~
U
«
Il.
«
o
2
10
20
1.2
1.4
1.6
1.8
50
TYPICAL JUNCTION CAPACITANCE
1'\
90r-----r--;--r-~-rTTr-----1---r_T_T;rT;_n
""'"
1.0
INSTANTANEOUS FORWARD
VOLTAGE. VOLTS
MAXIMUM NON-REPETITIVE SURGE CURRENT
75~__+_+_++_H_H
0.8
0.6
FIG. 6 -
f-'
t=:
Pulse Width = 30°115
2% Duty Cycle
oUJ
PERCENTAGE OF PEAK INVERSE
VOLTAGE. VOLTS
ce
ce
EGP20F
EGP20G
TJ = 25°Cr
1--
o
20
zW
~
ce
«
FIG.5 -
/'
~
ce
1.0
fCI)
~
II
::::J
CI)~
fZ
10. 0
UJ
ce
ce
10
::::J
0
UJ
Z
«
--r-::::;;oo
EGP20A
THRU
EGP20D
fZ
~CI)
«UJ
UJ ce
-'UJ
UJIl.
CI)::i:
ce«
UJ o
>ce
TYPICAL FORWARD CHARACTERISTICS
50. 0
UJ
ce
UJ
Il.
100
"
0.1
NUMBERS OF CYCLES AT 60Hz
"- ....
'
0.5
1.0
....
"
...... .... ...
5.0
10
20
r--;
50
100
REVERSE VOLTAGE. VOLTS
-213-
200
500 1000
I
EGP30A THRU EGP30G
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage - 50 to 400 Volts Current - 3.0 Amperes
FEATURES
•
•
•
•
GP-20
1
~
.190 (4.831
r
1.0 (25.41
OIA.
1-1
Glass paSSivated cavity-free junction
Superfast recovery times for high efficiency
Low forward voltage, high current capability
Capable of meeting ''''-''",
environmental standards ~,.~
of MIL-S-19500
~
Low leakage
<<<".""
High surge capability
High temperature metallurgically bonded, no
compression contacts
Plastic package has Underwriters Laboratories
Flammability Classification 94V-O
High temperature soldering guaranteed
350'C/10 secondsl.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
+
•
•
•
t
.375 (9.51
.285 (7.21
-t:i
•
1.0 (25.41
.042(1.071.
.037 (.941
•
Dimensions in inches and (millimeters)
MECHANICAL DATA
case: Molded plastic over glass
Terminals: Axial leads, solderable per
• Glass-plastic lIIlCIIfJ6u1ation tschniqu9 is COV9/'9d by Patent No. 3,996,602
of 1976; brazed -/sod asssmbly /0 PalBnt No. 3,930,306 of 1976 and glass
composifonbyPatentNo.3,752,701 of 1973
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.03 ounce, ,0.8 gram
Ratings at
temperature unless othelWise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 55·C
Peak Forward Surge Current
8.3 ms single half sine-wave superimposed
on rated load TA =55'C
Maximum Instantaneous Forward Voltage a 3.0A
Maximum DC Reverse Current TA = 25·C
at Rated DC Blocking Voltage TA = 150·C
Typical Reverse Recovery Time (Note 1) TJ = 25·C
Typical Junction Capacitance (Note 2)
Operating and Storage Temperature Range
EGP
EGP
EGP
EGP EGP
SYMBOLS
30A
30B
30C
30D
30F
30G
UNITS
VRRM
VRMS
Voc
50
35
50
100
70
100
150
105
150
200 300
140 210
200 300
400
280
400
Vo~s
IFSM
VF
IR
TRR
CJ
TJ,TsTG
NOTES;
1. Reverse Recovery Test Conditions: IF = .SA, IR =lA, Irr =.2SA.
2. Measured at 1.0 MHz and applied reverse voltage 014.0 Volts.
-214-
~mps
125.0
0.95
1.25
5.0
50.0
50.0
90.0
Volts
J.LA
55.0
-65 to +150
Volts
Votts
~mps
3.0
I(AV)
EGP
ns
pf
·C
RATiNGS AND CHARACTERISTIC CURVES EGP30A THRU EGP30G
FIG, 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
W
~trr.---"
10
50 '
NONINDUCT IVE
LL
NON INDUCTIVE
~~
l ~~VOC
««
3:r:
TYPICAL REVERSE CHARACTERISTICS
Ul:ii
::J
Or:
Ul
W
a:
W
e..
:2;
«
fZ
W
a:
a:
::J
0
10
~«
~W
TJ = 25°C
40
Z
«
fZ
«
fUl
~
60
80
100
120
3:
a:
~
5
;5
THRU
EGP30D
I V
1.0
150
175
I
V V
EGP30F,
EGP30G
.............. ~
,/
0.1
01
TJ
0.6
O.B
1.0
1.6
18
FIG. 6 -
180
U-
0.
r-.... 1' ...
0
«
e..
~ r-...
TYPICAL JUNCTION CAPACITANCE
220
,
150
0
Z
« 120
f-
.....
....... r-.,
,
I
II
2S"C
TJ
f
1MHz
VS I 9 50rnVp-p
90
«
I'...
0
60
1"'- ......
EGP30F
EGP30G
III
e..
50
.5
100
EGP30A
EGP30D
r-... r-""
30
20
14
1.2
INSTANTANEOUS FORWARD
VOLTAGE, VOLTS
u.i
10
2S"C
Pulse Width 300jJs2% Duty Cycle
1/
OA
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
0
r- EGP30A
10.0
140
I IJJIIIII
150
oU-
125
TYPICAL FORWARD CHARACTERISTICS
-
UUl
175
75
100
0
Z
O~
75
a:
20
C)Ul
a:W
:J a: 100
UlW
50
3:
1.0
PERCENTAGE OF PE~K INVERSE
VOLTAGE. VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
125
25
AMBIENT TEMPERATURE, °C
«
0
a:
«
TJ ~ 100 0 G
01
oW
\.
100.0
TJ '" lS0"C
wZ
ZW
«a:
f-a:
Z::J
«0
01
fUl
~
W
I\,
RESISTIVE OA
INDUCTIVE LOAD
r~
0.375", 9.Smm LEAD LENGT
W
FIG. 4 -
100
~O
1.0
0.5
>
1em
~Ul
«W
Wa:
-'w
We..
Ul:2;
a:«
Wo
>a:
\
1.5
cr::
C)::J
«0
a:
--i 10ns l__
50 ohms
1000~~.
W
C)
«
~
20
~~
W
NOTES , Rise Time 7ns max Input Impedance
1 megOhm 22pF
lOns max Source Impedance
2 Rise Time
FIG. 3 -
\.
U-a:
OSCILLOSCOPE
(NOTE n
a:
a:
::J
3.0
;::Ul
Ow 2.5
Wa:
a:W
~~-+'-I0-.
U. T-.~Vv----------,
r:
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
o
2
5
10
20
""
50
:::tlJ
100
REVERSE VOLTAGE. VOLTS
NUMBER OF CYCLES AT 60Hz
-215-
200
!
~i
i,l
Ilil
II
500 1000
EGP50A THRU EGP50G
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage - 50 to 400 Volts Current - 5.0 Amperes
FEATURES
•
•
•
•
GP-20
t
.21015.3)
.19014.83)
OIA.
L.I
1.0 125.4)
~
•
•
•
--~-
•
.37519.5)
.28517.2)
r
1.0125.4)
.04211.07) •
.0371.94)
=----L
•
Glass passivated cavity-free junction
Superfast recovery times for high efficiency
Low forward voltage, high current capability
Capable of meeting ! " ' ' ' ' - ' ' ' ' ' '
environmental standards ~,~
of MIL-S-19500
~,
.".~
Low leakage
High surge capability
High temperature metallurgically bonded, no
compression contacts
Plastic package has Underwriters Laboratories
Flammability Classification 94V-O
High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
Dimensions in inches and (millimeters)
MECHANICAL DATA
Case: Molded plastiC over glass
• Glass-plastic encapsulation lechnlque is covered by PalMI No. 3,996,602 7i
l l A' II d
Id bl
of 1976; bnlzed -l9ad assembly to PatBnt No. 3,930,306 of 1976 and glass
erm na s: xla ea s, SO era e per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.03 ounce, 0.8 gram
compositionbyPalMtNo. 3,752,701 of 1973
®
Ratings at '
temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TL = 55'C
Peak Forward Surge Current
8.3 ms single half sine-wave superimposed
on rated load TL = 55'C
Maximum Instantaneous Forward Voltage a 5.0A
Maximum DC Reverse Current fA = 25'C::, :',
at Rated DC Blocking Voltage TA = 150'C
Typical Reverse Recovery Time (Note 1) TJ = 25'C
Maximum Thermal Resistance (Note 3)
Typical Junction Capacitance (Note 2)
Operating and Storage Temperature Range
SYMBOLS
EGP
SOA
EGP
SOB
EGP
SOC
EGP
SOD
EGP
SOF
EGP
SOG
UNITS
VRRM
VRMS
VDC
50
35
50
100
70
100
150
105
150
200 300
140 210
200 300
400
280
400
Volts
Volts
Volts
5.0
I(AV)
IFSM
VF
IR
TRR
R8JL
CJ
TJ,TsTG
NOTES: 1. Reverse Recovery Test Conditions: IF = .SA, IR = 1A, Irr = .2SA.
2. Measured at 1.0 MHZ and applied reverse voltage of 4.0 Volls.
3. Thermal Resistance from Junction to Lead at .37S", 9.Smm Lead Lengths.
-216-
Amps
150.0
0.95
5.0
50.0
50.0
20
100
-65 to +150
1.25
Amps
Volts
!LA
Ns
'C\W
pf
'C
RATINGS AND CHARACTERISTIC CURVES EGP50A THRU EGP50G
FIG. 1 -
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
10 r,
NQN1NOUCTIVE
50 '.1
NONtNDUCTIVE
I~~;
6.0
-0 SA
~~L,--'--D-'U-'T-'~~--------------'
l ,+,
5.0
i"
4.0
.79"x.79")(.04"t C u
"'l20mmx20mmx1 mm)
50vo,
-025
I"
3.0
2.0
OSCILLOSCOPE
(NOTE 1)
RESISTIVE OR
INDUCTIVE LOAD
0.375", 9.Smm LEAD
LENGTH
1.0
-1.0
NOTES. 1 Rise Time 7ns max .. Input Impedance
1 megohm. 22pF
2. Rise Time 10ns max, Source Impedance
25
110n$ lcm
50 ohms.
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
en
W
ee
75
100
\
125
150
175
LEAD TEMPERATURE. "C
FIG.4 -
1000
50
~
TYPICAL FORWARD CHRACTERISTICS
100.0
W
I
0.
::;:
0
EGP50A
THRU
EGP500
<{
f--
-
w
TJ = lS0°C
~
0
0
Z
EGP50F
::J
~
aLL
-
I /
ee
1000 e
= :::=
EGP50G _
()
o
-
l,.(
ee
ee
I
TJ
i'--.V
10.0
1.0
ee
(/)
'/
::J
aw
/
TJ = 25 c C
1
0.1
Z
TJ = 25C C
~
Z
<{
f--
(/)
~
.0 1
20
40
60
80
100
120
()
175
150
125
W
('J(/)
eeW
::Jee
(/)W
100
00.
75
ee::;:
<{«
s:ee
50
K
II
t"sL
i"-
1.0
1.2
1.4
1.6
1,8
FIG. 6 -
TYPICAL JUNCTION CAPACITANCE
220
11111
180
.....
LL
a.
W
r-.~
~
150
()
~
'- ....... r--. .....
120
f--
~
90
""~
!'-..~
0.
()
EGPSOA
EG;50D
r-....
<{
60
.I
EGPSOF
EGP50G
0
LL
!<:
<{
W
0.8
INSTANTANEOUS FORWARD
VOLTAGE. VOLTS
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
.......
2% Duty Cycle
0.4 0.6
140
PERCENTAGE OF PEAK INVERSE
VOLTAGE. VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
~
Z
W
ee
ee
::J
Pulse Width = 300J,.! s -
I,
.01
25
30
0.
10
20
50
100
III
.5
NUMBER OF CYCLES AT 60Hz
TJ "25°C
f = lMHz
V~li~ = 50mVp-p
i'1'1
2
5
10 20
50
rtm:::::UJ I
100
REVERSE VOLTAGE. VOLTS
-217-
200
500 1000
-218-
PLASTIC FAST EFFICIENT
RECTIFIERS
1 AND 3 AMPERES
_______
-219-
INsr~M\=
---
UF4001 THRU UF4007
ULTRAFAST MINIATURE PLASTIC SILICON RECTIFIER
VOLTAGE - 50 to 1000 Volts CURRENT - 1,0 Ampere
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-0
• 1.0 Ampere operation at TA =SS'C with no thermal runaway.,...
• Low cost·~
• Ultrafast Recovery
Times for high efficiency
• Low Forward Voltage
• Low Leakage
• High Suge Capability
• High temperature soldering guaranteed
37S'C/10 secondsl.37S",(9.Smm) lead lengths at
Sibs., (2.3kg) tension
D0-41
-r
1.0 (25.4)
.107(2.7)
.OBO(2.0)
~
1 I.
MIN
~
~
.205(5.2)
.160(U)
-t-
1.0 (25.4)
.034(.86) ~
.028 (.71)
MIN
+
I
..
MECHANICAL DATA
Case: JEOEC 00-41 Molded plastiC
Terminals: Axial leads, solderable per
Dimensions in inches and (millimeters)
MIL-STO-202, Method 208
Polarity: Color band denotes Cathode End
Weight: 0.012 ounce, 0.3 gram
MountIng Position: Any
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Resistive or inductive load.
For capacitive load, derate current by 20%.
UF
UF
SYMBOLS 4001 4002
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
VRRM 50
VRMS 35
Voc 50
Maximum Average Forward Rectified Current .375"
(9.5mm) Lead Length TA = 55'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage TA= 100'C
Maximum Reverse Recovery Time (Note 1) TJ = 25'C
Typical Junction Capacitnance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range,
UF
UF
UF
UF
4005 4006 4007 UNITS
600 800 1000 Volts
100 200 400
70 140 280
100 200 400
420 560 700 Volts
600 800 1000 Volts
I(AV)
1.0
Amps
IFSM
30.0
Amps
VF
IR
Trr
CJ
RaJA
TJ,TsTG
NOTES:
1. Reverse Recovery Test Conditions: IF =.5A, IR =1A, Irr = .25A.
2. Meaasured atl MHz and appliad reverse voltage of 4.0 Volts.,
3. Thermal Resistance from Junction to Ambient, .375". 9.5mm Lead Lengths.
-220-
UF
4003 4004
1.0
1.4
10.0
50.0
50.0
20
75.0
15
25.0
-65 to +150
Volts
"A
Ns
pF
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES UF4001 THRU UF4007
FIG. 2 10.0
FIG. 1 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
"'
W
II:
II:
II:W
",II: 0.5
;:W
... '"
W
(!l
I I
LENGTH
'>"
II:
20
'"
40
60
80
100
~-
'"
;:
...
160
'":::J0
...'Z"
TYPICAL REVERSE CHARACTERISTICS
10.0
W
W
1.0
"'::;;
a:",
Wo
~5
30
":::;;
-
«
:::J
0.1
Z
...'"z
'"...
"'
Z
25
0.6
0,8
1.0
1.2
r"-r---
W
:::J 20
U
W
(!l
a:
UJ
'a:"
;:
~
.01
20
40
60
80
100
120
1.8
15
,
..........
...
'"W«
10
5.0
5
a.
TYPICAL JUNCTION CAPACITANCE
FIG. 5 -
0. 60
40
-
" II
20
UF4005
thru UF4007
10
CL
«
()
20
50
100
100
NONINDUCTIVE
t
NQNINDUCTIVE
,.,
r--...
10
NUMBER OF CYCLES AT 60 Hz
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
500
UF4001 thru
UF4004
I-
r--. ....
0
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG. 6 -
1.6
8.3 ms SINGLE HALF srNE~WAVE
JEDEC METHOD
TA -= 55°C
:::J
'"a:0
u- 100
1.4
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
~ .....
a:
a:
TJ - 25°C
P"""
UJ~
0
w
FIG. 4 -
UJ
a:
w
wQ.
~Z
::l
..,
•
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
TJ = loooe
...J
savoc
+05.A
D.U.T.
\
\
./
025
2
1
10
NONINDUCTIVE
TJ - 25°C
to:: lMHz
OSCILLOSCOPE
(NOTE 1)
.4
1.0
10
20
REVERSE VOLTAGE, VOLTS
40
NOTES 1 Rise Time", 7ns max
1 megohm. 22pF
2 Rise Time = 10ns max Scufce Impedance '"
50 ohms
-221-
-, .J
1\
Vsfg '" 50mVp-p
.2
I
~
'"~
(!l
5
0.01
TJ '" 150°C
'"wa:
"'w
~
J/
0.4
"'",
~
I
W
Z
:::J
U
W
()
0.1
~
a:
a:
TJ ': 25°C
Pulse Width 0:: 300 f.l s
2% Duty Cycle
II:
140
w
=
=
0
'"
120
I
I /
0.001
"'z
./
UF4005
THRU UF4OQ7
II:
100'0~~
u.i
1.0
:::J
U
0
-
AMBIENT TEMPERATURE, ·C
FIG. 3 -
~
/
W
II:
II:
SINGLE PHASE
"HALF WAVE 60HZ
RESISTIVE OR
INDUCTIVE LOAD
0.375" (9.5rnm) LEAD
~~
w
...Z'"
'\
0'"
UF4001
THAU UF4004
":::;;
r\.
:::J
U
=
-
W
II:
W
,
1.0
Z
'"
TYPICAL FORWARD CHARACTERISTICS
- 10
",
,.,/
~'cmf---10ns
UF5400 THRU UF5408
ULTRAFAST PLASTIC SILICON RECTIFIER
Current· 3.0 Amperes
Voltage· 50 to 1000 Volts
FEATURES
• Low cost
• Ultrafast recovery times for high efficiency
• Low forward voltage, high current capability
DO-201AD
• Low leakage
""'''''''''' .
• High surge capability ~~
• Plastic material used carries
.' " .
Underwriters Laboratory Flammability -"'«',,,
Classification 94V-O
• High temperature soldering guaranteed
2S0'C,.2S", 6.3Smm from case for 10 seconds
1
.210 [5.lI
r
·19~I~~·81
1.0 [25.41
LI
j.-LL"'; ---ltr--.375 [9.51
.285f·21
MECHANICAL DATA
1.0 [25.41
.052 [1.31
.048 !l.21
T
, +
case: JEDEC D0-201AD, molded plastic
Tennlnals: Axial Leads solderable per
MIL-STD-202, Method 208
Polarity: Color Band denotes Cathode
Mounting Position: Any
Weight: 0.04 ounce, 1.1 gram
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load. derate current by 20%.
UF
UF
SYMBOLS 5400 5401
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rec@ed Current,
.375" , (9.5 mm) Lead Length at TA = 55'C
Peak Forward Surge Current
8.3ms single ha~ sine-wave superimposed
on rated load (JEDEC Method) TA = 55'C
Maximum Instantaneous Forward Voltage
at3.0A
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA=100'C
Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
Typical Junction Capacitance (Note 2)
Maximum Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
UF
5402
UF
5403
UF
5404
UF
5405
UF
UF
UF
5406 5407 5408 UNITS
100 200 300 400 500 600 800 1000 Volts
70 140 210 280 350 420 560 710 Volts
100 200 300 400 500 600 800 1000 Volts
I(AV)
3.0
Amps
IFSM
150.0
Amps
1.0
VF
10.0
50.0
IR
TRR
CJ
R8JL
TJ,TsTG
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recover to 0.25A.
2. Measure atl MHz and applied reverse voltage of 4.0 volts.
3. Thermal Resistance Junction to Lead.
-222-
50.0
75
20.0
-65 to +150
I
1.4
Volts
!LA
I
I
75.0
50.0
Ns
pi
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES UF5400 THRU UF540B
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
f+--l rr
soc.'
FIG. 2 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
IZ
- -.....
NON INDUCTIVE
W
G51~r---'------'
['
:J
OU)
\
j,.o'"
Input Imp"'dance_
f2~
10
1,\
15
I\.
OJ
<
a:
I\,1/
,0
20
«
1cm f---1 10ns
~
RESISTIVE OR
INDUCTIVE LOAD
0375",9 Smm LEAD LENGTH ~
20
40
60
80
100
t--
120 140 160
AMBIENT TEMPERATURE, °C
FIG.4 - TYPICAL FORWARD CHARACTERISTICS
I
100
U)
w
FIG. 3 - TYPICAL REVERSE CHARACTERISTICS
I-
100
Z
L.U
a:
a:
::::>
()
TJ = 150°C
L.U
100
Cl
«
~t3
UJa:
--'UJ
W 0...
OJ::;
-
:J
o
Z
IlL
II:
«
:;:
1.0
II:
~
(f)
TJ = 25°C
1/
:J
1==
ow
~
,...
z
«
,...
0.1
II
O. 1
.L
U)
~
.01
40
60
80
100
120
-
TJ = 25°C
Pulse Width'" 300 j.J.s_
2% Duty Cycle
L
1
0.0 1
20
F=
t---
'J
()
«
IZ
UF5405
UF5407
II:
II:
V
z
«
10.0
OJ
oUJ
IOJ
/
UF5404
Z
I
I
~~
::::>
::i:
~
-, V- ......
UF540D
r-- r- thru
w
0..
'---
TJ -100°C10
a:«
~()
OJ ~
a:
o4
140
06
10
0.8
I
_l
~
12
1.4
16
1.8
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
PERCENT OF PEAK REVERSE VOLTAGE
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
,..:
Z
w
a:
a:
150
:J
()
w
--+t--lPiN 2 PIN 3 ~ 2 PIN 3 ~m 2
IFEPFsl
@~
IFEDFsl
MountIng Torque: 5 in.-Ib. max.
WeIght: 0.08 ounce, 2.24 gram
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
FEPF6AT
FEPFfBT
50
Maximum Recurrent Peak Reverse Vo~age
VRRM
Maximum RMS Voltage
35
VRMS
50
Maximum DC Blocking Voltage
Voc
Maximum Average Forward RectHied Current
See Fig.l
I(AV)
Peak Forward Surge Current
8.3ms single ha~ sine-wave superimposed
on rated load (JEDEC Method)
IFsM
Maximum Instantaneous Forward Voltage at 6.0A
VF
Maximum DC Reverse Current
Tc- 25"C
at Rated DC Blocking Voltage
IR
Tc- 100"C
Maximum Reverse Recovery Time (Note 1)
TJ - 25"C
TRR
Typical Thermal Resistance (Note 2)
R9JC
Operating and Storage Temperature Range
TJ,TsTG
..
NOTES: 1. Reverse Recovery Test Conditions: IF =a.SA, IR = 1.aA, recover to a.2SA.
2. Thermal Resistance from Junction to Case per element.
-226-
FEPFfCT
FEPFfDT
UNTrS
150
105
150
200
140
200
Volts
Volts
100
70
100
Vo~s
6.0
Amps
100.0
0.950
5.0
50.0
Amps
Volts
35.0
5.0
-65 to +150
I1A
Ns
"Cm
"C
RATINGS AND CHARACTERISTIC CURVES FEPF6AT THRU FEPF6DT
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
...:
z
FIG. 1 10.0
ClUl
cr W
::J
U
::Ja:
8.0
6.0
I"
~~
~~
4.0
~~ 75
««.
W
2.0
«
o
a:
W
>
"
I"
~
100
8.3m'. Single Hall Sine-Wave
(JEDEC Method)
UlW
OUl
~tl!
I II
W
W
a:
a:
125
FORWARD CURRENT DERATING CURVE
o
50
100
3:":a: z
OW
u..a:
~
11
.............. .........
~
r--
50
-1-0
r-- "'1-
~§ 25
wU
e..
"'-
0
5
I
10
20
50
100
NUMBER OF CYCLES AT 60Hz
150
I
CASE TEMPERATURE, ·C
,.:Z
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
40
W
a:
::J
U
~ Ul
Tc'" 100°C
10
U
I
W
-
""..
~
.4
~
.2
~
.1
«
~
Cl
~ffl
--
TJ = 25°C
Pulse Width 300jJ 5'"
2% Duty Cycle
I
J
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
J
1.0
1.0
o
J
«
wa:
...J w
we..
4
~ffi
u..e..
~~
W
a:
::J
10
3:w
100
a:
/
o
FIG. 3- TYPICAL REVERSE
CHARACTERISTICS
...:
z
/'
20
a:
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
Ul::>
ffi(§
60
>a:
tl!u
/
Ul~
::J
oW
0.1
V
Tc·~25°C
Z
40
z
«
I-
30
o
«
I-
~
«
Ul
0'
c.
ui
U
Z
«
I~
u..
't--
TJ • 25"C
.......
0
u
.01
'"
0
PERCENT OF RATED PEAK
REVERSE VOLTAGE
1.1MHz
Voig • 50mVp·p
o
1
5
1.0
2.0
5.0
10
20
50 100 200
REVERSE VOLTAGE, VOLTS
-227-
500
1000
FEP6-T SERIES
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage - 50 to 200 Volts Current - 16 Amperes
FEATURES
• Dual rectifier constrsuction, positive center-tap
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated
cavity-free junction
• Superfast recovery
times, high voltage
• Low power loss, high efficiency
• Low forward voltage, high current capability
• For use in low voltage, high frequency inverters,
free wheeling and polarity protection applications
• High temperature soldering guaranteed: 2S0'C,
.2S", 6.3Smm from case for 10 seconds
TD-220 CT
..lllI..!Y11
~:m«:m
.150 (Ull
i
.Uf~~lp
:~~Sr~~
1.163
:g~m:l~
I
DIA.-r-_-:-+--+'\oI'
.60011 .241
.575T611
:29.ill'1
1.lUJ (28.021
.. .,025
.560 [124.221
MAX •
, •530 [t461
MECHANICAL DATA
+
l
"'II.:m~::;:
·]~~(Hn
[.
~
.190(4.831
·gU IS ~11"1t!:.,
•
•
case:
TO-220 CT Fully overmolded plastic
TermInals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
MountIng PosItIon: Any
WeIght: 0.08 ounce, 2.24 gram
.110 (2.791
I"" .090(2.291
PIN 2
PINl"~
POSITIVE CT PIN 3-~cilSE
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse VoUage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward ReclHied Current
.375", (9.5mm) Lead Lengths at 100'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 3.0A
Maximum DC Reverse Current
TA·25'C
at Rated DC Blocking Voltage
TA= 100'C
Maximum Reverse Recovery Time (Note 1)
TJ- 25'C
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
SYMBOLS
FEP6AT
FEP6BT
FEP6CT
FEP6DT
UNITS
VRRM
VRMS
Voc
50
35
50
100
70
100
150
105
150
200
140
200
Volts
Volts
Volts
I(AV)
6.0
Amps
IFsM
VF
100.0
0.975
5.0
50.0
Amps
Volts
!LA
!LA
IR
TRR
R8JC
TJ,TsTG
NOTES:
1. Reverse Recovery Test Conditions: IF =5.0A, IR = 1.0A, IRR =25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0 vollS.
3. Thermal Resistance from Junction to Case.
-228-
35.0
5.5
-65 to +150
Ns
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES FEP6AT THRU FEP6DT
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
FIG. 1 -
......
Z
W
125
10 0
=>
C"1l
=>a:
U)w
O~
AU)
~~6 0
~~
~~4 0
""" r\
W
~
a:
2.0
w
>
«
o
o
50
100
(JEDEC Method)
-........ r--..
II: W 100
0
11
8.3m'. Single Half Sine-Wave
W
a:
a:
U
III
FORWARD CURRENT DERATING CURVE
75
..... 1'-1"
~«3:
a: ......
Z
50
OW
I""--
r- 1-1'-
LLa:
~
25
",
gs
U
w
0..
o
10
1
100
50
20
NUMBER OF CYCLES AT 60Hz
150
CASE TEMPERATURE, 'C
......
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
Z
0
a:
a:
=>
0
w
U
a
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
a:
100
lL
/
10
4
~~
gj ffi
2
~~
'.0
II
LLo..
......
ow
j
Z
w
a:
a:
=>
U
w
z
«
z>«
L...-- ~
Tc= 100°C
0
I-
«
~~
~ffi
wo..
1
0.6
0.8
1.0
1.2
1.4.
1.6
1.8
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
U)::;:
FIG. 5 -
ffi<3
>a:
TYPICAL JUNCTION CAPACITANCE
0
~U
~
U)~
=>
ow
0.4
j
0
~~I~u~i~~c~~ s-
J
1
~
Cl
'-
TJ '" 25°C
1
1
V
Tc
~
LL
25°C
a.
ui
z
«
z
«
U
z
«
IU
>>-
o~
0
r"-"
0
TJ - 25'C
f - 1101Hz
«0..
U)
Z
1'-..
«
1
~
40
00
M
100
1~
Voig _ 50mVp-p
U
r-.....
0
PERCENT OF RATED PEAK
REVERSE VOLTAGE
0
.2
5,0
20
50
10
20
50 100
REVERSE VOL lAGE, VOLTS
-229-
200
500
1000
FESF8AT THRU FESF8JT
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage - 50 to 600 Volts Current - 8,0 Amperes
FEATURES
IT0-22O
• Isolated plastic material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated cavity-free junction
• Low power loss, high efficiency
• Low leakage
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed: 250'C,
.25", 6.35mm from case for 10 seconds
• Internal Insulation: 1.5K VRMS
MECHANICAL DATA
case: ITO-220 fully overrnolded plastic
Terminals: Lead solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in.- Ibs. max.
Weight: 0.08 ounce, 2.24
PI" 1+<>----[
PI" 2-o--+t-l
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
FESF FESF FESF FESF FESF FESF FESF FESF
SYMBOLS 8AT 88T 8CT 8DT 8FT BGT BHT 8JT UNITS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
See Fig.1
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 8.0A
Maximum DC Reverse Current
Tc-25'C
at Rated DC Blocking Voltage
Tc.100·C
Maximum Reverse Recovery Time (Note 2)
TJ = 25'C
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
100 150 200 300 400 500 600 Volts
70 105 140 210 280 350 420 Volts
100 150 200 300 400 500 600 Volts
IFSM
VF
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF =O.5A, IR = 1.0A, recover to 0.25A.
3. Thermal Resistance Junction to Case.
-230-
Amps
125
0.95
1.3
10.0
500
IR
TRR
CJ
R8JC
TJ.TsTG
Amps
8.0
I(AV)
35
1.5
Volts
IJA
50
65
2.2
-65 to +150
I
Ns
pi
'CNI
'C
RATINGS AND CHARACTERISTIC CURVES FESFBAT THRU FESFBJT SERIES
FIG. 3-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
8.3msec single sine wave
(JEDEC method)
125
FIG. 1 -
..:
z
FORWARD CURRENT DERATING CURVE
H~ATSIINK
w
a:
§-
~~
««
:::..:
a:Z
OW
LL a:
Tc
1\
0'"
W
a:
« a:
6.0
\
~~
:r~
FREE~TA
W
C!l
«
2.0
a:
o
RE1SIST1IVE fOA~
o
50
,
- -- r--
INDUCTIVE OR
W
>
«
100
100
r-......... r--~
10
i\.
r-- ~
U
100
~
40
a:
a:
20
50,1 OQ, 150,20DV"""'"
10
~fB
,
a: a:
Ow
u.e..
"'::>
::)«
0
W
Z
,
~.
I
300,400.500,600V
Z
«
rJ)
«
><",
«W
Wa:
W
I
I
II
.•
TJ
""
25° C
-
Pulse Width = 25° C
2% Duty Cycle
.8
.9
1.0
1.1
1.2
1.3
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
10
FIG. 5-TYPICAL JUNCTION CAPACITANCE
~U
"'~
::)
u.
oW
I
Z
I-
.--
II-
C!l
«
~
~~
I/l
1.0
~
we..
"'::>
a: <{
Wo
>a:
I
".". i""""
«
W
.J
100
50
W
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
Tc=100°C
20
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
..:
z
150
0
a:
r--""
NUMBER OF CYCLES AT 60Hz
a:
a:
........ .....
25
~§
wU
e..
::)
::)
r-......
50
U
W
",
75
TEMPERATURE. "C
..:
Z
-- ...
",W
8.0
U
W
(!JC/)
a:W
::)a:
1.0
C.
W
Z
«
Z
«
60
U
70
I-
I-
-
'"~
(3
Tc
25° C
«e..
«
U
"
50
~
1
I"~
..........
i"""o
0.1
30
10
20
50
j'... .....
100
REVERSE VOLTAGE, VOLTS
-231-
I
...
""
40
PERCENT OF RATED PEAK
REVERSE VOLTAGE
I
T,
25 ) c
f = 1MHz
Vsig == 50mVp-p
200
500
FES8AT THRU FES8JT
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage • 50 to 600 Volts Current· 8.0 Amperes
FEATURES
DIA.
--l601:
05511.40)
.04511.14)
-+1 •.
..
. 15013.811
:rmnm
-p- ~
.36019.14)
.60011.24)
:s75U4:6Ii
1
.320t13)
1163 29.54
1.103 128.u2)
.....-.~
i
...
(t46)
.,~t
I"'·gmS""'m+l::.
"
.530
..II.:mm:l:l
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated cavity-free junction
• Low power, high efficiency
• Low Leakage
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed
2S0·C,.2S", 6.3Smm from case for 10 seconds
••
MECHANICAL DATA
.110(2.79)
.090(2.29)
case: TO-220 molded plastic
Terminals: Lead solderable per
MIL-STO-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.08 ounce, 2.24 gram
.190(4.83)
PIN 1 ". O"'--J..J,
PIN 2 ... ~CifSE
PIN I' ~
PIN 2 ... o---j4-JCifSE
(CASE POS ITIUE)
STANDARD POLARITY
1 FES8 1
Dimensions in inches an
ml Imetersj
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings al25'C ambienllemperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
FES
SYMBOLS BAT
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
alTc .. 100·C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 8.0A
Maximum DC Reverse Current
Tc=25'C
at Rated DC Blocking Voltage
Tc = 100'C
Maximum Reverse Recovery Time (Note 2)
TJ = 25'C
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
FES
BBT
FES
BCT
FES
BFT
FES
BGT
FES
BHT
FES
8JT UNITS
100 150 200 300 400 500 1600 Volts
70 105 140 210 280 3501420 Volts
100 150 200 300 400 500 I 600 Volts
8.0
'(AV)
IFSM
VF
TRR
CJ
R8JC
TJ,TsTG
NOTES:
1. Measured all MHz and applied reverse voltage of 4.0 volts.
2.. Reverse Recovery Tesl Conditions: IF = 0.5A, IR = 1.0A, recover to 0.25A.
3. Thermal Resistance Junction to CASE.
Amps
125
0.95
1.3
10.0
500
IR
-232-
FES
BDT
35
I
65
3.0
-65 to +150
1.5
Amps
Volts
ItA
50
Ns
pf
'cm
·C
RATINGS AND CHARACTERISTIC CURVES FESBAT THRU FESBJT SERIES
FIG. 3 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
8.3ms ~_sing
(J DEC
125
FIG. 1 - FORWARD CURRENT DERATING CURVE
~
a:
a:
::J
............... ........
10.0
W
...
~
HATS NK
Tc
--r--...
B.O
()
\
O(/)
~~
60
~W
a:~
12«40
FA E
W
CJ
«
a:
2.0
«
0
o
r-~
1\
-- MBI NT, TA
~
IN UC IVE OR
AE lSTI E L AD
W
>
b~~~ ed) "'
l-I100
50
1\
l- t-
10
20
50
NUMBER OF CYCLES AT 60Hz
~
I
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
TEMPERATURE, 'C
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
~
Z
W
a:
a:
::J
()
Tc =
ao°c
100
/
W
'.!J
«
>£(/)
«W
Wa:
..J W
Wa.
(/)::;:. 10
a:«
Wo
>a:
'"
.6
1.0
1.1
z
0
~
1.0
I-
'is. 70
W
()
Z
60
~
a.
50
«
I-
Z
«
l-
(/)
r
......
Tc
~
«
()
5'C
0.1
m
~
00
00
100
40
.........
...
"
.......
.....1--
.............
0
120
50 V -
Vsig
01'..
::)
~
1.3
1.2
TJ = 2°C
(/)~
W
«
.9
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5 - TYPICAL JUNCTION CAPACTIANCE
~()
z
.8
r-
PERCENT OF RATED PEAK
REVERSE VOLTAGE
10
20
50
100
REVERSE VOLTAGE, VOLTS
-233-
200
100
500
GI1401 THRU GI1404
8.0 AMPERE GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage • 50 to 200 Volts Current· 8,0 Amperes
FEATURES
:n
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-0
• Glass passivated cavity-free junction
• Low power, high efficiency
• Low Leakage
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed:
250·C,.25", 6.35mm from case for 10 seconds
.1!S(l·W
.1 c. 1
...1 •. 05511.401
....---:-i-
.150(3~8lJt:I
.yo
(3.~1 _
;1
11=""1==="11.640116.261
.620115.751
PiN
PIN
2
1
.045(1.141
.600 (1 .241
1
:ill"i'i4.ffi
.360 [9.141
.320t131
1
1 .025
C28.021
:1:~1~;~~~ I·IM(29.541
.5601124.221 "!fix.
.1
t
1
·ems m·l:.
.530Ct 461
+11·;g~~m::;l
~
.lli15.llJ
"
MECHANICAL DATA
case: TO-220 molded plastic
.110 C2. 791
.090C2.291
Tennlnals: Lead solderable per
MIL-STD-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.08 ounce, 2.24 gram
~I
PIN 1 '.
o---u
PIN 2 - o---t+-ICASE
CCASE POSITIVE 1
STANDARD POLARITY
I GI1401
PIN 1 " o-----c...;;
PIN 2 ., o---t4--ICAsE
CCASE NE6lTIVEJ
SUFFIX 'R'
1 GI1401R
1
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or Inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
GI1401
Maximum Recurrent Peak Reverse Voltage
50
VRRM
Maximum RMS Voltage
35
VRMS
Maximum DC Blocking Voltage
50
Voc
Maximum Average Forward RectHied Current
atTe s 125'C
I(AV)
Peak Forward Surge Current
S.3ms single haR sine-wave superimposed
on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage
IF. 4A, TJ - 100'C
IF" SA, TJ .. 100'C
IF" 4A, TJ" 25'C
IF - SA, TJ = 25'C
VF
Maximum DC Reverse Current
Tc =25'C
at Rated DC Blocking Voltage
Tc.l00'C
IR
Maximum Reverse Recovery Time (Note 1)
TJ" 25'C
TRR
Typical Junction Capacitance (Note 2)
CJ
Typical Thermal Resistance (Note 3)
R8JC
Operating and Storage Temperature Range
TJ,TsTG
NOTES:
1. Reverse Recovery Test Conditions: IF .. O.SA,IR" 1.0A, recover to 0.25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
3. Thermal Resistance Junction to CASE.
-234-
GI1402
GN403
GN404
100
70
100
150
105
150
200
140
200
UNITS
Volts
Volts
Volts
8.0
Amps
125
Amps
.SOO
.S95
.900
.975
5.0
150
Volts
35
42
2.50
-65 to +150
IlA
Ns
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES GI1401 THRU G11404
FIG. 2 -
w
I5U
elcn
II: W
::::>0:
120
!oo...
cnW
Fig. l-FORWARD CURRENT DERATING CURVE
INFINITE
HEAT-SINK
Te
'\
6.0
~~
~~
4.0
~
2.0
6
~W()
~
30
r-...
ITC
0
LJc I 1111
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
"'' ' -....
0
r- r--.
.... '"
Q.
8.0
()
~ ~
~~
IT
u.0:
>-'
Z
w
0:
0:
::::>
90
i~
12 .0
10. 0
o~
-......
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
~
UW
I
r- r-- lIIIIIII
W
50
20
10
50
100
NUMBER OF CYCLES AT 60 Hz
~
RESISTIVE OR
INDUCTIVE LOtD
FREE AIR RATING, TA
0:
;:c
1
I\.
,';j
.'
Fig. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
- --1'\
I-...
(j)
W
~
40
0:
/'
~ 20
:;;
150
100
I
80
i\.
«
t-
TEMPERATURE,OC
/
10
Z
W
0:
~
30
()
/
o
Fig. 3 -
0: 10
TYPICAL REVERSE CHARACTERISTICS
~
o
u.
0:
1000
CfJ
(j)
w
w
0
0:
ow
. .-..-t-T
a.
::;;
«
Z
~
i...-"
Tc ol'00°C'
100
(j)
~
I
0.5
OA
O.S
0.7
08
0.9
1.0
1.1
1.2
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
10
Fig. 5-TYPICAL JUNCTION CAPACITANCE
W
CfJ
0:
o~
w
>
w
0
25°C
03
01
w
0:
CfJ
::::>
=
Z
~
Z
()
TJ
Pulse Width 300,1.15
2% Duty Cycle
01
Z
~
()
0:
0:
::::>
,
03
::::>
Te = 125°C
f--
0:
II T)250~
I)
TJ= 25°C
1.0
U0.
'"
ui60
()
W
Z
Z
~
z
50
~
40
o«
~
«
t-
~
CfJ
~
()
0.1
20
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140
I
f=' 1MHz
Vsig '" 50mVp-p
0
" ~"
r-......
30
..... ""
20
0.1
0.2
0.5
1.0
2.0
5.0
10
REVERSE VOLTAGE, VOLTS
-235-
20
50
100
BYW29-50 THRU BYW29-200
8.0 AMPERE GLASS FAST EFFICIENT PASSIVATED RECTIFIER
Voltage - 50 to 200 Volts Current - B.O Amperes
FEATURES
.420110.67)
.38019.65)
PIN
_
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated cavity-free junction
• Low power, high efficiency
• Low Leakage
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed
300·C, 6,3Smm from case for 10 seconds
.15513.94) DIA
.145.0.68)
'...-_",""""+-
PIN
"I I' :g~~
MECHANICAL DATA
m:::l
Case: TO-220 molded plastic
Tannlnals: Lead solderable per
MIL-8TD-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.08 ounce, 2.24 gram
.21015.31)
:I§O"imi
ICASE POSITIVE)
PIN 1 0-----,...:;
STANDARD POLARITY PIN 2 . o--+t--lCRSE
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
atTc -12S·C
Peak Forward Surge Current
10ms single half sine-wave superimposed
TJ -lS0'C
Maximum Instantaneous Forward Voltage
IF ~ 20A, TJ = 2S'C
IF ~ 8A, TJ - lS0·C
Tc=2S·C
Maximum DC Reverse Current
at Rated DC Blocking Voltage
Tc.l00·C
Maximum Reverse Recovery Time (Note 2)
Typical Junction Capacitance (Note 1)
Maximum Thermal Resistance (Note 3)
Operating and Storage Temperature Range
BYW29-50 BYW29-fOO BYW29-f50 BYW29·200 UNITS
VRRM
VRMS
Voc
SO
3S
SO
100
70
100
lS0
lOS
lS0
200
140
200
Volts
Volts
Volts
I(AV)
8.0
Amps
IFSM
100
Amps
VF
IR
TRR
CJ
R8JC
TJ,TsTG
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF = 1A to 3OV, with -dVdt = 100AlflS.
3. Thermal Resistance Junction to CASE.
-236-
1.3
0.8
10.0
SOO
2S
45
3.0
-65 to +lS0
Volts
I1A
Ns
pI
·cm
·C
RATINGS AND CHARACTERISTIC CURVES BYW29-50 THRU BYW29-200
FIG. 2 - MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
100
W
cr:W
:Jcr:
(l)W
(')(1)
0"-
cr::2
FIG. 1 - FORWARO CURRENT DERATING CU"RVE
«<:cr:
«:J
LJ.JU
f-'
80
I DU
1\
SIS lVE OA
IVEOR
60
~ffi
cr:"0:2
U-«
LJ.J
~
cr:
LJ.J
'1C
I ' t--.
10.,..Si!i;loHaif
~I'-
60
~
r--....
40
~
20
"-
,
5
\
4.0
10
20
100
50
NUMBER OF CYCLES AT60HZ
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
80
2.0
o
.............. "-
5:f-'
10.0
Z
LJ.J
cr:
cr:
:J
U
0(1)
cr:LJ.J
60
o
50
1\
UJ
LJ.J
cr:
LJ.J
":2
150
100
«
CASE TEMPERATURE, ·C
I
40
./
20
/
10
f-'
Z
LJ.J
cr:
cr:
:J
30
U
/
o
cr:
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
~
cr:
ou-
1000
UJ
-
100
-
03
Z
Tc -
>'Z
>'
UJ
I
Dooe
~
_ 25°
I
:J
oLJ.J
~
i""'""
1.0
I
1
03
,
2°;; Duty C cle
I
.01
04
05
06
080.9
0.7
10
11
1.2
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
10
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
80
10
,.
1
ua.
ui
20
40
U
70
60
Z
>'
u
50
"
...... ~
«
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
50 Vp P
'...... "'"
40
r--....
30
20
0.1
0.2
as
1.0
2.0
5.0
10
REVERSE VOLTAGE, VOLTS
-237-
= 1
VSlg
~
U
"C
H,
TJ =
t
20
I"'i
50
100
FESF16AT THRU FESF16JT
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage • 50 to 600 Volts Current· 16 Amperes
FEATURES
• Isolated plastic material ,used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated cavity-free junction
• Low power loss, high efficiency
• Low forward voltage,
high current capability
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed: 250·C,
.25", 6.35mm from case for 10 seconds
• Internal Insulation: 1.5k VRMS
ITo-220
,.1D7t.008
(2.7' 0.21
MECHANICAL DATA
case: ITO-220 Fully overmolded plastic
Terminals: Lead solderable per MIL-STD-202
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: 0.08 ounce, 2.24 gram
PIN 1 0-------,
-#
.4°REF.........
P1N2~
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Vokage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig.l
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 16A
Maximum DC Reverse Current
at Rated DC Blocking Voltage
FESF
SYMBOLS 16AT
VRRM 50
VRMS 35
Voc 50
FESF FESF FESF FESF FESF FESF FESF
168T 16CT 16DT 16FT 16GT 16HT 16JT UNITS
100
70
100
150 200 300 400 500
105 140 210 280 350
150 200 300 400 500
Amps
250
IFSM
Tc= 25'C
Tc = 100'C
Amps
16.0
I(AV)
VF
.95
I
10.0
500
1.3
IR
Maximum Reverse Recovery Time (Note 2)
TJ = 25'C
35
50
TRR
Typical Junction Capacitance (Note 1)
65
CJ
Thermal Resistance (Note 3)
1.7
R9JC
Operating and Storage Temperature Range
-65 to +150
TJ.TsTG
NOTES: I. Measured at I MHz and apphed reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF =O.SA, IR = I.OA, recover to 0.25A.
3. Thermal Resistance Junction to Case.
I
-238-
600 Volts
420 Volts
600 Volts
I
1.5
Volts
I1A
Ns
pI
'cm
'c
RATINGS AND CHARACTERISTIC CURVES FESF16AT THRU FESF16JT
FIG. 3 -
MAXIMUM NON REPETITIVE PEAK
FORWARD SURGE CURRENT
300
250
II I
~
8.3ms SINGLE HALF SINE·WAVE
JEOEC METHOD
~
Fig. 1- FORWARD CURRENT DERATING CURVE
"'r-.!'oo
r-............ ........ "'"
20.0
,.:
Z
W
0::
0::
16.0
~
::>
U
en
o::W
«0::
Q
12.0
1\1\
,
~~
~~
- ._-
80
W
Cl
«0::
>
«
o
'" \
InrTLr
Resistive or
4.0
W
o
100
50
5
10
20
100
50
NUMBER OF CYCLES AT 60 Hz
I
Fig. 4- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
W
150
a:
a:
a
CASE TEMPERATURE. 0 C
~
~ffi
FIG. 2-TYPICAL REVERSE
CHARACTERTISTICS
t§ ffi
"-e..
(/)::;;
BO
40
I
,
f
5<
w
1.0
1000
""
50, 100, 150, 200V
10
•
~
v: '"
20
300, 400. 500, 60DV
~
//
Z
-
,.:
Z
W
0:
0:
=>
100
Tc = 1()O°C
~
.".,..,. ~
~
Z
.7
.8
.9
1.0
1.2
1.1
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
<
~fB
~ffi
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
300
10
ffi(!j
>0:
250
~(,)
(/)~
ll-
=>
aW
~
.6
.5
Cl
TJ ::: 25°C
PULSE WIDTH = 300~ s1% Duty Cycle
Il
.1
W
We..
I
~
(,)
(/)::;;
_.
~
"""'"
Tc'" 25°C
",.
11111111
""
TJ::: 25°C
f =- lMHz
Vsig = 50mVp-p
~
I
-
e. 200
V
ui
U
Z
«
tU
«
"«
10
f-
Z
<
f-
(/)
r-....
150
~
100
~ ...
U
~
50
o. 1
20
40
60
80
100
120
140
0.1
PERCENT OF RATED PEAK
REVERSE VOLTAGE
0.5
1.0
2
10
20
50
REVERSE VOLTAGE. VOLTS
-239-
100 200
500 l00e
FES16AT THRU FES16JT
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage - 50 to 600 Volts Current - 16 Amperes
FEATURES
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-0
• Glass passivated cavity-free junction
• Low power, high efficiency
• Low forward voltage,
high current capability
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed: 250·C,
.25" (6.35mm) from case for 10 seconds
19014.83)
+-:"I~
....1 • .05511.40)
.04g Cl.I41
~
.15013.81)
.13013.30)
.3:af~i;
h==I===;I.640!l626)
,620115.75)
PIN
P~" ~ 1
t
lirn14.lm
:140
S&)
t
.320
13)
~
.6001.24)
575
•
T·
Sll
j,.....,J
'm~ ~n' ...
U6li29.5!l
3 2 .541
3 128. 2)
.025
~
""U•.,;r .~
"11·:8~m:::l
+-+·mIH})
. (.)
PIN 1 . O'"'---J..J,
PIN 2 - o----M-I CASE
ICRSE POSITIVE)
STANDARD PDLRRITY
"
11012.79)
.09012.29)
MECHANICAL DATA
case:
TO-220 molded plastic
Terminals: Lead solderable per
MIL-STO-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.08 ounce, 2.24 gram
PIN 1 ~
PIN 2' o---I4-l CASE
(CASE NEGITlVElr--",...,."......,
[~
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2S'C ambient temperature unless otherwise specified.
Resistive or Inductive load.
For capacitive load, derate current by 20%.
FES FES FES FES FES FES FES FES
SYMBOLS llAT 16BT 16CT 1601 16FT 16GT 16HT 16lT UNITS
Maximum Recurrent Peak Reverse Vokage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
aITe .100'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 16A
Te~25'C
Maximum DC Reverse Current
at Rated DC Blocking Voltage
Te = 100'C
Maximum Reverse Recovery Time (Note 2)
TJ = 25'C
Typical Junction Capacitance (Note 1)
Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM so
VRMS 35
Voc 50
100 150 200 300 400 500 600 Volts
70 105 140 210 280 350 420 Volts
100 150 200 300 400 500 600 Volts
IFSM
VF
250
.975
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
.
2. .Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, recover to O:25A.
3. Thermal Resistance Junction to CASE.
,
-240-
1.3
10.0
500
IR
TRR
CJ
ReJC
TJ.TST(
Amps
16.0
ICAV)
35
Amps
Volts
I1A
50
65
1.50
-65 to +150
1.5
Ns
pI
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES FES16AT THRU FES16JT SERIES
FIG. 3 -
MAXIMUM NON REPETITIVE PEAK
FORWARD SURGE CURRENT
300
250
IIII
~
8.3ms SINGLI~ HALF SINE·WAVE
JEOEC METHOD
......1'....
Fig.1-FORWARD CURRENT DERATING CURVE
I
r---...... r-....
20.0
,.:
Z
W
a:
a:
16.0
1\
:::J
U
o en
a: W
""a:
:;:W
gj ~
u-""
W
12.0
~
\
8.0
~
4.0
""
o
a:
W
>
,
5
'TTLr
150
100
50
I-
aJ
20
~Sl
f2~
o
100
Tc'" 10D G
e
~
i'~ f---
. /~
Z
i:!Z
~
.4
.1
.5
W
.6
TJ = 25°G
PULSE W1DTH = 300MS1% Duty Cycle
.7
.8
.9
1.0
1.1
1.2
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
~ffi
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
10
300
rr:""
~~
~O
250
(J)~
,.,V
::J
oW
~
/.'
~
('J
Wa.
I
f
«
~Sl
(J)::;:
300, 400, 500, SOOV _
IV
6«
w
1.0
-
",
4
(J)::;;
1000
::J
I
V" ./'"
V
50, 100, 150, 200V
10
rr: rr:
FIG. 2-TYPICAL REVERSE
CHARACTERTISTICS
rr:
rr:
100
40
rr:
rr:
~
W
50
80
a
-
20
Fig. 4- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
\
CASE TEMPERATURE, ·C
r-:
z
10
NUMBER OF CYCLES AT 60 Hz
\.
Resistive or
o
.
~
Tc = 25°C
U-
I 1111111
"
"- 200
~~
ui
U
Z
1.0
fZ
""
"""
U
r--..
13
tiz
-
r-...
150
f-
«
I
TJ = 25°G
f = lMHz
Vsig = SOmVp·p
100
r--.. ...
""
50
o. 1
20
40
60
80
100
120
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
0.1
0.5
1.0
10
20
50
REVERSE VOLTAGE, VOLTS
-241-
100
200
500 1000
FEPF16AT THRU FEPF16JT
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage • 50 to 600 Volts Current· 16 Amperes
FEATURES
• Dual rectifier construction, positive centertap
• Isolated plastiC material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated cavity-free junction
• Low power loss, high efficiency
• Low forward voltage,
high current capability
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed:
2S0·C,.2S", 6.3Smm from case for 10 seconds
• Internal Insulation: 1.SK VRMS
ITD-220CT
.13
!
.oos
13.3 to. 21
MECHANICAL DATA
case: ITO-220 fully overmolded plastic
Tennlnals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: Sin. - Ibs. max.
Weight: 0.08 ounce, 2.24 gram
......4°REF.......
PIN 1 ~
PIN 3 <>--+I-lPIit 2
FEPF16
PIN 1 o--I+-t...;.
PIN 1 ~
PIN 3 ~Plit 2 PIN 3 ~PiN 2
I I FENF16 I
FEDF16
I
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
FEPF FEPF FEPF FEPF FEPF FEPF FEPF FEPF
168T 16CT 16DT 16FT 16GT 16HT 16JT UNITS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig.l
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage
at 8.0A per element
Maximum DC Reverse Current
Tc=25'C
at Rated DC Blocking Voltage
Tc.l00'C
Maximum Reverse Recovery Time (Note 2)
TJ - 25'C
Typical Junction Capacitance (Note 1)
Thermal Resistance (Note 3)
Operating and Storage Temperature Range
SYMBOLS fiAT
VRRM 50
VRMS 35
Voc 50
100 150 200 300 400 500 600 Volts
70 105 140 210 280 350 420 Volts
100 150 200 300 400 500 600 Volts
I(AV)
16.0
Amps
IFSM
200
Amps
VF
.950
IR
TRR
CJ
R9JC
35
TJ.TSTG
NOTES: 1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF = O.5A, IR = 1.0A. recover to O.25A.
3. Thermal Resistance Junction to Case per element.
·242-
1.3
I
10.0
500
I
65
2.2
-65 to +150
1.5
Volts
IlA
50
Ns
pI
'cm
'c
RATINGS AND CHARACTERISTIC CURVES FEPF16AT THRU FEPF16JT SERIES
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
200
.,.:
I
20.0
Z
W
cr
a:
160
\
o (/J 12.0
a: W
i"- t'-o.
~.,.:
<
a:
<
150
a:~
:::l
80
~
Oil.
o
~~
175
W
(!l(Jl
a:W
:::la:
(/JW
FIG. 1 - FORWARD CURRENT DERATING CURVE
100
"'-......
10
r--,...
20
50
100
I
NUMBER OF CYCLES AT 60Hz
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
150
CASE TEMPERATURE. ·C
~
40
W
~
I
20
:::l
"""...
SO.100,150.200V
o
10
o
--::. 1--'
a:
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
4
2
(/J:::;;
:::l<
10
-
a:
a:
:::l
1.0
tZ
.J
~
~
Tc::: 100°C
W
(!l
<
~
"
300.400.500.600V
rtI
.6
~~I;e2~i~th 300/J s-
1--
2% Duty Cycle
.7'
.8
1.0
.9
1.1
1.2
1.3
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
~(/J
FIG,S - TYPICAL JUNCTION CAPACITANCE
(/J~
80
0.1
~5
a:_
70
(/J~
:::l
W
Z
<
tZ
<
t(/J
.2
(/J
--*-u:.
PIN 3 <>--*-'CASE
POSITIVE CT
FEP1S
I
J
.lli.lll.ill..
.. .110 (2.791
014 (0 361
I
PIN 1 ~
PIN 3 ~E
I
PIN 2
FEN18
case: TO-220 molded plastic
Terminais: Lead solderable per
MIL-STD-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.08 ounce, 2.24 gram
PIN 1~
PIN 3 o----t
«
a
f2~
a::2
««
W
\
i\
o
50
100
150
125
3:~
a:Z
OW
LLa:
l£a:
«:J
wll
Il.
12.0
~~
175
Oil.
~
II
ocn
a:W
«a:
W
(!lCJl
a:W
:Ja:
CJlW
FORWARD CURRENT DERATING CURVE
'"
I
\
5
~~
20
50
100
·~:
I"
-
a
I
a
";:1•!.•','
J.....-'" ~. 1-.....
50,10Q,150,200V
a
! 4m~m~~~_,~~~~~~~~~
ffl
~ ~ ~f---+---.~4~~'-+--+_'\,"",+--+---i
i ~ 1°~~I~III~!~!~30~0~'40!0~'50~0~'60,0~v~
~
~
~
~
4~
Z
a:
i""
75
Z
W
a:
a:
:J
II
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
100
~
Te = 100°C
I
I"-i'...
CASE TEMPERATURE, 'C
Z
W
a:
a:
:J
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
70
0
Tc"25'C ~
.01
-
~
001
~
LL
C.
ui
II
Z
«
60
1'. ....
50
'TJ = 25°C
I-
U
«
Il.
«
II
~
40
1--...
30
PERCENT OF RATED PEAK
REVERSE VOLTAGE
.2
.5
1.0
2.0
5.0
10
20
50
100
REVERSE VOLTAGE, VOLTS
-245-
,..
500
1000
GI2401 THRU GI2404
GLASS PASSIVATED FAST EFFICIENT RECTIFIER
Voltage - 50 to 200 Volts
Current - 16 Amperes
FEATURES
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated cavity-free junction
• Low power,
high efficiency
• High surge capability
• Superfast recovery
times, high voltage
• High temperature soldering guarenteed
250'C, .25" ,6.35mm from CASE for 10 seconds
TO-220CT
PIN
1 2
1
1.16J 29.541
1.10 (28.021
.025
.560U24.22i "MAX •
•530T·46)
1+1I·:g~~ ~:l:~
+I 'im~:lII
'
MECHANICAL DATA
·BU~ ~~l+I ..
+
••
.110(2.791
.090[2.29)
AC
PIN 2
PIN lo--~
.........
CT
SutlifJx-W
.nill.W
case: T0-220 molded plastic
Terminals: Lead solderable per
MIL-STD-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.08 ounce, 2.24 gram
.190 [4.831
AC
PIN 2
P...... CTPlNl .. ~
(GI240" PIN 3-~IiSE
AC
PIN 3
CASE
(GI2401R)
AC
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
GI2401
Maximum Recurrent Peak Reverse Voltage
50
VRRM
Maximum RMS Voltage
35
VRMS
Maximum DC Blocking Voltage
50
Voc
Maximum Average Forward Rectified Current
atTc -125'C
ICAV)
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage
IF =4A, TJ = 100'C
IF = SA, TJ = 100'C
IF = 4A, TJ = 25'C
VF
IF - SA, TJ = 25'C
Maximum DC Reverse Current
Tc = 25'C
at Rated DC Blocking Voltage
Tc .1QO'C
IR
Maximum Reverse Recovery TIme (tjoie2)
TRR
Msximum Junction Capacitance (Note 1)
CJ
Maximum Thermal Resistance (Note 3)
R9JC
Operating and Storage Temperature Range
TJ,TsTG
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2.. Reverse Recovery Test Conditions : IF = 0.5A, IR = 1.OA, recover to 0.25A.
3. Thermal Resistance Junction to CASE.
-246-
GI2402
GI2463
GI2404
100
70
100
150
105
150
200
140
200
UNmJ
Volts
Volts
Volts
16.0
Amps
125
Amps
.800
.895
.900
.975
5.0
150
35
65
1.75
-65 to +150
Volts
5.0
500
I1A
Ns
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES GI2401 THRU G12404
Fig. 2 -
MAXIMUM NON-REPETITIVE
SURGE CURRENT
Tc
UJ
CJ({)
a: w
::la:
l~l)
({)UJ
~~
Fig. l-FORWARD CURRENT DERATING CURVE
~:
a: Z
I'NJ'N'T~ HLT l'NKI Tc
12S"C
B.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
r-....
........
9C
r............
OUJ
LLa:
1\
~~
UJ
UJ
"3.0
AMBIENT AIR RATING, TA
I
I
~
I
-- r-- ...
3U
UJU
Q.
,
10
I
~
CJ
<{
a:
r---
!JL
20
0
NUMBER OF CYCLES AT 60 Hz
\
Fig. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50
rf)
~u
uJ
a:
~ 20
TEMPERATURE. "C
/'
;;:
j
<{ 10
IZ
W
a:
~
3U
U
.L
o
~
a:
oLL
1000
({)
UJ
(/) 03
a:
::l
W
oUJ
Q.
::;;
0
Tc - 100"C
a:
Z
V
<{
Cd
~
-=
TJ "25"C
I
0'
Pulse Width = 300$.lS
2% Duty Cycle
Z
j....-ol--I-""""
100
~
::;;
(/)
03
Z
r:
z
w
I
01
a:
a:
::l
II
10
12
14
1.0
18
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
U
W
1
a: '0
Fig. 3 - TYPICAL REVERSE
CHARACTERISTICS
10
({)
a:
a:
Tco25O~
0
W
~~
70
({)
::l
Z
Fig. 5-TYPICAL JUNCTION CAPACITANCE
80
w
>
w
'--
LL
a.
LL.i
10
1"'1-0
60
U
<{
Z
IZ
~
I-
<{
(()
~
;:::
TJ :: 25°C
i'. ...
50
(3
<{
40
.......
U
01
30
20
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
140
,
'0
20
50
lOG
REVERSE VOLTAGE, VOLTS
-247-
200
500
I n0
BYV32-50 THRU BYV32-200
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage - 50 to 150 Volts Current - 18 Amperes
FEATURES
11-+1 '
_TO-220CT
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-0
• Glass paSSivated cavity-free junction
• Low power, high efficiency
• Low forward voltage
high current capability
• High surge capability
• Superfast recovery times,
high voltage
• High temperature soldering guaranteed
300'C, 6.3Smm from case for 10 seconds
.16014.061
.05511.401
.04511 14)
DIA.
~
.150 (3.911
.TIOl3]Oi
-fr ~
1F===="II.640 (1626)
.36019.14)
.320tl3J
:G2Dii5.75i
PIN
1 2 3
4
1
.160lllJm
.140 r3.56)
1.163 :29.S41
!.l03 (28.02)
i
..
r~~
.600(1.24)
.57ST·611
.:~i.
.5301t 461
.03710.941
( ' " .027 (0.691
'Bm~ ~n·l:.
••
+I .:A~~g:m
~
.190 14.83)
POSITIVE
PIN 1 "o-+4--{l~ 2
PIN 3'" o-!4--JCAsE
NegitiveCTSuffbcN
cr
MECHANICAL DATA
.110 (2.79)
.090(2.291
case: TO-220 molded plastic
Terminals: Lead solderable per
MIL-STD-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.08 ounce, 2.24 gram
PIN 2
PINl'~
PIN 3 ~illE
PIN 2
PIN 1 ,. o---t+-L;,
PIN 3-~CASE
Doubler Suffbc 0
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
BYV32-50 BYV32-100 BYV32-150 BYV32-200
Maximum Recurrent Peak Reverse Vottage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward Rectified Current
atTC"120'C
I(AV)
Peak Forward Surge Current
10mssingle hall sine-wave superimposed
TJ = 150'C
IFSM
Maximum Instantaneous Forward Voltage
IF .20A,
IF = 5,OA, TJ -100'C
VF
Maximum DC Reverse Current
Tc-25'C
at Rated DC Blocking Voltage
Tc= 100'C
IR
Maximum Reverse Recovery Time (Note 2)
TJ = 25'C
TRR
Typical Junction Capacitance (Note 1)
CJ
Maximum Thermal Resistance per diode (Note 3) ReJC
Operating and Storage Temperature Range
TJ,TsTG
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions : IF =1A to 3OV, with -dUdt =100Al/lS.
3. Thermal Resistance Junction to CASE.
-248-
50
35
50
100
70
100
150
105
150
200
140
200
UNITS
Volts
Volts
Volts
18.0
Amps
150
Amps
1.15
0.85
10.0
600
25
45
3.0
-65 to +150
Volts
IlA
Ns
pi
'cm
'c
RATINGS AND CHARACTERISTIC CURVES BYV32·50 THRU BYV32·200
FIG. 2 - MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
150
w
(!len
a: w
::::>0:
enW
~~
,
FIG. 1 - FORWARD CURRENT DERATING CURVE
200
f-'
18.0
W
16.0
Z
0:
0:
o en
12.0
~ffi
gs~
8.0
o:W
\
u..
U
I
o
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
IT:
~
0:
1000
1.0
f2en
~
100
r,
,
@
Z
i"
z
i"
en
~
25"C
Pulse Width 300p.s
2% DUTY CYCLE
::::>
J
Te"" 100"C
01
,
.01
OA
0.6
0.8
1.0
1.2
1.4
1.6
1.8
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
10
60
Te = 25"C
1.0
..
1
20
40
I
u..
c.
u.i
50
U
40
i"
rE
30
........
JJII
~
f= lMHz
VSlg = 50mVpp
z
u
u
125
t"'-......
....
20
-
10
o
1
4 5
10
20
50
100
REVERSE VOLTAGE. VOl T<;
·249·
200
500
FEPF30AP THRU FEPF30JP
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage - 50 to 600 Volts
Current - 30 Amperes
FEATURES
• Dual rectifier construction, positive centertap
• Isolated plastic material used carries Underwriters Laboratory Flammability Classification 94V-O
• Glass passivated
junctions
• Superfast recovery
times,high voltage
• Low forward voltage,
high current capability
• Low thermal resistance
• Low power loss, high efficiency
• High temperature soldering guaranteed: 250'C,
.17", 4.3mm from case for 10 seconds
• Internal Insulation: 1.5k VRMS
ITO-3P
~I'
.0&(1.5)
Cha:f~SO +-+
10°
PIN
40RE,
.20REF
I
.14213.&)
.126 (3.4) I·
i.:liii:llJ
III
.09812.51.:
.003(2.2)
,043U.l).
I
.09512.4)
1+
iI
I..
•03110.0)
.224(5.10)1+--+1+---+ 1.224(5.70)
.205 15.20)
.205 (5.20)
PINl~
PIN 3 o-+f--lPIN 2
I FEPF30 I
PIN1~
PIN 3 ~piit 2
I FENF30 I
MECHANICAL DATA
"'14· 028 {'?O)
Case: ITO-3P Fully overmolded plastic
Terminals: Lead solderable per MIL-STD-202,
.020 I. 50)
PIN1~
PIN 3 ~piN 2
I FEDF30 I
Dimensions in inches and (millimeters)
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in.-Ib. max.
Weight: 0.037 ounce, 1.04 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load.
For capacitive load, derate current by 20%.
FEPF FEPF FEPF FEPF FEPF FEPF FEPF FEPF
SYMBOLS 30AP 30BP 30CP 30DP 30FP 30GP 30HP 30JP UNITS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig.1
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage
at 15.0A per element
Tc = 25'C
Tc = 100'C
Maximum Reverse Recovllry Time (Note 2)
TJ = 25'C
Typical Junction Capacitance (Note 1)
Maximum DC Reverse Current
at Rated DC Blocking Voltage
VRRM 50
VRMS 35
100
150 200
300
400
500
600 Volts
70
105
140
210
280
350
420 Volts
50
100
150
200
300
400
500
600 Volts
Voc
I(AV)
30.0
Amps
IFSM
300
Amps
VF
0.95
IA
Thermal Resistance (Note 3)
TAA
CJ
R8JC
Operating and Storage Temperature Range
TJ.TSTG
NOTES: I. Measured at I MHz and applied reverse voltage of 4.0 volts.
35
2. Reverse Recovery Test Conditions: IF =O.5A, IR = I.OA, recover to O.25A.
3. Thermal Resistance Junction to Case per element.
-250-
I
1.3
10.0
500
I
1.5
Volts
j.lA
50
Ns
150
1.5
pf
'CIW
-65 to +150
'C
RATINGS AND CHARACTERISTIC CURVES FEPF30AP THRU FEPF30JP SERIES
FIG. 3 300
W
"- ~
250
(!)CI)
a:w
FIG. 1 -
~
zw
a:
a:
:::>
u
FORWARO CURRENT DERATING CURVE
~
ffi
200
o~
30
OW 100
«
1
B.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
1'1"-
36
~
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
~~
"
a:z
o
",
r
"
TTvf °1 REtr o,
o
50
u..a:
~
wU
;::
a.
10
a:
a:
:::>
U
U
0
10
I
300,4QO,500,6QOV
Z
..::
.4
:L
II
f-
TJ '" 25°C
Pulse Width = 300jJ S
2% Duty Cycle
IA
CI)
~
.5
~ffi
1 ~L ~
"
iV
1.0
..::
.6
.7
.9
.8
1.0
1.1
1.2
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
I
wa.
J.-""'"
..".
50,100,150,2QOV
fZ
;::ffl
01
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
300
~U
CI)~
:::>
..::
:::>
20
W
..::
ow
z
a:
a:
CI)::;
(!)
ffig
>a:
40
:::>..::
0
W
CI)::;
80
Z
~ffl
i-""'"
~ """""
10
~
W
a: a:
Ow
u..a.
-
Te = 1000e
100
a:
10
f----'
50
FIG. 2 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
~
20
r--~~
150
CASE TEMPERATURE, ·C
zw
...... r--
NUMBER OF CYCLES AT 60Hz
~
i\
100
50 I
Tc
~ 25'C
1
'-'
V
f-
"a.
W
U
Z
250
I ~l! ~~!C I
r.....
f = lMHz
Vsig = 50mVp-p
I"
200
..::
z
f-
..::
U
lii
"'l"-
150
..::
~
a.
..::
U
100
t....
r......
00 1
20
40
60
80
100
120
50
PERCENT OF RATED PEAK
REVERSE VOLTAGE
0.1
0.5
1.0
2
10
20
50
REVERSE VOLTAGE, VOLTS
-251-
100
200
500
1000
I
FEP30AP THRU FEP30JP
FAST EFFICIENT GLASS PASSIVATED RECTIFIER
Voltage • 50 to 600 Volts Current· 30 Amperes
FEATURES
.a48(21.1)
.a2S j·a)
l"REF-L-
....i.l"REF
,..I ,:gmi1!
I
f
.1
I
'r-r-rrr"'+l!'
1
.160 (Ul
.140 (3.5)
.Ba6 (2Ja)
.816 (1.91)
.121(3.22)
-::\: \
I
.1
(2.~1)
I
I
.1lliZl!.2l
.11~
I_I ..
.225 (5 11
.205(5.2)
,.04811.221
.044 (1.121
PIHI~2
PINI~!
AC
PINI~2
PI"I~E
PIN1~E
PIN1~E
POSITIVE CT
NEGATIUE CT
SUFFIX 'N'
• Dual rectifier construction, positive centertap
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Glass passivated junctions
• Superfast recoveary times,
high voltage
• Low forward voltage,
high current capability
• Low thermal resistance
• Low power loss, high efficiency
• High temperature soldering guaranteed:
250·C,.17", 4.3mm from case for 10 seconds
MECHANICAL DATA
case: TO-3P
Tennlnals: Lead solderable per
MIL-5TD-202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: .2 ounces, 5.6 gram
DOUBLER
SUFFIX 'D'
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
FEP FEP FEP FEP FEP FEP FEP FEP
SYMBOLS 30AP 30SP 30CP 30DP 30FP SOGP SOHP 30JP UNITS
Maximum Recurrent Peak Reverse Voltage
VRRM 50
Maximum RMS Voltage
VRMS 35
Maximum DC Blocking Voltage
Voc 50
Maximum Average Forward Rectified Current
atTc ~ 100'C
I(AV)
Peak Forward Surge Current
8.3ms single haW sine-wave superimposed
on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage at 15.0A VF
Maximum DC Reverse Current
Tc = 25'C
at Rated DC Blocking Voltage
Tc= 100'C
IR
Maximum Reverse Recovery Time (Note 2)
TJ = 25'C
TRR
Typical Junction Capacitance (Note 1)
CJ
R8JC
Thermal Resistance (Note 3)
Operating and Storage Temperature Range
TJ,TsTG
100 150 200 300 400 500 600 Volts
70 105 140 210 280 350 420 Volts
100 150 200 300 400 500 600 Voits
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volls.
2. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recover to 0.25A.
3. Thermal Resistance Junction to CASE per element..
-252-
30.0
Amps
300
0.95
1.3
10.0
500
35
1.5
Amps
Volts
I1A
50
150
1.0
-65 to +150
I
Ns
pf
'cm
'c
RATINGS AND CHARACTERISTIC CURVES FEP30AP THRU FEP30JP
FIG. 3 300
FIG. 1 -
U
« a::
~~
a:::;
~«
~
a:Z
OW
u.a:
,1\
24
«
ffi
f"
200
~~
W
(!)
«
ffi
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
o~
36
ooo
a: W
I
a:W
~
~
z
w
a:
a:
:::J
l"-
W
250
(!)(/)
FORWARD CURRENT DERATING CURVE
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
FIG. 2 -
150
TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
CASE TEMPERATURE. ·C
80
~
Z
40
W
FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS
o
10
- ' Te-l00'C
a:
a:
i"""'""
~
W
1.0
...
~ff3
a: a:
I
Ow
u.o..
oo::;
~
1/
:::J«
oW
~
W
«
~
oo
~f3
wa:
z
w
.5
~~
oo~
FIG.5 -
300
:::J
oW
Z
rL
.6
TJ '" 25°C
Pulse Width = 300/.15
2% Duty Cycle
.7
.9
.8
1.0
1.1
1.2
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
-
~U
«
Ii
.1
wo..
a:«
30Q,40Q,500,600V
.4
Z
(!)
0.1
~
l/
1.0
Z
U
oo::;
~
/
./V/ V-
50,10Q,150,20QV
a:
~
Z
...J
20
~
U
10
~
a:
a:
:::J
Te " 25'C ..".",
V
.0 1
IZ
u.
a.
W
«
l-
U
Z
~
(3
250
t"...
I
I-
«0..
«
.00 1
~
~
00
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
U
!l! ~!!C
I
f" 1MHz
Vsig = 50mVp-p
l"
200
«
(/)
TYPICAL JUNCTION CAPACITANCE
1'r-
150
.........
100
......
50
0.1
0.5
1.0
2
10
20
50
REVERSE VOlTAGE,.VOlTS
-253-
100
200
500
1000
I
-254-
SUPERECTIFIERS
0.25 TO 3.0 AMPERES
50 VOLTS TO 4000 VOLTS
I
- - - - - - INsr600°C
Cavity-Free
(Glass-Passivated
Junction)
Completely
Encapsulated
Brazed
Construction
Opaque Glass
-257-
UL Recognized
Flame-Retardant
Molding Compound
(UL 94V-0)
I
FAMILIES OF GENERAL INSTRUMENT
SUPERECTIFIER
Glass Passivated Junction Plastic Rectifiers
0.25 to 1.75 AMPERES
Types: 1N3611GP thru 1N3614GP
BY126~P
and BY127GP
1N4(l01GP thru 1N4007GP
BY126GP
and BY227GP
1N4245GP thru 1N4249GP
BY133cpP
thru BY135GP
1N5059GP thru 1N5062GP
BYW27~50GP thru BYW27-1000GP
1N5391GP thru 1N5399GP
BYX10GP
G1250-1
thru G1250-4
thru GP02-40
GP02-20
GP08A
thru GP08J
thru GP10Y
GP10A
GP15A
thru GP15M
Features:
• High Temperature Metallurgically Bonded
• Plastic Package has Underwriters Laboratory Classification 94V·0
• Glass Passivated Junction overmolded in epoxy packages for easy handling
• 10 rated current operation at 55°C Ambient Temperature with no Thermal Runaway.
• Capable of meeting Environmental Standards of MIL-S-19500
• High Temperature Soldering Guaranteed 350°C/10 Second/.375" 9.5mm Lead Length at 5 Ibs.
2.25 kg TenSion
• Tin Plated Axial Leads, Solderable per MIL-STD-202 method 208
Glass Passivated Junction Plastic Rectifiers
Types:
2.0 to 3.0 AMPERES
1N5624GP thru 1N5627GP
GP20A
thru GP20J
GP25A
thru GP25M
GP30A
thru GP30M
Features:
• High Temperature Metallurgically Bonded
• Plastic Package has Underwriters Laboratory Classification 94V·0
• Glass Passivated Junction overmolded in epoxy packages for easy handling
• 10 rated current operation at 55°C Ambient Temperature with no Thermal Runaway
• TypicallR less than 0.1 ~A
• Capable of meeting Environmental Standards of MIL-S-19500
• Tin Plated Axial Leads, Solderable per MIL-STD-202 method 208
• High Temperature Soldering Guaranteed 350°C110 Second/.375~ 9.5mm Lead Length at 5 Ibs.
2.25 kg Tension
Fast Recovery Glass Passivated Junction Plastic Rectifiers
Types:
1N4942GP thru 1N4948GP
RGP02-12 thru RGP02-20
RGP10A thru RGP10M
RGP15A thru RGP15M
RGP20A thru RGP20J
RGP25A thru RGP25M
0.50 to 3.0 AMPERES
RGP30A thru RGP30M
BA157GPthru BA159GP
BY206GP and BY207GP
Features:
• High Temperature Metallurgically Bonded
• Fast switching for High Rectification Efficiency to 100kHz
• Plastic Package has Underwriters Laboratory Classification 94V-0
• Capable of meeting Environmental Standards of MIL-S-19500
• 1n<;ludes all Advantages of the SUPERECTIFIER Design
• Tin Plated Axial Leads, Solderable per MIL-STD-202 method 208
• High Temperature Soldering t>uaranteed: 350°C110 Second/.375:' 9.5mm Lead Length at 5 Ibs.
2.25 kg Tension
-258-
QUICK GUIDE TO SUPERECTIFIERS
RGP01'
-12 thru
-20
GP02
-20 thru
-40
G1250
-1 thru -4
CASE
D041
D041
D041
D041
D041
D041
I,(A)
0.5
0.25
0.25
.36
0.4
@T,IC'I
55
55
75
40
55
TYPE
= 1000lVI
V, = 1200 IVI
V, = 140CJ.(VI
V, = 1600 (VI
V, = 1 BOO IVI
V, = 2000 (VI
VR = 2500 IVI
VR = 3000 IVI
VR = 3500 (VI
VR = 4000 IVI
BY206GP' BA157GP" GPOBA
thru
thru
thru
BY207GP" BA159GP" GPOBJ
BYX10GP
GP10A
thru
GP10M
lN3611GP
lN4001GP
thru
lN4007GP
lN4245GP
lN3614GP
lN4249GP
lN4937GP"
D041
D041
D041
D041
D041
D041
0.5
O.B
1.0
1.0
1.0
1.0
1.0
55
55
55
100
75
55
GP10A
thru
lN4933GP"
thru
thru
75
VR =
SOIVl
GP08A
RG02-12
VA =
100lVI
GPOBB
GP10B
RG02-14
V,- 200 (VI
GP().8D
GP10D
1N3611GP
lN4003GP
lN4245GP
lN4935GP
VR =
GPOBG
GP10G
lN3612GP
lN4004GP
lN4246GP
lN4936GP
lN4937GP
V,
G1250-1
RG02-16
BYX10GP
VR = 400 (VI BY206GP BA157GP
RG02-18
RG02-20
300 (VI
GP02 -20
VR =
GI250 -2
V A = 600 (V)
GP02 -25
GP02 -30
GI250 -3
GP02 -35
GP02 -40
500lVI
1 N4001GP
lN4933GP
lN4002GP
lN4934GP
GPOBJ
BY207GP BA15BGP
GPlOJ
lN3613GP
lN4005GP
lN4247GP
VA = BOOIVI
~A159DGP
GP10K
lN3614GP
lN4006GP
lN424BGP
VR = 1000 (V)
BA159GP
GP10M
lN3957GP
1N4007GP
lN4249GP
GI250 -4
SURGE IAI
20
15
15
15
15
20
25
30
30
30
25
30
V,IVI
1.8
3.0
3.5
1.6
1.3
1.3
1.3
1.1
1.1
1.1
1.2
1.2
-Fast Recovery
I
QUICK GUIDE TO SUPERECTIFIERS
1N4383GP
1N5059GP
thru
lN5062GP
AGP15-200
thru
GP15A
thru
1N4586GP
AGP1S-800
GP15M
lN5391GP
thru
lN5399GP
CASE
0015
D015
D015
D015
D015
D0201AD
RGP30A"
thru
RGP30M"
D0201AD
I,IAI
1.0
1.0
1.5
1.5
1.5
1.5
1.5
1.75
2.0
2.0
2.5
3.0
3.0
3.0
@T,I'Ci
5
55
55
55
70
55
55
55
55
55
55
70
55
55
GP15A
1N5391GP
GP20A
RGP20A
RGP25A
GP30A
RGP30A
TYPE
VA =
thru
50lVI
V,- 100lVI
V,
200 IVI
V,
300lVI
V,- 400lVI
GP30A
thru
GP30M
GP15B
lN5392GP
RGP15B
GP20B
RGP20B
RGP25B
GP30B
RGP30B
lN5059GP
AGP15-200
GP15D
lN5393GP
RGP15D
GP20D
RGP20D
RGP25D lN5624GP
GP30D
RGP30D
lN4384GP
lN5060GP
AGP15-400
GP15G
lN5395GP
RGP15G
GP20G
RGP20G
RGP25G lN5625GP
GP30G
RGP30G
RGP15J BY226GP
GP20J
RGP20J
lN5394GP
500lVI
V, -
600lVI
1N4384GP
lN5061GP
AGP15-600
GP15J
lN5397GP
V,
800 (VI
lN4585GP
lN5062GP
AGP15-8oo
GP15K
lN5398GP
1000 (V)
1N4586GP
GP15M
lN5399GP
-
RGP15A
RGP20A RGP25A lN5624GP
. thru
thru
thru
RGP20J" RGP25M" lN5627GP
GP20
D0201AD D0201AD
lN4383GP
V,
VR
BY126GP RGP15A" BY226GP GP20A
thru
thru
thru
thru
BY127GP RGP15M" BY227GP GP20J
D0201AE
D015 D0201AE GP20
lN5396GP
VR ::;"'1000 IVI
BY126GP
RGP15K
RGP15M
BY127GP
RGP25J lN5§26GP
GP30J
RGP30J
RGP25K lN5627GP
GP30K
RGP30K
RGP25M
GP30M
RGP30M
BY227GP
SURGE IAI
50
50
50
50
50
50
50
60
65
65
100
125
125
125
VA(Vj
12
12
1.2
1.1
1.4
1.3
1.3
1.3
1.1
1.3
1.3
1.0
1.1
1.3
"Fast Recovery
-259-
Diffused Slice
~
~"N'
1 - Diffuse a PN junction into a slice of silicon.
"P"
EVAPORATED
ALUMINUM
2-Evaporate aluminum on both sides
of the slice to make metallurgical contact.
\1
I~'
"1"
~~
3-Sandblast the slice to produce a round beveled die.
SAND BLASTED
ROUND DICE
COPPER
LEADS
rL_.l.r,----.... -
LEADS BRAZED TO MOLYBDENUM
COPPER
LEADS
4- Braze ':'8 die between two molybdenum heal sinks 10
which leads have been attached al approximately 700°C.
-260-
5-Clean the assembly by chemically etching,
washing and drying.
6-Apply glass in the form of a frit to the die and
molybdenum assembly.
7 - Melt the glass by heating in an oven to approximately
600°C.
8-0vermold glass passivated construction
with UL recognized flame-retardant
94V-0 classification epoxy.
GLASS BODY AND PASSIVATION
FIRED AT 600°C.
I
I
~__'----+~~-----~-.
TIN PLATED
TIN PLATED
LEADS
LEADS
9-Perform finishing operations such as lead tinning,
electrical testing and marking.
OVERMOLDED FLAME-RETARDANT EPOXY
Package Design
The small size of the superectifier package with its capability up to 3 Amperes permits greater packing
densities in electronic assemblies and equipment, while increasing reliability. Furthermore, only high
temperature brazing operations are used to withstand the 600°C required to melt and fuse the glass.
This technique eliminates solder construction and tremendously enhances mechanical strength and
temperature cycling capability, increasing operating and storage temperature range while reducing
thermal resistance.
Reliability
Specified reliability data on Superectifier devices are available from the General Instrument Semiconductor Components Division Reliability Department. The basic design of the superectifier devices and
the strict positive controls over materials and manufacturing processes provide assurance of failure-free
performance under the most severe conditions. Processing facilities have been geared to follow the procedural requirements of Military Standard 750 and are capable of withstanding environmental extremes
in excess of MIL-S-19500. Assurance of production uniformity and reliability is provided by a test technique called "Operational Load Line Testing': which has proven product reliability with over 1 Billion
Superectifiers now in use.
-261-
I
GP02-20 THRU GP02-40
MINIATURE HIGH VOLTAGE GLASS PASSIVATED JUNCTION RECTIFIER
Voltage - 2000 to 4000 Volts Current - 0,25 Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers ...••,
00-41
• Plastic package
~~'~
has Underwriters Laboratory Flammability Classification 94V-0
• Glass passivated cavity-free junction in DO-41
package
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
-r
.107(2.7)
.080(2.0)
.1
1.0 (25.4)
MIN
1+
~
.205'5.2)
.IBO(4.1)
T
1.0(25.4)
MIN
.034 ('8B). +
.028 (.71)
I
..
MECHANICAL DATA
Dimensions in inches and (millimeters)
• Glass-plastic encapsulation /6ChniqU6 is covllf9d by Patent No. 3,996,602
of 1976; btazed -/sad assembly /0 Patent No. ~9Sq306 of 1976 and glass
composilionby PatentNo. ~752,701 011973
case: Molded plastic over glass
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load.
For capacitive load, derate current by 20%.
GPt12
SYMBOLS·20
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA .. 55'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load at TA - 55'C
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current
TA .. 25'C
at Rated DC Blocking Voltage
TA -100'C
Typical Reverse Recovery Time (Note 2)
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM
VRMS
Voc
2000
1400
2000
GP02
GP02
,25
-30
2500
1750
2500
3000
2100
3000
GPt12
-35
3500
2450
3500
GPt12
-40
UNITS
4000
2800
4000
Vo~s
Volts
Volts
I(AV)
0.25
Amps
IFSM
VF
15
3.0
5.0
50.0
2.0
3.0
130
-65 to +175
Amps
Volts
IR
TRR
CJ
R9JA
TJ,TsTG
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, Irr =.25A.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-262-
!LA
IJ.S
pi
'cm
'c
RATINGS AND CHARACTERISTIC CURVES GP02-20 THRU GP02-40
FIG. 2 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
10
FIG. 1 - FORWARD CURRENT
DERATING CURVE
0
w
u:
i=en
uw
Wa:
a:w
Do..
a:::;
««
3:
a: .....-
am
"-a:
wa:
(!)::J
«u
a:
W
>
«
.25
"' "\
.20
.15
.10
.05
~
"\
SINGLE PHASE
HALF WAVE 60Hz
RESISTIVE OR
INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
25
50
75
100
"
TJ = 25°G
PULSE WIDTH = 300
2% DUTY CYCLE
1
:"\
125
j..IS
'\
150
175
J
.01
AMBIENT TEMPERATURE, 'C
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
5~
B.3ms SINGLE HALF SINE-W AVE
JEDEC METHOD
r-....
FIG. 4 "a.
ui
5.0
r-.
Z
«
.....
....
......
4.0
0
10
100
NUMBER OF CYCLES AT 60Hz
«0..
«
u
z
0
i=
u
Z
::J
....,
r--- ....
...........
2.0
I'1.0
0.1
~r:
01
zZ
«w
..... a:
en a:
z::J
-u
-
'---
~
20
40
1.0
0.4
FIG. 6 -
.-.
BRAZED· TEMP,;: 600 C
25'C
60
80
100
120
10
40
SUPERECTIFIER
CAVITY-FREE
(GLASS·PASSIVATED
JUNCTION)
o
4.0
REVERSE VOLTAGE, VOLTS
1-
r-- -- T J
01
100cC
Vsig " 50MVp·p
3.0
FIG. 5 - TYPICAL REVERSE
CHARACTERISTICS
TJ
TJ '" 25°C
f = lMHz
(3
5
10
I
I
1-00..
U
~
wen
enw
a: a:
WW
>0..
W::;
a:«
enO
::Ja:
AU
wz::;
TYPICAL JUNCTION CAPACITANCE
6.0
TA" 55°C
140
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
PERCENT OF RATED PEAK
REVERSE VOLTAGE
-263-
OPAQUE
GLASS
UL AECOGNIZEDrLAME-RETARDANT
MOLDING COMPOUND
(UL 94V-0l
100
G1250-1 THRU G1250-4
MINIATURE HIGH VOLTAGE GLASS PASSIVATED
JUNCTION RECTIFIER
Voltage - 1000 to 4000 Volts Current - 0.25 Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers
• Plastic package
~,,_
has Underwriters Lab'"
oratory Flammability Classifi_____
cation 94V-0
00-41
-r
1.0 (25.4)
MIN
.107(2.7) ~ 1
.080(2.0)
• Glass passivated cavity-free junction in 00-41
package
I·~
i
.205(5.2)
.160(4.1)
• Capable of meeting environmental standards of
MIL-S-19500
t
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
Sibs., (2.3kg) tension
~
.034(,86) ~
.028 (.7Il
.
1.0 (25.4)
MIN
~
MECHANICAL DATA
Dimensions in inches and (millimeters)
• Glass,p/astic encapsulation technique is covarsd by Patent No. 3,996,602
of 1976; brazed ·lead assembly /0 Patent No, 3,930,306 of 1976 and glass
composition by Patent No.3, 752, 701 of 1973
Case: Molded plastic over glass
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
Ratings at 25"C ambient temperature unless otherwise specified. Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
G1251J.1
GI25IJ.2
GI251J.3
G12504
UNITS
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward RectHied Current
.375", (9.5mm) Lead Lengths at TA - 75'C
I(AV)
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load at TA = 75'C
IFSM
Maximum Instantaneous Forward Voltage at 0.25A
VF
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA = 100'C
IR
Typical Reverse Recovery Time (Note 2)
TRR
Typical Junction Capacitance (Notel)
CJ
Typical Thermal Resistance (Note 3)
RaJA
Operating and Storage Temperature Range
TJ,TsTG
1000
700
1000
2000
1400
2000
3000
2100
3000
4000
2800
4000
Volts
Volts
Volts
0.25
15.0
3..5
5.0
50.0
2.0
3.0
130
-65 to +175
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, Irr O.25A.
3. Thermal Resistance from Junction to Ambient at.375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-264-
Amps
Amps
Volts
!LA
!LS
pi
'CIIN
'C
RAnNGSANDCHARACTEmsnCCURVESG~5~1THRUG~50~
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
15
o
W
u::
FIG. 1 - FORWARD CURRENT
DERATING CURVE
\.
() W .20
Wa:
a:W
fi!~
~..:
a:Z
Ow
lLa:
\.
.15
.1
'"\
a
W II .OS
~a
a:
SINGLE PHASE
HALF WAVE 60Hz
RESISTIVE OR
INDUCTIVE LOAD
0,375" (9.5mm) LEAD LENGTHS
W
25
>
«
B.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
TA = 75°C
"'"
.2 5
i=(J)
««
~
50
75
100
\
125
150
"-
'I'
10
100
NUMBER OF CYCLES AT 60Hz
175
AMBIENT TEMPERATURE. °C
FIG.3 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
10
.,
V
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
V"
6.0
lL
0. 5
w·
a
t'-...
i
~
o
TJ = 25°C
PULSE WIDTH = 300jJ.s
2% DUTY CYCLE
~
I
IT~I~250C
t........
40
f0-
G
i!t. 30
«
o
z 2.0
i""'"
""l"-
o
f'...
"'",
i=
01. a
.01
I
I
f = 1MHz
Vsig = 50mVp-p
Z
J
:::J
1.0 1.5
2.0 2.5
3.0 3.5 4.0
4.5 5.0
5.5 6.0
6.5 7.0 7.5 B.O
-,
0.1
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
0.4
1.0
4.0
10
REVERSE VOLTAGE, VOLTS
FIG. 5 - TYPICAL REVERSE
CHARACTERISTICS
10
Fig. 6-SUPERECTIFIER
~TJ = 100°C
CAVITY·FREE
(GLASS-PASSIVATED
JUNCTION)
---
TJ = 25°C
1
20
40
60
80
100
120
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
-265-
OPAQUE
GLASS
40
100
BYX10GP
MINIATURE GLASS PASSIVATED JUNCTION
PLASTIC RECTIFIER
Voltage· 1600 Volts Current· ,36 Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifier' '~"
• Plastic package
~'"'-v~~'-,~
has Underwriters Lab~
oratory Flammability Classifi-____
cation 94V-0
• Glass passivated cavity-free junction in 00-41
package
• .36 Ampere operation at TA =40'C with no
thermal runaway
• TypicallR less than 0.1 ~ A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
00-41
-r
1.0 (25.4)
MIN
.107 (2.7)
.cac (2.0)
~
1
I.. ~
--r:-:.205(5.2)
.160(4.1)
,034 (.86)
.028 (.71)
~
.
-r
1.0(25.4)
MIN
~
Dimensions In inches and (millimeters)
'Glass-plastic BnCapSulalion tschniqueis covlll'fld by Patent No. 3,996.602 _ _ _ _ _ _ _ _ _ _
M_'S_C_H._~_H_~_C_A_L_D_A_TA_
Case: Molded plastic over glass
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
011976; brazed -lead assembly to Patent No. a!l3O,306 011976 and glass
composi~n by Patent No. 752, 701 011973
a
Ratings
temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum Working Reverse Voltage
Maximum Average Forward Rectffied Current
.375", (9.5mm) Lead Lengths at TA = 40'C
Peak Forward Surge Current
10ms single half sine-wave superimposed
on rated load
Maximum Instantaneous Forward Voltage at 2.0A
Maximum Peak Reverse Current
at Rated Perak Working Reverse Voltage TA = 25'C
Maximum Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
SYMBOLS
BYX10GP
UNITS
VRRM
VRMS
1600
800
Vo~s
I(AV)
0.36
Amps
IFSM
VF
15
1.6
Amps
Volts
IR
TRR
CJ
R8JA
TJ,TsTG
1.0
2.0
5.0
45.0
-65 to +175
JlA
NOTES:
1. Measured on IF =O.SA, IR = 1.0A. Irr =0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Ambienl al.37S" (9.Smm) Lead Lengths. P.C. Board Mounted.
-266-
Vo~s
I1S
pi
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES BYX10GP SERIES
FIG.2 - MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
0
FIG. 1 -
w
II
;:::CJ)
Uw
wa:
a:w
0"a::2
,-,:<:
180
"w:2
f"
Z
f"
CJ)
;;;::
0
a:
a:
::J
U
wCJ)
CJ)W
a: a:
1250 C
TJ
I-'
Z
j
.8
1.0
1.2
1.4
1.6
1.8
2.0
INSTANTANEOUS FORWARD VOLT AGE
00 1
20
FIG. 5 - SUPERECTIFIER
UL RECOGNIZED
BRAZED-TEMP
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
~ 600°C ~~~~~NRi6~~~~3ND
(UL 94V·0)
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
20
u..
"-
10
W
U
Z
f"
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
OPAQUE
GLASS
SOLID BRAZING, LOW
RESISTANCE. EXCELLENT
SURGE CAPABILITIES
u
ri:,'1
OPAQuE
GLASS
RESIS~;.r,C:: fiC:;:, .C~,·
SlJRGF C .... P:..gll. ~IFC;
1N3611 GP THRU 1N3614GP AND 1N3957GP
MINIATURE GLASS PASSIVATED JUNCTION
PLASTIC RECTIFIER
Voltage - 200 to toDD Volts Current - 1.0 Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers
"
• Plastic package
'~""'~
has Underwriters Lab"-.~
oratory Flammability Classification 94V-0
• Glass passivated cavity-free junction in 00-41
package
• 1.0 Ampere operation at TA =75'C with no
thermal runaway
• TypicallR less than 0.1j.lA
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
D0-41
-r
1.0 (25.4)
MIN
1+ ~
.107 (2.7) ~ 1
.080 (2.0)
.205'5.2)
-r
.160(U)
1.0 (25.4)
MIN
.034 (.86)
.028 (.71)
~
+
!
Dimensions in inches and (millimeters)
MECHANICAL DATA
• Glass·plastic 6iJCI1IISuJation technique is covered by Patent No. 3,996,602
011976; brazed ·lead assembly to Patent No. 3,930,306 01 1976 and glass
composiUonby Patent No. 3,752,701 011973
case: Molded plastic over glass
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
POlarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
IN
SYMBOLS 361IGP
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC B(ocking Voltage
Voc
'Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA - 75'C
I(Av)
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage at 1.0A
VF
'Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA = 150'C
IR
Typical Reverse Recovery lime (Note 1)
TRR
Typical Junction Capacitance (Note 2)
CJ
Typical Thermal Resistance (Note 3)
R8JA
Operating and Storage Temperature Range
TJ,TsTG
IN
3612GP
IN
3613GP
IN
3614GP
IN
3957GP
200
400
800
1000
140
280
200
400
600
420
600
560
800
1000
1.0
Amps
30.0
Amps
Volts
1.0
1.0
300.0
2.0
10.0
45.0
-65 to +175
NOTES:
1. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, IrT =.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Veils.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths. P.C. Board Mounted.
, JEDEC Registered Values
-270-
700
UNnB
Volts
Volts
Volts
itA
I1S
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES
1N3611GP THRU 1N3614GPAND 1N3957GP
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 1- FORWARD CURRENT
DERATING CURVE
W
u::
i=(/l
Uw
Wrr
rrW
Oa.
rr::>;
««
:;:.
rrlait
u.rr
wrr
(!):::J
«U
rr
w
>
«
~~
1.0
r\.
.8
.4
rrrr
aw
u.a.
(/l::>;
:::J«
@~
zZ
«w
I- rr
Zrr
«:::J
I-U
(/l
'r\.
.6
'\
SINGLE PHASE
HALF WAVE
"
60Hz
RESISTIVE OR
---....;
INDUCTIVE LOAD
0.375" (9.Smm) LEAD LENGTHS
25
50
75
100
125
"
150
~
25
f'~
T.
.0'
.02
=~5~
J
0.6
~
TJ
Pulse Width = 300/..is
2% Duty Cycle
0.8
1.0
1.2
1.4
1.6
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
'a 100 r--r....TTTTl,,-,r-r....rnn--'-T'T"TTTT1
W
~50._.
~ ~5.J
~
~
20
~~WC
a..
~
15
II
0.1
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
8.3ms SINGLE HALF
SINE-WAVE (JEDEC Method)
""-
10
0.4
0.2
.01
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
W
(!)(/l
rrW
:::Jrr
(/lW
Oa.
rr::>;
««
:;:1rrZ
OW
U.rr
::.:
«0
a:
W
0
0
>
«
~ffl
(9.~mm)
a: a:
Ow
LL a.. 1.0
Ul::;
::::> « 0.4
\5~~:5~'~)
25
50
75
100
\
125
\.
150
25
UlW
~~
20
««
~~
15
.02
If
TJ'" 2S"C
Pulse Width'" 300,u.s
2% Duty Cycle I
I
0.8
1.0
1.2
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
-- FIG. 4 -
B.3ms SINGLE HALF
SINE-WAVE (JEDEC Method)
U.
C-
I III
W
10
8
0
z
TA" 75 c C
«
TYPICAL JUNCTION CAPACITANCE
I-~
T J" 2S"C
f = 1MHz
Vsig - 50mVp-p
~
t)
«
"«
~ ....
0
1
10
0.1
wO
1.0
0.4
"-
10
40
REVERSE VOLTAGE, VOLTS
4
6
10
20
40
6080100
NUMBERS OF CYCLES AT 60Hz
r-:
z
FIG. 6 -
W
a:
a:
::::>
o
FIG. 5 0
WUl
UlW
a: a:
WW
>0..1. 0
W::;
a:«
Ul 0 4
::::>tI:
TYPICAL REVERSE CHARACTERISTICS
(GLASS-PASSIVATED
JUNCTION)
-
SUPERECTIFIER
UL RECOGNIZED
CAVITY-FREE
BRAZED TEMP
TJ-1OQ"G
Z::;
~
0.4
!"'"
«
I~
.01
20
TJ"
40
60
80
25°F
100
120
140
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
PERCENT OF RATED PEAK REVERSE VOLTAGE
-273-
.i':
600 C,
~L6'L~~:i6~R~:;JND
(UL 94V-O)
@gO.'
Z
I
l-
OW
u.a:
~§
.04
a
.01
0.6
,n
""
~
175
20
C) Ul
a:W
::::>a:
0.2
1
O.
Ul
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
30
~ aJ
!z g;:
Z
AMBIENT TEMPERATURE
W
./
@r-:
Cu Leafs
SINGLE PHASE
HALF WAVE
60Hz
RESISTIVE OR
INDUCTIVE LOAD
0.375 (9.Smm) LEAD LENGTHS
,
a:
\.~
««
10
o
OPAQUE
GLASS
80100
1 N4245GP THRU 1 N4249GP
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 200 to 1000 Volts Current - 1.0Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers
• Plastic package
~~
has Underwriters Lab-.~
oratory Flammability ClaSSification 94V-0
• Glass passivated cavity-free junction version of
1N4249 in 00-41 package
• 1.0 Ampere operation at TA = 55'C with no thermal runaway
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/10 secondsl.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
D0-41
-r
1.0 (25.4)
.107(2.7)
.080(2.0)
MIN
.1
1+
!
.205t5.2)
.150(4.1)
-t-
1.0(25.4)
MIN
.034(.86) •
•028 (.71)
+
~
Dimensions in inches and (millimeters)
MECHANICAL DATA
• Glass-plastic 611Cap6ulalion tschnique is cov9f9d by PalMI No. 8,996,602
0/ 1976; btazed -lead assembly to Patsnl No. 3,930,306 0/ 1976 and glass
composilion by Patsnl No. 3,752,701 of 1973
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting POSition: Any
Weight: 0.012 ounce, .3 gram
1N
SYMBOLS 4245GP
* Maximum Recurrent Peak Reverse Voltage
* Maximum RMS Voltage
* Maximum DC Blocking Voltage
* Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA m 55'C
* Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
* Maximum Instantaneous Forward Voltage at 1.0A
* Maximum Full Load Reverse Current Full Cycle
Average _375" (9.5mm) Lead Length TA = 55'C
* Maximum Reverse Current at Rated TA = 25'C
DC Blocking Voltage
TA '= 25'C
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 2)
• O'perating Temperature Range
• Storage Temperature Range
VRRM
VRMS
Voc
200
140
200
1N
1N
1N
1N
4246GP
4247GP
4248GP
4249GP
UNffS
400
280
400
600
420
600
800
560
800
1000
700
1000
Volts
Volts
Volts
I(AY)
1.0
Amps
IFSM
25.0
1.2
Amps
Volts
50.0
1.0
25.0
8.0
45.0
-65 to +160
-65 to +175
(.LA
VF
IR(AV)
IR
CJ
RaJA
TJ
TSTG
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths, P.C. Board Mounted.
* JEDEC registered values
-274-
(.LA
pf
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES 1N4245GP THRU 1N4249GP
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
10
FIG.1 -
FORWARD CURRENT DERATING CURVE
1.0
o
1
1\
w
\.
I-UJ
Uw
Wa:
a:w
0"a::;:
~
\.
«
LLa:
Wa:
c.:J:::l
-'
~~
o
a:
.4
LLa.
UJ:;:
:::J<
Sl~
Zw
--
~ ~
~U
I
25
50
75
"
100
125
150
AMBIENT TEMPERATURE
25
w
c.:Jen
a:w
:::la:
20
0"-
~>-'
0.8
1.0
1.2
1.4
200
FIG. 4 -
IL
a.
ui
15
10
I
I I IIII
TJ
,..
:~
25"C
f = 1.0MHz
Vsig = 50mVp-p
"-
U
"'" 1'",
10
1.B
TYPICAL JUNCTION CAPACITANCE
30
TJ '" 55"C
OW
1.6
C
8.3ms SINGLE HALF
SINE-WAVE (JEDEC METHOD)
«
a:Z
LLa:
",a:
<:J
wU
175
III
UJW
a::;:
I
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
I"~
-
0.6
r"\
1
=
TJ = 25°C
PULSE WIDTH" 300 /.J.S 2% DUTY CYCLE
I
UJ
Z
01
w
>
<
~
0.1
Z:::J
'i
I\.
2
v
10
Z
<
I-
0
<
a.
<
U
"-
10
1
,00
1
NUMBER OF CYCLES AT 60Hz
~
FIG. 5 -
z
FIG. 6 - SUPERECTIFIER
TYPICAL REVERSE CHARACTERISTICS
w
CAVlTy·rREE
a:
a:
:::J
U
wen
enw
a: a:
ww
>a.
w::;
a:<
~~
01
OU
.04
!Ji!~
(GLASS·PASSIVATED
JUNCTION)
I - - - - - TJ " 100°C
1.0
.4
<
IZ
~
z
en
20
40
60
80
100
100
REVERSE VOLTAGE. VOLTS
120
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
-275-
OPAQUE
GLASS
GP10A THRU GP10Y
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 50 to 1600 Volts Current - 1.0 Ampere
FEATURES
• High temperature metallurgically bonded,constructed rectifiers
',,,
• Plastic package
""""~
has Underwriters Lab~.~
oratory Flammability Classification 94V-0
• Glass passivated cavity-free Junction in 00-41
package
• 1.0 Ampere operation at TA = 55'C with no thermal runaway
• Typical IR less than 0.1 J.I. A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/10 secondsl.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
D0-41
-r
.107 (2.7)
.080(2.0)
1.0 (25.4)
MIN
.1
1+ ~
.205'5.2)
.160(4.1)
-t-
1.0(25.4)
MIN
.034(.86) •
.028(.71)
+
~
MECHANICAL DATA
Dimensions in inches and (millimeters)
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
• GIass·plastic BtICIlpSulation I9dlniqU8 is CQv8/1Jd by Pat8llt No. 8,996,602
o( 1978; braz8d ./sad assllf/lbly to Patent No. ~980,306 011978 and glass
composi60n by Patent No. ~ 752, 701 011978
Ratings a125'0 ambient temperature unless otherwise specified.
Single phase. half wave 60HZ. resistive or inductive load.
For capacitive load. derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum Average Forward RectHied Current
.375", (9.5mm) Lead Lengths at TA = 55'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.M
Maximum Full Load Reverse Current, Full Cycle
AVerage, .375", (9.5mm) Lead Lengths at TA= 75'C
Maximum DC Reverse Current
TA - 25'C
at Rated DC Blocking Voltage
TA = 125'C
Typical Reverse Recovery 11me (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM
A IBIDIGIJIKI"'INIQ
30,0
1.1
IR(AV)
IR
TRR
CJ
RaJA
TJ,TsTG
8.0
J
I
1.2
1. Reverse Recovery Test Oondition:IF = 0.5A. IR = 1.0A, Irr =.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-276-
Amps
25.0
1
30.0
5.0
50.0
2.0
J 7.0 I
45.0
-65 to +175
NOTES;
UNn-B
Volts
1.0
I(AV)
IFSM
VF
ITIV IWIY
50 to 1600 Volts, See Fig 5.
1.3
Amps
Volts
I1A
I1A
5.0
I1s
pI
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES GP10A THRU GP10Y
FGI. 2 o
FIG.1 -
w
u::
rUl
Uw
Wa:
a:W
r-...~
""
0"-
~~
,.:
Z
W
a:
a:
:J
U
W
C)'"
a:w
:Ja:
UlW
0"a:::;
FORWARD CURRENT DERATING CURVE
10
6
;;:,.:
a: Z 4
Ow
u.a:
wa: 2
~
......
~
f'.
SINGLE PHASE HALF -WAVE 60Hz
RESISTIVE OR INDUCTIVE LOAD,
375" (9.5mm) LEAD LENGTHS
C):J
"U
a:
W
>
40
60
"
100'
80
120
""'" I'
140
AMBIENT TEMPERATURE. °C
25
20
15
;;:
""
a:
'"
10
0
u.
160
MAXIMUM NON-REPETITIVE
SURGE CURRENT
"'"W
180
"-
4
6
810
20
406080100
NUMBER OF CYCLES AT 60Hz
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 4 -
TYPICAL REVERSE CHARACTERISTICS
0
20
1Z
-
~ ~TJ ~ 125'C
.-
10
......
w
a::
a::
:::>
u
,.- ..... / ~:.""
o
a::
«:
~
r'
Z
.0
W
a:
a:
:J
U
w'"
UlW
a: a:
ww
>"w::;
a: " o. 1
",0
:Ja:
OU
~~
r
rz
offi
u..Q.
~ ~j
1.0
en~
:::>«:
ow
Z
~
z
-t-GP10A to GP10J
_ GPK10 to GP10Q -
ll.
.2
---.
~~/
o. 1
«:
en
-
Z
GP10T
to
GP1QY
.01
.6
.7
Q
/
~
Z
"rUl
1111
.02
TJ = 75 C
"
..J
1-
-
~
I
Joo"'"
1"...000"
TJ ~ 25'':;
Iof"
.0 1
TJ = 25°C
Pulse Width = 300,1.1 5
2% Duty Cycle
...
.8
.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
INSTANTANEOUS FORWARD VOLTAGE
VOLTS
.001
20
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
Fig. 5 -MAXIMUM RECURRENT PEAK REVERSE VOLTAGE
GP10A SOV
GP10B - 100V
GP10D - 200V
GP10G - 400V
GP10J - BOOV
GP10K - 800V
GP10M - 1000V
GP10N -1100V
GP10Q - 1200V
GP10T - 1300V
GP10V - 1400V
GP10W - 1S00V
GP10Y - 1600V
FIG. 6 20
'ti, 0
ui
8
U
Z
6
~
()
"""
U
TYPICAL JUNCTION CAPACITANCE
~~
TJ
4
~~5'CJ
.......
·..... 1....
__ GP10A to GP10J
2
--GP10K to GP10Q
--GP10T to GP1QY
1
0.1
0.4
1.0
4
10
REVERSE VOLTAGE, VOLTS
-277-
40
100
BYW27-50GP THRU BYW27-1000GP
GLASS PASSIVATED JUNCTION PLASTIC
MINIATURE RECTIFIER
Voltage - 50 to 1000 Volts Current - 1.0 Ampere
FEATURES
00-41
-r
1.0 (25.4)
MIN
.107 (2.7) ~
.080(2.0)
1 I" +I
.20515.2)
.180(4.1)
-t-
1.0(25.4)
MIN
.0341.86)...
.028 (.71)
I
..
• High temperature metallurgically bonded constructed rectifiers -"" "'-'"
• Plastic package
''''_~
has Underwriters Lab'--oratory Flammability Classifi~
cation 94V-0
• Glass passivated cavity-free junction in
00-41 package
• 1.0 Ampere operation at TA = 55'C with no thermal runaway
• Typical IR less than 0.1 J.l A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 secondsl.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
Dimensions in inches and (millimeters)
MECHANICAL DATA
'GIass-plas1ic8flC8PSuialion tschnique is coV6llld by PalentNo. 3,996,602 - - - - - - - - - - - - - - - - - of 1976; brazed -/sad assembly to Palent No. 3,930,3(X; of 1976 and glass
Molded plastic over glass
ccmposilion by PatentNo. 3,752,701 of 1973
Terminals: Plated Axial leads, solderable per
case:
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, 0.3 gram
Ratings at 25'C ambient temperature unless otherwise specified. Single phase, half _e, 60 Hz. resistive or inductive load.
For capacitive load, derate current by 20%.
BYW27 BYW27 BI'W27 BI'W27 BI'W27 BI'W27 BI'W27
SYMBOLS SOGP -fDOGP -2DDGP -4DOGP -8IIDGP -8/1DGP-fDDDGP-lINtTS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 70'C
Peak Forward Surge Current
10ms single half sine-wave no load
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current
at Rated DC Blocking Voltage TA = 25'C
Maximum Full Load Reverse Current, Full Cycle Average
.375", (9.5mm) Lead Length TA = 100'C
Typical Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
1.0
Amps
IFSM
VF
50.0
1.0
Amps
Volts
IR
200
nA
IR(AV)
15.0
IIA
jI.S
20.0
8.0
pI
'CIW
45.0
-65 to +150
TJ.TSTG
'c
NOTES: 1. Measured on Tektronix Type S recovery plug-in. Tektronix 545 Scope (or equiv.). IFM = 20mA, iRM = 1.0mA.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths, P.C. Board Mounted.
TRR
CJ
RaJA
-278-
RATINGS AND CHARACTERISTIC CURVES BYW27-50GP THRU BYW27-1000GP
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
oW
I-'
Z
FIG. 1 - FORWARD CURRENT DERATING CURVE
u::
f= (/)
10
Ow
~ ffi
"
0.8
fE<{«~
06
~
i'.
a:
'"'
ClCfJ
a:w
::0 a:
CfJw
~
20
60
40
100
80
:30
0"-
120
AMBIENT TEMPERATURE, °C
««
s:a:
'"
10
0
LL
140
160
f'
20
a::2'
1'10...
o
W
il'
Ir,l~mC
~
II If
NoLOiJd
"~ roo '10~;
W
SINGLE PHASE HALF-WAV[ 50f-il
RESISTIVE OR INDUCTIVr LOAD
375 (95mm) LEAD LENGTHS
0.2
40
0
04
«0
W
a:
a:
::0
5'1-'
gs a5
LLa:
lli §5
50
S;NGLf HALF SINE WAVE.
~
r--..I'oo
T"·70
D
r-.... r--. ....
e
ON RATED
LOAD
'"«w
"-
6
8 10
20
40
60 80 100
NUMBER OF CYCLES AT 60Hz
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
0
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
0
V """
0
-.....
T,) -- 125°C
f-
Z
W
a:
a:
I-'
Z
::0
o
Cl
a:
::0
CfJ
oCfJ
a: w
w
/
2
W
wCfJ
CfJw
a:' a:
~~
::0
oW
""'"
l.,...oooo I"'"
wW
>"-
~ffi
LL«
CfJ
~
J
I
1
(§
01
~~
•
Z
'"
02
~
/
00
'"
'"
T.J=25O~
CfJ
~
I
TI '" 25°C
"
/
z
'"
'--
::0 a:
Z
CfJ
TJ = 75°C _
w:2'
.2
I
::0
U
J
0
0
a:
a:
.0 1
V
Pulse Width = 300p. S
2% Duty Cycle
1
.6
.8
1.0
1.2
1.4
1.B
1.6
2.0
INSTANTANEOUS FORWARD VOLTAGE
~
II
00 1
FIG. 5 - PEAK FORWARD SURGE CURRENT
20
1000
":2'
«
I-'
Z
W
LL
.......
::0
o
"ui
o
z
.... 1'00
W
~
10 0
'«"
o
::0
o
~
~
~
80
100
0
120
140
I [11m
l"-t- ~
TJ = 2S Q C
1= lMHz
Vsig = 50mllp·p
8
6
4
--
if.
0
a:
a:
o
LL
60
0
500
a:
a:
CfJ
40
PERCENT OF PEAK REVERSE VOLTAGE
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
W
o
SQUARE PULSE
~;
=
200AIp.S
0
.01.02 .04
2
1
0.1
0.1
0.2 0.4
10
2
4
10
04
10
10
REVERSE VOLTAGE, VOLTS
PULSE DURATION, MIUSECONDS
-279-
40
100
1 N4383GP THRU 1 N4385GP
1 N4585GP AND 1 N4586GP
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 200 to 1000 Volts Current - 1.0Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers
"~"'~""'""".
• Plastic package
">_"
has Underwriters Lab-~"'
oratory Flammability Classifi'",-"
cation 94V-0
'""-~",
• Glass passivated cavity-free junction in 00-15
package
• 1.0 Ampere operation at TA = 1OO'C with no
thermal runaway
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
DO-15
f
+
1.0
.034 L8G)
.028 [.71J
~IN.
[25.4J
.300tGJ
.230r·8J
f
1.0
1,·1400.GJ
.104[2.6J
MIN.
[25.4J
1
Dimensions in inches and (millimeters)
·Glass·pIas~cencapsula~ontschniqu9iscov9fSdbyPal9ntNo.3,996,602
MECHANICAL DATA
011976; btazed ·lead assembly to Patent No. 3,930,306 01 1976 and glass - - - - - - - - - - - - - - - - - composition by Patent No. 3.752,701 011973
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
®
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.015 ounce,O.4 gram
Ratings at 25'C ambient temperature unless otherwise specified. Single half wave. 60 Hz. resistive or inductive load.
For capacitive load, derate current by 20%.
ffl
SYMBOLS 4383GP
* Maximum Recurrent Peak Reverse Voltage
* Maximum RMS Voltage
* Maximum DC Blocking Voltage
* Maximum Average Forward Rectified Current
,375", (9.5mm) Lead Lengths
VRRM
VRMS
Voc
I(AV)
200
140
200
ffl
ffl
ffl
ffl
4384GP
4385GP
4585GP
4586GP
UNITS
400
2BO
400
600
420
600
BOO
560
BOO
1000
700
1000
Volts
Volts
Volts
1.0
Amps
* Peak Forward Surge Current
B.3ms single half sine-wave superimposed
on rated load (JEDEC Method) at TA = 100'C
50.0
IFSM
Maximum Instantaneous Forward Voltage at 1.0A
1.0
VF
Maximum DC Reverse Cu'rrent
TA = 25'C
5.0
at Rated DC Blocking Vo~age
250
TA = 150'C
IR
* Typical Reverse Recovery Time (Note 2)
2.0
TRR
Maximum Full Load Reverse Current Full Cycle
Average at .375"(9.5mm) Lead Lengths, TA = 100'C
275
250
225
200
200
IR(AV)
15.0
Typical Junction Capacitance (Note 1)
CJ
R8JA
25.0
Typical Thermal Resistance (Note 3)
* Operating and Storage Temperature Range
-65 to +175
TJ.TsTG
NOTES: 1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2 Reverse Recovery Test Conditions: IF = 0.5A. IR = 1.0A. Irr = 0.25A.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths. P.C. Board Mounted.
* JEDEC registered values
-2BO-
Amps
Volts
I1A
I1s
I1A
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES 1N4383GP THRU 1N4385GP
1N4585GP AND 1N4586GP
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 1 1.0
0
W
LL
0.8
1=00
OW
Wa:
a:W
0<>a:::2
««
0.8
1\
\
0.6
,
0.5
\
0.7
~e:
0.4
oi1i
u.a:
Wa:
(!)=>
«0
a:
W
>
«
\
SINGLE PHASE
0.2
60Hz
RESISTIVE OR
INDUCTIVE LOAD
.375", (9.~mm) LEAD LENGTHS
HALF WAVE
0.1
25
50
75
100
W
a:
a:",
=>«
OW
W<>(!)oo
a:W
=>a:
ooW
0<>a:::2
««
,
0.3
125
50
e:z
FORWARD DERATING CURVE
;:
~
\
T;:~O~
11111
SINE~~~t~I(~~6~~~~~h~d)
1' ....
30
~
20
"
10
a:
0
u.
,
150
40
~~
10
100
NUMBER OF CYCLES AT 60Hz
175
200
AMBIENT TEMPERATURE, 'C
FIG. 3 - TYPCIAL FORWARD CHARACTERISTICS
20
0
a:
10
W
a:
a:
=>
~m
a: a:
Ow
u.<>00::2
=>«
file:
ZZ
«W
f-a:
Za:
«=>
f-O
00
~
o
Woo
en
w
/
1.0
I
0.1
/
a: a:
Ww
>0..
~~
~~
00
TJ = 25°C
Pulse Width - 300/.1 5
2% Duty Cycle
0.4
0.8
1.0
1.2
1.4
«
tiiZ
1.6
INSTANTANEOUS FORWARD
VOLTAGE, VOLTS
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
TYPICAL REVERSE CHARACTERISTICS
-
1.0
.4
01
«
!z
I
0.6
FIG. 4 -
I
10
~ ~ .04
I
I
.01
fZ
./
01
TJ = 125°G
!
TJ = 75°C
~
.20
TJ = 25°C
40
60
80
FIG. 6 -
SUPERECTIFIER
BRAZEO- TEMP ;a. 600 0 G
u.
"TJ = 25'C
.............
~
Zl°~~fiII
f-
u
~
~
o
fr-
1_ 1 MH,
Vsig = 50mVp-p
j I I IIIII
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
II1111
10
100
REVERSE VOLTAGE, VOLTS
-281-
t------1
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
100~~
~
100
OPAQUE
GLASS
140
1 N5059GP THRU 1 N5062GP
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage • 200 to 800 Volts Current· 1,0 Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers "~,~_,
• Plastic package
-""''-''''''
has Underwriters Lab''"'_
oratory Flammability Classifi""'...",
cation 94V-0
-"'"
• Glass passivated cavity-free junction version of
1N5059 thru 1N5062 in 00-15 package
• 1.0 Ampere operation at TA = 75'C with no thermal runaway
• Typical IR less than 0.1 ~ A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
00-15
f
1.0
MIN.
[25.4J
.. ,.034 ['86J
.0281.m
300 t'6J
.23°15.8J
f
1.0
NIH.
[25.4J
,·140(3.6)
1 .104(2.6J
!
Dimensions in inches and (millimeters)
.MECHANICAL DATA
• Glass·plastic BflCaPSulation ledmique is oovllred by PalMI No. 3,996,602
of 1976; brazed ·lead assembly 10 PalMI No. 3,930,306 011976 and glass
oomposilionby PalMI No. 3,752,701 011973
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.015 ounce,0.4 gram
Ratings at 25'C ambient temperature unless otherwise specified. 60Hz Resistive or inductive load. For capacitive load, derate current by 20%.
'Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
'Maximum DC Blocking Voltage
'Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 75'C
'Peak Forward Surge Current
8.3ms single hall sine-wave superimposed
on rated load (JEDEC Method)
'Maximum Instantaneous Forward Voltage at 1.0A
TA-75'C
'Maximum Full Load Reverse Current, Full Cycle
Average,.375" (9.5mm) Lead Lengths at TA = 25'C
TA = 75'C
'Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA = 175'C
Typical Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
'Operating and Storage Temperature Range
SYMBOLS
IN5059GP
IN5060GP
IN506tGP
fN5062GP
UNn'S
VRRM
VRMS
Voc
200
140
200
400
280
400
600
420
600
800
560
800
Volts
Volts
Volts
I(AV)
1.0
Amps
IFSM
50.0
Amps
VF
1.2
Volts
IR(AV)
IR
TRR
CJ
RSJA
TJ,TsTG
5.0
150.0
5.0
300.0
2.0
15.0
25.0
-65 to +175
NOTES:
1. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recoverto 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Vrx;.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
, JEDEC Registered Value
-282-
~A
~
~s
pi
'cm
'c
RATINGS AND CHARACTERISTIC CURVES 1N5059GP THRU 1N5062GP
FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
50
,~
FIG. 1 - FORWARD CURRENT
DERATING CURVE
11111
TJ = 75°C
8.3ms Single Half
Sine-Wave (JEDEC Method)
~
r\.
~-
,.......... .....
r\.
'" \
SINGLE PHASE
HALF WAVE
60Hz
RESISTIVE OR
INDUCTIVE LOAD
0.375" (9.Smm) LEAD LEN?THS
25
50
75
100
1,\
125
150
o
10
1
100
NUMBER OF CYCLES AT 60Hz
175
AMBIENT TEMPERATURE, ·C
FIG. 3 - TYPICAL INSTANTANEOUS
FOWARD CHARACTII'RISTICS
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
30
T, ~1250Jm
~
10
u.
C.
10
f"" m 1.0 MHz
1'""
Vsig
7"
I
50 mVp-p
u.i
/
U
Z
0..
W:;;;
.4
T, = ?5°C
0:«
enO
::00:
00
!;\!~
;:.;
;:.;
Z
en
;::::
0.1
.04
_:T,.25
1
01
20
40
60
80
100
50
REVERSE VOLTAGE, VOLTS
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
Z
W
0:
10
o
OW
z
VSlg = SOmVp-p
W
0:0:
oW
I
II
f=lMHz
0:
0
C_
120
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
-285-
OPAQUE
GLASS
100
1N5391 GP THRU 1N5399GP
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 50 to 1000 Volts Current - 1.5Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers "• Plastic package
--........
has Underwriters Lab"'~,
oratory Flammability Classifi--....__
cation 94V-0
--","
• Glass passivated cavity-free junction
• 1.5 Ampere operation at TA = 70'C with no
thermal runaway
• Typical IR less than 0.1 IJ.A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/l0 seconds/.375", (9.5mm) lead length at
'
5 Ibs., (2.3kg) tension
DO-15
f
+
1.0
,.034 1.861
.028 [.711
MIN.
[25.41
.300t'61
.230t81
Jo
MIN.
1,·140[3.61
.104[2.61
[25.41
1
Dimensions in inches and (millimeters)
MECHANICAL DATA
• Glass·plastic encapsulation technique is covered by Patent No. 3,996,602
of 1976; brazed ·Iead assembly to Patsnt No. 3,930,306 of 1976 and glass
comfiPSilionby Patent No. 3,752,701 of 1973
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.015 ounce,O.4 gram
Ratings at 25'C ambient temperature unless otherwise specified.Single phase, hall wave 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20'10.
INS3 INS3 IN53 INS3 IN53 INS3 INS3 IN53 IN53
SYMBOLS 91GP 92GP 93GP 94GP 95GP 96GP 97GP 98GP 99GP UNns
* Maximum Recurrent Peak Reverse Voltage
VRRM 50
* Maximum RMS Voltage
VRMS 35
* Maximum DC Blocking Voltage
VDC 50
* Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 70'C
100 200 300 400 500
70 140 210 280 350
100 200 300 400 500
600
420
600
800 1000 Volts
560 700 Volts
800 1000 Volts
I(AV)
1.5
Amps
IFSM
50.0
Amps
VF
1.4
Volts
IR
5.0
300.0
I1A
* Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage
at 1.5A,TA = 70'C
Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage TA = 100'C
* Maximum Full Load Reverse Current
Full Cycle Average, 375", (9.5mm)
Lead Length atTA = 70'C
Typical Reverse Recovery Time (Note 2)
Typical Junction Capacitance (Note 1)
TRR
CJ
RaJA
30.0
Typical Thermal Resistance (Note 3)
* Operating and Storage Temperature Range TJ.TsTG
-65 to +175
NOTES:l. Measured at 1.0 MHz and applied reverse vollage of 4.0 Voc.
2. Reverse Recovery Test Condition: IF = O.SA, IR = 1.0A, Irr = O.25A.
3. Thenmal Resistance from Junction to Ambient at .375" (9.Smm) Lead Lengths, P.C. Board
*
ItA
300.0
2.0
15.0
IR(AV)
JEDEC regfistered values
-286-
I1S
pf
'CIW
'C
Mounted.
RATINGS AND CHARACTERISTIC CURVES SERIES 1N5391GP THRU 1N5399GP
FIG. 2 - TYPICAL FORWARD CHARACTERISTICS
FIG. 1 - FORWARD CURRENT
DERATING CURVE
,.:
zUJ
a::
a::
:l
2.0
UJ
u:
f=(/)
UUJ
UJa::
a::UJ
00..
a::::;;
««
;;:,.:
a::z
OUJ
«
U
o
a::
fB
~
1.0
I--I-~I-~~~+--+--l
a:: a::
OUJ
0..
ll!~
(/)0
4
TJ
~
75°C
:la::
OU O 1
~~
«
I-
Z
«
l-
(/)
~
.04
1
...o
20
TJ " 25°(
40
60
80
100
=
120
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
·287·
OPAOUE
GLASS
100
GP15A THRU GP15M
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage· 50 to 1000 Volts
Current· 1.5 Amperes
FEATURES
• High temperature metallurgically bonded con""'~"""
structed rectifiers
• Plastic package
"'-.".'"
has Underwriters Lab~",'
oratory Flammability Classifi""'''-'
cation 94V-0
'-<.,,'
• Glass passivated cavity-free junction in 00-15
package
• 1.5 Ampere operation at TA = 55'C with no thermal runaway
• Typical IR less than 0.1 I.L A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/l0 secondsl.375", (9.5mm) lead length at
Sibs., (2.3kg) tension
DO-15
f
+
1.0
MIN.
---+-r·
.034 (.86)
.0281.71)
.300 [7.6)
•230
81
f
1,0
I'
.140(3.6)
.104(2.6)
MIN.
(25.4)
1
Dimensions in inches and (millimeters)
MECHANICAL DATA
• GIass·plastic encapsulation technique is covered by Patent No. 3,996.602 - - - - - - - - - - - - - - - - - of 1976; blazed -lead assembly to Patent No. 3,930,306 of 1976 and glass Case: Molded plastic over glass
oomposilionbyPatentNo. 3,752,701 of 1973
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.015 ounce, 0.4 gram
Ratings at .
temperature unless otherwise specified.
Single phase, half wave, 60 Hz. resistive or inductive load.
For capacitive load, derate current by 20%.
GP
SYMBOLS 15A
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward' Rectified Current
.375", (9.5mm) Lead Lengths at TA = 55'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.5A
Maximum Full Load Reverse Current, Full Cycle Average
.375", (9.5mm) Lead Length TA - 55'C
Maximum Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA -125'C
Typical Reverse Recovery Time (Note 2)
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
GP
158
GP
15D
GP
15G
15J
GP
15K
GP
15M UNITS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Votts
I(AV)
1.5
Amps
IFSM
VF
50.0
1.1
Amps
Volts
fR(AV)
100.0
5.0
200.0
2.0
15.0
25.0
-65 to +175
I1A
IR
TRR
CJ
RaJA
TJ,TsTG
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
2. Reverse Recovery Conditions IF = O.SA, IR = 1.0A, recover to 0.2SA.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-288-
GP
I1A
I1S
pI
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES GP15A THRU GP15M
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
~
Z
W
12
cr:::;;
««
a::
UJ
«u
cr:
w
>
cr:
UlW
"I'\.
~ffi
~t-'
r•• ss!c'
r-...
W
5
00.... 100
all.~2
0
u
0
ll.
6~
0"
cr:
cr:
::>
FIG. 1 - FORWARD CURRENT
DERATING CURVE
f\
75
SINGLE PHASE
75
100
125
SINE~WAVE
(JEDEC METHOD)
4
6
810
20
406080100
NUMBER OF CYCLES AT 60Hz
f\
150
.....
8.3ms SINGLE HALF
-
~~~~6~~~~6~gR
50
10
a:
0375". (9.Smm) LEAD LENGTHS
25
~
all.
;is
\
HALF WAVE
«
20
~
I\.
50
25
~~
««
..........
175
AMBIENT TEMPERATURE,'C
FIG. 4 FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
t-'
Z
W
30
10
cr:
cr:
::>
TYPICAL JUNCTION CAPACITANCE
I
II
r--.......
T~ ~s!d
0
ll.
C.
U
o
a:
TJ
~~
cr:cr:
0
1S0'C
10
j
~
U
Z
«
f-
aW
ll.o..
0
Ul::;;
::>«
@
10
ui
I /
1
«
a:
«
TJ = 25°C
u
Z
«
f= 1.0 MHz
Vsig = 50 mVp-p
I-
Z
~;;;:
10
Pulse Width = 300/.1s
2% Duty Cycle
50
100
REVERSE VOLTAGE, VOLTS
1
10
12
14
16
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
I-
Z
FIG. 5 -
W
cr:
cr:
::>
FIG.6-SUPERECTIFIER
TYPICAL REVERSE CHARACTERISTICS
CAVITY rREE
[GLASS PASSIVATED
JUNCTION)
0
4ETJ - 12S'C
u
BRAZED TEMP
WUl
UlW1 .0
cr:cr:
Ww
>0.. 4
~n:
~~o 1
au
~~
«
fZ
«
;;;:
f-
Ul
0
:=r
4
1
so
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
20
40
60
140
-289-
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
UL RECOGNIZED
FLAME·RETARDANT
MOLDING COMPOUND
(UL 94V-Q)
--l,
TJ = 75 c C
~
I-
• 600 C
OPAQUE
GLASS
SOLID BRAZING LOW
RESISTANCE EXCELLENT
SURGE CAPABILITIES
AGP15-200 THRU AGP15-800
MINIATURE G·LASS PASSIVATED JUNCTION PLASTIC
CONTROLLED AVALANCHE RECTIFIER
Voltage • 200 to 800 Volts Current· 1,5 Amperes
FEATURES
00-15
f
1.0
+
.034 LBG)
.028 (.111
MIN.
[25.41
.lootGI
.23015.BI
f
1.0
MIN.
[25.41
,·140[3.GI
1 .104[2.G)
1
Dimensions in inches and (millimeters)
• Glass·plastic encapsulation I6Chniqus is covered by Patent No. 3,996,602
of 1976; brazed ·lead assembly to Patent No. 3,930,306 of 1976 and glass
composilion by Patent No. 752, 701 of 1973
• High temperature metallurgically bonded constructed rectifiers
• Controlled Avalanche characteristic combined
with the ability to dissipate reverse power
• Plastic package
-'"""
has Underwriters Lab- "'-"""-..
oratory Flammability Classifi- ,~
cation 9 4 V - 0 ' ' '__
• Glass passivated cavity-free junction in 00-15""package
• 1.5 Ampere operation at TA = 55'C with no thermal runaway
• Typical IR less than 0.1 11 A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
a
®
case: Molded plastic over glass
Tennlnals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting POSition: Any Weight: 0.0154 ounce •.4 gram
Maximum Recurrent Peak Reverse Voltage
200
400
600
VRRM
Maximum RMS Voltage
140
280
420
VRMS
Maximum DC Blocking Voltage
200
400
600
Voc
Mininum Avalanche Breakdown Voltage at 100 I1A
240
450
675
VBR
1000
Maximum Avalanche Breakdown Voltage at 100 11 A
500
750
VBR
Maximum Peak Power Dissipation in the
500.0
Avalanche Region 20 I1S Pulse
PRM
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA ~ 55'C
1.5
I(AV)
Peak Forward Surge Current8.3ms single haH sinewave superimposed on rated load (JEDEC Method IFSM
50:0
Maximum Instantaneous Forward Voltage at 1.5A
1.1
VF
Maximum Reverse Current
at Rated DC Blocking Voltage
5.0
IR
Maximum Full Load Reverse Current, Full Cycle
Average,.375", (9.5mm) Lead Length at TA = 55'C IR(AV)
100.0
Typical Reverse Recovery Time (Note 2)
2.0
TRR
15.0
Typical Junction Capacitance (Note 1)
CJ
Typical Thermal Resistance (Note 3)
25.0
ReJA
Operating and Storage Temperature Range
-65 to +175
TJ,TsTG
..
NOTES: 1. Measured at 1 MHZ and appherd reverse vsoltage 014.0 Volts. 2. Reverse Recovery Test Conditions: IF = O.SA, IR =
3. Thermal Resistance lrom Junction to Ambient at .375' (9.Smmllllad lIIngthB, P.C. Board Mounted.
-290-
800
560
800
880
1200
UNITS
Volts
Volts
Volts
Volts
Volts
Watts
Amps
Amps
Volts
!1A
!1A
I1S
pI
'cm
·C
1.0A, recover to 0.25A.
RATINGS AND CHARACTERISTIC CURVES AGP15-200 THRU AGP15-800
o
150
1,\
UJ
u::
t5 UJ
1.25
~~
o
~ 1.00
o
0:
~
~~
en::'
:;:)«
@
~
Z
75
100
125
«
en
1-.
'\
0
50
150
~
~
01
6
175
8
10
1.2
1.4
MAXIMUM NON·REPETI1VE PEAK FORWARD
SURGE CURRENT
100
ENT
~
FIG. 4 -
TYPICAL REVERSE CHARACTERISTICS
UJ
0:
0:
~
10
::l
U
roo
UJen
w
UJUJ
CI)
0:0:
I 't'oo
~~
,.
.4
TJ
0:«
75°C
OU
~~ .04
TA-S5"C
«
I-
'-
8.3ms SINGLE HALF
z
SINEiWPti (1'1[1111 METHiDj
«
UJ
en
(GLASS·PASSIVATED
JUNCTION)
~
0:
:.::
;:is
0..
~
600 C.
_
~~t6~N~Eb'b~t~JND
(UL 94V-0l
~,.."
100
80
r"'IIIo
60
~
40
0:
UJ
BRAZED- TEMP
TJ = 2S"C
~
J: 200
U
UL RECOGNIZED
CAVITY·FREE
I
1""',...
i"
0
0
10
20
40
100
200
400
1000 2000
4000
10000
PULSE DURATION, MICROSECONDS
·291·
I·.:.·'
,"
TJ - 125"C
1.0
~~o 1
1
16
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
AMBIENT TEMPERATURE,·C
FIG. 3
I
01
Z
'\
25
TJ 25"C
Pulse Width = 300/15
2% Duty Cycle
;:::
SINGLE PHASE
HALF WAVE
60Hz RESISTIVE OR
INDUCTIVE LOAD
0.375", (9.5mm) LEAD LENGTHS
.25
~
u.o..
,
~a
ffi
OUJ
I\.
.75
.50
10
0:0:
OZ
u.~
10
UJ
:;:)
0:::'
Wa:
Z
0:
0:
U
««
~I-'
FIG. 2 - TYPICAL INSTANTEOUS
FORWARD CHARACTERISTICS
I-'
FIG. 1 - FORWARD CURRENT
DERATING CURVE
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
OPAQUE
GLASS
SOLID BRAZING, LOW
RESISTANCE. EXCELLENT
SURGE CAPABILITIES
GP20A THRU GP20J
GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 50 to 600 Volts Current - 2,0 Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers .
• Plastic package
'~
has Underwriters Lab- ~, ""'"oratory Flammability Classifi- ~
cation 94V-O
'~.
• Glass passivated cavity-free junction
'''-'''«<,
• 2.0 Ampere operation at TA =SS'C with no thermal runaway
• TypicallR less than 0.1 11 A
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed:
3S0'C/10 secondsl.37S", (9.Smm) lead length at
Sibs., (2.3kg) tension
GP20
f
1.0 (25.41
=-1
f
.375 (9.51
.28517.21
-.-L
1
1.0 (25.41
H.
.042 (1.071.
.037!.941
~
•
Dimensions in inches and (millimeters)
• GIass·plastic encapsulation tsc:hnique is CfN/IfIId by Pat6llt No. 3,996,602
of 1976; btazBd·/sad assembly to Pal6nt No. ~930,306 of 1976 and glass
oomposilion by Pal6nt No. ~ 752, 701 of 1973
MECHANICAL DATA
Case: Molded plastic over glass
Tennlna/s: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Band denotes cathode
Mounting Position: Any
Weight: 0.03 ounce, 0.8 gram
Ratings
temperature unless otherwise specified 60 Hz.Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 55'C
I(AV)
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage at 2.0A
VF
Maximum Reverse Current
at Rated DC Blocking Voltage
IR
TA - 25'C
Maximum Full Load Reverse Current, Full Cycle
Average, 375" (9.Smm) Lead Length TA = 5S'C
IR(AV)
Typical Reverse Recovery lime (Note 1)
TRR
Typical Junction Capacitance (Note 2)
CJ
Typical Thermal Resistance (Note 3)
R9JA
Operating and Storage Temperature Range
TJ,TsTG
GP
20A
GP
GP
GP
GP
208
20D
20G
20J
UNfTS
50
35
50
100
70
100
200
140
200
400
280
400
600
420
600
Volts
Volts
Volts
2.0
65.0
1.2
1.1
Amps
Volts
5.0
I1A
100
2.S
ItA
40
16.0
-6Sto +175
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, Irr = 0.25A.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) lead Lengths, P.C. Board Mounted.
-292-
Amps
I1S
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES GP20A THRlJ GP20J
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
100
r'
0
W
u:
;=(j)
OW
Wa:
a:w
ODa:::;'
««
~r'
O~
LLa:
Wa:
c:J::J
...:0
a:
W
>
...:
::0
0
10
05
I"'
1
SI~GILE
.......
PJSE
~
HALF WAVE
60Hz
RESISTIVE OR
INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
25
50
75
100
"-
125
60
W
c:J(j)
a:W
::0 a:
(j)W
ODa:::;'
...:...:
$:
a:
20
15
TJ = 55°C
B.3ms Single Half
Sine-Wave (JEDEC Method)
Z
w
a:
a:
FIG. 1 - FORWARD CURRENT
DERATING CURVE
0
I"
40
1"' .....
I'20
LL
"-
150
............
'"
...:
W
175
Cl-
10
AMBIENT TEMPERATURE. °C
100
10
NUMBER OF CYCLES AT 60 Hz
FIG. 3 - TYPICAL JUNCTION CAPACITANCE
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
r'
zW
10
a:
a:
I
G
o
a:
5
10
50
~~
100
REVERSE VOLTAGE. VOLTS
a: a:
OW
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
::0"':
I
10
LLD-
(j)::;'
20
10
~
...:
Z
W
a:
a:
::J
0
W(j)
(j)W
a: a:
wW
>"w::;,
a:...:
enO
::Ja:
Oll
WZ::;'
...:
@
~
-
Z
~
TJ '" 150"C
~1.0
~
TJ 25°C
Pulse WIdth::: 300 us
I
1% Duty Cycle
.01
1.0
.4
=
FIG. 6 -
75°C
SUPERECTIFIER
CAVITy-rREE
~
TJ:::
~5OC
~GLASS-PASSIVATED
JUNCTION)
f-- f--
.10
-
I-
Z
«
~
.,.-
I-
en
~
010
L
"
20
40
60
12
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
TJ : ; 125"C
TJ
., ,
I
0.1
Z
i--""'"
1...0-- ~
80
100
120
140
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
PERCENT OF RATED PEAK
REVERSE VOLTAGE
-293-
OPAQUE
GLASS
BV126MGP, BV127MGP I
BV226MGP, BV227MGP
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 650 to 1250 Volts
Current - 1,5 and 1.75 Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers ~....,
• Plastic package
"''''"''
has Underwriters Lab'"
oratory Flammability Classifi"
cation 94V-0
~.
• Glass passivated cavity-free Junction in 00-15
package
• 1.5 Ampere operation at TA =55'C with no thermal runaway
• TypicallR less than 0.1 IJ. A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
00-15
f
1.0
MIN.
(25.41
.300t6)
.23015.81
lIo
MIN.
,·140(3.61
1 .104(2.61
(25.41
1
Dimensions in inches and (millimeters)
'GIass·p/aslic tmeapSulation technique is coV8ftld by Patent No. 3,996,602
of 1976; blazed -lead aBSlIIIlb/y to Patent No. 3,930,306 of 1976 and glass
composition by Patent No. 3, 752, 701 of 1973
MECHANICAL DATA
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.015 ounce, 0.4 gram
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward RectHied Current
.375", (9.5mm) Lead Lengths at TA = 55'C
I(AV)
Peak Forward Surge Current
10ms single half sine-wave superimposed
on rated load at TA = 25'C
IFSM
Maximum Instantaneous Forward Voltage at 5.0A
VF
Maximum Reverse Currenl
at Rated DC Blocking Voltage TA = 25'C
IR
Maximum Full Load Reverse Current, Full Cycle
Average, .375" ( 9.5mm)Lead Length at TA =55'C
IR(AV)
Typical Reverse Recovery Time (Note 2)
TRR
Typical Junction Capacitance (Note 1)
CJ
Typical Thermal Resistance (Note 3)
ReJA
Operating and Storage Temperature Range
TJ,TSTG
BY126MGP BYI27MGP BY226AfGP BY227AfGP
650
455
650
1250
875
1250
1.5
1.75
50.0
60.0
UNITS
Volts
Volts
Volts
Amps
1.5
Amps
Volts
5.0
IIA
100.0
2.0
15.0
25.0
-6510+175
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage 014.0 Voc.
2. Reverse Recovery Test Conditions: IF = 0.5A,IR = 1.0A, recover to 0.25A.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-294-
1250
875
1250
650
455
650
IIA
J.Ls
pI
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES
BY126MGP, BY127MGP, BY226MGP & BY227MGP
FIG. 1 - FORWARD CURRENT
DERATING CURVE
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
:10
60
0
W
u::
W
('len
a:W
::la:
enW
Oil.
a:::;;
««
$:1-'
a:Z
OW
LLO:
",0:
«::l
wU
25
i=en
Uw
Wa:
a:w
OeL
a:::;;
««
$:f-'
a:Z
OW
LLa:
Wa:
('l::l
«U
a:
w
20
15
1--1'. BY226&227GP
BY1:'6&
10
?I~
127G~
I \
'i'
~~
50Hl RFSISTIVE OR
INDUCTIVE l.DAD
037S". (9:)fl1ln) lEAD lXNGTHS
05
2S
50
75
40
f'
J2U&I,Ulp
~ .....
'I
...
~
30
I I III II'~~
8Y126& 127G
20
Il.
10ms SINGI.E HALl-
SINE WAVr:
~
125
100
50
~
150
100)
T,,-25"C
10
4
175
6
8 10
20
40
60 80 100
NUMBER OF CYCLES AT 60 Hz
AMBIENTTEMPERATURE, °C
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
30
i'.....
T•• l!5'C
1111
1= lMHL
VSI9 = SOmVp·p
D.lOm. .
LL
ui
U
Z
~
u
it«
U
10
10
12
14
50
100
REVERSE VOLTAGE, VOLTS
16
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
f-'
Z
W
a:
a:
::l
U
Wen
en W
a: a:
WW
>eL
W::;;
a:«
enO
::la:
~~
T.
..,
--
10
01
~
125~C
~
en
Till
~-
=
~
IUL 94V-0)
i---
~~~
01
40
60
MOLDING COMPOUND
JUNCTION)
75°C
04
20
UL RECOGNIZED
FLAME RETARDANT
CAVITY FREE
(GLASS PASSIVATED
~
Z
FIG. 6 - SUPERECTIFIER
10
80
100
120
140
Y-I~
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
PERCENT OF RATED PEAK REVERSE VOLTAGE
-295-
OPAQUE
GLASS
SOLID BRAZING LOW
RESISTANCE EXCELLENT
SURGE CAPABILITIES
1 N5624GP THRU 1 N5627GP
GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 200 to 800 Volts Current -3.0 Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers "'-''''''''-_
DO-201AD
~~~s~~~:~~~:rs Lab-~"'<"'~._
•
.21015.31
.190(4.81
DIA.
LI
1
1.0 (25.41
'=-i.37519.51
.285{.21
t
1.0 125.4)
.05211.31 , ..
• 04811.21
T
•
•
•
•
•
oratory Flammability Classifi""''''.,.,'''
cation 94V-0
"'''.",
Glass passivated cavity-free junction in
DO-201AD package
3.0 Ampere operation at TA = 70'C with no
thermal runaway
TypicallR less than 0.1 ~ A
Capable of meeting environmental standards of
MIL-S-19500
High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
Dimensions in inches and (millimeters)
• GIass·plas~c encapsulation technique is ccv9fSd by Patent No. 3,996,602 ---------...;..;..;;..;;..;..;.;..;.;."..,;;..;..;."..,.;;..;...;.;.;...;
o( 1976; btazsd ·Iead assembly to Patsnt No. 3,930,306 of 1976 and glass Case: Molded plastic over glass
ccmposidonby PatsntNo. 3,752,701 011973
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.04 ounce, 1.12 grams
Ratings at 25'C ambient temperature unless otherwise specified. Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
• Maximum Recurrent Peak Reverse Voltage
VRRM
• Maximum DC Blocking Voltage
Voc
• Maximum Average Forward Rectified Current
.375", (9.Smm) Lead Lengths at TA =70'C
I(AV)
• Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
IFSM
• Maximum Instantaneous Forward
Voltage at 3.0A
TA = 2S'C
TA-70'C
VF
Maximum Reverse Current
TA = 2S'C
at Rated DC Blocking Vokage
TA = IS0'C IR(AV)
Maximum Full Load Reverse Current, Full Cycle
Average,.37S" (9.Smm) Lead Length TA = 70'C
IR
Typical Reverse Recovery Time (Note 2)
TRR
Typical Junction Capacitance (Note 1)
CJ
Typical Thermal Resistance (Note 3)
ReJA
Operating and Storage Temperature Range
TJ,TsTG
1NS624GP
200
200
1NS62SGP
I
I
300
400
400
INS626GP
J
I
600
600
I
800
800
UNITS
Voks
Volts
3.0
Amps
125
Amps
1.0
.1:15
5.0
Volts
I
200
3.0
40.0
15.0
-65 to +175
NOTES:
1. Measured at 1.0 MHz and applied reverse voltahge of 4.0 Voc.
2. Reverse Recovery Test Conditions: IF = 0.5A, IR = 1.0A, recoveito 0.25A.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
• JEDEC Registered Value
-296-
1NS627GP
I
200
ItA
ItA
~s
pI
'cm
·C
RATINGS AND CHARACTERISTIC CURVES 1N5624GP THRU 1N5627GP
FIG. 1 - FORWARD CURRENT DERATING CURVE
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
200
w
C)(J)
a:w
OJ
a:
(J)w
~
........
SINGLE PHASE
HALF WAVE 60Hz
RESISTIVE OR
INDUCTIVE LOAD
0.375" (9.Smm) LEAD LENGTHS
o
o
25
50
75
100
100
1'-0..
0"-
a::2
«
:;:,..:
~
...... .....
50
B.3ms SINGLE
HALF~SINE WAVE
(JEDEC) Method
....
a:Z
OW
"-a:
",a:
-
OJ<
0
w
Z
<
>Z
<
>-
'"~
I
--""'"
0
Z
V
10
TJ = 25°G
.....
50
uj
10
0
0.3
I
01
10
50
REVERSE VOLTAGE. VOLTS
03
J
01
0.6
0.7
0.8
0.9
11
10
1.2
1.3
FIG. 6.- SUPERECTIFIER
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
CAVITy,rREE
(GLASS-PASSIVATED
JUNCTION)
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
20
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
-297-
OPAQUE
GLASS
100
GP30A THRU GP30M
GLASS PASSIVATED SILICON JUNCTION PLASTIC RECTIFIER
Voltage· 50 to 1000 Volts Current· 3.0 Amperes
FEATURES
DO-201AD
t
.21015.31
·19gl~~·81
r
1.0 125.41
LI
f-IoJl-j ---it- .37519.51
~
1.0 125.41
T
.052 !l.31 , ..
.04811.21
• High temperature metallurgically bonded constructed rectifiers ',"
• Plastic package
~",-<.,~
has Underwriters Lab....."
oratory Flammability ClassHi-.,
cation 94V-0
~
• Glass passivated cavity-free junction in
DO-201AD package
.3.0 Ampere operation at TA =SS'C with no
thermal runaway
• TypicallR less than 0.1 11 A
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed;
3S0'C/10 secondsl.37S", (9.Smm) lead length at
5 Ibs., (2.3kg) tension
Dimensions in inches and (millimeters)
• Glass·plastic encapsu/alion fschniqus is cov8ll/d by PafsnfNo. 3,996.602 _ _ _ _ _ _ _ _ _
M_E_C_H._~_N,_l_C_A_L_D_A_T._:A
of 1976; brazed ·lead assembly to PalBnf No. 3,930,306 of 1976 and glass case: Molded plastic over glass
composition by Palsnl No. 3,752,701 of 1973
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
WeIght: 0.04 ounce, 1.12 grams
Ratings at25'C ambient temperature unless otherwise specified. 60 Hz.resistive or inductive load. For capacitive load, derate current by 20%.
GP
SYMBOLS 30A
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 55'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 3.0A
Maximum Reverse Current
at Rated DC Blocking Voltage
Maximum Full Load Reverse Current, Full Cycle Average
.375", (9.5mm) Lead Length TA 55'C
Maximum Reverse Recovery Time (Note 2) TJ m 25'C
Typical Junction Capacitance (Note1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
K
VRRM 50
VRMS 35
Voc 50
GP
30B
GP
300
GP
30J
GP
30K
GP
30M UNITS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
3.0
I(Av)
IFSM
VF
GP
300
Amps
125
1.2
I
1.1
Amps
Volts
IR
5.0
ItA
IR(AV)
TRR
CJ
RaJA
TJ,TsTI'
100
3.0
40.0
15.0
-65 to +175
ItA
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF = .M, IR = tA, Irr = .2M.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-298-
IJ.S
pi
'c/w
'C
RATINGS AND CHARACTERISTIC CURVES GP30A THRU GP30M
FIG. 2 -
cw
FIG. l-FORWARD CURRENT
DERATING CURVE
u::
§WW(/l
......
3
<.
SIN LE P
1
0
~()
~'!~ .T."C
CTIV
~N3~~ (~.5
25
w
~
SE
2 HAL WAY
a:fu.a:
wa:
Cl:::l
O~
........
LOA
m) LI "0 LI NGn S
50
75
100
......
125
8.3n .SI~~
SI", w.~(
"-
150
100
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS
10
..:
~
4.0
a:
a:
~
a
30
io"""""
V
10
w.(/l 1.0
(/lW
a:
a:
WW
>0..
W::;;
C
3.0
~~
:::la:
@2
'f
a: a:
I
Ow
lL Q.. 1.0
(/l::;;
Z::;;
:::l«
~
50
NUMBER OF CYCLES AT 60 Hz
a:
@
z
~
z
10
175
100
~ ffl
fIothO )
5
FIG. 3- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
a:
a:
:::l
()
r---~
AMBIENT TEMPERATURE,'C
::c
~
w
i"'"
4
a: a:
o ~
a:::;;
~
MAXIMUM NON-REPETITIVE SURGE CURRENT
0.3
~ .~~
I
I
o. 1
2'
Duly
-
T -75"
.2
""""
.10
~
Z
.04
~
.02
~
yela
.4
.,-1""'"
".
.01
20
40
60
80
100
.03
I
01
06
I
0.7
0.8
09
1.0
1.1
1.2
1.3
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 6 FIG. 5 -
SUPEflECTIFIER
CAVITy-rAEE
{GLASS-PASSIVATED
JUNCTION}
TYPICAL JUNCTION CAPACITANCE
100
U.
a.
uj 50
()
Z
....
~
U
~
«
()
120
140
PERCENT OF RATED PEAK·.,REVERSE VOLTAGE
...... .... 1--
J
10
5
10
50
~~~:~~GEkiED
100
BRAZED CONSTRUCTION
REVERSE VOLTAGE, VOLTS
-299-
OPAQUE
GLASS
-300-
SUPERECTIFIER ZENER
REGULATOR DIODE
1.5 WATT
100 TO 200 VOLTS
I,
i,
-------301-
INsrl~ .....
ZGP10·100 THRU ZGP10·200
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC ZENER
REGULATOR DIODE
Voltage • 100 to 200 Volts Power Rating • 1.5 Watts
FEATURES
• High temperature metallurgically bonded constructed rectifiers
."',...., .... """'' '
• Plastic package
~."'"-has Underwriters Lab......."
oratory Flammability Class!fi.~,
cation 94V-0
~"''''''
• Low zener impedance
• Excellent clamping capability
• Glass passivated cavity-free junction
in 00-41 package
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/l0 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
D0-41
-r
1.0 (25,4)
MIN
,107(2,7) ~
,080 (2.0)
1 I+!
,205152)
,1&0(4,1)
-r1.0 (25,4)
,034 (,86) ~ +
,028 (,71)
NIN
I
..
MECHANICAL DATA
Dimensions in inches and (millimeters)
'GIass·plastic encapsulation /flchniqu9 is COV9fed by Pat6llt No. 3,996,602
of 1976; brazed ·l9ad assembly to Patent No. 3,930,306 of 1976 and glass
composilionby Pat6lltNo. 3,752,701 of 1973
®
~!!tlL:"h
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
Ratings at 25'0 ambient temperature unless othelWise specified.
OPERATING AND STORAGE TEMPERATURE TJ TSTG -65'C to +175'C
TYPE
ZGP10-l00
ZGP10·ll0
ZGP10·120
ZGP10·130
ZGP10·140
ZGP10-150
ZGP10-160
ZGP10·170
ZGP10·180
ZGP10·190
ZGP10·200
Zener
Breakdown
Voltage
at5rnA
MAX
MIN
vohs
80
88
96
104
112
120
140
136
144
152
160
120
132
144
156
168
180
170
204
216
228
240
Izr
rnA
5
5
5
5
5
5
5
5
5
5
5
Maxlllllm Zener
Drnemlc
Impedance
IZK
Zzr
Onms
rnA
500
600
700
800
900
1000
1100
1200
1300
1400
1500
.25
.25
.25
.25
.25
.25
.25
.25
.25
.25
.25
lZK
Onms
5000
5000
5000
5000
5500
6000
6500
7000
7000
7500
8000
MaxlllllJll Reverse
Qlrrent at
Measurement
Vohage, VR
Maximum
Forward
Yohage
at .5OA
VR
vohs
25'C
/LA
100'C
/LA
Volts
IZM
rnA
60
70
80
90
100
110
120
130
140
150
160
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
100
100
100
100
100
100
100
100
100
100
100
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
10.
9.1
8.3
7.7
7.1
6.6
6.3
5.9
5.6
5.3
5.0
Standard + - 20%, Suffix A=+-10%, Suffix B+-5%.
'Temperature rating at specified regulator current is TL = 30'0
"Maximum continuous power dissipation at TL = 75'0 lead length .375", 9.5mm is 1,5 Watts
-302·
VF
MaxIIlllJll
Continuous
Regulator
Current'
RATINGS AND CHARACTERISTIC CURVES ZGP10-100 THRU ZGP10-200
FIG. 2-TYPICAL ZENER IMPEDANCE
"'
FIG. 1 -
z
MAXIMUM CONTINUOUS POWER DISSIPATION
z
..:
o
w
o
i=
..:
a.
en
oen
a.
20~.
100
..:
z
>o
.75
~~
a.
w
N
Vz
=>
1aDV
Vz - 150V
Vz = lODV
50
20
10
0.5 1.0
N
375
en
ce
Vz - 200V
1000
(,l
:;;
ffi t:
2000
500
:2
1 125
(jj
5000
w
(,l
15~--~--~---r---'----r---'
2.0
5.0 10
50 100
20
200
500
Iz, ZENER TEST CURRENT (rnA)
w
>
w
ce
o
50
25
100
75
125
175
150
FIG. 4-TYPICAL REVERSE CHARACTERISTICS
LEAD TEMPERATURE, 'C
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
.,.:
Z
w
ce
ce
TJ - 10QoC
10
I
1.0
:J
(,l
.4
o
./
ce
~~
1
ecce
Ow
0
:'
.04
u..a.
(/):2
TJ-25°C
Pulse Width = 300 IJ. s
1% Duty Cycle
/
:J":
@
TJ = 25°C
0.1
o. 1
J
.01
0
20
Z
..:
en
.6
.8
1.0
1.4
1.2
1.6
INSTANTANEOUS
FORWARD VOLTAGE, VOLTS
oW
FIG. 6 - SUPERECTIFIER
FIG. 5-TYPICAL TEMPERATURE COEFFICIENTS
220
200
~
VZ@llzt
180
.JI'
(,l
:l!~
:J~
.JI'
.JI'
150
1->
..: E
ce-
120
a.
::;:
10 0 1....
w
w
I-
&
100
.0 1
~
u:
u..
80
I
I
I-
z
w
i3
60
120
PERCENT OF RATED ZENER VOLTAGE
Z
..:
I-
I-
40
COMPLETELY
0
100 110 120
ENCAPSULATED
BRAZED CONSTRUCTION
130 140
150 160
170
180
190 200
Vz, ZENER VOLTAGE (VOLTS)
-303-
OPAQUE
GLASS
140
I.
I
-304-
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
FAST -RECOVERY
SUPERECTIFIERS
.40 AMPERES THRU 3.0 AMPERES
50 VOLTS TO 2000 VOLTS
....._ _ _ _ _
-305-
INsrlt1~
__
I
PHOTOFLASH RECTIFIER
RGP02 SERIES
MINIATURE GLASS PASSIVATED JUNCTION FAST
SWITCHING RECTIFIER
Voltage· 1200 to 2000 Volts Current· 0,5 Amperes
FEATURES
00-41
-r
1.0 (25.4)
MIN
.107(2.7)
~
1+ ~
1
.080(2.D)
.20515.2)
.16D(4.I)
-t.026(.66) ~
.022(.56)
1.0(25.4)
MIN
+
~
Dimensions in inches and (millimeters)
• High temperature metallurgically bonded constructed rectifiers
• For use In high frequency rectifier circuits
• Plastic package---"".
has Underwriters Lab""''''''''''-,_
oratory Flammability Classifi"'" _
cation 94V-O
"-",,.
• Fast switching for high efficiency
'%"
• Glass passivated cavity-free junction in 00-41
package
• O.S Ampere operation at TA =55'C with no thermal runaway
• Typical IR less than 0.1 ~ A
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed
350'C/10 secondsl.37S", (9.Smm) lead length at
Sibs., (2.3kg) tension
• Glass·plastic sncapsu/ation IfIChniqUfl is covered by Patent No. 3,996.602 ----------M--E-C~H.-,A-"-'l-C::-:A--:""L-D::-:A---"'-A
of 1976; brazed -lead assfll/lbly to Pawnt No. 3,930,306 of 1976 and glass _ _ _ _ _ _ _ _ _..;.;.~.;;.;..;;."'
...'~y';;.......;;.;;...;;...;....';,.;."'
...
composition by Pawnt No. 3, 752, 701 of 1973
case: Molded plastic over glass
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.37S", (9.Smm) Lead Lengths at TA = SS'C
Peak Forward Surge Current
8.3ms single hall sine-wave superimposed
on rated load at TA = 2S'C
Maximum Instantaneous Forward Voltage at 0.,1 A
Maximum DC Reverse Current
TA _2S'C
at Rated DC Blocking Voltage
TA _12S'C
Maximum Reverse Recovery Time (Note 1)
TJ - 2S'C
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
RGP02
,12 E
RGP02
RGP02
RGP02
SYMBOLS
,14E
,16E
,18E
RGP02
,20E
UNITS
VRRM
VRMS
Voc
1200
840
1200
1400
980
1400
1600
1120
1600
1800
1260
1800
2000
1400
2000
Volts
Volts
Volts
I(AV)
O.S
Amps
IFSM
VF
Amps
Volts
IR
20.0
1.8
S.O
SO.O
TRR
CJ
RaJA
TJ,TsTG
300
S.O
SO.O
-65 to +17S
ns
pi
'CfW
NOTES:
1. Reverse Recovery Test Conditions : IF = 0.5A, IR = t.OA, Irr =.25A.
2. Measured at t.O MHz and applied reverse voltage of 4.0 Vd."'.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths. P.C. Board Mounted.
-306-
!LA
'c
RATINGS AND CHARACTERISTIC CURVES RGP02 SERIES
!Z
.001
1/
I
1.0
.8
~
r==
25° C
f--
1.2
1.4
1.8
1.6
2.0
2.2
2.4
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
~
AMBIENT TEMPERATURE. 'C
=
2% fUTY ~YCLE I
~
«
175
TJ
PULSE WIDTH = 3OOIJ.S
:::l
150
/
FIG. 3-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
20
...:
Z
w
a:
a:
:::l
tJ
FIG. 4 '-MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
10
TJ "
,
wen
125'~:=:
=
25
TJ"
w
~~
:::la:
enw
ell.
a::'
(/)w
a: a:
ww
1.0
>11.
w:.
a:«
(/)0
TJ" 75'C=
:::la:
OtJ
, ./
~i
~
Z
=
«
,
en
~
TJ' 25'C
..
-~
~
01
~..:
Om
u.a:
:,::a:
«:::l
~ tJ
J
01
I-
««
15
"'~
10
I
I I I I "
i'"
.....
1'1"0
5
10
1
100
NUMBER OF CYCLES AT 60 Hz
~
20
20
o
-
5s',\;
B.3m 5 SINGLE HALF
SINE WAVE (JEDEC METHOD)
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG.6-SUPERECTIFIER
FIG. 5 -
TYPICAL JUNCTION CAPACITANCE
CAV!TY·rREE
(GLASS-PASSIVATED
JUNCTION)
u.
a.
ui
tJ
Z
~
C3
«
11.
«
tJ
f::: 1 MHz
Vsig " 50mV~-p
10
50
100
REVERSE VOLTAGE, VOLTS
~~~:~~~E~~ED
BRAZED CONSTRUCTION
OPAQUE
GLASS
SOLID BRAZING, lOW
RESISTANCE. EXCELLENT
SURGE CAPABILITIES
IN~
-307-
I
BY206GP THRU BY207GP
MINIATURE GLASS PASSIVATED JUNCTION FAST
SWITCHING RECTIFIER
Voltage - 350 to 600 Volts Current - 0.4 Amperes
FEATURES
00-41
--r
1.0 (25.4)
.107(2.7)
.080(2.0)
~
1 I.
MIN
~
.205'5.2)
.160(4.1)
-r
1.0(25.4)
.034(.86) ~.
.028(.71)
MIN
I
...
Dimensions in inches and (millimeters)
• High temperature metallurgically bonded constructed rectifiers
• For use in high frequency rectifier Circuits
• Plastic package"'"
has Underwriters Lab- "'''''''''',,"
~~~~~i9~~~mability Classifi-
' '.....,."''''"..",,,,.,,''',,,
• Fast switching for high efficiency
• Glass passivated cavity-free junction in 00-41
package
• 0,4 Ampere operation at TA = 55'C with no thermal runaway
• Typical IR less than 1 IJ. A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs" (2.3kg) tension
'GIass-piasticflllC8pSu/ationtschniqueiscov6ffldbyPatentNo.3,996,602
MECHANICAL DATA
of 1976; blazed ·/sad assembly to Patent No_ a930,306 of 1976 and glass - - - - - - - - - - - - - - - - - composition by Patent No. 3,752,701 of 1973
Case: Molded plastiC over glass
Terminals: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, .3 gram
ambient temperature unless otherwise specified.Resistive or inductive load. For capacitive load, derate currenli7t 20%.
SYMBOLS
Maximum Recurrent Peak Reverse VoRage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA m 55'C
Peak Forward Surge Current
1Oms single half sine-wave superimposed
on rated load at TA 25'C
Maximum Instantaneous Forward Voltage at 2,OA
TJ = 150'C
Maximum Full Load Reverse Current TA=55'C
Full Cycle AVerage at
TJ-125'C
Maximum Reverse Recovery lime (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM
VRMS
Vee
B
BY20SGP
350
210
300
UNITS
Volts
Volts
Volts
I(AV)
0.4
Amps
IFSM
15
Amps
1.5
VF
IR
TRR
CJ
RaJA
TJ,TsTG
NOTES:
1, Reverse Recovery Test Conditions: IF = 0,4A, VR = 50V dildt = 0.4/US.
2. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths,
-308-
BY2D7GP
600
350
500
2.0
200
VoRs
2.0
125
1.0
15.0
45,0
-65 to +175
p.e. Board Mounted.
IJA
JJ.s
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES BY206GP THRU BY207GP
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
10
~.
Z
FIG. 1 - FORWARD CURRENT
DERATING CURVE
ow
W
a:
a:
:::J
05
u:
U
04
@~
03
a:W
"'«
:s:~
a:
"'-
a:Z
Ow 0.2
u..a:
Wa:
~a
a:
w
~
j
10
o
~U)
frl ~
O~
~~
a: a:
"
RESISTIVE
INDUCTIVE LOAD
0375 (95mm) LEAD LENGTHS
01
o
25
50
75
toO
OW
u..o.
I(
U)::i:
:::J«
~
125
oW
Z
»
»
U)
~
150
T, ~ 25°C
300 us Pulse Width
2% Duly Cycle
1
II
Z
1
.2
.6
1.0
1.2
1.4
1.6
?::
175
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
AMBIENT TEMPERATURE, °C
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
20
~
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
Z
w
a:
a:
:::J
100
15
0
w
(!)U)
a:W
:::Ja:
U)W
00.
a:::i:
",«
:s:
a:
0u..
lU
'""-
u..
Q
T.-25·C
10ms Singl. Half
Sine- Wave at rated load
.... 1'00
W
U
..........
,,:
»
13 '
...... i'oo. ...
TJ = 25°C
........... .... 1"-
Z
F = 1 MHz
Vs1g = 50 MVp-p
0
Cf.
«
u
«
W
0.
1
10
10
20
40
60
100
REVERSE VOLTAGE, VOLTS
NUMBER OF CYCLES AT 60 Hz
FIG. 6 -
SUPERECTIFIER
FIG. 5 - REVERSE RECOVERY TIME CHARACTERISTIC
BRAZED-TEMP
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
-309-
OPAQUE
GLASS
~
600°C
100
I
BA157GP THRU BA159GP
MINIATURE GLASS PASSIVATED JUNCTION FAST
SWITCHING RECTIFIER
Voltage - 400 to 1000 Volts Current - 0,5 Amperes
FEATURES
00..·11
--r
.107(2.7) .\
.080(2.0)
1.0 (25.4)
MIN
\.. I
~
.205(5.2)
.160(4.1)
-r
1.0 (25.4)
MIN
.034 (.86)...
I
.028(.71)
..
Dimensions in inches and (millimeters)
• High temperature metallurgically bonded constructed rectifiers
• For use in high frequency rectifier circuits
• Plastic package
""""~
has Underwriters Lab- .~.''''''''''''.>,,'
oratory Flammability Classifi- .....--.•._
cation 94V-0
""-""",,,
• Fast switching for high efficiency
',.,
• Glass passivated cavity-free junction in 00-41
package
• 0.5 Ampere operation at TA = 55'C with no
thermal runaway
• TypicallR less than 0.1 ~ A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
'Glass·plaslicencapsulation lechnique is covered by PalenlNo. 3,996,6fl2
MECHANICAL DATA
of 1976; brazed -/Bad assembly to Palenl No. 3,930.306 of 1976 and glass ----------;.;.;.;;.....;.;...;;,.;..;..;;.....,.;..;..;;..;..;..;..;...;.
composilicnbyPalenlNo. 3,752,701 of 1973
Case: Molded plastic over glass
®
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting POSition: Any
Weight: 0.012 ounce, .3 gram
Ratings at 25'C ambient temperature unless otherwiSfl specified.Resistive or inductive load. For capacitive loed. derate ~r!~n! ~ 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA =55'C
Peak Forward Surge Current
10ms single half sine-wave superimposed
on rated load at TA =25'C
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current
at Rated DC Blocking Voltage
Maximum Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
SYMBOLS
BA1S7GP
BAIS8GP
BAI590GP
BAIS9GP
UNITS
VRRM
VRMS
Voc
400
280
400
600
420
600
800
560
800
1000
700
1000
Volts
Volts
Volts
,~
I(AV)
0.5
Amps
IFSM
VF
20.0
1.5
Amps
Volts
IR
TRR
CJ
R8JA
TJ,TsTG
5.0
150
250
I1A
500
15.0
'50,0
-65 to +175
NOTES:
1. Reverse Recovery Test Conditions : IF=O.5A.IR= 1.0A. recover to O.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voo.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths. P.C. Board Mounted.
-310-
500
ns
pi
'em
'C
RATINGS AND CHARACTERISTIC CURVES SA 157GP THRU SA 159GP
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
oW
0. 5
u::
..........
F(J)
~~
04
a:w
~
0"-
~~
03
:s:a:Zf--
OW 0.2
\
RESISTIVE OR
O. 1
'il'
_
INDUCTIVE LOAD
03754 (95mm) LEAD LENGTHS
w
25
50
75
W
100
125
25°C
Pulse Width
a:
a:
::J
='
30011$ 1% Duty Cycle
i~
'f'
1.0
o
"- ,
wac
~ i3
:: T,
Z
U
LLa:
a:
10
r:
FIG. 1 - FORWARD CURRENT
DERATING CURVE
a:
~fB
a: a:
OW
II
LL"-
(J)::;;
O. 1
::J«
oW
Z
i'\
150
f"
Z
f"
(J)
I
1
.2
.6
.4
.8
10
1.2
1.4
16
~
175
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
AMBIENT TEMPERATURE, °C
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
20
r:
Z
,
~
W
a:
a:
::J
15
U
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
....
100
I""
T".2S·C
10ma Single Half
~ Wave at rated load
W
(9(J)
a: w,
::Ja:
(J)W
LL
"'u.i
r---. 1"- ...
u
0"- 10
I'
a:::;;
««
:s:a:
Z
f"
~ ...
[)
10
if.
0
<3
LL
'"«
T,
25°C
f 1 MHz
Vs1g = 50 MVp-p
W
"-
II
1
a
10
1
20
40
60
100
10
100
REVERSE VOLTAGE, VOLTS
NUMBER OF CYCLES AT 60 Hz
FIG. 6 -
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
500
100
NONINDUCTIVE
NONINDUCTIVE
I+05A
FIG. 6 - SUPERCTIFIER
t,,BRAZED TEMP ~ 600 0
r\
O,U.T
-
-
(+1
50Vdc
I
-025
(approx.)
(-I
1!l
NON-
OSCILLOSCOPE
(NOTE 11
-1.0A
NOTES: 1. Rise Time = 7ns max., Input Impedance ""
1 megohm, 22pF
2. Rise Time = 1Ons max, Source Impedance =
50 ohms
J
\
INDUCTIVE
\
~
SET TIME BASE FOR
SO/lOOns/em
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
-311-
OPAQUE
GLASS
e
I
1N4933GP THRU 1N4937GP
MINIATURE GLASS PASSIVATED JUNCTION FAST
SWITCHING PLASTIC RECTIFIER
Voltage - 50 to 600 Volts
Current - 1,0 Ampere
-------
FEATURES
• High temperature metallurgically bonded constructed rectifiers
• For use in high frequency rectifier circuits
• Plastic package
has Underwriters Laboratory Flammability Classification 94V-0
• Fast switching for high efficiency
• Glass passivated cavity-free junction in 00-41
package
• 1.0 Ampere operation at TA = 75'C with no
thermal runaway
• Typical IR less than 0.1 11 A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/l0 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
D0-41
---r
1.0 (25.4)
MIN
.107(2.7) ~
.080(2.0)
1 I.~
I
.205(5.2)
.180(4.1)
~
t
.034 (,86) ~.
.028 (.71)
1.0(25.4)
MIN
I
...
Dimensions in inches and (millimeters)
'Glass-plasticencapsulaticn technique is covered by Patent No. 3,996,602 _ _ _ _ _ _ _ _ _M_E_C_H_~_N_'_C_A_L_D_A_T._)l_
of 1976; blazed -/sad assembly to Patent No. 3,930,306 of 1976 and glass
composition by Patont No. 3, 752, 701 of 1973
®
Case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL-STO-202. Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, 0.3 gram
""·~'·""I""';I· temperature unless otherwise specified.Resistive or inductive load. For capacitive load, derate current I7f 20%.
IN
SYMBOLS 4933GP
• Maximum Recurrent Peak Reverse Voltage
• Maximum RMS Vokage
• Maximum DC Blocking Voltage
• Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA" 75'C
• Peak Forward Surge Current
8.3ms single hall sine-wave superimposed
on rated load (JEDEC Method)
• Maximum Instantaneous Forward Voltage at 1.0A
• Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Vokage
TA = 125'C
• Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
• Operating and Storage Temperature Range
..
VRRM
VRMS
Voc
50
35
50
IN
IN
IN
IN
4934GP
4935GP
4936GP
4937GP
UNffS
100
70
100
200
140
200
400
280
400
600
420
600
Vo~s
Volts
Volts
I(AV)
1.0
Amps
IFSM
Amps
Volts
IR
30.0
1.2
5.0
100
TRR
CJ
R8JA
TJ,TSTG
200
15.0
50.0
-65 to +175
nS
pI
'CIW
'C
VF
NOTES: 1. Reverse Recovery Test Conditions : IF = 1.0A, VR = 30 Volts.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thennal Resistance from Junction to Ambient at .375" (9.Smm) Lead Lengths, P.C. Board Mounted
• JEDEC Regiestered Values.
-312-
itA
RATINGS AND CHARACTERISTIC CURVES 1N4933GP THRU 1N4937GP
fZ
FIG. 2 - TYPICAL FORWARD CHARACTERISTICS
w
a::
a::
~
U
o
FIG. 1 - FORWARD CURRENT DERATING CURVE
1.0
'"'"
0.75
0.5
0.25
25
50
75
100
1.0 I--t---i'r~'--+--t---r-t----j
u..~
en::2;
~<{
125
150
0.1
aw
I"I"-
RESISTIVE OR INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
./
a::
~en
gj~
fZ
u..
a.
ui
J
L
~
en
z
175
.0,1/
0.6
AMBIENT TEMPERTURE, °C
FIG. 3 -
f----,,.,--+--+--t----j---t--j
z
<{
0.8
1.0
1.2
'1.6
1.8
2.0
TYPICAL JUNCTION CAPACITANCE
10~.
FIG. 4 - TYPICAL REVERSE CHARAOIrERISTICS
20
r:
U
..J
10
z
w
z
<{
,.
~
U
"<{
u
10
50
100
REVERSE VOLTAGE, VOLTS
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
wen
enW
a:: a::
ww
>"W::2;
a::<{
enO
1.0
,- r-
f-
<{
f-
UNIT
en
UNDEllTEST
JOVdC
SUPPLY
IOA,dcFROM
CONSTANT
IIOLTAGESUPPlY
RIPPLE·3/nVtms'-A.l.X
NON INDUCTIVE
A_TEKTRONIX 545A K PLUG IN
PRE AMP P6000 PROBE OR EO' II/ALENT
R2-,rNE~A~~lIEDln 1',CARBC.NCORE
R,-ADJUSTEDFOR 14 11 BETWEEN
F>OINT 20F RELAV AND RECTIFIER
INDUCTANCE - 3B ~H
TA' ?5'
r-~
60
FIG. 6 -
I
I
,..,
......
VI
I I
~lCML...- SET TIME BASE FOR
I I
ao
100
120
SUPERECTIFIER
CAVITy-rREE
(GLASS-PASSIVATED
JUNCTION)
~o"C FOR RECTIFIER
l+d1~50L
\I'''V
iRM(REC)
40
PERCENT OF RATED PEAK REVERSE VOLTAGE
0-'+'-....
i(t)
~
.01
20
-=-'--....- - -....- .....--<:
r---
./
c,
~,,:~
TJ = 25°C
l",.oo""
~
CONSTANT VOLTAGE
j
0.1
Z
NON·INDUCTIVE
:~~
r-
TJ" 75'C -
. Io'
~a::
AU
Wz::2;
<{
~o
W.
r--
TJ -12SOC -
a::
a::
f-
U
<{
FIG. 5 -
1.4
INSTANTANEOUS FORWARO VOLTAGE VOLTS
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
50/100nsfcm
-313-
OPAQUE
GLASS
I
1 N4942GP THRU 1 N4948GP
MINIATURE GLASS PASSIVATED JUNCTION FAST
SWITCHING PLASTIC RECTIFIER
Voltage - 200 to 1000 Volts Current - 1,0 Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers
• For use in high frequency rectifier circuits
• Plastic package
""'-,
has Underwriters Lab-''''',,,,·,,,,,,
oratory Flammability Classifi- "--.,-.....
cation 94V-0
"'
'\
L\
AESI":;TIVE OR
INDUCTIVE LOAD
0.375" (9.Smm) LEAD LENGTHS
a
«
25
75
50
TJ:: 55°C
~
Z
100
125
B.3ms SINGLE HALF SINE-WAVE
(JEDEC METHOD)
W
a:
a:
25
;:)
O(/)
WW
(!)a:
a: W
;:)"(/)::>
15
:1«
.r:
«
"
150
20
:;:
r"oo~
r--.. r-.~
10
a:
alL
175
""""
AMBIENT TEMPERATURE. 'C
10
20
40
60 100
NUMBER OF CYCLES AT 60Hz
FIG. 3 - TYPICAL INSTANTEOUS
FORWARD CHARACTERISTICS
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
30
lL
C. 10
.............
I
ui
o
Z
~
5
U
«
"«
o
TJ
~
25°C
11111
10
50
100
REVERSE VOLTAGE. VOLTS
.6
1.0
1.2
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5 5Q()
NQNINDUCTIVE
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
FIG. 6 - SUPERECTIFIER
100
CAVlTy·rREE
(GLASS-PASSIVATED
JUNCTION)
NONINDUCTIVE
... O.5.A
DVT
\
\
/
- 0 25
10
NONINDUCTIVE
8RAZED-TEMP
OSCILLOSCOPE
INOTE 11
NOTES 1 Rise Time '-- 7ns ma~ Inpul Imp~dance
1 megohm 22pF
2 Rise Time", 10ns ma~ Source Impedance·.
50 ohms
- 1
a
\. /
.....,
flem
-315-
COMPLETElY
ENCAPSULATED
BRAZED CONSTRUCTION
OPAQUE
GLASS
-I-'
:>
600°C
Ul RECOGNIZED
rlAMe:-REtAROANT
MOLDING COMPOUND
(Ul94V-Ol
RGP10A THRU RGP10M
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC
FAST SWITCHING PLASTIC RECTIFIER
Voltage - 50 to 1000 Volts
Current - 1,0 Ampere
FEATURES
D0-41
~
1.0 (25.4)
MIN
.107 (2.7) ~
.080(2.0)
1 1+ +I
.205,5.2)
.160(4.1)
--t-
1.0(25.4)
.034(.86) ~
.028(.71)
MIN
+
I
..
Dimensions in inches and (millimeters)
• High temperature metallurgically bonded constructed rectifiers
• For use in high frequency rectifier circuits
• Plastic package",,",,
has Underwriters Lab""'."''''''<,
oratory Flammability Classifi- ----"_
cation 94V-0
~,
• Fast switching for high efficiency
• Glass passivated cavity-free junction in 00-41
package
• 1.0 Ampere operation at TA = 55'C with no thermal runaway
• TypicallR less than 0.1 11 A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
Sibs., (2.3kg) tension
'GIass·plasticsncapsulation technique is covsred by Patent No. 3.996.602 _ _ _ _ _ _ _ _ _
M_'E_C_H._~_H_l_C_A_L_D_A_r;_:4
of 1976; brazed ·/sad assembly to Patent No. 3,1/3Q,306 of 1976 and glass Case: Molded plastic over glass
composilion by PatsntNo. 3,752.701 0/1973
Terminals: Plated Axial leads, solderable per
®
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting POSition: Any
Weight: 0.012 ounce, 0.3 gram
RGP RGP RGP RGP RGP RGP RGP
SYllBOLS lOA
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
.375", (9.5mm) Lead Lengths at TA = 55'C
Peak Forward Surge Current
8,3ms single hall sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum Full Load Reverse Current, Full Cycle Average
.375", (9.5mm) Lead Length TA ~ 55'C
Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA-150'C
Maximum Reverse Recovery TIme (Note 1) TJ = 25'C
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
lOB 100 lOG
IOJ 10K 10M UNITS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
1.0
Amps
IFSM
VF
30.0
1.3
Amps
Volts
100
IlA
5.0
200
IR
IlA
TRR 150 150 150 150 250 500 500 nS
15.0
pI
CJ
R9JA
50.0
'CIW
'C
-65 to +175
TJ,TsTG
NOTES: 1. Reverse Recovery Test Conditions: IF =0.5A.IR = 1.0A, recover to 0.25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Ambient at .375"
(9.5mm) Lead Lengths, P.C. Board Mounted.
-316IR(AV)
RATINGS AND CHARACTERISTIC CURVES RGP10A THRU RGfl10M
,,
FIG. 2-TYPICAL JUNCTION CAPACITANCE
FIG. 1- REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
NONINDUCTIVE
NONINDUCTIVE
(+
_
-
f--Irr--l
1011
SO"
+O.5A
D.U.T
I
$OVdc
(approx.)
/
-0.25
t!I
NON-
OSCILLOSCOPE
(NOTE 1)
-1.0A
=
U.
0-
.....
W
(J
.........
z
'I"
(,,1
INDUCTIVE
100
~
(3
I
~7
to
TJ '"
25'~
"""
~
j
NOTES: 1. Rise Time
7ns max.
1 megohm, 22pF.
2. Rise Time = 10ns max. Source Impedance =
50 ohms.
I
10
REVERSE VOLTAGE, VOLTS
FIG. 3- FORWARD CURRENT
DERATING CURVE
>-'
z
W
0:
0:
::>
1.00
"
(J
0
W
u::
75
"
§CIl
WW
o:ffi
00.
50
0:::<
Ow
u.o.
CIl::<
::>
(J
W
If ill
I"- ..... i"o
20
"'TJ'56~""
::>0:
CIl'W
~~
U
10
a:
,
::>
U
o
a:
~~
u:
/
0.1
25 c C
Oa.
===
a:
0
u.
«
.8
1.2
1.0
1.4
1.6
«
ui
~
...
10
U
Z
«
I-
i3
«
a.
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
30
.25
Cl
I
1\
~
II
.6
\
.50
..:
100
I--
120
140
160
180
~
oLL
~03
100
~
"
TJ
~
..:
~
25°C _
10
0.4
0.6
FIG. 4 -
5
0.8
1.0
1.2
14
1.6
I-"
()
zW
0:
0:
11111
30
::J
50
~ui
(!)Ii!
o:w
100
REVERSE VOLTAGE, VOLTS
i"- ..... r-
i'-...
Ul::;;
0:
:s:0:
III
20
0":
..:
TJJJ
8.3ms Single Half
Sine~Wave (JEDEC Method)
::J"-
FIG. 5- REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
100., ...
10
0
3Dn
LL
row
NON·INDUCTIVE
UNIT
UNOEATEST
10
20
40 60
NUMBER OF CYCLES AT 60 Hz
1 DAde FROM
CONSTANT
VOLTAGESUPPl.-Y
~~L
>ow
A--TEKTRONIX545A,KPLUGIN
PRE AMP, I'eOOO PROBE OR EaUIVALENT
R , -ADJUSTEOFOR 1.4 11 BElWEEN
POINT20FRELAYANDRECTIF1ER
INDUCTANCE ~ 3~H
FIG. 6 -
RIPPLEo3mVrmsMAX
NON·INDUCTIVE
C,
!il!&F
SUPERECTIFIER
+
ZoullVtU MAX
DC 10 2kHz
R2 -TEN·1W IOU 1'10 CARBON CORE
IN PARALLEL
TA ~
~ ~o"C FOR RECTIFIER
~~ d;~dt~.50~/Js
-f--
I-+~ ~'''c/
I
lCM~1
'VI
I I
I-
18
MAXIMUM NON- REPETITIVE PEAK
FORWARD SURGE CURRENT
40
10
TJ = 25°c
Width = 30011 s
2% Duty Cycle
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
r-.....
z
"-
.01
~
~
()
~
I----Hf--+--j---j Pulse
til
0
C-
+--
53
~O"mnmM
f-
FIG. 3- TYPICAL JUNCTION CAPACITANCE
LL
t-
3.0 ~
o
0:
..:
AMBIENT TEMPERATURE, °C
ui
.tC_~¥.
.Ct~·>=t·
L- ---1-...
+-~.~~--~- f"
+
()
.......
.......
80
t .
0:
0:
::J
R-ESISTIVE OR INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
..:
10
W
~
00:
FIG. 2-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
Ul
FIG. 1-FORWARD CURRENT DERATING CURVE
~~~:~~GEffED
BRAZED CONSTRUCTION
SET TIME BASE FOR
5OJl00ns/cm
-321-
OPAQUE
GLASS
100
I
RGP15A THRU RGP15M
MINIATURE GLASS PASSIVATED JUNCTION PLASTIC
FAST SWITCHING RECTIFIER
Voltage • 50 to 1000 Volts Current· 1.5 Amperes
FEATURES
DO-15
f ..
1.0
MIN.
125.41
~
.0281.711
.lOOt61
.2l0 [5.81
-i-:I
, •• 14013.61
.10412.61
MIN.
125.41
1
Dimensions In inches and (millimeters)
• GIass·plastic 9IICiIPBuiation technique is covSllld by Patsnt No. 8,996.602
of 1976; brazed ·/sad asssmbly to PatBnt No. 8,93G,806 of 1978 and glass
composition by Patsnl No. S. 752, 701 of 1978
...
®
• High temperature metallurgically bonded constructed rectifiers .............
• Plastic package
...., ...
has Underwriters lab~
oratory Flammability Classifi............
cation 94V-0
.....
• Glass passivated cavity-free junction in 00-15
package
• 1.5 Ampere operation at TA = 55'C with no
thermal runaway
• Fast switching for high efficiency
• TypicallR less than 0.111A
• Capable of meeting environmental standards of
Mll-S-19500
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
Case: Molded plastic over glass
Tennlnals: Plated Axial leads, solderable per
Mll-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting POSition: Any
Weight: 0.015 ounce, 0.4 gram
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
RGP RGP RGP RGP RGP RGP RGP
15A 15B
150
15G
15J
15K 15M UNITS
Maximum Recurrent Peak Reverse Voltage
VRRM 50 100 200 400 600 600
Maximum RMS Voltage
VRMS 35 70 140 280 420 560
Maximum DC Blocking Voltage
VDC 50 100 200 400 600 800
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA z 55'C
1.5
I(AV)
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
50.0
IFSM
Maximum Instantaneous Forward Voltage at 1.5A
1.3
VF
Maximum DC Reverse Current TA-25'C
5.0
at Rated DC Blocking Voltage TA - 150'C
200
IR
Maximum Full Load Reverse Current, Full Cycle Average
.375", (9.5mm) Lead Length TA = 55'C
100
IR(AV)
Maximum Reverse Recovery Time (Note 2) TJ = 25'C
TRR 150 150 150 150 250 500
Typical Junction Capacitance (Note 1)
CJ I
25.0
RaJA
30.0
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
·65 to +175
TJ,TSTG
NOTES: 1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF = .5A, IR = lA, Irr = .25A.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
·322·
1000 Voits
700 Volts
1000 Volts
Amps
Amps
Volts
I1A
I1A
500
nS
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES RGP15A THRU RGP15M
FIG. 1- REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
10!1
NONINDUCTIVE
5011
NON INDUCTIVE
+O.5A
D.U.T
(+ )
_ 60 Vdc
\
,
fiI 1.50
u:
§ 13 1.25
~
-0.25
o~ffi
a.
f'
I
- , (approx.)
(-)
111
NONINDUCTIVE
FIG. 2-FORWARD CURRENT
DERATING CURVE
~~
.~
OSCilLOSCOPE
-t.OA
NOTES: 1. Rise Time = 7ns max.
1 megohm. 22pF.
2. Rise Time = 10ns max. Source Impedance =
50 ohms.
~ l.I
1.00
t-=
.75
:t ~
.50
w
.25
!5ffi
(NOTE 1)
~a
~
Z
'\.
,
'~
r-....
\
~N3~~
25
FIG. 3- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
"\
OTIVE DAD
(9.5m ,,) LEA
50
75
LEN THS
100.
10
W
0:
0:
ao
125
"
150
175
AMBIENT TEMPERATURE,·C
FIG. 4- TYPICAL JUNCTION CAPACITANCE
100
/'
0:
«m
1.0
~w
a.
(/)::;;
W
TJ = 25·C
~«
~
U
Z
J
01
j5
«
U
Z
tS
I
.....
u..
olD
u..a.
......... ....
J
10
2·
~
I-
~~
use
2% ~~:;~
.01
.4
.6
.8
1.0
~u~.
Ie
1.2
1.4
f.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
1
1
10
REVERSE VOLTAGE, VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
50
W
(!1m
o:w
::l0:
(/)w
Ca.
0:::;;
40
""'- ~
FIG.6-SUPERECTIFIER
30
..........
««
~~
O:Z 2IJ
Ow
~~
u..o:
:.::0:
i2i13
a.
10
2
4
6 6 10
20
COMPLETELY
ENCAPSuLATED
BRAzeD CONSTRUCTION
40 60 60 100
NUMBER OF CYCLES AT 60 Hz
-323-
OPAQUE
GLASS
100
RGP20A THRU RGP20J
FAST SWITCHING
GLASS PASSIVATED JUNCTION PLASTIC RECTIFIER
Voltage - 50 to 600 Volts Current - 2,0 Amperes
FEATURES
• High temperature metaliurgic~lIy bonded constructed rectifiers
• Pl.astic package
"'.""'-'«
has Underwriters Lab~
oratory Flammability Classifi- -"'0"",,,
cation 94V-0
• Fast switching for high efficiency
,
• Glass passivated cavity-free junction
• 2.0 Ampere operation at TA = 55'C with no
thermal runaway
• TypicallR less than 0.1 11 A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375 (9.5mm) lead length at
5 Ibs., (2.3kg) tension
GP20
t
1.0(25.4)
+
T
''''«,
.375 (9.5)
.28517.2)
-t
100 (25.4)
.04211.07) ,
.037 (.94)
~
H.
M
Dimensions in inches and (millimeters)
• Glass·plastic encapsulation lechnique is covered by Palenl No. 3,996.602
of 1976; btazsd ·/sad assembly Ix} Palenl No. 3,93CI,81J6 of 1976 and glass
composition by Palenl No.3, 752, 701 of1973
,
MECHANICAL DATA
Case: Molded plastic over glass
Terminals: Plateed Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Band denotes cathode
Mounting PosU/on: Any
Weight: 0.03 ounce, 0.8 gram
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 55'C
I(AVJ
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage at 2.0A
VF
Maximum DC Reverse Current
TA =25'C
at Rated DC Blocking Voltage
TA = 125'C
IR
Maximum Full Load Reverse Current, Full Cycle
Average. 375" (9.5mm) Lead Length TA = 55'C
IR(AV)
Maximum Reverse Recovery Time (Note 2)
TRR
TJ - 25'C
Typical Junction Capacitance (Note 1)
CJ
Typical Thermal Resistance (Note 3)
RaJA
Operating and Storage Temperature Range
TJ.TsTG
RGP
20A
50
35
50
NOTES: 1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF = 0.5A, IR = t.OA, Irr = 0.25A.
RGP
RGP
208
20D
2DG
20J
UNfTS
100
70
100
200
140
200
400
280
400
600
420
600
Volts
Volts
Volts
2.0
Amps
65.0
1.3
5.0
100
Amps
Volts
100
!LA
150
35
22.0
-65 to +175
S. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-324-
RGP
RGP
!LA
250
nS
pf
'cm
'c
RATINGS AND CHARACTERISTIC CURVES RGP20A THRU RGP20J
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
50!!
10!!
NON IN~UCTIVE
NONINDUCTIVE
+ OSA
,
[\
OUT
/'
025
III
I
OSCILLOSCOPE
(NOTE 1)
NONINDUCTIVE
\. V
. lOA
NOTES 1 Rise Time", 7ns max Input Impedance ', megohm. 22pF
2 Rise T,me = lOns max Source Impedance
50 ohms
o
FIG. 2 - FORWARD CURRENT
DERATING CURVE
W
u:
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
Z
a:
a:
a:
~[ll
1.0
~..:
1.0
0.5
(!l~
25
..:
TJ = 25°C
..:
tii
.6
?;:
u.
Pulse Width = 300/1 S
,
01
50
100
75
~
125
150
175
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
100
Z
'~
RESISTIVE OR
AMBIENT TEMPERATURE. 'C
Z
J-
........
INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
..:U
I
01
"........
a:
W
>
..:
a: a:
Ow
u.a.
",:2
oW
..:..:
wac
v-
o
1.5
~~
ou.a:
ijj
~
U
20
~~
10
W
~ [ll
Wac
a:W
C.
1% IOut y Cycle
.8
1.2
1.0
50
u.i
1.4
U
Z
1.6
..:
JC3
INSTANTANEOUS.FORWARD VOLTAGE.
VOLTS
..:
a.
..:
-
TJ~25~C,
I-f= lMHz
Vsig = 50mVp·p I
10
1 I·" 1
r-... -r-r-
U
10
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 6 -
0
SUPERECTIFIER
CAVITY·FREE
(GLASS-PASSIVATED
JUNCTION)
r---...
-TJ
~
...
~
55°C
8.3ms SiNGLE HALF
0
Slj-wyE1JElJJlj~Od'
5
10
50
50
REVERSE VOLTAGE. VOLTS
100
NUMBER OF CYCLES AT 60Hz
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
-325-
OPAQUE
GLASS
100
I
RGP25A THRU RGP25M
GLASS PASSIVATED JUNCTION
FAST SWITCHING PLASTIC RECTIFIER
Voltage • 50 to 1000 Volts Current -2.5 Amperes
FEATURES
* DO-201AD
f
1.0 (25.41
I~
~
.375 (9.51
1.0 (25.41
.052 (1.31
.04811.21
I
..
l
Dim(msions in inches and (millimeters)
•G/ass·plaslic sncapsulalion lechniquB is COV6I9d by Pallllll No. 3,~602
of 1976; brazsd -/sad assBlllbly III Pallllll No. 3,930,306 of 1976 and glass
composidon by Parsnl No. 3, 752, iIll of 1973
• High temperature metallurgically bonded con·
structed rectifiers """""""",''''.....
• Plastic package
has Underwriters Lab·
.......
oratory Flammability Classifi·
'-,
cation 94V·0
"""',.
• Glass passivated cavity·free junction in
00-201 AD package
• 2.5 Ampere operation at TA = 55'C with no
thermal runaway
• TypicallR less than 0.1 IJ. A
• Capable of meeting environmental standards of
MIL·S-19500
• Fast switching for high efficiency
• High temperature soldering guaranteed
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
case: Molded plastic over glass
Terminals: Plated Axial leads, solderable per
MIL·STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.04 ounce, 1.12 grams
Ratings al 25'C ambienllemperalure unless otherwise specifill(tResislive or inductive load. For capacitive load, derale current by 20%.
RGP
RGP
SYMBOLS 25A 258
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA - 55'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 2.5A
Maximum DC Reverse Current TA =25'C
at Rated DC Blocking Voltage TA =125'C
Maximum Full Load Reverse Current, Full Cycle Average
.375", (9.5mm) Lead Length TA'" 55'C
Maximum Reverse Recovery Time (Note 2) TJ = 25'C
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
RGP
250
RGP RGP
25G 25J
25K
RGP
25M UNfTS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Vo~s
100 200 400 600 800 1000 Volts
ICAV)
2.5
IFSM
VF
100
1.3
5.0
200
IR
RGP
100
IRCAV)
TRR 150 150 150 150 250 500 500
60.0
CJ
ReJA
16.0
-65 to +175
TJ,TsTG
NOTES: 1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF =O.SA, IR = 1.0A, liT =.25A.
3. Thennal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-326-
Amps
Amps
Vo~
I1A
I1A
ns
pi
'cm
'C
RATINGS AND CHARACTERISTIC CURVES RGP25A THRU RGP25M
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
500
100
NQNINDUCTIVE
NON INDUCTIVE
+0 SA
,
w
u::
~
OUT
i=en
UW
Wa:
a:W
Oa.
a:::!'
~,.
- 0.25
10
If
OSCILLOSCOPE
(NOTE 1)
NONINOUCTIVE
NOTES , Rise Time ::0 7ns max
1 megohm. 22pF
2 Rise Time 0:: 10n5 max Source Impedance "'50 ohms
- 1.0
·FIG. 2 - FORWARD CURRENT
DERATING CURVE
o
.... ~
««
~f
a:Z
Ow
u.a:
Wa:
\. l/
I I........' ....
I
...
C):::J
-1
«U o
I--
a:
20
w
SO/lOOns/em
.... i'oI
RESISTIVE OR
INDUCTIVE LOAD
.375" (Q.5mml LEAD LENGTHS
>
150
100
50
180
AMBIENT TEMPERATURE,"C
«
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
,..:
Z
W
10
a:
a:
:::J
U
o
a::
~ffl
a: a:
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
v
1.0
a.
Ow
/
01
W
~
Z
PULSE WIDTH = 300,u 5
1% DUTY CYCLE
.01
OA
0.6
r.l.0MHz
f-
v li9i
0.8
1.2
1.0
1.4
G
10
U
5
«
a.
«
TJ = 25°C
<
~
U
Z
«
Z
~
50
W'
u.a.
en::!'
6<
I
100
U.
iiiI
TJ = 25°C
10
1
50
100
REVERSE VOLTAGE, VOLTS
1.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 6 - SUPERECTIFIER
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
10a
CAVITY-FREE
(GlASS·PASSIVATED
JUNCTION)
UL RECOGNIZED
BRAZED- TEMP
~
600 C
~~~~N~Eb'6RS:~JNO
(UL 94V-0l
50
.......... ......
1-8~:;s ~~~LE HALF SINE-WAVE
JEDEC, METHOD
10
10
50
100
COMPLETELY
ENCAPSULATED
NUMBER OF CYCLES AT 60Hz
BRAZED CONSTRUCTION
-327-
OPAQUE
GLASS
RGP30A THRU RGP30M
GLASS PASSIVATED JUNCTION
FAST SWITCHING PLASTIC RECTIFIER
Vo/tagA - 50 to 1000 Volts Current - 3.0 Amperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers " . .
• Plastic package
~«''''".
has underwriters. ~ab..~'"
oratory Flammability Classlfl'<'''''''
cation 94V-0
.<""'.<~
• Glass passivated cavity-free junction in
00-201 AD package
• 3.0 Ampere operation at TA = 55'C with no
thermal runaway
• Typical IR less than 0.1 ~ A
• Capable of meeting environmental standards of
DO-201AD
.210 (5.3)
.-mrn:8i
OIA.
L, I~
1
r
1.0 (25.4)
t
.375 (9.5)
.285f·2)
MIL~S-19500
1.0 (25.4)
.05211.3) ,...
.048 (1.2)
• Fsst switching for high efficiency
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
M1IN.
_
Dimensions in inches and (millimeters)
MECHANICAL DATA
• Glass·plastic encapsulation technique is cov6f6d by Patent No. 3,996,602 - - - - - - - - - -.........;;..;............................................;.;...~
of 1976; blazed ·lead assembly to Patent No. 3,930,306 of 1976 and glass Case: Molded plastic over glass
composition by Patent No. 3, 752, 701 of 1973
Terminals: Axial leads, solderable per
®
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting POSition: Any
Weight: 0.04 ounce, 1.12 grams
Ratings at 25'C ambient temperalure unless otherwise specified.Resistive or inductive load. For capacitive load, derate current t1t 20%.
RGP RGP RGP RGP RGP RGP RGP·
SYMBOLS 30A
Maximum Recurrent Peak Reverse Voltage
VRRM 50
Maximum RMS Voltage
VRMS 35
Maximum DC Blocking Voltage
Voc 50
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA - 55'C
I(AV)
Peak Forward Surge Current
S.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage at 3.0A
VF
Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage TA - 125'C
IR
Maximum Full Load Reverse Current, Full Cycle Average
.375", (9.5mm) Lead Length TA = 55'C
IR(AV)
Maximum Reverse Recovery Time (Note 2) TJ - 25'C
TRR 150
Typical Junction Capacitance (Note 1)
CJ
RaJA
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
TJ.TSTG
NOTES: I. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF =0.5A, IR =I.OA, Irr =.25A.
30B
300
300
30J
30K
3.0
Amps
125
1.3
5.0
100
Amps
Volts
IlA
100
).LA
150 150 150 250 I 500 I 500 ns
60.0
pf
'CIW
16.0
'C
-65 to +175
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-32S-
30M UNITS
100 200 400 600 SOO 1000 Volts
70 140 2S0 420 560 700 Volts
100 200 400 600 SOO 1000 Volts
RATINGS AND CHARACTERISTIC CURVES RGP30A THRU RGP30M
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
..:
z
10
w
a:
a:
:J
o
()
FIG. 1 - FORWARD CURRENT
DERATING CURVE
ill
u:
f5Ww
o
a:
~~'
4r -.--.--.--,--,--.--
00
a:ffi
o Cl.
3f--+_-+....d--t--t--t-
~ ~ f-- I- -t. --1r"..-"'io;::-+-+-~..:
1"'0..
f2 m 1 AE,hSTl\l:lo~
I ..... ~
00::'
:J«
2
~
gsa:
INO CTIV LOI~.
0.37" 19:5tnm) L AD L
0
~()
25
W
50
75
NGT~S
100
125
fil
z
~
175
~
2%0
tyCyc,1""
I
~
AMBIENT TEMPERATURE, 'C
e--::
1/
o. 1
~
~
.....""
150
~
0
a: a:
Ow
u..Cl.
I
1
4
10
12
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
w
ff ~ 200
:Ja:
~:f
a:::'
««
~..:
100
om
u..a:
>0::
FIG. 4 -
u..
r-
0-
W
SO
r--. r-.
()
~G
Cl.
8. ms i
Sin -W ve
10
I
all
math d)
l§
5
1
10
50
t--.
Z
"""
~
(3
~
a:
TYPICAL JUNCTION CAPACITANCE
100
50
10
100
5
NUMBER OF CYCLES AT 60 Hz
10
50
100
REVERSE VOLTAGE, VOLTS
FIG.6 - SUPERECTIFIER
FIG. 5 -
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
CAVITy-rREE
(GLASS·PASS!VATED
JUNCT!ON]
UL RECOGNIZED
BRAZED- TEMP
~
600
c ~'o~~:ci~t~t~JND
(UL 94V-0l
SOil
to!!
NONINDUCTIVE
NONINDUCTIVE'
+O.5A
1+1
_ 50
-
D U.l
Vdc
(approx.l
-0,25
I-I
111
NON-
"
/
~
OSCilLOSCOPE
(NOTE 1)
INDUCTIVE
'" :'TES: 1. Rise Time = 7ns max"
1 megohm, 22pF.
2. Rise Time = 10ns mal{ , Source Impedance =
50 ohms.
j
-1.0A
"- ~
-329-
COMPLETELY
ENCAPSULATED
BRAZED CONSTRUCTION
OPAQUE
GLASS
I
-330-
MINIATURE GLASS
PASSIVATED CHIP
PLASTIC RECTIFIER
1.0 AMPERE
50 VOLTS TO 1000 VOLTS
------·331·
INsrCft~ - -
I
MPG06A THRU MPG06M
MINIATURE GLASS PASSIVATED JUNCTION
PLASTIC SILICON RECTIFIER
Voltage- 50 to 1000 Volts Current- 1.0Ampere
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94 v-o
• Low forward voltage, high current capability
• Glass passivated chip .~
• High Surge Capability
..........~.,•.~
• 1.0 Ampere operation
'.~."
at TA = 25'C with no ther............
mal runaway
' ......~.,....
• TypicallR less than 0.1 jJ. A
• High temperature soldering guaranteed :250'C/1 0
seconds/.375", (9.5mm) lead length at 5 Ibs.,
(2.3kg) tension
1
.10012.54J
.09012.29J
r
1.0 125.4J
LI 1+--+t-.12513.18J
T
1.0 125.4J
T
MECHANICAL DATA
case: Molded plastiC over glass passivated chip
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
MountIng PositIon: Any
Weight: 0.0064 ounce, .181 grams
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings al 2S'C ambienllemperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Vottage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current, .37S"
(9.Smm) Lead Length at TA a 25'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method) TA - 2S'C
Maximum Instantaneous Forward Vottlige at 1.0A
Maximum DC Reverse Current TA-2S'C
at Rated DC Blocking Voltage
TA= 125'C
Typical Junction Capacitance (Note 1)
Typical Reverse Recovery Time (Note 2)
Thermal Resistance
Typical
Maximum (Note 3)
Operating and Storage Temperature Range
MPG "PG "PG MPG MPG MPG "PG
SYMBOLS O6A 068 O6D O6G 06J O6K 06'"
VRRM SO 11001200140016001 80011000
VRMS 3S 1 70 1140 1280 1 420 1s601700
Voc SO 11701200140016001 80011000
ICAV}
1.0
IFSM
VF
40.0
1: 1
S.O
SO.O
10.0
0.6
65.0
8S.0
-SO to +lS0
IR
CJ
TRR
ReJA
TJ.TSTG
NOTES:
1. Measured all.0 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Tesl Conditons: IF = O.SA, IR = 1,0A. Irr =0.2SA.
3. Thermal Resistance from Junction to Ambient at .37S" (9.Smm) Lead Lengths, P.C. Board Mounted.
-332-
UNITS
Votts
Votts
Votts
Amps
Amps
Volts
I1A
pI
f.lS
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES MPG06A THRU MPG06M
FIG. 2 - MAXIMUM NON REPETITIVE
PEAK FORWARD SURGE CURRENT
o
FIG. 1 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
w
u::
1.2r--r-,-------,
i=U)
OW
Wa:
a:w
~~
<1:<1:
~r-:
10
a:z
Ow
u.a:
wa:
(!):::J
<1: 0
a:
w
>
0-
a:
OOUJ
o
u:
~~
UJ a:
a:UJ
D~
~<
FIG. 1 - MAXIMUM AVERAGE
FORWARD CURRENT RATING
UJ
1.2
1.0
~~ 20
.---,---.-~-r-.--.......-,
0.6
au.a:
a5
oA
~~
~§
I..........
11I1I
r---.
~§
i1iu
a.
r-~~~~i--+-r-1
10
TA= 25c C
r--.", "'" r-......
r-.... r.. ...
u.a:
I--k"-t--
I!
.
At No Load
Condition
OUJ
Ii?~ o81-~~~
««
3D
.........
At Rated
Load
(JEDEC Method)
0
10
100
NUMBER OF CYCLES AT 60Hz
0.2
«U
a:
UJ
>
«
25
50
75
AMBIENT TEMPERATURE, °C
FIG. 4 u.
0.
TYPICAL JUNCTION CAPACITANCE
~.----"rrrn~--rr'-rrrnn
ui
I
U
Z
i3
;:'10
• •
«
a.
FIG. 3 - TYPICAL FORWARD CHARACTERISTICS
«
U
3D
.......
B
oJ
10
5
j:::
U
z
::>
...,
ro...
TJ = 25°C
f = lMHz
Vsig ::: SOmVp-p
10
/
VI
TJ = 150C C
1.0
/
o.
I
.0
.4
Pulse Width = 300 IJ S
Duty Cycle::: 2%
UJ
10
a: « 1.0
000
::>a:
I
.6
en
ooUJ
a: a:
UJUJ
>a.
UJ:2
I
11/ I
TYPICAL REVERSE CHARACTERISTICS
3o~::~::::~::::~::=t::::t=::~~I~1
I
1 / II
1
100
TJ = 25°C
FIG. 5 -
I
50
REVERSE VOLTAGE, VOLTS
aU
.4
~ ai
.04
~U
.01
~~
1.0
1.2
1.4
1.6
1.8
INSTANTANEOUS FORWARD VOLTAGE
VOLTS
.... a:
oogj
TA = 10Dc
e
-
"
TA"25"C--
L.o--:l:2o:----:l4o~-~-::8~0-:--8:!::0-:--1:!00:;--::120~-;:'4o'
PERCENT OF RATED PEAK REVERSE VOLTAGE
-335-
-336-
GLASS PASSIVATED
RECTIFIERS
0.2 AMPERE TO 3.0 AMPERES
50 VOLTS TO 1600 VOLTS
I
_ - - - - - INsrCft~MIr --337-
GLASS PASSIVATED RECTIFIER
0,2 to 3,0 Amperes 50 Volts to 7600 Volts
Device Design
The Glass Passivated Rectifier is a hermetically sealed, cavity-free, diffused junction rectifier with
unsurpassed operating and surge characteristics at high temperature.
Cavity-free construction with a specially developed extremely pure glass in direct contact with the
silicon junction plus durable heat sink design obviate the need for solder joints and compression contact
parts. The carefully matched expansion characteristics of the glass and metal parts in combination with
the direct contact of the glass and silicon junction make the active rectifying elements impervious to
surface contamination, moisture or other external chemical agents. Further, the long term degradation
associated with organic junction protection is avoided.
There are many steps necessary to produce such a device:
Diffused Slice
1 - Diffuse a PN junction into a slice of silicon
~
~"N"
"P"
Metallized Slice
2-Evaporate aluminium on both sides
of the slice to make metallurgical contact
EVAPORATED
ALUMINUM
3-Sandblast the slice to produce a round beveled die
SAND BLASTED
ROUND DICE
-338-
GLASS PASSIVATED RECTIFIERS
4-Braze the die between two molybdenum heat sinks to
which leads have been attached at approximately 700°C.
Glass Passivated Rectifier
COPPER
LEADS
COPPER
LEADS
LEADS BRAZED TO MOLYBDENUM
5-Clean the assembly by chemically etching,
washing and drying.
6-Apply glass in the form of a frit to the die and
molybdenum assembly.
7 - Melt the glass by heating in an oven to approximately
600°C.
Glass Passivated Rectifier
8-Perform finishing operations such as lead tinning,
electrical testing and marking.
GLASS BODY AND PASSIVATION
FIRED AT 600°C.
Package Design
The small size of the glass package with its capability up to 3 Ampere permits greater packing densities
in electronic assemblies and equipment, while increasing reliability. Furthermore, only high temperature
brazing operations are used to withstand the 600°C required to melt and fuse the glass. This technique
eliminates solder construction and tremendously enhances mechanical strength and temperature
cycling capability, increasing operating and storage temperature range while reducing thermal
resistance.
Reliability
Specified reliability data on Glass Passivated Rectifier devices are available from the Generallnstrument Semiconductor Components Division Reliability Department. The basic design of the Glass
Passivated rectifier and the strict positive controls over materials and manufacturing processes provide
assurance-of failure-free performance under the most severe conditions. Processing facilities have been
geared to follow the procedural requirements of Military Standard 750. Glass Passivated rectifiers are
capable of withstanding environmental extremes in excess of MIL-S-19500E and of meeting
requirements of MIL-STD-883, MIL-Q-9858 and MIL-I-45208. Assurance of production
uniformity and reliability is provided by a test technique called "Operational Load Line Testing'; which
has proven product reliability with over 1 Billion Glass Passivated rectifiers now in use.
-339-
I
FAMILIES OF GENERAL INSTRUMENT
GLASS PASSIVATED RECTIFIERS
Glass Passivated Silicon Diodes 0.2 fo 0.4 AMPERES
T'/PfH:
lN483B thru lN486B
lN645 thru lN649
Features:
+ High Temperature Metallurgically Bonded
+ High Efficiency and Rectification Radle
+ Ideally Suited for Miniaturized Equipment
+ Case: One Piece Glass, Hermetically Sealed
+ TIn Plated Axial Leads, Solderable per MII-5TD-202/208
+ Operating from-65 C to + 175 C
+ Low Leakage
Glass Passivated Silicon Recfifiers 1.0 fo 3.0 AMPERES
Types:
lN4245 thru lN4249
lN5059 thru lN5062
1N5614 thru 1N5622
lN5550 thru lN5554
lN5624 thru JN5627
GIA thruGJM
G2A thru G2M
G3A thru G3M
G4A thru G4M
Features:
+ Glass Passivated Junction
+ High Mechanical strength
+ storage up to 200 C
. + Voidless Construction
+ Hermetically Sealed
+ Avalanche Operation
+ Low Leakage
+ High Conductance
+ TIn Plated Axial Leads, Solderable per MIL-STD-202/208
Glass Passivated Fasf Recovery Silicon Recfifiers 1.0 to 3.0 AMPERES
Types:
JN4942 thru lN4948
JN5615 thru lN5623
lN54J5 thru lN5420
RG JA thru RG 1M
RG2A thru RG2M
RG3A thru RG3M
RG4A thru RG4M
BYV95 thru BYV96
BYW32 thru BYW36
BYW72 thru BYW76
Features:
+ Glass Passivated Junction
+ Fast Switching for High Rectification Efficiency to 100 kHz
+ High Mechanical strength
+ Low Leakage
+ Hermetically Sealed
+ Storage up to 200 C
+ Tin Plated Axial Leads, Solderable per MIL-STD-202/208
Glass Passivated High Voffage Silicon Reclifiers 0.3 10 3.0 AMPERES
Types:
CGJ,DGI
CG1,DGI
CG2,DG2
CG3,DG3,
GIl-1200 thru GIl-1600
BY448,BY458,BY228
Features
+ All Advantages of a Hermetically Sealed Glass
+ passivated junction
+ Especially designed for Clamper/Damper Applications In
television fCRT
+ Low Leakage
+ High Mechanical strength
+ Tin Plated Axial Leads, Solderable per MIL-STD-202/208
·340-
QUICK GUIDE TO GLASS PASSIVATED
RECTIFIERS
1N4B3B
thru
TYPE
1N4B6B
1N645
thru
1N649
1N4245
thru
1N4249
D0204MB D0204AP
1N4942'
thru
1N494B'
D0204AP
1N5059
thru
1N5062
1N5614
thru
1N5622
D0204AP D0204AP
1N5615'
thru
1N5623'
G1A
thru
G1M
RG1A"
TYPE
thru
RG1M'
D0204AP D0204AP D0204AP
CASE
D0204MB
lolA)
0.2
0.4
1.0
1.0
1.0
1.0
1.0
1.0
1.0
lolA)
25
25
55
55
55
55
55
100
55
@T,(°G)
@'T.~.
(DC)
CASE
50 IV)
1N4B3B
G1A
RG1A
Vfl,=
VR = 100 IV)
1N4B5B
G1B
RG1B
VA = 100 IV)
1N4B6B
VR = 200 IV)
V"=
VR =
200 IV)
VR =
300 IV)
1N646
VR =
400 IV)
1N647
\(R=
50PIV)
1N64B
VA = 600 (V)
1N649
1N4245
1N4942
1N5059
1N5614
Hl5615
G1D
RG1D
VR =
300 IV)
1N4246
1 N4944
1N5060
1N5616
1N5617
G1G
RG1G
VR =
400 IV)
VR =
500 (V)
1 N4247
1N4946
1N5061
1N561B
1N5619
G1J
RG1J
VA = 600 (V)
BOO (V)
1 N424B
1N4947
1N5062
1N5620
1N5621
G1K
RG1K
VA = BOO (V)
V"= 1000 (V)
1 N4249
1N494B
1N5622
1N5623
G1M
RG1M
V,= 1000(V)
VA =
V,
1N645
50 IV)
> 1000 (V)
V,
> moo (V)
SURGEIA)
20
15
25
30
50
50
50
50
30
SURGE IA)
V,(V)
1.0
1.0
1.2
1.3
1.2
1.2
1.2
1.1
1.3
V,(V)
• Fast Recovery
I
QUICK GUIDE TO GLASS PASSIVATED
RECTIFIERS
TYPE
CG1
and
DG1
G2A
thru
G2M
RG2A'
CO2
thru
AND
thru
G3A
thru
G3M
thru
G4M
RG3M'
RG4M
CG3
and
DG3
TYPE
1N5627
1N5415'
thru
1N5420'
thru
OG2
1N5550
thru
1N5559
thru
RG2M'
CASE
1N5624
G4A
RG3A'
RG4A
CASE
D0204AP
DCl204AP
GPR3
GPR4
GPR4
GPR3
GPR4
GPR3
GPR4
GPR3
10 (A)
1.5
2.0
2.0
2.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
3.0
lolA)
T. lOG)
55
70
55
50
70
55
55
70
70
55
50
50
T. lOG)
D0204AP D0204AP
VR =
50 (V)
G2A
RG2A
1N5415
G3A
G4A
RG3A
RG4A
VR =
VR =
100 (V)
G2B
RG2B
1N5416
G3B
G4B
RG3B
RG4B
VA = 100 (V)
VR = 200 (V)
G2D
RG2D
1N5624
1N5550
1N5417
G3D
G4D
RG3D
RG4D
VA = 200 IV)
VR ""
300 (V)
G2G
RG2G
1N5625
1N5551
1N541B
G3G
G4G
RG3G
RG4G
VR =
400 IV)
VR =
500 (V)
VR = 300 (V)
VR =
400 (V)
VR =
500 IV)
1N5419
G3J
G4J
RG3J
RG4J
VR =
600 (V)
1N5553
G3K
G4K
RG3K
RG4K
VR =
BOO IV)
1N5554
G3M
G4M
RG3M
RG4M
VA = 600 IV)
G2J
RG2J
1N5626
1N5552
VR = BOO (V)
G2K
RG2K
1N5627
G2M
RG2M
V,,= 1000 (V)
V,
> 1000 (V)
1N5420
V"= 1000 IV)
CG3/DG3
CG2IDG2
CG1/DG1
50 IV)
V,
> 1000 (V)
SURGEIA)
40
50
50
40
125
100
BO
125
125
100
100
100
SURGE IA)
V,IV)
1.0
1.2
1.3
1.1
1.0
1.211.3
1.1
1.1
1.1
1.3
1.3
1.2
V,IV)
'Fast Recovery
-341-
1N483B THRU 1N486B
LOW POWER MINIATURE GLASS PASSIVATED
SILICON RECTIFIER
Voltage - 70 to 225 Volts Current - 200 Milliamperes
FEATURES
• High temperature metallurgically bonded constructed rectifiers" ,
• 0.2 Ampere operation at TA = 25"C
with no thermal runaway
• TypicallR less than 0.1 ~ A
• Hermetically sealed package
• Glass passivated cavity-free junction
• Ideally suited for miatrauized equipment
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 350"C/1 0
seconds/.375 (9.5mm) lead length at 5 Ibs.,
(2.3kg) tension
DO-204MB
.023(0.6),
.OlBIO.5)
..-1
r
1.0125.41
.30017.61
.23015.81
.115 (2.921 0IA.+1
08012.01
1:,01.4)
MIN.
M
i
,
MECHANICAL DATA
case: One piece glass, hermetically sealed
Dimension in inches
and
(millimeters)
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
• Brazed-lead assembly Is covered by Patent No. 3,930,306 of 1976
and glass composition by Patent No.3,752,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings a125'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
'Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
'Maximum DC Blocking Voltage
'Maximum Reverse Breakdown Voltage at 100 11 A
'Maximum Average Forward Rectified Current TA = 25'C
.375", (9.5mm) Lead Lengths at
TA • 150'C
'Peak Forward Surge Current 8.3ms single hall sine-wave superimposed on rated load (JEDEC Method)
'Maximum Instantaneous Forward Voltage at 100mA
'Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA = 150'C
Typical Reverse Recovaety Time(Note 4)
Typical Junction Capac~ance (Note 1)
Typical Thermal Resistance (Note 3)
'Operating and Storage Temperature Range
SYMBOLS
tN4838
tN4858
tN4868
VRRM
VRMS
Voc
VSR
70
50
70
80
180
127
180
200
200
50.0
225
159
225
250
I(AVl
IFSM
VF
IR
TRR
CJ
RaJA
TJ,TsTG
2.0
1.0
25.0
5.0
2.0
15.0
81.0
-65 to +200
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 Voo.
2. Available to JAN and JANTX Military Specificaitons MIL-8-19500/118C.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths, P.C. Board Mounted.
4. Reverse Recovery Test Conditions: IF = 0.5A,IR = 1.0A,lrr = .25A
'JEDEC Registered Values
-342-
UNITS
Volts
Volts
VoHs
VoHs
Mili
Amps
Amps
Volts
~
IJ.S
pi
'em
'C
RATING AND CHARACTERISTIC CURVES 1N4838 THRU 1N4868
FIG. 2 -
...:
z
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
10.0
LU
0:
0:
::::J
U
f".-r-,
8.0
i'
LU
63
~
t3
FIG. 1 200
""''" 1'--",-
f-o:
ULU
~~
150
0«
O::::J
<{..J
~~
0"':
LL z
100
--
50
60Hz
RESISTIVE OR INDUCTIVE LOAD
0.375" (9,Smm) LEAD LENGTHS
LULU
(')0:
its
LUU
50
25
>
(')U)
FORWARD CURRENT DERATING CURVE
«
75
100
8.3ms SINGLE HALF
SINE-WAVE
(JEDEC) Method
~~
6.0
~~t:
1 1 1
2.0
Itt
«w
........
0.
4
~
175
6 8 10
20
40
60 80 100
NUMBER OF CYCLES AT 60Hz
200
150
FIG. 3 -
AMBIENT TEMPERATURE, "C
TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
10.0
...:
dj
5.0
0:
0:
::::J
U
/
/'
o
0:
FIG. 4 -
1.0
~iil
0:0:
TYPICAL REVERSE CHARACTERISTICS
TJ
~50°C
0
r-~
1.0
II
U)::i'
..-:
::::J«
oLU
",..
_==
Z
..,
0:0:
LULU
>0.
,,125oC t---
I
«
fZ
05 0
f-
LUU)
U)W
TJ
.100
«
TJ
~
r-
125°C -
1
U)
J
~
01
LU::i'
011
0.6
0:«
0
,= 300 iJ. 5
Duty~~
LLQ.
-
U)
,
1010
.50
OLU
5,0
pulse
:
01
0.8
1.0
1.2
1.4
'.6
1.8
2.0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
::::JO:
OU
~~
~t5
~§
FIG. 5 -
,
;:...:
f-O:
0,0
1
LL
Q.
~J_~T5OC
0,00
-.l-.l
I
I
r-...
.-
-U
TYPICAL JUNCTION CAPACITANCE
50
1l::1
20
.......
40
W-
"...
60
10
1'-",
TJ '" 25°C
U
Z
100
120
«
cU
«0.
«
140
PERCENTAGE OF PEAK REVERSE VOLTAGE
5
U
,= lMHz
VSIG "" SOmVp-p max.
10
REVERSE VOLTAGE, VOLTS
-343-
100
1N645 THRU 1N649
MINIATURE GLASS PASSIVATED SILICON RECTIFIER
Voltage - 225 to 600 Volts Current- 400 Milliamperes
FEATURES
• High temperature metallurgically bonded
compression contacts as found in diode-con
structed rectifiers
• 0.4 Ampere operation'''··.
at TA =2S"C with no ther•••, . "
rmal runaway
.,••.••"',•••
• Hermetically sealed package
• Glass passivated cavity-free junction
• Ideally suuited for miniaturized equipment
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed 3S0"C/1 0
seconds/.37S", (9.Smm) lead length at Sibs.,
(2.3kg) tension
DO-204MB
.023(0.6),
•018 (0.5)
--1-
..
r
.30017.6)
.230(5.8)
1
+1
.115 12.92)DIA
08012.0)
•
I~J5.4)
MIN.
1
MECHANICAL DATA
Dimension in inches
and
(millimeters)
'Brazed·lead assembly is covered by Patent No. 3,930,306 011976
and 91ass composition by Patsnt No.3,752,701 011973
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .S6 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
'Maximum Recurrent Peak Reverse Vo~age
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
Voc
'Minimum Avalanche Breakdown Vonage at
TA-100'C
VBR
'Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 25'C
TA = 150'C
IrAy)
Peak Forward Surge Current 8.3ms single half sine,
wave superimposed on rated load (JEDEC Method) IFSM
'Maximum Instantaneous Forward Voltage at 400mA
VF
'Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage
TA= 100'C
IR
Typical Junction Capacitance (Note 1)
CJ
Typical Thermal Resistance (Note 3)
R8JA
Operating Temperature Range
TJ
Storage Temperature Range
TSTG
1N645
225
156
225
1N646
300
210
300
1N64T
400
280
400
1N648
500
350
500
1N«4I
6dtr
275
360
480
600
720
15
I
42~-'-
60Ef-
Vo~s
..
Vo~s
.
Vo~s.
,.
400
150
Mi!iAmQs'
15.0
1.0
200
15 I 20 I 20
15.0
81.0
-65 to +175
-65 to +200
~ml'l!i.
VII~I-
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
2. Available to Jan and Jan TX Military Specifications MIL-STO-19S00/240.
3. Thermal Resistance from Junction to Ambient at.37S" (9.5mm) Lead Lengths, P.C. Board Mounted.
• JEOEC Registered Values
-344-
UNITS
Vo~s
n).!-
I
25
ILl'
pf'
'CIW
'C
'C
RATING AND CHARACTERISTIC CURVES 1N645 THRU 1N649
FIG.2- FORWARD CURRENT DERATING CURVE
Cl
UJ
~~
I-a:
OUJ
UJa,
a:::;:
......
400
......
300
Cl~
.....
I"'
a:::i
<{..J
:;;:FIG. 1 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
1.0
r:
Z
UJ
a:
a:
::l
.5
Cl
0.1
~f8
.05
I
UJ
,
\.
25
50
75
'\.
100
125
150
175
AMBIENT TEMPERATURE, °C
15
I
::l~
TJ '" 25 C C
J
.01
Z
... I"""
FIG. 4 - MAXIMUM NON-REPTITIVE PEAK
FORWARD SURGE CURRENT
a: a:
OUJ
"-"CIl::!;
Pulse Width = 300).ls
1% Duty Cycle
~
Z
>
<{
/
"""
60Hz
RESISTIVE OR
INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
ffio
a:
0
100
~::l
0
I-
a:::!;
Or:
"-Z
UJUJ
(!)~
....
200
.005
~
ICIl
~
'"
IIII
~
8.3
I
JEDEC Method
~~
i'-... i"'-
/
.001
0.4
q.S
0.6
0.7
0.8
0.9
1.0
I I I II
ma Single Half Sine-Wave
~I'-o
1.1
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
10
20
40
60
100
NUMBER OF CYCLES AT 60 Hz
FIG. 3 - TYPICAL REVERSE
r:
Z
UJ
a:
a:
::l
0
UJCIl
CIlUJ
a: a:
UJUJ
>"UJ::;:
a:~
CIlO
::la:
00
UJZ::;:
~
I-
LEAKAGE CHARACTERISTICS
10.0
8.0
1/
5.0
3.0
2.0
1.0
I-~ c-
II
Z
~
ICIl
~
0
~f "
J
'100
50
w
w- ~
.- ~J- ~-
~
1-:" . -
I
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
...--
150°C
'~" ..'':;" .~- ~- ~
".- ; - ~I
gl " .~w
7.0
6.0
4.0
ru
I
II
9.0
200
300
~-
- .
~-
:2
;;-
"Q.
ui
o
x
~ -
500
TJ '" 25°C
~
:2'
100°C
.......~~
10
Z
I-
o
i;;-
~
25°C
400
....
':;
~
.1...-!..600
o
INSTANTANEOUS REVERSE VOLTAGE
VOLTS
1
10
REVERSE VOLTAGE. VOLTS
-345-
100
I
1N4245 THRU 1N4249
MINIATURE 'GLASS PASSIVATED SILICON RECTIFIER
Voltage - 200 to 1000 Volts
Current- 1.0 Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers
• 1.0 Ampere operation
at TA = 55'C with"""~"
no thermal runaway
''''''~
• TypicallR less than 0.1 ~ A
'.~
• Hermetically sealed package
.~
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 350'C/1 0
secondsl.375", (9.5mm) lead length at 5lbs.,
(2.3kg) tension
DO·204AP
.034 (.86) ,
.028 (.71l
+
MECHANICAL DATA
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting POSition: Any
Weight: .02 ounce, .56 grams
Dimensions in inches
and
(millimeters)
• Brazed.fead assembly is covered by Patent No. 3.930.306 of 1976
and glass composition by Patent No.3, 752,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load. For capacitive load, derate current by 20%.
SYAlBOLS 1N4245
'Maximum Recurrent Peak Reverse Voltage
Maximum RMS Vokage
'Maximum DC Blocking Voltage
'Maximum Average Forward Rectified Current
.375", (9.5mml Lead Lengths at TA = 55'C
'Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
'Maximum Instantaneous Forward Voltage at 1.0A
'Maximum Full Load Reverse Current, Full Cycle
Average .375", (9.5mm) Lead Lengths at TA = 55'C
'Maximum Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA= 125'C
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
'Operating Temperature Range
'Storage Temperature Range
VRRM
VRMS
Voc
200
140
200
1N4246
I
I
I
400
280
400
1N4247
I
I
I
600
420
600
1N424B
I
I
I
800
560
800
I
I
I
fN4249
UNITS
1000
700
1000
Voks
Voks
Vo~s
IrAV)
1.0
Amps
IFSM
VF
50.0
1.2
Amps
Voks
IR(AV)
50.0
1.0
25.0
15.0
40.0
-65 to +160
-65 to +200
jJA
IR
CJ
R8JA
TJ
TSTG
NOTES:
t. Available to JAN and JAN TX Military Specifications MIL-8-19500 I 286C
2. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
3. Thermal Resistance from Junction to Ambient at.375" (9.5mml Lead Lengths, P.C. Board Mounted.
'JEDEC Registered Values
-346-
~A
pf
'cm
·C
·C
RATING AND CHARACTERISTIC CURVES 1N4245 THRU 1N4249
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
11
I\.
o
w
~ ~
8
~~
\.
0.6
0.4
IT:
W
>
<{
25
50
75
I\,
125
@~
.10
~ 13
05
f--
TJ
<{
2"'0 DUTY CYCLE
to
150
0.6
175
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
I"
3:":
~
cr: Z 20
1.2
10
14
16
30
I
.......
..... 1'-0
u-
c.
TJ
10
1251c l
ui
I
Z
.........
o
~
o
t-------1HH+Hj-ii----+-+-~....~
<{
>ocr:
~13lOt----t---H-+t-H*-+-+--H+i+i1
f
lMHz
VSIG - SCm Vp-p max
0.
~
10
1()
j()(1
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
Z
a:
a:
W
a
::J
o
4
W(/J
(/) W
a: a:
TJ " 125°C
".
1.0
WW
>0.
w:::;
TJ - 75"IC
a:<{
iE
0.1
~ ~
04
~
00
<{
f--
Z
i:':
(/J
01
a
20
100
REVERSE VOLTAGE, VOLTS
NUMBER OF CYCLES AT 60Hz
,.:
18
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
o
ow
u-a:
0.8
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
I I 181!~, SIN~LEI H1LJ I II
~ en 40 t---_f-:-..."'k+1Sr-'Nt-EH-w-t1Ar-V_E_(J_-tED_E-tC_M-t-E--tTH--t0--tD~
a: W
.........
:ocr:
I'
(/JW
~ ~ 30 t----t---H-+-t+t-f?oo..........
.,-- ....
50
-
300l-lS -
I
01
Z
AMBIENT TEMPERATURE, °C
FIG. 3 -
25-'C
PULSE WIDTH
Z
~
100
7
::JW
" \.
60Hz
RESISTIVE OR
INDUCTIVE LOAD .375"
(9.5mm) LEAD LENGTH
.50
0":
u-f(/JZ
\.
3:,.:
:i'13 02
7
~f5
I\.
<{<{
~~
u-a:
wa:
./
10
a:(/J
OW
\.
u::
i= (/)
OW
Wa:
a:w
a
o
W
u::
i=
oW
FIG. 1 - FORWARD DERATING CURVE
TJ
40
60
80
25"C-+--100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
Z
-347-
140
1N5059 THRU 1N5062
MINIATURE GLASS PASSIVATED SILICON RECTIFIER
Voltage - 200 to 800 Volts Current- 1,0 Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers
• 1.0 Ampere oper- «"'"
ation atTA= 7S'C
~
with no thermal runaway
• TypicallR less than 0.1 IJ. A
",
• Hermetically sealed package
• Glass passivated cavity-free junction DO-204AP
package
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed: 3S0'C/10
seconds/.37S", (9.Smm) lead length at Sibs.,
(2.3kg) tension
DO·204AP
.034 (.86)
.028 (.71)
I
+
MECHANICAL DATA
Dimensions in inches
and
(millimeters)
'Brazed-lsad assembly is covered by Pawnt /110.3,930,306 of 1976
and glass composilion by Patent /110.3,752,701 of 1973
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load. For capacitive load, derate current by 20%.
'Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Vo~age
'Maximum DC Blocking Voltage
'Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 75'C
~Peak Forward Surge Current
S.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
'Maximum Instantaneous Forward Voltage at 1.0A
'Maximum Full Load Reverse Current, Full Cycle
Average .375", (9.5mm)
TA = 25'C
Lead Lengths at
TA = 75'C
'Maximum DC Reverse Current
TA - 25'C
at Rated DC Blocking Voltage
TA = 175'C
Typical Reverse RecovaeryToime (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
'Operating and Storage Temperature Range
SYMBOLS
lN5059
VRRM
VRMS
Voc
200
140
200
lN5060
I
I
I
fN506f
I
I
400
2S0
400
I
600
420
600
I
I
J
lN5062
UNITS
SOO
560
SOO
Vo~s
Volts
VoRs
hAV)
1.0
Amps
IFSM
VF
50.0
1.2
Amps
Volts
5.0
IR(AV)
150
I
100
I1A
«
25
50
75
100
30
"
a:Z
OW
,,-a:
20
«:::J
wU
0..
10
125
150
III
TA = 75°C
8.3ms Single Half
(JEDEC Method)
Slne~Wave
~
f'
~a:
I\.
INDUCTIVE LOAD
0.375" (9.Smm) LEAD LENGTHS
a:
""
40
~~
'\
~~
offi
W
ClOl
a:W
:::Ja:
OlW
00..
a::::;
««
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
"
10
100
NUMBER OF CYCLES AT 60Hz
175
AMBIENT TEMPERATURE, 'C
FIG. 4 -
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
30
10
"0-
ui
U
Z
«
f-
J
0
TYPICAL JUNCTION CAPACITANCE
rn
......
'T}~lJJ
..... "'"
10
a«
,
-
TJ '" 25°C
Pulse Width =: 300J,1 5 2% Duty Cycle
.01
.4
.6
I
0..
«
U
J
1
.B
1.0
1.2
1.4
10
100
REVERSE VOLTAGE, VOLTS
1.6
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
FIG. 6 -
W
I
U
Z
«Ol
-'f«f>«
1000
Ola:
a:w
100
aio
a: 0..
60
~~.
W~
BOO
600
I"""
400
"- 1""1-.,
BO
I"loo..
'"
40
TJ = 25°G
20
""
I
10
10
PERCENT OF RATED PEAK REVERSE VOLTAGE
........
200
~
«
W
0..
MAXIMUM NON-REPETITIVE REVERSE
AVALANCHE POWER DISSIPATION
20
40 60 80100
200 400 600
1000 2000 4000
PULSE DURATION MICROSECONDS
-349-
10000
1N5614 THRU 1N5622
MINIATURE GLASS PASSIVATED
MEDIUM-SWITCHING SILICON RECTIFIER
Voltage - 200 to 1000 Volts Current - 1,0 Ampere
FEATURES
• High temperature metallurgically bonded constructed rectifiers
• 1.0 Ampere operation
at TA = 55'C with
no thermal runaway
• TypicallR less than 0.1 11 A
• Hermetically sealed package
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 350'C/10
seconds/.375", (9.5mm) lead length at 5 Ibs.,
(2.3kg) tension
DO-204AP
.034 L8S) , ...
.028 L711
t
1.0125.4)
T
~
IS.l)
MAX.
.15013.8) ,
.09012.3)
I
L1
I 1.0125.4)
t
r
MECHANICAL DATA
Dimensions in inches
and
(miilimeters)
, Brazed·lead assembly is covered by Patent No. 3,930,306 of 1976
and glass composition by Patent No.3,752,701 of 1973
Case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load. For capacitive load, derate current by 20%.
'Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
'Maximum DC Blocking Voltage
'Minimum Avalanche Breakdown Vo~age at 50 J.l A
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 55'C
'Peak Forward Surge Current
B.3ms single hall sine-wave superimposed
on rated load (JEDEC Method)
'Maximum Instantaneous Forward Voltage at 1.0A
'Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage TA = 100'C
TA =200'C
'Maximum Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 4)
'Operating Temperature Range
'Storage Temperature Range
SYMBOLS
lN5614
lN5616
lN5618
lN5620
lN5622
UNITS
VRRM
VRMS
VDC
VBR
200
140
200
220
400
280
400
440
600
420
600
660
800
560
BOO
BBO
1000
700
1000
1100
Volts
Volts
Volts
1.0
I(AV)
IFSM
VF
IR
TRR
CJ
RaJA
TJ
TSTG
45
35
50.0
1.2
0.5
25.0
1500
2.0
25
I 20
40.0
-65 to +175
-65 to +200
NOTES: 1. Reverse Recovery Test Conditions: IF = .SA, IR = 1.0A, Irr = .2SA.
2. Measured at 1 MHz and applied reverse voltage of 12 volts.
3. Available to Jan and Jan TX Military Specifications MIL-5-19S00/427.
4. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
'JEDEC Registered Values
-350-
Vo~s
Amps
Amps
Vo~s
ItA
I
15
J.lS
pi
'erN
'C
'C
RATING AND CHARACTERISTIC CURVES 1N5614 THRU 1N5622
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
100
NONINDUCTIVE
500
NQNINOUCTlvr
+
0 5A
1\
D.U.T.
1/
- 025
10
NONINDUCTIVE
OSCILLOSCOPE
INOTE 11
NOTES 1 Rise limp _ 7115 ma~
1 megohm 22pF
2 Rise Time
IOns max
50 ohms
:;0
.,:
cr
cr
"~
U
o
UJ
u:
~ffl
UJcr
W
75
.50
~~
<{<{
~
C!l
25
cr
10
U
o
1\
a::
50
100
75
125
/
1.0
~ffl
,
~ffi
u.a..
en~
::l <{
oUJ
==
Z
1\
150
Z
<{
I-
en
.01
.4
~
AMBIENT TEMPERATURE. 'C
"
TJ ~25·C
Pulse Width - 300/15 _
2% ?uty CY~le
I _
I-
175
I ',
If
0.1
<{
UJ
;(
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
t-
Z
::l
o
<{
SET TIME BASE FOR
50/1QOns/cm
cr
cr
60Hz
RESISTIVE OR
INDUCTIVE LOAD.
0.375" (9.5mm) LEA~ LENG~HS
UJ
f----
10ns
1\
.25
cr
ou.
--l
UJ
1.00
::l
a::
10
Source Impedance:c
FIG. 2 - FORWARD CURRENT
DERATING CURVE
Z
UJ
I
V
"-
.6
.8
1.0
1.2
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
5~ORWARD SURGE CURRENT
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
U.
a.
u.i
40
30
II
~
U
Z
UJ
C!l
O~
cr<{
~.,:
I-
10
<{
a..
<{
40
enUJ
<{
(3
en
crUJ
::lcr
I
a: z
20
;(5
,0
OW
u.cr
f-TJ ~25·C
U
10
50
100
30
"
8.3ms SINGLE HALF
SINE-WAVE
(JEDEC METHOD)
TA" 55 c C
....
.......... .....
UJU
a..
REVERSE VOLTAGE, VOLTS
o
I
10
NUMBER OF CYCLES AT 60Hz
-351-
100
G1A THRU G1M
MINIATURE GLASS PASSIVATED SILICON RECTIFIER
Voltage - 50 to 1000 Volts Current- 1,0 Ampere
FEATURES
*
• High temperature metallurgically bonded
constructed rectifiers
• Glass passivated cavity-free junction in
00-204AP package """"
• 1.0 Ampere operation
",,- ~
atTA = 55'C with no ther~
mal runaway
~
• TypicallR less than 0.1 ~ A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 350'C/l0
seconds/.375", (9.5mm) lead length at 5Ibs.,
(2.3kg) tension
-=o-=O·--=2<-=-04:-:A--::P
.034 (,86) • ..
.0281.71)
MECHANICAL DATA
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
Dimensions in inches and (millimeters)
• 8razed-/ead assembly Is covered by Patent No. 3,930,306 of 1976
and glass compos/Oon by Patent No.3,752,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%
SYMBOLS GIA
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Vokage
Maximum DC Blocking Vokage
Maximum Average Forward Rectified Current, .375"
(9.5mm) Lead Length at TA =55'C
.Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum Full Load Reverse Current, Full Cycle .
Average, .375", (9.5mm}Lead Length at TA = 100'C
Maximum DC Reverse Current
TA ~ 25'C
at Rated DC Blocking Vokalle
TA = 150'C
Typical Reverse Recovery Time (Note 1) T,J - 25'C
Typical Junction Capacitance (Note 2)
Typical Thermal ResistancejNote 3)
Operating and Storage Temperature Range
VRRM
VRMS
Voe
GIB
GID
IR
TRR
CJ
RaJA
TJ,TSTG
1.2
I
GtM UNrrs
Amps
1.1
200
2.0
100
2.0
15.0
40.0
-65 to 175
NOTES:
1. Measured with IF = O.SA, IR = 1.0A, Irr = .25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm)l.ead Lengths, P.C. Board Mounted.
-352-
GtK
~mps
50.0
IFSM
IRCAV)
GU
1.0
ICAV)
VF
GtG
50 110012001400 1600 180011000 Vo~s
35 I 70 1140 I 280 1420 I 560 I 700 Vo~s
50 I 70 12001400 1600 180011000 Voks
Vo~s
IlA
IlA
j1S
pI
'cm
'c
RATINGS AND CHARACTERISTIC CURVES G1A THRU G1M
FIG. 2- MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
to:"
zw
Of'
FIG.1-FORWARD CURRENT
DERATING CURVE
a:
a:
ao
~en
1.0
W
1\,
.8
LL:
i=en
hl~
a:W '
iilffi
\
a:W
~ !i,
-C-C
~
75
~
100
20
OW
~G
i\
\
INO CTIVE LOAD
25
~~
18.3ms ?INGLE HALF
SINE-WAVE (JEDEC
1~
I""1'"..
Method)
LLa:
0.37 '. (9.5 m) LE OLE GTHS
w
Cl
-C
a:
w
30
TA "55°C
r0-
:.:a:
60Hz
12
@!i
~
-C<
1\
.6
o
1~
10
0..
10
175
100
NUMBER OF CYCLES AT 60 Hz
AMBIENT TEMPERATURE.·C
~
FIG. 3- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
FIG. 4- TYPICAL JUNCTION CAPACITANCE
10
0
a:
a:
I--....
G
LL
o
a:
~
ffl
1.0
~
::l<
J
O. 1
I
~
TJ = 25'C
5 C
g
I
01
Pulse Vidth =
II
.4
2%
.6
.8
1.0
I
5
j
g
~
.
z
a: a:
OW
z
T
uI ' 0
()
J
LLo..
en::!:
53
1'j..
0.
TJ = 1 O'C
100".
1
uty Cy Ie
1.2
14
5
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
..:
z
~
a:
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
10
G
wen
enw
a: a:
1.0
WW
w:::;; .,
>0..
a:«
-
eno
55 0
1
~~
.04
c(
.01
g
Iii
~
~
0
20
40
10
50
REVERSE VOLTAGE, VOLTS
1.6
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
-353-
140
100
G2ATHRU G2M
MINIATURE GLASS PASSIVATED JUNCTION RECTIFIER
Voltage· 50 to 1000 Volts Current· 2.0 Amperes
FEATURES
• High temperature metallurgically bonded
constructed rectHiers
• Glass passivated cavity-free junction in
DO-204AP package '<"'",
• 2.0 Ampere operation
~
at TA =75'C with no thermal runaway
• TypicallR less than 0.1 J.I. A
• Capable of meeting environmental standards of
MIL-S-19500
• Fast switching for high efficiency
• High temperature soldering guaranteed: 3S0'C/10
seconds/.37S", (9.Smm) lead length atSlbs.,
(2.3kg) tension
DO-204AP
.0341.861 , +
.028 (.111
MECHANICAL DATA
case:
One piece glass, hermetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .S6 grams
Dimensions In inches
and
(millimeters)
• 8raz9lJ.lead assembly /s covered by PalBnl No. 3.930.306 of 1976
and glass composilion by PalBnl No.3.752.701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHAHACTERISTICS
Ratings at 25'C ambient temperawre unless otherwise specified.
Single phase. half wave. 60Hz. resistive or inductive load.
For capacitive load. derate current by 20%
SYMBOLS G2A
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltaae
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current, .375"
(9.5mm) Lead Length at TA - 75'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 2.0A
Maximum Full Load Reverse Current, Full Cycle
AVerage•. 375", (9.5mm) Lead Length at TA'" 100'C
Maximum DC Reverse Current
at Rated DC Blocking Voltage
Typical Reverse Recovery Time (Note 1) TJ ~ 25'C
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
G2B
G2D
G2G
G2J
G2K
OW UNITS
VRRM 50 1100120014001600180011000 Volts
VRMS 35 1 70 J 140 1280 1420 -'5601700 Volts
Voc 50 1100120014001600 180011000 Volts
2.0
I(AV)
IFSM
VF
Amps
~mps
50
1.2
I
1.1
Volts
IReAII)
100
p.A
IR
TRR
CJ
RaJA
TJ,TsTG
1.0
2.0
15.0
40.0
-65 to 175
p.A
NOTES:
1. Measured with IF = .5A. IR = 1A. Irr = .25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths. P.C. Board Mounted.
-354-
j1S
pf
'cm
'c
RATINGS AND CHARACTERISTIC CURVES G2A THRU G2M
riG. 2-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
50
FIG. 1 - FORWARD CURRENT
DERATING CURVE
0
w
u:
f:en
Ow
Wa:
a:w
Oa.
a:=<
«
«0
a:
W
>
«
w
40
C)en
a:w
::>a:
UlW
a:=<
««
~,.:
a:Z
ow
LLa:
"a:
«::>
WO
2.0
,~
TJ 75 C
8.3ms Single Half Sine- Wave
(JEDEC Method)
Oa. 30
1.5
1.0
0.5
50
75
100
125
,
10
a.
25
........ .....
20
150 175
10
AMBIENT TEMPERATURE, °C
100
NUMBER OF CYCLES AT 60 Hz
FIG. 3- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
,.:
Z
FIG. 4- TYPICAL JUNCTION CAPACITANCE
10
W
30
a:
a:
i3
o
a:
~ffl'
a: a:
OW
LLa.
1.
TJ '"
0
"
5O'C
en=<
::>«
5lZ
I
J
1
LLc.
W()
~
..... 1"T
it«
TJ::: 2°C
()
-U'::
~,u.'"
-
~~
10
.4
.6
.8
1.0
1.2
,.:
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
Z
~
a:
10
i3wen
~~
WW
>a.
~~
.
10
-
.4
eno
55
~
«
tii
~
0.1
04
.01
0
-
20
40
50
REVERSE VOLTAGE, VOLTS
1.4
I NSTANTANEOUS FORWARD VOLTAGE, VOLTS
~:ij
5 C
5
1
.2
'
1O
Z
~
C3
g
~
......
J ' / n..
60
60
,
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
-355-
140
100
1N5550 THRU 1N5554
GLASS PASSIVATED SILICON RECTIFIER
Voltage - 200 to 1000 Volts Current- 3.0 Amperes
FEATURES
•
•
•
•
Glass paSSivated cavity-free junction
High temperaturae metallurgically bonded
Hermetically sealed package
Capable of meeting
environmental
standards of
MIL-S-19500
• Medium switching for
good efficiency
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length
at 5 Ibs., (2.3kg) tension
.180 (4.6) ,
.115 (2.9)
.042 (1.07), +
.0381.962)
MECHANICAL DATA
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .037 ounce, 1.04 grams
Dimensions In Inches and (millimeters)
, Brazed-lead assembly /s coveted by Patenl No. 3.930.306 of 1976
Bnd glass compos/lion by Patenl No.3.752.701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate currsnt by 20%.
SYMBOLS lN5560 lN5551 , lN556R lN5553
400
600
800
'Maximum Recurrent Peak Reverse Voltage
200
VRRM
Maximum RMS Voltage
140
280
420
560
VRMS
'Maximum DC Blocking Voltage
200
400
600
800
Voc
660
880
'Minimum Reverse Breakdown Voltage at 50 J.I. A
240 - 460
VBR
'Maximum Average Forward Rectified Current
I(AV)
3.0
.375", (9.5mm) Lead Lengths at TA = 55'C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
100
on rated load (JEDEC Method)
IFSM
, Maximum Instantaneous Forward Voltage at 3.0A
VF
1.0
I
'Maximum DC Reverse Current TA = 25'C
1.0
25.0
at Rated DC Blocking Voltage TA = l00'C
TA=200'C
1500
IR
150
120 I 100 I 90
'Maximum Junction Capacitance (Note 2)
CJ
'Maximum Reverse Recovery Time (Note 1) TJ = 25'C
2.0
TRR
Typical Thermal Resistance (Note 4)
RaJA
15.0
-65 to +200
'Operating and Storage Temperature Range
TJ,TsTG
lN5554
1000
700
1000
1100
UIITS
Volts
Volts
Volts
Volts
Amps
1.1
Amps
Volts
IIA
85
4.0.
pf
j.I.S
'CIW
'C
NOTES:
1. Reverse Recovery Test Conditions: IF =O.SA, IR = 1.0A, Irr = 25A.
2. Measursd at 1 MHz and applied rsverse voltage of 12.0 volts.
3. Available to JAN and JAN TX Military Specifications MIL-5T-19500/420A.
4. Thermal Resistance from Junction to Ambient at .375" (9.Smm) Lead Lengths. with both leads mounted between heat sinks.
'~EDEC Registered Values
-356-
RATINGS AND CHARACTERISTIC CURVES 1N5550 THRU 1N5554
FIG. 2 - TYPICAL REVERSE CHARACTERISTICS
FIG. 1 - FORWARD CURRENT
DERATING CURVE
fil
LL
§ fa
UJa:
a:UJ
o ~
~«
__
5.0"'-'I""-~------- " " i l
~ Iii
4
3
«
2
1.0
ili~
a:
000
:::> II:
4.0f---+--+--"k:-+--r=-"=""""'....,--'--i
o ()
TJ=
0.3
0.2
~~ C.'
30 r-~~""'IC"+--'~-If-JI.I
~~
ZZ .04
« ll:!
~ f-- 2.0
gj~
UJCIl
CIlUJ
a: a:
UJ UJ
--.-
.03
~ a: .02
~i3.010
1.0 1--~-~-~--I----"'''''''~.-t---1
40
20
~a
60
80
100
I~
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
a:
UJ
25
>
«
50
75
TEMPERATURE, ·C
FIG. 4 -
TYPICAL FORWARD CHARACTERISTICS
100
~
Z
FIG. 3 -
MAXIMUM NON-REPETITIVE SURGE CURRENT
200
/
UJ
a:
a:
0
::J
TA = 55°C
B.3ms SINGLE HALF
()
o
SINE-WAVE JEOEC Method
a:
~fa
J
a: a:
ou.1l.
UJ
......
0
1.0
CIl::i:
::J«
@
~
10
50
10
TJ = 25°C
Pulse Width = 300 J.1 s
2% Duty Cycle
I
Z
«
0.1
~
100
~
I
NUMBER OF CYCLES AT 60Hz
I
0.1
0.6
0.8
1.0
1.2
1.4
1.8
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
soo
100
NON1NDUCTIVE
NON1NOUCTIVE
+ 0.5.A
r'\
O.U.T.
"
- 0.25
10
NON-
OSCILLOSCOPE
INOTE 1)
INOUCTIVE
NOTES , Rise Time = 7ns mall
1 megohm. 22pF
2 Rise Time = lOns mall
50 ohms
-10
Source Impedance ==
-357-
\.. V
--t I--10m
SET TIME BASE
FOR 5OI100nllcm
I
1N5624 THRU 1N5627
GLASS PASSIVATED SILICON RECTIFIER
Voltage - 200 to 800 Volts
Current- 3,0 Amperes
FEATURES
• Glass paSSivated cavity-free junction
• High temperaturae metallurgically bonded constructed rectifiers
• Hermetically sealed package
• Capable of meeting
environmental
standards of
MIL-S-19500
• TypicallR less than 0,1 ~ A
• 3.0 Ampere operation at TA = 70'C with no thermal runaway
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length
at 5 Ibs., (2.3kg) tension
f
.250 {G.3 J
.170 (4.3J
'I
MECHANICAL DATA
Dimensions in inches
and
(millimeters)
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .04 ounce, 1.1 grams
'8razed.Jead assembly is covered by Patent No. 3,930,306 of 1976
SlId g/ass composition by Patent No.3,752,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings a125'C ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
tN5624
tN5625
tN5626
tN5627
UNITS
200 I 400 I 600
800
'Maximum Recurrent Peak Reverse Voltage
Volts
VRRM
140 I 280
Volts
Maximum RMS Vokage
VRMS
I 420 I 560
200 I 400
'Maximum DC Blocking Voltage
Volts
Voc
I 600 I 800
'Maximum Average Forward RectHied Current
3.0
.375", (9.5mm) Lead Lengths at TA - 70'C
Amps
I(AV)
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method) IFsM
125
Amps
Maximum Instantaneous Forward Voltage at 3.0A'
TA-25'C
1.0
TA= 70'C
.95
Voks
VF
5.0
'Maximum Reverse Current
TA= 25'C
300
at Rated DC Blocking Voltage
200
IR
TA= 175'C
JIA
I
'Maximum Full Load Reverse Current, Full cycle
150
Average, .375", (9.5mm) lead length at TA = 70'C
100
IR(Av)
JJ.A
Typical Junction Capacitance (Note 1)
40.0
pf
CJ
Typical Thermal Resistance (Note 3)
RaJA
15.0
'cm
'Operating Temperature Range
-65 to +175
TJ
'c
'Storage Temperature Range
-65 to +200
TSTG
'c
NOTES: 1. Measured at 1.0 MH7 and applied reverse voltage of 4.0 Voc.
2. Available to JAN and JAN TX Military Specifications MIL-S-19500I432.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, with both leads allaached between heatsinks.
'JEDEC Registered Values
J
I
-358-
RATING AND CHARACTERISTIC CURVES 1N5624 THRU 1N5627
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
200
100 """"
~
FIG. 1 -
zw
FORWARD CURRENT DERATING CURVE
a:
a:
4
::J
t)
w
HALF WAVE
o
" '"
60 Hz
RESISTIVE OR INDUCTIVE LOAD
0.375" (9.Smm) LEAD LENGTHS
o
25 50
75
100
8 3ms SINGLE HALF
SINE·WAVE
(JEDEC METHOD)
.....
C!)en
~~
enw
i"o
~~
<{<{
"-
125
50
~
"'-
150
10
aIL.
~
175
50 100
10
~
AMBIENT TEMPERATURE, °C
NUMBER OF CYCLES AT 60Hz
11.
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
100
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50 -.. ....
IL.
a.
ui
100
t)
30
10
a:
~ffl 3.0
.a: a:
Ow
/
en::' 1.0
aw
z
0.3
I
II
en
0.1
.03 ..L-'.01 I
z
r-......
<{
~
I-
Z
U
<{
~
W
a:
a:
11.
<{
t)
~
::J
t)
10
I. ,MHz
Vlig • 50mVp·p
TJ '" 25°C
.... '"
I
0
IL.11.
::J<{
5
"
Pulse width = 3OO/Js
2% Duty Cycle
~
I-
Z
100
FIG. 5 -
TYPICAL REVERSE CHARACTERISTICS
~ 10~~~~~~~~~
I-
~
0.8
~
w
<{
0.7
50
TJ - 25°C
<{
0.6
10
REVERSE VOLTAGE, VOLTS
~~ "0111;ITJ~i25·ICI~
ww
>11.
0.9
1.0
1.1
1.2
1.3
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
~~
3~
.4
0.1
at)
~~
<{
IZ
<{
tii
~
-359-
.01 ..... 20
""--J.._ _...L.._---''--_-J.._ _-"-_---''--_...J
0
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
140
G3A THRU G3M
GLASS PASSIVATED SILICION RECTIFIER
Voltage - 50 to 1000 Volts Current- 3,0 Amperes
FEATURES
'150 16.l1
• 7014.l1
• High temperature metallurgically bonded
constructed rectifiers
• Glass paSSivated cavity-free junction in
sealed package
• 3.0 Ampere operation
at TA =70'C with no thermal runaway
• TypicaliR less than 0.111 A
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed: 3S0'C/10
seconds/.37S", (9.Smm) lead length at Sibs.,
(2.3kg) tension
'I
MECHANICAL DATA
case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .04 ounce,1.1 gram
Dimensions in inches
and
(millimeters)
'Brazed.fead assembly Is covered by Patent No. 3,930,306 of 1976
and glass composiJion by Patent No.3,752,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20"10
YMBOLS G3A
Maximum Recurrent Peak Reverse VokaJie
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current, .375"
(9.5mm) Lead Length at TA - 70'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 3.0A
Maximum Full Load Reverse Current, Full Cycle
Average, .375", (9.5mm) Lead Length at TA = 70'C
Maximum DC Reverse Current
TA·25'C
TA= 150'C
at Rated DC Blocki/l9 Voltage
Typical Reverse Recovery Time (Note 1)
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM
VRMS
Voe
50
35
50
G3D
G3B
IR(AV)
IR
TRR
CJ
R8JA
TJ,TSTG
NOTES:
G3J
3.0
I(AV)
IFSM
VF
G3G
G3K
G3M UNITS
100 200 400 600 800 1000 Voks
70 140 280 420 560 700 Voks
100 200 400 600 800 1000 Voks
"mps
125
1.2
I
1.1
200
5.0
100
3.0
40.0
15.0
-65 to +175
~mps
Volts
lLA
!1A
lIS
pI
'cm
'c
1. Measured with IF =.5A. IR =1A, Irr = .25A.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths, with both leads mounted between heatsinks.
-360-
RATINGS AND CHARACTERISTIC CURVES G3A THRU G3M
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
e.:z
:'tl(I
W
0:
0:
a
1()(
llllllill
,I...........
8.3 mSec Single Half
Sine-Wave
(JEDEC) Method
w
~
'-"UJ
o:w
FIG. 1-FORWARD CURRENT DERATING CURVE
0:
0:
:::J
o
UJw
5:
0:
I
~
6t3
0Cl-
C
0:::;:
, 60Hz
RESISTIVE OR
o
II
Cl-
'" " '-
10
100
50
NUMBER OF CYCLES AT 60 Hz
INDUCTIVE LOAD
0.375" (9.Smm) LEAD LENGTHS
LL
W
'-"
-'
z
'0
~
.,
a:
o
I
I I
I
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
10
:::J
I
I
Z
Z
-
lao
/
LLCl-
@
50
10
REVERSE VOLTAGE. VOLTS
,
0:
0:
o
TJ - 2S'C
~
'0
~
,....~
FIG. 3- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
WUJ
UJW
Pulse Width = 30011 s
2% Duty Cycle
a: a:
1.0
>Cl-
•
WW
w::;:
O:Q.
.0'
.01
--
TJ
20
'0
=25
g
C
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLT AG E
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
INPUT
--r;=~:uSsl
INPUT
PULSE GENERATOR
HP MODEL 214
OR EQUIVALENT
J-C:sL
SQUARE WAVE
OUTPUT
CURRENT PROBE TEKTRONIX TYPE 134
OR eQUIVALENT TO OSCllLASCOPE
·367·
OUTPUT
-J"l
!;-=-bi1L
[ - 10%,
G11-1200 THRU G11-1600
MINIATURE GLASS PASSIVATED JUNCTION SILICON RECTIFIER
Voltage - 1200 to 1600 Volts
Current- 1,OAmpere
FEATURES
DO-204AP
.0341.86).
.0281.711
+
• High temperature metallurgically bonded cor
structed rectifiers
""",
• Glass passivated cavity- '~
free junction in DO-204AP package
~
• 1.0 Ampere operation at
~
TA =75'C with no thermal runaway
• TypicallR less than 0.1 ~ A
• Hermetically sealed package
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
Dimensions in inches and (millimeters)
• Brazed-lead assembly is covered by Patent No. 3,930,306
of 1976 and glass oomposition by Patent No.3,752,701
of 1973
Case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
60 Hz Resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA = 75'C
Peak Forward Surge Current 8.3ms single half sine
-wave superimposed on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
3.14A
Maximum DC Reverse Current TA= 25'C
at Rated DC Blocking Voltage TA = 100'C
Maximum Reverse Recovery Time (Note 1)
Maximum Forward Recovery Time (Note 2)
Typical Junction Capacitance (Note 3)
Typical Thermal Resistance (Note 4)
Operating Storage Temperature Range
SYMBOLS
Gll·1200
G11·1400
G11·1600
UNITS
VRRM
VRMS
Voc
1200
840
1200
1400
980
1400
1600
1120
1600
Volts
Volts
Volts
I(AV)
1.0
Amps
IFSM
30.0
1.1
1.3
10.0
100
25.0
1.0
15.0
40.0
-65to +175
Amps
VF
IR
TRR
TFR
CJ
ReJA
TJ,TsTG
NOTES:
1. Measured on Tektronix Type ·S· recovery plug-in Tektronix 545 Soape or equivalentlFM = 20 mA, IRM =2mA.
2. Measured on Tektronix Type 'S" recovery plug-in, Tektronix 545 or equivalent, IFM =20mA.
3. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
4. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths. P.C. Board Mounted.
-368-
Volts
j.LA
j.LS
j.Ls
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES GI1-1200 THRU GI1-1600
FIG. 2 - MAXIMUM NON REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 1 - FORWARD CURRENT
DERATING CURVE
~
50
W
C)CIl
a:W
::Ja:
CIlW
00.
a:::>
1.251-"....,,""'0:+-+--1
I-CIl
UW
~ ffil.00 I:--+""""~"""'''''''.-+-+--+--t---I
a:Z
... a:
"a:
«::J
wU
~~
~ 13
a:
10
«
" coVro
~I'-o
I
n
t--.r-,
i"- r....
err!' I'
i'-i'-
10
w
>
........
TJ = 175c G
At Rated Load I
a.
25
TJ~25'e
20
OW
Ow· 50
8.3ms Single Half Sine·Wave
(JEDEC Method)
At No Load
30
««
;;:r:
~~
« « .75 ~-+-~""",+1"'-a.;;~+--+--t---!
"'a:
wa:
40
~~
100
NUMBER OF CYCLES AT 60Hz
20
100
40
120
140
AMBIENT TEMPERATURE, °C
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
FIG. 3 - TYPICAL INSTANTANEOUS
FOWARD CHARACTERISTICS
30
..........
10
~
TJ=1500C
...
, ,
Co
ui
f= 1MHz
Vsig = 50mVp-p
10
U
Z
,I
a
t)l1lIII
I'~
«
IU
I
J
1
I
I
I
I
.6
-
f
10
TJ ~ 25°C
Pulse Width 300/152% Duty Cycle
1.0
I'
U
.0 1
.4
I
«
a.
«
TJ = 25 c C
1.2
1.4
REVERSE VOLTAGE, VOLTS
16
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5 -
TYPICAL REVERSE CHARACTERISTICS
PERCENT OF RATED PEAK REVERSE VOLTAGE
-369-
100
BY448 AND BY458
MINIATURE GLASS PASSIVATED JUNCTION
CLAMPER I DAMPER SILICON RECTIFIER
Voltage· 1200 to 1500 Volts
Current· 1.5 Amperes
GENERAL DESCRIPTION
These silicon Glass Passivated Clamper /
Damper Rectifiers are designed for TV Applications such as clamping circuits in horizontal
deflection systems and damper applications.
The glass passivated construction and Dual
Heat - Sink design assures reliable and
stable operation.
FEATURES
DO-204AP
.034 (.861 , ..028 ConI
• High temperature metallurgically bonded constructed rectifiers
• Glass paSSivated cavity- free junction in
DO-204AP package '<"'"
• 1.5 Ampere operation ""'"'_
at TA = 50'C with no ther- ~
mal runaway
• TypicallR less than 0.1 11 A
• Hermetically sealed package
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
Dimensions in inches and (millimeters)
• Brszs(J./ead assembly Is covered by PalBnt No. 3.930,306 of 1976
and glass composJtIon by Pal9nl No.3,752,701 of 1973
Case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, sok:\erable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting PosItion: Any
Weight: .02 ounce, .56 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Single phase, half wave, 50 • 50 Hz, resistive or inductive load..
For capacitive load, derate current by 20%.
SYMBOLS
BY458
BY448
Maximum Non Recurrent Peak Reverse Voltage
1400
1650
VRSM
Maximum Recurrent Peak Reverse Voltage
1200
1500
VRRM
Maximum DC Blocking Voltage
1200
1500
Voc
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA - 50'C
1.5
I(Av)
Peak Forward Surge Current 10ms single haH sine
-wave superimposed on rated load
30.0
IFSM
Maximum Instantaneous Forward Voltage at 3.0A
1.6
VF
Working Peak Forward Current at TA _ 75'C
4.0
IFWM
Peak Repetitive Forward Current at TA _ 75'C
8.0
IRFM
Maximum Peak Reverse Current TA-25'C
5.0
at Rated Peak Reverse Voltage TA= 140'C
200
IR
Maximum Reverse Recovery Time (Note 1) TJ = 140'C
20.0
TRR
Typical Junction Capacitance (Note 2)
15.0
CJ
Typical Thermal Resistance (Note 3)
40.0
ReJA
-65 to +150
Operating Temperature Range
TJ
-65 to +200
Storaae Temoerature Ranae
TSTG
NOTES: 1. Measured with IF = 0.5A, IR = 50ma. 2. Measured at 1 MHz and applied reveille voltage of 4.0 Vee.
3. Thermal Resistance from Junction to Ambient at .375"
(9.5mm) Lead Lengths, P.C. Board Mounted.
-370-
UNITS
Volts
Volts
Volts
Amps
Amps
Volts
Amps
Amps
I1A
!J.S
pI
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES BY448 AND BY458
FIG. 2 - MAXIMUM NON REPETITIVE
PEAKFOR~RDSURGECURRENT
50
W
(')(/l
a:W
:::Ja:
(/lW
FIG. 1 - FORWARD CURRENT
DERATING CURVE
150
W
u::
f=(/l
Uw
Wac
a:W
00..
a: 2
««
Sf-'
a:Z
OW
LLa:
wac
(')::J
«U
a:
w
i{
125
\.
100
\
"'"
20
10
-
5O~60Hz
t=lESISTIVE OR
INDUCTIVE l DAD'
0175" (95mm) t fAD LENGTHS
75
TJ-140'C "'" ...... .....
r-- ..... ....,..
10m'SINGUlN'
.... :--
SINE WAVE
I
III
\
50
25°C
AT RATED LOAD
50
25
O~
no load
30
0..
75
75
...
TI
00..
a: 2
««
Sf-'
a:Z
OW
LLa:
",a:
«:::J
wU
\
0
,,~
40
100
10
100
NUMBER OF CYCLES AT 60 Hz
1\
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
\
125
30
......
150
r"i"o
LL
AMBIENT TEMPERATURE, °C
10
Q
=
W
U
Z
_
~
_
TJ
1
VSICj
2')oC
lMHz
50mVp p
~
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
«
U
lO~m
10
/
50
I
11)0
REVERSE VOLTAGE, VOLTS
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
01
10
12
14
16
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
20
40
60
BO
100
'20
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
INPUT
INPUT
PULSE GENERATOR
HP MODEL 214
OR EQUIVALENT
_
-t
OUTPUT
200_
J.
«U
a:
w
>
«
2.0
........
TA = sooe
8.3ms SINGLE HALF
SINE-WAVE
1.5
(J~DEC ~eth~~) II
1.0
1
0.5
10
-100
NUMBER OF CYCLES AT 60Hz
25
SO
75
100
125
150
FIG. 4- TYPICAL JUNCTION CAPACITANCE
175
AMBIENT TEMPERATURE.'C
30
III If
~
"-
TJ '" 25°C
f = 1.0MHz
Vsig = SOmVp-p
.... 1-00
a.
W
10
U
Z
~
Z
w
~
"«
0
a:
a:
::>
U
o
~ en
3:w
a: a:
Ow
"-"en::;
::>«
ow
«
I-
FIG. 3- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
U
TJ = 150°C
1.0
/
V
TJ = 25°C
10
~
I
100
~
Z
w
a:
a:
::>
/
o. 1
FIG. 5- TYPI<;:AL REVERSE CHARACTERISTICS
10
IJ ~ 125'C
U
wen
enw
«
Iz
en
50
REVERSE VOLTAGE, VOLTS
Z
«
I-
5
a:
a:
w UJ
Pulse Width = 300j.l S
1% Duty Cycle
>"~~
.01
.4
.6
.8
1.0
1.2
1.4
1.6
..
enO
::>a:
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
aU
0.1
~::i:
.0'
«
.01
~
z
tiiZ
FIG. 6 -
1.0
TJ" 25
0
80
40
1(0
_ + 200l1F
~~60~'
1-+- 10 .... -
[l'
-10V
SQUARE WAVE
OUTPUT
CURRENT PROBE TEKTRONIX T.YPE 134
OR EQUIVALENT TO OSCILLASCQPE
-373-
to
14i
PERCENT OF RATED PEAK REVERSE VOLTAGE
REVERSE RECOVERY TIME CHARACTERISTIC AND TESl' DIAGRAM
HP MODEL 214
OR EQUIVALENT
I
~
0
",NPUT
INPUT
PULSE GENERATOR
-
e
BY228 SERIES
GLASS PASSIVATED JUNCTION
CLAMPER I DAMPER SILICON RECTIFIER
Voltage • 1500 Volts
Current· 2.5 Amperes
GENERAL DESCRIPTION
These silicon Glass Passivated Clamper I
Damper Rectifiers are designed for TV Applications, such as clamping circuits in
horizontal deflection systems and damper
applications. The glass paSSivated construc
tlon and Dual Heat - Sink design assures reliable and stable operation.
FEATURES
G3
t
25016.31
.110(4.31
'I
• High temperature metallurgically bonded constructed rectifiers
• Glass passivated cavityfree junction
• 2.5 Ampere operation
at TA =50'C with no thermal runaway
• TypicallR less than 0.1 IL A
• Hermetically sealed package
• Capable of meeting environmental standards of MIL-S-19500
• High temperature soldering guaranteed: 350'C/10
seconds/.375", (9.5mm) lead length at 5 Ibs., (2.3kg) tension
MECHANICAL DATA
case:
Dimensions in inches
and
(millimeters)
One piece glass, hermetically sealed
Tennlnals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .04 ounce, 1.1 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Single phase, half wave, 50 • 60 Hz. resistive or inductive load.•
For capacitive load, derate current b'f 20%.
SYMBOLS
BY228
Maximum Non Repetitive Peak Reverse Voltage
1650
VRSM
Maximum Recurrent Peak Reverse Voltage
1500
VRRM
1050
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
1500
Voc
Maximum Average Forward Rectified Current
.375', (9.5mm) Lead Lengths at TA = 50'C
2.5
I(AV)
Peak Forward Surge Current 10ms single hall sine
-wave superimposed on rated load
50.0
IFSM
Maximum Instantaneous Forward Voltage at 5.0A
1.6
VF
Working Peak Forward Current at TA = 75'C
5.0
IFWM
Peak Repetitive Forward Surge Current at TA = 75'C
10.0
IFRM
Maximum Peak Reverse Current TA=25'C
5.0
at Rated Peak Reverse Voltage TJ = 140'C
200
IR
Maximum Reverse Recovery Time (Note 1)
20.0
TRR
1.0
Maximum Forward Recovery Time (Note 3)
TFR
Typical Junction Capacitance (Note 2)
40.0
CJ
Typical Thermal Resistance (Note 4)
20.0
R8JA
Operating Temperature Range
-65 to +150
TJ
Storage Temperature Range
-65 to +200
TSTG
NOTES: 1. Measured with IF = 1.0A. IR = SOmA, dVdt = SOmA/lIS.. 2. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
3. Measured with IF = S.OA with tr - 0.1 lIS
4. Thennnal Resistance from Junction to Ambient at .37S' (9.Smm) Lead Lengths, P.C. Board Mounted.
-374-
UNITS
Volts
Volts
Volts
Volts
Amps
Amps
Volts
Amps
Amps
I1A
I1S
I1S
pi
'cm
·C
'C
RATING AND CHARACTERISTIC CURVES BY228 SERIES
FIG. 2 - MAXIMUM NON REPETITIVE
PEAK FORWARD SURGE CURRENT
f-
20.0
Z
W
a:
a:
:::>
U
W
('len
a:W
:::>a:
(f)W
ou.
a::;<
«
W
0.3
100
''""
0..1
FIG. 5 - MAXIMUM PEAK REPETITIVE
FORWARD SURGE CURRENT
0
J
Z
Z
50.
REVERSE VOLTAGE, VOLTS
OW
u..u.
en::;;
= 25°C
f.'.OMHz
...............;::. 6OmVp-p
ui
u
Z
W
a:
a:
:::>
50
lOa
en
f-f-
~z
~
0.3
il
0.4
0.2
06
50
wUJ
a: a:
",a:
«:::>
WU
u. o
::;;a:
I
0.1
-
UJ
>-'"
E~
0.8
1.0
1.2
1.4
16
:J~
~a:
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
Xo
I"'-r-o
T•• 7S·C
10
~u..
10
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
50.
100
DUTY CYCLE, PERCENT
OUTPUT
INPUT
PULSE GENERATOR
HP MODEL 214
OR EQUIVALENT
OUTPUT
CURRENT PROBE TEKTRONIX TYPE 134
OR EQUIVALENT TO OSClllASCOPE
I~
-375·
I
CG3AND DG3
GLASS PASSIVATED JUNCTION CLAMPER I DAMPER
SILICON RECTIFIER
Voltage - 1400 to 1500 Volts
Current - 3.0 Ampere
FEATURES
G3
.250 (6.3)
.170(4.3)
'I
Dimensions in inches
• Specially designed for clamping circuits horizontal deflection systems and damper applications
• High temperature metallurgically bonded constructed rectifiers
• Glass paSSivated
cavity-free junction
• 3.0 Ampere operation
at TA = SO'C with no
thermal runaway
• TypicallR less than 0.1 j.l.A
• Hermetically sealed package
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed:
3S0'C/10 seconds/.37S", (9.Smm) lead length at
Sibs., (2.3kg) tension
and
MECHANICAL DATA
(millimeters)
• Brazed-lead assembly is covered by
Patent No. 3,930,306 of 1976 and glass composition
by Patent No.3, 752, 701 of 1973
Case: One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .04 ounce, 1.1 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless othelWise specified.
60 Hz, resistive or inductive load. For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.37S", (9.Smm) Lead Lengths at TA = SO'C
Peak Forward Surge Current 8.3ms single half sine
-wave superimposed on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 3.0A
Maximum DC Reverse Current TA= 2S'C
at Rated DC Blocking Voltage TA = 100'C
Maximum Full Load Reverse Current Full Cycle
Average, .37S", (9.Smm) Lead Length
TA = 70'C
Maximum Reverse Recovery Time (Note 1) TJ = 2S'C
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Oceratina Storaae Temcerature Ranae
SYMBOLS
eG3
003
UNITS
VRRM
VRMS
Vee
1400
980
1400
1500
10S0
IS00
Voks
Volts
Volts
I(AV)
3.0
Amps
IFSM
VF
100
1.2
S.O
100
Amps
Volts
IR
IR(AV)
TRR
CJ
RaJA
TJTsTG
NOTES:
200
1S.0
ItA
20.0
4.0
20.0
-6Sto +17S
1. Measured with IF =0.5A, IR = 50mA.
2. Measured at 1 MHz and applied reverse voltage of 4.0 Voe.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
-376-
I1A
I1S
pI
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES CG3 AND DG3
f-
Z
TA = 50°C
8.3ms SINGLE HALF-SINE WAVE
(JEDEC Method)
0:
0:
::J
f-
a:i
0:
0:
::J
o
o
FIG. 1- FORWARD CURRENT DERATING CURVE
o:w
~ ffi
4
~ E5
0:
S
3
"'
2
00..
0::;0
~-'
J
0)
TJ~2S'C-
PULSE WIDTH'" 300Ms
1% DUTY CYCLE
()
WUJ
UJW
WW
>0..
W:;O
tilz
1O~~~
4
O:
>-'
- -""
!ooo.
50
00..
0::;0
FIG. 1 - FORWARD CURRENT
DERATING CURVE
w
0:
0:
:::>
1.00
"-
U
0
w
iL
.75
1=",
Uw
wo:
O:W
~m
Ul:;;
5<
2% Duly Cycle
~
r\
25
RESISTIVE OR
INDUCTIVE LOAD
0.375"' (9 5mm) LEAD LENGTHS
Cl
<
0:
Pulse Width = 300 I.l. S
-.i
0.'
TJ "25°C
w
«
~
L
1.0
~ffi
u..Q.
\
0::;;
0
u..
W
o
c:r
~
.50
011.
U
W
~
.0'
ti
r\
.8
.8
.4
~
u
'.2
1.0
'.8
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
>
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
<
20
AMBIENT TEMPERATURE, ·C
w
8.3ms SINGLE HALF
HALF-WAVE
U
wUl
UlW
0:0:
wW
>11.
w:;;
¥EDEC METHOD)
t'-. to...
TJ" '25·C
0:
0:
:::>
30
55°C
A,=
10
...:
z
FIG. 3 - MAXIMUM NON-REPETITIVE
SURGE CURRENT
"
'.0
0:<
",0
:::>0:
I"'- r--.
I
TJ" 75°C
,
ou
~:E
;!:
z
~
L
0.'
<
I-
'"~
0
4
6
8
10
20
40
60 80 100
NUMBER OF CYCLES AT 60 Hz
.0'
~
20
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
30
u..
Q.
'0
W
r----""
TJ
!
TJ ",25.C t - -
'"
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
II
25!CI
soo
'00
NONINDUCTIVE
NON INDUCTive
+05"
U
Z
<
DVT
I-
l\
J
_ 60Vdc
0
-
<
11.
<
U
,
,
1/
lappro_.
- 0.25
10
f.1MHz
NONINDUCTIVE
V.IS • 50mVp·p
OSCilLOSCOPE
INOTE I)
J
1 1 1 111111
'0
50
REVERSE VOLTAGE. VOLTS
,ac
NOTES 1 Rise Time = 711& maJi
1 megohm. 22pF
2 Rise Time = 10ns mall Source Impedance '"
50 ohms
·381·
~ l./
- , 0
f---
---l
tem
SET TIME BASE FOR
5OI100nalcm
1N5615 THRU 1N5623
MINIATURE GLASS PASSIVATED JUNCTION
FAST SWITCHING RECTIFIER
Voltage - 200 to 1000 Volts Current - 1.0 Ampere
FEATURES
• High temperature metallurgically bonded
constructed rectifiers
• Glass passivated cavity-free junction in a
DO-204AP package,
• 1.0 Ampere operation "".~
at TA = 55'C with no
.~
thermal runaway
~•
• TypicallR less than 0.1 ~ A
'~
• Capable of meeting environmental standards of
MIL-S-19500
• Fast switching for high efficiency
• High temperature soldering guaranteed: 350'C/1 0
seconds/.375", (9.5mm) lead length at 5 Ibs.,
(2.3kg) tension
DO-204AP
.034 1.86) , +
•0281.71l
.150[3.8) ,
.090(2.3)
I
MECHANICAL DATA
Dimensions in inches
and
(millimeters)
• 8raz9d4ead assembly is COV9/'ed by Patent No. 3,930,306 of t976 and
glass composillon by Patent No.3,752,70t of 1973
case: One piece glass, hermetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS lN5615 lN5617 lN5619 lN5621
"Maximum Recurrent Peak Reverse Voltage
Maximum RMS VoHage
"Maximum DC Blocking Voltage
"Minimum Avalanche Breakdown VoHage at 50 11 A
"Maximum Average Forward Rectified Current
.375', (9.5mm) Lead Lengths at TA - 55'C
"Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
"Maximum Instantaneous Forward Voltage at 1.0A
"Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA-100'C
TA =200'C
"Maximum Reverse Recovery Time (Note 1)TJ=25'C
"Maximum Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 4)
"Operating Temperature Range
"Storage Temperature Range
VRRM
VRMS
Voc
VBR
200
140
200
220
400
280
400
440
600
420
600
660
800
560
800
880
lN5623
UNITS
1000
700
1000
1100
Volts
VoHs
Volts
Volts
I(AV)
1,0
Amps
IFSM
50,0
1.2
0.5
25.0
1500
150
250 I 300
35
25
20
50.0
-65 to +175
-65 to +200
Amps
Volts
VF
IR
TRR
CJ
RaJA
TJ
TSTG
150
45
NOTES:
1. Reverse Recovery Test Conditions: IF = O.5A, IR = 1.0A, Irr = 25A.
2. Measured at 1 MHz and applied reverse voltage of 12 volts.
3. Available to JAN and JAN TX Military Specifications MIL-S-19500/429.
4. Thermal Resislance from Junction to Ambient at .375" (9.5mm) Lead Lengths, P.C. Board Mounted.
'JEDEC Registered Values
-382-
I
~
500
15
ns
pi
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES 1N5615 THRU 1N5623
FIG.2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
Z
10
w
~
Z
a:
a:
::J
FIG. 1 - FORWARD CURRENT
DERATING CURVE
W
a:
a:
::J
o
o
a:
1.00
o
"1\1\
o
W
u::
.75
§ffl
Wa:
a:W
fi ~50
<{<{
!:
a:
.25
ou..
RESiSTIVE
OR INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
W
C!l
<{
o
a:
W
>
<{
25
/
1.0
~ill
,
a: a:
Ow
u..o..
If
en::;
::J <{ 0 1
ow
Z
TJ 25 C
Pulse Width 300/.15
2°0 Duty Cycle
<{
f-
I
Z
~
\
01
.6
en
10
, 2
14
16
~
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
AMBIENT TEMPERATURE. 'C
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
20
FIG. 3 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
"
10
~
Z
8 3ms SINGLE HALF
SINE-WAVE
JEDEC METHOD
i'..
..,;
::>
~~
"-
a: a:
1.0
w::;
TJ
a:<{
enO
::Ja:
<{
~
01
f-
..,
Z
10
f-
en
100
./
Z
NUMBER OF CYCLES AT 60 Hz
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
30
FIG. 6 1
.... 1"-
TJ
25~C
I
25f
-
i---
20
40
60
80
100
REVERSE RECOVERY TIME CHARACTERISTIC
.AND TEST CIRCUIT DIAGRAM
100
50"
NONJNDUCTIVE
NONINOUCTI VE
+ OSA
0
Z
<{
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
I I I
10
TJ
/"'1
Co
75C==
/"
<{
u..
I
>0..
~
~~
ui
-
125 C_
ww
00
.......
TJ
o
T".55"C
i'
.-
w
a:
a:
1,,\
DVT
f-
G
/
150Vd(
<{
lapprox I
0..
025
<{
0
10
NON·
INDUCTIVE
1.1.oMHz
Vsig • 60m Vp-p
10
REVERSE VOLTAGE. VOLTS
100
OSCILLOSCOPE
(NOTE I)
NOTES 1 Rise Time" 7ns max. Input Impedence "
1 megohm, 22 pF.
2. Rise Time" tOns max. Source Impedance
50 ohms.
-383-
10
~
-----11
'\
\
j
/
./
cm~ SET TIME BASE FOR
SO/lOOns/em
RG1 A THRU RG1 M
MINIATURE GLASS PASSIVATED JUNCTION
FAST SWITCHING RECTIFIER
Voltage- 50 to 1000 Volts Current- 1.0Ampere
FEATURES
• 034 (,86) ,
.028 (,71)
• High temperature metallurgically bonded
constructed rectifiers
• Glass paSSivated cavity-free junction in a
DO-204AP package .•.
• 1.0 Ampere operation •••,.~.
at TA =SS'C with n o - . .•
thermal runaway
..~~
• TypicallR less than 0.1 1.1 A
,
• Capable of meeting environmental standards of
MIL-S-19S00
• Fast switching for high efficiency
• High temperature soldering guaranteed: 3S0'C/10
seconds/.37S", (9.Smm) lead length at Sibs.,
(2.3kg) tension
+
MECHANICAL DATA
case: One piece glass, hermetically sealed
Dimensions in inches
and
(millimeters)
• 8raz9lJ./Bad I/$ssmb/y I. covered by Patent No. 3,930,306 of 1976 and
gll/$' composition by Parent No.3,752,701 of 1973
Tennlnals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .S6 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. For capacitive laod, derate current by 20%.
SYMBOLS RGIA RGIB RGID RGIG RGIJ RGIK RGIMUNITS
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current, .375"
(9,5mm) Lead Length at TA = 55'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.OA
Maximum Full Load Reverse Current,
Full Cycle Average, .375", (9.5mm)
TA=25'C
Lead Length at
TA= 100'C
Maximum DC Reverse Current
at Rated DC Blocking VoUage
Maximum Reverse Recovery Time (Note 1) TJ .. 25'C
Typical Junction Capac~ance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50 1100120014001600180011000 Voks
VRMS 35 1 70 1140 1280 1420 1560 17QO Voks
Voc 50 1100 1200 1400 1600 1 80011000 Voks
I(AV)
1.0
~mps
IFSM
VF
30
1.3
~mps
Voks
IRIAVl
1.0
100
I1A
IR
TRR
CJ
RaJA
TJ.TsTG
NOTES:
1200 1250 1500
15.0
50.0
-6510 +175
1. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, Irr = .2SA.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375" (9.Smm) Lead Lengths, P.C. Board Mounted.
-384-
I1A
2.0
150
ns
pf
'CMf
'C
RATINGS AND CHARACTERISTIC CURVES RG1A THRU RG1M
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
30
I-'
zW
0::
0::
::>
FIG. 1 - FORWARD CURRENT
DERATING CURVE
o
W
u::
U (/)
1.0 ....-.,...-""'~r---,r::::===;:---,
Ww
~~
o::w .B~-+--~~~~r-~r--1--~
'
O
2f----f---f---ii--i---i---""IIk--I
LL
6
0::
H 1()
~
125
150
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
.-:
z
10
.,..,.,
20
W
0::
0::
::>
W
0::
0::
::>
10
0::
~~
0::0::
/
10
TJ =
W(J)
(J)W
25~C
"-0..
(J)::;;:
::>0::
J
0.1
00
'.uZ::;;:
Z
Rise Time
500hrrls
-385-
T"
(NO! f /j
I_I
o
1~
120
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
50!!
NONINUUCIIVf-
25°C
10
IJ
F=
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG.5 - TYPICAL JUNCTION CAPACITANCE
111
I
.......
01
0..
W::;;:
O::0..
i=(J)
~.-:
f'.-
l(Jlls max
Input InlIJl!d.lrlc"
Suurc",
IlTIpf~ClrH1(:f'
--
-,
1/
i'-V
1 U tl
_
-
--
---l!r I--- ~A ;1):111~,11 ;;~;>!
It,
f OH
BYV95 AND BYV96 SERIES
MINIATURE GLASS PASSIVATED JUNCTION
FAST SWITCHING RECTIFIER
Voltage - 200 to 1000 Volts Current- 1.5 Amperes
FEATURES
*
DO·204AP
.034 1.861
I
+
.028 ('7l)
• High temperature metallurgically bonded
constructed rectifiers
• Glass passivated cavity-free junction in a
DO-204AP package .
• 1.5 Ampere operation .•..••,."
at TA =55'C with no
"
thermal runaway
<~
• TypicallR less than 0.1 11 A
"'-.
• Capable of meeting environmental standards of
MIL-S-19500
• Fast switching for high efficiency up to 100 KHz
• High temperature soldering guaranteed: 350'C/10
seconds/.375", (9.5mm) lead length at 5 Ibs.,
(2.3kg) tension
MECHANICAL DATA
case: One piece glass, hermetically sealed
Dimensions in inches and (millimeters)
• Brazed-/ead I18Semb/y /s covered by Patent No. 3,930,306 of 1976
and 9/118S composition by Patent No.3,752,701 of 1973
Terminals: Axial leads; solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS' BYV95A BYV95B BYV95C BYV96D BYV96E UNITS
Maximum Recurrent Peak Reverse Voltlige
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Avalanche Breakdown Voltage at 100 IJ. A
Maximum Average Forward RectHied Current
.375", (9.5mm) Lead Lengths at TA" 55'C
Peak Forward Surge Current '10ms single hall sinewave superimposed on rated load
Maximum Instantaneous Forward
TA = 25'C
Voltage at 3.0A
TJ = 165'C
Maximum Full Load Reverse Current,
Full Cycle Average, .375", (9.5mm) TJ = 25'C
Lead Length at
TJ= 165'C
Maximum DC Reverse Current,
at rated DC Blocking Voltage
Maximum Reverse Recovery Time (Note 1)TJ" 25'C
Typical Junction Capacnance (Note 2)
Typical Thermal Resistance (Note 3)
Operating Temperature Range
Storage Temperature Range
VRRM
VRMS
Voc
VBR
200
140
200
300
400
280
400
500
600
420
600
800
800
560
800
900
1000
700
1000
1100
Voks
Volts
Volts
Volts
I(AV)
1.5
Amps
IFSM
35.0
Amps
VF
1.6
1.35
Volts
IR(AV)
1.0
150
IJ.A
IR
TRR
CJ
RaJA
TJ
TSTG
2.0
300
250
10.0
50.0
-65 to +175
-65 to +200
NOTES: 1. Measured with IF = 0.5A, IR = 1.0A, Irr = .25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0.Voc.
3. Thermal Resistance from JuncilOn to Ambient at .375' (9.5mm) Lead Lengths, P.C. Board Mounted.
-386-
JIA
ns
pI
'cm
'C
'C
RA TlNG AND CHARACTERISTIC CURVES BYV95 AND BYV96 SERIES
FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
"'\
FIG. 1 - FORWARD CURRENT
DERATING CURVE
r:
zw
cr:
a:
::l
U
o
2.0
u:
5~
wa:
1.5
0
1"1'
5
w
""
a:w
~~
1.0
~
0.5
.0:«
u..
~
~
"'I'-
5
""
""
o
w
~
25
50
75
100
125
150
10
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
20
10
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
zw
Z
a:
a:
::l
U
W Ul
UlW
U
a:
~ffl
a: a:
~~
Ul:::;;
::l«
a
~
T.I '" 1000~/
1
--
f--
w
a:
a:
::l
0
o
/
0
.,
'I
100
NUMBER OF CYCLES AT 60HZ
175
AMBIENT TEMPERATURE, °C
r:
I"-
0
0375". (9.smm) LEAD LENGTHS
a:
~
0
~E~~S6ii~EOL~O
w
T, '" 25°C
L
WW
>ll-
W:::;;
a:«
UlO
::la:
II
0",
~:::;;
o. 1
~
~
T,
125"C
T,
75"C
0.1
"
V
Ul
T,
~
rn
:;;;::
Pulse . .~/ld!h 300/~s
2% Duly.Cycle_
I
:;;;::
./
.0 1
.6
1.0
.8
1.2
1.4
1.6
.01
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
20
25°~
u..
10
U
Z
.-
40
60
80
100
120
140
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
T).UIII\
~"'"
IJ
~
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
30
"
I
I
Z
~
r--
1.0
a: a:
z
~
ITJ!llllll:
10ms SINGLE HALF
SINE WAVE
5~1
f = lMHz
Vsig = 50mVp-p;
I-- Irr
lilll
NQNINDUCTIVE
NONINDUCTIVE
+0 SA
~
50Vdc
C3
H
~
1
OUT
u
rt
--
L
(+)
02 5
(approx.)
H1
NONINOUCTIVE
OSCILLOSCOPE
(NOTE I)
1
10
50
REVERSE VOLTAGE, VOLTS
100
NOTES· 1. Rise Time = 7ns max., Input Impedance '"
1 megohm, 22pF
2 Rise Time = IOns max Source Impedance '"
50 ohms.
-387-
,'.L
\
SET TIME BASE FOR
50 lOOns em
RG2ATHRU RG2M
MINIATURE GLASS PASSIVATED
JUNCTION FAST SWITCHING RECTIFIER
Voltage - 50 to 1000 Volts
Current- 2,0 Amperes
FEATURES
• High temperature metallurgically bonded
constructed rectifiers
• Glass passivated cavity-free junction in a
DO-204AP package "
• 1.0 Ampere operation .' ••~
atTA = 55'Cwith no
~
thermal runaway
~
• TypicallR less than 0.1 ~ A
~..
• Capable of meeting environmental standards of
MIL-S-19500
• Fast switching for high efficiency
• High temperature soldering guaranteed: 350'C/10
seconds/.375", (9.5mm) lead length at 5 Ibs.,
(2.3kg) tension
DO-204AP
.034 (.86).
.028 (.m
4-
.:!WML.I
.090(2.3)
MECHANICAL DATA
case: One piece glass, hermetically sealed
Tennlnals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .02 ounce, .56 grams
Dimensions in inches
and
(millimetefs)
• 8razsrUead assembly Is covsrsd by Pawn! No. 3,930,306 of 1976 and
gless composlllon by Pa1rml No.3,752,701 of 1973
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise speoified.
Single phase,half wave, 50Hz, resistive or inductive load.
SYMBOLS RG2A RG2B RG2D RG2G RG2J RG2K RG2M UNITS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375', (9.5mm) Lead Lengths at TA e 55'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 2.0A
Maximum Full Load Reverse Current
Full Cycle Average, .375", (9.5mm)
TA=25'C
TA-100'C
Maximum DC Reverse Current,
at Rated DC Blocking Voltage
Maximum Reverse Recovery Time (Note 1) TJ - 25'C
Typical Junction Capacitance (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50 110012001400 1600 1800 [1000 Volts
VRMS 35 1 70 1140128014201560 1700 Volts
Voc 50 110012001400 1600180011000 Volts
I(AV)
2.0
Amps
IFSM
VF
50.0
1.3
Amps
Volts
IR(AV)
1.0
100
IIA
IR
TRR
CJ
RaJA
TJ,TSTG
I 200 I 250
15.0
50.0
-65 to +175
NOTES:
1. Measured with IF =O.SA, IR = 1.0A, Irr =25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths, P.C. Board Mounted.
-388-
J.tA
5.0
150
1500
ns
pi
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES RG2A THRU RG2M
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
...Z
20
W
...z
W
0:
2.0
0:
0:
0:
FIG. 1 - FORWARD CURRENT
DERATING CURVE
:::>
,.....-"'I<:"-......-....,.--,--r---,
o
",
10
o
0:
~ffl1.0
i3
ow
t5ffi
1.5 I--P","",'k-~:t--+-+--;
u::
t5ffl
~ ffi
Oil.
10
lLll.
en::!:
:::>«
oW
Z
«
!z«
t-
t--+--+"""",~~-'
«
50
75
100
125
150
Pulse Width - 300/-18
2% Duty Cycle
I
0.1
en
w
W
TJ = 25°C
.6
.8
1.2
1.0
1.4
1.6
1.8
2.0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
175
FIG. 4 -
AMBIENT TEMPERATURE, 'C
TYPICAL REVERSE CHARACTERISTIC
20
10
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
50
W
c:Jen
o:W
:::>0:
enw
Oil.
o:::!:
««
:::...O:Z
oW
LLO:
,.:0:
«:::>
wO
Il.
...Z
W
0:
0:
:::>
0
wen
enW
0:0:
WW
>Il.
W::!:
0:«
enO
:::>0:
00
WZ::!:
«
,~
40
~
30
........
. . . r-.
20
10
1.0
0.1
t-
TA - 55"C
8.3ms Single Half
Sine-Wave (JEDEC Method)
-
«
ten
~
681020406080100
.01
I
TJ = 75°C
J
~
,
20
i"'"
40
"'"
60
TJ'" 25"C
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
'IG. 5 - TYPICAL JUNCTION CAPACITANCE
30
a.
u.i1O
..,
Z
NUMBER OF CYCLES AT 60 Hz
lL
TJ - 125"C
"
~
FIG. 5- REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
...........
50 I!
TJ = 25"C
..... 1"-
NONINOUCTIVE
1O!!
NONINDUCTIVE
f+ 05A
U
I,
-1
i\
Z
~
i3
~
I+I
5
_
-
«
u
O.U.T.
50 Vdc
/
-025
(apprOK)
I-I
111
NON
INDUCTIVE
f.l.0MHz
OSCILLOSCOPE
INOTE 11
VSIG = 50mVp-p max.
5
10
-lOA
50
REVERSE VOLTAGE, VOLTS
100
NOTES', Rise Time .0 7ns ma)( Input Impedance
1 megohm. 22pF
2 Rise Time _ tOns ma~ Source Impedance.
50ohf'1s
-389-
I
1"-V
--11cmr-- ~A~(I~~r~. .f-, ;:.ASE F-OJ-1
BYW32 THRU BYW36
MINIATURE GLASS PASSIVATED JUNCTION
FAST SWITCHING RECTIFIER
Voltage - 200 to 600 Volts
Current- 2.0 Amperes
FEATURES
• High temperature metallurgically bonded
constructed rectifiers
• Glass passivated cavity-free junction in a
DO-204AP package "<
• 2.0 Ampere operation '<"~
at TA =55'C with no
thermal runaway
• TypicallR less than O. 1 ~ A
'
• Capable of meeting environmental standards of
MIL-S-19500
• Fast switching for high efficiency
• High temperature soldering guaranteed: 350'C/10
secondsl.375", (9.5mm) lead length at 5Ibs.,
(2.3kg) tension
DO-204AP
.034 (.86) • +
.028 (.71)
.150 (3.8)
.090(2.3)
.1
MECHANICAL DATA
Dimensions in inches and (millimeters)
'Brazed-lead assf1l71b/y is covsred by Palllnr No. 3,930,306 of 1978
and glass composition by Palllnr No.3,752,701 of 1973
case: One piece glass, hermetically sealed
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting PosUlon: Any
weight: .02 ounce, .56 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS BYW32 BYW33 BYW34 BYW35 BYW36
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Lengths at TA ~ 55'C
Peak Forward Surge Current
1Oms single haH sine-wave superimposed
on rated load at TA = 25'C
Maximum Instantaneous Forward Voltage at I.OA
Maximum DC Reverse Current
at Rated DC Blocking Voltage
Maximum Full Load Reverse Current
Full Cycle AVerage, .375', (9.5mm)
TA = 25'C
Lead Length
TA=100'C
Maximum Reverse Recovery Time (Note 1) TJ = 25'C
Typical Junction Capac~ance (Note 2)
Typical Thermal Resistance (Note 3)
Operating Temperature Range
Storage Temperature Range
VRRM
VRMS
Voc
200
140
200
I
I
I
300
210
300
I
I
I
400
280
400
I
I
I
500
350
500
I
I
I
600
420
600
UNITS
Volts
Volts
Volts
IfAV)
2.0
Amps
IFSM
VF
40.0
1.2
Amps
Volts
IR
5.0
fJA
IRfAV)
TRR
CJ
ReJA
TJ
TSTG
5.0
50.0
200
15.0
50.0
-65 to +175
-65 to 200
NOTES:
1. Measured with IF = O.SA, IR = 1.0A, Irr = 25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375' (9.Smm) lead Lengths, P.C. Board Mounted.
-390-
IIA
ns
pI
'CIW
'0
'0
RATING AND CHARACTERISTIC CURVES BYW32 THRU BYW36
FIG. 1 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 2 - FORWARD CURRENT
DERATING CURVE
>-'
Z
W
a:
a:
I'
:::l
U
oW
15
u::
>=U)
t\.
1\
UW
Wa:
a:W
O~
a:«
~
a:
oLL
\
05
RESISTIVE OR
~
a:
W
10
12
25
~
16
14
r\
INDUCTIVE LOAD
0375" (95mm) LEAD LENGTHS
W
50
75
100
125
150
175
AMBIENT TEMPERATURE, °C
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
FIG. 4 - MAXIMUM NON·REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 3 - TYPICAL JUNCTION CAPACITANCE
30
LL
Cl
10
50
I
" ....'"
T'e
1sod
W
(ClUJ 40
a:W
:::la:
UJW
0"- 30
a::;;:
««
5:>-'
a:Z
OW 20
LLa:
"a:
«:::l
wU 10
"-
W
.0
Z
r!
u
c::
«
U
f". roo"",
........
I
10
50
100
I2
LL
810
20
son
lon
NI.
N.I.
1'-
+ SA
OUT
W
1\
1+"'''-'
II
Z
o
~
5O'Vdc
Stalld.-lf(1 Recovorv
-.25A
(APPROX)
(-I
U
u::
>=
U
I Q
OSCILLOSCOPE'--r;--;--'
NI
NOTE 1
-l.oA
W
a:
NOTES
10
100
FREQUENCY kHZ
1000
40
60 80100
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
r-rrrrTT1'1r--rTlinTr-r-rnnrm
I ~~!~t R~Jov~'r~
~ 10+-~++""r-~~~~~HHmffi
~
6
NUMBER OF CYCLES AT 60 Hz
FIG. 5 - TYPICAL RECTIFICATION
EFFICIENCY
G
~~;,:'~~d'ol
4
REVERSE VOLTAGE. VOLTS
I:
..
TA = 25°C
1 RISE TIME = 7nSEC MAX. INPUT IMPEDANCE", 1 MEGOHM, 22pF
2 RISE TIME = 10nSEC MAX. SOURCE IMPEDANCE = 50 OHM
·391·
1\
I'Ll
1N5415 THRU 1N5420
FAST SWITCHING GLASS PASSIVATED
SILICON RECTIFIER
Voltage - 50 to 600 Volts Current - 3.0 Amperes
FEATURES
•
•
•
•
Glass passivated cavity-free junction
High temperaturae metallurgically bonded
Hermetically sealed package
Capable of meeting "''''
environmental
standards of
MIL-S-19500
• Fast switching for
high efficiency
• High temperature soldering guaranteed:
350'C/10 seconds/.375", (9.5mm) lead length
at 5 Ibs., (2.3kg) tension
.042 (1.07), ..038 (.962)
MECHANICAL DATA
Dimensions in inches and (millimeters)
'Srazed.Jead assembly is covered by Patent No. 3,930,306 011976
and glass composition by Patent No.3,752,701 01 1973
case: One piece glass, hermetically sealed
·Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .037 ounce, 1.04 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS 1N5415 1N5416 1N5417 1N5418 1N5419 1N5420 UNITS
'Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Vohage
VRMS
'Maximum DC Blocking Voltage
Voc
'Minimum Reverse Breakdown Voltage at SO IL A
VBR
'Maximum Average Forward RectHied Current
.37S", (9.5mm) Lead Lengths at TA = 55'C
I(AV)
Peak Forward Surge Current
8.3ms single ha~ sine-wave superimposed
on rated load (JEDEC Method) at TA = 100'C
IFSM
Maximum Instantaneous Forward Voltage at 3.0A'
at9.0A
VF
Maximum DC Reverse Current
'TA= 25'C
at Rated DC Blocking Voltage
TA= 100'C
'TA= 175'C
IR
'Maximum Junction Capacnance (Note 2)
CJ
'Maximum Reverse Recovery Time (Note 1) TJ = 25'C
TRR
Typical Thermal Resistance (Note 4)
ReJA
'Operating and Storage Temperature Range
TJ,TsTG
SO
3S
SO
SS
100
70
100
110
200
140
200
220
400
280
400
440
SOO
3S0
SOO
SSO
3.0
200
80.0
1.10
1.S0
1.0
20.0
2.0
1175 1150
120 1110
150
.1250
17.0
-65 to 175
NOTES:
,
1. Reverse Recovery Test Conditions: IF = 0,5A, IR = 1.0A, Irr = 25A,
2. Measured atl MHz and applied reverse voltage of 12.0 volts.
3. Available to JAN and JAN TX Military Specifications MIL-8-19500/411 D.
4. Thermal Resistance from Junction to Ambient at .375" (9.5mm) Lead Lengths, with both leads to heat sink.
'JEDEC Registered Values
-392-
600
420
600
660
Volts
Vohs
Volts
Volts
Amps
Amps
Vohs
!LA
I
100
400
ILA
rnA
pI
ns
'cm
·C
RATINGS AND CHARACTERISTIC CURVES 1N5415 THRU 1N5420
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
200
FIG. 1 0-:
zw
FORWARD CURRENT DERATING CURVE
4.0
rr
rr
~-
l!ffi
rr"-
~~
3.0
""",1.0
50
100
125
150
....
10
5
FIG. 4 -
,..
u..
"W
U
z
/
10
TYPICAL JUNCTION CAPACITANCE
50
0
ct
F~
::0
1/
0
rr
"'::;,
::0«
T - 2 °C
Pulse Idth - OOp.s
2% 0 Y Cycle
/
10
1
'Hz
VSiG =
Om
-p
~a
10
5
FIG. 5 -
0.5
30
z
20
W
1
0.1
'"~
rrrr
Ww
>"w::;'
rr«
",0
::orr
OU
I
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
son
(+)
10n
NON INDUCTIVE
+O.5A
pVT.
50Vdc
.::. (approx.)
H
,,
'"
--
l/?
=
OSCILLOSCOPE
(NOTE 1)
NOTES- 1. Rise Time = '"Ins max. Input Impedance =
1 megohm, 22pF
':"
2. Rise Time = 10ns max. SOurce Impedance = 50 ohms
I
1.0
~
we
T,
z::O
-0
01
I..,...
I
-1.0
~~
>",rr
",fr
-0.25
NONINDUCTIVE
TJ
~~
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
NON INDUCTIVE
100
.,..
w'"
",w
.01
50
TYPICAL REVERSE CHARACTERISTICS
10
05
FIG. 6 -
10
REVERSE VOLTAGE, VOLTS
0
>"'
Z
>"'
100
100~~
«
U
0
~f3
50
>"'
5.0
rrrr
Ow
u.."-
10
NUMBER OF CYCLES AT 60Hz
Z
W
rr
rr
I--.
200
TYPICAL INSTANTANEOUS FORWARD CHARACTERISTICS
50
,_:
"
175
AMBIENT TEMPERATURE, °C
FIG. 3 -
--r-
10°C
T.
E
"-
............
75
8.3ms INGL H L
SINE-W VE J -DE
25 e
rrz
Ow
u..rr
",rr
«::0
wU
x 0,8" x .040'''
0.375 (9.Smm LEAD L NGTH
25
T,
50
~~
5'0-:
i'--..
D
~NC~~" +~~E~~
rr
W
~
100
0"-
"",mm x 20mm x 1 mm Gu)-
2.0
W
0
6~3~~~ 9.5mm) ~~ADL
0
<::!
25
0
........
NGTHS
75
50
~
100
125
~
150
175
10
AMBIENT TEMPERATURE, 'C
10
50
100
NUMBER OF CYCLES AT 60 Hz
FIG. 3-TYPICAL JUNCTION CAPACITANCE
100
aa
FIG. 4- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
......
50
30
~
ui
o
z
~
............... i'-o..
~
t§
10
.. ~
a::
f.1.0~Hz
:l
o
Vsig • SOm Vp-p
30
I
o
a::
10
~w
100
50
offi
ILIl.
REVERSE VOLTAGE, VOLTS
10
@
TYPICAL REVERSE CHARACTERTISTICS
I
03
~
20
V'"
TJ = 25°C
w
a:
a:
:l
,
.,
0
wen
enw
a:
a:
WW
>Il.
V
01
0.2
.10
en
~
,
.01
"
20
I
I I
0.4
Pu se Widt
lOU
NON INDUCTIVE
NON INDUCTIVE
_
-
0.6
0.8
1.0
1.2
D.ur
(+1
50 Vdc
,
['\
/
-0.25
(approx.)
111
NONINOUCTIVE
80
100
PERCENT OF REVERSE
PEAK VOLTAGE
1.4
f-- t,,---I
+O.5A
~
I~I
60
300~
1.6
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
5011
.....
40
=:
% Duty Cycle
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
.)1
<
I-
I
IJ
"
~:E
Z
-10( C
I
03
FIG. 6 -
00
.<
I-
<
I I
1
~
.".,.
i"""
I
I
to
,
/'
1.0
w:;
a:<
enO
:la:
Z
I
I
Z
1.0
J "25°
en:::;:
:l<
~
Z
I
i/ /
<
I
Q.
~
I
0::
10
UJ
oj
o
1m
~
100
~
.........
f.l.0MHz
V,lg .60MV['P
100."
6
10
)
>'1
0
~
6
Z
i'o
i l l 111111
4
0::
4
::J
./
()
2
LU
20
40 60 100
LU
UJ
REVERSE VOLTAGE, VOLTS
.0 1
0.4
TJ ° 125°C_f-
:E
I\, l/
-4 em ~
SeT TIME BASE FOR
SO/l00ns/em
BYW72 THRU BYW76
FAST SWITCHING GLASS PASSIVATED
SILICON RECTIFIER
Voltage· 200 to 600 Volts
r
Current- 3.0 Amperes
FEATURES
t
.250 16.3) ,
.17014.3)
I
.05211.3) ,
.04811.2)
4-
• High temperature metallurgically bonded
constructed rectifiers
• Glass passivated cavity-free junction
• Hermetically sealed package
• 3.0 Ampere operation
at TA = 45'C with
no thermal runaway
• TypicallR less than 0.1 ~ A
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed 350'C/10
seconds/.375", (9.5mm) lead length at 5 Ibs.,
(2.3kg) tension
MECHANICAL DATA
Dimension in inches
and
(millimeters)
• Brazed-/sad assembly Is covered by Pal9nt No. 3,930,306 of 1978
and glass composition by Pal9nt No.3,752,701 of 1973
case:
One piece glass, hermetically sealed
Terminals: Plated Axial leads, solderable per
MIL-5TD-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .04 ounce, 1.lgram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperabJre unless otherwise specified.
Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS BYW72 BYW73 BYW74 BYW75 BYW76 UNn"S
Maximum Recurrent Peak Reverse VoHage
VoHs
200 I 300 I 400 J 500 J 600
VRRM
Maximum RMS Voltage
VoHs
140 I 210 I 280 I 350 I 420
VRMS
Maximum DC Blocking VoHage
VoHs
Voc
200 I 300 I 400 I 500 I 600
Maximum Average Forward Rectffied Current
3.0
.375', (g.5mm) Lead Lengths at TA = 45·C
Amps
ICAV)
.Peak Forward Surge Current
1Oms single half sine-wave superimposed
60.0
Amps
on rated load
IFSM
Maximum Instantaneous Forward Voltage at 3.0A
1.1
VoHs
VF
Maximum Average Reverse Current at
Rated Peak Reverse Voltage TA .100·C
50.0
IR(@
J1A
Maximum DC Reverse Current
at Rated DC Blocking Voltage TA= 25·C
5.0
IR
IlA
Maximum Reverse Recovery Time (Note 1) TJ = 25·C TRR
200
nS
Typical Junction Capacitance {Note 2)
40.0
pf
CJ
Typical Thermal Resistance (Note 3)
R8JC
22.0
·C
Operating Temperature Range
·65 to +175
TJ
·C
Storage Temperature Range
-65 to +300
TSTG
·cm
NOTES:
1. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.OA, Irr = 25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) Lead Lengths, with both leads attached to heat sink.
-398-
RATING AND CHARACTERISTIC CURVES BYW72 THRU BYW76
FIG. 2 - MAXIMUM NON-REPETITIVE PEAK FORWARD SURGE
CURRENT
~
,
W
50
25
o
al,_load
100
(9(1)
........
gJii!
en
~
INDUCTIVE LOAD
0.375" (9.Smm) I_EAD LENGTHS
o
Sine Wave (JFDE"C Mp.thod)
:::J
W
-RESISTi\7EOR
o
10m: s,nOll Hn,l, I I I I
0:
0:
FIG. 1 - FORWARD RECTIFIED CURRENT DERATING CURVE
1
:mo
Z
75
50
" "'150
--
..... ...
i"'oo.
~«
125
100
W
~~
TI
TI=15~
0:
ou..
'"«D.
175
2S"C ._
'C"
-1-0
...... .....
IIII
W
AMBIENT TEMPERATURE, °C
,=
10
10
FIG. 3 - TYPICAL JUNCTION CAPACITANCE
50
100
NUMBER OF CYCLES AT 60 Hz
100
FIG, 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
u..
50
0.
....,,-
30
1""'000.
W
0
z
............
T, ~ 1MHz
2::;-" . .
'tt«"
u
0
VSIQ
, ,
I
V /
0:
0:
:::J
50 mVp-p
o
30
I
o
LI ,. 25"C
0:
~ [3
5
1
10
50
100
OW
u..D.
(I):::;;
o:::J«
'"
'"
.Y~
Z
T,
W(I)
w w
>D.
W:::;;
~"'"
10
0:«
~~
'"
Z
I II
1
~
F
T"
75°C
01
02
I
I
I
I I
Pulse Width
300us
20,'0 Duty Cycle
04
06
0.8
-r10n
NON INDUCTIVE
500
~"
NONINOUCTIVE
+05A
T,I _. 25"C '-
(I)
~
OUT
.....
1.4
12
H
.0 1
40
,
r'\
(+)
-=- 50(approx)
Vdc
,. V
20
10
16
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
10
'"
I
03
......-:IT,~.:v~
.,
(1)0
:::JO:
00
12S'C
.-
,. ioI"""
(l)W
0:0:
I
(I)
~
o
I
I
Z
10
:::J
I
0,3
W
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
Z
W
0:
0:
10
0:0:
REVERSE VOLTAGE, VOLTS
20
150°C
T"
W
f,.
10
l /7
10
~
Z
60
80
100
PERCENT OF PEAK
REVERSE VOLTAGE
120
140
/
- 0 25
HI
NON·
INDUCTIVE
OSCILLOSCOPE
{NOTE 11
NOTES 1 Rise Time = 7ns max Input Impedance =
1 megohm. 22pF
2 Rise Time", 1Ons max Source Irnped = 1000 IVI
SURGE IAI
200
400
400
300
300
175
1S0
300
400
V,IVI
1.35
.9/.95
.9/1.0
1.0
1.3
1.1
1.3
1.1
1.0
*Fast Recovery
-405-
I
1N4001 THRU 1N4007
MINIATURE PLASTIC SILICON RECTIFIER
VOLTAGE· 50 to 1000 Volts CURRENT· 1.0 Ampere
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• Low cost construction utilizing void-free molded
plastic technique. ''''. "
"".'-',,• Low cost
• Oiffusedjunction
~
• Low leakage
• High current capability
• Easily cleaned with Freon, Alcohol, Chlorothene
and similar solvents
• High temperature soldering guaranteed:
26S"C110 secondsJ.37S",(9.Smm) lead lengths at
Sibs., (2.3kg) tension
00-41
-r
1.0 (25.4)
.107(2.7)
.080(2.0)
~
1 1+
MIN
~
~
.205(5.2)
.16~4.1)
t
.034 (.86) ~
.028 (.71)
+
1.0(25.4)
MIN
I
MECHANICAL DATA
...
CBse: JEOEC 00-41, molded plastic case
Terminals: Plated axial leads, solderable per
MIL-S-202, Method 208
Polarity: Color band denotes cathode end
Weight: 0.012 ounce, 0.3 gram
Mounting PosUlon: Any
Handling precautions: None
Dimension in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase. half wave. 60 Hz. resistive or inductive load.
For capacitive load. derate current by 20%.
·Maximum Recurrent Peak Reverse Voltage
·Maximum RMS Voltage
·Maximum DC Blocking Voltage
·Maximum Average Forward RectHied Current
.375", (9.5mm) lead lengths at TA. 75·C
·Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
·Maximum Instantaneous Forward Voltage at 1.0A
·Maximum Full Load Reverse Current
Full Cycle Average .375", (9.5mm) lead lengths at
TL" 75·C
·Maximum DC Reverse Current TA .. 25·C
at Rated DC Blocking Voltage TA-100·C
Typical Reverse Recovery Time (Note 1) TA - 25·C
Typical Junction Capacitance (Note 2) TJ - 25·C
Typical Thermal Resistance (Note 3)
·Operating and Storage Temperature Range,
VRRM 50
VRMS 35
Voc 50
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
1.0
Amps
IFSM
VF
30.0
1.1
Amps
Volts
IR(AV)
30.0
5.0
50.0
30.0
15.0
26.0
-5010+175
(LA
IR
TRR
CJ
RaJA
TJ,TSTG
NOTES:
1. Measured on Tektronix Type ·S" recovery plug·in. Tedtronix 545 Scope or equivalent. IFM = 20mA. IRM =lmA
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 VollS.
3. Thermal Resestance from Junction \0 Ambiient al375" (9.5mm) lead lengths. P.C. Board mounted.
"JEDEC Registered Value
-406-
pA
lUI
pf
·cm
·C
RATINGS AND CHARACTERISTIC CURVES 1N4001 THRU 1N4007
FIG. 2 -
TYPICAL FORWARD CHARACTERISTICS
FIG. 1 - FORWARD CURRENT
DERATING CURVE
101""-....-
io"'"
.......: - - - - - , - - - - , - - - - , - ,
~
'('
(Smm
X
5mml.
0,2" x 0.2"
I
I
SINGLE PHASE +-+--+'~+---1
HALF WAVE
60Hz
RESISTIVE OR
INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS
.2
TJ
25
50
75
100
125
150
06
175
30
W
(!)U)
a:W
::Ja:
U)W
25
MAXIMUM NON-REPETITIVE PEAK FORWARD
SURGE CURRENT
..
~~
~
FIG. 4 -
. ..
W
(!)U)
a:W
::Ja:
U)W
TA .. 75'C
00..
00..
~r:
«0..
w::;
,I,
-
a:«
+-
000
-
OU
01
~
Z
«
04
~~
I00
II 11111
10
2
4
10
20
4f
.4
::Ja:
1.1.0 MHz
Vsig. 50MVp-p
4
60
=
TJ 25"C
40 iNON.REPETITIVE
SQUARE PULSE
20
S!!
100
200 J.1S
I
10
FIG. 6 - TYPICAL REVERSE CHARACnRISTICS
10
WU)
40
"2~!'-
I""""'" .........
200
laO
f-'
Z
U
TJ
600
400
PULSE DURATION, MlliSECONDS
u)w
a: a:
ww
I--
10
-
14 15
0102040'0204102
a:
a:
::J
20
1.2
PEAK FORWARD SURGE CURRENT
dl
W
100
10
l-
300iJ.5
C~CI('
10
406080100
NUMBER OF CYCLES AT 60Hz
FIG. 5 -
2(00 Du:y
1000
83m3 Single Half
Sine-Wave
JEDEC Method
~
08
25C
Pulse Width
INSTANTANEOUS FORWARD
VOLTAGE, VOLTS
AMBIENT TEMPERATURE, "C
FIG. 3 -
t
01
~-L--.~,_~_.~_~_-'
1--
Z
-
T,I - lOQOC
,
~
I
20
40
60
80
100
,-
25"C
120
-
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
REVERSE VOLTAGE, VOLTS
-407-
1N4001 P THRU 1N4007P
MINIATURE PLASTIC SILICON RECTIFIER
VOL TAGE - 50 to 1000 Volts CURRENT - 1,0 Ampere
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-0
• Void-free molded plastic construction
• Low cost
• Diffused junction
• Low leakage
• High surge current capability
• Easily cleaned with Freon, Alcohol,
Chlorothene and similar solvents
• High temperature soldering guaranteed:
265'C/10 seconds/.375" ,(9.5mm) lead lengths at
5 Ibs., (2.3kg) tension
00-41
MODIFIED
-r
1.0 (25.4)
MIN
.122(3.1)DIA·_1
MAX.
(NOT TO JEDEC DIMENSIONS)
I·-.~
.205 (5.2)
.160(4.1)
~
t
1.0(25.4)
MECHANICAL DATA
MIN
!
Case: 00-41 modified case
Terminals: Plated axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denotes cathode end
WeIght: 0.012 ounce, 0.3 gram
MountIng Position: Any
Handling Precautions: None
Dimension in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
IN
IN
IN
IN
IN
IN
IN
SYMBOLS 4IJDIP 4II02P 4IJD3P 4DD4P 4005P 4IJD6P 4007P UNm1
·Maximum Recurrent Peak Reverse Vo~age
·Maximum RMS Voltage
·Maximum DC Blocking Voltage
·Maximum Average Forward Rectified Current
.375", (9.5mm) lead lengths at TA = 75'C
·Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
·Maximum Instantaneous Forward Vottage at 1.0A
·Maximum Full Load Reverse Current
Full Cycle Average .37S", (9.Smm) lead lengths at
TL-7S'C
·Maximum DC Reverse Current TA = 2S'C
at Rated DC Blocking Vottage TA= 100'C
Typical Reverse Recovery Time (Note 1) TA = 25'C
Typical Junction Capacitance (Note 2) TJ = 2S'C
Typical Thermal Resistance (Note 3)
·Operating and Storage Temperature Range,
VRRM SO
VRMS 3S
Voc so
100 200 400 600 800 1000 Volts
70 140 280 420 S60 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
1.0
Amps
IFSM
VF
30.0
1.1
Amps
Volts
IR
30.0
S.O
SO.O
30.0
30.0
SO.O
-SO to +17S
j.LA
IR
TRR
CJ
ReJA
TJ,TsTG
NOTES:
1. Measured on Tektronix Type "SO recovery plug-in. Tektronix 545 Scope or equivalent, IFM = 2OmA.IRM =lmA
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resestance from Junction to Ambient at. 375" (9.5mm) lead lengths, P.C. Board mounted.
·JEDEC Registered Value
-408-
pA
j.LS
pi
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES 1N4001 P THRU 1N4007P
FIG. 2 -
TYPICAL FORWARD CHARACTERISTICS
FIG. 1 - FORWARD CURRENT
DERATING CURVE
0
W
1.0
u::
~en
Uw
Wa::
a::w
.B
r\.
r-L~
r-- (5mm Ii:. 5mml .
oQ.
a::::;;
««
02"
:::~
.4
a::Z
Ow
u.a::
Wa::
(!l:J
«U
a::
W
>
«
SINLE
lit
0.2"
"
Cu leafs
PH~SE I
'-
'"
r\.
I
'\
HALF WAVE
60Hz
RESISnVe OR
INDUCTIVE LOAD
0.375" (95mm) LEAD LENGTHS
25
50
75
100
'\
125
150
175
INSTANTANEOUS FORWARD
VOLTAGE, VOLTS
AMBIENT TEMPERATURE. °C
FIG. 3 -
30
W
(!len 25
a::W
:Ja::
enW
OQ.
a::::;; 20
««
MAXIMUM NON-REPETITIVE PEAK FORWARD
SURGE CURRENT
.
~
FIG. 4 -
~
W
elen 600
a::W
:Ja:: 400
enW
OQ. 200
a::::;;
««
:::~ 100
a::Z
OW 60
u.a::
t-",a: 40 ~
«:J
wO
Q.
20
T".7S"C
~
:::~
a::Z 15
OW
u.a::
",a::
«:J 10
wU
6
810
20
TYPICAL JI,.INCTION CAPACITANCE
01
SQUARE PULSE
~
200 us
02
04
0'
02
04
t
0
10
2
PULSE DURATION. MILISECONDS
~
Z
FIG. 6 -
W
a:
a:
:J
o
100
60
40
TJ ' 2S'C
NON-REPETITIVE
10
40 60 80 100
NUMBER OF CYCLES AT 60Hz
FIG. 5 -
" ..........
R
""!'
Q.
4
PEAK FORWARD SURGE CURRENT
1000
8 3ms Single Hall
Sme-Wave
JEOEC Method
wen
enw
a: a::
UJLU
>Q.
TYPICAL REVERSE CHARACnRISTICS
10
.-
10
TJ
~
lOO°C
w::;;
20
a:«
TJ ' 2S'C'"
enO
:Ja:
00
01
«
04
~~
c-
f . 1.0 MHz
~ Vsig. 50MVp·p
«
en
"
"'"
~'2S'C
Z
I, 0
, ,-
I-
2
10
20
41)
100
Z
01
o
20
40
60
BO
100
120
-
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
REVERSE VOL TAGE. VOLTS
-409-
I
M100A THRU M100M
MINIATURE PLASTIC SILICON RECTIFIER
VOLTAGE - 50 to 1000 Volts
CURRENT - 1.0 Ampere
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• Low cost construction utilizing void-free molded
plastic technique
• Lowcost'~ " ..,..""""'...~
• Diffused junction
' -.
• Low l e a k a g e -__
• High surge capability
~'• High temperature soldering guaranteed:
26S'C/10 secondsl.37S",(9.Smm) lead lengths at
5 Ibs., (2.3kg) tension
D0-41
-r1.0 (25.4)
MIN
.107 (2.7) ~
.080(2.0)
1 I+!.
.2OStS.2)
.160(U)
-L..
t
1.0(25.4)
!
MIN
.034 (.86).
.028 (.71)
+
MECHANICAL DATA
Case: JEDEC 00-41, molded plastic case
Terminals: Plated axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denotes cathode end
Weight: 0.012 ounce, 0.3 gram
Mounting Position: Any
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase. half wave. 60 Hz. resistive or inductive load.
For capacitive load. derate current by 20%.
M100 M100 M100 M100 M100 M100 M100
SYMBOLS A
B
D
G
J
K
M UNITS
Maximum Recurrent Peak Reverse VoHage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) lead lengths at TA -100'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum Full Load Reverse Current
Full Cycle Average .375", (9.5mm) lead lengths at
TA-5S'C
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking VoHage TA= 100'C
Typical Reverse Recovery Time (Note 2)
Typical Junction Capac~ance (Note 1) TJ = 25'C
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range.
VRRM 50
VRMS 35
Voc 50
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
1.0
I(Av)
IFSM
VF
IR(AV)
IR
TRR
CJ
RaJA
ITJ.·TST(
50.0
1.0
100
1.0
50.0
2.0
30.0
26.0
-50 to +150
NOTeS:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 VDC.
2. Measured with IF =0 .5A. IR = tOA.lrr = .25A
3. Thermal Resestance from Junction to Ambiient at. 375" (9.5mm) lead lengths. P.C. Board mounted.
-410-
Amps
1.1
Amps
Volts
ItA
vA
(.1.5
pf
'cm
·C
RATINGS AND CHARACTERISTIC CURVES M100A THRU M100M
FIG. 2 - TYPICAL FORWARD
CHARACTERISTICS
~
Z
FIG. 1 - FORWARD CURRENT DERATING
CURVE
o
UJ
u::
G~
UJee
eeUJ
~ ~
O@
~~
25
60Hz
RESISTIVE OR
INDUCTIVE LOAD
3i-S" (9.5mm) LEAD LENGTH
50
75
",)0
IZ
T\
<
0'
I-
125
150
0'
Ul
Z
f----
..1
06
08
I
I
, 0
1
" "
, 6
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
175
AMBIENT TEMPERATURE, ·C
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
~
Z
UJ
ee
ee
::l
U
UJ
a.
UJ~
~~
0'
@S!
Z~
<
I-
~
I-
Ul
~
01
~ I""""
40
20
60
80
-
100
:::--:140
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
-411-
I
1N5391 THRU 1N5399
MINIATURE PLASTIC SILICON RECTIFIER
VOLTAGE - 50 to 1000 Volts CURRENT - 1.5 Amperes
FEATURES
• High surge current capability
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• 1.5 Ampere
operation at
TL= 70 'Cwith
no thermal runaway
• Typical IR less than 0.111A
• Low cost construction utilizing
void-free molded plastic technique
• High temperature soldering guaranteed:
265'C/10 seconds/.375",(9.5mm) lead
length at 5 Ibs., (2.3kg) tension
D0-41
-r
1.0 (25.4)
YIN
.107(2.7) ~ 1
.080(2.0)
I"~
~
.205(5.2)
.16014.1)
~
t
.034(.88) ~..
.028(.71)
1.0(25.4)
MIN
I
..
MECHANICAL DATA
Case: JEOEC 00-41, molded plastic case
Terminals: Plated axial leads, solderable per
MIL-S-202, Method 208
Polarity: Color band denotes cathode end
Weight:: 0.012 ounce, 0.3 gram
Mounting Position: Any
Dimensions in inchtes
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS
VRRM
VRMS
Voc
'Maximum Recurrent Peak Reverse VoRage
'Maximum RMS VoRage
'Maximum DC Blocking VoRage
'Maximum Average Forward Rectified Current
.500, (12.7mm) lead lengths at TL - 70'C
'Peak Forward Surge Current
8.3ms single haW sine-wave superimposed on
rated load (JEDEC Method)
'Maximum Instantaneous Forward VoHage
at 1.5A, TA = 70'C
, Maximum DC Reverse Current TA = 25'C
at Rated DC Blocking Voltage TA= 150'C
'Maximum Full Load Reverse Current Full Cycle
Average,.375",(9.5mm) Lead Length at TL=70'C
Typical Reverse Recovery Time (Note 2)
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
'Maximum DC Blocking VoRage Temperature
'Operating Junction Temperature Range
'Storage Temperature Range
NOTES:
m m m m m m m m
5393
5394
5395 5398
5397 5398
m
5399 UNITS
5391
5392
50
35
50
100 200 300 400 500 600 800 1000 VoRs
70 140 210 280 350 420 560 700 VoRs
100 200 300 400 500 600 800 1000 VoRs
I(AV)
1.5
Amps
IFSM
50.0
Amps
VF
VoRs
IR
1.4
5.0
300
IR(AV)
TRR
CJ
RaJA
TA
TJ
TSTG
300
2.0
15.0
26.0
+150
-50 to +170
-50 to +175
~
lIS
pf
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 VDC.
2. Measured with IF =O.SA, IR =1.0A, Irr =.25a.
3. Thermal Resistance from Junction to Ambient at ,375" (9.5mm) lead lengths, P.C. Board mounted.
'JEDEC Registered Value.
-412-
~
'cm
'c
'c
'c
RATINGS AND CHARACTERISTIC CURVES 1N5391 THRU 1N5399
FIG. 1 -
o
w
u::
~
en
Uw
60Hz
RESISTIVE OR _
INDUCTIVE LOAD
2.0
Wa:
a:W
a:
a:
::>
.
·0
~~
a:
0.2 x 0.2
Cu Leafs
6«
1/
W
....«z
(!l~
«
04
Z
>
«
25
50
75
laO
125
150
PULSE WIDTH 300
1% DUTY CYCLE
·.s
II
01
....
en
0.4
W
TJ . 2S"C
1
1
0 1
Z
"-a:
Wa:
U
V
/
~ ffl' 0
a: a:
Ow
"-tl.
en:!;
(Smm x 5mm)
~r:
O~
~
./
o
.
««
10
U
L~
S
20
W
FORWARD CURRENT DERATING
CURVE
.---r--r--r-,..-.,.---,
2.4
FIG. 2 - TYPICAL FORWARD
CHARACTERISTICS
r:
z
06
08
10
12
14
16
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
175
LEAD TEMPERATURE, 'C
r:
z
W
a:
a:
::>
U
FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
50
40
~
Fig. 4-TYPICAL JUNCTION CAPACITANCE
100
8.3 ms S'/N'GLE HALF SINE-WAVE
(JED EC
METHOD) T,.70·C
~
u.i
i'"
W
(!len
a:U!
::>a:
30
~~
««
20
U
Z
o~«
r-.... r--.
enW
Voig .6OmVP1>
«
o
"
0
1
"tl.
10
TJ- 25°C
'.'.0MHz
U
10
«W
40
20
tl.
~
a:
60
2
4
10
2
4
10
20
40
100
REVERSE VOLTAGE, VOLTS
2
4
6
8 10
20
40
60 80 100
I
NUMBER OF CYCLES AT 60 Hz
....-
ai
a:
a:
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
10
::;)
U
Wi/)
ww
>tl.
W:!;
4
~~
01
!;l! ~
04
a:«
OU
~~01 oL_-2.J0---40L_-60..L--SJ.O--,::OOL.....-::,2~O--:-,4=0
Cf}
~
PERCENT uF RATED PEAK REVERSE VOLTAGE
-413-
1N5400 THRU 1N5408
MEDIUM CURRENT SILICON RECTIFIER
CURRENT· 3,0 Amperes
VOLTAGE· 50 to 1000 Volts
FEATURES
• High surge current capability
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• Void-free plastic in
"
....
OQ-201AO package
~
• 3.0 Ampere operation a t , , <
TL = 105 'C with no thermal runaway
""• Typical IR less than 0.1 J.IA
• High temperature soldering guaranteed:
265'C/10 seconds/.375" ,(9.5mm) lead
length at 5 Ibs., (2.3kg) tension
DO-201AD
""'«,
f
.210 (5.3)
. 19~I~~·8)
r
1.0 (25.4)
LIi-IJ.-i -----itf--.375 (9.5)
•285f·21
1.0 (25.4)
.052 (1.3)
.04811.2)
+
MECHANICAL DATA
T
case: JEOEC OQ-201AO Molded plastic
Terminals: Plated Axial leads, solderable per
MIL-S-202, Method 208
Polarity: Band denotes cathode
Weight: 0.04 ounce, 1.1 gram
Mounting Position: Any
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
m
m
SI'IIBOLS 5400 54D1
"Maximum Recurrent Peak Reverse Voltage
"Maximum RMS Voltage
"Maximum DC Blocking Voltage to TA = 150'C
"Maximum Average Forward Rectified Current
.5", (12.5mm) lead lengths atTL = 105'C
"Peak Forward Surge Current
8.3ms single haH sine-wave superimposed on
rated load (JEDEC Method)
"Maximum Instantaneous Forward Voltage
at3.0A
" Maximum DC Reverse Current TA=25'C
at Rated DC Blocking Voltage TA= 150'C
"Maximum Full Load Reverse Current Full Cycle
Average, .5", (12.5 mm) Lead Length
atTL= 105'C
Typical Junction Capacitance (Note I)TJ = 25'C
"Typical Thermal Resistance (Note 2)
"Operating Jucntion Temperature Range
"Storage Temperature Range,
VRRM 50
VRMS 35
Voc 50
m
5402
m
5403
m
m
m
m
m
54N 54115 54/1f 5407 5408 UNITS
100 200 300 400 500 600 SOO 1000 Volts
70 140 210 280 350 420 560 700 Volts
100 200 300 400 500 600 800 1000 Volts
I(AV)
3.0
Amps
IFSM
200
Amps
VF
Volts
IR
1.2
10.0
500
IR(AV)
CJ
R9JA
TJ
TsrG
500
28.0
15.0
-50 to +170
-SO to +175
I!A
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient at ,375' (9.5mm) lead lengths, P.C. Board mounted.
"JEDEC Registered Value.
-414-
I!A
pf
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES 1N5400 THRU 1N5408
FIG. 2-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
UJ
400
(900
TL_l05"C
a:UJ
::Ja:
OOUJ
FIG. 1 -
oUJ
80
u:
i=oo
Uw
~
7.0
1- 2$- (8.3 minl'
~~
6. 0
5.0
~~
om
"-a:
~
~
4. 0
§
a::
2.0
UJ
~
'"
i'" r-....
t....
l"""'-
1. !in (12.7 min)
3.0
<{ll
-;
~
~
r--.
..,.
I"'"
1000..
r-...
0.375 (9.6mm) Load
~a:
.q::::J
UJll
50
~
"""
40
1.0
140
.... ~
160
"a.
ui
100
Z
.q:
I-
UJ
30
<{
f" lMHz
VSOgl~Trn
3.0
-
I
f
1,0
50
TJ 25°C
PULSE WIDTH 300~s2% DUTY CYCLE
100
REVERSE VOLTS, VOLTS
a:
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
o
r
10
0.3
I
oUJ
CI'J
TJ~
10
II
"-
~
50 70 100
a.
/
10
a:
IZ
<{
I-
30
0<{
o
~
-
II
00
~
20
10
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
50
II
5.0 7.0
180
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD 'CHARACTERISTICS
ffi
3.0
i\.
100
a.
2.0
NUMBER OF CYCLES AT 60Hz
TEMPERATURE, 'C
::!i
<{
IZ
UJ
a:
a:
::J
~11CYCle
.... """"
..... r-... "'...... ~~
Load
120
100
80
60
~
1Jut0P+
I"""- t--.~
a:Z
&? ~ 100
a.
Real.tlve or Inductive
Lenrhl ~.c. QIOBld ~unt:"g
40
"
200
~~
TL • Both L.ead8 to
HoatSinkwith
Length. (I) . . .h _
~
'".......i"
TA. Ambient rerf1)8rature
1.0
~<{
L • .031· (.79 min)
~
r" K.
UJa:
a:::!i
<{ <{
o ~
FORWARD CURRENT DERATING CURVE
I
B.3ms SINGLE HALF
SINE-WAVE
UJOO
OOUJ
a: a:
UJUJ
I
0.1
>a.
UJ::!i
a:<{
000
::Ja:
Oll
UJz::!i
<{II-Z
ZUJ 0.1
<{a:
I-a:
OO:::J
~ll
.01
.03
~
.01
0.4
0.6
0.8
1.0
1.2
14
1.6
1.8
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
:/
1.0
----
-
T•• l00 'C
I
T., '" 25 C C
L.-o
""'"
20
40
60
80
100
Ij
120
140
PERCENT OF RATED PEAK REVERSE
VOLTAGE
-415-
I
GI500 THRU GI510
MEDIUM CURRENT SILICON RECTIFIER
VOL TAGE • 50 to 1000 Volts CURRENT· 3.0 Amperes
FEATURES
• High surge current capability
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-0
DO-201AD
• Typical IR less
-""~
than 0.1 IlA
'''''''. . .
• Void-free DO-201 AD package .
<",",,~
• High current operation 3 Amperes
""""'''-«"
atTA= 9S'C
1
d!!!Jhll
.19014.81
DIA.
r
1.0125.41
L,
1+
t
.37519.51
• High temperature soldering guaranteed:
26S'C/10 seconds/.37S" ,(9.5mm) lead lengths at
5 Ibs., (2.3kg) tension
~
1.0 125.41
.05211.31
.04811.21
I
+
T
MECHANICAL DATA
case: JEDEC DO-201AD Molded plastic
Terminals: Plated Axial leads, solderable per
MIL-S-202, Method 208
Polarity: Band denotes cathode
Weight: 0.04 ounce, 1.1 gram
Mounting Position: Any
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
GI
SYMBOLS 500
Maximum Recurrent Peak Reverse Voltage
Maximum .RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) lead lengths at TA = 95'C
Peak Forward Surge Current
S.3ms single half slne·wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage TJ = 25'C
at 9.4A
TJ= 175'C
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA= 100'C
Typical Junction Capacitance (Note 2) TJ = 25'C
Typical Reverse Recovery Time (Note 3)
Typical Thermal Resistance (Note 1)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Vrx; 50
GI
501
GI
502
GI
504
GI
506
GI
508
100 200 400 600 SOO 1000 Volts
70 140 2S0 420 560 700 Volts
100 200 400 600 SOO 1000 Volts
I(AV)
3.0
Amps
IFSM
100
1.1
1.0
5.0
50.0
2S.0
2.5
15.0
-50 to +175
Amps
VF
IR
CJ
TRR
RaJA
rrJ, TST(
NOTES:
1. Thermal Resistance from Junction to applied at ambient .375" (9.Smm) lead lengths, P.c. Board mounted.•
2. Measured atl MHz and applied reverse voltage of 4.0 volts.
3. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, Irr = 0.25A
·416·
GI
510 UNITS
Volts
pA
pf
I1S
'cm
·C
RATINGS AND CHARACTERISTIC CURVES GI500 THRU GI510
FIG. 2 W
CJO)
a:W
::Ja:
O)W
OCL
a:::;
««
3;~
a:Z
OW
u.a:
",a:
«::J
wU
CL
00)
a: W
«a:
3;W
a:CL 5.0
0::;
u.«
W~
4.0
CJ Z :30
«W
ffi
~ 12.0
>::J
«U i10
MAXIMUM PEAK FORWARD
SURGE CURRENT
200
8 3ms SINGLE IIALF
SINE-WAVE IJEDEC r'vl,'111uJI
100
NON·REPETITIVE
t""oo.
50
TJ-175'C
I"t.I.
~
r--- f10
_IJI~
r"'"
ITrnill
..
50
10
100
NUMBER OF CYCLES AT 60Hz
FIG. 4 -
TYPICAL JUNCTION CAPACITANCE
100
U.
Q.
W
50
U
Z
«
l-
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
«
CL
«
U
100
IZ
W
a:
a:
::J
U
..... ......
TJ - 25°C
f.1.0MHz
i)
VSi9.~mli
.... ~
10
10
30
/
10
50
100
REVERSE VOLTAGE, VOLTS
TJ
25 C
o
a:
«
30
offi
U.CL
10
~~
I
0)::;
2b' C
fJ
300 ~jS
Pulse Wldtr)
l~'o Duly Cycle
FIG. 5 -
::J«
oW
Z
«
I
U
WO)
O)w
a: a:
Ww
01
I-
0)
Z
10
W
a:
a:
::J
03
«
IZ
TYPICAL REVERSE CHARACTERISTICS
IZ
> n...
03
~~
TA-100 'C
,..,.-
10
--
0)0
::> a:
01
06
Ud
14
16
ltl
01
OU
2(\
~~
«
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
IZ
«
I-
0)
~
01
- !-T•• 2S·C
,I
20
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
-417-
I
P300A THRU P300M
MEDIUM CURRENT SILICON RECTIFIER
CURRENT - 3.0 A~peres
VOLTAGE - 50. to 1000 Volts
FEATURES
• High surge current capability
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-0
DO-201AD
",-"""",_
• Typical IR less
than 0.1 11 A
~...,., "
• Void-free 00-201 AD package
'<,.~"'_
• 3.0 Ampere operation at TA = 90'C
with no thermal runaway
f
r
.21015.31
.190 lUI
'",
1.0 125.41
L,
D
;....u... ---rt--
• High temperature soldering guaranteed:
265'C/10 secondsl.375",(9.5mm) lead lengths at
5 Ibs., (2.3kg) tension
.375 19.51
~
1.0 125.41
.05211.31
.04811.21
+
MECHANICAL DATA
T
case: JEOEC 00-201AO Molded plastic
Terminals: Plated Axial leads, solderable per
MIL-S-202, Method 208
Polarity: Band denotes cathode
Weight: 0.04 ounce, 1.1 gram
Mounting Position: Any
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at25'C ambient temperature unless o1herwise specified
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Vokage
Maximum RMS Vokage
Maximum DC Blocking Vokage
Maximum Average Forward RectHied Current
.375', (9.5mm) lead lengths at TA. 90'C
Peak Forward Surge Current
B.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Vokage
at 3.0A
TJ-25'C
Maximum DC Reverse Current
TA =25'C
at Rated DC Blocking Vokage
TA-100'C
Typical Junction Capacitance (Note 1) TJ - 25'C
Typical Reverse Recovery Time (Note 2)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
100 200 400 600 BOO 1000 Voks
70 140 2BO 420 560 700 Volts
100 200 400 600 BOO 1000 Voks
I(AV)
3.0
Amps
IFSM
200
Amps
VF
1.2
5.0
25.0
2B.0
2.5
15.0
-50 to +175
Voks
IR
CJ
TRR
RaJA
TJ,TsTG
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF =O.SA, IR = 1.0A, Irr = .2SA
3. Thermal Resistance from Junction to Ambient at .375" (9.Smm) lead lengths, P.C. Board mounted.
-41B-
"A
pi
jLS
'CNI
'C
RATINGS AND CHARACTERISTIC CURVES P300A THRU P300M
FIG. 2-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
~ ~ ...
FIG.1-FORWARD CURRENT DERATING CURVE
NON-lEPE~,L~
o
w
u::
......,.;
~ffl
~ffi
"'"
~
REPETITIVE
2
~~
I-- J-
::::l«
oW
Z
....«z
l - f-
a:«
1.0
TJ:: 1000
::::la::
TJ ~ 25"C
Pulse Width:: 300,us
.
....«Z
....«en
1% Duty Cycle
1. 0
TJ = 25°C
0.1
~
.01
o. 1
Z
W
a:
a:
::::l
.B
1.0 1.2
1.'
1.6
600~~~~~
W
Z
30
U
80
·1"00
I
120 140
25
Ui3;
20
15
enw
Wu
a:
3;
a:
::>0
a: a:
W
§:l~
««
o
--'--,
«...,
80~~5iM
I
....
OOL-__~~~~LL~____~~~~~
2.0
5.0
10
20
50
100
1.0
t-
10
5.0
~V
Single lead to heat link.
inaignifecant heal flow
throuah
« ....
Clen
a::w
::::la:
W
0
40
35
........
en«
0..
40
FIG. 6 - TYPICAL STEADY STATE
THERMAL RESISTANCE
INSTANTANEOUS FORWARD
VOL TAGE DROP VOLTS
FIG. 5 - MAXIMUM PEAK FORWARD
SURGE CURRENT
W
'"«
20
1.8 2.0
U
o
"-
0
PERCENT OF RATED PEAK REVERSE VOLTAGE
,
.6
....
t- i""""
OU
WZ::>
«
....
en
~
e
eno
1
0
10
U
Wen
enW
a: a:
Ww
>0..
W::>
~
10 0
a::
a:
::::l
1\'
\
~
J.
V
~
~
~
;'
~~
~
.375
-~
oqrrongtj
V'
.250
~
Both lead. to heat .~k,
"....
.125
"
lead
)"
.500
.625
.750
.875
1.0
EQUAL LEAD LENGTHS TO HEAT SINK INCHES
NUMBER OF CYCLES AT 60Hz
-421-
P600A THRU P600M
HIGH CURRENT PLASTIC SILICON RECTIFIER
VOLTAGE - 50 to 1000 Volts CURRENT - 6.0 Amperes
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• High Current Capability
• Diffused Junction
• Completely Insulated Case
1
• Uniform Molded Body
1.0 MIN.
• High Surge Capability
~
• High temperature soldering guaranteed:
26S·C/10 seconds/.37S",(9.Smm) lead lengths at
Sibs., (2.3kg) tension
:r
.360 (9.11
•052 n.3)
.048 n.2)
I
+
1.0 MIN •
(25.4)
MECHANICAL DATA
1
case: Molded plastic
Terminals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Band denotes cathode
Dimensions in inches
and
Weight: 0.07 ounce, 2.1 gram
(millimeters)
Mounting Position: Any
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase, half wave, 60 Hz, resistive or inductive load.
SYlIBOLS P600A P600B P600D P600G P600J P600K P600M UNITS
VRRM 50
VRMS 35
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Voc
Maximum Avera~e Forward Rectified Current .375"
TA = 60'C .375" 9.5mm) Lead Lengths (Fig 1)
Tl = 60'C .375" (9.5mm) Lead Lengths (Fig 2)
Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 6.0A
100A
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking Voltage
TA = 100'C
TVDical Thermal Resistance (Note 1)
Operating and Storage Temperature Range
50
100
200
400
600
800 1000 Volts
70
100
140
280
400
420
560 700 Volts
800 1000 Volts
200
I(AV)
6.0
22.0
IFSM
400
VF
0.90
1.30
IR
R8JL
TJ.TsTG
600
Amps
Amps
I
Volts
5.0
1.0
itA
mA
10.0
-50 to +175
'CNoI
NOTES:
1. Thermal Resistance from Junction to Lead at .50"(12.7mm) lead lengths, with both leads attached to heat sinks.
-422-
1.0
1.4
'C
RATINGS AND CHARACTERISTIC CURVES P600A THRU P600M
FIG. 1 -
OUTPUT CURRENT VS AMBIENT TEMPERATURE
FIG. 2 - OUTPUT CURRENT VS LEAD TEMPERATURE
~~S"(3.18mmfl\o ~ RESISTIVE OR INDUCTIVE LOAO_
1.-.2S"(8.35mm)
I
NIl..
lIo.I
IL-rr(~~m)
I
I'-
1'1
1.-.62S" lS.8mm)
I I
20
40
60
80
100
120
140
160
180
I 160,Hz I I I I
BOTH LEADS ATTACHED
TO HEAT SINKS WITH
LENGTHS AS SHOWN L
200
"'"
I I
20
40
AMBIENT TEMPERATURE 'C
I'O~I\.
60
80
i'"
100
120
140
160
180
200
LEAD TEMPERATURE 'C
FIG. 3 - TYPICAL FORWARD CHARACTERISTIC
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
100
"
100
IZ
~
Z
LU
LU
a:
a:
::::>
U
,/
a:
a:
::J
100
U
~Ul
a: a:
LUUl
UlLU
a:
~~
u..~
10
~
~
LULU
TJ '" 25"C
>Cl-
PULSE WIDTH" 300).1 S
1% DUTY CYCLE
LU::!:
::J«
a:«
UlO
::Ja:
Z
LUZ::!:
Ul::!:
~
~
0.1
.6
.8
«
a:
a:
::J
a:
::J
Ul
1.0
1.2
1.4
1.6
.01
1.8 2.0
20
FIG. 6 -
a
a:
8.3 ms Single Half Sine-Wave
JEOEC Melhod
I I 11
400
:..... ......
TJ 2 5'C
-
r-
T•• l50·C
:-
I- 20
fn
100
120
HEA~
SINK.
INSIGNIFICANT HEAT FLOW
THROUGH OTHER LEAD
~
~~
...
100
.J'
«
~
::!:
a:
>::
LU
LU
I
I-
10
80
io"
~
a:U
«
Cl-
I-
LU
Z
......
60
TYPICAL THERMAL RESISTANCE VS LEAD LENGTH
40 .1- f- SINGLE LEAD TO
U
200
40
PERCENT OF RATED PEAK
REVERSE VOLTAGE
~
l......
300
I
~
500
U
LU
(!)
Ul
600
IZ
LU
'I
I-
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
::!:
0.1
Z
«
,
tii
a:
loa"
TJ = 25"C
I-
«
Cl-
--
TJ -
«
1.0
Z
LU
1.0
-
ou
oLU
Ul
LU
10
o
20
50
100
NUMBER OF CYCLES AT 60 Hz
-423-
10
io"
"'"
~
.2
BOTH LEADS TO HEAT SINK.
EQUAL LENGTH
.4.5.6.7.8.9
1.0
EQUAL LEAD LENGTHS TO HEAT SINK INCHES
-424-
PLASTIC RECTIFIERS
8.0 AMPERE TO 30 AMPERES
50 VOLTS TO 1000 VOLTS
I
......- - - - - INsr~1J'MJr --425-
NSF8AT THRU NSF8MT
ALL PURPOSE GLASS PASSIVATED RECTIFIER
VOLTAGE-50to 1000 Volts
CURRENT-8,OAmperes
FEATURES
• Isolated Overmolded Package
ITO-22O
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• High surge capability
• High current capability
• Low forward voltage
• Glass passivated junction
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
case: ITO-220 fully overmolded plastic
PIN 1<>--"1
.,., ....4G REF.........
PIN2~
Dimensions in inches
and
(millimeters)
Terminals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
Weight: .08 ounces, 2.24 grams
Mounting Position: Any
Mounting Torque: 5 in. - Ibs. max.
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SI'IIBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rect~ied Current
atTe -100'C
Peak Forward sur~e Current
8.3ms single haH s ne-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 8.0A
Maximum Average Reverse Current
Te-25'C
at Peak Reverse Voltage Te = 100'C
Typical Junction Capaekance (Note 2)
Typical Thermal Resistance (Note 1)
Operating and Storage Temperature Range,
Hfr NJf' NfR 7r' NJ'
VRRM 50
VRMS 35
Voc 50
~' Nf.G'
UNITS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
8.0
Amps
IFSM
175
1.1
10.0
100
55
3.0
-65 to +150
Amps
Volts
VF
IR(AV)
CJ
R8JC
TC.TSTG
NOTES:
1. Thermal Resistance Junction to Case.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 voits.
-426-
p.A
pi
'cm
'c
RATING AND CHARACTERISTIC CURVES NSFBAT THRU NSFBMT
FIG. 3 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
175
150
Fig. 1- FORWARD CURRENT DERATING CURVE
....-
10
Z
a:
8.0
1\
U
OC/l
a: W 6.0
~~4.0
U.
SINGLE PHASE HALF WAVE
60Hz RESISTIVE OR
INDUCTIVE LOAD
W
C)
«
a:
20
100
««
~ >-'
a:Z
75
: :.: : a::
~[l
,
~W
~~
i
"-
r.....
........
>
«
.-
5
10
~
20
50
tHI
100
NUMBER OF CYCLES AT 60 Hz
Fig. 4- TYPICAL REVERSE CHARACTERISTICS
150
100
t
l- t- l-
25
1\
W
~ +~
,
i""--.
~
50
tti-t
I' ......
50
a..
li}lJMt
~
I
Te
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
:
OW
u.a:
I\~
«a:
125
a:W
:::>a:
C/lW
W
a:
:::>
~ en
~
,ao
CASE TEMPERATURE, °C
k"":
!--I--r--Te = 100 e II
0
Fig. 2- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
400
200
....
Z
W
V
100
a:
a:
a
o
a:
1/
10
C/l::!E
:::>«
4
~;.-- r--
r---
-
TJ = 25°C
r--
PULSE WIDTH = 300j..lS -
2% DUTY CYCLE
j
,
I
Te = 25°C
..l
60
80
100
120
140
Fig. 5- TYPICAL JUNCTION CAPACITANCE
~
120
Z
«
t;;
z
40
~-
t-- ..... p'.
-j--
........ ;.-- ;--20
......
Te:: 75°C
- PERCENT OF-RATED PEAK-REVERSE VOLTAGE
II
Z
t=-
r-- .
r-
o
oW
/
r-----+
,
40
20
~fBII:
a:
Ow
u.a..
!----
LL.
Co
0.4
I
0.'
.6
I""~
II
l-
i
ui
I
0.2
100
U
Z
I
.8
«
80
l-
1.0
1.2
1.4
1.6
1.8
2.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
e:;
«a..
«
u
60
r-'
...
f_l.0MHZ~ i"
-
Vaig - 50MVp·p
. II
t
TJ = 25°C
40
........
......
20
-t0.1
0.4
1.0
10
40
100
400
1000
REVERSE VOLTAGE, VOLTS
I~
·427·
NS8ATTHRU NS8MT
HIGH CURRENT PLASTIC SILICON RECTIFIER
VOLTAGE - 50 to 1000 Volts
CURRENT- 8.0 Amperes
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
TD-220
.420 £10.67)
.3110 (9.65)
.155 £3.94)
190(4.83)
....".160 (4.06)
...
.055 (1.401
045 (1.l4)
• High current capability
--.-,j,+B I ·
11'
~f,t;II.~) DIA·...
• High surge capability
• Low forward voltage
.15~(3.81l
.y
.640 £16.26)
.620 £15.75)
PIN
P~N
'"
1
im14.liCl
'---'--
~
(!,~) -
ft
.600 (1 .24)
.575114.61)
• Glass passivated chip junction
1
.360 (9.14)
.320 (8.131
• High temperature soldering guaranteed:
265·C/10 seconds/.375" ,(9.5mm) lead lengths at
5 Ibs., (2.3kg) tension
:-=-::l-.-_....,,~_....!..._
~
1.103
(28.02)
.025
j 1
J
.560£124.221 "MAX •
•530113.46)
.~+
••
MECHANICAL DATA
case: TO-220 molded plastic
. . . l10(2.79)
Terminals: Lead solderable per
MIL-STO-202, Method 208
.090(2.29)
(CASE POSITIVE)
PIN 1 + <>----t.:,
STANDARD POLARITY PIN 2 - ~CflSE
Polarity: As marked
Weight: 0.08 ounce, 2.24 gram
Dimensions in inches and (millimeters)
Mounting Position: Any
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave. 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Voltage
Maximum DC Blocking Vo~age
Maximum Average Forward RectHied Current
Tc-100·C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Vo~age at 8.0A
Maximum Reverse Current
at Rated DC Blocking Vokage Tc - 25·C
Tc =100·C
Typical Junction Capacitance (Note 2) TJ - 25·C
Typical Thermal Resistance (Note 1)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
-428-
Vo~s
Vo~s
Vo~s
I(AV)
8.0
Amps
IFSM
VF
175
1.1
Amps
IR
10.0
100
55.0
3.0
-50 to +150
I1A
CJ
R8JC
TJ,.TST(
NOTES:
1. Thermal Resistance from Junction to Case.
2. Measured at 1 MHz and applied reversed voltage of 4.0 volts.
100 200 400 600 800 1000
70 140 280 420 560 700
100 200 400 600 800 1000
Vo~s
pi
·cm
·C
RATINGS AND CHARACTERISTIC CURVES NSBAT THRU NSBMT
FIG. 3 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
175
150
W
(!lU) 125
Fig. 1- FORWARD CURRENT DERATING CURVE
~
a:w
::la:
U)W
oc..
a:::;;
10
Z
w
a:
a:
8.0
(.)
OU)
W 6.0
a:
"
<{a:
SINGLE PHASE HALF WAVE
60Hz RESISTIVE OR
INDUCTIVE LOAD
W
(!l
a:
2.0
>
<{
50
75
5
~
~
m
20
-- -
f - - f - - + - - t - - t - - t - =...........,
.....-~
f-----1----jL---t
I
10
I----
TJ=25°CPULSE WIDTH = 300 /J S 2% DUTY CYCLE
Offi~~~
1
is<{
20
II
~ '~
'.~~~
to
100
40
/
.....Tc
=
I
1
75"C
:L
I
Tc = 25°C
---L_L-...J
60
80
100
120
140
Fig 5- TYPICAL JUNCTION CAPACITANCE
120
..
04
0.2
n
PERCENT OF RATED PEAK
REVERSE VOLTAGE
W
Z
- --
1----
o
4
~
v
- - Tc = 100"C :
r---'
u.c..
U)::;;
50
100
100
40
o
20
Fig. 4- TYPICAL REVERSE
CHARACTERISTICS
150
i ~~,~;~,~~~~~~~~
[5
10
..
NUMBER OF CYCLES AT 60 Hz
r==r==r==+==+==+==-+---l
I-
I
-
25
Fig. 2- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
200
l-+-
I-
50
CASE TEMPERATURE, ·C
400
h
--....-
r-.....
r\
100
t~
r---. . . .
i\.
0
o
i'..
JEDEC METHOD
w(.)
W
,lo}~J~
I
Te 0
8.3ms SINGLE HALF SINE-WAVE
"
<{::::l
c..
\.
~ ~40
<{
a:z
OW
u.a:
>::a:
,
~~
I
100
<{<{
:;:~
\
::::l
1"
1-+-+
1 --+--+--+--+---1---1
u.
C.
100
I
I"-r-..
ui
(.)
01LL_
6
8
_____
L.. .. __ .
10
12
-----1.4
1.6
---~
18
2.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
Z
80
U
«
c..
60 -
~
<{
I-
«
(.)
I
V.fi9- :'~o~~~.p
T
TJ = 25"C
40
--
.............
20
-r0.1
0.4
1.0
10
40
100
REVERSE VOLTAGE, VOLTS
-429-
400
1000
NPF16AT THRU NPF16MT
ALL PURPOSE GLASS PASSIVATED RECTIFIER
VOLTAGE-SO to 1000 Volts CURRENT-16,OAmpere
FEATURES
• Isolated Overmolded package
ITO-220CT
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V·O
• Dual rectifier construciton
• Dual glass passivated
chip junctions
• High surge capability
,
• Low forward voltage
• High current capability
1 P~N
.103 MAX.
~""""-.tr-""""
.0Sl!.J;",
U.3~f421
!:e
.029 Op
[O.75'0:~1
I I'
, •
I
!--r
!.S31~ MIN.
l--rr-:sr
• Internal Insulation: 1.Sk VRMS
,.107' .008
12.7' 0.2)
MECHANICAL DATA
2.54
,i,
~
40REF.
.028 t.008
... ...
.... ... (0.72:0.2)
""
u
CCl)
a:w
Ca:
:;:w
a:Q.
O:E
u.C
Cl)0
::>a:
Fig. 2-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG
~ ~ ""'"
02
~:E
C
f-
'0
40
~.L
20
-
---
=
L
~
~~
'.0
.4
C
fCI)
~
~
-
1--
e---
f---
Z
-
:=
1.--'--Te' ,we
'0
20
....-
40
60
~
I
Te = 75°C
-
80
Tc=25°C -
I
1
100
120
I
140
PERCENT OF PEAK REVERSE VOLTAGE
5
FIG. 5-TYPICAL JUNCTION CAPACITANCE
1
'50
f-
Z
C
CI)
'00
r--c-80
'50
PULSE WIDTH = 300/.1'
, .. DUTY CYCLE
50
20
NUMBER OF CYCLES AT 60 Hz
\.
TJ:: 2S-C
I-r-.
-
\.
U
--r-
10
100
200
f-
.......
25
CASE TEMPERATURE, ·C
400
i'
50
~i3
0..
\
8.3ml SINGLE HALF SINE·WAVE
JEDEC METHOD PER ELEMENT
~
&'::>a:
1l3
Cl)W
CQ. '00
a::E
CC
FIg. 1-FORWARD CURRENT DERATING CURVE
lco,LI H
"" 'r--.
'50
".
f-
0.4
~
0.2
~
u..
0.'00
I
0.'
.8
ui
"
U
.8
1.0
1.2
1.4
1.6
1.8
2.0
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
~
75
~
50
~
U
"""
TJ;; 2SOC
~~
25
0.,
"0.'
1.0
10
20
50
100
200
500 1000
REVERSE VOLTAGE, VOLTS
I~
-431-
NP16AT THRU NP16MT
HIGH CURRENT PLASTIC SILICON RECTIFIER
VOLTAGE-50to 1000 Volts CURRENT-16.0Ampere
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
TO-220CT
~ .U~~:K~
• Dual rectifier construciton, postlve center-tap
....1 •. 055 (1.48)
-r-.1-50-(3-;-~.8-1)+=-~ ~
l'
11======11.640 11&.26)
.620115.75)
PIN
1
123.6~
mp;m
1 ·:Amml
.........
+11.:m~:::l
+
~
.190 (4.83)
.11 0 (~:m);oJ
t·
1
.36019.14)
.320(8J31
l
f
• Dual glass pssivated
chip Junctions
(1~.24)
.600
.575 [14.61)
• High surge capability
• Low forward voltage
• High temperature soldering guaranteed:
26S'C/10 secondsl.37S",(9.Smm) lead lengths at
Sibs., (2.3kg) tension
1163 (29.54)
1.103]28.02)
.025
.560 U24.22i "'MAX.
T
·smK ill+!::.
•.
MECHANICAL DATA
.110(2.791
.090(2.291
Case: TO-220CT molded plastic
PIN 2
PIN 1 • o---W-i..J::
POSITIVE CT PIN 3-~E
Terminals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
Weight: 0.08 ounce, 2.24 gram
Dimensions in inches and (millimeters)
Mounting Position: Any
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase. half wave. 60 Hz. resistive or inductive load.
For capacitive load. derate current by 20%.
NPfB
SYMBOLS AT
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Vo~age
Maximum DC Blocking Vo~age
Maximum Average Forward Rectified Current
alTe = 100'C per Device
Peak Forward Surge Current
8.3ms single sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 8A per leg
Maximum Reverse Current
at Rated DC Blocking Vo~age Te=25'C
Per leg
Tc= 100'C
Typical Junction Capackance (Note 2)
Typical Thermal Resistance per leg (Note 1)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
NPfB
DT
NPfB
ar
NPl6
off
NPlf
KT
NPfB
MT
UNtrS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Vo~s
100 200 400 600 800 1000 Vo~s
I(Av)
16.0
Amps
IFSM
VF
300.0
1.1
Vo~s
IR
10.0
100
55.0
3.0
-55 to +150
CJ
R8JC
Tc.TSTG
NOTES:
1. Thermal Resistance from Junction to Case for each element.
2. Measured at 1 MHz and applied reverse voltage of 4.0 volts for each element.
-432-
NPlf
Br
Amps
p.A
pI
'cm
·C
RATINGS AND CHARACTERISTIC CURVES NP1614T THRU NP16MT
". r'\.
'so
'"
fig. 1-FORWARD CURRENT DERATING CURVE
Clm
a:",
~a:
m'"
oil.
a::!!
..:0(
'25
~,.:
75
Flo. 3- MAXIMUM NON· REPETITIVE
SURGE CURRENT
II l.. ,LI II
"'t'-...
Single Sine-Wave
JEDEC MErHOO PER ELEMENT
~
'00
a:z
.......
---
.......
0'"
u.a:
r\
so
"a:
..:~
",0
Q.
i\
60Hz RESISTIVE OR
'NTTTAr I
so
-
10
..
80 ·F-===~-_
I-
'so
Z
'"a:a:
-
20
:::l
~
Fig. 2-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG
zoo
I-
'"
a:
a:
:::l
0
0
a:
~m
a:'"
~
'00
.--
20
u.~
m:!!
50(
'50
I-
Z
'25
0(
~
L
80
Tc" 2
100
~C -
120
140
I
FIG. 5-TYPICAL JUNCTION CAPACITANCE
1
w
z
..:
m
60
E
PERCENT OF PEAK REVERSE VOLTAGE
0U:
I-
40
==
100"C
Tc: 5'C
io"""
...- ...-
PULSE WIDTH" 300jJ S
,'- DUTY CYCLE
'0
C"
I--
I"-
TJ" 25°C
;;;;;;o'~
-
I'"'"
..
20
'00
FIG. 4-TYPICAL REVERSE
CHARACTERISTICS PER LEG
o
Z
so
20
NUMBER OF CYCLES AT 60 Hz
\.
'00
-I-
25
1'\,,
CASE TEMPERATURE, ·C
,
0.'
~
I"-
U.
0.2
1
0.'
.6
.8
1.0
1.2
,.
Q.,oo
W
~
o
18
~
20
75
I-
i3
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
0(
Q.
50
..:
o 2.
0.'
l-
I- 1MHz
Va;; _ 50mVp·p
....
TJ ,,2SOC
........
r-
IIIIII1
0.5
1.0
10
20
50
100
200
500 1000
REVERSE VOLTAGE. VOLTS
I~
-433-
ARS25 / AR25 SERIES
2
HICH CURRENT PLASTIC SILICON RECTIFIER
VOL TAGE - SO to 1000 Volts CURRENT - 2S.0 Amperes
FEATURES
ARS
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• Low cost construction utilizing void-free molded
plastic technique
AR
H
~~"
r :;.~""
.25016.41
.23516.01
I
.16514.21
I
•
•
•
•
•
.410110.41
.38015.71
[cd--±...
-
MECHANICAL DATA
-ca-s-e-:-T-r-a-ns-f-e-r.-m-o-l-de-d......;p.;;;la~st;...;ic;...;c-a-s.;..e......;;...;....;~;;;.;;...;;.;..;...;;
t.185 14.71
1250 16.41
.23516.01
o
Low cost
Diffused junction
Low leakage
High surge capability
High temperature soldering guaranteed: 250'C
for 10 seconds
.165 14.21
Terminals: Plated terminals. solderable per
MIL-STD-202. Method 208
Polarity: Color Ring denotes cathode end
Weight: 0.07 ounce. 1.8 gram
Mounting Position: Any
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase, half wave, 60 Hz. resistive or inductive load.
For capacitive load, derate current by 20%.
AR~6A AR~58 ARS25D ARII2SG ARS25J ~5KAI/S25M
SYIIBOLS AR25A AR258 AR25D AR25G AR25J AR25K AR25M UNm1
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Vokage
Maximum Average Forward Rectified Current
.375". (4.5mm) lead lengths at Tc -150'C
Peak Forward Surge Current
8.3ms single haW sine-wave superimposed on
rated load (JEDEC Method) at TJ - 150'C
Maximum Instantaneous Forward Voltage at 25.0A
Maximum DC Reverse Current
Tc·25·C
at Rated DC Blocking Vokage Tc = 100'C
Typical Reverse Recovery Time (Note 2)
Typical Junction Capacitance (Note 1) TJ = 25'C
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range.
Polarity and Vokage Denotation Color Band
VRRM 50
VRMS 35
Vrx; 50
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Voks
100 200 400 600 800 1000 Voks
25.0
I(AV)
IFSM
VF
IR
TRR
CJ
R8JC
TJ,TST(
Red
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Vee.
2. Reverse Recovery Test Conditions: IF = O.SA, IR = 1.0A, Irr = .25A.
3. Thermal Resistance from Junction to Case, single side cooled.
-434-
IYeliow
Amps
400
~mps
1.0
Voks
5.0
250
pA
3.0
I1S
300
pi
1.0
'cm
'C
-50 to +175
Silver Iorangej Green I Blue IViolet
RATINGS AND CHARACTERISTIC CURVES ARS25 / AR25 SERIES
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
W
600 Iio,;
Clen
a:
w
400
::Ja:
enW
~~
300
<{ <{
200
:;;c:
r--......
OW
oen
a: W
<{a:
:;;W
a:"-
40
0::;:
LL<{
30
wC:
ClZ
<{W
a: a:
Wa:
>::J
<{U
20
"" ~ f..<::
r---.
I- LOrDS
125
lkl'AV I
135
5.0
10
20
:""III
V
~
155
-
165
CASE TEMPERATURE °C
1.0
wen
~~
>"W::;:
WW
Z
<{
f-
en
1,0
6
a:<{
~~
f-
25'C_
Pulse Width ~ 300 IJ. S _
2% Dutv Cycle
06
04
Z
02
f-
01
<{
en
o
20
40
60
80
100 120
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
•
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
20
1000
10
LL
::J<{
f-
TYPICAL REVERSE CHARACTERISTICS
U
Z
50
a:
<{
W
Z
<{
100
W
a:
a:
::J
175
<{
TJ
J
0
0
50
20
enO
OU
100
en::;:
10
5.0
::Ja:
200
offi
LL,,-
~~
c:
Z
~
:;;en
~
r""...
10
600
a: W
......
c~~~e I
2.0
FIG. 4 -
700
f-
I
TJ =25°G
NUMBER OF CYCLES AT 60 Hz
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
Z
W
a:
a:
::J
U
10..:
BO
'
....
145
SINE~WAVE
~OEC METHOO)
60
RESISTIVE OR INDUCTIVE LOAD
CAPACITIVE
10
i1i G
/~INGLE PHASE HALF WAVE 60Hz
.....
~ t"-- ~ r;::::: ~
'1
~ ([ 100
"-
50
i""
TJ"150"C
LLa:
MAXIMUM FORWARD CURRENT
DERATING CURVE
...
8.3ms SINGLE HALF
I-fLJI
a:Z
FIG. 1 -
..... ""'-
"-
50
U
Z
<{
2.0
....... .......
~
"<{
~
()
0.5
TJ=25°G
--- -
i'-i'-
U
<{
1.0
f=1.0MHz
VSIG " 50mVp-p
100
50
0.2
06
SOD
ui
0.8
1.01,2
1.4 1,6
1.B
2.0 22
10
2.4 2.6
20
50
100
REVERSE VOLTAGE. VOLTS
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
GENERAL
INSfRUM ENT
-435-
I
-436-
FAST RECOVERY
PLASTIC RECTIFIERS
1.0 AMPERE TO 8.0 AMPERES
50 VOLTS TO 1000 VOLTS
I
......_____
-437-
INsi~M'r
--
1N4933 THRU 1N4937
MINIATURE PLASTIC FAST SWITCHING RECTIFIER
VOLTAGE-50 to 600 Volts
CURRENT-1,OAmpere
FEATURES
00-41
f
.107 (2.7)
.080(2.0)
.1
1.0 (25.4)
1I1H
1+ ~
.205t5.2)
.160(4.1)
--t-
1.0(25.4)
1I1N
.034(.86)...
.028 (.71)
I
..
Dimension in inches
and
(millimeters)
• Low cost
• The plastic package carries Underwriters
Laboratory Flammability ClassHication 94V-O
• Fast switching for '''''~,
high efficiency
'~
• Void-free plastic molded case
• 1.0 Ampere operation at TA .. 75'C
with no thermal runaway
• High temperature soldering guaranteed:
265'C/10 secondsl.375",(9.5mm) lead lengths at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
case: JEOEC 00-41, molded case
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounce, 0.34 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS 1N4933 1N4934 1N4935 1N4936 1N4937
"Maximum Recurrent Peak Reverse VoRage
"Maximum RMS Voltage
"Maximum DC Blocking Voltage
"Maximum Average Forward Rectnied Current
.375", (9.5mm) lead lengths at TA = 75'C
"Peak Forward Surge Current
8.3ms single haH sine-wave superimposed on
rated load (JEDEC Method) at TA" 75'C
"Maximum Instantaneous Forward VoRage at 1.0A
"Maximum DC Reverse Current TA=25'C
at Rated DC Blocking Voltage TA= 100'C
"Maximum Reverse Recovery Time (Note 1)
TJ = 25'C
"Maximum Reverse Recovery Current (Note 1)
Typical Junction CapacRance (Note 2)
Typical Thermal Resistance (Note 3)
"Operating and Storage Temperature Range,
VRRM
VRMS
Voc
50
35
50
100
70
100
200
145
200
400
280
400
600
420
600
UNITS
VoRs
Volts
Volts
I(AV)
1.0
Amps
IFSM
VF
Amps
VoRs
IR
30.0
1.2
5.0
100
TRR
IRM(Rec
CJ
R9JA
TJ,TSTG
200
2.0
15.0
41.0
-50 to +150
nS
Amps
pf
'CIW
'C
NOTES:
1. Reverse Recovery Test Conditions: IF = 1.0A. VR = 30V., di/dt = 50AlJ1S.
2. Measured at 1.0 MHz and applied reverse voltage of 4.0 Vee.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) lead lengths, P.C. Board mounted.
"JEDEC registered values
-438-
pA
RATINGS AND CHARACTERISTIC CURVES 1N4933 THRU 1N4937
....
FIG. 2 -
"
Z
W
FIG. 1 - FORWARD CURRENT DERATING CURVE
a:
a:
1.0 .--.::r-....... . - - , - - . , - - . , - - . . - - ,
~ ........
30
::J
U
W
(jim
~~
««
a:
o
o
><:
«
W
125
150
175
a.
ui
10
....
20
a:
W
10
U
30
Z
I I IIII
TJ - 25°C
i'-- ....
o
a:
z
«
13
a:~
5:<1)
~~
03
z
0.1
oW
100
REVERSE VOLTAGE, VOLtS
FIG. 5 -
V
«
....
z
«
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
/
1.0
0"
LLa.
f= 1 MHz
Vsig = 50mVp~p
10
60 80 100
a:
::J
U
«
....
«
a.
«
u
40
20
FIG.4 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
FIG. 3 - TYPICAL JUNCTION CAPACITANCE
LL
8 10
NUMBER OF CYCLES AT 60Hz
AMBIENT TEMPERATURE, °C
20
I
1
a.
100
....
1.0 Cycle
LL
75
............ ........
1/
10
5:
50
II
8.3ms SINGLE HALF
SINE-WAVE JEDEC METHOD
ClJl
UlW
25
IJ
ITA ,I'5)e
....
20
a:w
::Ja:
.2
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
TJ = 25°C
I
PULSE WIDTH = 300/.1 S
1% DUTY CYCLE
03
~
II
z
.01
0.6
0.8
1.0
1.2
1.4
1.6
1.8
I
2.0
."lOU
~.
NON 'NDVCT,Vf
INSTANTANEOUS FOWARD VOLTAGE, VOLTS
UNIT
UNDER lEST
'O.ldc Fila".
CONSTANT
VOLUGESUPPLV
RIPPLE·3InWm.M ....
TEKTRONIX ~45'" K PLUG IN
PRE AMP P6OQOPROBE OR EOU'V"'lENI
1'12 )J~A~~L'EOL(l 1'. C ... R9(·N CORE
fA
IFM 1.0
~(t)
~
--
o 0.;;:
W ~
C)Z
~~*
50
<{W
cra:
Wa:
>::>
<{a
iilli' ~
.25
20
20
~ <{ ~
40,
60
;;:
TJ
10
a:
ou.
80
AMBIENT TEMPERATURE, 'C
",0
:::JCI:
00
WZ:;;;
<{ .
1-1ZZ
<{W
I-CI:
(/JCI:
Z:::J
1
!--t-/-l'-t--+-PULSET~I~~~? 300/JS-
.....
1% DUTY CYCLE
~1=_~
-0
~
IU
-
ao
100
~
~
TJ '" 25°C
06
0'
~
02
20
I
0.8
1.0
1.2
1.4
1.6
2°r---~'-rTTTnT-~-'-r"~
o
60
40
60
80
100
120
10~1'-
1.8
2.0
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
500
100
NON INDUCTIVE
NON INDUCTIVE
+ O.S.A
1
z<{
I-
_ I
~11.
~~VdC
CUT
-0.25
<{
\
,
\
1..000'
V
OSCilLOSCOPE
o
1
I
140
PERCENT OF RATED PEAK
REVERSE VO.L TAGE
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 6 FIG. 5 - TYPICAL JUNCTION CAPACITANCE
W
40
TJ = 1QOoe
01
I
0.6
20
III
3
,01
a 10
01
(/J
Z
Methrlllli
6
W(/J
(/JW
CI:CI:
WW
>11.
W:;;;
CI:<{
15~
W~
~
6.3ms SINGLE HALF
SINE-WAVE
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
~(/J1.0~1/&m
u.li'
3
125°C
NUMBER OF CYCLES AT 60 Hz
:;~~~~~IV~i~~~
30~~=+==~::;;¢==t==+==t==t
§~
:=
(JED,EC
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~
"-
15
O::;;.J
0.375" \(S.5mm) LEAD LENGTH
i
,~
W
::>.><<{
~~
II)JLJ M
o~
~
Z
W
a:
a:
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
(NOTE 1(
f= 1 MHz
Vsig = 5OmVr-p
10
REVERSE VOLTAGE, Volts
100
NOTES 1 Rise Time = 7ns max
1 megohm 22pF
2 Rise Time:: lOns max Source Impedance =
50 ohms
-441-
1
I
I
\.,./
- 1.0
-I
I--
SO/lOOns/em
BYX55-350P AND BYX55-600P
SOFT RECOVERY, FAST SWITCHING
PLASTIC RECTIFIER
VOL TAGE • 350 to 600 Volts CURRENT· 1.2 Amperes
FEATURES
• High surge current capability
• The plastic package carries Underwriters
Laboratory Flammability
Classification 94V-O """-",,-_
• Void-free plastic package ~_
• High surge current capability
",,,.,_
• 1.2 Ampere at TA .. 55'C with no
'"
thermal runaway
• Fast switching for high efficiency
• High temperature soldering guaranteed:
26S'C/10 seconds/.37S" ,(9.Smm) lead lengths at
Sibs., (2.3kg) tension
DO-201AD
t
.210 [5.31
.190 [4.81
r
1.0 [25.41
DLI
1+
;....u-i---f
t-.375 [9.51
~~
1.0 [25.41
.052 n.31
.048 n.21
+
MECHANICAL DATA
T
Case: JEDEC DO-201AD molded plastic
Termilillls: Axial leads, solderable per
MIL-STO-202, Method 208
Polarity: Color band denotes cathode
Mounting PosU/on: Any
Weight: .04 ounce, 1.1 gram
Dimensions In inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or induotive load.
For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375', (4.Smm) lead lengths at TA =55'C
Peak Forward Surge Current
10ms single haH sine-wave superimposed on
rated load at TJ .. 12S'C
Maximum Instantaneous Forward Vo~age at 5.0A
Maximum Reverse Current
TA" 25'C
at Rated DC Blocking VoHage
TA m 100'C
Maximum Reverse Recovery Time (Note 2) TA =2S'C
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating Temperature Range
Storage Temperature Range
VRRM
VRMS
Voc
BYXSS-35OP
350
210
300
BYX5S-60OP
600
350
500
I(Av)
1.2
Amps
IFSM
VF
40.0
1.25
10.0
750
350
28.0
1S.0
-50 to +125
-SO to +1S0
Amps
Voks
IR
TRR
CJ
R9JA
TJ
TSTG
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery TESt Conditions: IF = 1.0A, VR = 30V, dildt = 20 AJIIlL
3. Thermal Resistance from Junction to Ambient at .375' (9.5mm) lead lengths with both leads to heat sink.
-442-
UNITS
Volts
Volts
Voits
.A
ns
pf
'CrN
·C
·C
RATINGS AND CHARACTERISTIC CURVES BYX55-350P AND BYX55-600P
FIG. 2 - MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
FIG. 1 - FORWARD CURRENT
DERATING CURVE
1.2
0
" 1\
lJ.J
100
.375" 9.Smm LEAD LENGTH
u:
f=U)
10
Ul1J
lJ.Ja::
a::lJ.J
00.
08
««
$:f-'
06
I'
02
RESISTIVE OR
INDUCTIVE LOAD
a::
lJ.J
~
.....
"",
0'
(,9:::>
«U
1""'00.
~
a::=>'
a::Z
OlJ.J
LLa::
lJ.Ja::
P.C. Boord
mounted f-
50
100
T.I = 125°C
10ms.SINGLE HALF
150
SINE WAVE
AMBIENT TEMPERATURE ·C
10
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
NUMBER OF CYCLES AT 50 Hz
10a
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
50
LL
n
>-
Z
lJ.J
a::
a:
uj
U
V
:::>
0
o
0
T.'
~[l
5
~
25°C
·PULSE WIDTH"" 300,IS 1('n ~UTY CYCLE
I
a: a:
:::>«
50
r!=
a::
.0
100
Z
U
OlJ.J
LL"-
«
f--
U
TJ =25°C
10
f= 1 MHz
Vsig " 50mVp~p
10
en2
olJ.J
I
1
r!=
5
Z
50
100
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
I
r!=
en
. r i"',..
REVERSE VOLTAGE, VOLTS
Z
Z
100
~n
~.
NON IHOUCTI"'~
I
1
04
I
UIIIIT
UIIIOHITEsr
06
08
10
12
14
16
18
20
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
10a
0
ZOy'"n ...... X
DC'o2kH.
-
A-TEKHIOllllX ~.~ ... K PLUG IN
PRE .... I,lPP6000P~BEOREOUIV ... lENT
f==
TJ = 10D"e
~OR , . U BETWEEN
POI"'T ~ O~ IlElAY ""'0 RECTIFIER
INDUCTANCE. 38 ~H
II, -40JUSTEO
lFM 1.0
a
TJ=2S"C=
I
1
20
40
60
==
100
di/dt =' 20
_I
,
\
I
80
,-
["\;(1)
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
IRM (REG)
·443·
tJ'
II
112-1EIII I W 10
[l
".CAR8(.NCQRE
INPAAAllH
lA" 25"~!l..c FOR RECTIFIER
AI~ s
BY296P THRU BY299P
SOFT RECOVERY PLASTIC RECTIFIER
VOLTAGE - 100 to 800 Volts
CURRENT - 2.0 Amperes
FEATURES
• High surge current capability
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• Void-free plastic package
• 2.0 Ampere oper- ~"~
ation at TA'" SS'C with ., ..."".....,
no thermal runaway
~."..
• Fast switching for high efficiency"""'",,<~
• High temperature soldering guaranteed:
26S'C/10 secondsl.37S",(9.Smm) lead lengths at
Sibs., (2.3kg) tension
DO-201AD
f
.21015.31
.19014.81
1.0125.41
DIA.
I~
~
L,
.37519.5)
1.0 125.41
.05211.]1
.04811.21
+
MECHANICAL DATA
T
Case: Molded plastic
Terminals: Axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: .04 ounce, 1.1 gram
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave. 60 Hz, resistive or inductive load.
For capacitive load. derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
.375", (9.5mm) lead lengths at TA'" 55'C
Peak Forward Surge Current
10ms single half sine-wave superimposed on
rated load
Maximum RepetHive Peak Forward Surge (Note 1)
Maximum Instantaneous Forward Voltage at 3.0A
Maximum DC Reverse Current
TA-25'C
at Rated DC Blocking Voltage
TA -100'C
Maximum Reverse Recovery Time (Nole 3) TJ = 25'C
Maximum Forward Recovery Time at 100mA
Typical Junction Capacitance (Note 2)TJ - 25'C
Typical Thermal Resistance (Note 4)
Operating Temperature Range
Storage Temperature Range
VRRM
VRMS
Voc
BY296P
100
70
100
BY297P
200
140
200
BY298P
400
280
400
BY29IIP
800
560
800
UNITS
Vo~s
Vo~s
Volts
I(AV)
2.0
Amps
IFSM
IFRM
VF
70.0
10.0
1.3
10.0
500
500
1.0
28.0
15.0
-50 to +125
-50 to +150
Amps
Amps
Volts
IR
TRR
TFR
CJ
R8JA
TJ
TSTG
NOTES:
1. Repetitive Peak Forward SUrge Current at f<15KHz.
2. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
3. Reverse Recovery Tset Conditions: IF = 10mA. IR = 10mA. Irr = 1.0mA
4. Thermal Resislancelrom Junction to Ambient at .375" (9.5mm) lead lengths with both leads to heat sink.
-444-
p.A
ns
~
pf
'CN!
'C
'C
RATINGS AND CHARACTERISTIC CURVES SY296P THRU BY299P
FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
t--'
15
FIG. 1 - FORYMRD CURRENT DERATING CURVE
ce
ce
20
0
:::l
""
()
oW
u:
r\..
1.5
f=(/)
()W
wce
~
g:
0.5
INDUCTIVE LOAD.
0375 N , (9.Smm) LEAD LENGTHS
o
60
40
20
100..
'l'I."\
RES1STIYE OR
lL
o
0
I\..
10
ce:2
;i§
«
TA·l00°C
AMBIENT TEMPERATURE 'C
~
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
... .....
100
I-
T.· 5O'C
r
I...--" ~'25'C
0
Z
V
W
a:
a:
:::l
0
o
a
a:
«'
20
3. 0
s:[l3
15 ffi
1. 0
5«
o. 3
u..1l.
C/l:'
I
~
z
«
80
TJ = 25°C
Pulse Width'" 300 ~ s 2% Duty Cycle
I
o. 1
60
100
120
140
FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
-
W
Z
40
PERCENT OF RATED PEAK REVERSE VOLTAGE
"'"
"'.
NON-INDUCTIVE
UNIT
UNDER TEST
I-
m
.03
~
1 OAde FROt.!
CO"l5TI,,,,1
j
.01
::~
IIION.,t«lUCTIVE
0.4
0.6
O.fI
1.0
1.2
1.4
1.6
1.8
VOLTAGE SUPPLY
RIPP\.E·3nlY"ns ......
c,
..:
~
. INSTANTANEOUS FORWARD VOLTAGE
VOLTS
""lilli/ill( ""LLLEo'OlENGTHS
A-
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
~~~pN~~~~::ugR'~QUIVALEPH
R2-~NE~;'~:'lt~l 0 '", CAR&e.N COAf.
R,- ... OJUSTEDFOR , . n BETWEEN
°mD§!a
TA- 25~ ~O'C FORAECTIFIER
POI"'T 10FRElAVANDAECTIFIEA
INDUCTANCE •
J8~H
10
iii
'l;.
0 50
Z
«
I-
U
«
«
11.
0 10
_TJ=25 D C
f= 1MHz.
Vsig = SOmVp_p
1.0
5.0
10
,-
50
ilt)
1.0A IFM
2.0A lAM (REC )
100
di/dt = 5CAl~s
'"
l-
I'\.
~r
r-: l-'
~
i.;'I
~
REVERSE VOL TAGE. VOLTS
---l'cml---SETTIME BASE FOR
lOOns/em
-449-
I
SRP300A THRU SRP300K
SOFT-RECOVERY, FAST-SWITCHING PLASTIC RECTIFIER
VOLTAGE - 50 to 800 Volts CURRENT - 3.0 Amperes
FEATURES
• High surge current capability
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• Void-free plastic package
.3.0 Ampere opera- "<",,-,
tion at TA =< SS'C with
"""""~
no thermal runaway
........""".
• Fast switching for high efficiency
"~. "~""
• High temperature soldering guaranteed:
26S'C/10 secondsl.37S",(9.Smm) lead lengths at
Sibs., (2.3kg) tension
DO-201AD
f
.210 (5.3)
.190 (4.8)
DIA.
r
1.0 (25.4)
LI
1+
t
.375 (9.5)
~
1.0 (25.4)
.052 (1.3)
.048 (1.2)
MECHANICAL DATA
~r
. ..
Case: JEDEC DO-201AD molded plastic
TermInals: Plated Axial leads, solderable per
MIL-STD-202, Method 208
PolarIty: Color Band denotes cathode
Mounting PosItIon: Any
WeIght: 0.04 ounce, 1.1 grams
Dimension in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 HZ, resistive or inductive load.
For capacitive load, derate current by 20%.
SRP
SYMBOLS 300A
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) lead lengths at TA - 55'C
Peak Forward Surge Current
S.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 3.0A
TA = 25'C
Maximum DC Reverse Current
at Rated DC Blocking Voltage
TA= 100'C
Maximum Reverse Recovery Time (Note 2) TJ = 25'C
Typical Junction Capac~ance (Note 1)TJ = 25'C
Typical Thermal Resistance (Note 3)
Storage and Operating Temperature Range,
VRRM
VRMS
Voc
50
35
50
SRP
300B
SRP
300D
SRP SRP
300G 300J
SRP
300K
100
70
100
200
140
200
400 600
2S0 420
400 600
SOO
560
SOO
UNITS
Vo~s
Volts
Volts
I(AV)
3.0
Amps
IFSM
VF
150
1.3
10.0
Amps
Volts
IR
100
TRR
CJ
R8JA
TJ,TsTG
200
100
300 400
150
150 200
2S.0
15.0
-50 to +150
NOTES:
1. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF = O..5A, IR = 1.0A, Irr = .25A.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) lead lengths with both leads to heat sink.
-450-
500
200
~
ns
pf
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES SRP300A THRU SRP300K
FIG. 2-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
FIG.1-FORWARD CURRENT DERATING CURVE
4.01
r--..,.--~--~-""--~--~-~
W
C)en
a:W
~a:
enW
eCl.
a:::'
3.0 i""'_c"!'~"':-+'I--+---+
200
100
........
««
~f-'"
"""
-
~
50
ioo..
OaJ
u.a:
"a:
«~
wU
Cl.
TA '"'" 55c C
8.3ms SINGLE HALF
SINE WAVE (JEDEC METHOD)
oL-_-L_ _L-_-L_ _L-_-L_~L-_~
70
30
130
110
90
10
150
10
50
100
AMBIENT TEMPERATURE,'C
FIG. 3- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS
100
10
ffl 30
a:
W
V
Cl.
::.
«
10
~
'"
T,
I-
100°C
1.0
Z
W
a:
a:
ae
T, . 5DOC
I
i
-
\I
3.0
a:
."
V
~,~ 25°C
.-'
0.1
10
o
U.
CI'J ,0.3
~
S
Z
I
0.1
~
J
T J "" 25° C
Pulse Width =: 3OOlJ.s2% Duty Cycle
.01
o
g
60
100
80
I
~
:0.4
0.6
0.8
1.0
1.2
1.4
1.6
FIG. 6 -
1.8
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
1011
NONINDUCTIVE
SOil
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
NONINDUCTIVE
+O.5A
100
Q.
U
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
.01
ui
120
.03
~
U.
40
20
I
Z
(+)
_ 50 Vdc
50
Z
-
«
l-
D.U.T.
D
(approx.)
\
,
/
-0.25
(-)
t)
1U
NONINDUCTIVE
1"-
«
Cl.
«
T J '" 250(;
U
f = 1.0MHz
Vsig = 50 Vp-p
10
1.0
5.0
10
"
~jo.
OSCILLOSCOPE
(NOTE 1)
J
=
50
REVERSE VOLTAGE, VOLTS
100
NOTES: 1. Rise Time = 7ns max., Input Impedance
1 megohm, 22pF.
2. Rise Time = 10ns max., Source Impedance
50 ohms.
-451-
-1.0
=
I\, ~
~ 1cm ~ SET TIME BASE FOR
501100nsJcm
I
BY396P THRU BY399P
SOFT RECOVERY, FAST SWITCHING
PLASTIC RECTIFIER
VOL TAGE· 100 to 800 Volts CURRENT· 3.0 Amperes
FEATURES
• High surge current capability'
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• Void-free plastic package
• 3.0 Ampere oper- ''''-,__
ation at TA =50'C with ~.,.....
no thermal runaway
.......,""-""
• Fast switching for high efficiency
"'.''''
• High temperature soldering guaranteed:
265'C/10 seconds/.375" ,(9.5mm) lead lengths at
5 Ibs., (2.3kg) tension
DO-201AD
f
.210 (5.31
.190 (4.81
DIA.
1.0 (25.41
MIN.
LI
I
t
~
.375 (9.51
.285(7.21
~~+
1.0 (25.41
.05211.31
.048 n.21
I
+
MECHANICAL DATA
T'
Case: JEDEC D0-201AD molded plastic
Terminals: Plated Axial leads, solclerable per
MIL-STD-202, Method 208
Polarity: Color Band denotes Cathode end
Mounting Position: Any
Weight: .04 ounce, 1.1 gram
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Single phase, half wave, 60 Hz, resistive or inductive load.
For capac~ive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Reclified Current
.375", (9.5mm) lead lengths at TA = 50'C
Peak Forward Surge Current
1Oms single haW sine-wave superimposed on
rated load at TA. 25'C
Maximum Repetitive Peak Forward Surge (Note 1)
Maximum Instantaneous Forward Voltage at 3.0A
Maximum DC Reverse Current TA-25'C
at Rated DC Blocking Voltage TA-l00'C
Maximum Reverse Recovery Time (Note 3)TJ=25'C
Maximum Forward Recovery Time 1OOmA TJ =25'C
Typical Junclion Capacitance (Note 2)
Typical Thermal Resistance (Note 4)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
BY396P
BY397P
BY398P
BY399P
UNITS
VRRM
VRMS
Voc
100
70
100
200
140
200
400
2S0
400
SOO
560
SOO
Volts
Volts
Volts
I(AV)
3.0
Amps
IFSM
IFRM
VF
100
10.0
1.25
10.0
500
500.0
1.0
2S.0
15.0
-50 to +125
·5010+150
Amps
Amps
Volts
IR
TRR
TFR
CJ
RaJA
TJ
TSTG
NOTES:
1. Repetitive Peak Forward Surge Current at f<15KHz.
2. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
3. Reverse Recovery Test Conditions: IF = IOmA, IR = 10mA, Irr = 1.0mA.
4. Thermal Resistance from Junction to Ambient at .375" (9.Smm) lead lengths with both leads to heat sink.
·452·
pi.
ns
lIS
pI
'cm
·C
'c
RATINGS AND CHARACTETISTIC CURVES BY396P THRU BY399P
I-'
Z
FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
FIG. 1 - FORWARD CURRENT DERATING CURVE
LJ.J
a:
a:
::J
0
200
30
a:W 100
u
oLJ.J
W
u:::
Cl(J)
'" ~
~~
LJ.Ja:
g:
~ 20
a:::;:
10
RESISTIVE OR
INOUCTIVE LOAD.
0375" (9 5mm) LEAD LE-.NG1 HS
LL
LJ.J
~
a:
40
20
LJ.J
~
(J)W
60
--....
00.
a::i
~
~
T.J_: ~OO°C
()
01
20
40
60
80
100
120
140
PERCENT OF RATED PEAK
0~0--~2~0--~40~~60~~8~0--~--~~~'40'
REVERSE VOLTAGE
TEMPERATURE °C
FIG. 4 - MAXIMUM PEAK
FORWARD SURGE CURRENT
......
200
W
('len
a:w
::J a:
en W
~~
10
0
5.0
~~
T" = 25°C
~G
10 ms ~Ingle Half
"-
IIII
s,nitave
at,_load III
:,::a:
100
~.Repetltlve
50
$:t-'"
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
T1T
~"'"
10
1
~
50
10
100
. NUMBER OF CYCLES AT 60 HZ
TJ = 25°C
()
a:
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
3€[3
OW
U-"-
1.0
::>a:
(/)W
a:
::::>
U
00..
a:::!:
««
40
o
a:
~(/)
~~
3:~
a:Z
OW
u.a:
!o<:a:
«::::>
wU
20
/
10
TJ = 2S D C
PULSE WIDTH = 300jJ S
1% DUTY CYCLE
,
u.!t'
~~
4.0
~
2.0
~
1.0
0..
o
I
~
CIJ
0.2
0.1
350
300
250
~=f
J
"'-
r--.... r-...
I",...
TJ = 25°C
V
~
"'~
~
r-...
~ I"'.....
I""" r-- ""'I'-I'-
5
10
~
20
0.8
1.0
1.2
1.4
1.6
1.8
I
2.0
IZ
~:
:3=
a: ...
.0
W(/)
a: a:
>0..
.2
~
0.1
.....
TA- 25°C
~
"
.3
joI"'"
::::>a:
OU
~~
",.
1 •• 50'
~~
(/)0
,,;
~
~
~
1 .0
Ww
loo'"
c"
1_.100'0
U
cnw
~
20-.2r-·1-.
0
W
a:
a:
::::>
I I I I
5
'00
NUMBER OF CYCLES AT 60Hz
-0
Z
~
(/)
.4
.5
.6
.7
.8
.9
?;
1.0
III
i!=
I
150
FIG. 5 - TYPICAL THERMAL RESISTANCE
0
175
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
TJ:: 175°C
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
0
;"'0
...
a:
165
8' 3m. SINGLE H'ALF
SINE-WAVE (JEDEC METHOD
200
z
:;~
15:5
FIG. 6 -iTYPICAL REVERSE
CHARACTERISTICS
:::>
~~
145
I
~
...::Ii
135
~
II
0.6
o
~
125
0.4
?;
Z
115
100
II
«
105
LEAD TEMPERATURE·C
AMBIENT TEMPERATURE·C
400
- ."
~~
I
I
160
.6" x 1.6" x 0.4'
x 40mm x 1mn) Cu
~ (40mm
1"'0..
r-. ~)
6~
r--.. ~
~
140
\O-9-Or----
i"ooo..
.~
1.0
I I
RESISTIVE OR INDUCTIVE LOAD
EQUAL LEAD LENGTHS TO HEAT SINK. INCHES
01
20
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLT "'GE
-457-
140
.~
-SRP600A THRU SRP600K
HIGH CURRENT SOFT RECOVERY FAST·
SWITCHING PLASTIC RECTIFIER
VOLTAGE· 50 to 800 Volts CURRENT· B.O Amperes
FEATURES
o
....1
1':~la~
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• High surge current
capability
• High current operation
• Void-free plastic package
• Fast switching for high efficiency
• High temperature soldering guaranteed:
26S'C/10 secondsl.37S ,(9.Smm) lead lengths at
Sibs., (2.3kg) tension
H
MECHANICAL DATA
Dimensions In inches
and
(millimeters)
CBse: Molded plastic
Terminals: Plated Axial leads, solderable per
MIL-STO-202, Method 206
Polarity: Color Band denotes cathode
Mounting Position: Any
Weight: 0.07 ounce, 2.1 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient'l8mperature unless otherwise specified.
Resistive or inductive load. For capacitive load, derate current by 20%.
MP
St'lfBOLS 6/IIIA
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) lead lengths at TA - 55'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at S.OA
Maximum DC Reverse Current TA=25'C
at Rated DC Blocking Voltage TA-1oo'C
Maximum Reverse Recovery Time (Note 1) TJ - 25'C
Typical Junction Capacitance (Note 2) TJ. 25'C
Typical Thermal Resistance (Note 3)
Operating Temperature Range
Storage Temperature Range
VRRM
VRMS
Voc
50
35
50
MP
MP MP
IFSM
VF
60DG 60DJ
60DK
UNIJ'S
100
70
100
200
140
200
400 SOO
280 420
400 SOO
800
5S0
800
Volts
Volts
Volts
100
300
1.3
10.0
1.0
100
150
150 200
300
10.0
-50to+125
-5010+150
NOTES:
1. Reverse Recovery Test Conditions: IF = O.SA. IR = 1.00, Irr = .25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal Resistance from Junction to Ambient at .375" (9.5mm) lead lengths, with both leads to heat sink.
-458-
MP
6/1110
S.O
I(AV)
IR
TRR
CJ
R8JA
TJ
TSTG
MP
60DB
fo\mps
~mps
200
Volts
j!A
mA
ns
pf
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES SRP600A THRU SRP600K
FIG. 1 - FORWARD CURRENT DERATING CURVE
7,0
RESISTIVE OR
INDUCTIVE LOAD
.....
0 .....
!*I1.y·K.
.....
.... ....
"
0
--
0
0
20
I I I I I
V
~
~iveLoacfl, I Ground pl.~ I-5.O"\l!f~ 1" x,", Copp_'
..... t!" /'I ~ ~I
.....
I;'
"""
:""'00
0
1.0
.
26i~
(25.4mm x
""~icei'ii
~.'\.I T - 'RECOMMENDED
PC BOARD
W
MOUNTING
I~
0
20
40
80
60
100
120
140
180
7b
180
SO
8S
F~G;
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
400
~
200
Z
~
./
100
400
........
r
W
(!len
a:W
:lao
enw
eCL
a::::!
a:
:l
o
o
a:
~en
~ll!
40
oe(oe(
~t--"
20
10
OW
!La:
::.::a:
oe(:l
wO
TJ" 25°C
PULSE WIDTH = 300/J S
1% DUTY CYCLE
... M:'
en:::!
:loe(
"-
4.0
o
~
2.0
~
Z
1.0
~
en
~
350
300
250
a:Z
L
90
95
tOO
105
,,0
115
120
I
200
"""'"
4-
MAXIMUM NON-REPETITIVE PEAl{
FORWARD SURGE CURRENT
al 3ms S\NG~E HALF
SINE·WAVE (JEDEC METHOD
I
~ ....
f""oo~
......
~
TJ " 25°C
V
~
I'.......
...
~
i"-.... I"'......
TJ "- 17S"C
150
r--. r-r-
100
I
5
10
20
50
I
I
J
0,1
0.6
FIG. 6 - TYPICAL REVERSE
CHARACTERISTICS
0.8
1.0
1.2
1.4
1.6
1.8
2.0
~
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
,
.~
fJ=O.o
5
~
W
T•• 100·C
:l
o
...
~
..
2(1-...1('_ ...... 1,; ..
I-"
0
10
a:
a:
FIG. 5 - TYPICAL THERMAL RESISTANCE
0
T•• 60'C
~
~ I"'"
r
T•• 25'C
~
5.0
...
100
NUMBER OF CYCLES AT 60Hz
0,4
0,2
125
LEAD TEMPERATURE' C
AMBIENT TEMPERATURE'C
i'"
.2
.3
.4
.5
.6
.7
.8
.9
1,0
20
EQUAL LEAD LENGTHS TO HEAT SINK. INCHES
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
-459-
140
RSF8AT THRU RSF8,MT
FAST SWITCHING GLASS PASSIVATED RECTIFIER
VOLTAGE - 50 to 1000 Volts CURRENT- 8.0 Amperes
FEATURES
• Isolated Overmolded Package
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• High surge capacity
ITO-220
.Il! .008
(3.3 to.21
• High current capability
• Low forward voltage
• Glass passivated junction
• Internal Insulation: 1.5k VRMS
MECHANICAL DATA
,.1071.008
12.7tO.21
Case: ITO-220 fully overmolded plastic
Terminals: Lead solderable per MIL-STD-202,
Method 208
Polarity: As marked
Weight: .08 ounces, 2.24 grams
Mounting Position: Any
Mounting Totque: 5 in. - Ibs. max.
PIN 10---,
......4°REF.1I" ....
PI"2~
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
RSF8 RSF8 RSF8 RSF8 RSF8 RSF8 RSF8
SYMBOLS AT
ST
or GT JT KT MT UNITS
Maximum R9Current Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectnied Current
at Tc -100'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 8.0A
Maximum Reverse Current
Tc- 25'C
at Rated DC Blocking Voltage Tc -100'C
Maximum Reverse Recovery Time (Note 2) TJ = 25'C
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
I(AV)
8.0
Amps
IFSM
VF
150
1.3
10.0
250
200
55
3.0
-65 to +150
Amps
Volts
IR
TRR
CJ
ReJC
Tc,TsTG
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Voc.
2. Reverse Recovery Test Conditions: IF =0.5A, IR = 1.0A, Irr = .25A.
3. Thermal Resistance from Junction to Case.
-460-
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
150
250 500
~
ns
pI
'cm
·C
RATING AND CHARACTERISnC CURVES RSFBAT THRU RSFBMT
FIG. 3 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150 ~--'-----'-'--"'---'TT'----'--
""
~oo
rr.
W
&lffi
~~
Fig. 1- FORWARD CURRENT DERATING CURVE
~
Z
L1J
0:
0:
~
10
I I I I I
8.0
OOO 6.0
0:L1J
«0:
(!)
«
0:
L1J
>
«
2.0
TA AMBIENT ~E ('C)
~AJecrJ.w
A.ablainod·fnf_oIr.no_.ink
AE~'ST,IV~; 6A IJOUdTIVJ Lolo
a
(~~~E~~~THOD)
'""'"
TEMPERATURE, ·C
J +-t
i i
........
'---t------j""":l-t-i--+++t---t-'-r--
'
---+-1- ~
__
I' [--...~
50
I
25
,
,
r-~,-
1
~_.1 L ~
I
r-----t------j-t-t-i--+++t---t---i----
D..
__
5
10
20
50
100
NUMBER OF CYCLES AT 60 Hz
I"-- I"-- I"-- ~
Fig. 4- TYPICAk REVERSE
CHARACTERISTICS
100
-
150
100
I
!
f'r--.
75
'~
r- I"--
50
;:1i
1\I\.
~L1J
,4.0
~~
\
()
0:D..
0::'
u.«
L1J
~:,
[§ aJ
To CASE 11 UPE /V'T RE
I
100
I 8 3m, SINGL~E-WAVE
~
125
..........
r--
Tc = lOooe
I IL
Tc::: 75°C
.1
V
Fig. 2- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
400
200
>-
m
"..
100
V
2
a::
aoa::
0:
1
20
1/
20
«oo
~~
10
oo::;:
4
J
2% DUTY CYCLE
~
~
u.
"-
/
ui
Z
«
o
«
04
OL
«
/
I
6
80
()
t-
02
"
10
, 2
, 00
120
140
60
40
I'
TJ'" 25°C
f= 1MHz I
ysig = 50mV -p
()
8
Tc = 25°C
60
Fig. 5- TYPICAL JUNCTION CAPACITANCE
120
100
z
«
>z
,
60
PULSE WIDTH = 300j.lS
I
L1J
--
40
PERCENT OF RATED PEAK REVERSE VOLTAGE
TJ ::: 25°C
0L1J
u.D..
5«
f..-i
40
I""'"
1.4
1.6
1.B
20
"
-
.........
---
r---
20
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
-r-I-- 01
0.5
10
5
10
50
REVERSE VOLTAGE, VOLTS
-461-
100
500 1000
I~
RS8AT THRU RS8MT
HIGH CURRENT FAST SWITCHING PLASTIC RECTIFIER
VOLTAGE-50 to 1000 Volts
CURRENT-B.OAmperes
FEATURES
• The plastic package carries Underwriters
Laboratory Flammability Classification 94V-O
• High forward surge capability
• High current operation
• Low forward voltage drop
• Fast switching for high efficiency
• Glass passivated chip junction
• High temperature soldering guaranteed:
265·C/10 secondsl.25",(6.35mm) lead lengths at
5 Ibs., (2.3kg) tension
TO-220
.420110.67]
.380(9.65]
~:ma
..I ..055 (1.40]
.155 (3.94] DIA
~t(3.6f ·-r-.-15-0-(3:-.8-11t-~-~
.11 0 (!!!l
.640116.26]
.620115.75]
PIN
P~N
1
m:m
~
~
t
"11·~~~m:::l
.......... 210(5.331
.190(4.83]
ft
~
T
(1~.24]
.600
.575 (14.611
1
.36019.141
.320 (8.131
I
~
(2iWt·""..:r--...L.-
1.163
1.103 (28.02]1
•
.025
~~~: J+MAX.
'~.I"
"
MECHANICAL DATA
CBse: JEDEC TO-220 molded plastic
Terminals: Plated Leads solderable per
MIL-STD-202, Method 208
Polarity: As marked
Weight:: .08 ounces, 2.224 grams
Mounting Position: Any
.110(2.79]
.090(2.29]
(CASE POSITIVE]
PIN 1 + <>-----t...:,
STANDARD POLARITY PIN 2 - o---+f-ICASE
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
aITc= 100·C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed on
rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 8.0A
TJ-2S·C
Maximum Reverse Current
at Rated DC Blocking Voltage Tc= 100·C
Maximum Reverse Recovery Time (Note 2) TJ = 2S·C
Typical Junction Capacitance (Note 1)
Typical Thermal Resistance (Note 3)
Operating and Storage Temperature Range,
VRRM SO
VRMS 35
Voc SO
100 200 400 600 800 1000 Volts
70 140 280 420 S60 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
8.0
~mps
IFSM
lS0
1.3
10.0
250
200
SS
3.0
-SOIo+lS0
[Amps
Volts
VF
IR
TRR
CJ
R8JC
J,TST~
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Vee.
2. Reverse Recovery Test Conditions: IF = O.SA, IA = 1.0A, Irr = .2SA.
3. Thermal Resistance from Junction to Case attached to heat sink.
-462-
lS0
2S0 SOO
p}.
ns
pi
·CIIN
·C
RATINGS AND CHARACTERISTIC CURVES RSBAT THRU RSBMT
FIG. 3 150
125
W
a:W
::>a:
CIlW
100
a:~
75
ClCll
Fig. 1- FORWARD CURRENT DERATING CURVE
~
Z
W
a:
a:
::>
10
Tel
JeJMP~A IRE
e(e(
a: W
e(a:
~W
a: 0..
o:::!
u.e(
W
Cl
e(
a:
W
>
e(
a:Z
OW
u.a:
a:
e(::>
W()
8.0
\
6.0
,4.0
"
~AJeo'cLw
RESISTIVE OR INDUCTIVE LOAD
r-- ~ r-..
50
-.....
··tt-
.....
•,,-,
~
, ,
I--r--. '
50
"'-
t'
+
t-H-
t,
25
0..
,
TA AMBIENT m~r 1°C)
A.obtaIned In free air, no heat sink
I I I I I I I
, ' T TTl
8.3ms SINGLE HALF SINE-WAVE
IJEDEC METHODI
TJ = 150"e
0.:
I\~
2.0
II,
~
:f;~
()
CCll
co..
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
"-
5
10
L
_...
20
L1
50
100
NUMBER OF CYCLES AT 60 Hz
~
r-.. ~ ~ ~
100
Fig. 4- TYPICAL REVERSE
CHARACTERISTICS
100
150
,.:
Z
-
40
w
a:
a:
::>
TEMPERATURE, 'C
()
...-
...-
TC1'°'oOC /
<
Tc '" 75"C
...........
Fig. 2- TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~t-
400
200
I-
~
./
100
a:
a:
G
o
a:
~CIl
~~
u.~
CIl:::!
5e(
40
1
20
I
10
V- ......
o
TJ = 25"C
PULSE WIDTH = 300jJ.S
2% DUTY CYCLE
20
40
60
- - f---Tc = 25"C
80
100
120
140
PERCENT OF-RATED PEAK REVERSE VOLTAGE
Fig 5- TYPICAL JUNCTION CAPACITANCE
4
120
1
w
Z
100
/
~
Z
~~
L
--
~
"-
u.
c.
uj80
()
Z
0.4
~
0.2
(3
I
0.1
6
if:
1.0
1,2
1.4
1.6
1.8
2.0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
e(
80
TJ
=25"C
"-
f= 1MHz I
Vsig = 50mV -p
40
........
()
...........
--
20
0.1
0.5
1.0
5
10
50
REVERSE VOLTAGE, VOLTS
-463-
100
500 1000
I
-464-
BRIDGE RECTIFIERS
0.9AMPERE TO 35 AMPERES
50 VOLTS TO 1000 VOLTS
______
-465-
INsrCft~1Mlr
......
BRIDGE RECTIFIERS
0.9 to 35 Amperes
50 Volts to 1000 Volts
Families of General Instrument Bridge Rectifiers
All types of rectifier cells, which are produced by GENERAL INSTRUMENT, are available in bridge
configurations, molded in various piestic packages.
The basic types of packages are
• Round Plastic Package (Fig. 1)
• IN·LlNE Plastic Package (Fig. 2)
• DUAL-IN-LiNE Plastic Package (Fig. 3)
• Square Plastic Package for Chassis Mounting (Fig. 4)
These bridge families are available with different terminals, such as wire leads, FASTON or soldering
lugs.
(-)
(AC)
(AC)
Fig. 2 IN·LINE Bridge
Fig. 1 Round Bridge
ITEM DESCRIPTrON
1. Solder Preforms
2. Formed Copper Leads
3. Plastic Case
4. Cells or GPP Chips
Fig. 3 DUAL·IN·L1NE Bridge
Fig. 4 Chassis Mounted Bridge
FAMILIES OF GENERAL INSTRUMENT BRIDGE
RECTIFIERS
Dual-In-Line Single Phase Bridge Rectifiers
Types:
DF005M
RDF005M
thru DF10M
thru RDFOBM
(Fast Recovery)
B40C80DM - B380C800DM
Miniature Single-Phase Bridge Rectifiers
thru WI OM
thru 2Wl0M
thru B250C800 (M)
thru B380Cl0000 1M)
thru B380C1500 (M)
thru Wl0G*
thru AW08G*
thru RW08G* (Fast Recovery)
In-Line Single Phase Bridge Rectifiers
Types:
KBP005M
2KBP005M
KBU4A
KBL005
KBU6A
KBU8A
B40C3700 ·2200
B40C5000 3300
3N249
3N253
1,5 to 2 AMPERES
Features:
• Surge Overload Rating 50 and 60 Amperes Peak
• Ideal for Printed Circuit Board
• Reliable Low Cost Construction
• Leads are Solderable to MIL-STD-202
Method 20B
• Plastic Package has Underwriters Laboratory Flammability Classification 94V-0
• All bridge series are UL recognized under component index, file number E54214
Types:
W005M
2W005M
B40CBOO (M)
B40Cl000 IMl
B40C1500 (M)
W005G
AW02G
RW005G
thru KBP10M*
thru 2KBP10M*
thru KBU4M
thru KBL10
thru KBU6M
thru KBU8M
thru B380C3700 /2200
thru B380C5000 '3300
thru 3N252*
thru 3N259*
*These bridges have glass passivated chip junctions
1.0 to 8,0 AMPERES
Features:
• Surge Overload Rating from 50 to 300 Amperes Peak
.- Ideal for Printed Circuit Board
• Reliable Low Cost Construction utilizing molded Plastic
• Leads are Solderable to MIL-STD-202 Method 208
• Plastic Package has Underwr:ters Laboratory Flammability Classification 94V-0
• All bridge series are UL recognized under component index file number E54214
*These series have Glass Passivated Chip Junctions
High Current Single Phase Bridge Rectifiers
Types:
KBPC1005
0.9 to 1.0 AMPERE
Features:
• Surge Overload Rating 50 Amperes Peak
• Ideal for Printed Circuit Board
• Reliable Low Cost Construction
• Tinned CODDer Leads Solderable to MIL-STD-202 Method 208
• Glass Passivated Chip Junctions
• Plastic Package has Underwriters Laboratory Flammability Classification 94V-0
• All bridge series are UL recognized under component index, file number E54214
thru KBPC110
SUPERECTIFIER
Construction
KBPC6005 thru KBPC610
KBPC8005 thru KBPC810
SUPERECTIFIER
Construction
KBPC10-005 thru KBPC10 -10
KBPC15-005 thru KBPC15 -10
KBPC25-005 thru KBPC25 -10
KBPC35-005 thru KBPC35 -10
3_0 to 35 AMPERES
Features:
• High Capability of Surge Overload Rating
• Insulated Case for Maximum Heat Dissipation
• Low Forward Voltage Drop
• Copper Leads or Faston Terminals
• Simple Installation thru Screw hole for NBR6 Screw
• Leads or Terminals are Solderable to MIL-STD-202 Method 208
• Plastic Package has Underwriters Laboratory Flammability Classification 94V-0
• All bridge series are UL recognized under component index, file number E54214
-467-
I
QUICK GUIDE TO BRIDGE RECTIFIERS
I,(A)
1.0
1.5
1.5
1.0
2.0
2.0
2.0
4.0
4.0
6.0
B.O
I,(A)
@T,('C)
40
25
50
75
25
50
55
50
65
40
100Tc
@T.<\,(QC)
SURGE (A)
50
30
60
60
60
200
200
250
300
VR =
50 (V)
DF005M
W005MIG
KBP005M
3N246
2W005M'
2KBP005M
3N253
KBlO05'
KBU4A
KBU6A
KBUBA
VR =
VR =
100 (V)
DF01M'
W01MIG
KBP01M
3N247
2W01M
2KBP01M
3N254
KBl01"
KBU4B
KBU6B
KBUBB
VR = 100 (V)
VA =
200 (V)
DF02M;
W02MIG
KBP02M
.3N24B
2W02M
2KBP02M
3N255
KBl02'
KBU4D
KBU6D
KBUBD
VR = 200 (V)
VA =
400 (V)
DF04M
W04MIG
KBP04M
3N249
2W04M
2KBP04M
3N256
KBl04 .
KBU4G
KBU6G
KBU8G
V,:
VR =
600 (V)
DF06M'
W06M IG
KBP06M
3N250
2W06M
2KBP06M
3N257
KBl06
KBU4J
KBU6J
KBUBJ
VR = 600 (V)
VR = 800 IV)
DF08M
WOaMIG
KBP08M
3N251
2W08M
2KBP08M
3N258
KBl08
KBU4K
KBUSK
KBU8K
VR ""
V,: 10001V)
DF10M'
W10M\G
KBP10M
3N252
2W10M
2KBP10M
3N259
KBl10
KBU4M
KBU6M
KBU8M
V,: 1000 (V)
SURGE (A)
50
50
QUICK GUIDE TO BRIDGE RECTIFIERS
I,IA)
3.0
S.O
8.0
10
15
25
35
I,(A)
@T,('C)
50.
100
"50 .
55
55
55
55
@T,I°C)
SURGE (A)
VA:::::
50 (V)
VA = 100 IV)
50
200
125
200
300
300
400
KBPC1005.
KBPCS005
KBPC8005·
KBPC10-005
KBPC15-00S
KBPC25-005
KBPC35·00S
VR =
SO (V)
KBPC35-01
VR =
100 (V)
200 (V)
KBPC101.
KBPC601 .
KBPC801.
KBPC10-01
KBPC15-01
KBPC25-01
SURGE (A)
VA =
200 (V)
KBPC102.
KBPC602
KBPC802.
KBPClO-02
KBPC15·02
KBPC25·02
KBPC35·02
VR ""
VR =
400 (V)
KBPC104·
KBPC604
KBPC804.
KBPC10-04
KBPC15-04
KBPC25·04
KBPC35-04
VR = 400 IV)
VR = 600 IV)
VR ... 800 (V)
KBPC10S.
KBPC606
KBPC806·
KBPC10-06
KBPC15·06
KBPC35·06
KBPC108.
KBPC60a
KBPC80a·
KBPC10·0a
KBPC15-08
KBPC25-0a
KBPC35-0a
VA = 600 IV)
VR "" 800 (V)
V,: 1000 (V)
KBPC110.
KBPCS10
KBPC810·
KBPC10-10
KBPC15-10
KBPC25-10
KBPC35-10
V,: 1000(V)
KBPC25·06
• SUPEAECTIFIEA construction
QWCKGUIDETOBRIDGERECTIRERS
10 (A)
o.a
1.0
1.5
1.5
3.7
5.0
10 (A)
@TA(OC)
45
45
45
45
45
45
@TA(°C)
100
200
SURGE (A)
SURGE (A)
45
45
45
90
V'MS: 40 (V)
B4OC800')')
B40C1000')
B40C1500
B40C1500C
B40C370012200 B40C500013300 V'M': 40 (V)
V'MS: 80 (V)
B80C800')')
B80C1000')
B80C1500
B80C1500 C
B80C370012200 B80C500013300 V'MS: 80 (V)
V'MS : 125 (V)
B125C800')')
B125C1000')
B125C1500
B125C1500 C
B125C370012200 B125C500013300 V'MS: 125 (V)
V'MS - 250 (V)
B25OC800')')
B250C1000')
B250C1500
B250C1500C B250C370012200 B250C500013300 V'M' : 250 (V)
V'MS : 380 (V)
B380C800')')
B380C1000')
B380C1500
B38OC1500C B380C370012200 8380C500013300 V'MS : 380 (V)
1) M Indicates Miniature Package
2) DM Indicates Dual-Inline Package (IC-L.:eads)
·468·
50 (V)
400 (V)
800 (V)
I
-469-
B40C / B80C / B125C / B250C / B380C
800M SERIES
MINIATURE SINGLE· PHASE SILICON BRIDGE RECTIFIER
Voltage . 65 to 600 Volts Current· 0,9 Amperes
FEATURES
A@:BT·
f-~
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
• High case dielectric
•
strength
., '
• Typical IR less than 0.1 Il A
• High overload surge current
• Ideal for printed circuit board
• High temperature soldering guaranteed
2S0'C/l0 seconds/.37S", (9.Smm) lead length at
Sibs., (2.3kg) tension
~
0-0
+
I_I ..
6
)
:T
I-L
1
AC
220(5.6)
•1BO (4.6)
1. 0 MIN •
(25.4)
_1
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
Terminals: Plated Leads solderable per
MIL-STD-202, Method 208
Mounting Position: Any
Weight: O.OS ounce, 1.3 gram
Dim9nsions in inch9s
and
(millim9t9rs)
------------------------------------
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. 50 Hz or 60 Hz, resistive or inductive load.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Inpur Voltage R + C-Load
Maximum Average Forward OutputCurrent for
free air operation at TA = 45'C
R+ L-Load
C - Load
Maximum DC Blocking Voltage
Maximum Repetitive Peak Reverse Voltage
Maximum Peak Working Voltage
Maximum Non-Repetitve Peak Voltage
Maximum Repetive Peak Forward Surge Current
Peak Forward Surge Current
Single Sine wave on rated load at TJ = 125'C
Rating for Fusing at TJ = 125'C (kl00ms)
Minimum Series Resistor C·Load VRMS =+ 10%
Maximum Load Capacitance +50%
-10%
Maximum Instantaneous Forward Voltage Drop
per element at 0.9A
Maximum Reverse Current at rated Repetitive
Peak Voltage per element TA =25'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
840
880
8125
8250
8380
UNITS
VRRM
VRMS
65
40
125
80
200
125
400
250
600
380
VoRs
Volts
400
400
600
600
600
600
900
1000
Amps
Volts
Volts
VoRs
Volts
Amps
I(AV)
Voc
VRRM
VRWM
VRSM
IFRM
65
65
90
100
IFSM
I't
Rt
1.0
CL
5000
125
125
180
200
0.9
0.8
200
200
300
350
10.0
2.0
45.0
10.0
4.0
8.0
12.0
ohms
2500
1000
500
200
j.1F
Amps
A~S
VF
1.0
Volts
IR
ReJA
TJ
TSTG
10.0
36.0
-40 to +125
-40 to +150
j.1A
'CIW
'C
'C
NOTES:
1. Thermal Resistance from Junction to Ambient mounted on P.C Board at .375" (9.5mm) Lead Lengths with 0.2" x 0.2"
(5.5mm and 5.5mm)Copper Pads.
-470-
RATINGS AND CHARACTERISTIC CURVES 840C THRU 83BOC BOOM
FIG. 2 - DERATING CURVES FOR
OUTPUT RECTIFIED CURRENT
8250C 8OOM ... 838OC 800M
FIG.1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
FOR B40C BOOM ...B125C 800M
10
IZ
W
a:
a: Ul
I-::::lw
::::lUa:
D-OW
I-wD::::lIT:::;;
0>=«
WUW
ClwCl
Oa:«
iI:wffi
(l)~>;;:<1:
10
IZ
W
a:
a: Ul
I-::::lW
::::lUa:
D-OW
I-WD::::lIT:::;;
0>=«
wuw
ClwCl
Oa:«
ReSt iveorl
uctrve cad
"-
08
.'. ~
':>fJ ....'
.."" I'
-lO~F
06
100liF
iI
hn'-
04
a:LJ.Jffi
m~>-
;;:<1:
02
I
...J
...J
.. I~\
I'~
375"
. mm
08
0.6
04
02
...J
...J
'J
::::l
u..
/
20
::::l
u..
i,\
.22 In • .22 In (5.5nvn. 5.6 mm)
20
40
60
80
100
120
40
FIG. 3 - TYPICAL
REVERSE CHARACTERISTICS
Z
W
a:
a:
::::l
U
0
a:
~~
Z::::l
-
.-
...-
OW
u..DUl::;;
::::l«
W
Z
~
Z
~
Ul
;E;
°
-U
./
20
~J
I
10
I
01
I
I
I
01
40
80
60
100
140
120
04
140
/
250cl
o
~ PULSE WIDTH = 300jlS
: : 2%Duty Cyct~
25°C
TA
120
,
~fil
a: a:
01
01
10
....,
10
TA .. 100°C
100
FIG. 4 - TYPICAL FORWARD CHARACTERISTICS
20
1.0
80
140
AMBIENT TEMPERATURE. °C
WUl
UlW
a: a:
WW
>DW::;;
a:«
UlO
::::la:
O~
W::;;
Z....,
~Z
Zw
60
AMBIENT TEMPERATURE. °C
06
08
1.0
12
14
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
PERCENT OF RATED PEAK REVERSE VOLTAGE
I.'.;
,y
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD CURRENT
W
ClUl
a:W
::::la:
UlW
ODa:::;;
<:(<(
40
30
;;:....,
a:Z
OW
u..a:
""a:
«::::l
wU
100
60
50
20
'" r--.....
~
""- ......
TJ.2 "C
10mS SINGLE SINE·WAVE
ill
r---..
U
Z
~
(3
it«
r"""- ~
40
20
r""'"",
TJ-25
10
~~f.l.0MHz
f-- Voig • SOm Vp-p
U
10
D-
10
20
40
60
100
10
NUMBER OF CYCLES AT SOHz
2
10
20
REVERSE VOLTAGE, VOLTS
-471-
40
100
B40e / B80e / B125e / B250e / B380e
800 OM SERIES
MINIATURE GLASS PASSIVATED SINGLE - PHASE BRIDGE RECTIFIER
Voltage - 65 to 600 Volts
0
_ _ _r.c.285 17.241
-
+ .25J(6.51
...
. . . __ L_
.245(6.21
Current - 0,9 Amperes
·
FEATURES
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
Glass passivated chip jUnctlons~
Surge overlolad rating of
:~~m:~l 45 Amperes peak
_!_ • Ideal for printed circuit board
• High temperature soldering guaranteed
265'C 110 seconds at 5 Ibs., (2.3kg) tension
[OJ! ·
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
Terminals: Plated Leads solderable per
MIL-STO-202, Method 208
Mounting Position: Any
Weight: 0.04 ounce, 1.0 gram
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise spec~ied. 50 Hz or 60 Hz, resistive or inductive load.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Input VoRage R + C-Load
Maximum Average Forward Output Current for
free air operation at TA a 45'C
R + L-Load
C - Load
Maximum DC Blocking Voltage
Maximum Repetitive Peak Reverse Voltage
Maximum Peak Working Voltage
Maximum Non-Repetitve Peak Voltage
Maximum Repetive Peak Forward Surge Current
Peak Forward Surge Current
Single Sine wave on rated load at TJ - 125'C
Rating for Fusing at TJ = 125'C (1<100ms)
Minimum Series Resistor C-Load VRMS = + 10%
Maximum Load Capacitance +50%
-10%
Maximum Instantaneous Forward Voltage Drop
per element at 0.9A
Maximum Reverse Current at rated Repetitive
Peak Vol~age per element TA = 25'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
840
880
8125
8250
8380
UNTrS
VRRM
VRMS
65
40
125
80
200
125
400
250
600
380
VoRs
Volts
400
600
600
650
600
900
900
1000
Amps
Volts
VoRs
VoRs
VoRs
Amps
I(AV)
Voc
VRRM
VRWM
VRSM
IFRM
65
90
90
100
125
180
180
200
0.9
0.8
200
300
300
350
10.0
Rt
1.0
2.0
45.0
10.0
4.0
CL
5000
2500
1000
IFSM
1"1
VF
1.0
IR
RaJA
TJ
TSTG
10.0
40.0
-40 to +125
-40 to +150
NOTES:
Amps
A~S
8.0
12.0
ohms
500
200
I1F
1. Thermal Resistance from Junction to Ambient mounted on p.e Board 0.5' x 0.5" (13mm x 13mm) Copper pads.
-472-
Volts
I1A
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES 840C THRU 8380C 800 DM
FIG.2· DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
FOR B250C 1000M.... B38OC 1000M
FIG 1 • DERARTING CURVE FOR
OUTPUT RECTIFIED CURRENT
FOR B40C 1000M••• B125C 1000M
10
f:::J
:::Jw
Oa:
OW
a:"-
~~
a:fOZ
LLW
'"' a:
('la:
DpF
. ne'
0<,
~"
I'""1
0 lO/,F
n
> OO/,F
06
04
40
60
80
100
20
:;:
40
30
'"
r--....
10
~
'Z
>'
(J)
10
100
10
T... 125·0
20
a:
0
LL
80
60
fZ
W
a:
a:
:::J
lams SINGLE SINE-WAVE
"""" r-...
"
X .511N (13mm x 13mm)
FIG. 4 - TYPICAL FORWARD
CHARACTERISTICS
PER BRIDGE ELEMENT
60
W
('len
a:W
:::Ja:
enW
OeL
a:::;i
«£
CL
~
10
"""'-
20
40
60
lOa
0
1'\
lOa
80
........
FIG. 4 - TYPICAL FORWARD
CHARACTERISTICS
PER BRIDGE ELEMENT
1'\
~
60
r--.... .......
NUMBER OF CYCLES AT 60 Hz
OR
LOAD
40
20
«
w
-eo¥.
ESI TIV
INDUCTIVE
20
. . . r--. 1'-0....
30
;;:
v.
Sing I Sine-\}
(JED C Meth oj
0:
""r\.
o
')60'C
r.......
40
0:::2
IT
"
50
~o:
±
rlr-- hi
60
LU
CJ(/)
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
120
140
7'
1/
J
150
0
AMBIENT TEMPERATURE. 'C
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
PER BRIDGE ELEMENT
J
1
'0 u
(/)
UJ
0:
TJ.I25·C
UJ
CL
o«
10
I
l..."....oo-
j......-' I-'"
::2
~
0:
~
FIG. 5 -
0:
0:
100
~
UJ
>
T,,_25"C
(/)
0
u.i
o
/~
~
1
f-
14
TJ
10
25 C
<=-c. (.1.0MHz
~
r-..~
EVeig • 5OmVp-p
U
Z
«
CL
«
LU
f-
«
12
~
'"a.
V
UJ
0:
Z
O~s
eye E
TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
1"'00.
(/)
0:
o
TV
10
I 0
UJ
~
2% 0
08
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
~
Z
UJ
o
06
04
o
T.I_25"C
PULSE)t~dth 3
I
01
I""
o
f-
(/)
Z
20
... 0
60
80
100
120
10
'40
10
REVERSE VOLTAGE. VOLTS
PERCENT OF RATED PEAK
REVERSE VOLTAGE
-475-
100
I
B40C / B80C / B125C / B250C / B380C
1000M
MINIATURE SINGLE· PHASE SILICON BRIDGE RECTIFIER
Voltage . 65 to 600 Volts Current· 1,0 Ampere
FEATURES
• Plastic package has UnderwrHers Laboratory Flammability Classification 94V-0
6
• High case dielectric
strength
~...
• TypicallR less than 0.1 J1 A
\.
.zzill..§!
.180r·6J
A@I
~-~
0-0
+
1--1'
IJ...
• High overload surge current
i
AC
.220 (S.6J
•180 (4.6J
1.0 MIN •
(25.4J
_1
.., .032 (.811 0IA
.0281.71l
•
Dimensions in inches
and
(millimeters)
\\,
• Ideal for printed circuH board
• High temperature soldering guaranteed
250'C/10 secoOOsl.375", (9.5mm) lead length at
5 Ibs., (2.3kg) tension
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
Tennlnals: Plated Leads solderable per
MIL-STD-202, Method 208
Mounting Position: Any
Weight: 0.05 ounce, 1.3 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. 50Hz or 60 Hz. resistive or inductive load.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Inpur Voltage R + C-Load
Maximum Average Forward Output Current for
R+ L-Load
free air operation at TA = 45'C
C- Load
Maximum DC Blocking Voltage
Maximum Repetitive Peak Reverse Voltage
Maximum Peak Working Voltage
Maximum Non-Repetitve Peak Voltage
Maximum Repetive Peak Forward Surge Current
Peak Forward Surge CurrentSingle Sine wave on
rated load (JEDEC) Method) at TJ = 125'C
Rating for Fusing at TJ = 125'C (1<100ms)
Minimum Series Resistor C-Load VRMS '" -or+ 10'""
Maximum Load Capacitance +50%
-10%
Maximum Instantaneous Forward Voltage Drop
per element at 1.0A
Maximum Reverse Current at rated Repetitive
Peak Voltage per element TA • 25'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
840
B8I1
8125
825D
8UD
UNffS
VRRM
VRMS
65
40
125
80
200
125
400
250
600
380
Volts
Volts
400
600
600
600
600
800
900
1000
Amps
Volts
Volts
Volts
Volts
Amps
I(Av)
Vee
VRRM
VRWM
VRSM
IFRM
65
90
90
100
125
180
180
200
1.2
1.0
200
300
300
350
10.0
RtW
1.0
2.0
45.0
10.0
4.0
CL
5000
2500
1000
IFSM
I~t
Amps
A~S
8.0
12.0
ohms
SOO
200
I1F
VF
1.0
Volts
IR
ReJA
TJ
TSTG
10.0
36.0
·40 to +125
-40 to +150
IIA
'cm
NOTES:
1. Thermal Resistance frem Junction to Ambient mounted on P.C Board at .375' (9.5mm) Lead Lengths with 0.2' x 0.2'
(5.5mm x 5.5mm) Copper Pads..
.
-476-
·C
·C
RATINGS AND CHARACTERISTIC CURVES
840C 1000 THRU 8380C 1000M
FlO. 2 • DERATING CURVES FOR
OUTPUT RECTIFIED CURRENT
B250C 1000M ••• B380C 1000M
FIG. 1 • DERATING CURVE
, OUTPUT REACTIFIED CURRENT
1 2 _ _.....- . - - . , . - - - , , . - - - , , . - - .
B40C ~ 1000M.M B126C 1000M
1.2 ...-
-'
-'
::::l
.........,,...--,...--..--,..---.
0.2
20
LL
40
60
80
100
120
140
AMBIENT TEMPERATURE, ·C
20
40
60
80
100
120
140
AMBIENT TEMPERATURE, ·C
FIG. 4 -
TYPICAL FORWARD CHARACTERISTICS
20
ITJ
FIG. 3 - TYPICAL
REVERSE CHARACTERISTICS
10
I-'
-
10QOC
TA
10
a::«
enO
::::la::
og
w::;:
~~
Zw
~~
z::::l
a::
~fD
LL"-
;'!:
;'!:
en
~
/"
TA
I
01
40
60
80
120
100
140
04
0"30
5:>-'
LL
C.
uJ
" ........ ...........
20
r""-o
T,.l25·C
HINGLE SINE·WAY E
10
(JE,EC Motj"d)
10
20
40
1.2
1.4
40
U
Z
20
;'!:
10
~
r--
60
10
100
80
t"--...
..........
08
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
50
40
06
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5 - MAXIMUM NON·REPETITIVE
PEAK FORWARD CURRENT
enW
I
= 25°C
PERCENT OF RATED PEAK REVERSE VOLTAGE
wO
"-
I
01
Z
20
a::Z
OW
\La::
:.::a::
«::::l
10
OW
en::;:
::::l«
0
w
Z
01
01
a::::;:
0««
I
a:: a::
-0
w
(!len
a::w
::::la::
f
U
0
...--
/
2S)C
Z
W
a::
a::
::::l
10
wen
W
en
a:: a::
wW
>"W::;:
=
WIDTH = 300j.Ls
:2% DUTY CYCLE
~PULSE
F
TJ
'=:0.
=25°C
'.1.0t,lHz
~V'ig. sam Vp-p
r- ...
"«
0
100
1.0
NUMBER OF CYCLES AT 50Hz
10
20
REVERSE VOLTAGE, VOLTS
-477·
40
100
I
W005M THRU W10M
MINIATURE SINGLE· PHASE SILICON BRIDGE RECTIFIER
VOL TAGE - 50 to 1000 Volts CURRENT· 1.5 Amperes
FEATURES
• This series is UL recognized under component
index, file number E54214
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-0
• High case dielectric strength . ,
• TypicallR less than 0.1 Il A
\ ...
• High overload surge capability
.\<\\.
• Ideal for printed circuit board
• High temperature soldering guaranteed:
250' C 110 seconds 1.375", (9.5mm) lead length
15Ibs., (2.3 kg) tension
1
1.0 MIN.
125.4)
_1
.., • 032£.811 DIR
.0281.711
•
r·
R@o
~-~
22015.6)
•180 6)
+
6-0
1.........1,
MECHANICAL DATA
case: Reliable low cost construction utilizing
molded plastic technique
Termlnals:Plated Leads solderable per
MIL-STD-202, Method 208
Weight: 0.05 ounce, 1.3 grams
Mounting Posit/on: Any
I.L
AC
.22015.6)
.180 14.6)
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
60 Hz, resistive or inductive load.
SYMBOLS
Maximum Recurrent Peak Reverse VoUage
Maximum RMS Voltage
Maximum DC Blocking VoUage
Maximum Average Forward Rectified Current at
.375",(9.5mm) lead length at TA = 25'C
Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
Rating for fusing (t<8.3ms)
Maximum Instantaneous Forward VoUage drop
per element at 1.0A
Maximum DC Reverse Current
TA = 25'C
at Rated DC Blocking VoUage
TA= 100'C
Typical Junction Capacitance per element (Note 1)
Typical Thermal Resistance (Note 2)
Operating Temperature Range
Storage Temperature Range,
VRRM 50
VRMS 35
Voc 50
100 200 400 600 SOO 1000 VoUs
70 140 280 420 560 700 VoUs
100 200 400 600 SOO 1000 Volts
I(AV)
1.5
~mps
IFSM
l"t
50.0
10.0
~mps
VF
1.0
10,0
1.0
24.0
36.0
-50 to + 125
-50 to +150
VoUs
IR
CJ
R8JA
TJ
TSTG
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient at .37S", (9.Smm) lead lengths mounted on P.C. Board with, .2" x .2"
(5.S mm xS.S mm) Copper Pads.
-47S-
A~s
ItA
mA
pf
'CNoI
·C
·C
RATINGS AND CHARACTERISTIC CURVES W005M THRU W10M
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
...:
z
UJ
tr
tr
:::l
0
UJ
FIG. 1 - DERATING CURVE
OUTPUT RECTIFIED CURRENT
~
~
......
1.4
-"
~OUJ
:::loffi
1.0
51:<
wO UJ
.8
~-~
C)UJCl
9~~s
~~~
~<
...J
...J
:::l
"' ""
n
Ii
.22 IN x .22 IN,
(5.5mm x 5.5mm) -
20 -:---:125-C
0
10
SlngJ~·,ne.w lie
{JED
-
f"".. ........
.......
Meth d}
<
UJ
10
0..
...... l"It..
~
20
40
60
100
FIG. 4 - TYPICAL
REVERSE CHARACTERISTICS
I~
~
10
l'iiio.
20
40
60
80
100
120
140
,
A" 1"".~
AMBIENT TEMPERATURE,'C
""
FlG,3· TYPICAL FORAWARD
CHARACTERISTICS PER BRIDGE ELEMENT
.
20
T
~
Pulse
10
Z
UJ
tr
tr
:::l
25°C
Idth"
3c
/
IV
20
f
o
1.0
40
60
80
100
120
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
J
tr
~
1
;---
o
~ffi
""-
NUMBER OF CYCLES AT 60Hz
o
......
r-.....
~
'" "'" -,
.2
u.
.......
30
«
U.
OP' r P ds
I"-
'VI.
,
tr~
III
~
tr
pa
40
00..
C Bard
9'.
.•
trUJ
:::ltr
CIlUJ
ad
uc ""
50
ClCll
r-h
I"e r
eli
"-
tr
tr
::l (J) 1.2
Q. W Q..
HZ
so
lSffi
u.o..
CIl:::E
FIG,S -
'I
:::l<
fil
z
I
J
o. 1
U.
c.
ui
0
Z
I-----
.0 1
0.4
I
<
II
0
0.6
TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
100
eo
40
20
T
~
-i"-o
5
10
<
0..
0.8
1.0
1.2
<
1.4
0
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
.2
.4
1.0
10
20
REVERSE VOL TAGE, VOLTS
-479-
.ao
100
I
W005G THRU W10G
MINIATURE GLASS PASSIVATED SINGLE·PHASE SILICON BRIDGE RECTIFIER
VOL TAGE • 50 to 1000 Volts
CURRENT· 1.5 Amperes
FEATURES
I~I
~I
~
--L
• Glass passivated chip junctions
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-Q
• High case dielectric strength •
. ," •.
• TypicallR less than 0.1 11 A
• High overload surge capability'>~:
• Ideal for printed circuit board
', •.
• High temperature soldering guaranteed:
265" ell 0 seconds 1 .375", (9.5mm) lead
length 1 Sibs., (2.3 kg) tension
IT
1.0 MIN.
.0321.811
.028 (.711
I
--t-.060 (1.52)
.11..
.020 (.51)
MECHANICAL DATA
Case: Molded plastic
Terminals: Leads solderable per
MIL·STD-202, Method 208
Weight: 0.04 ounce, 1.1 grams
Mounting Position: Any
Weight: 0.04 ounce, 1.1 grams
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'0 ambient temperature unless otherwise specified.
60 Hz, resistive or Inductive load.
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at
.375",(9.5mm) lead length at TA" 25'C
Peak Forward Surge Current Single half sine-wave
superimposed on rated load (JEDEC Method)
Rating for fusing (1<8.3ms)
Maximum Instantaneous Forward Voltage Drop
per element at 1.0 Amperes
Maximum DC Reverse Current at Rated
TA-25'C
DC Blocking Voltage per Bridge Element TA= 125'C
Typical Junction Capacitance per element (Note 1)
Typical Thermal Resistance (Note 2)
Operating Temperature Range
Storage Temperature Range
VRRM 50
VRMS 35
Vrx; 50
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
I(Av)
1.5
Amps
IFsM
50.0
10.0
Amps
1"1
VF
IR
CJ
R9JA
TA
TSTG
1.0
5.0
500
14.0
36.0
-55 to +150
I -55 to +125
·55 to +150
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient at .375", 9.5mm lead length P.C. Board mounting.
·480-
A~s
VoKs
j.iA
pf
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES WO05G THRU W10G
FIG. 1 • DERATING CURVE
DUTPUT RECTIFIED CURRENT
..:
Z
w
a:
a:
50
:::)
0
w
"rn
a:w
:::)a:
rnw
00.
a:::;:
«
~
a:
0
LJ.
20
40
60
80
FIG. 2 • MAXIMUM NON·REPETITIVE
PEAK FORWARD SURGE CURRENT
60
40
f'. ~
20
-1-1
10
2
V
~
w
o
a:
~~
a: a:
Ow
LJ.0.
rn::;:
:::)<
1.0
.01 0
20
;:
z
;:rn
25'C_ 1 - j---
60
80
100
120
1/
I
I
II
0.6
0.8
1.0
1.2
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
100
FIG. 8 • TYPICAL TRANSIENT THERMAL IMPEDANCE
100
60
LJ.
0
i--"""""
I
.0 1
0.4
FIG. 5 • TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
<
t::
0
<
0.
<
100
J
0.1
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
20
60
L
25.J
1.0
z
40
40
1£
w
z
TA
20
Pulse JJid1h
3OOfJ.S
1o/~ Duty Cycle
o
0.1
I",~
0
Z
L
E
t=
o
TA • 100°C
.-~
10
:::)
0.
w::;
a:<
rn O
:::)a:
.........
1.0 Cycle
I
'"<
160
AMBIENT TEMPERATURE. 'C
........ to.....
30
r-+-
4
+-
20
0
Z
TJ • 25'C
f.1MHz
1 ~IIIIII
.2
w
.<
<0
-,w
Cl)o.
a:::;:
Vsig • 50mVp-p
.1
50
~
10
2
~
.4
1.0
..J
2
10
20
40
<
::;:
a:
100
.... i"
10
5.0
2.0
1.0
I
-
~
,
.5
w
REVERSE VOLTAGE, VOLTS
:I:
I-
.2
.1
1
10
HEATING TIME (SEC)
-481-
100
KBP005M THRU KBP10M
3N246 THRU 3N252
MINIATURE GLASS PASSIVATED
SINGLE· PHASE SILICON BRIDGE
VOL TAGE • 50 to 1000 Volts
:,
.600 115'24J
.125 x 45°!
,560114.221
l3,2JY
FEATURES
•L
.- --r-.~ma~:
.500 (12.70J
• This series Is UL recognized under component
index, file number E54214
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-O
• Glass passivated chip Junctions •
.
• Surge overload rating 30 Amperes peak
,<,:,""
• Ideal for printed circuit board
'",<"',.;','"
• High temperature soldering guar".
anteed: 265" C 110 seconds at 5 Ibs.,
(2.3kg) tension
,460 (11.68J
.420 (10.67J
+ '" - -- 1
I
.50 MIN
Mi
034(8.61
.02817.61
Ir--'II
I
I I
I I
I I
:..1•.
I........
I
•
•I
060 . - , '
, .. (1.521
CURRENT - 1.5 Amperes
(12.71
.160 (4.1J
.140 (3.6)
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
TermInals: Plated Lead solderable per
MIL-STO-202, Method 208
Polarity: Polarity symbols marked on case
MountIng postltlon: Any
Weight: 0.06 ounce, 1.70 gram
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
60 Hz, resistive or inductive load.
_
Sl'MBOLSINHII
• Maximum Recurrent Peak Reverse Voltage
VRRM 50
• Maximum RMS Voltaga
VRMS 35
• Maximum DC Blocking Voltage
Voc 50
Maximum Average Forward Output RectHied Current
atTA-40'C
I(AV)
• Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
IFSM
Rating for fusing (k8.35ms)
l"t
• Maximum Instantaneous Forward Voltage drop
1.0A
per Bridge Element at
1.57A
VF
• Maximum DC Reverse Current
TA - 25'C
at Rated DC Blocking Voltage
TA= 125'C
IR
Typical Junction Capacitance per element (Note 1)
CJ
Typical Thermal Resistance (Note 2)
R8JA
'Operating and Storage Temperature Range
TJ;rsTG
KBPrIIM _ _ _ _ KBPIIII
_7
INHII
INHII
___
1.5
Amps
30.0
10.0
1.0
1.3
10.0
500
15.0
28.0
-li5 to +150
Amps
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient mounted on P.C. Board with, .47" x .47" (12mm x12mm) Copper Pads.
• JEDEC Reggistered Values
-482-
IIIITS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
A~
Volts
pi.
pf
'CNI
'C
RATINGS AND CHARACTERISTIC CURVES KBPOO5M THRU KBP10M /
3N246 THRU 3N252
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
60
lU
0..
W::;,
a::<{
enO
:::)a::
Oll
WZ::;'
TA = 100G
1.0
e
-
en
I
I
.01
0.4
0.6
0.8
1.0
1.2
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG, 5 -
;:~ 0.1
ZZ
<{W
I-a::
en a::
Z:::)
-ll
.01
20
---
~ r--
40
60
-TA
80
~
TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
15°C
100
120
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
.2
.4
1.0
4
10
20
REVERSE VOLTAGE,VOLTS
-483-
40
100
I
AW02M THRU AW08M
MINIATURE CONTROLLED AVALANCHE SINGLE PHASE
SILICON BRIDGE RECTIFIER
VOL TAGE· 200 to 800 Volts CURRENT· 1,5 Amperes
FEATURES
.zzlli.6l
.180r·61
@T
+
0-0
I-I'
IJ...
1
At
.220 (5.61
•180 (4.61
1.0 MIN •
(25.41
_1
.., • 032 1.811 DIA
.028 (.711
•
Dimensions in inches
and
(millimeters)
• This series is UL recognized under component
index, file number E54214
• Plastilc material used carries Underwriters
Laboratory flammability recognition 94V-O
• High case dielectric strength
•
\,':
• Typica~ IR less than 0.1 ~
• High overload surge capability
'«,\\",
• Ideal for printed circuit b o a r d , . ,
• Controlled Avalanche Series
• 200 Watts Avalanche Power Dissipation for 100
~S pulse width
• High temperature soldering guarnateed: 2S0'C/10
secondsl.37S", (9.Smm) lead length atiS Ibs.,
(2.3kg) tension
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
Terminals: Plated Leads solderable per MIL-STD202, Method 208
Mounting Posit/on: Any
Weight: O.OS ounce,1.3 grams
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISICS
Ratings at 25'C ambient temperature unless otherwise specified. 6OHz,resistive or inductive load.. For capecitive load, derate current by 20%
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Avalanche Breakdown Voltage at 1001lA
Maximum Avalanche Breakdown Voltage at 100 IlA
Maximum Average Forward Output Current
.375" (9.5mm) Lead Length at TA a 55'C
Peak Forward Surge Current,Single half sine
-wave superimposed on rated load
(JEDEC Method)
Rating for fusing (1<.00835)
Maximum Instantaneous Forward Drop per
element at 1.0A
Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA=100'C
Typical Junction Capacitance per element (Note 1)
Typical Thermal Resistance (Note 2 )
Operating Temperature Range
Storage Temperature Range
SYMBOLS
AW02",
AW04"
AWOl"
AWOl"
IJNfTS
VRRM
VRMS
Voc
VSR
VSR
200
140
200
250
700
400
280
400
450
900
600
420
600
650
1100
800
560
800
850
1300
Volts
Volts
Volts
Volts
Volts
I(Av)
1.5
Amps
IFsM
50.0
10.0
Amps
1.0
10.0
1.0
24.0
36.0
-50 to +125
·50 to +150
Volts
I~t
VF
IR
CJ
RaJA
TJ
TSTG
NOTES: 1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to ambient at .375", (9.5mm) lead lengths mounted on
P.C. Board with .2" x .2" (5.5mm x 5.5mm) Copper Pads.
-484·
A~s
IlA
mA
pi
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES AW02M THRU AW08M
,..:
Z
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
w
0::
0::
50
~
(..J
W
Clen
o::W
~o::
CJ)W
00.
0::::;:
««
FIG. 1 - DERATING CURVE
OUTPUT RECTIFIED CURRENT
16
..---,
~ 80 Hz RE~)~T!{E.~JI,
INDUCTIVE LOAD
14 f::=;;i
fZ
W
0::
0::
~en 12
f-(..JW
i""""
~offi
~~a..
10
......
" "-
~
/
"-
IV Ie
nd clIO
go
Pa s
pp
0
"'"
.""
-'
~
u..
""
80
60
."'l\.
100
'"
120
wen
CJ)W
0::0::
WW
>0.
W::;:
0::«
140
60
100
-
"...,
10
t.25·CJ
/
~PUI~~~~:~ ~v~~~ ,IS·
01
./
20
W
40
60
80
120
100
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
0::
0::
~
/
(..J
o
0::
FIG.5 -
I
10
0:: a:
Ow
u..Q.
(/)
en::;:
ee-
If
~«
oW
~
40
....
100"C
TA
O(..J
wZ::;:
« .
f-fZZ 01
«W
f-O::
en 0::
Z~
-(..J
FIG. 3 - TYPICAL FORWARD
CHARACTERISTICS PER ELEMENT
~ ~
20
10
~o::
Z
r---....
d}
10
enO
,..:
,.
FIG. 4 - TYPICAL
REVERSE CHARACTERISTICS
AMBIENT TEMPERATURE, °C
20
.......
NUMBER OF CYCLES AT 60Hz
~
40
r- T,., 125'C
Sin~~:Slne-_~
(JED C Melh
10
I"
-'
20
............ .....
«
W
0.
r- r-
.......
20
0::
.lL nrrL
.22 IN x .22 IN
(5.5mm x 5.5mm) I-- I--
.......
apac
1U
........
30
u..
..,.
~u..::;:
OJ::<(
w(..JW
ClwCl
00::«
-wO::
O::>w
m«>
:;;::«
CB "d
"I'..
:;;::
.,.,.."J
~
40
I
0'
1000
800
600
«
400
300
I
a:
200
s:
w
......
i"""" r--i"'o
s:
fZ
«
0
en
W
Q.
f-
(/)
I
Z
a:
w
>
W
a:
11
01
04
06
08
10
"
14
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
MAXIMUM NON-REPETITIVE AVALANCHE
SURGE POWER
100
80
60
'"
«
w
'/.25-C
40
30
20
Q.
10
10
I
20
3040 6080 100 200
~s
400 600 800 1
2
SQUARE WAVE PULSE DURATION
-485-
3 4
6 8 10
·I-ms--!
AW02G THRU AW08G SERIES
MINIATURE GLASS PASSIVATED CONTROLLED AVALANCHE SINGLE· PHASE
SILICON BRIDGE RECTIFIER
VOL TAGE - 200 to 800 Volts CURRENT - 1,5 Amperes
FEATURES
• Glass passivated chip junctions
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-O
• High case dielectric strength
• 200 Watts Avalanche Power
Dissipation for 100 I1'S
• Typical IR less than 0.1 11 A
• High overload surge capability
• Ideal for printed circuit board
• High temperature soldering guaranteed:
26S' C/1 0 seconds 1.37S", (9.Smm) lead
length/Sibs., (2.3 kg) tension
I~I
~
liT
Irl
1.0 MIN.
.032 Lell
.0281.711
.11....
--t-.060 (1.52)
.a20 (:51)
MECHANICAL DATA
Case: Molded plastic
Terminals: Leads solderable per MIL-STD-202,
Method 208
Mounting Position: Any
Weight: 0.04 ounce, 1.1 grams
Dimensions In inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
60 Hz, resistive or inductive load.
AW
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Avalanche Breakdown Voltage atl 00 ).IA
Maximum Avalanche Breakdown Voltage at 100 ).IA
Maximum Average Forward Rectified Current at
.375",(9.5mm) lead length at TA = 25'C
Peak Forward Surge Current Single haR sine-wave
superimposed on rated load (JEDEC Method)
Rating for fusing (t<8.3ms)
Maximum Instantaneous Forward Voltage Drop
per element at 1.0 Amperes
Maximum DC Reverse Current at Rated TA-25'C
DC Blocking Voltage per Bridge Element TA- 125'C
Typical Junction Capacitance per element (Note 1)
Typical Thermal Resistance (Note 2)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
02G
VRRM
VRMS
Voc
VSR
VBR
200
140
200
250
700
AW
04G
400
280
400
450
900
AW
06G
DBG
AW
UNffS
600
420
600
650
1100
800
560
800
850
1300
Volts
Volts
Volts
Volts
Volls
I(AV)
1.5
Amps
IFSM
50.0
10.0
Amps
A2s
1.0
5.0
500
14.0
36.0
Vohs
I2t
VF
IR
CJ
ReJA
TA
TSTG
NOTES:
-55 to +150 I -55 to +125
-55 to +150
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient at .375', 9.5mm lead length P.C. Board mounting.
-486-
).IA
pf
'CIW
'C
'c
RATINGS AND CHARACTERISTIC CURVES AW02G THRU AWOBC;
FIG. 1 • DERATING CURVE
OUTPUT RECTIFIED CURRENT
FIG, 2 • MAXIMUM NON· REPETITIVE
PEAK FORWARD SURGE CURRENT
,.:
60
z
W
a:
a:
50
I'
:J
o
""'"
~"""
rYY\
-1-1
~ i'oo...
1.0 Cycl.
~
T• • 2S'C
Single Sine-Wave
r-....
L L . Ci·'hO~)
6
4
AMBIENT TEMPERATURE, 'C
10
20
40
60
100
NUMBER OF CYCLES AT 80 Hz
FIG, 3 • TYPICAL
REVERSE CHARACTERISTICS
FIG. 4 • TYPICAL FORWARD
CHARACTERISTICS PER ELEMENT
50
20
,.:
Z
w
a:
a:
~
10
:J
0
W'"
"'W
V
,.:
I-I--
:J
Z
W
a:
a:
•• 100'C
II-----r---rE
~.
F
~ffl 1.0
WW
>0.. 1.0
Ow
u..o..
"'::::;
I
:J<
02
oW
w::::;
Z
0.1
~
...
If
O. 1
Z
'"i!!:
",.
.01
o
T• • 2S'C _
.-
~
~
~
~
100
~
r-
1~
i!!:
I
.0 1
0.4
1~
PERCENT OF RATED PEAK
REVERSE VOLTAGE
100
60
40
0
Z
20
(3
10
~
1l:
.1
.2
0.8
1.0
1.2
1.4
1.8
I
FIG. 8 • TYPICAL TRANSIENT
THERMAL IMPEDANCE
100
!-l_-
20
W
o
IIIII~~
z
":(5
.......
.4
1.0
10
5.0
-'W
~~
2.0
-' 1.0
TJ • 25'C
f.1MHz
V.lg • 50mVp·p
1
0.6
~ 50
-
<
0
1/
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG, 6 • TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
a.
V
a: a:
W::::;
ui
JIll'
1/
J
a:
a:<
",0
:Ja:
u..
TJ.2S'C
Pul •• Width. 300
1% Duty Cycl.
o
o
a: a:
z
~
Z
<
10
<
~
~
.5
W
2
i=
10
20
40
100
.2
1
.01
REVERSE VOLTAGE, VOLTS
.1
10
100
HEATING TIME (SEC)
I~
-487·
I·
B40C I B80C I B125C I B250C I B380C
1500M SERIES
MINIATURE SINGLE· PHASE SILICON BRIDGE RECTIFIER
Voltage . 65 to 600 Volts Current· 1,5 Amperes
FEATURES
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
• High case dielectric
•
strength
c'
mll.fil.
.lSOr· 6]
A@?
~-~
+
0-0
I_I ..
'...L
~~~c~~~~I~:~ !~~eO~~::e':rt
1
At
220(5.6]
•1SO (4.6]
1.0 MIN •
(25.4]
_1
.., .032 ('Sll DIA
.028 t.7ll
Dimensions in inches
and
(millimeters)
•
\<;::\"
:
• Ideal for printed circuit board
\
• High temperature soldering guaranteed
250'C/10 seconds/.375", (9.5mm) lead length at
Sibs., (2.3kg) tension
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
Terminals: Plated Leads solderable per
MIL-STD-202, Method 208
Mounting Position: Any
Weight: 0.05 ounce, 1.3 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. 50 Hz or 60 Hz. resistive or inductive load.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Input Voltage R + C-Load
Maximum Average Forward Output Current for
R+ L-Load
free air operation at TA = 45'C
C -Load
Maximum DC Blocking Voltage
Maximum Repetitive Peak Reverse Voltage
Maximum Peak Working Voltage
Maximum Non-Repetitve Peak Voltage
Maximum Repetive Peak Forward Surge Current
Peak Forward Surge CurrentSingle Sine wave on
rated load at TJ -125'C
Rating for Fusing at TJ" 125'C (t<100ms)
Min.Series Resistor C-Load VRMS = + or -10%
Maximum Load Capacitance +50%
-10%
Maximum Instantaneous Forward Voltage Drop
per element at 1.5A
Maximum Reverse Current at rated Repetitive
Peak Voltage per element TA = 25'C
Typical Thermal Resistance (Note 1)
Operating Temperature Range
Storage Temperature Range
SYMBOLS
840
VRRM
VRMS
65
40
I(AV)
Voc
VRRM
VRWM
VRSM
IFRM
65
90
90
100
125
80
125
180
180
200
8125
8250
8380
UNfTS
200
125
400
250
600
380
Volts
Volts
400
600
600
650
600
800
800
1000
Amps
Volts
Volts
Volts
Volts
Amps
1.6
1.5
200
300
300
350
10.0
Rt
1.0
2.0
50.0
12.5
4.0
CL
5000
2500
1000
IFSM
I~
8.0
12.0
Amps
A'S
ohms
500
200
ILF
VF
1.0
Volts
IR
RaJA
TJ
TSTG
10.0
36.0
-40 to +125
-40 to +150
ILA
'CIW
NOTES:
1. Thermal Resistance from Junction to Ambient mounted on p.e Board at .375" (9.5mm) Lead Lengths with 0.2" xO.2"
(5.5mm x 5.5mm) Copper Pads.
-488-
'c
'c
RATINGS AND CHARACTERISTIC CURVES
840C 1500M THRU 83BOC 1500M SERIES
FIG. 2· DERATING CURVE
OUTPUT RECTIFIED CURRENT
8250 1500M... 83BOC 1500M
FIG. 1 - DERATING CURVE
OUTPUT RECTIFIED CURRENT
FOR 840C 8OOM ... 8125C 800M
1.6
fZ
w
a:
a:U)
f-::::lW
::::lUa:
0.. OW
f-Wo..
::::lU::::;;
0;::«
WUW
owO
Oa:«
,
14
1.2
.
~ ~ ."
.-~
10
R ,S!
UCI teLO
1•.
0
PC
"-
c....
O·~tiIl
,
""'"
1;0
~
~:.I~dl~_ l (5.5mm x 5.5mm)-
.8
"" ....
c:wa::
(l)~!fJ
,;:~
~
1.4
I-
1.2
C.
1.0
- r-.
eill
(9.5mm)
"'-
l\..
. ~ I"
Lo
.,F ds
Co
~
.B
A
."
'. I'\.
~
...J
_J
::..>
u..
...,
'"
~
.2
'II\:
20
40
60
80
100
120
AMBIENT TEMPERATURE, ·C
20
40
60
100
80
120
FIG. 4 - TYPICAL FORWARD CHARACTERISTICS
20
10
FIG. 3 - TYPICAL
REVERSE CHARACTERISTICS
r:
10
moce
T,
"....
10
.,....,..
-
Z
W
a:
a:
::::l
U
0
a:
10
a: a:
OW
u..o..
U)::;;
::::l«
W
Z
01
°
0.1
,
V
50
01
..........
40
30
,;:r:
20
,
I
25°C
40
60
80
100
120
140
0.4
""-
U
r-....
T,.12S'C
10. me SINGLE SINE·WAV E
Z
~
13
Cf.
.... ~
1.2
1,4
40
20
~~
T,.2S'C
10 ~ f.1.o.MHz
Viig • 50m VPi'
«
U
10
rEcri
1.0
FIG. 6 - TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
W
..........
0.8
100
60.
Lfi.
""N
0.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 5 - MAXIMUM NON·REPETITIVE
PEAK FORWARD CURRENT
0..
J
~
=
PERCENT OF RATED PEAK REVERSE VOLTAGE
a:Z
OW
u..a:
~a:
<{::::l
wU
I
Z
1
/
2% Duty Cycle
''""
20
~«
===
U)
0.1
W
OU)
a:W
::::lao
U)W
00..
a:::;;
TJ : : 25 c C
~'se Width::: 300115
/
~ffl
~r:
>-'z
Zw
",a:
U)a:
Z::::l
-U
140
140
AMBIENT TEMPERATURE, ·C
wU)
U)W
a: a:
WW
>0..
W::;;
a:«
U)O
::::lao
O~
W::;;
-
.22IN X .22 IN
(5.5mm X 5.5mrn) -
.~
,;:<:
~
.........
S'NG).fcSINE WAV
JED C MET 00
a:
.......
o
w
AMBIENT TEMPERATURE"C
.......
1
0..
10
20
40
60
100
NUMBER OF CYCLES AT 60Hz
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
10
w Ol
OlW
a: a:
WW
4
2
>0..
~~
10
OlO
:::J a:
OU
4
~~
~
-
!-TJ.l00'C
.--- ~
-
FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
20
~
Z
1-" () 1
~~
tn ~
~B
tJ!J
L
U4
O?
=,T,.25·C
I
o
a:
~~
40
60
80
100
120
a: a:
140
:::J~
TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
.
'0
~
10
~
6
Z
07
05
~
lj.26·C
f.l.0MHz
~
U
Vi·,imUTIi
10
10
20
TJ=2SoC
PULSE WIDTH = 300,,$
1% DUTY CYCLE
03
01
l
I.
02
o
I
02
04
0.6
0.8
1a
1.2
14
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
....
0..
01
IZ
~
ui
2
~
tn
60
40
U
I
u.o..
100
0.
7
Ol::;;
fil
U.
I
I
10
Ow
PERCENT OF RATED PEAK
REVERSE VOLTAGE
FIG. 5 -
/
U
-r
20
/
10
w
a:
a:
:::J
40
100
REVERSE VOLTAGE, VOLTS
·491·
I
2KBP005M THRU 2KBP10M
3N253 THRU 3N259
MINIATURE GLASS PASSIVATED SINGLE· PHASE SILICON BRIDGE RECTIFIER
VOL TAGE • 50 to 1000 Volts CURRENT - 2.0 Amperes
FEATURES
'+.--,'.;60~0!+[1~5~,24~1~+0
.1~(3.21
• .,,:
,
--r--m"1
• This series is UL recognized under component
index, file number E54214
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-O
• Glass passivated chip junctions
• Typical IR less than 0.1 J.L A
• Built -in printed circuit board
stand-offs
• High case dielectric strength
• Ideal for printed circuit board
• High temperature soldering guaranteed:
265' C 110 seconds at 5 Ibs., (2.3kg) tension
L
.500 [12.701
.... "4.221
....
,460 (11.68)
.420 (10.67)
+IiI
,,
60 MIN
(15.2)
I I
I I
I I
.034(8.6)
.02817.6)
rv
-
,, ,,
:..1+.060 ,...... , •
(1.52)
oil+-
-
'-'
!
.50 MIN
(12.7)
.160 (4.1)
.140 (3.6)
1--It-l05
MECHANICAL DATA
(2.67)
.085(2.16J
Case: Reliable low cost construction utilizing
molded plastic technique
Terminals: Plated Lead solderable per
MIL-STO-202, Method 20B
Mounting postltlon: Any
Weight: 0.06 ounce, 1.70 grams
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
60 Hz Resistive or inductive load.
2KBP 2KBP 2KBP 2KBP 2KBP 2KBP 2KBP
D0511 DIll D2M tI4II IJIJII DBII IDII
SYllBOI.S 3N253 3#1254 3N256 3N2f8 3N257 3N25B 3N25S IHTS
• Maximum Recurrent Peak Reverse Voltage
VRRM 50
• Maximum RMS VoHage
VRMS 35
• Maximum DC Blocking Voltage
Voc 50
• Maximum Average Forward Output Rectnied Current
at TA = 55'C
I(AVJ
• Peak Forward Surge currentSi~e sine-wave
superimposed on rated load (JE C Method)
IFSM
1"1
Rating for fusing (k8.35ms)
• Maximum Instantaneous Forward Voltage drop
per element at3.14A
VF
TA = 25'C
• Maximum DC Reverse Current
at Rated DC Blocking Voltage per element TA= 125'C
IR
Typical Junction Capacitance per element (Note 1)
CJ
Typical Thermal Resistance (Note 2)
ReJA
·Operating and Storage Temperature Range,
TJ,TSTG
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 VoHs
2.0
~mps
60.0
15.0
~mps
1.1
10.0
500
25.0
30.0
-55 to +165
VoHs
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient mounted on P.C. Board with •. 47" x .47" (12mm x12mm) Copper Pads .
• JEDEC Reggistered Values
-492-
A~s
pA
pf
'cm
·C
RATINGS AND CHARACTERISTIC CURVES
3N253 THRU 3N259 /2KBP005M THRU 2KBP10M
FIG.l-DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
FIG.2-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
f--
Z
60
0:
0:
:::J
50
W
0
'"I"
f-Z
W
0:
0:
:::J
~~
CopporPad.
"
"\.
"-
10
---= ~
~ ~~~\~~~~~GL~
f-'pk 10 IAVG.
V
f-'Pk 201AVG -
~«
(12nvn x 12nvn)
a
w
C) (/)
O:W
:::JO:
-
30
««
20
fr!~
0
0:
oLL-
1\.1\
0
(Per Leg)
'"
~
~
\.
«w
""
0.5
r-..... t--.....
(Y'(\
1---.1
10 CYCLE
10
"""
I
20
40
60
100
~-
FIG.4 - TYPICAL FORWARD
CHARACTERISTICS PER ELEMENT
~
Z
"'~
!'\
100
,
NUMBER OF CYCLES AT 60Hz
w
80
........
1
CL
>
«
60
.......
o
'I
0:
40
...........
TA" 55'C
Single Sine-Wave
(JEDEC Method)
'\ J'\.
"\. J'\:
20
"
~
,,\
/'-
40
W
if)
~.
I-...
0:
P.C. Board Mounted
withA7"x A1"
~ [/
'\
oLL«
lnducllv~Load
5f'.,.
«::;
W
C)
60Hz Resistive or
'\1\
I\..
a
f:::J
CL
f-(/)
:::Jw
00:
I I I
I 1 I r
I I I
I
\
I" "\.1\
W
'" I'160
V
10
a
N
140
120
0:
0:
:::J
20
o
0:
~~
170
~ffi
LL-CL
AMBIENT TEMPERATURE, °C
f= Ti
(/)::;
:::J«
ow
Z
«
f-
I
10
25°C
Pulse Width ~ 3001-15
1% Duty Cycle
I
01
Z
«
FIG. 3 - TYPICAL
REVERSE CHARACTERISTICS
10
f-
en
~
0.1
TA-12S0C
o
wen
enw
0:0:
ww
~
>CL
w::;
0:«
ZZ
0.4
06
08
1.0
1.2
14
10
FIG.5-TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
enO
:::JO:
oa
wz::;
;:~
0.2
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
./
TJ - 10QOC
0°!!lElE.
LL- 1
60
0.1
«w
f-O:
en 0:
z:::J
C.
40
uS
r--- TA
-a
01
=:
'"""
2S C
Q
.--;20
40
aZ
60
80
100
«
f-
U
120
«
CL
«
140
I"-
20
......... ~
10
6
a·
PERCENT OF RATED PEAK
REVERSE VOLTAGE
TJ 25"C
f = lMHz
Vsig = 50mVp~p
1.0
2
4
10
20
40
REVERSE VOLTAGE, VOLTS
-493-
100
I
KBPC1005 THRU KBPC11 0
GLASS PASSIVATED SINGLE- PHASE SILICON BRIDGE RECTIFIER
VOLTAGE - 50 to 1000 Volts CURRENT - 3,0 Amperes
FEATURES
• This series is UL recognized under component
index, file number ES4214
• High temperature metaliuragicallY~
bonded internal rectifiers
• Plastic material used carries
~
Underwriters Laboratory flam\
;
mability recognition 94V-O
• Glass passivated cavity - free rectifier juhctions
• Typical IR less than 0.1 ~ A
• High temperature soldering guaranteed:
265' C 110 seconds 1 .37S", (9.Smm) lead length
1Sibs., (2.3 kg) tension
.094
.445 (11.3)
(2.4) .45° I _ I . , ] .405 (10.3)
HOLE FOR " + '
16 screw
.154 (3.9)OIA.
.107 (2.72)
.067 (1.70)t
t
t
lAC
=+- --+
I
Y
+--+ 1
~
.620115.75)
.580114.73)
AC
JJ
.034(;86) 'I!"
.028(.71l
.270 (6.9)
•230 (5.8)1..
1
f
.75
11.9) MIN •
__
+_
I
I
MECHANICAL DATA
Case: Void-free plastic package
TermInals: Plated leads solderable per
MIL-STD-202, Method 208
MountIng: Thru hole for #6 screw
MountIng PosItIon: Any
WeIght: 0.2 ounces, S.S gram
Polarity shown on side of ca.e:
positive lead by beveled corner
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
60 Hz. resistive or inductive load.
For capaacitive load, derate current by 20%.
KBPC KBPC KBPC KBPC KBPC KBPC KBPC
SYMBOLS 1006
Maximum Recurrent Peak Reverse VoRage
VRRM 50
Maximum RMS VoHage
VRMS 35
Maximum DC Blocking VoRage
Voc 50
Maximum Average Forward
Tc=50'C(Note 1)
Rectified Output Current at
TA = 25'C(Note 2) ICAY)
Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage drop
per element at 1.5A
VF
Maximum DC Reverse Leakage
TA-25'C
at Rated DC Blocking VoRage per element TA _100'C
IR
Typical Junction Capacitance per element (Note 3)
CJ
Typical Thermal Resistance (Note 1)
R9JC
Operating Temperature Range
TJ
Storage Temperature Range
TSTG
101
1112
1114
108
no
IIN1TS
50.0
Amps
1.1
10.0
50.0
20.0
10.0
-50 to + 150
-50 to +150
VoRs
NOTES:
1. Bridge mounted on a 4' x 4" x .11 THK (10.Scm x 10.Scm xO.3C:m.)AL Plate
2. Bridge molunted on P.C. Board .37S', (9.5mm) lead lengths with .47" sq. (12 mm sq. ) Copper Pads
3. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
-494-
108
100 200 400 600 800 1000 VoRs
70 140 280 420 560 700 VoRs
100 200 400 600 800 1000 VoRs
3.0
2.0
Amps
!LA
!LA
pi
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES KBPC1005 THRU KBPC110
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 1 - DERATING CURVE FOR OUTPUT RECTIFIED CURRENT
..,:
15
4.0 r-.,--r"""T-r--r--r-r-r.....,-r--r--'-"""T---''---'
a:
a:
..,:
Z
::J
U
::J
W
(!l",
~ffl
a:W
::J a:
",W
0..
~~
3:«
oU-
20
I-+--+-~::-f-+-++--f""d-+-++-+-II--I
40
30
~««~
20
a:
10
3:
a:
1.0
I-+--+-+-I-+--+-+-+...-O::!....r--I--"Io~-I---i
W
(!l
a:
o
'"'
~ ........
........... ........
_
..........
U-
15
W
0..
10
20
40
60
100
NUMBER OF CYCLES AT 60Hz
w
>
«
(JE~;? ~~~Od)
i'...
'"«
PC MOUNTING TA
.375", 9.5mm Lead Lengths
«
SIN~LE SI~E-W!VE
50
::J
U
I-
gffi
60
w
a:
a:
TEMPERATURE. ·C
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS
FIG. 3 - TYPICAL FORWARD
CHARACTERISTICS PER ELEMENT
r'
z
w
a:
a:
10
10
-
::J
U
o
a::
~ffl
a: a:
TJ" 150°C
1.0
V V
Tc " 100°C
T,.25·C
Ow
Ll.-'
0
Z
LU
cr:
cr:
=>
L, lling ooh gm d,u
100...
o
3,
>-
=>
0.
01'
>-(/)
=>LU
gffi
w,
r-.. ......
I' .....
20
U
.....
r-..
r-.... 100... ...... ~ .....
,~,
I"
ca aC111
rei
loa
,.....
:;-. ......
~~~
o
o
50
Z
LU
cr:
cr:
=>
U
0.
110
LU
«
~
.....
~
~[3
ft ~
1
06
04
3~
02
oLU
;'f
Z
1
006
004
Z
0.02
;'f
(/)
?;
0.0 1as
"",..,
~
"
80
o
-
06
07
09
08
10
10
20
40
FIG. 4 - MAXIMUM NON-REPETITIVE
SURGE CURRENT
C
'0'
, ",
--
6
I
tiC
.....
.....
~
,
13
50
lOtI
I
·,mlt gc ara ten
12
I
I
I
30
\.
1.4
15
.....
I
10
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
-
~
.....
11
I'.
AVERAGE FORWARD OUTPUT CURRENl:
'AMPERES
J
,
i"
"
~~.
l'
.....
I'tt..
o
cr:
.....
"It
100
- .. -
11
6
4
'"
.....
FIG. 3 - TYPICAL FORWARD CHARACTERISTIC
PER BRIDGE ELEMENT
10
I'.
c pa 1!lveloa
90
150
100
0
a:: a:::
......
.....
0
AMBIENT TEMPERATURE, ·C
>-'
120
(/)
~
~
to.;; ......
130
cr:
=>
~
cr:
LU
::2:
LU
>-
......
10
LU
..... ~
ui
LU
cr:
.
lur coo og,
at
oul ea ok
cr:g,
~«
cr:
~
ten per Ufe
...... ~
140
,() 4060 100 ?OO 400
4610
"
1
.....-,
20401
•
4610
204060
---"'1.--
1~ ms
sec ---+-14-----mln ~I
TIME
FIG. 5 - MAXIMUM TOTAL BRIDGE POWER
DISSIPATION
80
Z
70
~
0.
60
0
Uj
~
(/)
Ow
ffif::
5~
0.
50
pa
40
0
JO
~
20
cr:
LL
10
"'
'" '"
1/ ,
~
r Sisl el
8
II. ~
2
J
20
3.0
,"'
40
'.'"
'fV
,/. I,e
~"T e'
10
stl
10 d
Oi de Sri ge
au Ie
30
40
5025
AVERAGE FORWARD CURRENT
AVERAGE FORWARD OUTPUT CURRENl: AMPERES
-497-
~
,,
0
r\
~
\
I'tt..\
,
"'~.
0. :"I~1'tt..
... I":~ ~ ~
nc olin f'
air sis nc ,C set co Ing
20
5 C
;)
'IV
,
d
0
5
J I
ap clti elo d
~~
10
II
J
~
~
" "
0
..... """
loa
,..
cr:
0
III ....
1/
I
FIG. 6 - MEAN AVERAGE FORWARD CURRENT
,
OV/~~
ed ~m Ih AI C'
50
75
~
100
125
AMBIENT TEMPERATURE
150
KBL005 THRU KBL 10
SINGLE - PHAsE SILICON BRIDGE RECTIFIERS
VOLTAGE-50 to 1000 Volts
CURRENT-4.0Amperes
FEATURES
.755119.18)
.745 ClB.92)
• This series is UL recognized under component
index, file number E54214
• Plastic material used carries Underwriters
Laboratory Flammability Classification 94V-O
• Ideal for printed circuit board
-r
.630 Cl6.0)
+
1
~
I
1.1
'" -
IL.
[2~i:~)
I
I
f'
• Reliable low cost
construction
utilizing molded plastic technique
• Surge overload rating of 200 Amperes peak
• High temperature soldering guaranteed:
250' C 110 seconds 1.375", (9.5mm) lead length
1 5lbs., (2.3 kg) tension
T
1.0
[25.4)
I
III
II,,I-I
---.052 Cl.32)
1.220 [5.59)
.04811.22)
.180 [4.57)
i.M""'"'7"""'"T""-r'1
MECHANICAL DATA
1
.085[2.18iJfft+jj
.081[2.06)
~
case: Reliable low cost construction utilizing
molded plastic technique
Terminals: Plated Lead solderable per MIL-STD202, Method 208
Mounting Position: Any
Weight: 0.2 ounce, 5.6 grams
.245[6.22)
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Resistive or inductive load. 60 Hz •.
For capac~ive load. derate current by 20%,
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Vottage
Maximum DC Blocking Voltage
Maximum Average Forward Output
TA-50'C
Current at
Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
Maximum Instantaneous Forward Vottage drop
per element at 4.0A
Maximum DC Current
TA-25'C
at Rated DC Blocking Vottage
Tc= 150'C
TVDical Thermal Resistance (Note 11
Operating and Storage Temperature Range
KBL KBL KBL KBL KBL
SYMBOLS 005 01
02
/U
06
VRRM 50 100 200 400 600
VRMS 35 70 140 280 420
Voc 50 100 200 400 600
KBL KBL
08
10 UNfT'S
800 1000 VoHs
560 700 Votts
800 1000 Volts
I(AV)
4.0
Amps
IFSM
200
Amps
VF
IR
,R8JA
TJTSTG
1.1
10.0
1.0
,10.0
-50 to +150
NOTES:
I.Thermal Resistance from Junction to Ambient with units mounted on a 3" x .11" THK (7.5cm. x O.Scm.lCu. Plate."
-498-
Votts
).LA
mA
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES KBL005 THRU KBL 10
FIG. 2 - TYPCIAL INSTANTANEOUS FORWARD
CHARACTERISTICS PER ELEMENT
10 0
fZ
W
FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
a
1,\
'i-
I'
,
f - Mounted with .47" x AT
~rPads
'-
A
.375" (9.5mm)LEAD LENGTH
~[Z
I-
40
-
en::;>
20
601'Rrr T'rT r
::JQ.
FIG. 3 -
w:;;
a:
«
I
I
I
I
I
I
60 Hz RESISTIVE OR
IINiucrEI LOt
I
,
~
0.4
«
f0-
0.2
~
0.1
If
0.6
\
"-
I
Ul
0.7
0.8
0.9
.:
Z
150
loDe
TC
~~
~
1.0
~
WW
'"
s:':
a:Z
OW
u..a:
><:a:
«::J
wU
125
~~
Z
~
eth d
Ul
...... ~
~
.01
/
TA - 25°C
20
~
100
.1
~
SIN LE SI E- AV
J DEC
-
W:::<
a:«
UlO
::Ja:
OU
TJ = 1 O·C
I"-. ......
1.3
>0..
FIG. 3 - MAXIMUN NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150
1.2
10
W
a:
a:
::J
WUl
W
(!lUl
a:W
::Ja:
UlW
00..
a::::<
««
1.1
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS
t'\
U
175
1.0
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
TEMPERATURE 'C
200
~~.
I
Z
100
50
PU SE WI TH = 3
%OU
CYC
Z
"
(5.Ocm x 4cm X Q.Bem)
-
If
10
w
\
AL·PLATE
w
o
\
MOUNTING, Tc
1.57" x 1.57" x 4"
I
Ul:::<
::J«
1\
~
I HE~TSiNK
-
(!l
,
IIII
a:~
:r
"'
IA I
40
tSffi
u..o..
~
ON "
.47" x .47"
_,(12mm x 12mm)
s:W
~ ffl
/
/
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
f""..
75
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
~
250
0..
50
LL 200
C.
25
1
10
20
50
100
t'....
ui
U
TJ
sfg
150
5
«
0..
«
U
50
0
P
i"""-....
Z
«
NUMBER OF CYCLES AT 60Hz
2
~
~
100
............
50
0.1
0.5
1.0
5
10
50
100
REVERSE VOLTAGE, VOLTS
INSfUMir
-501-
I
B40C 1 B80C 1 B125C 1 B250C 1 B380C
5000/3300
SINGLE - PHASE SILICON BRIDGE RECTIFIERS
Voltage - 65 to 600 Volts Current - 5.0 Amperes
FEATURES
--r-
.188
.855 (21.71
.825 r1.0 1
--r--
• Plastic package has Underwriters Laboratory Flammability Classifioation 94V-0
(4'8IX45.~ .825 (2l.01
• High surge
~
current capability
• TypicallR less than 0.1 fJ. A
" "
,"'\\.'
• Ideal for printed circuit board
• Built -in printed board stand-offs
\,., "
• High temperature soldering guaranteed: 250'C
for 5 seconds
.795 (20.21
+
!
r-...J-
t
.042 n.011 DIA.
•038 (0.911 4
..
1.0
MIN •
(25.41
_1
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
Tennlnals: Plated Leads solderable per
MIL-STD-202, Method 208
Mounting Position: Any
Weight: 0.92 ounce, 25.3 gram
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'0 ambient temperature unless otherwise specified.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Input Voltage R + C-Load
Maximum Average Forward Output Current for
natural cooling operation at TA = 45'C R + L-Load
C - Load
on Chassis = 31 IN 2 ,200cm 2,TA-4S'C
C - Load
R+ L-Load
Maximum DC Blocking Voltage (Note 1)
Maximum Repetitive Peak Reverse Voltage (Note 1)
Maximum Repetive Peak Forward Surge Current
Peak Forward Surge CurrentSingle Sine wave on
rated load (JEDEC) Method) at
TJ = 25'C
TJ = 150'C
Rating for Fusing at (k1 Oms)
TJ = 25'C
TJ = 150'C
Minimum Series Resistance at VRMS
Maximum Reservoir Capacitor
Maximum Instantaneous Forward Voltage Drop
per element at 5.0A
Maximum Reverse Current at rated Repetitive
Peak Reverse Voltage
TA = 25'C
TJ= 150'C
Typical Thermal Resistance (Note 2)
Operating and Storage Temperature Range
50 Hz or 60 Hz. resistive or inductive load.
SYMBOLS
840
VRRM
VRMS
65
40
I
I
125
80
B125
B250
I 200 I
I 125 I
400
250
I(AV)
Voc
VRRM
IFRM
65
100
I
I
125
190
I
I
IFSM
12r
Rt
CL
0.15
1000
I
I
0.3
5000
I
I
4.0
3.3
5.0
6.0
200
300
30.0
100
80
312
200
0.6
5000
.1
I
BaBO
600
380
UNITS
Volts
Volts
Amps
I
I
400
600
I
I
600
900
Volts
Volts
Amps
Amps
I
I
1.2
2500
I
I
1.8
1000
A2S
ohms
IlF
VF
1.1
Volts
IR
R9JA
TJ,TsTG
10.0
6.0
3.0
-50 to +150
I1A
NOTES:
1. Valid for each bridge element
2. Thermal Resistance from Junction to Ambient with unit mounted on 3"sq. x .11" THK (7.5 cm.sq. x 0.3 cm.) AI Plate
-502-
mA
'cm
·C
RATINGS AND CHARACTERISTIC CURVES 840C thru 8380C5000 / 3300
FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
5.0.
r:
......
zUJ
a:
a:
4.0
()
OCIJ
UJ
a:
~ffi
a:1l.
0:;;;
~
"-
c pac' 'vel
2.0.
LL«
UJ
~
a:
~
1.0
UJ
Isliv- loa
o
"
a:
a
a
c pac live
:::-- ~ "-~
r-... ::::
~
'e
IstlV
10
ad~~
r\~
UJ
3.0
@5~
LL «
~
~
~
a:
1.0.
UJ
a
'l'
'-
,
N
2.0
UJ
lao.
50
40
(j)
~ ffi
Lt 1M cool ngn edlu ~te per ure .at alur
cling with ulh alSI k
~
~
50
:::>
()
.... .....
3.0.
60
W
"""" ..... ~ "-
:::>
FIG. 2 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
a
I'
lao.
50.
CASETEMPERATUREOC
150.
150.
AMBIENT TEMPERATURE, °C
FIG. 3 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTIC PER BRIDGE ELEMENT
FIG. 4 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
lao.
00
r:
z
~
40
G
20.
,....
a:
@
~
10.
-'
'rttI'
I!!e
w
0"-
a::2
~«
a:
:::>«
1.0.
~
0.6
Z
0.4
~
CIJ
~
0..2
'~'
11.4
"
"
2
0.6
0.7
t==
"
.....
~
~
~
....
~
I
10
a. t
0..5
""
"-
"-
. .rI.
"-
6
o
LL
«
w
t-t--
1"'00
r-..
(/)w
LLIl.
CIJ:;;; 2.0
8
r""'o
~tJ3
::>a:
4.0
t-t--
r0-
u
~ [3 aa
t5 ffi
~
f-'
Z
W
a:
a:
::>
0.8
10.
0.9
t.1
1.2
13
14
20 4060 100 200 400
1
2
4
6 10
j . - - - ms ~14---
15
20 40 1
2
4 6
~
20 40 lh
min ~I
--+-J-+-
sec
10
TIME
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
FIG. 6 - MEAN AVERAGE FORWARD CURRENT
CASE TEMPERATURE
FIG. 5 - MAXIMUM TOTAL BRIDGE POWER
DISSIPATION
16
Z
o
~
~
14
10
5;;
8
w~
~
12
is (j)
a:f-
cap
I
Cltl
'"
';'"
Il.
,..
a:
~
';'"
' / 1/
fI'
-"
~
;;
d
-"
re IstlV 10
6"
10.
~
8
eSI Ivel ad
US
is
a:
s:
~
II
6
4
~
~
1.0
" "" I\..
~'"
,""
""
ap
CIII
3.0
40
50.
6.0
70
80.
90
10
AVERAGE FORWARD OUTPUT CURRENT, AMPERES
"
15
1'0...
10
'\
'\
."1
~~
V
20
AVERAGE FORWARD CURRENT
-503-
'\
:"',1'0..
T rm Ir isla ce, as toe olin me umA CA
2.0
~I
10.
UJ
oIl.
I
1'\
.5
I
12
CIJ
~
a:
I
14
i"'"
130 135
I
CIJ
~
o
o
LL
120. 12
16
40
60
~
crw
80
~
~
100
120
140 160
AMBIENT TEMPERATURE
KBU6A THRU KBU6M
SINGLE - PHASE SILICON BRIDGE RECTIFIERS
VOLTAGE-50fo 1000 Volts
CURRENT-6.0Amperes
FEATURES
'j
,935(23.71
1--' .105(4.71
~.095(22.71
' .......'
.165 (4.2)
.1&0(4.11
T'""-,.....::::;;::=~::r--;.
r 1
~
(i~11'66J0I1_6'01
.07511.9IR.;;--
1
~
~--.
760 JM!ll.!)
.. 45"
.005 (2.21
I
I
! I
l.m:UI
I
~III!
I
JiUUI ......1 TI
T
• Ideal for printed circuit board
• Reliable low cost construction
utilizing molded plastic technique
• Surge overload rating of 2S0 Amperes peak
• High temperature soldering guaranteed:
2S0' C 110 seconds 1 .37S", (9.Smm)
lead length 1 Sibs., (2.3 kg) tension
.45:h'1:,
.~
~I'I'III'
1
.20017.11
1!5(4.2J
+---1
t.o6511•71
j __ . . . _(2J,LAC~1 +
(25."
MIN
• This series is UL recognized under component
index, file number ES4214
• Plastic material used carries Underwritel'$
Laboratory Flammability Classification 94V-O
.2&0(6.&1
.100(4.51
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
Dimensions in inches
and
(millimeters)
Terminals: Plated Lead solderable per MIL-STD202, Method 208
Mounting Position: Any
Mounting Torgue: S in. lb. max.
Weight: 0.3 ounce, 8.0 gram
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
SO Hz Resistive or inductive load.
For capacitive load, derate current by 20%.
KBU KBU KBU KBU KBU KBU KBU
SYMBOLS 6A
Maximum Recurrent Peak Reverse Vo~age
VRRM 50
Maximum RMS Voltage
VRMS 35
Maximum DC Blocking Voltage
Voc 50
Tc~ 100'C
Maximum Average Forward Rectnied
TA a 4O'C
Output Current at
I(AY)
Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage drop
per element at 6.0A
VF
Maximum DC Reverse Leakage
TAa25'C
at Rated DC Blocking Voltage
Tc= 100'C
IR
Typical Thermal Resistance (Note 1)
R8JC
Operating and Storage Temperature Range
TJ.TSTG
68
6D
6J
6K
6M UNITS
250
Amps
1.0
10.0
200
4.7
-50 to +150
Volts
NOTES:
1. Thermal Resistance from Junction to Case with units mounted on a 2.S' x 1.4 x .OS' TH K
(S.5cm. x 3.5cm. x.15cm.) AI. Plate.
-504-
60
100 200 400 600 800 1000 Vo~s
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
6.0
6,0
~mps
j.LA
'cm
'c
RATINGS AND CHARACTERISTIC CURVES KBU6A THRU KBU6M
FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
fZ
,
60
r-...
LU
a:
a:
r-...
:::l
U
0
DOl
MOUNTED ON 4x4 IN(;H
COPPER PC BOARD, TA
05 1 27mm LEAD LENGTH
a:LU
«a:
~~
~~
LU
(')
I'
,
r-...
60Hz RESISTIVE OR
2. 01--
I'NiUCi'VEILOi OI
50
>
«
Z
,
0
LU
100
;..:
w
a:
a:
:::l
40
o
10
L
20
a:
~ f:3
a: a:
OW
LLo.
~
150
100
,
40
(I);:e
o:::l«
TEMPERATURE "C
1£
V
U
r-... I'
I
«
a:
FIG. 2 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS PER ELEMENT
HEAT"SINK
MOUNTING. Te
/
10
TJ ;::SC
PULSE WIDTH 300/.15
1°10 DUTY CYCLE
~
==
W
Z
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
;..:
fZ
«
04
«
f-
02
Z
1
LU
a:
a:
:::l
/
(I)
10
Z
06
r---:rc
U
o
10Q
_t--
e
07
08
09
10
12
13
INSTANTANEOUS FORWARD VOLT AGE. VOLTS
~
WOl
g? ~
u
10
LULU
>0.
LU::;;
a:«
OlO
:::la:
OU
~~
-
;::z
«
f-
Ol
250
TA = 25°C
, 1'--
Z
FIG. 4 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
20
40
225
80
60
100
120
140
PERCENT OF PEAK REVERSE VOLTAGE
FIG. 5 - TYPICAL JUNCTION
CAPACITANCE PER ELEMENT
400
..........,.
U.
a.
100
W
U
Z
«
f-
a«
200
(l)W
00.
a:::;;
175
««
S;..:
a:z
OW
LLa:
",a:
«:::l
f'H{
I
w
(')(1)
a:w
:::la:
I I II
TJ = 25°C
f
lMHz
VSlg 50mVp-p
1"'-1"-
150
125
wU
f"-
!
r'.....
J I
TJ
150 0
SINGLE SINE-WAVE
JEDEC Method
1',
...
~
0.
100
" f'..
I
1'",
75
50
10
20
NUMBER OF CYCLES AT 60Hz
0.
«
U
10
5
10
50
100
REVERSE VOLTAGE. VOLTS
-505-
50
10 0
KBPC6005 THRU KBPC610
SINGLE - PHASE SILICON BRIDGE RECTIFIER
VOLTAGE-50to 1000 Volts CURRENT-6,OAmperes
FEATURES
• This series is UL recognized under component
index, file number E54214
• Plastic material used carries Underwriters.Laboratory Flammability recognition 94V_O~
• High surge capability
\, ' \
• Ideal for printed circuit board
• TypicallR less than .1 J.1 A
\\
• High temperature soldering guaran\
teed 250' C 110 seconds 1 .375", (9.5mm)
lead length 1 5Ibs., (2.3 kg) tension
.445 m.3)
HOLE FOR
1_1.1 .405110.5)
16 scre.,
,
lAC
.158 (4.0)DIA +
~
.142(3.6)
• ~--+
I
.620 (15.'5)
.12' (3.2)
.580114.7)
:rlL
Y
I
1
.047(1.2)1+ __ +
rAe
.042 (1.1)
'II"
.0381.97)JJ
I
f
.75
119.11 MIN .
__
*_
.270 (6.9)
•230 (5.8)1..
I
MECHANICAL DATA
I
case: Reliable low cost construction utilizing
molded plastic technique
Terminals: Plated Lead solderable per MIL-STD202, Method 208
Mounting Position: Any
Weight: 0.2 ounce, 5.5 gram
Mounting Torque: 5 in. lb. max.
Polarity sho.,n on side of case:
positive lead by beveled corner
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified
Resistive or inductive load, 60 Hz,.
For capaCitive load, derate current by 20%
KBPC KBPC KBPC KBPC KBPC KBPC KBPC
fI01
fI02
fJD4
_
fI08
110 UNITS
SYIIBOLS 6OD5
Maximum Recurrent Peak Reverse Vo~age
Maximum RMS Vo~age
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Tc= 100'C(Note 1)
Output Current at
TA - 25'C(Note 2)
Peak Forward Surge Current Single sine-wave·
superimposed on rated load (JEDEC Method) at TJ-150'C
Maximum Instantaneous Forward Vo~age drop
per element at 3.0A
Maximum Reverse Leakage
TA - 25'C
at Rated DC Blocking Voltage
TA= 100'C
Maximum A.C Operating Junction Temperature
Typical Thermal Resistance (Note 1)
DC Operating Temperature Range
Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
I(AY)
IFSM
150
~mps
VF
1.2
10.0
1.0
+150
8.0
-50 to +125
-50 to +150
Volts
IR
TJ
R8JC
Tc
TSTG
NOTES:
1. Unit mounted on 6" x 5.5" x .11' THK (15 em. x 14 em.x 0.3 em.) AI. Plate
2. Unit mounted on P.C. Board at .375", (9.5mm) lead lengths.
-506-
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
6.0
3.0
Amps
!LA
mA
'C
'cm
'c
'c
RATINGS AND CHARACTERISTIC CURVES KBPC6005 THRU KBPC610
FIG. 2 FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
~
Z
10
I-
T.CASE
MOUNTED ON
:::J
0..
~ffl
~~
«::ii
I I
O:W
:::JO:
(/)W
rx6.5"x.I1'THK.
.125
(!l(/)
6.0
:i:<.
0:1OZ
wO:
~~
i-I-.~
2.0
r-- r--
60~Z R~Slstilve or'
::(
o
\
TA p.e. Board Mounted
.375", (9.5mm) Lead Lengths on .47 in"
(12mm2) Copper leafs
u. LU 4.0
ffi 0
(15K 14xQ.3cm)
W
0:
0:
:::J
0
W
...... .... ~.PLATE
8.0
00:
Inductive Load
o
00..
o:::ii
««
~
~
1--1
100
50
L1.
'i'
+r
:.:
0..
CI •
III
«
w
25
150
"
rYYl
75
0:
0
TJ'" 150"C
Single Sine· Wave
JEDEC Method
100
:i:
r-- r-- ~l
50
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
·150
......
24681020
,~
40
60
80 100
TEMPERATURE ·C
NUMBER OF CYCLES AT 60Hz
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
PER ELEMENT
100
FIG. 4 - TYPICAL REVERSE
CHARACTERISTICS PER ELEMENT
I-
Z
W
0:
0:
:::J
0
10
~
10
UJ(/)
(/)W
0::0::
WUJ
>0..
UJ:2
0::«
0
0:
«(/)
:i: w
0:0:
Ow
II
1.0
TJ
(/)::ii
:::J«
W
Z
«
IZ
«
25"C
:::JO::
00
UJZ::i:
«"
1-1ZZ
«UJ
1-0::
CJ)O::
Z:::J
I
1
0.1
TJ = 25°C
1.0
(/)0
Pulse Width", 3001J s
2% Duty Cycle
L1.o..
0
==
I
0.1
-0
l-
•
(/)
~
.01
.01
I
0.6
~
20
0.8
1.0
1.2
1.4
1.6
1.8
40
60
80
100
PERCENT OF RATED PEAK
REVERSE VOLTAGE
2.0
INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
-507-
120
140
KBPC8005 THRU KBPC810
GLASS PASSIVATED SINGLE - PHASE SILICON BRIDGE RECTIFIER
VOLTAGE - 50 to 1000 Volts CURRENT - B.O Amperes
FEATURES
S-lI
.094
•
• This series is UL recognized under component
index, file number ES4214
• High temperature metallurgically bonded
• Glass passivated cavity-free rectifier Junctions
• Plastic material used carries
Underwriters Laboratory
Flammability Classification94V-O
• TypicallR less than 0.1 11 A
• High temperature soldering guaranteed:
265' C /1 0 seconds / .37S", (9.Smm)
lead length /Slbs., (2.3 kg) tension
.52 (13.2)
(2·~t~~51_1..J.48 m.2)
HOLE FOR
"
.156
'6 Cl.271DIA.
screw
I
I
AC
~-- ...
~
1__ --+
. 290(7.37)
.210(5.33
.770 (19. 56)
.730 Cl8.54)
1
rAe 1+-+1.., .290 (7.37)
.052Cl.3)...
.210 15.33)
~~)II
1
t
.75
Cl9.llMIN .
__
._
.300 (7.6)
•25016.35I!..
I
I
MECHANICAL DATA
CBse: Void-free plastic package
Terminals: Leads, solderable per
MIL-STO-202, Method 208
Polarity shown on side of case:
positive lead by beveled corner
Dimensions in inches
and
(millimeters)
Mounting: Thru hole for #6 screw
Mounting Position: Any
Weight: 0.24 ounce, 6.9 gram
MAXIMUM RA TlNGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'0 ambient temperature unless otherwise specified.
Resistive or inductive load, 60 Hz,.
For capacitive load, derate current by 20%.
KBPC KBPC /CBPC KBPC KBPC KBPC KBPC
SYMBOLS Bf105 801
B02
_
B06
B06
B10 UNITS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Te- 50'C (Note 1)
Output Current at
TA = 40'C (Note 2)
Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage drop
per element at 3.0A
Maximum DC Reverse Leakage
TA-25'C
at Rated DC Blocking Voltage
Tc-125'C
Typical Junction Capacitance per element (Note 3)
Typical Thermal Resistance (Note 4)
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voe 50
I(AV)
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
8.0
3.0
~mps
j
IFsM
125
~mps
VF
1.2
10.0
100
30.0
6.0
-50 to +150
Volts
IR
CJ
R8JC
TJ.TsTG
NOTES:
1. Unit mounted on 8.7" sq. x 24"THK (22cm. sqv 0.6 cm) AI Plate.
2. Unit mounted P.C. board at.375", 9.5mm lead lengths.
3. Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
4. Thermal Resistance from Junction to Case with units mounted on a 8.6" x 8.6" x .24" THK (22 x 22 x 0.6 em).
-508-
I1A
pi
'CNI
'C
RATINGS AND CHARACTERISTIC CURVES KBPCBOOS THRU KBPCB10
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
125
W
10
~~8.0
. . . r--. r-...
Oa:
OW
a:1l.
<{ ::;6.0
~<{
a: I-
\
r.... r.... ....
ffi (J 2.0
TAPe BOARD MOUNTED
--r--. ..... ~
WITH .375" (9.5mm)
LEAD LENGTHS ON .47 IN2 (12mm2) Cu Leafs
20
50
80
50
25
100
\
-"'
FIG. 4 -
150
C.
~
50
U
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
PER ELEMENT
w
a:
a:
~ffl
U
I
/
TJ '" 150°C
1.0
Z
w
r--~
I
0.3
Z
I
Pulse Width = 300 J.l s_
2% Duty Cycle
II I
<{
0.1
<{
100
U
I
I
50
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
a:
a:
::l
W
wen •
enW
a: a:
~~
1,0
w::;
a: « .•
enO
I-
en
~
TJ -" 25°C
f = 1MHz
Vsig = 50mVp-p
1--
TJ'" 25°C
OW
IZ
....
10
I
I{
60 80 100
TYPICAL JUNCTION CAPACITANCE
PER ELEMENT
10
LLIl.
0
40
REVERSE VOLTAGE, VOLTS
en::;
::J<{
20
.......
"<{
I
3.0
a:
a: a:
8 10
r--.......
0
<{
A"
::l
U
0
Z
<{
I-
-'
10
1.0 cycle
6
W
~
Z
I-------f
"
i'..
r "'11
NUMBER OF CYCLES AT 60Hz
LL
30
I'
r.... ~
120
TEMPERATURE,oC
"
TJ=150 c C
SINGLE SINE-WAVE
(JEDEC Method)
r\.
uJ 4.0
>
<{
75
i'..
.....
"-
Wa:
"a:
<{::l
~
a:z
OW
LLa:
:"ca:
<{::l
w O
....... ~
OZ
u....
Oil.
a:::;
<{<{
T.CASE
MOUNTED ON
8.8" x ,E •.24" THK. _
(22 • 22 x o.8om)
AL·PLATE
I::l
Il.
100
"Ul
a:w
::la:
UlW
FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
::::lao
OU
I
.03
~~
I
I
.01
0.2
~
Z
I
0.'
0.6
0.8
1.0
1.2
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
~
en
~
-509-
0.1
.04
_
.01
L----2~0----~~----~60~---8~0----,0~0----,~20----,.~0
PERCENT OF RATED PEAK REVERSE VOLTAGE
I
KBU8A THRU KBU8M
SINGLE· PHASE SILICON BRIDGE RECTIFIERS
CURRENT - B.O Amperes
VOLTAGE· 50 to 1000 Volts
FEATURES
• This series is UL recognized under component
index, file number E54214
• Plastic material used carries Underwriters Laboratory 'Flammability Classifica- ~
tion94V-o
• Ideal for printed circuit board
.. ,,'\.
,,~~
• Reliable low cost construction
utilizing molded plastic technique
'
• Surge overload rating of 300 Amperes peak
• High temperature soldering guaranteed:
2S0' C /1 0 seconds / .37S", (9.Smm)
lead length / Sibs., (2.3 kg) tension
935(23.71 ~
.280n.1l
.160C4.U
..
.895(22.7)
•• 185(4.1] ES(4.2)
1
1....1
155(42)
+--+1
.....---.~r=r,"'l,r---'
.. 45·
~
r 1
I ___.D65
1
.085 (2.21
n.71
U}:'
.760 JDD!J2,§)
U9.31 -'60(1&.81
T _:_
---
f- T-
+
:405110:31
.o75U.91R.TYP
_ [2.!.LAC~l
I
I
i i , 'I'
~II
!
.fiB lUI
11
1/,
1.0
(25.41
MIN
,
1
1
I
I
~
,
,
I~
I
-I
.2'0(6.61
.180(4.51
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique
TermInals: Plated Leads solderable per MIL-STD202, Method 208
MountIng PositIon: Any
MountIng Torgue: S in. lb. max.
WeIght: 0.3 ounce, 8.0 gram
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at25'C ambient temperature unless otherwise specified
Resistive or inductive load. 60 Hz•.
For capacitive load. derate current by 20%
KBU KBU KBU KBU KBU KBU KBU
SYMBcx.s SA
Maximum Recurrent Peak Reverse Voltage
VRRM 50
Maximum RMS Voltage
VRMS 35
Maximum DC Blocking Voltage
Voc 50
Maximum Average Forward RectHied
Te= 100'C
TA .. 45'C
Output Current at
I(AVl
Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
IFSM
Maximum Instantaneous Forward Voltage drop
per element at S.OA
VF
Maximum DC Reverse Leakage
TA=25'C
at Rated DC Blocking Voltage per element Tc = 100'C
IR
Typical Thermal Resistance (Note 1)
R9JC
Operating and Storage Temperature Range
:T"J, TST(
8B
80
8G
8J
8K
8M UNITS
100 200 400 800 SOO 1000 Volts
70 140 2S0 420 580 700 Volts
100 200 400 800 SOO 1000 Volts
S.O
8.0
Amps
300
~mps
1.0
10.0
300
5.0
-5010+150
Volts
NOTES:
1. Thermal Resistance from Junction to Case with units mounted on a 3' x .11' THK (7.5cm. sq. x O. 3 em.) AI. Plate'
-510-
'J.IA
'CIW
'C
RATINGS AND CHARACTERISTIC CURVES KBU8A THRU KBU8M
FIG. 2 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS PER ELEMENT
FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
0
100
r:
~
1 HEATSINK
MOUNTING. Te
2.85"x.I2"THKAL·PLATE ,
(7.5cmSQ x.3 em THK)
0
"N
60 Hz RESISTIVE OR
INDUCTIVE LOAD
0
1\
~rfl
a: a:
u.o.
(/)::;:
:::l«
aw
~
o
50
~t-;.:t~IOTH" 3OOJ.ts-
/
Ie
2% DUTY CYCLE
«
150
100
~
04
«
0.2
~
01
Z
~
(/)
TEMPERATURE 'C
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
~.
2.0
Z
~
o
40
Ow
~
0
~
V
10
a:
~
I.... ,
40
20
U
0
, ,
.... 1\,.
MOUNTED ON
0.5". 127mm LEAD LENGTH
z
w
a:
a:
:::l
I
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
10
Z
w
a:
a:
:::l
-
Tc'" 10CPC
U
w(/)
~~
----
10
WW
>0.
w:::;:
a:«
(/)0
:::la:
!--
~~ 0.1
«
~
z
~
(/)
II: W
:::la:
(/)w
&! ~
««
TA = 25°C
.01
~r:
1/
II: Z
u.a:
PERCENT OF RATED PEAK REVERSE VOLTAGE
~i3
40
80
60
100
120
FIG. 5 - TYPICAL JUNCTION
CAPACITANCE PER ELEMENT
400
~ a:
25
o
20
150
~
........
r-.... r--.
"'"
50
JT i"'J....1c
TJ
10
25
50
t§
0
10
50
20
NUMBER OF CYCLES AT 60Hz
Z
~
klNUAJ J
a.
«
~
li
1'-. .....
100
f.l.0MHz
Voig.6OmVP1>
100
SI1E
(JEDEC MoIhod)
TJ 150 C
.........
""""'--l
l""H-l.
u.
U
Ow
140
20
c.
u.i
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
30
W
C!l(/)
au
Z
0,
0
FIG. 4 -
100
REVERSE VOLTAGE. VOLTS
-511-
50
100
I
KBPC10,15,25,35 SERIES
HIGH CURRENT SINGLE - PHASE SILICON BRIDGE RECTIFIERS
FEATURES
• This series is UL recognized under component index, file number ES4214
• The plastic material used carries Underwriters Laboratory flammability recognition 94V-O
• Integrally molded heats ink provide very low thermal resistance
for maximum heat dissipation
• Universal4-way terminals; snap-on, wrap -around, solder or
P.C. board mounting
• Surge overload ratings to 400 Amperes
• Terminals solderable per MIL-STD-202, Method 208
• TypicallR less than 0.1 J.I. A
• High temperature soldering guaranteed: 250' C 110 seconds 1
.375", (9.Smm) lead length 1 Sibs., (2.3 kg) tension
MECHANICAL DATA
KBPC-W WIRE LEADS
Case: Molded plastic with heatsink integrally mounted in the
bridge encapsulation
Terminals: Either plated .25" (6.35mm). Faston or plated copper leads .040" (1.02mm) diameter. Suffix letter oW' added to indicate leads
Weight: .706 ounce, 20 gram
Mounting Position: Bolt down on heat-sink with silicone thermal
compound between bridge and mounting surface for maximum
heat transfer efficiency
Mounting Torque: 20 in. lb. max.
Polarity: Polarity symbols molded on body
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified. 60 Hz. resistive or inductive load. For capaacitive load. derale current by 20%.
-oOS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward
KBPC10
Rectified Output Current at
KBPC15
Te • 55'C
at
KBPC25
KBPC35
Peak Forward Surge Current Single
KBPC10
sine-wave superimposed on
KBPC15
rated load (JEDEC Method)
KBPC25
KBPC35
KBPC10
Rating ~on-repetitiv~ for t
greater han 1 ms an less
KBPC15
than 8.3 ms) for Fusing
KBPC25
KBPC35
Maximum Instantaneous
KBPC10
5.0A
Forward Voltage drop per
KBPC15
7.5A
element at
KBPC25
12.5A
specified current
KBPC35
17.5A
Isolation Voltage from case to leads
Maximum Reverse DC Current
at Rated DC Blocking Voltage per element
Typical Thermal Resistance (Note 1)
Operating and Storage Temperature Range,
VRRM 50
VRMS 35
VDe 50
I(AV)
IFSM
I~
.(It
-liZ
.f14
..(J6
-08
-to
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
10.0
15.0
25.0
35.0
Amps
200
300
300
400
~mps
160
375
375
660
A2s
VF
1.2
2500
Volts
Vee
IR
R8JC
TJ,TSTG
10.0
2.0
-50 to +150
'cm
NOTES: 1. Thermal Resistance from Junction to Case.
-512-
itA
·C
RATINGS AND CHARACTERISTIC CURVES KBPC10, 15,25,35 SERIES
FIG. 1
FIG. 2
TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER
BRIDGE ELEMENT
m
w
a:
w
Il.
::;
I
m
w
a:
w
100
KBPC35
35
Il.
«
.-:
zw
a:
a:
:;)
u
MAXIMUM OUTPUT RECTIFIED CURRENT
-'Te,,~o'C
II
10
«
r
.-:
Z
a:
a:
M
I
~
oI"m
0
KBPC15
15
C
a:
~
a:
I
,
r-....
KBPC1Q
10
V
\...-
1 I
0.6
0.8
1.0
"
W
Cl
5
«
a:
I
>
«
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
.
75
50
I
I
\
I\, ,
Plate
I
I
~ 1. 6' x 2.2" • 2.2"
~\ Ahwing P(at8
~ ~\5
, 6.7 , 5.6
0
25
I
~wjn9
r\ (12.7, 10 j2' 7.3, em)
r- BOHI AeSISti,e or Inrctlve
L'J
1.8
1.6
1.4
1.2
""
I"-
TJ = 25°C
Pulse Width = 300 /J S
1% Duty Cycle
em)
I
6- x 4- x 3-
0
I
0.1
0.4
.......
I
«
ow
z
«
f!E:
I\.
:;)
:;)
z
~
m
20
Il.
x
\. 1/\
f-
I J
1.0
x
\.
f-
a:
1\\/(12.8
5- x6- x 4.9 At-... wing Plate _
15.2 12.4
KBPC25
25
U
:;)
I 1
I I
\'
30
w
TA=25°C
:;)
c
a:
«
,
\
::;
II
I
; - x 3.5 M x 4.6- AL-wing Plate _
I (23 x ~x 11.8 em)
100
"
1
~
125
1
m)
I
150
175
200
CASE TEMPERATURE Te," C
FIG. 4
FIG. 3
MAXIMUM POWER DISSIPATION
MAXIMUM OUTPUT RECTIFIED CURRENT
80
40
35
m
w
a:
w
Il.
.-:
25
a:
a:
20
Z
w
U
:;)
Il.
~
I
'.0"
I
I""'---
C/W
I
0
l
10
Cl
«
«
--.,........
I
r--
10
20
30
o
I"-...
50
60
l
/
I~
I
~
Z
t'-...
i=
it
iii
m
f"....
Ci
--- -
-r-.
60
........... r-...
70
50
o
~
~
--.. !-.....
r-.
80
90
40
~.
30
J
V
I
~
/
20
100
~~!I~TIVElINDUCTIVE _
~~
Il.
W
~
a::
w
>
/
r/
w
~
l /
i I
'/ \
1/
a::
«
40
\
I
I"-
I
I
0
70
rIl
KBPC10
Rth~.A' 1.0, ClW
5.0
0
-~
LOAD
a::
........
15
f-
a::
w
>
a
.............
I
CAPACITIVE
TJ = TJ MAX.
w·
Cl
l"o.....
:;)
W
~
60Hz Resistive or
Inductive Load
I
KBPC25
RthS·A = 1.00 ClW
KBPC15
RthS-A =
f-
1=
RthS·A'" 0.5 0 C/W
...... 1'-..
f-
«
:;)
r'""--
30
::;
m
I
1
KBPC35
~/
10
0
~
L
o
10
20
30
AVERAGE OUTPUT CURRENT, AMPERES
AMBIENT TEMPERATURE, TA"C
·513·
40
RATINGS AND CHARACTERISTIC CURVES KBPC 10,15,25,35 SERIES
TYPICAL REVERSE CHARACTERISTICS
FIG. 5
TC=100°C
~
./
L
-
,...m
TA - 25°C
1
w
®
'00
®
,m
'40
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG. 6
f-"
Z
400
II:
II:
::J
300
W
(J
W
200
(!)UJ
II:W
:JII:
UJW
@
~
<{<{
'00
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
-
....... ~
r---.. ....... r-.
......... .......
1"- .....
r-.... k
~C35
.... 1'-01"-
.........
r-..... ~V
..... r-.I"- .....
~rm
ou..
""""
I-O'"r-.
TJ = 150°C
SINGLE SINE
WAVE (JEDEC Method)
:.::
~
a..
"""" ....
KBPC10
I
40
1
1.5
-
I'-or--. 1'-0 ....
-
.........
~I~~,~ycle
~
II:
~~~g~;
2
4
5 6
7 8 9 10
15
20
30
40
50
7090100
NUMBER OF CYCLES AT 60Hz
FIG. 7
TYPICAL JUNCTION CAPACITANCE PER BRIDGE ELEMENT
TJ=25"C
f = 1MHz
Vsig = SCm Vp"p
500
U. 400
C.
-,
R
300
(J
250
ui
(J
..........
......
1"-""""
200
Z
1"-...
<{
I- 150
o
.......
i""""'-
<{
~
100
i'-r-.
(J
®
1.5
2
3
4
10
5
15
20
30 40
REVERSE VOLTAGE, VA, VOLTS
-514-
50 70 100
FIG. 8
KBPC
~
.
:::: ::::::G1
.658116.7)
-.6--5--
~+~,_iC
~: :::~:
I ~ ,1
,.,3(28.71
1
Hole for
No.8 Screw
.193" (4.9) dlam .
EPOXY
CASE
:!!! :::~:_II-- .09;-116~5)112.4)
I
1 _ __
~ .iam.
-~-
.~ ~AC+==±=:;::.J
t
1.000125.40)
~~~~-!...m~~~
1
1
0.90
22.86)
'---METAL HEAT SIN
FIG. 9
RKBPC-W
.042 (1.07)
.038 (.97)
_DIA.
EPOXY
::-CASE~
-.r-
1T
1.200
~w-'141'1~~
I
, I'
"
.442 (11.23)
.432 (10.97)
t
I
,
M1N
.
'------METAL HEAT SIN
NOTES:
1. Corrosion resistant terminals designed for .250 female Quick connector, wrap around or solder.
2. A thin film of silicone thermal compound is recommended between the bridge case and mounting surface for
improved thermal conduction.
3. Higher dielectric strengths available. Consult factory.
4. These bridges are also available in fast recovery and in positive and nega!ive center tap and in doubler
configurations. Consult Factory.
Dimensions in inches and (millimeters).
I
I
-515-
RDF005M THRU RDF08M
MINIATURE FAST RECOVERY GLASS PASSIVATED
SILICON BRIDGE
VOL TAGE - 50 to 800 Volts CURRENT - 1.0 Ampere
FEATURES
0
,. .
• This series is UL recognized under component
Index, file number E54214
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-O
__---l~F·nUHgl
~~5J:.:I
,. . __ L_
+
.245 (6.21
[OJT
3~glNl
l
• Glass
passivated chip JUnctions..
.
Surge overload rating -
.•
50 amperes peak
1i
• Ideal for printed circuit board
! i
• High temperature soldering guaranteed:
265' C 110 seconds at 5 Ibs., (2.3kg) tension
• Fast switching for high efficiency
-
.080 (2.031
.050 £1.271
MECHANICAL DATA
Case: Reliable low cost construction utilizing
molded plastic technique results in inexpensive
product
Terminals: Lead solderable per
MIL-ST-202, Method 208
Polarity: Polarity symbols marked on body
Weight: 0.04 ounce, 1.0 gram
Mounting Position: Any
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
60 Hz, resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Output Rectified Current
atTAa 40'C
Peak Forward Surge currentSin~le sine-wave
superimposed on rated load (JE EC Method)
Rating for fusing (tJl.
60
UJ
a::
a::
::J
TJ = 150°C
50
U
UJ
CIl 40
a::UJ
::Ja::
CIl UJ 30
C)
~~
20
aLL
10
~
~~n~~~S~!~~~ve_
~
~~
10
CIlO
::Ja::
aU
~~
""""" ~
~ 1--
-r---
i"'o- .....
««
UJCIl
CIlUJ
a:: a::
UJUJ
~
~~
TJ = 25°C
0.1
~~
~i3
JIll'
.01
./
20
~
2
Jl.
6
10
20
40
60
NUMBER OF CYCLES AT 60Hz
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
40
60
80
100
120
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
100
FIG. 6- REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
100
LL
a.
W
.....
z
«
I-
a
«
10
Jl.
E
r
«
U
"\
50
U
TJ ." 25°C
f-1MHz
Vsig - 50mVp-p
,,~
025
"'~
J
l/
"
5.0
1.0
10
'(
---I,cML SET TIME BASE FOR
100
'I I'
REVERSE VOLTAGE, VOLTS
-517-
50/100ns/em
I
RW005G THRU RW08G
MINIATURE FAST RECOVERY GLASS PASSIVATED
SINGLE - PHASE SILICON BRIDGE RECTIFIER
VOL TAGE - 50 to 800 Volts CURRENT - 1.5 Amperes
FEATURES
• Glass passivated chip junctions
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-O
• High case dielectric strength
• TypicallR less than 0.1 11 A
• Fast switching for high efficiency
• High overload surge capability
• Ideal for printed circuit board
• High temperature soldering guaranteed:
265' C/10 seconds /.375", (9.5mm) lead
length/5Ibs., (2.3 kg) tension
I~I
~l
-:TIO(4.lJ
I
--1-"'rrri--1"rTi-I-r--
r
1.0 MIN.
.0321.81)
. 0281.11)
I
.11... --t-.060
(1.52t
.020 (.51)
MECHANICAL DATA
Case: Molded plastic
Terminals: Leads solderable per MIL-STO-202,
Method 208
Mounting Position: Any
Weight: 0.04 ounce, 1.1 gram
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2S'C ambient temperature unless otherwise specified.
60 Hz, resistive or inductive load.
RW
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at
,375",(9.5mm) lead length at TA = 25'C
Peak Forward Surge Current Single sine-wave
superimposed on rated load (JEDEC Method)
Rating for fusing (t<8.3ms)
Maximum Instantaneous Forward Voltage Drop
per element at 1.0 Amperes
Maximum DC Reverse Current at Rated
TA = 25'C
DC Blocking Voltage per Bridge Element TA - 125'C
Typical Junction Capacitance per element (Note 1)
Maximum Reverse Recovery Time
per element (Note 3)
TJ = 25'C
Typical Thermal Resistance (Note 2)
Maximum DC Operating Temperature Range
Storage Temperature Range
RW
RW
RW
RW
RW
SYMBOLS 005G
OtG
50
100
VRRM
35
70
VRMS
50
100
VDC
02G
04G
400
280
400
06G
600
420
600
080
800
560
800
200
140
200
UNITS
Volts
Volts
Volts
I(AV)
1,5
Amps
IFSM
50.0
10.0
Amps
A2s
1.3
5.0
500
25.0
Voks
1'1
VF
IR
CJ
TRR
RaJA
TA
TSTG
200
36.0
-55 to +150
-55 to +150
NOTES:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Thermal Resistance from Junction to Ambient at .375", 9.Smm lead length P.C. Board mounting.
3. Reverse Reecovery Test Conditions: IF = O.SA, IR = 1.0A, Irr= 0.25A.
-518-
/LA
pf
350
-55 to +125
-55 to +125
ns
'CIW
'C
'C
RATINGS AND CHARACTERISTIC CURVES RW005G THRU RWOBG
FIG. 2 • MAXIMUM NON· REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 1 • DERATING CURVE
OUTPUT RECTIFIED CURRENT
I:l
1.50
::
1.25
a:
a:
:l'"
O~
50
:l
o
~~1.00 F"':::;::::>I~"III
«::;:
~ « .75
1----1--1'
~~
1-----1--+-+""
w w .50
l'la:
«a:
ffi 5
60
t-=
w
z
"
I--
.25
r-
~
......
~~ .....
fYY\
I~
1.0 Cycl.
T• • 25'C
......... i'o..
Single Sine·Wave
r-.... ........
~.CM.'hOd)
75
100
125 150
_L-L
175
2
AMBIENT TEMPERATURE, 'C
10
4
20
40
60
100
NUMBER OF CYCLES AT 60 Hz
FIG. 3 • TYPICAL
REVERSE CHARACTERISTICS
FIG, 4· TYPICAL FORWARD
CHARACTERISTICS PER ELEMENT
50
zt-=
w
a:
a:
:l
20
t-=
V
10
0
T• • 100'C
w'"
",W
10
z
w
a:
a:
e-
~~ 1.0
a:«
",0
:la:
a: a:
Ow
LL Cl.
"'::;:
:l«
02
,,
ow
w::;:
Z
0.1
Z
~
'"~
,.,.
.01
o
20
~
-
0.1
Z
~
T• • 25'C _ c - -
40
80
80
100
120
'"~
.0 1
0.4
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE
?-
80
20
0
~
«
0
10
~
w
1.0
1.2
1.4
1.6
<(3
1"' ...
~
.1
.4
1.0
5.0
-'W
~~
2.0
~
w
.5
~1.0.1,..o"
TJ.25'C
f.1MHz
V.ig. 50mVp-p
.2
20
~10.".
i""
r1
0.8
~1
50
00.l1li11
40
z
0.6
FIG. 8 • TYPICAL TRANSIENT
THERMAL IMPEDANCE
100
0
I
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5 • TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
ui
/
C
a:
WW
<>.
I
~.
o
a: a:
LL
F
I TJ • 2~'C
Pui •• Width. 300
1% Duty Cyol.
:l
I-I--
>Q. 1.0
w::;:
z
~
=
i!:
2
4
10
20
40
_ _
.2
100
REVERSE VOLTAGE, VOLTS
HEATING TIME (SEC)
·519·
I
EOF1 AM THRU EOF10M
MINIATURE GLASS PASSIVATED FAST EFFICIENT
SILICON BRIDGE
VOL TAGE - 50 to 200 Volts CURRENT - 1.0 Ampere
·
U
,. .
FEATURES
_ _--IF.285 (7.241
+ --1--
.25~(6.51
.245(6.21
,. . __ L_
~
-t-
.350(8.91
.300
(7.61
l
-
• This series is UL recognized under component
index, file number E54214
• Plastic material used carries Underwriters
Laboratory flammability recognition 94V-O
• Glass passivated chip junctions ~
• Surge overload rating 50 amperes peak
• Ideal for printed circuit board
• High temperature soldering guaranteed:
265' C 110 seconds at 5 Ibs., (2.3kg) tension
• Superfast recovery ttimes for high efficiency
MECHANICAL DATA
CBse: Reliable low cost construction utilizing
molded plastic technique results in Inexpensive
product
Terminals: Lead solderable per
MIL-ST-202, Method 208
Polarity: Polarity symbols marked on body
Weight: 0.04 ounce, 1.0 gram
Mounting Position: Any
Dimensions in inches
and
(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
60 Hz, resistive or inductive load. For capacitive load, derate current by 20%.
SYAfBOLS
Maximum Recurrent Peak Reverse VoHage
Maximum RMS VoHage
Maximum DC Blocking Voltage
Maximum Average Fo.rward Output
RectHied Current at TA = 40'C
Peak Forward Surge CurrentSingle half sine-wave
superimposed on rated load (JEDEC Method)
Rating for fusing (t<8.35ms)
Maximum Instantaneous Forward VoHage drop
per Bridge Element at 1.0A
Maximum Reverse Current
TA-25'C
at Rated DC Blocking VoHage
TA .. 125'C
Maximum Reverse Recovery Time (Note 1)
TJ-25'C
Typical Thermal Resistance (Note 2)
Operating and Storage Temperature Range,
VRRM
VRMS
Voc
EDF1AM EDF1BM
50
100
35
70
50
100
EDF1CM
150
150
150
EDF1DM
200
200
200
UNITS
VoHs
Volts
VoHs
I(AV)
1.0
Amps
IFSM
50
10.0
Amps
A's
VoHs
IR
1.05
5.0
1.0
TRR
RaJA
TJ, TSTG
50.0
40.0
-55 to +150
19
VF
NOTES:
1. Reverse Reccvery Test Conditions: IF" O.SA. IR == 1.0A. Irr = .2SA.
2. Thermal Resestance from Junction to Ambiient mounted on P.C. Board with, .51"sq. (13mm sq.) Copper Pads.
-520-
I1A
mA
ns
'cm
'C
RATINGS AND CHARACTERISTIC CURVES EDF1AM THRU EDF1DM
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
~
FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
Z
W
a:
a:
:::J
60
W
Cloo
a:W
:::Ja:
CIlW
00..
a:::'
««
40
20
a:
10
50
()
30
"
Singl~ Sin• .Lave'_
I
I
(JEOEC Method)
.........
I
fYY'l
........
1 cycle
r-........
.........
~
aLL
..........
>!:
«
W
6
0..
10
20
40
60
100
NUMBER OF CYCLES AT 60Hz
FIG. 4 - TYPICAL FORWARD
CHARACTERISTICS
PER BRIDGE ELEMENT
10
~
Z
W
a:
a:
:::J
AMBIENT TEMPERATURE. °C
/
()
0
OW
LLo..
~()
100
~-----
:::J«
aW
Z
«
IZ
«
I-
"".,...
~
~
J _PU~: ~~~;hC~~~~~
TJ =25°C
0.1
00
s
~
J
.01
0.4
0.6
0.8
1.0
1.2
1.4
INSTANTANEOUS FORWARD VOLTAGE
VOLTS
.
FIG. 5 -
10
CIl~
:::J.
01-
wZ
ZW
«a:
I-a:
Z:::J
«()
I-
I
00::'
-TJ :125°C
,.=
~ffl
a: a:
1000
W
Cl
«
>!:00
«W
Wa:
-'w
Wo..
00::.
a:«
Wo
>a:
1.0
a:
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
PER BRIDGE ELEMENT
I
TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
30
LL
C.
./
TJ"25 O C.."
25
I'-.
ui
",
()
Z
11.0
r--.... .....
20
«
I-
00
~
(3
«
«
()
0..
15
.........
10
5.0
0.1
20
40
60
80
100
r-.~
........
TJ = 25°C
f = 1.0MHz
II ~iir 50mlvP T
1;20
PERCENT OF RATED PEAK
REVERSE VOLTAGE
0.1
1.0
10
100
REVERSE VOLTAGE. VOLTS
-521-
200
-522-
SURFACE MOUNT
BRIDGE RECTIFIER
1.0 AMPERE
50 VOLTS TO 1000 VOLTS
I
------523-
INsr~--
DF005S THRU DF10S
MINIATURE GLASS PASSIVATED SINGLE-PHASE
SILICON SURFACE MOUNT BRIDGE
VOLTAGE-50 to 1000 Volts CURRENT-1.0Ampere
FEATURES
• This series Is UL recognized under component
index file number E54214
• Plastic material used carries underwrite.rs
Laboratory recognition 94V-O
• Glass passivated chip- junctions
• Surge overload rating - 50 amperes peak ~
• Ideal for printed circuit board
• High temperature soldering guaranteed
300'C/10 seconds at 5 Ibs., (2.3kg) tension
.0251.&351-
1~:;<45'
[J
.33518511
.320(8.131
I]
MECHANICAL DATA
Case: Molded Plastic
Terminals: Lead solderable per MIL-STD-202,
Method 208
Dimensions in inches
and
(millimeters)
Polarity: Polarity symbols marked on body
Weight:. 0.04 ounce, 1.0 gram
Mounting Position: Any
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient tsmperature unless otherwise specified,
60 Hz. resistive or inductive load.
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Output Rectified Current
atTA=40'C
Peak Forward Surge CurrentSin8r haH sine-wave
superimposed on rated load (JE C Method)
Rating for fusing (t<8.35ms)
Maximum Instantaneous Forward Voltage drop
per element at 1.0A
Maximum Reverse Current
TA=25'C
at Rated DC Blocking Voltage per element TA. 125'C
Typical Junction Capacitance per element (Note 1)
Operating Temperature Range
Storage Temperature Range,
VRRM 50
VRMS 35
Voc 50
NOTE:
1. Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
-524-
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
1.0
Amp
IFSM
50.0
10.0
AIJ1lS
A"s
1.1
10.0
0.5
25.0
-55 to +150
-55 to +150
Volts
jJA
rnA
pI
'C
'C
1"1
VF
IR
CJ
TJ
TSTG
RATINGS AND CHARACTERISTIC CURVES DFOOSS THRUDF10S
FIG. 2 -
MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
60
TA = 50 0
LLI
FIG. 1 - DERATING CURVE FOR
OUTPUT RECTIFIED CURRENT
C!lUl
II:LLI
::JII:
UlLLl
10
i\
D~
50
1I:::l<
««
"\
m2
C ppe Pad .0
I\..
?:~
13m~')
PC
r\
oard
II:Z
OLLI
20
«::J
10
u.1I:
l<:1I:
f= == I\. I J
30
LLlU
r\
".~
10
L-.....
r---.
100
80
20
40
60
100
FIG. 4 - TYPICAL FORWARD
CHARACTERISTICS
PER BRIDGE ELEMENT
120
AMBIENT TEMPERATURE.
0
10
~
Z
LLI
II:
II:
::J
~
0
60
........
NUMBER OF CYCLES AT 60Hz
FES STI EO
I au TIV La 0
40
"" I" b-.
~
r\!Io..
"I\.
20
.........
40
e
s'~~~i~'~;;~:VE_
140
150
C
U
I"
1.0
o
II:
~ffl
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
PER BRIDGE ELEMENT
II: II:
OLLI
u.~
100
::J«
LLI
II:
LLI
~
«
o
()
oLLI
Z
«
I-
..,-.
:2
II:
0
0.1
1
Z
J.,...o ~ ~J0125°C
I
~
~
:ii
0.4
1.0
0.8
1.2
1.4
mma
1.0
FIG. 5 -
II:
LLI
TYPICAL JUNCTION CAPACITANCE
PER BRIDGE ELEMENT
100
>
I
LLI
II:
'"
Ul
j.....-' ,... TJ 0 25°C
::J
Z
0.6
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
Ul
oLLI
TJ = 25°C
PULSE WIDTH = 30011 s
2% DUTY CYCLE
11
.01
~
Z
LLI
II:
II:
::J
()
LLI
I
Ul::l<
Ul
o. 1
u.
c.
u.i
«
()
~
!z
~
",.
TJ=25°C
10
-
~
f 0 1.0MHz
VSIQ = 50mVp-p
I""
I-
U
Ul
~
«
«
~
.0 1
20
40
60
80
100
120
()
140
PERCENT OF RATED PEAK
REVERSE VOLTAGE, VOLTS
10
REVERSE VOLTAGE, VOLTS
-525-
100
I
-526-
SURFACE MOUNT
SUPERECTIFIERS
I
-----IN~
-527-
__
®
COMPLETELY ENCAPSULATED
BRAZED CONSTRUCTION
CAVITY-FREE OPAQUE GLASSPASSIVATED JUNCTION
SOLID BRAZING, LOW RESISTANCE
1---,7"c.-----:::;;7"'~-7,.£------ EXCELLENT SURGE CAPABILITIES '
BRAZED-TEMP.
> 6oo"C
PATENTED*
• Glass·plastic encapsulation technique is covered by Patent No. 3,996,602
of t976; brazed ·Iead assembly to Patent No. 3"Q30,S06 of 1976 and glass
composition by Patent No.3, 752, lOt of 1973
UL RECOGNIZED
FLAME-RETARDANT
MOLDING COMPOUND (UL 94V.O)
Our surface mount SUPERECTIFIER has redefined
the concept of time and space. Passivated silicon
SUPERECTIFIERs (IN6478·IN6484 and GL41A·GL41M) are
1 amp, 50·1000 PRV, leadless, surface mounted devices that
provide new space options, from increased surface density to
reduced board size. Component placement speeds can be an
order of magnitude higher. Our surface mount SUPEREC·
TIFIERs feature:
Brazing at greater than 600°C at both terminal and celleliminates all soft solders
Exclusive UL recognized flame-retardant epoxy molding
compound rated 94V-O, the highest available rating.
(hermetically sealed construction.)
No other 1 Ampere rectifier of any kind - plastic, glass
or metal-can match our surface mount SUPERECTIFIER
features,
The way we make our surface mount SUPERECTIFIER is
what makes them the best.
In cell construction, most other rectifiers rated up to 1
Ampere are soldered or are only pressure contacted, Our
surface mounted SUPERECTIFIER is made into an entirely
solid unit with leads and cell brazed at temperatures greater
than 600°C, All other rectifiers fail at half that temperature!
Conventional plastic rectifiers use either varnish, silicone
rubber or a thin film of silicon oxide to protect the junction,
Our surface mount SUPERECTIFIER uses a patented glass
passivation to seal its junction hermetically
-528-
In device encapsulation, our surface mount SUPERECTIFIER uses a flame-RETARDANT molding compound, rated
UL 94V-0, the highest rating available, In fact, it is the only
plastic rectifier that exceeds environmental standards of
MIL-S-19500,
In summary, the General Instrument surface mount
SUPERECTIFIER is the world's only rectifier with totally
brazed construction, with a patented glass passivated
junction, and with flame·retardant molding encapsulation,
~
~
SURFACE MOUNT SUPERRECTIFIERS
Surface Mount Superectifiers
Features:
• High Temperature Metallurgically Bonded
• Plastic Package has Underwriters Laboratory Classification 94V-0
• Glass Passivated Junction
• Exceeds Environmental Standards of MIL-STD-19500
• High Temperature Soldering Guaranteed for all present methods, including wave and vapor reflow
soldering
Types:
1N6478-1N6484
GL41A-GL41M
RGL41A-RGL41M
EGL41A-EGL41G
GL34A-GL34J
RGL34A-RGL34J
EGL34 - EGB4G
1 amp, Standard Recovery Times
1 amp, Standard Recovery Times
1 amp, Fast Recovery Times
1 amp. Ultrafast Recovery Times
0.5 amp., Standard Recovery Times
0.5 amp., Fast Recovery Times
0_5 amp Ultrafast Recovery Times
Quick Guide To Surface Mount Superectifiers
! lN647E·
TYPE
I
thru
lN64B4
GL41A
thru
GL41M
RGL41Athru
RGL41M-
EGL41 +
thru
EGL41G+
GL34A
thru
GL34J
RGL34A
thru
RGL34J
EGl34A
thru
EGl34G
1;~~t -t~,~~~:~~ .I~. - ~E-G-r-~'i~:,- -
--
__ \/_=_~O (VI...
V=
1N6479
GL41B
RGl41B
EGL41B
GL34B
RGl34B _-j __E_G_L3_4_B-j
EGL41C
150 (V)
-_._---- -- ----- - - - -
~~.--
EGL41D
v. = 200 (V)
1N6480
GL41D
RGl41D
GI340
- - - - - .. ----- - - - - - - - t - - - - - - j - - - - - - +
EGL41F
RGL340
GL34G
._+---=-=--=----1
RGL34G
EGL34C
-------'---EGL340
~= 30~~ ------~---4---~-~-~---~ ._--- -EGL34F
----
v..=
400 IV)
EGL41G
IN6481 I Gl4~~ __R_.G_l_4_'G_t-_
_
...'!..000 IV!_-'-N~82Sl41J
V =
800 IV)
lN6483
V~~. 1000-(11;- 1Ne484
v
(V)
. Fast Recovery
._-
EGL34G
RGL34J
+-____ _
---.---~--
GL4'--I'--K+_R..:Gc::Lc..4_'K_4_ _ _ _
30
GL41M
RGL41M
--f-----.f-------j-----j
10 _
30
10 ---1 _____
30
_3_0_-+-____
1.0
1.1/1.2
-
SURGE (A)
GL34J
RGL41J
-+___
1.0/125
1.1
+ Ultrafast Recovery
-529-
1.3
10
--_._--1.25
Silicon Chips
General Instrument's Silicon
~hips
are available in a large variety of current and voltage types.
Chips with standard, fast, and ultrafast recovery times are available.
Each General Instrument chip is a glass passivated junction which offers easily solderable metallization as well as high surge current capability, making them ideal for hybrid circuit applications.
Types:
GPP
RGPP
1 and 5 amp, standard recovery times
1 and 5 amp, fast recovery times
1, 3, 5, and 8 amp, ultrafast recovery times
EFR
Standard Recovery
TYPE
((I
GPP1A
thru
GPP1M
Fast Recovery
GPP5A
thru
GPP5K
RGPP1A
thru
RGPP1K
EFR1A
thru
EFR1D
thru
thru
EFR3D
EFR5D
EFR8A
thru
EFR8D
EFR5A
1.0
5.0
1.0
5.0
1.0
3.0
5.0
8.0
TA.(0C)
75
100
75
100
75
75
75
75
GPP1A
GPP5A
RGPP1A
RGPP5A
EFR1A
EFR3A
EFR5A
EFR8A
GPP1B
GPP5B
RGPP1B
RGPP5B
EFR1B
EFR3B
EFR5B
EFR8B
EFR1C
EFR3C
EFR5C
EFR8C
EFR1D
EFR3D
EFR5D
EFR8D
20 (V)
V,,=
30 (V)
Vr1 =
40 (V)
V,=
50 (V)
VH =
60 (V)
VR =
100 (V)
V11 ""
150 (V)
Vn ",
200 (V)
GPP1D
GPP5D
RGPP1D
RGPP5D
= 400 (V)
GPP1G
GPP5G
RGPP1G
RGPP5G
VR =
EFR3A
I,,(A)
V,,=
Vf1
Ultrafast Recovery
RGPP5A
thru
RGPP5K
600 (V)
GPP1J
GPP5J
RGPP1J
RGPPSJ
Vr1 = 800 (V)
GPP1K
GPP5K
RGPP1K
RGPP5K
V"= 1000 (V)
GPP1M
SURGE (A)
60
150
30
150
50
75
125
V, (V)
1.1
1.1
1.3
1.3
0.9
0.9
0.9
L..--.
-530-
-300
09
I
-531-
BYM05-50 THRU BYM05-600
GL34A THRU GL34J
SURFACE MOUNT GLASS PASSIVATED SILICON RECTIFIER
Voltage - 50 to 600 Volts Current - 0.5 Amperes
FEATURES
-
.
.
--L1
.0221.559)
.016(~06)
.145(3.683)
.131(3.3m
(
(
-j
,
• For surface mounted applications
• High temperature metallurgically bonded - no
compression contacts as found
,
in diode-constructed rectifiers
• Glass passivated junction
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 450'C/5
seconds at terminals. Complete device submersible temperature of 260'C for 10 seconds in
solder bath
Dimensions in inches and (millimeters)
"Glass-plastic encapsulation technique is covered
by Patent No. 3,996,602 of 1976; brazed-lead assembly to
Patent No. 3,930,306 of 1976 and glass composition by
Patent ~o. 3,752,701 of 1973.
MECHANICAL DATA
Case: Molded plastic over glass
Terminals: Plated Terminals, solderable per
MIL-STO-202, Method 208
Polarity: Two bands indicate cathode
1st band denotes device type 2nd band denotes voltage type
Mounting Position: Any Handling Precautions: None
Weight: 0.036 gram, 0.0014 ounce
Ratings at
temperature unless otherwise specified. 60 Hz. resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOLS
-SO
-100
BYM05
-200
-400
·600
Standard recovery time device: 1SI band is white
GL34A GL34B GL34D GL34G GL34J
100
200
400
600
Maximum Recurrent Peak Reverse Voltage
50
VRRM
140
280
420
Maximum RMS Vofiage
35
70
VRMS
Maximum DC Blocking Voltage
50
100
200
400
600
Voo
Maximum Average Forward Rectified Current
0.5
atTT.75'C
ICAV)
Peak Forward Surge Current
8.3ms.single half sine-wave superimposed
on rated load (JEDEC Method)
10.0
IFSM
Maximum Instantaneous Forward Voltage at 0.5A
1.1
VF
Maximum DC Reverse Current
TA = 25'C
5.0
at Rated DC Blocking Voltage
TA= 125'C
50.0
IR
Maximum Full Load Reverse Current, Full Cycle
20
Average,at TA = 75'C
IRCAV)
7.0
Typical Junction Capacitance (Note 1)
CJ
70.0
Maximum Thermal Resistance RthJL (Note 2)
R8JL
RaJA
150.0
RthJA (Note 3)
Operating and Storage Temperature Range
-65 to +175
TJ,TsTG
Polarity Color Bands (2 nu Band)
Gray I Red Orange I Yellow IGreen
NOTES: 1. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
2. Thermal resistance junction to terminal. 5.0mm 2 copper pads to each terminal.
3. Thermal resistance junction to ambient, 5.0mm2 copper pads to each terminal.
-532-
UN"S
Volts
Volts
Volts
Amps
Amps
Volts
I1A
I1A
pf
'cm
'c
RATINGS AND CHARACTERISTIC CURVES BYM05-50 THRU BYM05-600
GL34A THRU GL34J
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
.w
o FIG. 1 - FORWARD CURRENT DERATING CURVE
f->
111
~~
u:
i=(/)
0111
111 a:
a: 111
oa.
a:::E
««
.
a:f-
om
>
«
,
0.2 SINGLE PHASE
50
100
75
......... .......
(/)';;
00.
\.
150
125
TJ =
~~
"---)
HALF WAVE
60Hz
RESISTIVE OR
INDUTTlve ~OAD
25
'"
11IJ..
(!l--'
a:«
:::lI
\.
0.3
o
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
a~
I'\.
0.4
0_1
,,~
a: 111
0.5
~
a.
111::;
a:«
(/)0
:::la:
00
111Z::;
«f-fZZ
«111
f-a:
(/)a:
Z:::l
-0
10
4_
I
TJ - lODGe
1.0
.4
0.1
.04
.01
-
20
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
-533-
140
BYM06-50 THRU BYM06-600
RGL34A THRU RGL34J
SURFACE MOUNT GLASS PASSIVATED FAST SWITCHING SILICON RECTIFIER
Voltage - 50 to 600 Volts Current - 0.5Amperes
FEATURES
• For surface mounted applications
• High temperature metallurgically bonded - no
compression contacts as found ,
in diode-constructed rectifiers
• Glass passivated junction
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 450'C/5
seconds at terminals. Complete device submersible temperature of 260'C for 10 seconds in
solder bath
Dimensions in inches and (millimeters)
MECHANICAL DATA
'Glass-plastic encapsulation technique is ccvereci
by Palent No. 3.996.602 of 1976; brazed-/9ad assembly to
Patent No. 3.930.306 of 1976 and glass composition by
Palent ~p. 3.752.701 of 1973.
Case: Molded plastic over glass
Terminals: Plated terminals, solderable per
MIL-STD-202, Method 208
Polarity: Two bands indicate cathode
1sl band denotes device type .2nd band denotes voltage type
Mounting Position: Any Handling Precautions: None
Weight: 0.036 gram, 0.0014 ounce
ambient temperature unless otherwise specified. 60 Hz. resistive or inductive load. For capacitive load. derate current by 20%.
SYMBOLS
.so
·100
BYAf06
·200
-400
·600
Fast switching device: lsi band is red
RGL34A RGL34B RGL34D RGL34G RGL34J
Maximum Recurrent Peak Reverse Voltage
50
100
200
400
600
VRRM
Maximum RMS Voltage
35
70
140
280
420
VRMS
Maximum DC Blocking Voltage
50
100
200
400
600
Voc
Maximum Average Forward Rectified Current
0.5
atTT -55'C
I(AV)
Peak Forward Surge Current
8.3ms single half sine·wave superimposed
on rated load (JEDEC Method)
10.0
IFSM
1.3
Maximum Instantaneous Forward Voltage at 0.5A
VF
5.0
Maximum DC Reverse Current
TA-25'C
at Rated DC Blocking Voltage
TA -l25'C
50.0
IR
Maximum Full Load Reverse Current, Full Cycle
30.0
Average, at TA - 55'C
IR(AV)
Maximum Reverse Recovery lime (Note 1)
150
250
TA·25'C
TRR
Typical Junction Capacitance (Note 2)
4.0
CJ
Maximum Thermal Resistance (Note 3)
RaJL
70
(Note 4)
RaJA
150.0
Operating and Storage Temperature Range
-65 to +175
TJ,TsTG
Polarity Color Bands (2 no Band)
Gray I Red Orange Yellow I Green
UNITS
Volts
Volts
Volts
Amps
Amps
Volts
I1A
itA
ns
pf
'CN-!
'C
NOTES: 1. Rsv9/Se Recove,ry Te~t Conditions IF = 0.5A, IR = 1.0A, Irr = .25A.
2. Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
3. Thermal resistance from junction to terminal, 5mm2 copper peds to each terminal
4. Thermal resistancs from junction to ambient 5mm 2 copper pads to each terminal.
-534-
RATINGS AND CHARACTERISTIC CURVES BYM06-50 THRU BYM06-600
RGL34A THRU RGL34J
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
8.3ms SINGLE HALF
SINE-WAVE (JEOEC Method)
i'" ....
FIG. 1 - FORWARD CURRENT
DERATING CURVE
""\
I III
TJ~75ec
r--....
2
"\
4
6
8 10
20
40 50 SO 100
NUMBER OF CYCLES AT 60Hz
'''\
RESISTIVE OR
~ INDUCTIVE LOAD
25
50
75
100
125
"
150
TERMINAL TEMPERATURE. "C
FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
'75
10
~
Z
w
a:
30
/
:J<{
10
0
w
a: a:
Ww
z
>D..
w;>
a:<{
U) 0
TJ
~ ~
<{
fZ
f-
Z
~
01
OU
<{
f-
03
C/)
I
01
20
40
80
60
100
120
140
Q
5011
""
LLi
U
z
<{
f-
o
<{
D..
<{
U
0.4
0.6
T25"f
0.8
10
t
~f
25'C
( +)
'MHz
_
-
r""'O
........
10
lOa
'''\
~
60Vdc
J
II
025
111
50
OS,A
(approx)
NONINDUCTIVE
REVERSE VOLTAGE, VOLTS
1.6
D.U.T,
(- )
r..
1.4
REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM
10
-TJ
1.2
100
NON INDUCTIVE
NON INDUCTIVE
LL
2
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 6 FIG.5 - TYPICAL JUNCTION CAPACITANCE
I
01
PERCENT OF RATED PEAK REVERSE VOLTAGE
f-
C/)
Z
I
~
04
<{
0"'
I
<{
25°C
:Ja:
I
OSCilLOSCOPE
(NOTE l)
NOTES:, Rise Time = 7ns mal(.
1 megohm. 22pF
2 Rise rime = lOns max. Source Impedance =
50 ohms.
-535-
\
10
1em
"1-1'
seT TIME BASE FOR
SO/lOOns/em
BYM07-50 THRU BYM07-400
EGL34A THRU EGL34G
SURFACE MOUNT GLASS PASSIVATED FAST EFFICIENT SILICON RECTIFIER
Voltage • 50 to 400 Volts Current· 0,5 Amperes
FEATURES
-
c-+---.
.022 (.559)
.016(~06)
I·
• For surface mounted applications
• High temperature metallurgically bonded - no
compression contacts as found ,
in diode-constructed rectHiers
• Glass passivated junction
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
• Fast switching for high efficiency
• High temperature soldering guaranteed: 450'C/5
seconds at terminals. Complete device submersible temperature of 260'C for 10 seconds in
solder bath
.145 (3.683)
.131 (3.327)
-,
-
MECHANICAL DATA
Dimensions in inches and (millimeters)
'Brazed-leadassemb/yiscoveredbyPatentNo.3,980,306of
1976 and glass composition by Patent No. 3,752,701 of 1973
®
~!!!!lL~",~;
II!:
Case: Molded plastic over glass
Terminals: Plated terminals, solderable per
MIL-STD-202, Method 208
Polarity: Two bands indicate cathode
1st band denotes device type 2nd band denotes voltage type
Mounting Position: Any Handling Precautions: None
Weight: 0.036 gram, 0.0014 ounce
SYMBOU
.so
,100
BYM07
,200
,150
-300
-400
/INns
Fast Efficient device: 1" band is green
EGL34A EGL34B EGl34C EGl34[ ~Gl34F ~GL34G
Maximum Recurrent Peak Reverse Yoltage
100
150 200 300
400 yolts
YRRM 50
Maximum RMS Yoltage
70
105
140 210 280 yolts
YRMS 35
Maximum DC Blocking yoltage
50
100
150 200 300 400 yolts
Yoc
Maximum Average Forward Rectified Current
0.5
Amps
atTT= 75'C
I(AV)
Peak Forward Surge Current,
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
10.0
Amps
IFSM
yolts
Maximum Instantaneous Forward yoltage at 0.5A
1.25
YF
Maximum DC Reverse Current
TA= 25'C
5.0
at Rated DC Blocking yoltage
TA = 125'C
50.0
IR
ItA
Maximum Reverse Recovery Time (Note 1) TJ = 25'C
50.0
nS
TRR
Typical Junction Capacitance (Note 2)
4.0
pf
CJ
Maximum Thermal Resistance (Note 3)
RaJL
70.0
(Note4)
RaJA
150.0
'cm
Operating and Storage Temperature Range
-65 to +175
TJ,TsTG
'c
Polarity Color Bands
(2"0 Band)
Pink I Orange IBrown Yellow
Gray 1 Red
NOTES: 1.
2.
3.
4.
Reverse Recovery Test Conditions: IF = 0.5A, Ir= 1.0A, Irr = .25A
Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
Thermal resistance from junction to terminal. 5.0mm 2 copper pads to each terminal.
Thermal resistance from junction to ambient,5.0mm2 copper pads to each trerminal.
-536-
RATINGS AND CHARACTERISTIC CURVES BYM07-50 THRU BYM07-400
EGL34A THRU EGL34G
W
u:
&1 ~
.5
LU
112
C)(I)
'\.
i=(I)
.4
§~
~
00..
~~
~~
Ow
~5
RESISTIVE OR
INDUCilVE LOiD
1
W
>
«
25
100
75
50
125
FIG.3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
10
W
cr:
cr:
:::J
U
If----
o
2
2
LL
z
«
f-
LLo..
J
~
,
«
f-
TJ = 25°C
f = lMHz
~
i"'"
1'-0...
«
U
TJ
406080100
TYPICAL JUNCTION CAPACITANCE
G
«
0..
(I)::;
f-
20
10
U
cr:cr:
Z
810
a.
ui
/
0.1
6
175
FIG. 4 -
ffl1.0
4
NUMBER OF CYCLES AT 60Hz
OW
~
4
~~
l1iu
0..
1% Duty Cycle
cr:
@
OW
"
TJ.7S·C
.......
6
LLcr:
Pulse Width = 3001.J S
:::J«
~
cr:Z
150
TERMINAL TEMPERATURE, ·C
~
Z
3:
\.
.2
LLcr:
wcr:
8
««
" '\
.3
cr:
0;;;;;;; r-.SINE.WAVE IJEDECI,errn
10
~~
III
""
8.311":s SINGLE HALF
(l)W
cr:w
~
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
FIG. 1 - FORWARD CURRENT
DERATING CURVE
o
""
5
25°C:
10
50
100
REVERSE VOLTAGE, VOLTS
.01
.4
.6
.8
10
1.2
1.4
1.6
INSTANTANEOUS FORWARD VOLTAGE. VOLTS
~
Z
~
cr:
:::J
U
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
10
I
W(I)
(l)W
cr:cr:
UJ LU 1.0
>0..
(1)0
:::Jcr:
OU 0.1
~~
~04
Z
~
U)
~
.01
'-_.......L_ _..l..._ _L-._...J._ _...I...._.....JL.._..J
0
20
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
IN~MIr
-537-
1N6478 THRU 1N6484
SURFACE MOUNT GLASS PASSIVATED SILICON RECTIFIER
Voltage . 50 to 1000 Volts Current· 1,0 Ampere
FEATURES
~tDERABLE E N D S !
rl;~~:nd
-I
,
,
--LI
.0221.5591
.0IB{A~71
.205(5.2011
.185 (4.G99)
.
ot=ID'
I
:J:~
c
c~~~~
,I
--..t---
-L_'
h
II
0.,0,
:.~OBC.201 I
Dimensions in inches and (millimeters)
• For surface mounted applications
• High temperature metallurgically bonded - no
compression contacts as found
~
in diode-constructed rectifiers
.
• Glass passivated Junction
• Plastic package has Underwriters Laboratory Flammability ClassHication 94V-0
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed 450'C/S
secondsat terminals. Complete device submersible temperature of 26S'C for 10 seconds in
solder bath
MECHANICAL DATA
'Glass-plastic encapsulation technique is covered - - - - - - - - - - - - - - - - - by Patent No. 3,996,602 of 1976; brazed-lead assembly to Case: Molded plastic over glass
Patent No. 3,930,306 of 1976 and glass composition by Patent Terminals: Plated terminals, solderable per
No. 3,752,701 of 1973.
MIL-STO-202, Method 208
Polarity: Two bands indicate cathode
1sl band denotes device type 2nd band denoles voltage type
Mounting Position: Any Handling Precautions: None
Weight: 0.116 gram, 0.0046 ounce
ambient temperature unless otherwise specified. 60 Hz, resistive or inductive load. For capacitive load, derate current by 20%.
1N
1N
1N
1N
1N
1N
Standard recovery time device: 1at band is white
SYMBOLS 6478 6479 6480 6481 6482 6483
, Maximum Recurrent Peak Reverse Voltage
VRRM 50 100 200 400 600 800
Maximum RMS Voltage
VRMS 35 70 140 280 420 560
, Maximum DC Blocking Voltage
VDC 50 100 200 400 600 800
, Maximum Average Forward Rectified Current at
TT=75'C
1.0
I(AV)
• Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method) TA = 75'C
30.0
IFSM
• Maximum Instantaneous Forward Voltage at 1.0A
TA = 75'C
1.0
TA = 25'C
1.1
VF
TA=25'C
• Maximum DC Reverse Current
10.0
at Rated DC Blocking Voltage
TA= 125'C
200
IR
• Maximum Full Load Reverse Current, Full Cycle
100
Average,at TA = 75'C
IR(AV)
Typical Junction Capacitance (Note 1)
15
CJ
'Maximum Thermal Resistance (Note 2)
RaJL
20.0
(Note 3)
RaJA
50.0
-65 to +175
• Operating and Storage Temperature Range
TJ,TsTC
Polarity Color Bands
(2 n0 Band)
Gray l Red Orangel Yellow IGreen I Blue
NOTES: 1. Measured at 1 MHz and applied reverse voltage of 4.0 Voe.
2. Thermal resistance from junction to terminal,6.0mm2 copper pads to each terminal.
3. Thermal resistance from junction to ambient, 6.0mm 2 copper pads to each terminal .
• JEDEC Registered Values
-538-
1N
6484 UNITS
1000 Volts
700 Volts
1000 Volts
Amps
Amps
Volts
IIA
IIA
pf
'CIW
'C
I Violet
RATINGS AND CHARACTERISTIC CURVES 1N6478 THRU 1N6484
~
FIG. 1 - FORWARD CURRENT
DERATING CURVE
o
w
u::
1.0
§ffl
Wa::
a::w
I\.
.8
SINGLE PHASE
HALF WAVE 60Hz
~a2
RESISTIVE OR
a::
INDUCTIVE LOAD
W
'" "\
..
wa::
0
25
50
75
25
I"
8.3mB SINGLE HALF
SINe·WAVE IJEDEC method)
100
125
IIII
""
20
~
I.
TJ . 7SDC
i""
«
10
a::
0
IL
5.0
~
'\
0
:(
30
0
W
(!1cn
a::W
:::la::
cnW
011.
a::::;
t\.
~~.
«
~~
oal
ILa::
Z
W
a::
a::
:::l
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
150
III
~
iti11.
175
4
TERMINAL TEMPERATURE, ·C
6
8
10
20
40
60 80 100
NUMBER OF CYCLES AT 60 Hz
FIG. 4- TYPICAL JUNCTION CAPACITANCE
...Z
W
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
a::
a::
Pulse WIdth
o
o
~ffl
0-
-
W
~
~
Iii
~
10
<
f-
J
S
U
<
11.
<
o
TJ
2S"C
,
.0 1
.6
25 G C
z
~ffi
\L1l.
cn::;
:::l < 0 1
TJ
o
J
0
II
""'r--
u.
300/.J~
2'" Duty Cycle
:;)
a::
0
0
10
SO
100
REVERSE VOLTAGE. VOLTS
10
12
1.4
16
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
10
I
0.1
o.
0IO~--~2~O----'~0----.~0----~.O~--I~O~0---'~2~O--~
PERCENT OF RATED PEAK REVERSE VOLTAGE
-539-
BYM10-50 THRU BYM1 0-1 000
GL41A THRU GL41M
SURFACE MOUNT GLASS PASSIVATED SILICON RECTIFIER
Voltage • 50 to 1000 Volts Current· 1.0 Ampere
FEATURES
• For surface mounted applications
• High temperature metallurgically bonded - no
compression contacts as found ~
in diode-constructed rectifiers
.
• Glass passivated junction
.
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 450'C/5
seconds at terminals. Complete device submersible temperature of 265'C for 10 seconds in
solder bath
.0221.559)
.018(.457 )
.205(5.207)
.185(4.&99)
Dimensions in inches and (millimeters)
'Glass-plastic encapsulation
technique is covered -
by Patent No. 3,996,602 of 1976; brazed-lea~.assembly to
Patent No. 3,930,306 of 1976 and glass composllfon by Patent
No. 3,752,701 of 1973.
DATA
_ _ _ _ _ _ _ _MECHANICAL
_______
__
C:ase: Molded plastic over glass
Tennlnals: Plated Terminals, solderable per
MIL-STD-202, Method 208
Polarity: Two bands indicate cathode
1st band denotes device type 2nd band denotes voltage type
Mounting Position: Any HandlIng PrecautIons: None
Weight: 0.116 gram, 0.0046 ounce
ambient temperature unless otherwise specified. 60 Hz, resistive or inductive load. For capacitive load, derate current by 200/0.
.sO
SYMBOLS
Standard recovery device: 19 band is WHITE
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
TT -75'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current
TA= 25'C
at Rated DC Blocking Voltage
TA = 125'C
Maximum Full Load Reverse Current, Full Cycle
Average, at TA - 75'C
Typical Junction Capac~ance (Note 1)
Maximum Thermal Resistance (Note 2)
(Note 3)
Operating and Storage Temperature Range
Polarity Color Bands (2"U Band)
Blll1DA
IJVII11
,100
·200
-400
-600
-600 000
UNITS
~L41A GL41B GL41D GL41G GL41J GL41K GL41M
VRRM 50
VRMS 35
VDC 50
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 VoHs
100 200 400 600 800 1000 Volts
I(AV)
1.0
IFSM
30.0
1.1
10.0
50.0
VF
IR
IR(AV)
CJ
R8JL
R8JA
TJ,TsTC
Gray
1.2
~mps
Volts
IlA
30.0
IlA
15.0
pi
30.0
'CIW
75.0
'C
-65 to +175
Red Orange Yellow Green Blue 1Violet
NOTES: 1. Measured at 1 MHz and applied reverse voltage of 4.0 Voc.
2. Thermal resistance from junction to terminal, 6.0mm 2 copper pads to each terminal.
3. Thermal resistance from junction to ambient, 6.0mm2 copper pads to each terminal.
-040-
~mps
RATINGS AND CHARACTERISTIC CURVES BYM10-50 THRU BYM10-1000
GL41A THRU GL41M
FIG. 1 -
o
1.00
W
1\
u::
>=Ul
Uw
Woc
5
OCw
~~
««
0
~f-'
\
oi5
"-oc
wOC
5
(!)::l
«U
60Hz
RESISTIVE OR
INDUCTIVE LOAD
OC
W
«>
0
25
50
75
100
W
(!) Ul
f---!-H+-!I"IoI,H--+++-!+j1+fi
~ ~
15
f---!-H+I-H-lf--~rr+-!+jl+fi
~
1\
1\
125
150
0
:s:
"-
'"«
5.0 L-.....l.--'Ll-.LJ...LJ.lL_-'---'--.LJ..L.I.J.IJ
4
6 8,0
20
40 6080 100
W
a.
175
NUMBER OF CYCLES AT 60Hz
C
10
FIG. 4 -
EPulse WIdth" 300/-15
I--
2% Duty Cycle
o
~Kl
I
10
"-
"-
J
0.1
TJ =
«
U
Z
Ul
?;
25"C
z
«
U
«
a.
«
I-
«
TJ
I-
25~C
Z
I-
I
..... 1"-
U
Ul::;;
oW
10
'"
W
OCoc
Ow
"-a.
=> «
TYPICAL JUNCTION CAPACITANCE
30
U
OC
"""~
««
OC
o
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
f-'
W
OC
OC
:::J
20
ocw
:::JOC
UlW
TERMINAL TEMPERATURE,
z
FIG. 2 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
FORWARD CURRENT DERATING CURVE
I
.01
.4
10
12
14
10
16
50
100
REVERSE VOLTAGE, VOLTS
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 5 - TYPICAL REVERSE CHARACTERISTICS
I
PERCENT OF RATED PEAK REVERSE VOL TAGE
-541-
BYM11-50 THRU BYM11-1000
RGL41A THRU RGL41 M
SURFACE MOUNT GLASS PASSIVATED FAST SWITCHING SILICON RECTIFIER
Voltage· 50 to 1000 Volts Current· 1.0 Ampere
FEATURES
TID!
0"
~
:~!~
--+-I
t-f-L'&""-":::-f=,.---+-t-L-'
.1
__ 11"'_--"l.0;¥.;22:7:1.s~597)_ _
.0IB(.~7
•
I
.205 (5.207)
0-
1;0
1
0.'O'-.0.OBI.201
•
.
.185 (4.6991
• For surface mounted applications
• High temperature metallurgically bonded - no
compression contacts as found ~
in diode-constructed rectifiers
• Glass passivated junction
• Plastic package has Underwriters Laboratory Flammability Classification 94V-O
• Capable of meeting environmental standards of
MIL-S-19500
• High temperature soldering guaranteed: 450'C/5
seconds at terminals. Complete device submersible temperature of 260'C for 10 seconds in
solder bath
Dimensions in inches and (millimeters)
'Glass-plastic encapsulation technique IS covered
by Patent No. 3,996,602 of 1976; brazed-lead assambly to
Patent No. 3,930,306 of 1976 and glass composition by
Patent No. 3,752,701 of 1973.
MECHANICAL DATA
case: Molded plastic over glass
Terminals: Plated Terminals, solderable per
MIL-STO-202, Method 208
Polarity: Two bands indicate cathode
1sl band denotes device type 2nd band denotes voltage type
MounUng Position: Any Handling Precautions: None
Weight: 0.116 gram, 0.0046 ounce
. temperature unless olhlllWise specifl8d. 60 Hz. resistive or inductive load. For capacitive load, derate current by 20%.
SYMBOL • SO
Fast switching time device: 18 band is RED.
RGL
41A
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltag~
Maximum Average Forward Rectified Current
TT=55'C
Peak Forward Surge Current 8.3ms single haH sinewave superimposed on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum DC Reverse Current
TA - 25'C
at Rated DC Blocking Voltage
TA=125'C
Maximum Full Load Reverse Current, Full Cycle
Average, at TA = 55'C
Maximum Reverse Recovery lime (Note 1) TJ = 25'C
Typical Junelion Capacitance (Note 4)
Maximum Thermal Resistance (Note 2)
(Note 3)
Operating and Storage Temperature Range
Polarity Color Bands (2n0 Band)
NOTES: 1. Reverse Recovery Test Conditions: IF=0.5A,R
I = 1.0A,
~r =
VRRM 50
VRMS 35
Vee 50
·100
RGL
41S
-200
RGL
410
BYM11
-400 ·600
RGL RGL
41G 41J
-8()(J.
RGL
41K
1000 UNITS
RGL
41M
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
I(AV)
1.0
Amps
IFSM
VF
30.0
1.3
5.0
50.0
Amps
Volts
IR
IR(AV)
TRR
CJ
R9JL
R9JA
TJ.TSTG
jLA
50.0
150
250 1500 1500
15.0
30.0
75.0
-65 to +175
jLA
ns
pf
'CIW
'C
Gray 1 Red Orangel Yellow Green 1 Slue Violet
.25A.
3. Thermal Resistance from ·unction to armient 6.Omnf i co ppar
pads to each terminal
2. Thermal resistance from JunctiOn to terminal, 6.0mrr. copper
4. Measured at 1 MHz and applied reverse voltage of 4.0 Vee.
pads to each terminal
-542-
RATINGS AND CHARACTERISTIC CURVES BYM11·50 THRU BYM11·1000
RGL41A THRU RGL41M
FIG. 1 -
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
50Cl
NONINDUCTIVE
FIG. 2 - FORWARD CURRENT
DERATING CURVE
100
NONINDUCTIVE
r~r---'VVV--·---'
l'
O.U.T
i'
_
-
25
+ OSA
\
o
LL
I
- 025
,0
INOTE 1\
NOTES 1 Rise Time =- 7ns max
1 megohm 22pF
2 Rise Time _ lOns rna~
Ow
~~
Source Impedance
'" '"
~~75
\ )
oil:ia:
1L
f--
0
50 ohms
1,00
<{<{
l\
_ , 0
1.25
wa:
a:w
,/
OSCILLOSCOPE
NON··
INDUCTIVE
;:: CI)
/"
Vd~
lappr()~
1.50
W
\
1em
SET TIME BASE
FOR SO/lOOns/em
wa:
.50
C!l:l
~O
.25
w
>
<{
~
ffi
a:
a:
50
75
""",
100
125
150 175
TERMINAL TEMPERATURE,
0
C
~ Pulse Width 300 IJ.S
~
1% Duty Cycle
:l
~fil
25
10
o
o
a:
o
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
"- I'..
RESISTIVE OR
INDUCTIVE LOAD
FIG. 4 -
/
1.0
TYPICAL JUNCTION CAPACITANCE
100
a: a:
Ow
lLa..
I
Ul::;
g<{
I
0.1
lL
a.
ui
TJ = 25°C
w
o
~
Z
<{
f-
r----. r--
B
~
<{
I
<{
~
10
f-
Z
t;
T :: 25"C
.01
.4
.6
.B
1.0
1.2
1.4
1.6
o
INSTANTANEOUS FORWARD VOLTAGE, VOLTS
,
10
FIG. 5 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
30
w
C!l Ul
a:W
25
8.3ms
"-
SINE-WAVE
JEDEC METHOD
T] o7tJ
:la:
UlW
Ii!i
a:Z
lLa:
~~
wO
a..
10
:l
o
w::;
4
6 8 10
20
I
.4
00
~ :i'04
~
«
Z
2
TJ - 1aeoc
wUl
UJ W 1.0
a: a:
> a..
5
1
FIG. 5- TYPICAL REVERSE CHARACTERISTICS
10
II:<{
"
Ow
a:
a:
WW
~
20
<{<{
~..,: 15
~
Z
w
SI~~LE HALf-
100
REVERSE VOLTAGE, VOLTS
40 60 80 100
NUMBER OF CYCLES AT 60Hz
01
t;
Z
-543-
0
' 20
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
140
BYM12-50 THRU BYM12-400
EGL41A THRU EGL41G
SURFACE MOUNT GLASS PASSIVATED FAST EFFICIENT SILICON RECTIFIER
Voltage - 50 to 400 Volts Current - 1.0 Ampere
FEATURES
-I'
I
.205(5.2071
.1'5 (4. S991
Dimensions in inches and (millimeters)
'Glass-p/aslic encapsulation tooiJniqus is COV6ffld
by Patsnt No. ~996,602 of 1976; brazed·lead assembly to Patent No.
3,9:¥J,1K)6 of 1976 end glass composidon by Patent No.3, 752, 701 of 1973.
• For surface mounted applications
• High temperature metallurgically bonded - no
compreSSion contacts as found ,
in diode-constructed rectifiers
.
.
• Glass paSSivated junction
• Plastic package has Underwriters Laboratory Flammability Classification 94V-0
• Superfast recovery times for high efficiency
• Capable of meeting environmental standards of
MIL-S-19S00
• High temperature soldering guaranteed: 4S0'C/S
seconds at terminals. Complete device submersible temperature of 26S'C for 10 seconds in
solder bath
MECHANICAL DATA
Case: Molded plastic over glass
Terminals: Solderable per MIL-STD-202, Method 208
Polarity: Two bands indicate cathode
1sl band denotes device type 2nd band denoles voltage type
Mounting Pos/f/on: Any Handling Precautions: None
Weight: 0.116 gram, 0.0046 ounce
Ratings at
temperature unless otherwise specified. 60 Hz. resistive or inductive load. For capacitive load, derata current by 20%.
BYM12
BYMBOU
Fast efficient devices: 1S band is green
-so
,100
,ISO
·200
300
-400
EGL
41A
50
35
50
EGL
41B
100
70
100
EGL
41C
150
105
150
EGL
410
200
140
200
EGL
41F
300
210
300
EGL
41G
400
280
400
UNITS
Maximum Recurrent Peak Reverse Voltage
Volts
VRRM
Maximum RMS Voltage
Volts
VRMS
Maximum DC Blocking Voltage
Voks
Voe
Maximum Average Forward Rectified Current
at Tr.. 75'C
1.0
Amps
I(AV)
Peak Forward Surge Current,
S.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
30.0
Amps
IFSM
Maximum Instantaneous Forward Voltage at 1.0A
1.0
Volts
VF
I 1.25
Maximum DC Reverse Current
5.0
TA - 25'C
at Rated DC Blocking Voltage
TA a 125'C
50.0
IR
I1A
Maximum Reverse Recovery Time (Note 1)
TJ.25'C
50
ns
TRR
Typical Junction Capacitance (Note 2)
15.0
pI
CJ
RaJL
30
Maximum Thermal Resistance RthJL (Note 3)
60
'CIW
RaJA
RthJA (Note 4)
'C
-65 to +175
Operating and Storage Temperature Range
TJ,TSTG
Gray I Red I Pink I Orange IBrown I Yellow
Polarity Color Bands (2°U Band)
2. Measured at 1 MHz and applied reverse voltage of 4.0 Volts.
NOTES: 1. Reverse Recovery Test Conditions IF =.5A, IR =1.0A, Irr =.25A.
4. Thermal resistance junction to ambient, 6.0mm2 copper pads to
3. Thermal resistance junction to tarminal, 6.Omm2 copper pads to each terminal.
each terminal.
-544-
RATINGS AND CHARACTERISTIC CURVES BYM12·50 THRU BYM12-400
EGL41A THRU EGL41G
f--
a:
a:
1.DG
~
1\
1\
()
o
UJ
u::
.75
f=(/)
(.)w
Wa:
ex: UJ
~~
.50
«
0..
w::;;:
II:«
(/)0
4
~II:
TJ = 25"C
0(.) 0.1
WZ::;;:
«
f-
.04
«
.01
Z
f-
(/)
~
0
.--
20
40
60
80
100
120
PERCENT OF RATED PEAK REVERSE VOLTAGE
-545-
140
GLL4735 THRU GLL4763
1.0 WATT SURFACE MOUNT GLASS PASSIVATED ZENER
Voltage- 6.2-91.0 Volts Power Rating - 1.0 Watt
FEATURES
r-
• For surface mounted applications
• Plastic package has Underwriter Labaoratory
Flammability Classification 94 V-O
• Glass passivated junction
~
• Low zener impedance
• Excellent clamping capability
.
• High temperature soldering gual'8nteed:
250'C/10 seconds! at terminals
>~
so
I
____ D2 __
,
(
(
1
.02zt.5m
I
.018 (.457)
MECHANICAL DATA
CBse: Molded plastic
Terminals: Solderable per MIL-STO-202,
Method 208
Polarity: Red band denotes cathode
Mounting Position: Any
Handling Precautions: None
Weight: 0.116 grams, 0.0046 ounce
The plastic material covering the glass passivated junction
OPERATING AND STORAGE TEMPERATURE RANGE ·65·C 10 +175'C
Maximum
'Nominal
DC
Zener
Type
GLL4735
GLL4736
GLL4737
GLL4738
GLL4739
GLL4740
GLL4741
GLL4742
GLL4743
GLL4744
GLL4745
GLL4746
GLL4747
GLL4748
GLL4749
GLL4750
GLL4751
GLL4752
GLL4753
GLL4754
GLL4755
GLL4756
GLL4757
GLL4758
GLL4759
GLL4760
GLL4761
GLL4762
GLL4763
Pow.r
Voltage
@Izr
Vz
Voha
Dlaalpatlon
@TT=75'C
PD
Watta
6.2
6.8
7.5
8.2
9.1
10
11
12
13
15
16
18
20
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1,0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Tast
Current
Maximum
Surge
Maximum Dynamic
Impedanc.
Izr
RIA
ZZT
ZZK@
lZ/(
OHMs
OHMs
MA
41.0
37.0
34.0
31.0
28.0
25.0
23.0
21.0
19.0
17.0
15.5
14.0
12.5
11.5
10.5
9.5
8.5
7.5
7.0
6.5
6.0
5.5
5.0
4.5
4.0
3.7
3.3
3.0
2.0
2.0
3.5
4.0
4.5
5.0
7.0
8.0
9.0
10.0
14.0
16.0
20.0
22.0
23.0
25.0
35.0
40.0
45.0
50.0
60.0
70.0
80.0
95.0
110.0
125.0
150.0
175.0
200.0
250.0
700
700
700
700
700
700
700
700
700
700
700
750
750
750
750
750
1000
1000
1000
1000
1500
1500
1500
2000
2000
2000
2000
3000
3000
1.0
1.0
0.5
0.5
0.5
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
Maximum
MaxlmumR.v....
Current
l..eakag.CuIl1lll
@TA=2S'C
@TA=2S'C
VR
IR
VohB
IIA
(Nota 1)
Fo!wanl
Voltag.
@2OORIA
@TA=2S'C
IR
rnApk
VohB
730.0
660.0
605.0
550.0
500.0
454.0
414.0
380.0
344.0
305.0
285.0
250.0
225.0
205.0
190.0
170.0
150.0
135.0
125.0
115.0
110.0
95.0
90.0
80.0
70.0
65.0
60.0
55.0
50.0
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
10.0
10.0
10.0
10.0
10.0
10.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
3.0
4.0
5.0
6.0
7.0
7.6
8.4
9.1
9.9
11.4
12.2
13.7
15.2
16.7
18.2
20.6
22.8
25.1
27.4
29.7
32.7
35.8
38.8
42.6
47.1
51.7
56.0
62.2
69.2
'Standard Voltage Tolerance!IO%. Suffix A .5% Note1: Surge Current is non-repetitive. 8.3 rns pulse width square wave or
equivalent sine-wave superimposed on III per JEDEC method.
-546-
RATINGS AND CHARACTERISTIC CURVES GLL4735 THRU GLL4763
FIGURE 2 - TYPICAL ZENER IMPEDANCE
"'
Q."
FIG. 1 -
Z
MAXIMUM CONTINUOUS POWER DISSIPATION
~
m
OCll
ffi ~
~~
0.50
Il.
~
0.25
a:
w
~
a:
-- ~i
Bmm
2mm cu;adS
Bmm )( 1
50
75
100
t-=
a:
a:
::I
o
: V,' 56V
Cl
1. 0
~
0.5 1 0
20
5
a
10
20
50
lOa
200
500
Iz, ZENER TEST CURRENT (mA)
175
150
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
~~
a:
a:
10
WW
>Il.
W::;:
~ (3
::I
a:
1.0
00
~~
~
~
1.0
r-:
01
a: a:
Ow
CIl::;:
/
0.1
20
40
60
80
100
120
140
PERCENT OF RATED ZENER VOLTAGE
Z
<
TJ
IZ
__ __
tna:
~6 01~_____
~~~__~~__~__~=- ~~ ~~~
U-Il.
::1<
<
tn
z
=
.v.,.: 62V,-
>-
o
aw
==
10
~
<
Z
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
a:
~~
(dc)
91V
VZ" 30/=
o
125
10
'Vz
::;:
TERMINALS TEMPERATURE. °C
zw
~~
100
W
Il.
'"'"
~
0
25
Z
<
Cl
'"'"
0.75
~ F,z (n';;). ~5,'Tz
o
1.00
a
~
1000
W
~
25°C
Pulse Width - 300J,.l.S
1% Duty Cycle
..L
.01
.4
.6
.8
10
1.2
1.4
1.6
INSTANTANEOUS
FORWARD VOLTAGE. VOLTS
IZ
FIG. 5 - TYPICAL TEMPERATURE COEFFICIENTS
W
U
u::
110
uW
90
8
~u
.... ....
.....
I'
Vz@lzt
70
::> ~
1->
50
ffi -
30
Il.
::;:
10
I'
I
< E
w
~
I-
g
10
20
30
40
SO
60
70
80
Vz, ZENER VOLTAGE (VOLTS)
-547-
90
100
ZGL41-100 THRU ZGL41-200
1.0 WATT SURFACE MOUNT GLASS PASSIVATED ZENER
Voltage- 100 - 200 Volts Power Rating - 1.0 Watt
FEATURES
• For surface mounted applications
• Plastic package has Underwriters Labaoratory
Flammability Classification 94 V-O
•
•
•
•
~OLDER.BLE EHDS-.,
,
I
----t-.022[.5591
.0181.4'1)
[
[
,I
Glass passivated junction
Low zener Impedance
Excellent clamping capability
High temperature soldering guaranteed:
250'C/10 seconds! at terminals
.205 [5.2071
.185 [4.1991
MECHANICAL DATA
case: Molded plastic
Terminals: Solderable per MIL-STO-202,
Method 208
Dimensions in inches
and
(millimeters)
Polarity: Red band denotes cathode
Mounting PosUlon: Any
Handling Precautions: None
Weight: 0.116 grams, 0.0046 ounce
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'0 ambient temperature unlass otherwise specified.
The plastic material covering the glass passivated junction carries U/L recognition 94 V-O
OPERATING AND STORAGE TEMPERATURE RANGE ~5'O to +175'0
MAXIMUM
DC
POWER
VOLTAGE DlSSIPAlIOH TEST
CURRENT
@T~75
'NOMINAL
ZENER
TYPE
ZGL41-100
ZGL41·110
ZGL41-120
ZGL41-130
ZGL41-140
ZGL41-150
ZGL4H60
ZGL41-170
ZGL41-180
ZGL41-190
ZGL41-200
VOLTS
WATTS
mA
MAXIMUM DYNAMiC
IMPEDANCE
m
ZZK iID
ilK I.
OHMS
OHMS
rnA
100
110
120
130
140
150
160
170
180
190
200
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
3.7
3.4
3.1
2.9
2.7
2.5
2.3
2.2
2.1
2.0
1.9
250
300
380
450
525
600
700
800
900
1050
1200
~!"
IZI'
3100
4000
4500
5000
5500
6000
6500
6750
7000
7500
8000
• Standard Volt'age Tolerance!. 10%. Suffix A :!: 5%.
-548-
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
'0.25
0.25
0.25
MAXIMUM REVERSE
LEAKAGE CURRENT
'" @T.:25C I.u
MAXIMUM
SURGE
CURRENT
@T.,,25C
(~1)
MAXIMUM
FORWARD
VOLTAGE
@2GOrnA
@T0=25C
uA
VOLTS
mAde
VOLTS
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
76.0
83.6
91.2
98.8
106.4
114
121.6
129.2
136.98
144.4
152
10.0
9.1
8.3
7.7
7.1
6.7
6.3
5.9
5.6
5.3
5.0
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
RATINGS AND CHARACTERISTIC CURVES ZGL41·100 THRU ZGL41.200
10000
tl
Z
2000
I
FIG. 1 -
MAXIMUM CONTINUOUS POWER DISSIPATION
w
100
Z
«
o
Q
r
«
075
Vi
ex: r
W r
s:«
oS:
500
Vz
Vz : 150V
0W
~
>-
o
0.1 IZ (de)
180V
100
_VZ
50
100V
20
10
N
05 1.0
N
025
25°C
Vz . 20QV
200
«
z
0.50
TJ
IZ (rms)
1000
~
()
C/J
OC/J
5000
w
0-
0-
FIG. 2 - TYPICAL ZENER IMPEDANCE
'"
S"
(/)
2.0
50
10
20
50
100
200
500
Iz. ZENER TEST CURRENT (rnA)
ex:
w
>
w
ex:
20
50
75
100
125
175
TERMINAL TEMPERATURE. °C
.:
z
w
ex:
ex:
FIG. 4 - TYPICAL REVERSE CHARACTERISTICS
FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
TJ
10
100°C
::J
()
o
ex:
~l\l
ex: ex:
OW
LLO(/)::;:
/
1.0
/
01
z
Z
«
z
TJ
20
40
60
25"G
80
100
120
140
PERCENT OF RATED ZENER VOLTAGE
«
r
r(/)
,---
,
::J«
ow
1
01
,,
=
25~C
TJ
Pulse Width
300 IJ. S _
'°0 Duty CYClej _
1.0
1.2
1.4
16
INSTANTANEOUS
FORWARD VOLTAGE. VOLTS
r
zw
U
u::
LL
FIG. 5 220
Vz@lzl
W
200
()
180
o
TYPICAL TEMPERATURE COEFFICIENTS
~U
::J~
150
w
120
::;:
100
~~
ex:-
"
0W
f-
&
80
100
110
.....
120 130
.....
140
150
.... ....
....
I
160
170
180
Vz, ZENER VOLTAGE (VOLTS)
-549-
190 200
BYM13-20 THRU BYM13-60
SGL41-20 THRU SGL41-60
SURFACE MOUNT SCHOTTKY RECTIFIER
Voltage· 20 to 60 Volts Current· 1.0 Amperes
FEATURES
.
~
rla'Band
2 11d U nd
..
,
,
OLDERIlBLE ENDS!
--L-1
.022 [.55S)
.01S[A?',
.205 [5.207)
.185 CUSS)
[
[
,
,
• For surface mounted applications
• Plastic material used carries Underwriters
Laborataory Flammabiliby Classifications 94V-O
• Metal to silicon rectifier,
majority carrier conduction
~
• Low power loss, high efficiency
• High current capability, low VF
• For use in low voltage, high frequency inverters,
free wheeling and polarity protection applications
• High temperature soldering guaranteed:
250'C/l0 seconds at terminals
MECHANICAL DATA
Dimensions in inches
and
(millimeters)
Case: Molded plastic
Terminals: Solderable per
MIL-STD-202, Method 208
Polarity: Two bands indicate cathode
1st band denotes device type 2nd band denotes voltage type
Mounting Position: Any
Handling Precautions: None
Weight: 0.116 gram, 0.0046 ounce
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'0 ambient temperature unless otherwise specified. Single phase, half wave, 60 Hz, resistive or inductive load. For capacitive load, derate
current by 20%.
BrAll3
SYMBOLS
Schottky devices: 1st band is orange
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at TT= 75'C
Peak Forward Surge Current
8.3ms single half sine·wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage at 1.0A
Maximum Reverse Current
TJ = 25'C
at Rated DC Blocking Voltage
TJ -100'C
Typical Junction Capacitance (Note 1)
Maximum Thermal Resistance RthJL (Note 2)
RthJA (Note 3)
Operating Temperature Range
Storage Temperature Range
Polarity Color Bands (200 Band)
VRRM
VRMS
Voc
-40
-so
-30
·60
·20
SGL41-20 SGL41-30 SGL41-40 SGL41-50 SGL41-60
20
14
20
30
21
30
50
35
50
60
42
60
1.0
I(AV)
VF
I
.50
.70
Amps
Volts
80
mA
pI
0.5
10
IR
CJ
RaJL
RaJA
TJ
110
TSTG
Gray
I
NOTES:
1. Measured at 1 MHz and applied reverse voltag~ of 4.0 Voc.
2. Thermal resistance junction to terminal, 6.0mm copper pads to each terminal.
3. Thermal resistance junction to ambient, 6.0mm2 copper pads to each terminal.
Volts
Volts
Volts
Amps
30.0
IFSM
-550-
40
28
40
UNITS
30
75
-65 to +125
-65 to +175
Red I Orange I Yellow
'cm
'c
'c
I Green
RATINGS AND CHARACTERISTIC CURVES BYM13-20 THRU BYM13-60
SGL41-20 THRU SGL41-60
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
I-
Z
UJ
20
a:
~
a:
:::>
u
FIG. 1 - FORWARD CURRENT DERATING CURVE
~
a:
u
000
a: UJ
«a:
1. 0
~~
.75
.25
«
[\
100
:::::::: ~~
~
125
150
z
«
I-
175
00
~
C
0
~SGL41-20
~
~
f-- SGL41-40
SGL41-40
-
r - r-;
I
_
SGL41-50
SGL41-60
0.1
.1
.3
.5
.7
91.1131.5
1.7
1921
,.:
l/
T'if
SGL41-20
SGL41-30
INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG. 38 -- TYPICAL REVERSE CHARACTERISTICS
FIG. 3A - TYPICAL REVERSE CHARACTERISTICS
10
I
I
Z
TERMINAL TEMPERATURE.
100
-.1
1.0
oUJ
\
75
J
@5~
SINGLE PHASE
HALF WAVE
60Hz
RESISTIVE OR
INDUCTIVE LOAD
>
«
..,.
a:
\
.50
a:::!!
12«
UJ
~
o
1\
:::>
~
10
Z
UJ
a:
:::>
a:
()
I
1.0
..41
. '75'
.10
J
1-
-'
./
.01
TI C
'25'
.00 1
20
40
60
80
100
120
001 '-_'-----'_-L_-'-_-'-_--'----:-!
20
40
60
80
100
120
140
140
PERCENT OF RATED PEAK REVERSE VOLTAGE
PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG.5-MAXIMUM NON-REPETITIVE
SURGE CURRENT
FIG. 4 - TYPICAL JUNCTION CAPACITANCE
-
400
IJ...
a.
ui
o
200
I-
100
80
60
U
«
40
~
--- -""" -
TJ
t"-..
.... r-....
-
SGL41-20
SGL41-30
SGL41-40
-
SGL41-S0
SGl41-60
,.:
30
Z
UJ
a:
a:
:::>
()
25
f'
TJ - 75°C
B.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD -
1'1'
~
. ...........
..
D-
«
U
~25°C
20
0.1
0.4
1.0
10
40
80 100
REVERSE VOLTAGE, VOLTS
4
6
8 10
1' ....
20
40 60 80 100
NUMBER OF CYCLES AT 60Hz
-551·
I
TGL41 SERIES
SURFACE MOUNT TRANSIENT VOLTAGE SUPPRESSOR
Voltage - 6.8 to 200 Volts
FEATURES
tID!
~
:~~~~:
----i---i
-.L_'
• For surface mounted applications
• Plastic material used carries Underwriters
Laborataory Flammabiliby Classifications 94V-O
• Glass passivated junction
• Excellent clamping capability
• Fast response time: typically
less than 1.Ops from 0 volts to BV min.
• Typical IR less than 1 ~ A above 10V
• High temperature soldering guaranteed:
250'C/10 seconds at terminals
_HI,..L.-:::rl=-,H
1 -;----:,r--'---,
I 0,'0, :.~8I.2Ol I
.205 (5.2071
.185(4.6991
•
.
MECHANICAL DATA
Case: Molded plastic
Dimensions in inches
and
(millimetefs)
Terminals: Solderable per
MIL-STO-202, Method 208
Polarity: Blue band denotes cathode
Mounting Position: Any
Handling Precautions: None
Weight: 0.116 gram, 0.0046 ounce
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
RATINGS
Peak Power Dissipation at TA = 25·C. Tp .. 1ms (Note 1)
Steady State Power Dissipation at TT = 75'C (Note 2)
Peak Forward Surge Current. 8.3ms single half
Sine-Wave Superimposed on Rated Load
(JEDEC Method) (Note 3)
Operating and Storage Temperature Range
SYMBOL
VALUE
UNITS
Ppk
Po
Minimum 400
1.0
Watts
Watt
IFSM
40.0
Amps
TJ. TSTG
-65 to +175
'C
NOTES:
1. Non-repetitive current pulse. per Fig. 3 and derated above TA = 25'C per Fig. 2.
2. Mounted on 8.0 mm 2 copper pads to each terminal.
3. 8.3ms single half sine-wave duty cycle =4 pulses per minutes maximum.
-552-
ELECTRICAL CHARACTERISTICS (TA = 25 • C UNLESS OTHERWISE NOTED)
ar8B~~own
-
VQJI@ge
VBR
@IT
(mA)
Vp". /Note 1)
~-
DEVICE
MIN
MAX
TGL41-6.8
TGL41-6.8A
TGL41-7.5
TGL41-7.5A
TGL41-8.2
TGL41-8.2A
TGL41-9.1
TGL41-9.1A
TGL41-10
TGL41-10A
TGL41-11
TGL41-11A
TGL41-12
TGL41-12A
TGL41-13
TGL41-13A
TGL41-15
TGL41-15A
TGL41-16
TGL41-16A
TGL41-18
TGL41-18A
TGL41-20
TGL41-20A
TGL41-22
TGL41-22A
TGL41-24
TGL41-24A
TGL41-27
TGL41-27A
TGL41-30
TGL41-30A
TGL41-33
TGL41-33A
TGL41-36
TGL41-36A
TGL41-39
TGL41-39A
TGL41-43
TGL41-43A
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9.00
9.50
9.90
10.5
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18.0
19.0
19.8
20.9
21.6
22.8
24.3
25.7
27.0
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
40.9
7.48
7.14
8.25
7.88
9.02
8.61
10.0
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.5
15.8
17.6
16.8
19.8
18.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.8
42.9
41.0
47.3
45.2
10
10
10
10
10
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Working Maxlllllm
Peak
Reve,..e
Reve,..e Leakage
Voltage
at
VRWM
VRWM
(Vons)
IRGJA)
5.50
5.80
6.05
6.40
6.63
7.02
7.37
7.78
8.10
8.55
8.92
9.40
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
16.2
17.1
17.8
18.8
19.4
20.5
21.8
23.1
24.3
25.6
26.8
28.2
29.1
30.8
31.6
33.3
34.8
36.8
-553-
1000
1000
500
500
200
200
50
50
10
10
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
Maxlllllm
Reverse
CUrrent
IRSIII
(Note 2)
(Amps)
37
38
34
35
32
33
29
30
27
28
25
26
23
24
21
22
18.20
18.90
17.00
17.80
15.10
15.90
13.70
14.40
12.50
13.10
11.50
12.00
10.20
10.70
9.20
9.70
8.40
8.80
7.70
8.00
7.10
7.40
6.50
6.70
Maxlllllm
Reverse
Voitag.
at IRSM
Maxlrrwm
emp.ratrue
Coefficient
ICIomping VoIIIgol
OIVBR
VRSMfloI1I1
I""C)
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
17.3
16.7
19.0
18.2
22.0
21.2
23.5
22.5
26.5
25.2
29.1
27.7
31.9
30.6
34.7
33.2
39.1
37.5
43.5
41.4
47.7
45.7
52.0
49.9
56.4
53.9
61.9
59.3
0.060
0.060
0.064
0.064
0.068
0.068
0.071
0.071
0.076
0.076
0.078
0.078
0.081
0.081
0.084
0.084
0.087
0.087
0.089
0.089
0.091
0.091
0.093
0.093
0.095
0.095
0.097
0.097
0.099
0.099
0.100
0.100
0.101
0.101
0.102
0.102
0.103
0.103
0.104
0.104
I
ELECTRICAL CHARACTERISTICS (TA = 2S'C unless otherwise noted)
DEVICE
TGL41-47
TGL41-47A
TGL41-51
TGL41-51A
TGL41-56
TGL41-56A
TGL41-62
TGL41-62A
TGL41-68
TGL41-68A
TGL41-75
TGL41-75A
TGL41-82
TGL41-82A
TGL41-91
TGL41-91A
TGL41-100
TGL41-100A
TGL41-110
TGL41-110A
TGL41-120
TGL41-12OA
TGL41-130
TGL41-130A
TGL41-150
TGL41-150A
TGL41-160
TGL41-16OA
TGL41-170
TGL41-170A
TGL41-180
TGL41-180A
TGL41-200
TGL41-200A
ara.kdown Voftage
@IT
VBR
(mA)
Voila (Not'l)
MIN. MAX.
42.3
44.7
45.9
48.5
50.4
53.2
55.8
58.9
61.2
64.6
67.5
71.3
73.8
77.9
81.9
86.5
90.0
95.0
99.0
105.0
108.0
114.0
117.0
124.0
135.0
143.0
144.0
152.0
153.0
162.0
162.0
171.0
180.0
190.0
51.7
49.4
56.1
53.6
61.6
58.8
68.2
65.1
74.8
71.4
82.5
78.8
90.2
86.1
100.0
95.50
110.0
105.0
121.0
116.0
132.0
126.0
143.0
137.0
165.0
158.0
176.0
168.0
187.0
179.0
198.0
189.0
220.0
210.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Working
Peak
Irrum
Rev,,,, R,vers.
Voftag, Leakage
VRWM
atVRWII
(YoRe) IR (I1A)
r-
38.1
40.2
41.3
43.6
45.4
47.8
50.2
53.0
55.1
58.1
60.7
64.1
66.4
70.1
73.7
77.8
81.0
85.5
89.2
94.0
97.2
102.0
105.0
111.0
121.0
128.0
130.0
136.0
138.0
145.0
146.0
154.0
162.0
171.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
Maxlrrum
R.verse
Currant
Maxlrrum
Reverse
Voftage
(Nott2)
Amps
QamplngVol1lge)
VRBM,VoRe)
Maxlrrum
T,.ratura
Coefficient
ofVBR
(%re)
5.90
6.20
5.40
5.70
5.00
5.20
4.50
4.70
4.10
4.30
3.70
3.90
3.40
3.50
3.00
3.20
1.39
1.46
1.27
1.32
1.16
1.21
1.07
1.12
.93
.97
.87
.91
.82
.85
.78
.81
.70
.73
67.8
64.8
73.5
70.1
80.5
77.0
89.0
85.0
98.0
92.0
108.0
103.0
118.0
113.0
131.8
125.0
144.0
137.0
158.0
152.0
173.0
165.0
187.0
179.0
215.0
207.0
230.0
219.0
244.0
234.0
258.0
246.0
287.0
274.0
0.104
0.104
0.105
0.105
0.106
0.106
0.107
0.107
0.107
0.107
0.108
0.108
0.108
0.108
0.109
0.109
0.109
0.109
0.110
0.110
0.110
0.110
0.110
0.110
0.111
0.111
0.111
0.111
0.111
0.111
0.111
0.111
0.111
0.111
h..
at 1R811
NOTES:
1. VSR measured after IT applies for 300 I1S IT = Square Wave Pulse or equivalent.
2. Surge Current Waveform per Figure 3 and Derate per Figure 2.
-554-
RATINGS AND CHARACTERISTIC CURVES TGL41 SERIES
FIGURE 2 - PULSE DERATING CURVE
100
100 _ _ ~
" "-
~O 50
~
Wa:
OW
W;:
"'0
~Q.
~
~~
~
"w
"'0.
W
'"
~
~
"01#z
ZW
_a: 75
(,'la:
Z=>
_C)
I-a:
FIGURE 1 - PULSE RATING CURVE
"-
~
25
Q.
i '" ~
l"\
0
0
'\
10..cl000 Waveform
as delnled by R.E A
25
50
"\
75
'00
125
150
175
200
TA AMBIENT TEMPERATURE lOCi
1j!;!!!!!111IlIl!!!lllll!i!l!!III!!l1I1
0.1 .. s
1.0 ... 5
10",s
100.·5
1.0ms
10ms
tp. PULSE WIDTH
FIGURE 3 -
FIGURE 4 - TYPICAL JUNCTION CAPACITANCE
PUILE WAVEFORM
,0000
TJ : 2S'C
'000
'"
~IRf~M"t-_+_t--l
'::;11 Value -
"Q,
ir
C)
50Hr-r-~~~~~-~-~-~-~~
Z
H--r--f-''''dl---l- a:o~~~~~dw~;~~~ -
~
w
't;"
I'
'"
"
Q.
'"
C)
1.0
20
30
Measured@:===
Zero B' 8 5 -
l-
I.
Q.
,
'"
C)
5
II III
'r--,
ffi'
~
'00
t- Measured @
~ f- Stand-Oil
'0
r-- r- Voltage (VAl
T. TIME(ms)
I'
,
I
iii
l-
FIGURE 5 -
I-
'"
~
~
\
075
FIGURE 6 -
[\
o
a:
~
0.50
!r
\
r--~
8mm II 8mm )( 2mm Cu pad~
w
I-
~ 0.2 5
~
25
50
20C
(JEDEC Method)
\
\
0
0
100
8.3ms Single Halt Sme-Wave
Half Wa~e
SOH,
Resistive or
/nducltve load
~
~
20
MAXIMUM NON-REPETITIVE
SURGE CURRENT
~
smgt Ph8S!
'"
tii
to
BREAKDOWN VOLTAGE, VOLTS (VeRI
~
Z
o
;:
~
'0"10
STEADY STATE POWER DERATING
lao
75
100
125
\
150
175
200
TT. TERMINAL TEMPERATURE lOCI
2
4
6
810
20
40
NUMBER OF CYCLES AT 60Hz
-555-
6060100
I
GPP1 & GPP5 SERIES
GLASS PASSIVATED RECTIFIER CHIPS
Voltage - 50 to 1000 Volts Current - 1.0 and 5.0 Amperes
FEATURES
• Ideal. for Hybrid Circuits
• Solderable Metallization
• Typical IR less than 1 It A
• Glass Passivated Junction
. . ;,.
<::;
•••••••••••••••
• High Surge Capability
• Mounting Post ion: Any
Dimension Dim_ion Dimension Dimension
r-------,I ~
0
GPPl
T
GPP5
I METALLIZATION:
A
.062(1.6)
.058(1.5)
A
.102(2.6)
.098(2.5)
BCD
.062 (1.6)
.058 (1.5)
.048 (1.2) . . .010 (.25)
.044 (1.1)
.008 (.20)
BCD
.102 (2.~
.098 (2.5)
.066 (2.2)
.082(2.1)
.010 (0.25)
.008 (0.20)
GOLD ON NICKELl
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at25'C ambientlBmperature unlBSS otherwise specified.
Single phase. half wave. 60 Hz. resistive or inductive load.
For c:apacitive load. derate current by 20%.
GI'I'IA 111'1'1' Gl'P!D GPfIG Gl'P!J III'I'IK 01'1'1"
SI'IIIOLS GPPfA 0".,. GPPfD OPI'fG IIPPIJ GPP5K
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward
GPPl TA. 75'C
Rectified Current (Note 1)
GPP5 TA" 100'C
Peak Forward Surge Current 8.3ms single half sine
-wave superimposed on rated load (JEDEC Method)
GPPl
GPP5
Maximum Instantaneous Forward Voltage at
specified current
GPPl IF = 1.0A
GPP5 IF • 5.0A
Maximum Reverse Leakage Current
at Rated DC Blocking Voltage
GPPl
GPP5
Operating and Storage Temperature Range
VRRM 50
VRMS 35
Voc 50
I(AV)
1.0
5.0
Amps
IFSM
60.0
150.0
Amps
VF
1.1
1.1
Volts
IR
TJ. TSTG
NOTES:
1. Actual rating is heat sink dependent.
-556-
UNITS
100 200 400 600 800 1000 Volts
70 140 280 420 560 700 Volts
100 200 400 600 800 1000 Volts
5.0
10.0
-65 to +175
!LA
'C
RATINGS AND CHARACTERISTIC CURVES GPP1A THRU GPP1M
GPP5A THRU GPP5K
Fig. 2-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
Fig. 1-FORWARD CURRENT DERATING CURVE
IZ
6.0
~
5.0
W
100
000 4 .0
a:W
~ffi3 0
RESISTIVE OR INDUCTIVE LOAD
0:;
Cl
10
W
r
-
~
:l
o
<
II:
~Sl
offi
~
1"'""", ...
~~
:l<
P
I'
20
60
40
80
100
120
GPP5
40
~
20
/
U
I I
I I
or:( 2.0
W
~
W
a:
II:
,
SINGLE PHASE HALF WAVE 60Hz
a: 11.
u..
IZ
~P7
I
:l
U
140
160
180
200
AMBIENT TEMPERATURE 'C
aW
10
I
2. 0
0.4
<
0.2
z
0.1
. 200
W
(!)(/)
a:w
:la:
100
a::;
50
~
-
GPj'
B.3ms SINGLE HALF SINE-WAVE
11.
JED,C Men
10
Pulse Width - 30011 5
2% Duty Cycle
10
12
14
16
100
r--Io..
~
so
10
zW
100
II:
a:
:l
u
NUMBER OF CYCLES AT 60Hz
~~
0
1-:::-.... I--""
W(/)
~
TJ
~
100'C
a:
ww
-
>11.
w:;
FIG. 5 - TYPICAL JUNCTION CAPACITANCE
100
W
u
z
<
I0
<
11.
<
U
......
-...
-
-
_
GPPs
r--..
r--.
TJ = 25"C
f= 1 MHz
Vsig = 50 mVp-p
~
10
<
:la:
au
~~
II:
UlO
~
r-..
z
,.,
Iiii""""
0
-~
TJ = 75°C
,
~
z
~
_01""
~
UlW
II:
so
20
Fig. 4-TYPICAL REVERSE
CHARACTERISTICS
I I III I
s.o
1.0
u..c.
18
GPP5
r-
3:~
a:z
ow
u..a:
l<:a:
<:l
wu
TJ "25 c C
IJ
INSTANTANEOUe~~T~WARD VOLTAGE,
(/)W
011.
«
I
6
r-..... "-
If
Ifl
1.0
z
<
I-
tii
GPPl
40
Z
Fig. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
/
I'
I
,;
~
.1
TJ = 2S"C
'"
~
10
I"
• - - GPPl
- ,PP5
50
.Q1
100
20
40
60
80
100
I-120
PERCENT OF RATED PEAK
REVERSE VOLTAGE
REVERSE VOLTAGE, VOLTS
-557-
RGPP1 & RGPP5 SERIES
FAST RECOVERY GLASS PASSIVATED RECTIFIER CHIPS
Voltage - 50 to 800 Volts Current - 1. 0 ~nd 5.0 Amperes
FEATURES
D
•
•
•
•
•
1 -0 ----+1
-l
1~
I-c---+I
Ideal for Hybrid Circuits
Solderable Metallization
Glass Passivated Junction
High Surge Capability
Mounting Postion: Any
Dlmtnslon
.-------,1 ~
DImension
DImension DImensIOII
---.---
ABC
D
RGPP1 .062 (1.6) .062 (1.6) .048 (1.2)
.010 (.25)
.058 (1.5) .058 (1.5)' .044 (1.1f" '-:008[.20)
ABC
D
RGPP5.102(2.6) .102(2.6) .062(2.1) .012(0.30)
~ ~ :li78(2]j ~.-
0
T
1 METALLIZATION: GOLD ON NICKEll
Dimensions in Inches and(millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25·C ambient temperature unless otherwise specified.
Single phase, half wave, SO HZ, resistive or inductive load.
For capacitive load, derate current by 20%.
Maximum
Maximum
Maximum
Maximum
(Note 1)
Recurrent Peak Reverse Voltage
RMS Voltage
DC Blocking Voltage
Average Forward Rectified Current
RGPP1 TA = 75'C
RGPP5 TA = 100'C
Peak Forward Surge Current 8.3ms single half sine
-wave superimposed on rated load (JEDEC Method)
RGPP1
RGPP5
Maximum Forward Voltage at Rated Forward
Current (Pulse Width = 300 liS, Duty Factor = 1%)
Maximum Reverse Leakage Current
at Rated DC Blocking Voltage TA ~ 25'C RGPP1
RGPP5
Maximum Reverse Recovery Time (Note 2)
Operating and Storage Temperature Range
TJ, TSTG
RGPPIA RGPPIB RGPPlD RGPPIG RGPPlJ RGPPlK
RGPPSA RGPPSB RGPPSO RGPPSG RGPPSJ RGPPSK
600
50
100
200
400
800
35
70
140
280
420
560
50
800
100
200
400
600
150
1.0
5.0
Amps
30.0
150.0
Amps
1.3
Volts
10.0
25.0
200
-6510 +150
NOTES:
1. Actual rating is heat sink dependent.
2. Reverse Recovery Test Conditions: IF =O.SA, IR =1.0A, Irr =0.25A.
-558-
UNITS
Volts
Volts
Volts
IiA
250
350
ns
'C
RATINGS AND CHARACTERISTIC CURVES RGPP1A THRU RGPP1 K
RGPP5A THRU RGPP5K
I-
6.0
Z
W
~
5.0
~
o
o
U)
4.0
I
1
I
i
H--
W
I
~l-+- ---
10
I
I
0:
W
>
..:
\
40
60
150
W
CDUl
o:W
~o:
CllW
125
~
100
40
0:
...:
20
~Ul
o:W
offi
10
"-,,-
80
lOa
.... \
120
z
...:
I
--
1--I---t---.
0
W
........
--
I
I-
z
140
150
180
L
RGPP5
1/
,
....
1.
If V
,,-0:
~o:
...:~
wO
"-
IUl
04
I
Z
02
I
01
/I
6
TJ = 25°C
Pulse Width'" 300 IJ- S
1% Duty Cycle
I
10
12
100
i"-
"-
A~Pl
-
:2
TA" 100°C
..:
o0:
20
50
100
~
r:
z
-
.,.
RGPP~ ....
~
o
W
REVERSE RECOVERY TIME CHARACTERISTIC AND TEST DIAGRAM
",..
~::
W
=
~--
TA
~
10 ,;",
NONINDUCTIVE
0:
·a.5A
(f)
~
OUT
50Vdc
(approx)
·0.25
1--+\-+-
~~
01
Z
rRGPP5
IUl
OSCILLOSCOPE
(NOTE 1)
TA
...:
I-
...:
Z
~.
-1.0
NOTES' 1 Rise Time 7ns max .. Input Impedance
1 megohm, 22pF.
2. Rise Time = lOns max., Source Impedance
-
75°C
~
1n
NONINDUCTIVE
RGP:';;'
~-- ~~PPl
>
W
o
(.)
~
i-"""""
l...,..ooo'"
",-
10
Ul
0:
~
AGPPS
10
W
I')
20
ffJ
0:
0:
_
18
0:
W
NUMBER OF CYCLES AT 60Hz
50 ",'
16
Fig. 4-TYPICAL REVERSE
CHARACTERISTICS
o
NQNINDUCTIVE
14
INSTANTANEOU~6~T~WARD VOLTAGE,
t'-.
10
FIG. 1 -
I
JEDEC METHOD
........
............
r--
._- ' - -
.
RGPPl
8.3ms SINGLE HALF SINE-WAve
75
25
I
I--
-l~ ..-
:-=- --..
--
RGPP5
50
+-.. -
..
...:
200
MAXIMUM NON-REPETITIVE
SURGE CURRENT
0::2
OW
1/
,/
0"-
...:...:
~r:
o:z
".- ~
.-
i---.
I - - 1-.
~...:
AMBIENT TEMPERATURE 'C
FIG. 3 -
0
0
Ul:2
\
RGPPl
20
100
~
!\
I
I
I
W
~
0:
0:
RGPP5
~ffi3.0 r- ~~~~i;,:~~~E,~~b6~~~~~~~
a:"-
0:2
u..<2.0
Z
~
a:W
Fig. 2-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
I-
Fig. 1-FORWARD CURRENT DERATING CURVE
~-
25°C
--
~
=ii t:::=
RGPP1
01
20
40
60
80
100
120
PERCENT OF RATED PEAK
REVERSE VOLT AGE
50 ohms
-559-
I
-560-
TRANSIENT VOLTAGE
SUPPRESSORS
General Instrument Transient Voltage Suppressors are the state-ofthe-art in semiconductor surge
protection for modern electronic
equipment.
Because TVS devices are semiconductors, there is no inherent
wear out mechanism. When
overstressed, they short circuit at
the changing voltage and
protect the associated equip-
ment. The clamping voltage is
close to the operating voltage
enabling a high degree of
protection while assuring the
devices are off until their operation is required.
General Instrument TVS units are
available in four power ranges:
400,600,7500, and 5,000 watts
with a wide variety of voltages.
•
-561-
P4KASERIES
AUTOMOTIVE TRANSIENT VOLTAGE SUPPRESSOR
VOLTAGE- 6.8 to 43 Volts
400 Watt Peak Power 1.0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-O
• Glass passivated junction
• Exclusive G.I. PAR construction
• 400W surge",~
capability at 1 ms " "
• Excellent clamping
~
capability
• Low zener impedance
• Fast response time: typically less
than 1.0 ps from 0 volts to BV min.
• Typical IR less than 10 J1 A above 10V at 17S'C
• High temperature soldering guaranteed:
300'C/10 secondsl.37S", (9.Smm) lead
length/Sibs., (2.3 kg) tension
• Designed to handle under the hood applications
00-41
-r
.107(2.7)
.010(2.0)
1.0 (25.4)
MIN
.1
1+~
I
.205(5.2)
.180(4.1)
~
t
1.0(25.4)
MIN
.034 (.88).
.028 (.71)
+
I
+
MECHANICAL DATA
CBse: Molded pl~stic over a passivated junction
Terminals: Axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denoted cathode
except Bipolar
Mounting Position: Any
Weight: 0.012 ounce, 0.3 gram
Dimensions in inches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types P4KA6.8 thru types P4KA43.
Electrical characteristics apply in both directions
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at25'C ambient temperature unless otheMise specified.
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load. derate current by 20%.
RAnNG
Peak Power Dissipation at TA - 25'C, Tp .lms (Note 1)
Steady State Power Dissipation at TL - 75'C
Lead Lengths .375", (9.5mm) (Note 2)
Peak Forward Surge Current, 8.3ms Single Half
Sine-Wave Superimposed on Rated Load
(JEDEC Method) (Note 3)
Operating and Storage Temperature Ranlle
SYMBOL
VALUE
Ppk
Minimum 400
UNITS
Watts
PO
1.0
Watts
IFSM
TJ,TsTG
40.0
·65 to +185
Amps
'C
NOTES:
1. Non-repetitive current pulse, per Fig. 3 and derated above TA =25'C per Fig. 2.
2. Mounted on Copper Leaf area of 1.57 in2 (40mm2).
3. 8.3ms single haH sine-wave. duty cycle =4 pulses per Minutes maximum
A
-562-
Breakdown Voltage
VII.!!.
Vohe (Notel)
DEVICE
P4KA6.8
P4KA6.8A
P4KA7.5
P4KA7.5A
P4KA8.2
P4KA8.2A
P4KA9.1
P4KA9.1A
P4KA10
P4KA10A
P4KAll
P4KAllA
P4KA12
P4KA12A
P4KA13
P4KA13A
P4KA15
P4KA15A
P4KA16
P4KA16A
P4KA18
P4KA18A
P4KA20
P4KA20A
P4KA22
P4KA22A
P4KA24
P4KA24A
P4KA27
P4KA27A
P4KA30
P4KA30A
P4KA33
P4KA33A
P4KA36
P4KA36A
P4KA39
P4KA39A
P4KA43
P4KA43A
Min
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9.00
9.50
9.90
10.5
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18.0
19.0
19.8
20.9
21.6
22.8
24.3
25.7
27.0
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
40.9
I~~
MIX
7.48
7.14
8.25
7.88
9.02
8.61
10.0
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.3
15.8
17.6
16.8
19.8
18.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.8
42.9
41.0
47.3
45.2
10
10
10
10
10
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Working
Peek Mulrrum
Re_ Rmrn
Vo"age Leakage
atVIMII
atVRY/M
(Vohe)
IR((1A)
Tc=l50'C
Mulrrum
Revern
Leakege
atVRWM
IR((1A)
5.50
5.80
6.05
6.40
6.63
7.02
7.37
7.78
8.10
8.55
8.92
9.40
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
16.2
17.0
17.8
18.8
19.4
20.5
21.8
23.1
24.3
25.6
26.8
28.2
29.1
30.8
31:6
33.3
34.8
36.8
300
300
150
150
50
50
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1000
1000
500
500
200
200
50
50
10
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
NOTES:
1. VBR measured after IT applied for 300 (.IS , IT =Square Wave Pulse or equivalent.
2. Surge Current Waveform per Figure 3 and Derated per Figue 2.
3. VF = 3.5 V max., IF = 25A for aU types on 1/2 Square or Equivalent SIne Wave
PW = 8.33 ms, Duty Cycle = 4 Pulses per Minute Maximum
-563-
Mulrrum
Revern
39.8
41.0
36.8
38.1
34.4
35.5
32.2
32.1
28.7
29.7
26.5
27.6
24.9
25.8
22.6
23.6
19.6
20.3
18.3
19.1
16.2
16.9
14.8
15.5
13.5
14.1
12.4
13.0
11.0
11.5
9.9
10.4
9.0
9.4
8.3
8.6
7.6
8.0
7.0
7.3
Qllnnt
IRsM
(Note 2)
(~)
MaIIlrrum
Rm...
Maxlrrum
Voltage
TempendUre
at IRSII
Coehlcelnt
( Clomping Valllgo)
ofVRR
VRlIN (Vohe)
("" J'C)
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
17.3
16.7
19.0
18.2
22.0
21.2
23.5
22.5
26.5
25.5
29.1
27.7
31.9
30.6
34.2
33.2
39.1
37.5
43.5
41.4
47.7
45.7
52.0
49.9
56.4
53.9
61.9
59.3
0.057
0.057
0.06
0.061
0.065
0.065
0.068
0.068
0.073
0.073
0.075
0.075
0.076
0.078
0.081
0.081
0.084
0.084
0.086
0.086
0.088
0.088
0.090
0.090
0.092
0.092
0.094
0.094
0.096
0.096
0.097
0.097
0.098
0.098
0.099
0.099
0.100
0.100
0.101
0 .. 101
•
RATING AND CHARACTERISTIC CURVES P4KA
,
FIGURE 2 - PULSE DERATING CURVE
100
....
O~
FIGURE 1 - PULSE RATING CURVE
Non-Repetitive
Pulse Waveform
shown in Figure 3
TA11U 250C
~
:!!.
a:
UJ
3:
0.
P4KES-8
thru
P4KE200A
<
UJ
0.
~O
50
;:):.:
25
UJa:
OUJ
w3:
cno
...Jo.
Typical Characteristics
0
:.:
~
~a:
1111
10
"
;l'.z
zUJ
_a: 7.
CIa:
z;:)
_0
100
~
"
0.<
:':UJ
1.0
;50.
0.
Ii
0.
"' "
~
25
50
75
100
125
150
175
200
TA AMBIENT TEMPERATURE (0 C)
0.1
Ll.-L.LJ..UJlJLJL.L-Ll.LLLlU-L.l-LJ..LlJLJ.IL-L-LLLUJ.llL-L-Ll...LLWJJ
O.ltJ.S
1.0/lS
10",
l,Oms
100j.l.S
tOms
FIGURE 4 -
tp, PULSE WIDTH
FIGURE 3 -
-~
;I'.
I
~
z
'00
PULSE WAVEFORM
I
I TJ=~5'C
Pulse Width (ip) is defined
t-~1r"0~_ t-- IS that polnl where the peak
!RSM
a:
a:
I
""'If
10'
of IRSM
Half Value
;:)
TJ = 25°C
current decays 10 5()OA.
~Peak~.'UO
w
"'8M
2
50
~
:.:
~
"'...,.,- f{
~
/
o
:ll...J
TYPICAL JUNCTION CAPACITANCE
10'
Measured @
Stand-Off
~
Voltage (VA)
~
'.0
Zero Bias -
'-
'" ........ r
10 x 1000 Wavef6rmdOfir by ~EA_
_lp_
Measured (Ci
~
2.0
3.0
~
4.0
T, Time (ms)
FIGURE 5 -
STEADY STATE POWER DERATING
10'
1.0
1.00
I
a:
w _,
3:cn
CL
!;(
0.75
lt~
-~
-
~O.50
0<
cS 0
~
I
I = 375" (9.5mm)
O~
10
BREAKDOWN VOLTAGE, VOLTS (VBA)
1--+--+-++f"I'!ot:I-~-+-t-t+++ttI
--
8.3ms Single Hall Sine-Wave
(JEDEC Method)
NUMBER OF CYCLES AT 60 Hz
•
-565-
P6KA SERIES
AUTOMOTIVE TRANSIENT VOLTAGE SUPPRESSOR
VOLTAGE- 6.8 to 43 Volts
600 Watt Peak Power 5.0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-O
• Glass passivatec;l junction
• Exclusive G.I. PAR construction
• 600W surge capability at 1 ms
• Excellent clamping '~~"',""
capability
-.""-...
• Low zener impedance
____..
• Fast response time: typically less
~....__,_
than 1.0 ps from 0 volts to BV min .
• TypicallR less than 10 ~ A above 10V at 17S'C
• High temperature soldering guaranteed:
300'C/10 seconds/.37S", (9.Smm) lead
length/Sibs., (2.3 kg) tension
• Designed to handle under the hood applications
DO-15
f
1.0
NIN.
125.41
•300t61
.23015.81
+':1
I_
.14013.61
.10412.61
MIN.
125.41
1
MECHANICAL DATA
Case: Molded plastiC over a passivated junction
Terminals: Axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denoted cathode except
Bipolar
Mounting Position: Any
Weight: 0.01S ounce, 0.4 gram
Dimensions In inches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types P6KA6.8 through types P6KA43.
Electrical characteristics apply in both directions
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'C amblant temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate currant by 20%.
RATING
Peak Power Dissipation at TA = 25'C, Tp .. 1ms (Note 1)
Steady State Power Dissipation at TL. 75'C
Lead Lengths .375", (9.Smm) (Note 2)
Peak Forward Surge Current, 8.3ms Single Half
Sine-Wave Superimposed on Rated Load
(JEDEC Method) (Note 3)
Operating and Storage Temperature Range
SYMBOL
VALUE
UNITS
Ppk
Minimum 600
Watts
PO
5.0
Watts
IFSM
100
-65 to +185
Amps
'C
TJ,TsTG
NOTES:
1. Non-repetitive current pulse, per Fig. 3 and derated above TA = 25'C per Fig. 2.
2. Mounted on Copper Leaf area of 1.57 in2 (40mm2).
3. 8.3ms single half sine-wave, duty cycle = 4 pulses per Minutes maximum.
ELECTRICAL CHARACTERISITCS ( TA
Working
(VoIIS)
Maxlllllm
Reve...
Leakage
at VRWM
IR(J1A)
5.50
5.80
6.05
6.40
6.63
7.02
7.37
7.78
8.10
8.55
8.92
9.40
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
IS.2
17.1
17.8
18.8
19.4
20.5
21.8
23.1
24.3
25.6
2S.8
28.2
29.1
30.8
31.6
33.3
34.8
36.8
500
500
250
250
100
100
25
25
5.0
5.0
2.0
2.0
2.0
2.0
2.0
2.0
.2.0
2.0
2.0
2.0
2.0
2.0
2.0
2,0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
Peak
DEVICE
Breakdown Vonag.
-VBR
@J:r.
VoIl. (NoI.,) (rnA)
Mill Max
P6KA6.8
P6KA6.8A
P6KA7.5
P6KA7.5A
P6KA8.1'.
P6KA8.2A
P6KA9.1
P6KA9.1A
P6KA10
P6KA10A
P6KA11
P6KA11A
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9.00
9.50
9.90
10.5
P6KA12
P6KA12A
P6KA13
P6KA13A
P6KA15
P6KA15A
P6KA16
P6KA16A
P6KA18
P6KA18A
P6KA20
P6KA20A
P6KA22
PSKA22A
P6KA24
PSKA24A
P6KA27
P6KA27A
P6KA30
P6KA30A
PSKA33
PSKA33A
PSKA3S
PSKA3SA
P6KA39
PSKA39A
P6KA43
P6KA43A
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18.0
19.0
19.8
20.9
21.S
22.8
24.3
25.7
27.0
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
40.9
7.48
7.14
8.25
7.88
9.02
8.61
10.0
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.3
15.8
17.6
16.8
19.8
18.9
22.0
21.0
24.2
23.1
2S.4
25.2
29.7
28.4
33.0
31.5
3S.3
34.7
39.6
37.8
42.9
41.0
47.3
45.2
10
10
10
10
10
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.-0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
R.ve...
Vonage
=2SoC unless otherwise noted)
Tc=150'C
Maxlllllm
Rev....
LaakagellISII
atVRWM
Maxlllllm
Maxlllllm
Temptt'8\Urt
Reverae
Vonage .. IRSM CoeIIlcent
(CIuqIII1I V......)
oIVBR
VRSM(VolII)
(%I'C)
1R(11A)
(Nott 2)
(A""a)
1000
1000
500
500
200
200
50
50
10
10
5.0
5.0
59.7
61.4
58.1
57.1
51.6
53.3
46.7
48.1
43.0
44.5
39.8
41.3
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
0.057
0.057
0.061
0.061
0.065
0.065
0.068
0.068
0.073
0.073
0.075
0.076
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
37.3
38.6
35.9
35.4
29.3
30.4
27.4
28.7
24.3
25.6
22.2
23.3
20.2
21.1
18.6
19.4
IS.5
17.2
14.8
15.S
13.5
14.1
12.4
12.9
11.4
12.0
10.4
10.9
17.3
16.7
19.0
18.2
22.0
21.2
23.5
22.5
26.5
25.2
29.1
27.7
31.9
30.6
34.7
33.6
39.1
37.5
43.5
41.4
47.7
45.7
52.0
49.9
56.4
53.9
61.9
59.3
0.076
0.078
0.081
0.081
0.084
0.084
0.086
0.086
0.088
0.088
0.090
0.090
0.092
0.092
0.094
0.094
0.096
0.09S
0.097
0.097
0.098
0.098
0.099
0.099
0.100
0.100
0.101
0.101
NOTES:
1. VBR measured after IT applied for 300 f1S. IT =Square Wave Pulse or equivalent.
2. Surge Current Waveform per Figure 3 and Derate per Figure 2.
3. VF = 3.S V max., IF = SOA for all types on 1/2 Square or Equivalent Sine Wave.
PW =B.3ms, Duty Cycle =4 Pulses per Minute maximum.
-567-
IIaxlllllm
Revtrat
Cummt
IIISII
•
RATING AND CHARACTERISTIC CURVES P6KA SERIES
FIGURE 2 - PULSE DERATING CURVE
FIGURE 1 - PULSE RATING CURVE
100
r\.
'\
75
"
r\.
01
I
,.0 _
_
25
~
"-
'I
yREA]
1Ox1 000 Waveform
as Yfined
0.1
!:-:'~sJ..J.LI!~-!S....L..1...L~!l!:cS.1...L...L~:!!l"-SllJ..J..LIJup,o,..umsLL..LI,I,I,mJlJS
o
o
25
FIGURE 4 -
100
Z
W
0::
0::
,
I--
TJ _ 25°C
I"\..
2000
of IRSM
2
U
Z
f.-
as defined by R.EA
«
.......
tp
2.0
1.0
«
«
-
.......
"-
"
/
,
Measured ,@
I'
Stand-Off
Voltage (VA)
200
U
100
4.0
3.0
T, TIME (ms)
400
t-
U
'"
BOO
600
ui
10 x 1000 Waveform
I'
::l
Co
1111
Measured @
Zero Bias
"r\
1000
u..
!.B.SM
Half Value -
"I
"«
W
"-
4000
I
50
...J
,
175
TYPICAL JUNCTION CAPACITANCE
IR8M
1\
W
(J)
150
6000
Pulse Width (tp) is defined as that point where the peak
current decays to 50%
~peakValUe
::l
U
125
TJ "25°C
!.. trl·'0~iec-
t-
100
PULSE WAVEFORM
I
~
!!
'#
75
TA AMBIENT TEMPERATURE (OC)
'p, PULSE WIDTH
FIGURE 3 -
50
"-
60
60
40
20
00
!;(
10
FIGURE 5 -
I-
I I
~
Z
~
3.75
iii
(J)
W
2.5
~
1.25
SINd'E
HALF WAVE
>0
60Hz
RESISTIVE OR
INDU,CTIVE ~OAD
W
\
PH~SE
t-
«
~
~
W
(J)
FIGURE 6 -
ci
"-
25
50
\
200
:::>0::
(J)W
0::::;:
««
-
150
50
OW
u..0::
",0::
«:::>
wU
"-
1\
125
""'"
~I-'
o::z
\
100
JEOE;.C METHOD
100
0"-
1\
75
100
813~~ ~'NGlEI HAl~ SIIN~-~~V~
w
(!)(J)
O::W
t-
(J)
20
MAXIMUM NON-REPETITIVE
SURGE CURRENT
200
40mm x 40mm x 1mm. Cu
(1.58~ x 1.S8w x .040")
0
«
~
I
"I-
10
REVERSE VOLTAGE, VOLTS (VBR)
I - 375" (9.5mm)
f-
CS
0::
1.0
\
I I
0
j::
STEADY STATE POWER DERATING
5.0
175
200
TL, LEAD TEMPERATURE (OC)
10
5
10
50
100
NUMBER OF CYCLES AT 60Hz
IN~MIr
-568-
200
•
-569-
1.SKA SERIES
AUTOMOTIVE TRANSIENT VOLTAGE SUPPRESSOR
VOL TAGE- 6.8 to 43 Volts
1500 Watt Peak Power 5.0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-O
• Glass passivated Junction
• Exclusive G.I. PAR construction
• 1500Wsurge
'<~... -... _._
capability at 1 m s - - - • Excellent clamping
capability
'_'""""
• Low zener impedance
-"",
• Fast response time: typically less
than 1.0 ps from 0 volts to BV min.
• Typical IR less than 20 11 A above 10V at 175·C
• High temperature soldering guaranteed:
300·C/10 second8l.375", (9.5mm) lead
length/Sibs., (2.3 kg) tension
• Designed to handle under the hood applications
DO·201
f
dlill.ll
.18814.81
DIA.
1.0125.41
I~
~
Lj
.37519.51
1.0 125.41
.042 11.071
•37 1.941
..
T
MECHANICAL DATA
CBse: Molded plastic over a passivated junction
Terminals: Axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denoted cathode
except Bipolar
Mounting POSition: Any
Weight: 0.045 ounce, 1.2 grams
Dimensions in inches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types 1.5KA6.8 thru types 1.5KA43
Electrical characteristics apply in both directions
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
RATING
Peak Power Dissipation at TA. 25·C, Tp -1ms (Note 1)
Steady State Power Dissipation at TL • 75·C
lead lengths .375", (9.5mm) (Note 2)
Peak Forward Surge Current, 8.3ms Single Half
Sine-Wave Superimposed on Rated load
(JEDEC Method) (Note 3)
Operating_ and Storage Temperature Range
SYMBOL
VALUE
UNITS
Ppk
Minimum 1500
Watts
PO
5.0
Watts
IFSM
200
-65 to +185
Amps
·C
TJ.TsTG
NOTES:
1. Non-repetitive current pulse, per Fig. 3 and derated abcve TA = 25'C per Fig. 2.
2. Mounted on Copper Leaf area of 0.79 in2 (20mm2).
3. 8.3ms single hall sine-wave, duty cycle - 4 pulses per Minutes maximum.
ELECTRICAL CHARACTERISTICS ( TA
WoMIg
DEVICE
BNlkdown VoIbIge
VBR@
VoIbI (NoIII)
IT
(mA)
MIN
MAX
1.5KA6.8
1.5KA6.8A
1.5KA7.5
1.5KA7.5A
1.5KA8.2
1.5KA8.2A
1.5KA9.1
1.5KA9.1A
1.5KA10
1.5KA10A
1.5KAll
1.5KAllA
1.5KA12
1.5KA12A
1.5KA13
1.5KA13A
1.5KA15
1.5KA15A
1.5KA16
1.5KA16A
1.5KA18
1.5KA18A
1.5KA20
1.5KA20A
1.5KA22
1.5KA22A
1.5KA24
1.5KA24A
1.5KA27
1.5KA27A
1.5KA30
1.5KA30A
1.5KA33
1.5KA33A
1.5KA36
1.5KA36A
1.5KA39
1.5KA39A
1.5KA43
1.5KA43A
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9.00
9.50
9.90
10.5
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18.0
19.0
19.B
20.9
21.6
22.B
24.3
25.7
27.0
2B.5
29.7
31.4
32.4
34.2
35.1
37.1
3B.7
40.9
7.48
7.14
8.25
7.88
9.02
8.61
10.0
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.;3
13.7
16.3
15.8
17.6
16.B
19.B
lB.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.B
42.9
41.0
47.3
45.2
10
10
10
10
10
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
= 2S·C unless otherwise noted
T.=150·C
.... t
111m....
~
lie.-
IIIDII....
lie.-
111m....
R_
Vallage
IIV_
......
(Vona)
1R(J.iA)
etV_
1R(p.A)
(An1Je)
5.50
5.80
6.05
6.40
6.63
7.02
7.37
7.78
8.10
8.55
8.92
9.40
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
16.2
17.1
17.B
18.8
19.4
20.5
21.8
23.1
24.3
25.6
26.B
2B.2
29.1
30.,8
31.6
33.3
34.8
36.B
500
500
250
250
100
100
25
25
5
5
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2000
2000
1000
1000
400
400
100
100
20
20
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
149
153
137
143
129
133
117
120
107
111
99.5
103
93.2
96.5
84.8
88.6
73.3
76.0
68.6
71.6
60.B
64.0
55.4
58.2
50.5
52.7
46.5
48.6
41.2
43.4
37.0
3B.9
33.8
35.3
31.0
32.3
2B.6
29.9
26.0
27.2
elV_
Lllkage
NOTES:
1. VSR measured after IT applied for 300~. IT =Square Wave Pulse or eqivalent.
2. Surge current Waveform per Figure 3 and Derate per Figure 2.
3. VF = 3.5V mas., IF = l00A for all types per 112 Square or Equivalent Sine Wave.
PW = B.3 ms, Duty Cycle = 4 Pulses per Minute Maximum.
-571-
QlINIII
.....
(MottZ)
IIIDIIIID
IInIne
Vobge
Mlxlnllln
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
17.3
19.0
18.2
22.0
21.2
23.5
23.5
22.5
26.5
25.2
29.1
27.7
31.9
30.6
34.7
33.2
39.1
37.5
43.5
41.4
47.7
45.7
52.0
49.9
56.4
53.9
61.9
59.3
0.057
0.057
0.061
0.061
0.065
0.065
0.068
0.068
0.073
0.073
0.075
0.076
0.076
0.078
0.081
0.081
0.084
0.084
0.086
0.086
0.088
0.088
0.090
0.090
0.092
0.092
0.094
0.094
0.096
0.096
0.097
0.097
0.09B
0.098
0.099
0.099
0.100
0.100
0.101
0.101
T...,.......
CoeIIlceInt
11'(Clamping Vo!tIge)
01 V..
VASIl (Volle)
( %"C)
•
RATINGS AND CHARACTERISTIC CURVES 1.5KA SERIES
FIGURE 2-PULSE DERATING CURVE
...
FIGURE 1 - PULSE RATING CURVE
,w.~;m
~
a:
"",
0>#z
Zw
_a:
CIa:
100
:sh~;~ ~~~igure
100
~O
Wa:
Ow
w~
1/)0
-'a..
10
w
~
0
~
"w
-a:
3'
"~
25
1Ox1000 Waveform
f - as Idefined Iby
ei
a..
o
o
25
REf'
100 1
75
50
125
150
I,
175
TA AMBIENT TEMPERATURE (0C)
0.1
0.1 lIS
1.0j1.S
10f1$
1.oms
100"s
tOms
FIGURE 4 - TYPICAL JUNCTION CAPACITANCE
tp. PULSE WIDTH
20,000
10,000
FIGURE 3 -
I
~
!!
if
>Z
w
a:
a:
::l
U
w
I/)
-'
::l
a..
-loo=.',
'oa
I
t
Pulse Width (Ip) IS defined
as that pomt where the peak
r-- currenl
10 u eC _
deca~'s
200 0
to 50°0
IRSM
'\.
...
,
I'
50
C.
--
W
lBSM
Hall Value-
2
."
.......
w
"-
1000
600
Measured @
"
f-
ZeroBi .. -
6tlO
U
Z
400
~
20 0
Measured @
Stand-Off
<
>-
I"'-
I"-
\
of JRSM
Peak Value
t\
4000
2S'C
TJ
,"
6000
PULSE WAVEFORM
I\.
Voltage (VR)
"-
10xlQOQ Waveform
<
~s deTed bY,R.EA
U
100
":"::tp
eo
10
20
30
50
40
T. TIME 1m.)
0
2D
10
10
FIGURE 5 - STEADY STATE POWER DERATING
I I
~
!;;(
15
a:
~
\.
I = 1375" (9 ISmm)
_
20mm )( 20mm x 1mm. Cu
08"x08"x 040~
I' -I .
L -
-
200
\.
'2. 5
10
ClI/)
a:w
::la:
~
a:::!
<'"
,,~
;:'jU
"-
r\
125
150
50
a:Z
ow
... a:
\.
100
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
~,.:
~
75
r.....1"-- ...
'00
0"-
:~~STIVE OR
50
200
I/) I~
\.
SINtE PHkE
HALF WAVE
25
..........
W
INDUCTIVE LOAD
01
100
FIGURE 6 - MAXIMUM NON-REPETITIVE
SURGE CURRENT
1\
r~
3.75
a.
gj
2D
REVERSE VOLTAGE, VOLTS (VBR)
5.0
175
10
200
,i
5
T L• LEAD TEMPERATURE (0C)
10
NUMBER OF CYCLES AT 60Hz
-572-
50
100
200
•
-5/'3-
P4KE SERIES
GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE
SUPPRESSOR
VOL rAGE· 6,8 to 400 Volts
400 Watt Peak Power
1,0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-0
• Glass passivated junction in 00-41 package
• 400W surge~,
capability at 1 ms ~.-.~~
• Excellent clamping
~
capability
• Low zener impedance
• Fast response time: typically less
than 1.0 ps from 0 volts to BV min .
• Typical IR less than 1 IJ. A above 10V
• High temperature soldering guaranteed:
300'C/10 seoond5l.375", (9.5mm) lead
length/Sibs., (2.3 kg) tension
0CJ.41
-r
1.0125.4)
MIN
.10712.7) ~
.080(2.0)
1 I.---r~
•205(5.2)
.18~4.1)
t
1.0 (25.4)
MIN
.034 (.86)..
.028 (.71)
I
MECHANICAL DATA
...
case:
Molded plastic over glass paSSivated
junction
Terminals: Axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denoted cathode
except Bipolar
Mounting Position: Any
Weight: 0.012 ounce, 0.3 gram
Dimensions in inches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types
P4KE7.5 thru types P4KE400
Electrical characteristics apply in both directions
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'0 ambient temperature unless otherwise specified.
RATING
Peak Power Dissipation at TA = 25'C, Tp - 1ms (Note 1)
Steady State Power Dissipation at TL = 75'C
Lead Lengths .375", (9.5mm) (Note 2)
Peak Forward Surge Current, 8.3ms Single Half
Sine-Wave Superimposed on Rated Load
(JEDEC l).1ethod) (Note 3)
Operating and Storage Temperature Range
SYMBOL
VALUE
Ppk
Minimum 400
UNITS
Watts
PO
1.0
Watts
IFSM
40.0
-65 to +175
Amps
'C
TJ.TsTG
NOTES:
1. Non-repetitive current pulse, per Fig. 3 ard derated above TA =25'0 per Fig. 2.
2. Mounted on Oopper Leaf area of 1.57 in (40mm2).
3. 8.3ms Single half sine-wave, duty cycle =4 pulses per Minutes maximum
Peak
Rev...
Vobage
V_
(Volts)
Maxlmllll
Rever..
WuA)
Maxlmm
Rev...
Maximum
Current Maximum Rev..... Tllllperlltuure
Vobagelll_
10",
CoeIIJcJent
(Note 2) Clamping Voltage
01 V..
(%C)
V.", iVoba)
iAmpai
5.50
5.80
6.05
6.40
6.63
7.02
7.37
7.78
8.10
8.55
8.92
9.40
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
16.2
17.1
17.8
18.8
19.4
20.5
21.8
23.1
24.3
25.6
26.8
28.2
29.1
30.8
31.6
33.3
34.8
36.8
38.1
40.2
41.3
43.6
45.4
47.8
50.2
53.0
55.1
58.1
60.7
64.1
1000
1000
500
500
200
200
50
50
10
10
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
38
40
36
37
33
35
30
31
28
29
26
27
24
25
22
23
19
20
18
19
16
17
14
15
13
14
12
13
11
11.2
10
10
9
9
8
8.4
7.4
7.8
6.8
7.1
6.2
6.5
5.7
6.0
5.2
5.5
4.7
5.0
4.3
4.6
3.9
4.1
WorIclng
Breakdown Voba~
@JT
VIR
Volts (Note 1)
(mA)
Device
P4KE6.8
P4KE6.8A
P4KE7.5
P4KE7.5A
P4KE8.2
P4KE8.2A
P4KE9.1
P4KE9.1A
P4KE10
P4KE1OA
P4KEll
P4KEllA
P4KE12
P4KE12A
P4KE13
P4KE13A
P4KE15
P4KE15A
P4KE16
P4KE16A
P4KE18
P4KE18A
P4KE20
P4KE20A
P4KE22
P4KE22A
P4KE24
P4KE24A.
P4KE27
P4KE27A
P4KE30
P4KE30A
P4KE33
P4KE33A
P4KE36
P4KE36A
P4KE39
P4KE39A
P4KE43
P4KE43A
P4KE47
P4KE47A
P4KE51
P4KE51A
P4KE56
P4KE56A
P4KE62
P4KE62A
P4KE68
P4KE68A
P4KE75
P4KE75A
MIN
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9.00
9.50
9.90
10.5
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18.0
19.0
19.8
20.9
21.6
22.8
24.3
25.7
27.0
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
40.9
42.3
44.7
45.9
48.5
50.4
53.2
55.8
58.9
61.2
64.6
67.5
71.3
MAX
7.48
7.14
8.25
7.88
9.02
8.61
10.0
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.3
15.8
17.6
16.8
19.8
18.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.8
42.9
41.0
47.3
45.2
51.7
49.4
56.1
53.6
61.6
58.8
68.2
65.1
74.8
71.4
82.5
78.8
10
10
10
10
10
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
-575-
Leakege
at V_
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
17.3
16.7
19.0
18.2
22.0
21.2
23.5
22.5
26.5
25.5
29.1
27.7
31.9
30.6
34.7
33.2
39.1
37.5
43.5
41.4
47.7
45.7
52.0
49.9
56.4
53.9
61.9
59.3
67.8
64.8
73.5
70.1
80.5
77.0
89.0
85.0
98.0
92.0
108.0
103.0
0.057
0.057
0.061
0.061
0.065
0.065
0.068
0.068
0.073
0.073
0.075
0.075
0.076
0.078
0.081
0.081
0.084
0.084
0.086
0.086
0.088
0.088
0.090
0.090
0.092
0.092
0.094
0.094
0.096
0.096
0.097
0.097
0.098
0.098
0.099
0.099
0.100
0.100
0.101
0.101
0.101
0.101
0.102
0.102
0.103
0.103
0.104
0.104
0.104
0.104
0.105
0.105
•
Breakdown Vonage
Va.
~~:)
VoU. (Note!)
Devlea
P4KE82
P4KE82A
P4KE91
P4KE91A
P4KE100
P4KE100A
P4KE110
P4KE110A
P4KE120
P4KE120A
P4KE130
P4KE130A
P4KE150
P4KE150A
P4KE160
P4KE160A
P4KE170
P4KE170A
P4KE180
P4KE180A
P4KE200
P4KE200A
P4KE220
P4KE220A
P4KE250
P4KE250A
P4KE300
P4KE300A
P4KE350
P4KE350A
P4KE400
P4KE400A
MIN
73.8
77.9
81.9
86.5
90.0
95.0
99.0
105.0
108.0
114.0
117.0
124.0
135.0
143.0
144.0
152.0
153.0
162.0
162.0
171.0
180.0
190.0
198.0
209.0
225.0
237.0
270.0
285.0
315.0
332.0
360.0
380.0
MAX
90.2
86.1
100.0
95.50
110.0
105.0
121.0
116.0
132.0
126.0
143.0
137.0
165.0
158.0
176.0
168.0
187.0
179.0
198.0
189.0
220.0
210.0
242.0
231.0
275.0
267.0
330.0
315.0
385.0
368.0
440.0
420.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Working
Peak
Revers.
Vohage
V"""
(VoUs)
66.4
70.1
73.7
77.8
81.0
85.5
89.2
94.0
97.2
102.0
105.0
111.0
121.0
128.0
130.0
136.0
138.0
145.0
146.0
154.0
162.0
171.0
175.0
185.0
202.0
214.0
243.0
256.0
284.0
300.0
324.0
342.0
Maximum
R.verse
Leakage
at V"""
10("")
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
Maxlmm
Reverse
Current
IR..
(Note 2)
(Amps)
3.6
3.7
3.2
3.4
2.9
3.1
2.7
2.8
2.4
2.5
2.2
2.3
2.0
2.0
1.8
1.9
1.7
1.8
1.6
1.7
1.5
1.53
1.16
1.22
1.11
1.16
0.93
0.97
0.79
0.83
0.70
0.73
NOTES:
1. VeR measured after IT applied for 300 J.IS , IT = Square Wave Pulse or equivalent.
2. Surge Current Wavelorm per Figure 3 and Derated per Figue 2.
3. VF = 3.5 Vat IF = 25A (P4KE6.8 Ihru P4KE91A)
VF = 5.0 V at IF 25A (P4KE100 thru P4KE400A) on 1/2 Square or Equivalent Sine Wave.
PW = 8.3ms, Duty Cycle = 4 Pulses per Minute Maximum
4. For Bipolar types moving VR of 10 volts and under, the IR limit is doubled.
-576-
Maximum
Maximum Revers. Tomperatuur.
Vohog••tl....
Coefficient
Clamping Voltage)
olVa.
VRs.(Voho)
(%C)
118.0
113.0
131.8
125.0
144.0
137.0
158.0
152.0
173.0
165.0
187.0
179.0
215.0
207.0
230.0
219.0
244.0
234.0
258.0
246.0
287.0
274.0
344.0
328.0
360.0
344.0
430.0
414.0
504.0
482.0
574.0
548.0
0.105
0.105
0.106
0.106
0.106
0.106
0.107
0.107
0.107
0.107
0.107
0.107
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.110
0.110
0.110
0.110
0.110
0.110
0.110
0.110
RATINGS AND CHARACTERISTIC CURVES P4KE SERIES
FIGURE 2 100
FIGURE 1 -
PULSE RATING CURVE
100I
'\.
"-
.~~~S:nW;~~f;'~ 3
TA
~
".'"
25"<:
~
10
a:
PULSE DERATING CURVE
UJ
~
0
I\..
I\..
0..
"
><:
ill0..
1.0
c:
0..
25
50
75
100
"
125
150
175
200
TA AMBIENT TEMPERATURE (0 C)
0.1 Ll....L-LLillJ.lL.L1--1.l-LLIllL.LJL.LLlllllL...L.l...l..LlJUlll....L-"--.JUl.Ll.fl!
O.lrJ.S
1.0JAS
10",
10ms
1.0ms
100115
FIGURE 4 - TYPICAL JUNCTION CAPACITANCE
tp, PULSE WIDTH
FIGURE 3 -
I
PULSE WAVEFORM
-- -+ ,-, tI
#fZ
100
7
a:
a:
Peak Value
f'
TJ
LL
a.
I
/
0..
><:
U
Z
2
I
~
10 x 1000 Waveform
as defj~ed by R.E.A.
I
~
I
_tp_
~
U
I
0
1.0
10'
0..
~
""
= 25°
F MeaSured <.Ct
I
t=,
Stand-Off
r--r--- I- Voltage (VR)
"-
~
2.0
3.0
M;:~~r:~s«i
_
1"'1-(
/
f-
a
"-
'" ....
W
IRSM
""..........
........
50
:::J
ill0..
...
10'
I
Half Value
U
UJ
TJ'= 25°C
Pulse Width (tp) is defined
as that pOint where the peak
current decays to 50%
of IRSM
i
IASM
:::J
~
I
tr= 10l-lsec
w
10'
4.0
,
T, Time (ms)
FIGURE 5 -
STEADY STATE POWER DERATING
10'
1.0
1.00
\.
ffi
~~
!;(
a..
\.
0.75
tt~
I
~z
eno
>- i=
~~
~(j)
enS!!
ci Q
0..
0.50
-
=-
~.,
,
25
"
200
40
MAXIMUM NON-REPETITIVE
SURGE CURRENT
8.3ms Single Half Sine-Wave
(JEDEC Method)
150
30
20
~~
~
175
a:
0
•
..........
a::2
~
125
U
00..
\.
_60Hz
Resistive or
Inductive Load
100
UJ
(!len
a:W
:::Ja:
enW
~
Half Wave
75
100
20
UJ
.~
I
I
Single Phase
FIGURE 6 50
a:
a:
:::J
\.
I
_ 40mm x 40mm x 1mm. Cu
1.58" x 1.58" x .040"
0.25 -
..:
Z
\.
375" (9.5mm)
,
10
BREAKDOWN VOLTAGE. IVOLTS (VBR)
........
10
LL
><:
200
~
UJ
0..
TL. LEAD TEMPERATURE (0 C)
2
6
8
10
20
40
60 80 100
NUMBER OF CYCLES AT 60 Hz
IN~MIr
-577-
BZW04 SERIES
GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE
SUPPRESSOR
VOLTAGE· 6.8 to 440 Volts
400 Watt Peak Power 1.0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-0
• Glass passivated junction in 00-41 package
• 400W surge
"'"
capability at 1 ms
'• Excellent clamping
',~
capability
• Low zener impedance
• Fast response time: typically less
than 1.0 ps from 0 volts to BV min .
• Typical IR less than 1 IL A above 10V
• High temperature soldering guaranteed:
300'C/l0 secondsl.375", (9.5mm) lead
length/5Ibs., (2.3 kg) tension
D0-41
f
1.0 (25.-4)
IIIN
.10712.7) ~ 1
.080 (2.0)
1+ ~
~
.205(5.2)
.160(4.1)
--L-
t
.034 (.86) ~
.028 (.71)
+
1.0 (25.4)
IIIN
MECHANICAL DATA
I
-t
Case: Molded plastic over glass passivated
junction
Terminals: Axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denoted cathode except
Bipolar
Mounting Position: Any
weight: 0.012 ounce, 0.3 gram
Dimensions in inches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use B.
Electrical characteristics apply in both directions
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
RATING
Peak Power Dissipation at TA. 25'C, Tp .1ms (Note 1)
Steady State Power Dissipation at TL ~ 75'C
Lead Lengths .375', (9.5mm) (Note 2)
Peak Forward Surge Current, 8.3ms Single Half
Sine-Wave Superimposed on Rated Load
(JEDEC Method) (Note 3)
Operating and Storage Temperature Range
SYMBOL
VALUE
UNITS
Ppk
Minimum 400
Watts
PO
1.0
Watts
IFSM
TJ.TsTG
40.0
-65 to +175
Amps
'C
NOTES:
1. Non-repetitive current pulse, per Fig. 3 and der~ above TA =25'C per Fig. 2.
2. Mounted on Copper leaf area of 1.57 in2 (40mm I.
3. 8.3ms single half sine-wave, duty cycle =4 pulses per Minutes maximum.
a....kdown VollIIe
VI.
Voltl(Nole1)
Device
BZW04P5V8
BZW04-5V8
BZW04P6V4
BZW04-6V4
BZW04P7VO
BZW04-7VO
BZW04P7V8
BZW04-7V8
BZW04P8V5
BZW04-8V5
BZW04P9V4
BZW04Pl0
BZW04-10
BZW04Pll
BZW04-11
BZW04P13
BZW04-13
BZW04P14
BZW04-14
BZW04P15
BZW04-15
BZW04P17
BZW04-17
BZW04P19
BZW04-19
BZW04P20
BZW04-20
BZW04P23
BZW04-23
BZW04P26
BZW04-26
BZW04P28
BZW04-28
BZW04P31
BZW04-31
BZW04P33
BZW04-33
BZW04P37
BZW04-37
BZW04P40
BZW04-40
BZW04P44
BZW04-44
BZW04P48
BZW04-48
BZW04P53
BZW04-53
BZW04P58
BZW04-58
BZW04P64
BZW04-64
BZW04P70
BZW04-70
BZW04P78
BZW04-78
MIlt
6.45
6.45
7.13
7.13
7.79
7.79
8.65
8.65
9.50
9.50
10.5
11.4
11.4
12.4
12.4
14.3
14.3
15.2
15.2
17.1
17.1
19.0
19.0
20.9
20.9
22.8
22.8
25.7
25.7
28.5
28.5
31.4
31.4
34.2
34.2
37.1
37.1
40.9
40.9
44.7
44.7
48.5
48.5
53.2
53.2
58.9
58.9
64.6
64.6
71.3
71.3
77.9
77.9
86.5
86.5
@IT
(mA)
'MAl
7.48
7.14
8.25
7.88
9.02
8.61
10.0
9.55
11.0
10.5
12.1
13.2
12.6
14.3
13.7
16.5
15.8
17.6
16.8
19.8
18.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.8
42.9
41.0
42.3
45.2
51.7
49.4
56.1
53.6
61.6
58.8
68.2
65.1
74.8
71.4
82.5
78.8
90.2
86.1
100
95.5
10
10
10
10
10
10
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Working
PeIk
Re_
Voltagt
V.....
(VoItSI
I«aXlmum
5.8
5.8
6.4
6.4
7.02
7.02
7.78
7.78
8.55
8.55
9.4
10.2
10.2
11.1
11.1
12.8
12.8
13.6
13.6
15.3
15.3
17.1
17.1
18.8
18.8
20.5
20.5
23.1
23.1
25.6
25.6
28.2
28.2
30.8
30.8
33.3
33.3
36.8
36.8
40.2
40.2
43.6
43.6
47.8
47.8
53.0
53.0
58.1
58.1
64.1
64.1
70.1
70.1
77.8
77.8
-579-
Revene
LAlkaII'
Maxlmm
R_
CUrrent
....
Maximum
a~,:
~:-.,.~
IlulmumRevtn
Vo..gt ......
(Clamping V~~
V.III !Voltal
1000
1000
500
500
200
200
50
50
10
10
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
38
38
35.4
35.4
33
33
30
30
27.6
27.6
25.7
24
24
22
22
19
19
17.8
17.8
16
16
14.5
14.5
13.0
13.0
12.0
12.0
10.7
10.7
9.6
9.6
8.8
8.8
8.0
8.0
7.4
7.4
6.7
6.7
6.2
6.2
5.7
5.7
5.2
5.2
4.7
4.7
4.3
4.3
3.9
3.9
3.5
3.5
3.2
3.2
10.5
10.5
11.3
11.3
12.1
12.1
13.4
13.4
14.5
14.5
15.6
16.7
16.7
18.2
18.2
21.2
21.2
22,5
22.5
25.2
25.2
27.7
27.7
30.6
30.6
33.2
33.2
37.5
37.5
41.5
41.5
45.7
45.7
49.9
49.9
53.9
53.9
59.3
59.3
64.8
64.8
70.1
70.1
77.0
77.0
85.0
85.0
92.0
92.0
103.0
103.0
113.0
113.0
125.0
125.0
Temper".'"
CoeIftcllnt
~
.057
.057
.061
.061
.065
.065
.068
.073
.073
.075
.075
.078
.078
.081
.081
.084
.084
.086
.086
.088
.088
.090
.090
.092
.092
.094
.094
.096
.096
.097
.097
.098
.098
.099
.099
.100
.100
.101
.101
.101
.101
.102
.102
.103
.103
.104
.104
.104
.104
.105
.105
.105
.105
.106
.106
•
Working
Breakdown Volta-'le
VBR
VoR" (Nole 1)
Device
BZW04P85
BZW04-85
BZW04P94
BZW04-94
BZW04P102
BZW04-102
BZW04P111
BZW04-111
BZW04P128
BZW04-128
BZW04P136
BZW04-136
BZW04P145
BZW04-145
BZW04P154
BZW04-154
BZW04P171
BZW04-171
BZW04P188
BZW04-188
BZW04P213
BZW04-213
BZW04P239
BZW04-239
BZW04P256
BZW04-256
BZW04P273
BZW04-273
BZW04P299
BZW04-299
BZW04P342
BZW04-342
BZW04P376
BZW04-376
MIN
MAX
95.0
95.0
105
105
114
114
124
124
143
143
152
152
161
161
171
171
190
190
209
209
237
237
266
266
285
285
304
304
332
332
380
380
418
418
110
105
121
116
132
126
143
137
165
158
176
168
187
179
198
189
220
210
242
231
275
263
308
294
330
315
352
336
385
368
440
420
484
462
Peak
@IT
(mA)
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Rever••
Vottage
V_
(VoR,)
85.5
85.5
94.0
94.0
102.0
102.0
111.0
111.0
128.0
128.0
136.0
136.0
145.0
145.0
154.0
154.0
171.0
171.0
188.0
188.0
213.0
213.0
239.0
239.0
256.0
256.0
273.0
273.0
299.0
299.0
342.0
342.0
376.0
376.0
Maxlrnlm
Reverse
Leakege
'81 VRWM
IR{!lA)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
Maxlmm
Rever••
Current
iR",
(Nole 2)
(Amps)
2.9
2.9
2.6
2.6
2.4
2.4
2.2
2.2
2.0
2.0
1.8
1.8
1.7
1.7
1.6
1.6
1.5
1.5
1.4
1.4
1.5
1.5
1.5
1.5
1.2
1.2
1.2
1.2
0.9
0.9
0.9
0.9
0.8
0.8
Maximum
Maximum Reverse Temperalwre
Vottage al IRSM
Coefflclenl
(Clamplng Vottage
olVBR
V.," (VoRs)
(%C)
137.0
137.0
152.0
152.0
165.0
165.0
179.0
179.0
207.0
207.0
219.0
219.0
234.0
234.0
246.0
246.0
274.0
274.0
301.0
301.0
344.0
344.0
384.0
384.0
414.0
414.0
438.0
438.0
482.0
482.0
548.0
548.0
603.0
603.0
NOTES:
1. VSA measured after IT applied for 300 fill • IT = Square Wave Pulse or equivalent.
2, Surge Current Waveform per Figure 3 and Derated per Figue 2.
3. VF = 3,S V at IF = 2SA (BZW04-SV8 thru BZW04-91)
VF =S.O V ailF =2SA (BZW04Pl02 thru BZW04-376) on 1/2 Square or Equivalent Sine Wave.
PW = 8.3 ms, Duty Cycle = 4 Pulses per Minute Maximum,
-580-
.106
.106
.107
.107
.107
.107
.107
.107
.108
.108
.108
.108
.108
.108
.108
.108
.108
.108
.108
.108
.110
.110
.110
.110
.110
.110
.110
.110
.110
.110
.110
.110
.110
.110
RATINGS AND CHARACTERISTIC CURVES BZW04 SERIES
FIGURE 2 lOa
uFIGURE 1 -
Ofif'z
ZW
_a:
(!la:
Z:J
_u
f-a:
PULSE RATING CURVE
100
Non-Repetitive
Pulse Waveform
shown In Figure 3
TA- 25°C
~
~
a:
W
~O
Wac
Ow
10
;::
pical
i'..
'\
75
"\
50
f'\.
W;::
(f)0
0
a.
25
ii'>::
>::<{
<{
W
,
'\
--'a.
>::
a.
PULSE DERATING CURVE
'\
<{~
W
1.0
ci.
a.
a.
25
50
75
100
125
"
150
175
TA AMBIENT TEMPERATURE (0 C)
01
0.'11 5
100,L15
10f.,lS
10/.15
10ms
FIGURE 4 -
IOms
105
tp, PULSE WIDTH
FIGURE 3 -
PULSE WAVEFORM
I
fZ
W
a:
a:
:J
W
TJ= 25°C
I\.
,,/
"'
50
(f)
--'
:J
........ i--
...........
a.
<{
W
o
-
10'
-
u-
n.
uS
Z
t::
u
<{
a.
as defined by REA
U
1"""-+..
20
r--
4,0
30
T, Time (ms)
FIGURE 5 -
I102
STEADY STATE POWER DERATING
10
100
W_
~r
a.~
t::~
<{Z
~ 0
(95L)\
~~ 1\\
II•
0,75
050
--I
>-f-
o
(L
o
~
1 mm Cu
(1.58" x 158" x 040")
025
f-C
Z
W
a:
a:
:J
I
1 1--
<{a.
(f)'!'.
I
40mm x 40mm
O<{
~Uj
37~'
l\
\
Single Phase
Half Wave
~
25
50
75
100
125
u
40
30
150
lUG
175
a:
0
u.
:!OO
-
......
20
<{<{
;::
\
: Inductive load
20
a:::;
i\
I~~S~S~ive or
10
50
W
(!l(f)
a:W
:Ja:
(f)W
Oa.
2
BREAKDOWN VOLTAGE, VOLTS (VBR)
FIGURE 6 - MAXIMUM NON-REPETITIVE
SURGE CURRENT
1 1 1\
a:
I'
r.......
10'
<{
~
I
"
<{
x
-...,."
I,D
'"
I"-
U
------l-10 1000 Waveform
:':=tp---
o
-
,
>::
a.
_
--FI,e. 101 sec - a:~~:t ~~~~~ ~t~~r~ Idhe:I~:~k
to 50%
1"-- current ofdecays
IRSM
IDa
_
Peak Value
I
I
IRSM I
I
"-'\
l~'RSM I
Half Value --2 -~ ___
U
TYPICAL JUNCTION CAPACITANCE
-
~
10
...
8.3ms Single Half Sine-Wave
(JEDEC Method)
>::
200
<{
W
TL, LEAD TEMPERATURE (0 C)
a.
-581-
6810
20
40
NUMBER OF CYCLES AT 60Hz
60
100
P6KE SERIES
GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE
SUPPRESSOR
VOLTAGE- 6,B to 400 Volts
600 Watt Peak Power 5,0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-0
• Glass passivated junction in 00-15 package
• SOOW surge
""-",,_
capability at 1 ms
''''"'~
• Excellent clamping
.......
capability
....~_
• Low zener impedance
---.......
• Fast response time: typically less
than 1.0 ps from 0 volts to BV min.
• TypicallR less than 1 j.L A above 10V
• High temperature soldering guaranteed:
300'C/10 seconds/.375", (9.5mm) lead
length/5Ibs., (2.3 kg) tension
00-15
1
+
1.0
MIN.
+r·
.300 17.6)
•230 S)
1rO
MIN.
+1
,.0341.S6)
.028 1.711
I,
.14013.6)
.10412.6)
MECHANICAL DATA
125.4)
Case: Molded plastic over glass passivated
junction
Terminals: Axial leads, solderable per
MIL-ST-202, Method 208
Polarity: Color band denoted cathode except
Bipolar
Mounting Position: Any
Weight: 0.015 ounce, .4 gram
1
Dimensions in inches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types
PSKE7.5 thru types PSKE400
Electrical characteristics apply in both directions
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
RATING
Peak Power Dissipation at TA = 25'C, Tp = 1ms (Note 1)
Steady State Power Dissipation at TL ~ 75'C
Lead Lengths .375", (9.5mm) (Note 2)
Peak Forward Surge Current, 8.3ms Single Half
Sine-Wave Superimposed on Rated Load
(JEDEC Method) (Note 3)
Operating and Storage Temperature Range
SYMBOL
VALUE
UNI7S
Ppk
Minimum 600
Watts
PO
5.0
Watts
IFSM
TJ,TsTG
100
-65 to +175
Amps
'C
NOTES:
1. Non-repetitive current pulse, per Fig. 3 ~d derat~d above TA =25'C per Fig. 2.
2. Mounted on Copper Leaf area of 1.57 in (40mm l.
3. 8.3ms single half sine-wave, duty cycle = 4 pulses per Minutes maximum,
7S:
-582-
Breakdown Vol1IIge
VIR
Volts(No18l)
Device
MIN
P6KE6.8
P6KE6.8A
P6KE7.5
P6KE7.5A
P6KE8.2
P6KE8.2A
P6KE9.1
P6KE9.1A
P6KE10
P6KE10A
P6KE11
P6KE11A
P6KE12
P6KE12A
P6KE13
P6KE13A
P6KE15
P6KE15A
P6KE16
P6KE16A
P6KE18
P6KE18A
P6KE20
P6KE20A
P6KE22
P6KE22A
P6KE24
P6KE24A
P6KE27
P6KE27A
P6KE30
P6KE30A
P6KE33
P6KE33A
P6KE36
P6KE36A
P6KE39
P6KE39A
P6KE43
P6KE43A
P6KE47
P6KE47A
P6KE51
P6KE51A
P6KE56
P6KE56A
P6KE62
P6KE62A
P6KE68
P6KE68A
P6KE75
P6KE75A
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9.00
9.50
9.90
10.5
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18.0
19.0
19.8
20.9
21.6
22.8
24.3
25.7
27.0
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
40.9
42.3
44.7
45.9
48.5
50.4
53.2
55.8
58.9
61.2
64.6
67.5
71.3
:~)
MAX
7.48
7.14
8.25
7.88
9.02
8.61
10.0
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.5
15.8
17.6
16.8
19.8
18.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.8
42.9
41.0
47.3
45.2
51.7
49.4
56.1
53.6
61.6
58.8
68.2
65.1
74.8
71.4
82.5
78.8
10
10
10
10
10
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
WOIIIlng
Peek
R......
Voltage
V....
(Volts)
5.50
5.80
6.05
6.40
6.63
7.02
7.37
7.78
8.10
8.55
8.92
9.40
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
16.2
17.1
17.8
18.8
19.4
20.5
21.8
23.1
24.3
25.6
26.8
28.2
29.1
30.8
31.6
33.3
34.8
36.8
38.1
40.2
41.3
43.6
45.4
47.8
50.2
53.0
55.1
58.1
60.7
64.1
·583·
Maximum
Re.....
Leakage
Maximum
Rever..
CUrrent
.....
atV....
iR(JIA)
(Not. 2)
1000
1000
500
500
200
200
50
50
10
10
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
56
57
51
53
48
50
44
45
40
41
37
38
35
36
32
33
27
28
26
27
23
24
21
22
19
20
17
18
15
16
14
14.4
12.6
13.2
11.6
12.0
10.6
11.2
9.6
10.1
8.9
9.3
8.2
8.6
7.4
7.8
6.8
7.1
6.1
6.5
5.5
5.8
(Ampe)
Maximum
,"",xlmum Revers Temperatu...
VoItag••t ....
Coefficient
Clamping Voltage
01 ...
V.III(VOIts)
(%C)
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
17.3
16.7
19.0
18.2
22.0
21.2
23.5
22.5
26.5
25.2
29.1
27.7
31.9
30.6
34.7
33.2
39.1
37.5
43.5
41.4
47.7
45.7
52.0
49.9
56.4
53.9
61.9
59.3
67.8
64.8
73.5
70.1
80.5
77.0
89.0
85.0
98.0
92.0
108.0
103.0
0.057
0.057
0.061
0.061
0.065
0.065
0.068
0.068
0.073
0.073
0.075
0.075
0.078
0.078
0.061
0.081
0.084
0.084
0.086
0.086
0.088
0.088
0.090
0.090
0.092
0.092
0.094
0.094
0.096
0.096
0.097
0.097
0.098
0.098
0.099
0.099
0.100
0.100
0.101
0.101
0.101
0.101
0.102
0.102
0.103
0.103
0.104
0.104
0.104
0.104
0.105
0.105
•
Breakdown Volta 18
va.
Volts IN
Device
MIN
P6KE82
P6KE82A
P6KE91
P6KE91A
P6KE100
P6KE100A
P6KEll0
P6KEll0A
P6KE120
P6KE120A
P6KE130
P6KE130A
P6KE150
P6KE150A
P6KE160
P6KE160A
P6KE170
P6KE170A
P6KE180
P6KE180A
P6KE200
P6KE200A
P6KE220
P6KE220A
P6KE250
P6KE250A
P6KE300
P6KE300A
P6KE350
P6KE350A
P6KE400
P6KE400A
73.8
77.9
81.9
86.5
90.0
95.0
99.0
105.0
108.0
114.0
117.0
124.0
135.0
143.0
144.0
152.0
153.0
162.0
162.0
171.0
180.0
190.0
198.0
209.0
225.0
237.0
270.0
285.0
315.0
332.0
360.0
380.0
;:~
11
MAX
90.2
86.1
100.0
95.5
110.0
105.0
121.0
116.0
132.0
126.0
143.0
137.0
165.0
158.0
176.0
168.0
187.0
179.0
198.0
189.0
220.0
210.0
242.0
231.0
275.0
263.0
330.0
315.0
385.0
368.0
440.0
420.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Working
Peek
Re".,..
Voltage
V_
(Volta)
66.4
70.1
73.7
77.8
81.0
85.5
89.2
94.0
97.2
102.0
105.0
111.0
121.0
128.0
130.0
136.0
138.0
145.0
146.0
154.0
162.0
171.0
175.0
185.0
202.0
214.0
243.0
256.0
284.0
300.0
324.0
342.0
~axlmum
Mlxlmm
Revene
Re......
Leakage
etV.....
Io(pA)
(Note 2)
(Ampe)
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.1
5.3
4.5
4.8
4.2
4.4
3.8
4.0
3.5
3.6
3.2
3.3
2.8
2.9
2.6
2.7
2.5
2.6
2.3
2.4
2.1
2.2
1.75
1.83
1.67
1.75
1.4
1.45
1.2
1.25
1.05
1.1
CUrrent
10...
Maximum
Maximum Reverse Temperatu....
VoI1ageet !no
Coefficient
Clamping Voltage
alV..
V.... (Volta)
(%C)
NOTES:
1. VBR measured after IT applied for 300 lIS ' IT = Square WllNe Pulse or equivalent.
2. Surge Current Waveform per Figure 3 and Derated per Figue 2.
3. VF =3.S V at IF =50A (P6KE6.8thru P6KE91A)
VF =S.OV at IF =SOA (P6KE100 thru P6KE400A) on 1/2 Square or Equivalent Sine Wave
PW = 8.3 ms, Duty Cycle = 4 Pulses per Minute Maximum
4. For bipolar types moving VR of 10 volls and under, the IR limit is doubled.
·584·
118.0
113.0
131.8
125.0
144.0
137.0
158.0
152.0
173.0
165.0
187.0
179.0
215.0
207.0
230.0
219.0
244.0
234.0
258.0
246.0
287.0
274.0
344.0
328.0
360.0
344.0
430.0
414.0
504.0
482.0
574.0
548.0
0.105
0.105
0.106
0.106
0.106
0.106
0.107
0.107
0.107
0.107
0.107
0.107
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.110
0.110
0.110
0.110
0.110
0.110
0.110
0.110
RATINGS AND CHARACTERISTIC CURVES P6KE SERIES
,
FIGURE 2 FIGURE 1 -
PULSE RATING CURVE
100
100
I
~
u.
0>",Z
Zw
_0:
,,0:
,w",.!'orm.
,i;::'~~~~
10
0:
o0..
0..
'- ~
>-0:
~O
wo: 50
Ow
wO:
"'0
-'0..
W
"«w
""',,-
75
zOJ
-()
0:
~~
10
0..
1
s
10jJs
100M
s
1.0ms
10xl000 Waveform
as
a
1.0/J
"""I\..
r-
~o..
O.lM s
,
25
"w
ci:
0..
PULSE DERATING CURVE
a
rfinedtY A.E"j'
25
50
75
100
125
"f'150
175
200
TA AMBIENT TEMPERATURE 1°C)
lOms
tp, PULSE WIDTH
FIGURE 4 -
FIGURE 3 -
-
I TJ" 2.s·C I
~tr = 10/Jsec:--
I
Pulse Width (Ip) is defined
as that point where the peak
current decays to 50%
-
I("
'\
Z
W
0:
0:
IRSM
U.
OJ
0-
/
'\..
W
"
OJ
0..
!B.SM
2
z
«>-
"«
lax 1000 Waveform
as defined by REA
1---+-+-+++t-ttl~~I---';-;:'I::,::I~
11!;'t
11---1
"
Measured@
800
1000
600
0..
O==-tp
-
--L10
§111~~lzerOIBISIS~
~0..
400
200
«
()
t----
I'
1--+---1HH+Measu~ed @
Stand-Off
1--+--+--+-++ Voltage (VR)
.......
w
a
2000
()
50
~
I-----+---+-+-'I-H'W+---t---t- I I I II r -
W
Half Value -
()
4000
of IASM
Peak Value
100
>-
6000~::~~~~~~~==~=t~~~~r=::~
ITJ "25'C -----J
PULSE WAVEFORM
I
TYPICAL JUNCTION CAPACITANCE
'--
............
...1-'3.0 _'--- 4.0
2.0
1
00mllDm
80
60
40
T, TIME (ms)
I'
10
10
(j)
>>-
«
3.75
1 1\
I\,
~. \
'"is
2.5
0:
0
.
40mm x 40mm x lmm. CU
(1.58" x 1.58" x .040")
0..
W
>-
«>-
'">0
«w
>-
'"ci
0..
FIGURE 6 -
I
20
100
L-
00
MAXIMUM NON-REPETITIVE
SURGE CURRENT
200
I '" .375" (9.5mm)'"
0..
en
w
-
REVERSE VOLTAGE, VOLTS (VBA)
I I 1\
z
0
0:
...L....J-...uu.; 10
5.0
~
«>=
-
FIGURE 5 - STEADY STATE POWER DERATING
1.25
SING1LE
"UJ
I\,
60Hz
RESISTIVE OR
INOUCTIVE LOAD
"0'
TL,
0:::;
I
50 -
75
100 -'25
100
8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD
....
•
00..
««
"\.
PHlsE
HALF WAVE
~
w
o:w
OJ 0:
",w
150
L~AD TEMPERATURE (OC)
50
......
0:"':
"
175
O:Z
OW
u.0:
,,0:
«OJ
w()
0..
200
10
1
5
10
- ' - - " - 50
100
NUMBER OF CYCLES AT 60Hz
INsr~
-585-
1.5KE SERIES
GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE
SUPPRESSOR
VOLTAGE· 6.8 to 400 Volts
1500 Watt Peak Power 5.0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability ClassHicatlon 94V-O
• Glass passivated junction in Molded Plastic
package
"""-" __ _
~........
• 1S00W surge
capability at 1 ms
"""",,",
• Excellent c~amping capability'''''"
• Low zener Impedance
",
• Fast response time: typically less
than 1.0 ps from 0 voHs to BV min.
• TypicallR less than 1 J.I. A above 10V
• High temperature soldering guaranteed:
300"C/10 secondsl.37S", (9.Smm) lead
length/Sibs., (2.3 kg) tension
DO-201
1
.210 (5.3)
.188 (4.8)
DIA.
r
1.0 (25.4)
LI
1+
t
.375 (9.5)
~
1.0 (25.4)
.042 (1.07), +.
.37 (.94)
MECHANICAL DATA
T
Case: Molded plastiC overglass paSSivated
junction
Terminals: Axial leads, solderable per
MIL-STD-202, Method 208
Polarity: Color band denoted cathode except
Bipolar
Mounting Position: Any
Weight: 0.045 ounce, 1.2 grams
Dimensions in inches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICA T/ONS
For Bidirectional use C or CA Suffix for types
1.SKE7.S thru types 1.SKE400
Electrical characteristics apply in both directions
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'C ambient temperature unless olherwise specified.
RATING
Peak Power Dissipation at TA = 25'C, Tp = lms (Note 1)
Steady State Power Dissipation at TL - 75'C
Lead Lengths .375", (9.5mm) (Note 2)
Peak Forward Surge Current. 8.3ms Single Half
Sine-Wave Superimposed on Rated Load
(JEOEC Method) (Note 3)
Operating and Storage Temperature Range
SYMBOL
VALUE
UNITS
Ppk
Minimum 1500
Watts
PO
5.0
Watts
IFSM
TJ.TsTG
200
-65 to +175
Amps
'C
NOTES:
1. Non-repetitive current pulse, per Fig. 3 and derated above TA = 25'C per Fig. 2.
2. Mounted on Copper Leaf area of 0.79 in2 (20mm2).
3. 8.3ms single half sine-wave, duty cycle =4 pulses per Minutes maximum
JEDEC
TYPE
NUMBER
lN6267
lN6267A
lN6268
lN6268A
lN6269
lN6269A
lN6270
lN6270A
lN6271
1N6271 A
lN6272
lN6272A
lN6273
lN6273A
lN6274
lN6274A
lN6275
lN6275A
lN6276
lN6276A
lN6277
lN6277A
lN6278
lN6278A
lN6279
lN6279A
lN6280
lN6280A
lN6281
lN6281A
lN6282
lN6282A
lN6283
lN6283A
lN6284
lN6284A
lN6285
1N6285A
lN6286
lN6286A
lN6287
lN6287A
lN6288
lN6288A
lN6289
lN6289A
lN6290
lN6290A
lN6291
1N6291 A
lN6292
lN6292A
lN6293
lN6293A
lN6294
GENERAL
PAIlI'
NUMBER
1.5KE6.8
1.5KE6.8A
1.5KE7.5
1.5KE7.5A
1.5KE8.2
1.5KE8.2A
1.5KE9.1
1.5KE9.1A
1.5KE10
1.5KE10A
1.5KEll
1.5KEllA
1.5KE12
1.5KEl2A
1.5KE13
1.5KE13A
1.5KE15
1.5KE15A
1.5KE16
1.5KE16A
1.5KE18
1.5KE18A
1.5KE20
1.5KE20A
1.5KE22
1.5KE22A
1.5KE24
1.5KE24A
1.5KE27
1.5KE27A
1.5KE30
1.5KE30A
1.5KE33
1.5KE33A
1.5KE36
1.5KE36A
1.5KE39
1.5KE39A
1.5KE43
1.5KE43A
1.5KE47
1.5KE47A
1.5KE51
1.5KE51A
1.5KE56
1.5KE56A
1.5KE62
1.5KE62A
1.5KE68
1.5KE68A
1.5KE75
1.5KE75A
1.5KE82
1.5KE82A
1.5KE91
Bllllkdown YolIIgo'
V.
IVofttl
Min
6.12
6.45
6.75
7.13
7.38
7.79
8.19
8.65
9.00
9.50
9.90
10.5
10.8
11.4
11.7
12.4
13.5
14.3
14.4
15.2
16.2
17.1
18.0
19.0
19.8
20.9
21.6
22.8
24.3
25.7
27.0
28.5
29.7
31.4
32.4
34.2
35.1
37.1
38.7
40.9
42.3
44.7
45.9
48.5
50.4
53.2
55.8
58.9
61.2
64.6
67.5
71.3
73.8
77.9
81.9
@IT
/Notoll
Mu
(mAj
7.48
7.14
8.25
7.88
9.02
8.0
10.0
9.55
11.0
10.5
12.1
11.6
13.2
12.6
14.3
13.7
16.5
15.8
17.6
16.8
19.8
18.9
22.0
21.0
24.2
23.1
26.4
25.2
29.7
28.4
33.0
31.5
36.3
34.7
39.6
37.8
42.9
41.0
47.3
45.2
51.7
49.4
56.1
53.6
61.8
58.8
68.2
65.1
74.8
71.4
82.5
78.8
90.2
86.1
100.0
10
10
10
10
10
10
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
"'.!mum
WorldngPlIk
Mu!mum
Mulmum
".,,,,.. Burg. MulmumRe_o
ReVl,.. VoIIIgl RevenolHk"ll CUllOnll... Voft"ltlll...
Temperature
(N0t02)
(Cllmplng Yo .... ~~lclnllolV.
ltV....
v.....
V_(VaJIo)
CjV_(Voftt)
(VOftt)
.. (JIA)
(Ampe)
5.50
5.80
6.05
6.40
6.63
7.02
7.37
7.78
8.10
8.55
8.92
9.40
9.72
10.2
10.5
11.1
12.1
12.8
12.9
13.6
14.5
15.3
16.2
17.1
17.8
18.8
19.4
20.5
21.8
23.1
24.3
25.6
26.8
28.2
29.1
30.8
31.6
33.3
34.8
36.8
36.1
40.2
41.3
43.6
45.4
47.8
50.2
53.0
55.1
58.1
60.7
64.1
66.4
70.1
73.7
-587-
1000
1000
500
500
200
200
50
50
10
10
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
139
143
128
132
120
124
109
112
100
103
93.0
96.0
87.0
90.0
79.0
82.0
68.0
71.0
64.0
67.0
56.5
59.5
51.5
54.0
47.0
49.0
43.0
45.0
38.5
40.0
34.5
36.0
31.5
33.0
29.0
30.0
26.5
28.0
24.0
25.3
22.2
23.2
20.4
21.4
18.6
19.5
16.9
17.7
15.3
16.3
13.9
14.6
12.7
13.3
11.4
10.8
10.5
11.7
11.3
12.5
12.1
13.8
13.4
15.0
14.5
16.2
15.6
17.3
16.7
19.0
18.2
22.0
21.2
23.5
22.5
26.5
26.2
29.1
27.7
31.9
30.6
34.7
33.2
39.1
37.5
43.5
41.4
47.7
45.7
52.0
49.9
56.4
53.9
61.9
59.3
67.8
64.8
73.5
70.1
80.5
77.0
89.0
85.0
98.0
92.0
108.9
103.9
118.0
113.0
131.0
0.057
0.057
0.061
0.061
0.065
0.065
0.068
0.068
0.073
0.073
0.075
0.075
0.076
0.078
0.081
0.061
0.084
0.084
0.066
0.066
0.068
0.089
0.090
0.090
0.092
0.092
0.094
0.094
0.096
0.096
0.097
0.097
0.098
0.098
0.099
0.099
0.100
0.100
0.101
0.101
0.101
0.101
0.102
0.102
0.103
0.103
0.104
0.104
0.104
0.104
0.105
0.105
0.105
0.105
0.106
•
JEDEC
TYPE
NUMBER
1N6294A
1N6295
1N6295A
1N6296
1N6296A
1N6297
1N6297A
1N6298
1N6298A
1N6299
1N6299A
1N6300
1N6300A
1N6301
1N6301A
1N6302
1N6302A
1N6303
1N6303A
GENERAL
PART
NUMBER
1.5KE91A
1.5KE100
1.5KE100A
1.5KE110
1.5KE11OA
1.5KE120
1.5KE120A
1.5KE130
1.5KE130A
1.5KE150
1.5KE150A
1.5KE160
1.5KE160A
1.5KE170
1.5KE170A
1.5KE180
1.5KE180A
1.5KE200
1.5KE200A*
1.5KE220
1.5KE220A*
1.5KE250
1.5KE250A
1.5KE300
1.5KE300A
1.5KE350
1.5KE350A
1.5KE400
1.5KE400A
B..akdown Voltago'
V..
I(Vofts)
(Not. 1)
Min
MIX
86.5
90.0
95.0
99.0
106.0
108.0
114.0
117.0
124.0
136.0
143.0
144.0
152.0
153.0
162.0
162.0
171.0
180.0
190.0
196.0
209.0
225.0
237.0
270.0
285.0
315.0
333.0
360.0
380.0
95.5
110.0
105.0
121.0
116.0
132.0
126.0
143.0
137.0
165.0
158.0
176.0
168.0
167.0
179.0
198.0
189.0
220.0
210.0
242.0
231.0
275.0
263.0
330.0
315.0
385.0
368.0
440.0
420.0
@IT
(mA)
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Maximum
WorkingPoak
Maximum
Ro ..... Surg. MaxlmumRo.....
Maximum
Rove... Voltogo Rove,.. Loaksg. Cur..ntl.... Voftog8ltl...
Temperature
V_
otVRWII
(NotI2)
Cltmplng Voltago) Coefflclnet of V..
(Vofts)
(Amps)
V... (Volts)
(%I"C)V... (Vofts)
1R(p.A)
77.8
81.0
85.5
89.2
94.0
97.2
102.0
106.0
111.0
121.0
128.0
130.0
136.0
138.0
145.0
146.0
154.0
162.0
171.0
175.0
185.0
202.0
214.0
243.0
256.0
284.0
300.0
324.0
342.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
12.0
10.4
11.0
9.5
9.9
8.7
9.1
8.0
8.4
7.0
7.2
6.5
6.8
6.2
6.4
5.8
6.1
5.2
5.5
4.3
4.6
5.0
5.0
5.0
5.0
4.0
4.0
4.0
4.0
NOTES:
1. VSR measured after IT applied for 300 lIS ' IT = Square Wave Pulse or equivalent.
2. Surge Current Waveform per Figure 3 and Derated per Figue 2.
3. VF = 3.5 V max., IF = 100A ( 1.5KE 6.8 thru 1.5KE91 A)
VF = 5.0 V max., IF 100A (1.5KE100 thru 1.5KE400A) per 1/2 Square or Equivalent Sine Wave
PW = 8.3 ms, Duty Cycle = 4 Pulses per Minute Maximum
• Bidirectional versions are UL approved
-588-
125.0
144.0
137.0
158.0
152.0
173.0
165.0
187.0
179.0
215.0
207.0
230.0
219.0
244.0
234.0
258.0
246.0
287.0
274.0
344.0
328.0
360.0
344.0
430.0
414.0
504.0
482.0
574.0
548.0
0;106
0.106
0.106
0.107
0.107
0.107
0.107
0.107
0.107
0.108
0.106
0.106
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.110
0.110
0.110
0.110
0.110
0.110
0.110
0.110
RATINGS AND CHARACTERISTIC CURVES 1.SKE SERIES
FIGURE 1 -
FIGURE 2 - PULSE DERATING CURVE
PULSE RATING CURVE
100
"").-~~
TA
i\..
"Of-
Non Repetitive
Pulse Waveform
shown In Figure 3
cJ?z
Zw
~a:
25°C
1\.
75
"
"a:
z::O
~O
'0 _
_
"
f-a:
;20
Wa:
50
OW
w5:
ifJO
-'a:
'0 _
6'",
_
"'~
«"
w
"
o1.lliH_ _tlt:tmm~
01""
10;.;5
10IJS
10ms
100u$
25
~
"J'II.
"."
1Ox 1000 Waveform
as defined by REA
25
lOr'15
50
75
100
125
150
175
TA AMBIENT TEMPERATURE (0C)
tp PULSE WIDTH
FIGURE 4 -
200
TYPICAL JUNCTION CAPACITANCE
20,000
FIGURE 3 -
I
J
"
PULSE WAVEFORM
1-0-';
10IJtec _
to.OOO
25 C
TJ
Pulsp Width
r-il.sthil.t
IS
-
to 50"0
0
~peakvalue
':)n
fZ
W
a:
6000
defined the peak-
of IRSM
"' r-.
4000
IRSM
\.
2000
~
0
"-
W
~
"'
:; ~)
:0
a:
""'"
"
r~
--
1000
IRSfvl
Half Value
I.......
2
w
U
30
Measured@ Stand-Off
Voltage (VA)
200
'"
a:
~
2()
400
>:::
~s de~ned b.JR E.A
~tP
10
z
«
tOxl000 Waveform
.......
W
l-
800
600
o
.....
Measured @
Zero Bias
.~
'\
a:
,
'"
V~
U
40
100
80
T TIME (ms)
6a
a
en
ff-
FIGURE 5 50
""~
o
o
25
5:
o
~
VJ
>-
o
'"fW
VJ
"
a:
125
l\
\
W
"tI)
~
HALF WAVE
60Hz
RESISTIVE OR
INDUCTIVE LOAD
50
75
100
a:w
::0 a:
tl)W
~
SINGLE PHASE
25
20
100
200
MAXIMUM NON-REPETITIVE
SURGE CURRENT
200
I
W
10
FIGURE 6 -
20mm x 20mm x lmm Co
08" x 040
"
~
f-
I
REVERSE VOLTAGE, VOLTS (VaR)
I = 375" (9Smm)
VJ
VJ
w
a
"I'
10
~
375
"""
a:
l
~
Z
f=
a
STEADY STATE POWER DERATING
125
100
........... ......
....
8.3ms SINGLE HALO SINE·WAVE
JEDEC METHOD
•
0"
a::2
~
~
150
175
«'"
o:z
5:':
Ow
"-0:
",a:
«::1
wU
"
20
TL, LEAD TEMPERATURE (0C)
10
10
NUMBER OF CYCLES AT 60Hz
-589-
100
5KP SERIES
GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE
SUPPRESSOR
VOLTAGE- 5.0 to 110 Volts
5000 Watt Peak Power 5.0 Watt Steady State
FEATURES
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-O
• Exceeds environmental standards MIL·STD"19500
• Glass passivated junction in Molded Plastic package
• 5000W surge
''''"",,,
capabilityat1ms
""~"""'.
• Excellent clamping
,
capability
" """
• Low zener impedance
"',
• Fast response time: typically less
than 1.0 ps from 0 volts to BV min.
• Typical IR less than 1 11 A above 10V
• High temperature soldering guaranteed:
300'C/10 seconds/.375", (9.5mm) lead
length/5Ibs., (2.3 kg) tension
P600
1
Y
.360(9.1)
~
1.0 HIN.
[25.4)
MECHANICAL DATA
I
case: Molded plastic over glass passivated
junction
Terminals: Axial leads, solderable f78r
MIL-STD-202, Method 208
Polarity: Color band denoted cathode except
Bipolar
Mounting Position: Any
Weight: 0.007 ounce, 2.1 gram
Dimensions in innches
and
(millimeters)
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types
5KP5.0 thru types 5KP11 O.
Electrical characteristics apply in both directions.
MAXIMUM RATINGS AND CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
RATING
Peak Power Dissipation at TA = 25'C, Tp -1ms (Note 1)
Steady State Power Dissipation at TL = 75'C
Lead Lengths .375", (9.5mm) (Note 2)
Peak Forward Surge Current, 8.3ms Single Half
Sine-Wave Superimposed on Rated Load
(JEDEC Method) (Note 3)
Operating and Storage Temperature Range
SYMBOL
VALUE
UNITS
Ppk
Minimum 5000
Watts
PO
5.0
Watts
IFSM
TJ,TsTG
400
-55, to +175
Amps
'C
NOTES: 1. Non-repetitive current pulse, pel Fig. 3 and derated above TA = 25'C per Fig. 2.
2. Mounted on Copper leaf area of 0.79 in (20mm2).
3. 8.3ms single half sine-wave, duty cycle = 4 pulses per Minutes maximum
ELECTRICAL CHARACTERISTICS (ta=25"Cunlessotherwlssnoted)
Breakdown Voltage
V..
Volta (Nolt I)
Device
5KP5.0
5KP5.0A
5KP6.0
5KP6.0A
5KP6.5
5KP6.5A
5KP7.0
5KP7.0A
5KP7.5
5KP7.5A
5KP8.0
5KP8.0A
5KP8.5
5KP8.5A
5KP9.0
5KP9.0A
5KP10
5KP10A
5KPll
5KPllA
5KP12
5KP12A
5KP13
5KP13A
5KP14
5KP14A
5KP15
5KP15A
5KP16
5KP16A
5KP17
5KP17A
5KP18
5KP18A
5KP20
5KP20A
5KP22
5KP22A
5KP24
5KP24A
5KP26
5KP26A
5KP28
5KP28A
5KP30
5KP3OA
5KP33
5KP33A
5KP36
5KP36A
5KP40
MIN
6.40
6.40
6.67
6.67
7.22
7.22
7.78
7.78
8.33
8.33
8.89
8.89
9.44
9.44
10.0
10.0
11.1
11.1
12.2
12.2
13.3
13.3
14.4
14.4
15.6
15.6
16.7
16.7
17.8
17.8
18.9
18.9
20.0
20.0
22.2
22.2
24.4
24.4
26.7
26.7
28.9
28.9
31.1
31.1
33.3
33.3
36.7
36.7
40.0
40.0
44.4
WorkIng
Peak
@IT
R_
(mA)
Voltage
V"""
(Volts)
MAX
7.30
7.00
8.15
7.37
8.82
7.98
9.51
8.60
10.2
9.21
10.9
9.83
11.5
10.4
12.2
11.1
13.6
12.3
14.9
13.5
16.3
14.7
17.6
15.9
19.1
17.2
20.4
18.5
21.8
19.7
23.1
20.9
24.4
22.1
27.1
24.5
29.8
26.9
32.6
29.5
35.3
31.9
38.0
34.4
40.7
36.8
44.9
40.6
48.9
44.2
54.3
50
50
50
50
50
50
50
50
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0,
5.0
5.0
5.0
5.0
5.0
5.0
5.0
6.0
6.0
6.5
6.5
7.0
7.0
7.5
7.5
8.0
8.0
8.5
8.5
9.0
9.0
10.0
10.0
11.0
11.0
12.0
12.0
13.0
13.0
14.0
14.0
15.0
15.0
16.0
16.0
17.0
17.0
18.0
18.0
20.0
20.0
22.0
22.0
24.0
24.0
26.0
26.0
28.0
28.0
30.0
30.0
33.0
33.0
36.0
36.0
40.0
-591-
Maxbnm
MaxImum
Ro.....
Leaklge
II V.....
InblA)
2000
2000
5000
5000
2000
2000
1000
1000
250
250
150
150
50
50
20
20
15
15
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
Rov.,••
CutreIIl
"'...
(Nolt 2)
(Ampe)
520
543
439
485
407
447
378
417
350
388
333
367
314
347
295
325
266
294
249
274
227
251
210
232
194
215
188
206
176
176
164
161
155
172
139
154
127
141
116
128
107
119
99
110
93
103
85
94
78
85
70
MaxImum
Maxbnum Rovoru Temporaluur.
Voltage al ,..
CoeffIcient
(Clamping Voltaga
01 V••
(%C)
V.su(Volta)
9.6
9.2
11.4
10.3
12.3
11.2
13.3
12.0
14.3
12.9
15.0
13.6
15.9
14.4
16.9
15.4
18.8
17.0
20.1
18.2
22.0
19.9
23.8
21.5
25.8
23.2
26.9
24.4
28.8
26.0
30.5
27.6
32.2
29.2
35.8
32.4
39.4
35.5
43.0
38.9
46.6
42.1
50.1
45.4
53.5
48.4
59.0
53.3
64.3
58.1
71.4
0.057
0.057
0.061
0.061
0.065
0.065
0.068
0.068
0.073
0.073
0.075
0.075
0.078
0.078
0.081
0.081
0.084
0.084
0.086
0.086
0.088
0.088
0.090
0.090
0.092
0.092
0.094
0.094
0.096
0.096
0.097
0.097
0.098
0.098
0.099
0.099
0.100
0.100
0.101
0.101
0.101
0.101
0.102
0.102
0.103
0.103
0.104
0.104
0.104
0.104
0.105
•
=
ELECTRICAL CHARACTERISTICS (ta 2S·C unless otherwise noted)
Breakdown Voltage
V..
VoHs (Noto 1)
Device
5KP4OA
5KP43
5KP43A
5KP45
5KP45A
5KP48
5KP48A
5KP51
5KP51A
5KP54
5KP54A
5KP58
5KP58A
5KP60
5KP60A
5KP64
5KP64A
5KP70
5KP70A
5KP75
5KP75A
5KP78
5KP78A
5KP85
5KP85A
5KP90
5KP90A
5KP100
5KP100A
5KP110
5KP11OA
MIN
44.4
47.8
47.8
50.0
50.0
53.3
53.3
56.7
56.7
60.0
60.0
64.4
64.4
66.7
66.7
71.1
71.1
77.6
77.8
83.3
83.3
86.7
86.7
94.9
94.4
100
100
111
111
122
122
@IT
(mA)
Working
Peak
Reverse
Voltage
V.....
(VoHs)
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
40.0
43.0
43.0
45.0
45.0
48.0
48.0
51.0
51.0
54.0
54.0
58.0
58.0
60.0
60.0
64.0
64.0
70.0
70.0
75.0
75.0
78.0
78.0
85.0
85.0
90.0
90.0
100.0
100.0
110.0
110.0
MAX
49.1
58.4
52.8
61.1
55.3
65.2
58.9
69.3
62.7
73.3
66.3
78.7
71.2
81.5
73.7
96.9
78.6
95.1
86.0
102.0
92.1
106.0
95.8
115.0
104.0
122.0
111.0
136.0
123.0
149.0
135.0
Maximum
Reverse
Leakage
atVRWM
,"(IlA)
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
Maxlmm
Reverse
Current
I,,,,
(Note 2)
(Amps)
78
65
72
62
69
58
65
55
61
52
57
49
53
47
52
44
49
40
44
37
41
36
40
33
36
31
34
28
31
26
28
NOTES:
1. VSR measured after IT applied for 300 ms. IT = Square Wave Pulse or equivalent.
2. Surge Current waveform per Figure 3 and Derate per Figure 2.
3. Vf = 3.5 Volts max IF = 100A for ali types on 1/2 square or Equivalent Sine Wave.
PW = 8.3ms. Duty Cycle = 4 Pulse per Minute maximum.
4. For bipolar types with VR 10 Volts and under, the IR limit is doubled.
-592-
Maximum
Maximum Reverse Temperatuure
Voltageatt".,
Coefficient
(Clemplng Voltage
01 VB.
V,.. (VoHs)
(%C)
64.5
76.7
69.4
80.3
72.7
85.5
77.4
91.1
82.4
96.3
87.1
103.0
93.6
107.0
96.8
114.0
103.0
125.0
113.0
134.0
121.0
139.0
126.0
151.0
137.0
160.0
146.0
179.0
162.0
196.0
177.0
0.105
0.105
0.105
0.106
0.106
0.106
0.106
0.107
0.107
0.107
0.107
0.107
0.107
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.108
0.110
0.110
0.110
0.110
0.110
0.112
0.112
RATINGS AND CHARACTERISTIC CURVES 5KP SERIES
FIGURE 2 FIGURE 1 -
100 ~
100
f
Non-Repetitive
Pulse Waveform
shown in Figure 3
250C
TA
"-
o£> Z
Zw
_0:
"-
."\
75
ClO:
z::O
_0
10
~~
UJ
;:
wo: 50
Ow
w;:
(/)0
--',,-
0
"-
W
r\.
Of-
0:
..'"
PULSE DERATING CURVE
PULSE RATING CURVE
1.0
~'"
",,"
"ci
i:5~
"-
"'"
'\
25
""
lOx 1000 Waveform
as defined by R.E A
"-
"
0.1
O.111S
1.0Jl.S
tOIlS
1._
100!1S
25
tOms
tp. PULSE WIDTH
FIGURE 4 -
50
75
100 125
150
175
TA AMBIENT TEMPERATURE ("C)
200
TYPICAL JUNCTION CAPACITANCE
100,000
PULSE WAVEFORM
FIGURE 3 -
I
,
I\:,
f-
Z
W
0:
0:
::0
TJ
IO"L,- r--
[_'1,1
P('"k
o
w
.'"
"-
"- 1"'0..
w
"-
ui
..
0
Z
2
-
10 x 1000 Waveform as defmed by R EA _
I
r--'P
"a.
IR~t'-1
I
.,.....,
I
I
.
10,000
8000
4000
-
.,
0
"-
'",
"0
Zero Bias
"-
MeAsured {h~
Stand-Off
Voltage (VA)
2000
lM~a~Ured (oJ
V.
.A
-
f-
~
20
II
20.000
I
I
/~~lfVillllr
"-
::0
I
I
2S"C
I I
40,000
101 IRS!
Vah"~
IHSM
'3
TJ
25 C
Pulse Width (Ip) IS defmed
as Ihilt pomt where the peak
current decays to 50 D,0
\
1000
3D
40
BOD
BOD
T. TIME Ims)
400
FIGURE 5 -
Ui
. ff-
~
375
!." 375"
0:
w
25
o
.
W
I-
I
125
,.
o
BH)
Pdt= Pdf
0.01 0
10
20
vons
30
40
(1)
+ Pdr
(2)
Pdf =IfXVf
F/gure2
Voltage versus die areal9akage barrier
heitght - 0.64 volts
Pdr=IrxVr
(3)
(4)
D = duty cycle forward conduction
These curves may be used in two ways.
If the die size, barrier height, temperature
and forward current (If) are known, VI can
be graphically calculated. Using the
leakage curves, and knowing the reverse
voltage (Vr) to which the device will be
subjected, it is possible to find the
leakage current. Conversely, if the circuit parameters are set, th~ curves will
provide the die size in Alcm equations,
making it possible to analytically select
either a low- or high-barrier-height rectifier for maximum circuit efficiency.
Most Schottky rectifiers are used in
switch mode power supplies.
I-D = duty cycle reverse blocking
If =forward current
Ir= reverse current
Pdf = power dissipation inforward
Pdr = power dissipation in reverse
Pdt
= total power dissipation
Vf = forward voltage drop
Vr = reverse voltage
To select a Schottky rectifier that yields
maximum efficiency, it is necessary to
determine the "duty cycle equilibrium
point," or the duty cycle point at which both
a low- and high-barrier-height part will disSipate precisely the same amount of
power:
cI>
BL = low barrier height
cI> BH
-601-
= high barrier height
I
The following Is an example of the use
of this equation:
Given the need for a 30-volt Schottky
capable of operating at 10 amperes, the
choice is between a SBl1 040 ( .Bl =
0.64) or a MBR1045 (.BH. 0.71). These
two devices were chosen for convenience
in this example fecause of their equal die
size (O.0477cm active area).
The equilibrium point must be calculated
for 75'C, 100'C and 125' C. For
demonstration purposes, only the 75'C
equilibrium po.int will be calculated in
detail; the other two points are calculated
in the same manner. The reverse leakage
(Ir) and forward voltage drop (VI) are
derived from Graphs 1 through 4 using
the temperature, die size and. B given
above.
For the 1Ow-ba"/er-helght SBL 1040:
FlgUN4
DieanNlcun.nt
versus (olWarrl voltage drop barrier
height - 0.64
150
high barrier height
Pdr=Vrx/r=watts
(4)
30 Vx (l.9x 10' 3 A) = 0.057 W
Pdr =If" Vf =watts
(3) (3)
10 Ax 0.46 V = 4.6 W
low barrier height
50
For"'" h/gh-bllrrler-helght MBR1045:
=
~O~~I~O~~~~~~~~~~50~~50
=
Vr x Ir watts
(4)--30
Vx (1.43 x 10'" A) = 4.29 x 10,3 W
Pdf =1/xV/=watts
(3)
10A x 0.565 V=5.65 W
Solving (or the equilibrium point at 75' c:
Pdr
LOW BARRIER
HIGH BARRIER
(D x Pdf+BL) + [(I-D) x Pd,.BW
=
(D x P df+BH) + [(1-D)Xd,.BH]
(Dx·4.6 W) + [(I-D) 0.057W] =
(Dx5.65W) + {(1-D)0.00429W]
0.05271 = 1.1027 D
D = 0.0478
D% =0.0478 x 100
duty cycle equilibrium point, D = 4.78%
Switching loss Is assumed to be equal on
both sides of the equation and thus is
ignored. This procedure. is then repeated
for 100'C and 125 ·C. After calculating
the equilibrium point for 100 'C and 125'
C, the results are:
TEMP
7.5'C
100'C
125 • C
DUTY CYCLE
EQUIBRIUM
POINT %
4.78%
15.93%
52.42%
Duty cyc/s equilibrium point
MBR1045 versus
SBL1040
Percentage of Duty Cycle
rier-height part exhibits lower reverse
power loss and at a low duty cycle more
time is spent in the reverse mode.
With the duty cycle higher than the equilibrium point, the part spends a larger percentage of time in the forward mode, and
the low-barrier-height type part has a
lower Vf and the forward power losses are
reduced.
With knowledge of the application, including expected duty cycle and temperature,
it is possible to choose t~e most efficient
Schottky barrier rectifier, constructing a
graph similar to Figure 1.
It is thus easy to graph the duty cycle
versus temperature, as in Figure 5, and by
knowing the application (expected duty
cycle and temperature), make the intelligent choice of the most efficient Schottky
rectifier for the application in question.
The results of these calculations are
graphed in Figure 5.To the left of the equilibrium curve, the high-barrier-height
This analysiS technique enables the
design engineer to make an efficient and
cost-effective choice of Schottky rectifier
in duty-cycle-based systems. In addition,
light has hopefully been shed on the difference in design philosophies between
the low- and high- .B style of Schottky
rectifiers.
MBR1045 is most efficient; to the right of
the equilibrium curve, the low-barrierheight SBl1 040 is more efficient. This is
easy to understand because the high-bar
-602-
SELECTING THE OPTIMUM
VOLTAGE TRANSIENT SUPPRESSOR
Although the published data for several transient suppressors may appear
similar enough fa makeihe devices seem Interchangeable. careful analysis can
rule out nearly ldenllcal parts whose use could prove disastrous.
Jon R. Schleisner, Senior Mar#ceting Engineer
Generallnstrument, Power Semiconductor
Division
Hicksville, New Yor#c
• Maximum reverse surge current
(IRSM ), the maximum current that the suppressor is guaranteed to withstand without
incurring damage. This parameter Is
usually characterized with a 1-mlllisecond
exponential waveform.
Transient voltage suppressors (TVS) are
speCialized zener diodes intended to
clamp the voltage appearing across a line,
thereby preventing transient spikes from
damaging sensitive components. They
accomplish this conducting when the voltage across the line exceeds the zeneravalanche rating. Because transient
voltages can be quite high, suppressors
must be able to handle large avalanche
currents. This means that care must be
taken in the construction of the package
and assembly process to ensure that the
suppressor can tolerate high energy
levels for short periods.
• Maximum r )verse voltage (VRSM),
also called the maximum clamping voltage, the maximum voltage that can appear across the suppressor '!Ihen ~he
maximum rated surge current IS floWing
through it.
• Maximum breakdown-voltage tempersture coefficient (%VSR I • C),
the maximum allowable change in the
breakdown voltage as a function of the
temperature.
Design Criteria
The best way to demonstrate the selection
process is through a hypothetical example. In this example, the device to be
protected is an integrated Circuit, lex ,
which Is designed to operate on a nominal
rail voltage of 15 volts, and which has an
absolute maximum voltage rating of 22
volts. The first step in the selection
process is to determine the energy
(joules) or power (watts) contained in the
surge against which the device is to be
protected, and the duration of that surge .
Typical transient voltage suppressors
carry peak ratings of 400, 600, 1500 or
5000 watts. These wattages translate to
0.55,0.80,2.10 or 7.00 joules of energy
during a 1-millisecond period. Avalanche
ratings generally range from a few volts to
several hundred volts. Key operating
parameters include:
• Breakdown voltage (VSR), the voltage
at which a given device breaks down in its
avalanche mode. This voltage is usually
characterized at a test current (I I ) of 1
milliamp and is often specified as a range
with minimum (VBR min) and maximum
(VBR max) voltages listed.
• Working peak reverse voltage (VRWM),
the voltage at which the device's
leakage current is measured. This voltage is always at least 10 percent lower
than the mimimum breakdown voltage.
Suppressors with a breakdown-voltage
rating of less than 10 volts can exhibit
leakage currents as high as 1 milliamp, but
suppressors with higher breakdown
ratings typically exhibit leakage currents
of 5 microamps or less.
-603-
TranSients are by definition nonrepetitive,
with energy levels that are difficult to ascertain. Moreover, they generally result
from an unexpected failure elsewhere in
the system or from natural phenomenon
such as lightning. Because of this, determining energy content and duration of the
surge Is the most difficult step in the transient-suppressor selection process.
Some surges, however, are predictable.
The surge produced by a solenoid driver
is a good example. If the inductance of the
coil is known and the load on the solenoid
is c:iefined, it is possible to calculate or
measure the duration and magnitude of
the surge. Whenever possible, a "hands
I
fluctuations, the minimum breakdown voHage would have to be based on
the lowest expected temperature. The
resuHing voHage would determined by
muHiplying the difference between the expected temperature and room temperature by the temperature coefficient.
t
i~~----~------------
~
.......
K_
I.. e-'" ....
1.4
~,
I..
1.0
tsJ:,
I.. (IIy)
0.5
~.
I",lin (wt) e- W
o.
(JW
I.. lin ([....J t)
0.637
w_ _
~
OL-----·O~.5----'n~me=,~m=MC~--1
FIgure 1
Wavefcmn of an exponential -decay transient pulse
with a peak curfBnt and a O.5-millisecond pulse
width at the half-peak-current point
on" measurement of the worst-case transient condition should be made. For the
sake of discussion, assume that the transient being presented to lex has a peak
current of 20 amps with a classic exponential decay, as shown in Figure 1, and a
duration of 0.5 milliseconds, measured at
50 percent of the peak current.
With this data in hand, the next step is to
examine manufacturer's data sheets to
find a transient suppressor able to handle
the anticipated surge. The breakdown
voltage and maximum reverse surge current ratings published in the data sheets
are key selection criteria. Since Ie x has
a nominal 15-voH operating voHage, the
minimum breakdown voltage must be
greater than 15 volts. However, since it
carries a 22-volt absolute maximum voHage rating, the suppressor's maximum
breakdown voHage must be less than 22
volts. The foregoing assumes a relatively
stable ambient temperature, such as that
usually experienced in an office environment. If the product in which lex is used
is expected to see wider temperature
J
Energy = h v,
I
(I) I (I) .11
=
k
v,
I
FigureS
The energy contained in a transient puTse .
depends on its wave shape
With the minumum and maximum permissible breakdown voHages in hand, examine the clamping-voltage ratings
published in the manufacturer's data
sheets to identify suppressors falling
within the required range. It is possible
that there is no device that falls well within
the upper and lower limits. If the device
with the closest voltage rating falls about
the upper voltage limit, a very close examination of its parameters must be
made. Most reputable semiconductor
manufacturers apply a one-percent
guardband around voltage, ratings as a
safety margin. In this example, the
guardband raises the absolute maxirrium
rail voHage from 22 volts to 22.22 volts.
Figure 2
1!Je clamping characateristic of atypical tran-
sIent SuppfBssor
-604-
Using Ohm's law and a 22-volt clamping
voltage, this translates to:
I = PIV = 792122 = 36 amps
Since the anticipated peak reverse current
with a O.S-millisecond time constant is 20
amps, it is clear that a P6KE device can
easily withstand the anticipated peak
power of the surge.
2. Calculate the energy in joules contained in the transient and compare it to
the maximum energy rating of the transient suppressor. The energy in the transient, of course, depends on its wave
shape, as shown in Figure 3. The amount
of energy a given transient suppressor
can handle, on the other hand, depends
on its energy rating and the duration of the
pulse, as shown in Figure 4. In this example, the waveform has an exponential
shape with a 20-amp peak current and a
O.S-millisecond half-peak-power point.
Using these data, the energy calculations
are as follows:
E = Vc (t) ~ /(t) ~ A(t) - KV c ~ I x t
where, in this example,
This small increase may not seem like
much, but can make the difference in
selecting a transient suppressor.
Selecting the Best Transient
Suppressor
Consider a situation in which the only suppressor that comes close to meeting the
protection need of IC carries a maximum
clamping-voltage rating of 22.S volts. The
actual voltage at which the suppressor will
clamp depends on the actual current flowing through it, as shown in Figure 2, and
can be predicted using the following
equation:
VRSM - [(IRSM-IR )I(IRSM)J ~ (0.08)V =Vc
For the sake of discussion, consider the
General Instrument type P6KE16A transient suppressor, which carries a 22.S-volt
maximum clamping-volt!lge rating.
22.5 - [(27 - 20)l27J ~ 0.08 (22.5) = 22.03
volts
Although the resulting clamping voltage is
still greater than the 22-volt absolute maximum voltage rating carried by IC x, it is
well within the 22.22-volt rating provided
by the one-percent guardband. Thus, although carrying a maximum clampingvoltage rating O.S volt higher than the
maximum voltage rating carried by ICx ,
this suppressor can be safely used in this
application.
The same, however, cannot be said of all
22.S-volt suppressors. Another device in
the same family, the P4KE16A, has slightly different current ratings and yields considerably different results:
22.5 - [(19 - 20)119J ~ 0.08 (225) = 22.59
volts
Clearly, with a 22.S9-volt clamping voltage, this device cannot be used because
it exceeds the maximum clamping-voltage
rating plus guardband of ICx .
The next step in the selection process is
to verify the transient suppressor's power
rating. There are two approaches that can
betaken:
1. Since the waveform of the transient is
a classic exponential decay with a O.S-milIisecond duration at the half-peak current
point, a graphic plot of peak power versus
time can be used. This graph is often
published in manufacturer's data sheets
and if it is available for the device under
consideration, one need only compare the
anticipated current against the current
shown in the graph. Using the peakpower versus time graph published for the
P6KE series suppressors, it can be seen
that with a O.S-millisecond time-constant
decay, a P6KE device can handle a peak
power of 792 watts.
Vc =2V
I =20A
t = 0.5 msec
K = 1.4 (from Figure 3)
Thus E = 1.4 x 22 x 20 x (05 x 10 -3; =
0.30BJ
The maximum single-pulse energy rating
for a P6KE series is 0.83 joules for a pulse
of 1 millisecond duration. Referring to
Equation 4, the energy rating for a O.S-milIisecond pulse becomes 0.7 x 0.83 J, or
0.S81 joules. Clearly, then, a P6KE
device can easily handle the 0.308-joule
energy contained in the anticipated transient pulse.
FIgue4
r
Enery-handling capacity
of a transient
volatage suppressorase
function of thB
transient's
duration
8.0
i
4.0
i
1.0
12.0
~ 0.5t-----~
~ 0.25
Z
0.125
0.0625!:::1OO:---1""O-~I--L..~0.:-1-~.
Pulse Duralion. msec
Conclusion
The above example assumes a nonrepetitive transient, or, if repetitive, each
pulse is separated from the others by an
interval of least 20 seconds. Under these
conditions, however, the procedures outlined provide a straightforward and reli. able method of selecting the best transient
voltage suppressor for a given application.
-605-
I
-606-
SUPERECTIFIER DESIGN BRINGS
NEW LEVEL OF RELIABILITY TO
SURFACE MOUNT COMPONENTS
By: Joseph M. Beck, Senior Applications
Engineer
Surface Mount technology is here to stay.
turers would nave to re-think their apAfter years of plodding through cautious exproach to device fabrication. Yes,
perimentation, many manufacturers now have
components needed to be smaller: but
fully automated production lines in place.
they also needed to be more reliable.
These production
At General Instrument,
lines place circuit
the development of
components
at
'~1I1~
speeds that until
new surface mount
COMOOUNO
I.....·yl)
recently would have
components is not
CAYI'Iy,f••
been unthinkable.
something that is taken
Finally being realized
lightly. It is realized
are the benefits of
that in orderto produce
what was once cona truly reliable surface
sidered a ·Voo 000"
mount product one
manufacturing techmust first consider all
nology.
relevant aspects of the
Component manufactechnology.
Only
turers have learned a l......_ _ _ _ _ _ _ _ _ _ _ _--' when this process has
great deal over the
been completed can a
past several years as
Figure 1 SUPERECTIFIER construction
product be developed
well. Initially most
which is surface
surface mount components were nothing
mountable, and inherently reliable.
more than retrofit, lead formed versions of
Surface Mount Superectlfler -@
their conventional leaded, through-hole
General Instrument manufactures surface
counterparts. For most manufacturers this
was the Quickest and least costly method of mount rectifiers in the popular MELF (metalized electro face) package style. These
"developing" a line of surface mountable comdevices, denoted as SUPERECTIFIERS,
ponents.
are available with a wide variety of electrical characteristics. The main difference,
It was soon discovered, however, that this
however, between these rectifiers and
approach to component assembly would
other MELF style devices lies in the area
be unacceptable. Surface mount technolof device construction. Figure 1 shows
ogy placed new demands upon circuit
the unique construction employed in the
components. Electrically, the same power
manufacture of the SUPERECTIFIER.
was being required from smaller and
The
construction of the SUPERECTIFIER
smaller packages. Package geometries
does not intemally utilize any soft solders.
and dimensions became critical in relation
All interconnects are accomplished by the
to pick and place equipment and circuit
use of a high temperature brazing process
board mounting. In addition, the construc(600·C). Hence, any chances of solder
tion of these devices needed to be such
void occurrence or internal solder reflow
that they would suffer no ill effects when
during circuit board processing are
subjected to the rigors of the new assembeliminated. In addition, the silicon rectifier
ly environment that surface mount techjunction is completely encapsulated by a
nology presented. Encountered in this
cavity-free glass. This glass encapsulaenvironment was extremely high-speed
tion ensures that the rectifier junction is
pick and place equipment, component adhermetically isolated from humidity and
hesive attachment, immersion in moHen
other harmful environmental intruSions.
solder and rapid temperature changes associated with reflow soldering processes.
The resultant sub-assembly could be conAll this meant that component manufacsidered to be a fully functional surface
----=-..
-607-
I
mount rectifier. In fact, many component
manufacturers offer MELF devices which
have this appearance; namely, an oblong
glass bead with two protruding metal end
terminations. However, in order that the
device have a uniform shape, the General
Instrument sub-assembly is over molded
with epoxy. The result is a smooth, perfectly cylindrical package.
aging. This type of construction utilizes a
non-transparent glass body which is
PlCK·U,
1
1
00
Two Sizes
Two different size SUPERECTIFIER
MELF packages are available. General
Instrument designation GL34 and GL41
are for 0.5 ampere and 1.0 ampere rectifier types, respectively. JEDEC
mechanical specifications DO-213AA
and D0213AB detail the dimensions of
the GL34 and GL41 , respectively. Figure 2 gives these package dimensions.
PlCK·UP
•
FigureS
Non-uniform MELF outlines
often characterized by pitting and surface
irregularities. The irregularities make it
difficult for a vacuum pick-up to form a tight
seal around the device body. The result is
that components are often dropped onto
the production room floor instead of being
placed on the targeted circuit board.
General Instrument solves these
problems with a smooth surface and perfectly cylindrical package outline.
Bonding Pads ·-The geometries and
G"'"
GL41
DO-UIAA DO-Z1aAi
DIM. MIN
A
I
C
MAX Mil MAX
..:10 .1~ .119 .2011
.o63.C167,ON .105
.o16.o22.C116.OD
NotE: AU DIMENIIIOHS IIINCIIIJ
Figure 2
dimensions of bonding pads are critical
to the proper mounting, soldering and
overall performance of all surface mount
components. Figure 4 gives the recommended pad layouts for GL34 and GL41
MELF outlines. Use ofthese pad layouts
will be primary assistance in the following three areas:
Dimensional outline
MANUFACTURING
CONSIDERATIONS
Pick and Place--Surface mount SUPERECTIFIERS are supplied on tape and reel
in accordance with JEDEC standard RS481A. Removal of the devices from the
embossed carrier tape is easily accomplished by all vacuum pick-up
mechanisms which utilize a compliant tip.
The compliant tip will form a tight seal
around the cylindrical MELF design once
contact with the device has been made.
This is not always the case, however,
when MELF devices with a non-uniform
package outline are used. Figure 3 shows
two such MELF outlines. Figure 3A is a
device with a concave package outline.
This type of package is difficult to consistently remove from the carrier tape as the
exact position of pick-up on the component body is critical. Figure 3B is that
of the most common form of MELF pack-
• Surface mount technology by nature
dictates that smaller component packages
dissipate the same power as their larger
through-hole counterparts. Hence, adequate bonding pad land area is required in
order to aid the component package in the
dissipation of this power. The recommended pad layouts provide the needed
land area for GL34 and GL41 devices to
operate safely at their maximum ratings.
• Component adhesive attachment allows the package to shift slightly from its
original placement position prior to adhesive curing. In addition, most adhesives tend to spread during the curing
process which also may allow package
misalignment. The geometry of the
recommended pad layouts will tend to
minimize such movements. This assumes, of course, that the package was
originally positioned correctly.
• During reflow soldering, solder surface
tension can have a significant effect on the
movement and final position of com-608-
ponents in relation to their
bonding pads. The recommended pad layouts will actually make use of the solder
surface tensions to bring MELF
devices into alignment with the
two bonding pad land areas.
This means that MELF devices
which are initially placed in
slight misalignment on their
bonding pads will reposition
themselves during solder reflow
until a position of alignment is
reached.
t;1
I!I
_
A
•
C
D
I
·
Soldering-Surface
mount
SUPERECTIFIERS
are
capable of withstanding all
present forms of wave and
reflow soldering. The following
guidelines should be followed,
however, in order to ensure
overall package integrity:
fIlM
...
.ow
.1ID
.ill
.W
.
_.
AlA
.
.
....
JJI11
....
....
m
-...
H
. . . . . . . .IIIICI ••_
I
..............
NOD:ALLGI. . . . . . ItIlQlS
Figure 4
Recommended pad layout
• GL34--Maximum temperature at device and terminations
not to exceed 400'C for 5
seconds. Complete device
submersible temperature not to
exceed 260'C for 10 seconds in
solder bath.
• GL41--Maximum tempera-NUMB
C\HIIIENTIAI WlL1NHIYJ IIIII(NI
ture at device end terminations
GENERIIL
PIJRP06E
not to exceed 450'C for 5
fill.1DOO
GL34
GWlA-M
0.5
seconds. Complete device
GlAl
fill.1000
1116478-84
1.0
GlAl
GlA1A-M
1.0
fiO.1000
submersible temperature not to
exceed 265' C for 10 seconds
FASI R£CCMR\'
fiO.1DOO
lfiO.8lO
GL34
RGI3 SI1A IR at 2S'C
Failure Rate c - fails 11(/Jhi
rated at 6.8V, 36V, and 100V. In addition,
reverse leakage remains within a very
tight distribution and very little drift Is
observed in values before and after
test. Packaging defects can occur from
fatiguing of the bond or the presence of
atmospheric vapor onto the die surface.
Particularly in the automotive environment, semiconductor devices can be
subject to thermal and electrical stress
causing cracking, separation or voiding
of the bond between the die and the lead.
These conditions can lead to degrading
operation and eventually, thermal
runaway. By thermally cycling the device
from low (typically -65 degrees C) to
elevated temperatures (typically 150
degrees to 170 degrees C) with a dwell
time of 5 minutes at each temperature,
the bond can be stressed to the point of
failure to insure the integrity Of the
device. The results of temperature
cycling for PAR devices is shown in
Figure 7.
RESULTS OF TEMPERATURE CYCUNG TESTING
!
:
!:
~
. . . . . . . . . . . . . . . . . . . . . . ._
. . . . . . . .u
~
.....
+.........................
!
:
!
10000
...........................~ ............................t •....••..••...
i
;
DELTA
ATj=25·0
130·0
FIT =100 parts/millie
failure rata
Figure 7
PART NUMBERS
The devices are available in three
different power ranges utilizing the
following part numbers:
P4KA (400 Watts) P6KA (600 Watts)
6.8V to 43V
6.8V to 43V
1.SKA (1500 Watts)
6.8Vto43V
TAGL41 (400 Watts Surface Mount)
6.8Vto 43V
-622-
PACKAGING
BULK - TAPE AND REEL
I
-.------623-
I~
1
PACKAGING CODES
PKG.
CODE
3
4
6
8
10
12
14
15
16
18
20
22
23
25
26
27
28
32
33
34
35
36
PACKAGING DESCRIPTION
. Bulk
· 26MM Horizontal Taping and Ammo Packing
· Standard Horizontal Reel, Class 1 (Metric 52.4MM)
· Avisert, Cathode Up, Cathode First Off Reel
· Avisert, Cathode Up, Cathode First Off Ammo Pack
· Avisert, Cathode Down, Anode First Off Reel
· Avisert, Cathode Down, Anode First Off Ammo Pack
· Panasert, Cathode Up, Cathode First Off Reel
· Panasert, Cathode Up, Anode Off First, Ammo Pack
· Panasert, Cathode Up, Cathode First Off Ammo Pack
· Panasert, Cathode Down, Anode First Off Reel
· Panasert, Cathode Down, Anode First Off Ammo Pack
· Bulk Pack for Special Axial-Leaded Formed Devices
· Standard Horizontal Ammo Pack, Class I (Metric 52.4mm)
· GL41 SMD 12MM Tape, 7" Diameter Paper Reel
· GL41 SMD 12MM Tape, 13" Diameter Paper Reel
· SMD, 16 MM Tape, 7" Diameter Reel
· Special Carton Packing method for Tube Packaging Products
· GL34 SMD, 8MM Tape, 7" Diameter Paper Reel
· GL34 SMD, 8MM Tape, 13" Diameter Paper Reel
· Tab Mounted EFR8 Chip, 16MM, 13" Diameter Reel
· Bulk, Axial-Leaded Conductive Packaging
· Standard Horizontal Reel, Class 1 (Metric 52.4MM)
Conductive Packaging
37
38
39
40
42
44
45
46
47
48
49
· Bulk, TO-220, T03P Conductive Tubes
· Bulk, Conductive Packaging for Bridge Rectifier
· Miscellaneous Non-Standard T&R Packaging
· Euroform, Reel, Cathode First Off Reel, Lead Coated
· Euroform, Reel, Cathode Last Off Reel, Lead Coated
· Standard Horizontal Reel (Metric) 5MM Component Spacing
for 00-201 Packages
· Tube Packaging for TO-220, TO-3P, and In Line Bridge Rectifier
· GL41 SMD 12MM Tape, 7" Diameter Plastic Reels
· GL41 SMD 12MM Tape, 13" Diameter Plastic Reels
· GL34 SMD 8MM Tape, 7" Diameter Plastic Reels
· GL34 SMD 8MM Tape, 13" Diameter Plastic Reels
Also available for all packaging Electro-Sialic-Protection by adding the number "50" to the existing codes.
For example, "51" would be Bulk, Eleclro-Static Packaging. "54' would be TIR, Bectro-Static Packaging.
-624-
REEL PACKAGING
Axial leaded devices are packed in accordance with EIA Standard RS-296-E
and the diagrams given below which refer to these specifications.
Table 1
UNITS
PER REEL
COMPONENT
CASE TYPE
COMPONENT
SPACING
"A" FIG. 1
TAPE
SPACING
"B" FIG. 1
REEL
DIMENSION
"0" FlG.2
MAX. OFF
AUGNMENT GROSS WEIGHT
"E"FIG.1
PER REEL
8 ••
In.
mm
In.
mm
In.
mm
In.
mm
lb••
1.SKA(PAR)
2000
.200
5.0
2.06
52.4
12.0
305
.047
1.2
7.1
3.2
D01S
3500
.200
5.0
2.06
52.4
12.0
305
.047
1.2
4.00
1.81
D0201AD
1200
.395
10.0
2.06
52.4
12.0
305
.047
1.2
3.60
1.63
D0204AP
4000
.200
5.0
2.06
52.4
12.0
305
.047
1.2
5.80
2.60
D0204MB
4000
.200
5.0
2.06
52.4
12.0
305
.047
1.2
3.74
1.70
0041
5000
.200
5.0
2.06
52.4
12.0
305
.047
1.2
4.80
G3IG4
1500
.395
10.0
2.06
52.4
12.0
305
.047
1.2
4.80/4.40
2.2012.00
.2141.68
25OOnooo
.157
4.0
7113
1781330
See Fig. 6
.47111.49
GL41 Surface Mount 1500J5000
.157
4.0
7113
178133Q
See Fig.6
.471/1.49
GP1 DE Vertical
2000
.500
12.7
12.0
305
GL34 Surfacellount
.079
2.0
2.29
kg.
2.20
.214/.68
1.04
GP1 DE Horizontal
4000
.200
5.0
2.06
52.4
12.0
305
.047
1.2
3.04
1.38
GP20
1200
.395
10.0
2.06
52.4
12.0
305
.047
1.2
4.40
2.00
MPG06
5000
.200
5.0
2.06
52.4
12.0
305
.047
1.2
3.74
1.70
700
.395
10.0
2.06
52.4
12.0
305
.047
1.2
5.00
2.30
P60D
Table 2
Metric Spec
I
I
Inside Tape
Spaclng'B'
26mm+0.75mm
(1.024'+.030')
52.4mm+ 1.5mm
(2.062'+.059')
52.4mm+1.5mm
(2.062'±'059')
Components Spacing
'A'(Lead to Lead)
5.0mm+0.5mm
(.197'+.020')
5.0mm+0.5mm
(.197'+.020'
10mm+0.5mm
(.394' ± .020')
Component
Body Diameter
Ommto 5mm
(0' to .197')
Ommto5mm
(O'to.197')
5.01 mm to 10mm
(.197' to .394')
'A'
A [TABLE 1J
'--
I
!
MAX OFF
I
ALI6ItIoEHT
I
'E'
1---;:;;1 ~.- i I
~~Hcm~~
i
I•.
.156[4.0IIfIX.
!;
.039-(1.0)
031-(4.0)NAX.
I I---::--:~'-::-- i
~
(Table 1l
I ~.Figure 3 ~,,~
.19 5.00
:IDi5.OOi
.25016.351
7(
Not to
Exceed 1.5mm
(.059') over
6 Consecutive
The ·C"dimension of Fig. 3 is between
125" (3.175) and .250" (6.35) greater than
the length of the component Involved
I
CUIlILATlVE
PITCH
Cumulative
Pitch Tolerance
1
Figure 4
Dimensions in inches and (millimeters)
-625-
NEW BULK PACKAGES
GROSS
DEVICE TYPE
INCHES
CM
EA.
LBS.
KG
8.0 X3.5 X 1.0
8.0 X3.5 X 1.0
20.3 x 8.8 x 2.54
20.3 x 8.8 x 2.54
8000
4000
0.56
1.03
0.25
OA7
11.75 X 5.125 X2.5
11.75 X5.125 X2.5
11.75 x5.125x 2.5
11.75 X5.125 X2.5
11.75 X5.125 X2.5
11.75 X5.125 X2.5
11.75 X 5.125 X2.5
8.0 X3.5 x 1.0
8.0 X3.51 1.0
8.0 X3.5 X 1.0
12.0x3.6x2.5
11.75 x5.125x 2.5
11.75x3.5x1.0
29.8x 13.0 X6.3
29.8x 13.0 X6.3
29.8x 13.0 X6.3
29.8x 13.0 X6.3
29.8x 13.0 X6.3
29.8x 13.0 X6.3
29.8x 13.0 X6.3
20.3 X 8.8 x 2.54
20.3 X8.8 X 2.54
20.31 8.8x 2.54
30A X 9.1 X 6.3
29.8x 13.0 x 6.3
29.8 X 8.8 x 2.54
48.2 LENGTH
52.0 LENGTH
52.0 LENGTH
47.0 LENGTH
4000
1500
4000
3.85
4.41
3.75
3.15
2.3812.20
5.07/5.29
3.75
0.77
0.56
0.56
2.50
3.72
1.93
0.12
0.306
0.572
0.21
1.75
2.0
1.7
1.45
1.0611.0
2.312.4
1.7
0.35
0.25
0.25
1.1
1.69
0.87
0.05
0.14
0.26
0.09
0.38
0.17
0.019
0.020
1.5
.8811.2
2.4
GL34 SURFACE MOUNT
GUI SURFACE MOUNT
D015
D0201AD
D0204AP
D0204MB
D041IMPG06
G4/G3
GP20
J,JTXl N483B, 1N645, 1N545-1
J,JTX1N3611,1N4245,IN56t4
J, JTX1N4942, lN5615, lN5802
J, JTXl N5415, 1N5650, 1N5625, 1N5807
P600
P6KE
DF-M/DF-8
ANT~ATIC PlASTIC TUBES
T()'22O, CT
ANTI-8TATIC PLASTIC TUBES
TooP
ANTI-8TATIC PlASTIC TUBES
KBPMl2KBPM ANTI-STATIC PlASTIC TUBES
PlASTIC BAGS
AR.ARS
WM,WG
PlASTIC BAGS
GPP1, EFR1, 3, 5 CHPTRAY
GPPS, EFR9
CHIP TRAY
Be
KBU4,6,S
KBL
KBPC1035W
PAPER BOX
PVC TRAY
PVC TRAY
PVC TRAY
KBPCS
KBPC1,KBPCS
KBPC10135
PVCTRAY
PVC TRAY
PVC TRAY
WEIGHT
QUANTITY
BOX SIZE
19.0 LENGTH
20.5 LENGTH
20.5 LENGTH
18.5 LENGTH
5000
5000
3000I20OO
1500
1000
500
500
1000
750
2000
50
50
30
30
200
2.0 X 2.0 x .35
2.0 X 2.0 x .35
5.h 5.1x 0.9
5.1x 5.h 0.9
8.2 x 5.0 X2.5
12.2 X 6.1 xl.5
12.2x6.1xl.5
12.4 X 12.4x 1.4
12.4xl2.4x1.1
12.4xl2.4x.88
12.4x 12.4 X1.4
23.4 X 12.7 x 6.3
30.9 x 15.5 X3.S
30.9 x 15.5 x 3.S
31.4 X 31.4 X3.6
300
100
0.64
0.37
0.042
0.044
3.0S·
4.63
4.19
5.07
31.4 x 31.4 x 2.9
31.4 x 31.4 x 2.2
31.4 X 31.4 X3.6
200
250
100
3.31
1.9412.64
5.29
100
100
100
100
250
1..4
2.1
1.9
2.3
AMMO BOX PACKAGING
Packaging
Codes
Dimension
"A"'
Dimension
"B"'
Dimension
"C"'
Quantity
Box
GI,OO-15
PKG3
9.7"
(247MM)
1.7"
(44MM)
3.7"
(9SMM)
3K
I.SK
GI,DO-41
DOIS
PKG23
10.0(2S4MM)
3.1"
(79MM)
4.3"
(ll0MM)
3K
2K
lK
Packaging
Available
Product Outlines
26MM Horizontal
Ammo Pack
S2MM Horizontal
Ammo Pack
00-41
00201AO,G3
P600
Vertical (Avisert,
Panasert)
Ammo Pack
GPIO-E, RGP10-E
0.2S" (0.6SMM) Lead
Diameter Only
3K
PKG 8, 9
12,13,16
17,20,21
-626-
12.9"
(328MM)
1.7"
(42MM)
7.9"
(200MM)
2K
PACKAGING METHODS FOR VERTICLE TAPING
FIG. 1
PKG8
PKG12
PKG6
PKG10
PKG16
PKG20
PKG14
PKG18
PKG40
PKG42
Avisert: PKG6 Panasert:
PKG8
PKG10
PKG12
PKG14 Euroform: PKG40
PKG16
PKG41
PKG18
PKG42
PKG20
PKG43
FIG. 2
3O:5mm 10
(181 *0197)
+
L
I
60 max
(2.36 max)
ALL DIMENSIONS
IN MILLIMETERS AND INCHES
Jl
Package per EtA JEOEC standard RS-468 Available on reels or fan fold box (ammo pack)
Available only for 0041 case style products utilizing
O.65mm (.025") or 0.76mm (.30") diameter leads for Panasert
and Aviser! Tape and Reeling.
Available only for GP10 produc!sonIY'ulilizinq 0.6Smm (.025"\
diameter leads for Euroform Tape and Reeling by adding
suffix "E" (GP10GE, lN4004GPE)
•
-627-
VERTICLE REEL PACKAGING
7.36
ALL DIMENSIONS
IN MILLIMETERS AND (INCHES)
13.7
:t5"MAX
f
320
23.0
(1.26)
•
2.72 MAX
12.0 MAX
(0.138)
- r - - - - - - - (.472)
t
±1.0
+
20.5
(±.039)
(.90)
~DIA.
1
0.56 (.0216)
1.40 MAX
0.6 (.024)
(.01~
¥9
3.15 (0.12)
12.5 (0.492)
Available only lor GP10 products utilizing 0.65mm (.025)
diameter leads lor Euroform Tape and Reeling by adding
suffix "E" (GP10GE, 1N4004GPE). Lead coating is standard.
FIG. 3 - EURO FORM
~
20·
-",r--(t.079)
• COMPONENT
ALIGNMENT
32.0 MAX
(1.26)
O~:\:·DIA.
1.40 MAX
;li
.,
User Direction Feed
Q;~
0.5 (.020)
FIG 4 -
Available only for 0041 case style products utilizing
0.65mm (.025) or 0.76mm (.30) diameter leads for
Panasert and Avisert Tape and Reeling. Lead coating is not
available.
PANASERT
0.0.865 .034) DIA.
(.022)
1.40 MAX
(.055)
~
~
5 I 020-
ll.Q.l.lli)
124 (488)
Standard polarity cathode oriented away from sproket holes
FIG. 5 -
AVISERT
(Optional polarity cathode oriented toward sproket holes)
-628-
SURFACE MOUNT PACKAGING
Packed per EIA/JEDEC Siandard RS-481
RMin.
Bending radius
See Note 2
Tabie'
13105
(0512 I 0201
AVA.ILABlE
178120
tl00 t 079)
L I
00
r
330_
(130max)
•
SO MIN
(1969 MIN I
~
..........,..-- Embossment
·20
·00
'''9)
·000)
....j I-
Table 1
8.12.16.
Tape Size
8.12.
MM
Product
Type
Tape Size
All Dimensions in Millimeters and (Inches)
MM Embossed Tape
D
E
Po
I
Ao 80 Ko
1.5
(.059)
1.75±0.10
( 069±.004)
4.0±.10
(.157 ±.004)
0.400
(.016)
See Note 1
Table 2
Max.
Min.
F
Max.
p2
B'
0'
Constant
DimenSlOns
Min.
R
25
(.984)
8.0±.30
(.315±.012)
30
(1.181)
12.0±.30
(.472±.0)2)
GL34
8MM
4.2
(.165)
1.0
(.039)
3.5±0.05
(.138± 002)
2.4
(.094)
GL41
12MM
8.2
(.323)
1.5
(.059)
5.5±0.05
(.217± 002)
4.5
(.177)
2.0±0.05·
(.079±.002)
P
W
K
Variable
Dimensions
40±0.10
Notes:
1. Ao Bo Ko are determined by component size. The clearance between the component and the cavity must be within 0.05 min. to 0.5 max. for 8MM tape and
0.05 min to 0.650 max. for 12 MM tape.
In addition the components cannot rotate more than 20° within the determined cavity.
2. Tape and components witl pass around radius "R" without damage.
t
User Direction of Feed
FIG. 6
-629-
oevice
Polarization
-630-
SALES OFFICES
PSD SALES OFFICES
Southeast Regional Sales Office
General Instrument Corporation
6855 Jimmy Carter Blvd.
Norcross, GA 30071
Tel: (404) 446-1265
Fax: (404) 446-1286
Central Regional Sales Office
General Instrument Corporation
85 W. Algonquin Rd. Suite 300
Arlington Heights, IL 60005
Tel:(708)364-5880
Fax:(708)364-0649
Northeast Regional Sales Office
Western Regional Sales Office
General Instrument Corporation
120 Andrews Road
Hicksville, NY 11802
Tel: (516) 933-3200
Fax: (516) 433-4412
General Instrument Corporation
21601 Vanowen Street, Suite 205
Canoga Park, CA 91303
Tel: (818) 992-0982
Fax: (818) 992-1658
UNITED STATES
ALABAMA
Electramark
4950 Corporate Drive
Suite 130L
Huntsville, 35805
Tel: (205) 830-4400
Fax: (205) 830-4406
ARIZONA
Fred Board Associates
7353 Sixth Avenue
ScoHsdale, 85252
Tel: (602) 994-9388
Fax: (602) 994-9477
Fred Board Associates
1041 W. Comababi
Tucson, 85704
(602) 299-1508
CALIFORNIA
Prosales
5625 Ruffin Road Suite 200
San Diego, 92123
Tel: (619) 571-1133
Fax: (619) 571-1313
Ewing-Foley
895 Sherwood Avenue
Los Altos, 94022-9990
Tel: (415) 941-4525
Fax: (415) 941-5109
Ewing-Foley
185 Linden Avenue
Auburn, 95603
Tel: (916) 885-6591
Fax: (916) 885-6594
Select Electronics
14730 Beach Blvd.
Bldg. F, Suke 106
La Mirada, 90638
Tel: (714) 739-8891
Fax: (714) 739-1604
CANADA
Pipe-Thomson Ud.
5468 Dundas SI. West
Suke206
islington, Ontario
M9B6E3
Tel: (416) 236-2355
Fax: (416) 236-3387
Davetek Marketing
37-4429 Kingsway
Burnaby, B.C.
V5H2Al
Tel: (604) 430-3680
Fax: (604) 435-5490
COLORADO
Lindberg Associates
6140 E. Evans Avenue
Denver, 80222
Tel: (303) 758-9033
Fax: (303) 758-5863
FLORIDA
'C' Associates
251 Makland Avenue
Suke 101
Ahamonte Springs, 32701
Tel: (407) 831-1717
Fax: (407) 831-8767
'C' Associates
23083 S.w. 61st Street
Boca Raton, 33428
Tel: (407) 488-6090
Fax: (407) 451-4927
GEORGIA
.Electramark
6030 UnRy Drive
SuiteH
Norcross, 30071
Tel: (404) 446-7915
Fax: (404) 263-6389
ILLINOIS
Metcom Associates, Corp.
2 Ta1coH Road
Park Ridge, 60068
Tel: (312) 696-1490
Fax: (312) 696-2568
MASSACHUSETTS
Compo Rep. Assoc. Inc.
100 Everett Street
Westwood, 02090
Tel: (617) 329-3454
Fax: (617) 329-6395
INDIANA
Valentine & Associates
1000 North Madison Avenue
P.O. Box 242
Greenwood,46142
Tel: (317) 888-2260
Fax: (317) 881-4904
MEXICO
Panamtek
Av. Union No. 163-402
Sedor Juarez
C.P. 44100, Guadalajara, Jalisco
Tel: 1152-36-303029
Fax: 1152-36-303115
Valentine & Associates
1638 Lincolnway East
Southbend,46613
Tel: (219) 288-7070
Fax: (219) 233-m9
MICHIGAN
Rathsburg Associated
34605 Twelve Mile Rd.
Farmington Hills,
48331-3262
Tel: (313)489-1500
Fax: (313) 559-1405
Valentine & Associates
629 W. Lincoln Roed
Kokomo, 46902
Tel: (317) 453-1118
Fax: (317) 453-1007
IOWA
Dy-Tronix Inc.
23 Twixt Town Road
Cedar Rapids, 52402
Tel: (319) 377-8275
Fax: (319) 377-9163
KANSAS
Dy-Tronix Inc.
1999 Amidon
Suke322
Wichka, 62703
Tel: (316) 838-0884
EASYLINK 62914257
Dy-Tronix Inc.
5001 College Blvd.
Suke 106
Leawood,66211
Tel: (913) 339-6333
Fax: (913) 339-9449
MINNESOTA
High Technology
11415Valleyview Roed
Eden Prairie, 55344
Tel: (612) 944-7274
Fax: (612) 944-3229
MISSOURI
Dy-Tronix Inc.
3407 Bridgeland
Bridgeton, 63044
Tel: (314) 291-4m
Fax: (314) 291-3861
NEW JERSEY (TRI-STATE)
Janco Technology
71 Grand Avenue
Palisades Park, 17650
Tel: (201) 941-4008
Fax: (201) 941-4631
INsr~t~~
-631-
-
SALES OFFICE
NEW MEXICO
Q.A. Electronics
7101 Prospect Place N.E.
Suftel0
Albuquerque, 87110
Tel: (505) 888-1121
fax: (505) 883-9044
NEW YORK
Quality Components Inc.
116 E. Fayette Street
Manlius, 13104
Tel: (315) 682-8885
fax: (315) 682-2277
Quality Components Inc.
3343 Harlem Road
Buffalo, 14225
Tel: (716) 837-5430
Fax: (716) 837'()662
NORTH CAROLINA
Zucker Associates Inc.
P.O. Box 19668
Raleigh,27619
Tel: (919) 782-8433
fax: (919) 782-8476
OHIO
Makin & Associates Inc.
3165 linwood Road
Cincinnati, 45208
Tel: (513) 871-2424
Fax: (513) 871-2524
PENNSYLVANIA
Bresson Associates
107 Forrest Avenue
Narberth, 19072
Tel: (215) 664-6460
Fax: (215) 664-7020
Makin & Associates Inc.
32915 Aurora Road
SoIon,44139
Tel: (216) 248-7370
Fax: (216) 248-7372
Russell F. Clark
10517 Lindberg Avenue
Pittsburg, 15235
Tel: (412) 242-9500
Fax: (412) 242-9505
Makin & Associates Inc.
6400 Riverside Drive
Bldg. A
Dublin, 43017
Tel: (614) 793-9545
Fax: (614) 793-0256
PUERTO RICO
OKLAHOMA
Complech Sales, Inc.
9610 E. 42nd Street
Suite 219
Tulsa, 74146
Tel: (918) 622-7744
Fax: (918) 680-0340
OREGON
Electronic Component Sales
15255 S.S. 72nd Avenue
Suite'C'
Tigard,97224
Tel: (503) 245-2342
Fax: (503) 684-6436
Isla Caribe Electro Sales Inc.
Calle Alejandrino
015 Villa Clementina
Guaynabo, 00657
Tel: (809) 720-4430
fax: (809) 720-1097
TEXAS
Comptech Sales, Inc.
2401 Gateway Drive
Suhe 114
irving, 75063
Tel: (214) 751-1181
Fax: (214) 550-8113
Comptech Sales, Inc.
11130 Jollyville Road
Suite 200
Austin, 78759
Tel: (512) 343-0300
Fax: (512) 345-2530
Comptech Sales, Inc.
15415 Katy Freeway
Suite 102
Houston, 77094
Tel: (713) 492-0005
Fax: (713) 492-6116
-632-
UTAH
Wndberg Associates
.3760 S. Highland Drive
Salt Lake City, 84106
Tel: (801) 227-2643
WASHINGTON
Electronic Component Sales
9311 S.E. 36th Street
Mercer Island, 98040-3795
Tel: (206) 232-9301
Fax: (206) 232-1095
WISCONSIN
Metcom Assoc. Corp.
237 S. Curtis Road
West Allis, 53214
Tel: (414) 476-1300
Fax: (414) 476-4368
GENER14L INSTRUMENT INTERNATIONAL SALES OFFICES
EUROPEAN HEADQUARTERS
AND GERMANY, AUSTRIA AND
SWITZERLAND
General Instrument
Deutschland GmbH
FreischutzstraBe 96
8000 Munchen 81
Tel.: 089195997-0
Telex: 524523
Fax: 08919570489
HONG KONG
General Instrument Hong Kong Ud.
Room 1104-1107. Tower B. Mandarin Plaza
14 Science Museum Road
Tsimshalsui. East. Kowloon. Hong Kong
Tel.: 3-7226577 .
Telex: 54606 GIHKHX
Fax: (852)3-7239239
FRANCE, PORTUGAL AND SPAIN
General Instrument France
9111 Rue G. Enesco
94008 Creteil Cedex
Tel.: 33 (1) 43n1263
Telex: 262435
Fax: 011-33-143-99-1524
JAPAN
General Instrument Japan. Ud.
5F4-1-13 Toronomon
Minato-Ku. Tokyo. Japan 105
T81_:(03)437-0281
Fax:9-011-81-3434-393B(G1J)
ITALY
General Tnstrument RaUa S.R.L.
Via cantu 11-20092
Cinise/lo Balsamo (Milano)
Fax:02I66010324
Telex:320348
Fax:(852)3-7239239
General Instrument Japan. Ud.
Toyosaki Bldg.
7f. 18-21. ChlIyamachi. KRa-Ku
Osaka. Japan 530
Tel.: 06-375-0606
Fax: 06-375-0693
UNITED KINGDOM
General Instrument (UK)
UmRed. Power Semiconductor Div.
Chelworlh Industrial Estate
Cricklade. Swindon. WiRshire.
England SN6 6HO.
Tel: (0793)752307
FAX: (0793) 751419
SINGAPORE
General Instrument HK Ltd.
1 Marine Parade Central
iIo3-09 Parkway Builder's Centre
Singapore 1544
Tel: 3444711
Telex: GISPORE RS 24424
fax: (65) 3446878
Power Semiconductor Div.
Semitron Industries LimRed,
Chelworth Industrial Estate.
Cricklade, Swindon, WiRshire.
England SN6 6HO.
Tel: (0793) 751151
FAX: (0793)751808
Telex: 44848
TAIWAN
General·instrument 01 Taiwan, Ltd.
233 Pao Chiao Road
Tsin Tlen. Taipei. Taiwan
Tel: 914553119171469
Telex: 34297 GITSEAMK
Fax: 914669719175991
-633-
-
GENERAL INSTRUMENT IN7 ERNATIONAL SALES OFFICES
GERMANY
Distributor.
Electronic 2000 Vertriebs-AG
Stahlgruberring 12
8000 Munchen 82
Tel.: 089142001'()
Telex: 522561
Fax: 089/42001129
ElkoseGmbH
Bahnhofstr. 44
7141 Moglingen
Tel.: 07141/4870
Telex: 7-264472
Fax: 07141/487210
Enalechnik GmbH
Schillerstr. 14
2085 Quickbom
Tel.: 041061612'()
Telex: 213590
Fax: 041061612268
Rutrorik Elektromische
Bauelemente GmbH
RSC-Halblefter GmbH
Industriestr. 2
7536 tspringen
Tel.: 0723118010
Telex: 783650
Fax: 07231182282
SellOn Schiffer Elektronik
Friedrich-Seele-Str. 3A
3300 Braunschweig
Tel.: 0531180980
Telex: 952812
Fax: 053118098789
Semftron WRock GmbH
1m Gut 1
7891 Kussaberg 6
Tel.: On42nOl1
Telex: 7-921472
Fax: 0774216901
Servitronic GmbH
Uhlandstr. 20-25
1000 Berlin 12
Tel.: 03018826402
Telex: 1-83557
Fax: 03018825934
Spoerle Elektronik KG
Max-Planck-SIr. 1-3
6072 Dreielch
Tel.: 0610313040
Telex: 4-179031417983
Fax: 06103/304201
Dl$trlbutor for .MlL-DIODEN
Asternetics GmbH
Wetlersteinstr. 2
8028 Taulkirchen
Tel.: 08916129000
Telex: (17) 896047
Fax:08916128198
!TALY
Agent and Distributor
~arche Abruzzi Area
Adimpex Adriatica
jmportazionVEsportazione S.R.L.
Box 116-SS16-KM314-785
60022 Castellidardo (AN)
TeI.:071fl8190121013
Telex: 561183
Fax: 071nBl90n
Lazlo
3C E. 8eUronlca S.R.L.
V.le Laurentina, 50
00142 Roma
Tel.:06I5412303I4
Telex:610005
Fax:06i5424033
Distributors:
~mltla
Heltis di B. Prati SAS.
Via S. Benedeuo 22124
41049 Sassuolo (Modena)
Tel.: 05361802562-804104
Fax: 05361802343
Lombardla
Oistrel S.R.L.
Via Rizzo.8
20151 Milano
Tel.:02138001087 180820
Fax:02I38001154
Malpassi S.R.L.
Via Baravelti, 1
40012 Calderara di Reno (BO)
Tel.: 051fl27252-727378
Telex: 583118
Fax: 051n27515
Kontron Instruments S.P.A.
Via Fantoli. 16115
20138 Milano
Tel.: 02150721
Telex: 312288
Fax: 0215060918
-634-
Lombardla
Lasi Eletlronica S.P.A.
Via F. Testi 280
20124 Milano
Tel.:02/66101370
Fax:02I661 01385
Plemonll
AdvecoS.r.I.
P.za Bendini. 5
j 0097 Collegno (TO), "aly
Tel: 011/40532n
Telex: 011/4050488
RG2 Elettronica
Via Rosa Luxemburg 12114
10093 Collegno (TO). Italy
Moxel S.R.L.
Tel: 011n256651712289
Via Frova. 34
20092 Cinisello Balsamo (Milano) Telex: 2243351Telelax: 011fl26705
Tel.: 02161290521
TOSCANA
Telex: 352045
Wah Electronic
Fax: 0216172562
Via R. Bardazzi. 62/68
50127 Areoze, Italy
SCELS.R.L.
Tel: 05514379933-4376989
Via Slelvio 9
Telex: 580347
20026 Novate Milanese
Telelax: 0551435728
Tel.: 02/3546252
Telex: 351582
Veneto
Fax: 02/3542262
ldac EleUrooica S.P.A.
Via Verona,8
35010 Busa Di Vigona(PO)
Tel.:04918931644
Telelax:04918931689
GENERAL INSTRUMENT INTERNATIONAL SALES OFFICES
UNITED KINGDOM
Distributors
Farnell Electronic Components Lim~ed
Canal Road
Leeds
Yorkshire LS12 2TU
Tel: 0532 790101
Fax: 0532 636311
Tlx: 55147
Hunter Electronic Components ltd.
Un~ 3, Central Estate
Oenmart Street
Maindenhead
Berkshire SL6 7BN
Tel: 0628 75911
Fax: 0628 75611
TIx: 848946
Polar Electronics Um~ed
Cheny Court Industrial Estate
Leighton Buzzard
Bedfordshire LU7 8YV
Tel: 0525 377093
Fax: 0525 378367
TIx: 825238
Rodgers Agencies
126 Orangefield Crescent
Bellast
BT69GJ
Tel: 0232 704985
Fax: 0232 792563
VSI Electronics UK ltd.
Roydonbury Industrial Estate
Horsecrofl Road
Harlow
Essex CM19 5BY
Tel.: 0279129666
Telex: 81387
As Components limited
P.O. Box 99
Corby
Northants NN17 9RS
Tel: 0536 201234
Fax: 0536 201501
Tlx: 342512
STC Electronics Distribution
Edinburgh Way
Hartow
Essex CMO 2DF
Tel: 0279626m
Fax: 0279 626777 ext: 3233
or 0279 441687
Tlx: 818801
Young Electronics Services
Beech House
Knaves Beech Estate
High Wycombe
Buckingharnshire
Tel: 0628'6531417
Fax: 0628 810823
FRANCE, PORTUGAL AND
SPAIN
Distributors
Franc.
C.C.I.
5 Rue Marcelin Berthelot
92164 Anthony
Tel.: (1) 46662182
Telex: 203881
Fax: (1) 40969298
PEP
6-9 Rue Ambroise Croizat
91120 Palaiseau
Tel.: (1) 64470031
Telex: 603341
Fax: (1) 64470084
C.C.I.
67 Rue Balaille
69008 Lyon
Tel.: (16) 78744456
Telex: 375456
fax: (16) 78760891
Silec Codicom
52 Quai Des Carrieres
94222 Charenton Ie Pont
Tel.: (1) 43fl59592
Telex: 680363
Fax: (1) 48934414
Mecodiis
3 Allee Des Erables
94042 Creteil Cedex
France
Tel: (1) 43-99-44-00
Fax: (1) 43-99-98-28
Tlx: 262-061
SiIecD.E.L.
8 Rue des Freres Bertranc
!l.P.59
69632 Venissieux Cedex
Tel.: (16) 78008697
Telex: 340189
fax: (16) 78090291
PORTUGAL
Componenta
Rua Luis De Carnoes 128
1300 Lisboa
Portugal
Tel: 351-1-36212-83184
fax: 351-1-363-76-55IT1x: 61512
SPAIN
AmitronSA
Avda De Valladolid 470
28008 Madrid
Spain
Tel: (91) 542-09-06/541-54-02
Fax: (91) 248-79-58
Tlx: 45550
SutelcoSA.
Pilar de Zaragoza, 23
Madrid 020281Spain
Tel.: 245-86-01
Telex: 43852
Fax: 245-8120
•
-635-
GENERAL INSTRUMENT INTERNATIONAL SALES OFFICES
OTHER COUNTRIES
FOR COUNTRIES NOT INDICATED
General Instrument Agencies
Freischutzstr. 96
8000 Munchen 81
Tel.: 089195997'()
Telex: 5-24523
Fax: 08919570489
ISRAEL
HONG KONG
SMD Electronics
P.O. Box 3075
Netanya 42130
Tel.: 0531616243
Fax: 0531620935
AUSTRIA
Elbatek GmbH
E~nergasse 6
1-1232Wien
Tel.: 02221863211
Telex: 1-133128
Fax: 022218652142
NORWAY
Nordisk Elektronik AIS
P.O. Box 130
1364 Hvalstad
Tel.: 021846210
Telex: 17546
Fax: 021846545
Astec Agencies Ltd.
Rm 2004 Narn Fung Centre
264-298 Castle Peak Road
Tsuen Wan, N.T. Hong Kong
Tel: 852-4155818
Fax: 852-4155742
Tlx: 37528 ASAG HX
BELGIUM/HOLLAND
Rodelco B.V. EIeG1ronics
P.O. Box 6824
~802
HV Breda, Holland
Tel.: 0761784911
Telex: 54195
Fax: 0761710029
Lemaire Rodelco
Limburg-5tirumlaan 243
1810 WemmelJBelgium
Tel.: 0214600560
Telex: 24610
Fax: 0214600271
DENMARK
AIS Nordisk Elektronik
Transformervey,17
DK-2730 HerIeY
Tel.:0421842OOO
Telex: 35200
Fax:044I921552
SOUTH AFRICA
Plessey South Africa Ltd.
Components Division
P.O. Box 8174
Elandslontein 1406
Tet.: 01118232950
Telex: 431421
Fax: 01118232818
SWEDEN
Bexab Technology AB
Box 523
S-18325 Taby
Tel.: 08fl680560
Telex: 10912
Fax: O8flSS1929
SWITZERLAND
ElbatexAG
Hardstr.72
CH-5430 Wettingen
Tel.: 0561275111
Telex: 58068
Fax: 0561271924
FINLAND
KomdelOY
PL52
SF'()2211 Espoo 21
Tel.: (90) 885011
Telex: 121926
Fax: 90/885327
INDIA
A.lE. Enterprises Ltd.
36 SDF II,Seepz,Andheri(E)
Bombay 400 096, India
Tel: (022) 634903216300195
Tlx: (011) 79080 DIPIN
KOREA
Olympia Commercial Co., Ltd.
Rm 2A, Shinbong Bldg.
835-6, Yuksarndong, Kangnarn-Ku
Seoul, Korea
Tel: 82-2-5673362
Fax: 82-2-5527036
SINGAPORE
B.B.S. Electronics PTE. Ltd.
1 Genting Link
1105.03 Perfect Industrial Bldg
Singapore 1334
Tel: 65-7488400
Fax: 65-7488466
TIx: RS55510 BBSEL
TAIWAN
Tekfield Enterprise Co., Ltd.
12F-3, No. 271, SEC. 3, RooseveH Road
Taipei, Taiwan, R.O.C.
Tel: 886-2-362315313629664
Fax: 886-2-3623476
Wei Keng Ind., Co., Ltd.
Rm B2, FI7, No 126 Sec 4
Nanking E. Road
Taipei, Taiwan R.O.C.
Tel: 886-2-7763512
Fax: 886-2-7519366
TIx: 29463 WEKIND
-636-
AUTHORIZED
NATIONAL AND REGIONAL
DISTRIBUTOR HEADQUARTERS
DISTRIBUTOR
ADDRESS
CITY/STATE
TELEPHONE NO.
ACI Electronics
200 Newton Road
Plainview, NY 11803
(516) 293·6630
Advent Electronics
7110 Lyndon Street
Rosemont,IL 60018
(708) 298-4210
All American Transistor
16251 N.W. 54th Avenue
Miami, FL 33041
(305) 621-8282
Almo Electronics
5417 E. LaPalma Avenue
Anaheim, CA 92807
(714) 777-4711
Arrow Electronics
25 Hub Drive
Melville, NY 11746
(516) 694-6800
Bell Industries
11812 San Vincente, Suite 300
Los Angeles, CA 90049
(213) 826-6778
Future Electronics
237 Hymus Boulevard
Pointe Claire, CN H9R5C7
(514) 694-7710
Hallmark Electronics
11333 Pagemill Road
Dallas, TX 75243-8399
(214) 343-5000
Hammond Electronics
1230 W. Central Avenue
Orlando, FL 32805
(407) 849-6060
Jaco Electronics
145 Oser Avenue
Hauppauge, NY 11788
(516) 273-5500
Marshall Industries
9674 Telstar Avenue
EI Monte, CA 91731-3004
(818) 459-5500
Nu Horizons Electronics 6000 New Horizons Blvd.
Amityville, NY 11701
(516) 226-6000
Pioneer/Washington
9100 Gaither Road
Gaithersburg, MD 20877
(301) 921-0660
Pioneer/Cleveland
4800 E. 131 st Street
Cleveland,OH 44105
(216) 587-3600
Solid State
46 Ferrand Street
Bloomfield, NJ 07003
(201) 429-8700
Zeus Components
100 Midland Avenue
Port Chester, NY 10573
(914) 937-7400
-637-
-
NOTES
-638-
GENERAL
INSf RUM ENT
POWER SEMICONDUCTOR DIVISION
Power Semiconductor Division Headquarters 600 West
John Street , CS620 , Hicksville , NY 11802-1620, (516) 933-3333
• TWX : 310-376-8690 . FAX : 516-933-3881
North Eastern Regional Sales Office : 120 Andrews Road ,
Hicksville, NY 11801 -1702, (516) 933-3200 . TWX : 310-376-7238
• FAX : 516-433-4412
South Easter n Regional Sales Office: 6855 Jimmy Carter
Blvd ., Suite 2250 , Norcross , GA 30071 , (404) 446-1265
• TWX : 510-101-3222 . FAX : 404-446-1286
Central Regional Sales Office : 85 W. Algonquin Road , Suite
300, Arlington Hts., IL 60005 , (708) 364-5880 . TWX : 910-222-0431
• FAX : 708-364-0649
Western Regional Sales Office: 21601 Vanowen Street ,
Suite 205 , Canoga Park , CA 91303 , (818) 992-0982
• TWX : 910-322-1980 . FAX : 818-992-1658
INTERNATIONAL SALES OFFICES
Germany. Austria and Switzerland General Instrument Deutschland
GmbH , FreischutzstraBe 96 , 8000 Munchen 81 , W. Germany, Tel : (0-89)
95997-0 . Telex : 524523 . FAX : 9-011-49-89-957-0489
France General Instrument France , 9/11 Rue G. Enesco , 94008
Creteil , Tel : 33 (1) 43771263 . Telex : 262435 . FAX : (33) 143991524
Italy General Instrument Italia S.R.L. , Via Cantu 11-20092
Cinisello Balsamo , Milano, Tel : 02/66010274-6601028566010287 . Telex : 320348 . FAX : 02/66010324
United Kingdom General Instrument (UK) Ltd. , Power Semiconductor
Div., Chelworth Industrial Estate , Cricklade , Swindon , Wiltshire , England
SN6 6HO . Tel : (0793) 752307 . FAX : (0793) 751419
Power Semiconductor Div.-Semitron Industries Ltd ., Chelworth Industrial
Estate , Cricklade , Swindon , Wiltshire , England SN6 6HO
Tel : (0793) 751151 • FAX : (0793) 751808 . Telex : 44848
Taiwan General Instrument of Taiwan , Ltd ., 233 Pao Chiao
Road , Hsin Tien , Taipei , Taiwan , Tel : 9113860
• FAX : 9-011-8862-917-5991
Japan General Instrument Japan, Ltd .. 5F4-1-13 Toranomon ,
Minato-Ku , Tokyo , Japan , 105 Tel: (03) 437-0281
• FAX : 9-011-81-3434-3938 (G IJ)
Hong Kong General Instrument Hong Kong Ltd ., Rm . 1104-1107.
Tower B, Mandarin Plaza , 14 Science Museum Road ,
Tsimshatsui East , Kowloon , Hong Kong , Tel : 3-7226577
• Telex : 54606 GIHKHX . FAX : (852) 3-7239239
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