1992_GI_Power_Semiconductor_Data_Book 1992 GI Power Semiconductor Data Book

User Manual: 1992_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 semiconductor products. The corporation, which has
been in existence over 50 years, has manufacturing and sales locations
throughout the world serving all major electronic markets.
The Power Semiconductor Division, a leading producer of discrete semiconductor devices has manufacturing facilities in the United States and
the Far East. 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 mounts. Advanced junction technologies include
double diffusion, double diffused fast and ultra-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 over ten years ago increased rectifie; 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 controls are of the utmost importance
since they constitute for our customers, 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.

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SYMBOLS
CJ
IF
I(AY)
IFSM
10
IR
Irr
IRSM
IT

Junction Capacitance
Forward Current
Average Forward Rectnier Current
Peak Forward Surge Current
Mean Forward Current
Reverse Leakage Current
Reverse Recovery Current
Maximum Non-Repetitive Reverse Peak Current
On-State Test Current
I~
Rating for Fusing
Po
Steady State Power Dissipation
PPK
Peak Power Dissipation
ReJA Thermal Resistance (Junction to Ambient)
ReJC Thermal Resistance(Junction to Case)
ReJL Thermal Resistance (Junction to Lead)
TA
Ambient Temperature (Stand-off Voltage)
Tc
Case Temperature

TJ
Tl
t,
trr
VBR
VFM
VFR
VR
VRM
VRMS
VRRM
VRSM
Vc
VRWM
Vz
Zk

Junction Temperature
Lead Temperature
Rise Time
Reverse Recovery Time
Reverse Breakdown Voltage
Instantaneous Forward Voltage
Forward Recovery Voltage
Dc Reverse Voltage
Maximum Recurrent Peak Reverse Voltage
RMS Input Voltage
Repetitive Peak Reverse Voltage
Maximum Non-Repetitive Peak Reverse Voltage
Clamping Voltage at IRSM
Working Peak Reverse Voltage
Zener Voltage
Dynamic Impedance

DRAWINGS
All dimensions are 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.

INsHMir
-2-

CONTENTS
POWER
SEMICONDUCTOR
DIVISION

DATA BOOK
10 th Edition

General Information
Introduction . . . . . . . . . . . . . . . • . . . • . . . . . . . . . . . 1
Symbols . . . . . . . . . . . . . . . . • . . . . . • . . . . . • . . . . 2
Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Numerical Index . . . . . . . . . . . . . . . . • . . . . . . . . . . . 5
Quality Aaaurance
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Test Conditions . . . . . . . . . . . . . . • . . . . . . . . . . . . . . 17
High Reliability-Test Capabilities . . . . . . . . • . . . . . . . . . . 18
Military Approved Rectifiers
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
List of approved JAN-JANTX devices . . . . . . . . . . . . . . . . . 23
JAN, JANTX, JANTXV devices 0.2 to 6.0 AMP . . . . . . . . . . . 24
Schottky Rectifiers
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
Quick Selector Guide . • . . . . . . . . . . . . . . . . . . . . . . • . 48
Axial Plastic Schottky RectHiers 0.6 to 5.0 AMP . . . . . . • . . • . 51
Medium Current Schottky RectHiers 7.5 to 40 AMP . . . . . . . . . . 71
Fast Efficient Rectifiers
Introduction . . . . . . . . . . . . . . . . . • . . . . . . . . . . . . .167
Quick Selector Guide . . . . . . . . . . • . . . . . . . . . . . . . . .168
Glass Passivated Fast Efficient Rectifiers 1.0 to 6.0 AMP . . . . . . 171
Fast Efficient SuperectHier 1.0 to 5.0 AMP . . . . . • • • . . . . . . 193
Plastic Fast Efficient Rectifiers 1.0 to 3.0 AMP . • . . . . . . . . . .203
Medium Current Fast Efficient RectHiers 6.0 to 30 AMP . . . . . . .209
Superectlflers
Introduction . . . . . . . . . . . . . . . • . . . . . . . . . . . . . . .240
Quick Selector Guide
.............
. .. 241
Zener Regulator Diode 1.5 Watt . . . . . . . . . . . . . . . . . . . .275
Fast Recovery Superectifiers 0.4 to 3.0 AMP . . . . . . . . . . . . . 279
Miniature GPP Plastic Rectifier 1.0 AMP . . . . . . . . . . . . . . . 303
Glass Rectifiers

I

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .309
Quick Selector Guide . . . . . . . . . . . . . . . . . . . . . . . . . .313
High Vo~age Glass Passivated RectHiers 1.0 to 3.0 AMP . . . . . . 337
Fast Recovery Glass Passivated Rectifiers 1.0 to 3.0 AMP . . . . . 349
Plastic Rectifiers

I
I
I

Introduction . . . . . . . . . . . . . . . . . . • . . • . . . . . . . . .371
Quick Selector Guide . . . . . . . . . . . . . • . . . . . . . . . . . .375
Plastic Rectifiers 1.0 to 8.0 AMP . . . . . . . • . . . . . . . . . . . .376
Fast Recovery Plastic Rectifiers 1.0 to 6 AMP . . . . . . . . . . . . 397
Bridge Rectifiers
Introduction . . . . . . . . . . . . . . . . • . . . . . . . . . . . . . .417
Quick Selector Guide . . . . . . . . . . . . .
. . .420
Bridge RectHiers 0.9 to 35 Amps . . . . . . .
.
.. .422
Surface Mounted Bridge RectHiers 1.0 AMP . . . . . . . . . . . . .475
Surfaca Mounted Rectifiers
Introduction . . . . . . . . . . . . . . . . . . . . • . . . . • . . . . . 481
Quick Selector Guide . . . . . . . . . . . . . . . . . . . . . . . . . .483
Surface Mounted Rectifier 3.0 AMP . . . . . • . . . . . . . . . . . . 486
Transient Voltsge Suppressor
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 553
Application Notes
Schottky Rectifier . . . . . . . . . . . . . . . . . . . . . . . . . . . . 597
Transient Voltage Suppressor . . . . . . . . . . • . . . . . . . . . .601
Surface Mount Superectifier . . . . . . . . . . . . . . . . . . . . . .605
Thyristor Surge Suppressor \Transient Voltage Suppressor . . . . . 609
Standard Rectifiers . . . . . . . . . . . . • . . • . . . . . . . . . . . 613
Transient Voltage Suppressor - Automotive . . . . . . . • . . . . . . 617
Packaging
Published January, 1992

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Information
. . . . . . . . . . . . . . . . . . . . . . . . . . . • . .621
Sales Offices and Distributors
Information

. . . . . . . . . . . . . . . . . • . . . . . . . . . . . . .629

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NUMERICAL INDEX
1.5KA10 .....•..... 566
1.5KA1OA .......... 566
1.5KA11 ........... 566
1.5KAllA .......... 566
1.5KA12 ........... 566
1.5KA12A .......... 566
1.5KA13 ........... 566
1.5KAl3A .......... 566
1.5KA15 ..........• 566
1.5KA15A .......... 566
1.5KA16 ........... 566
1.5KA16A .......... 566
1.5KA18 ........... 566
1.5KA18A .•........ 566
1.5KA20 ........... 566
1.5KA2OA .......... 566
1.5KA22 ........... 566
1.5KA22A ....•..... 566
1.5KA24 ........... 566
1.5KA24A .........• 566
1.5KA27 ........... 566
1.5KA27A .......... 566
1.5KA3O ........... 566
1.5KA3OA .......... 566
1.5KA33 ........... 566
1.5KA33A .......... 566
1.5KA36 ........... 566
1.5KA36A ....•..... 566
1.5KA39 ........... 566
1.5KA39A .........• 566
1.5KA43 ........... 566
1.5KA43A .......... 566
1.5KA6.S .......... 566
1.5KA6.8A ......... 566
1.5KA7.5 .......... 566
1.5KA7.5A .....•... 566
1.5KAB.2 .......... 566
1.5KA8.2A ......... 566
1.5KA9.1 .......... 566
1.5KA9.1A ......... 566
1.5KE10 ........... 586
1.5KE100 .......... 586
1.5KE100A .....••.. 586
1.5KE10A .......... 586
1.5KEll ........... 586
1.5KEll0 .......... 586
1.5KEllOA ......... 586
1.5KEllA .......... 586
1.5KE12 ......•.... 586
1.5KE120 .......... 586
1.5KE12OA ......... 586
1.5KEl2A .......... 586
1.5KE13 ........... 586
1.5KE130 .....•.... 586
1.5KE13OA ......... 586
1.5KE13A ••........ 586
1.5KE15 ........... 586
1.5KE150 .......... 586
1.5KE150A ......... 586
1.5KE15A .......... 586
1.5KE16 ........... 586
1.5KEl60 .......... 586
1.5KE160A ......•.. 586

1.5KE16A .......... 586
1.5KE170 .......... 586
1.5KE170A ......... 586
1.5KE18 ........... 586
1.5KE180 .......... 586
1.5KE180A ......... 586
1.5KEl8A .......... 586
1.5KE2O ........... 586
1.5KE200 .......... 586
1.5KE200A ......... 586
1.5KE20A .......... 586
1.5KE22 ........... 586
1.5KE220 .......... 586
1.5KE220A ......... 586
1.5KE22A .......... 586
1.5KE24 ........... 586
1.5KE24A .......... 586
1.5KE250 .......... 586
1.5KE250A ......... 586
1.5KE27 ........... 586
1.5KE27A .......... 586
1.5KE30 ........... 586
1.5KE300 .......... 586
1.5KE300A ......... 586
1.5KE3OA .......... 586
1.5KE33 ........... 586
1.5KE33A .......... 586
1.5KE350 .......... 586
1.5KE350A ......... 586
1.5KE36 ........... 586
1.5KE36A .......... 586
1.5KE39 ........... 586
1.5KE39A .......... 586
1.5KE40 ........... 586
1.5KE400 .......... 586
1.5KE400A ......... 586
1.5KE40A .......... 586
1.5KE43 ........... 586
1.5KE43A .......... 586
1.5KE47 ........... 586
1.5KE47A .......... 586
1.5KE51 ........... 586
1.5KE51A .......... 586
1.5KE56 ........... 586
1.5KE56A .......... 586
1.5KE6.8 ........... 586
1.5KE6.8A ......... 586
1.5KE62 ........... 586
1.5KE62A .......... 586
1.5KE68 ........... 586
1.5KE68A .......... 586
1.5KE7.5 ........... 586
1.5KE7.5A ......... 586
1.5KE75 ........... 586
1.5KE75A .......... 586
1.5KE8.2 .........•. 586
1.5KES.2A ......... 586
1.5KE82 ........... 586
1.5KE82A .......... 586
1.5KE9.1 ........... 586
1.5KE9.1A ......... 586
1.5KE91 ........... 586
1.5KE91A .......... 586

lN3611GP ......... 250
lN3612GP ......... 250
lN3613GP ......... 250
lN3614GP ......... 250
1N39576GP ........ 250
lN4001 ............ 376
lN4001GP ......... 252
lN4002 ............ 376
lN4002GP ......... 252
lN4003 ............ 376
1N4003GP ....•.... 252
lN4004 ......•.•... 376
lN4004GP ......... 252
lN4005 ...•..•..... 376
lN4005GP ......... 252
lN4006 ............ 376
lN4006GP ......... 252
lN4007 •.•...•...•. 376
lN4007GP ......... 252
lN4245 ......•....• 318
lN4245GP ......... 254
lN4246 ..........•. 318
lN4246GP ......... 254
lN4247 ............ 318
lN4247GP ......... 254
lN4248 •.•......... 318
lN4248GP ......... 254
lN4249 ............ 318
lN4249GP ......... 254
lN4383GP ......... 258
lN4384GP ......... 258
lN4385GP ......... 258
1N4585GP ......... 258
lN4586GP ......... 258
lN483B ........... 314
lN485B ........... 314
lN486B ........... 314
lN4933 ..........•. 398
lN4933GP ......... 284
lN4934 ........•.•. 398
lN4934GP ......... 284
lN4935 ............ 398
lN4935GP ......... 284
lN4936 ............ 398
lN4936GP ......... 284
lN4937 ............ 398
lN4937GP ......... 284
lN4942 ............ 350
lN4942GP ......... 286
lN4944 ............ 350
lN4944GP ......... 286
lN4946 ............ 350
lN4946GP ......... 286
lN4947 .....•...... 350
lN4947GP ......... 286
lN4948 .....•...... 350
lN4948GP ......... 286
lN5059 •....•.....• 32O
lN5059GP ......... 260
lN5060 ..••.•...... 32O
lN5060GP ......... 260
lN5061 ............ 320
lN5061GP ......... 260

-5-

lN5062 ............ 320
1N5062GP ......... 260
lN5391 ............ 380
lN5391GP ......... 262
lN5392 •.••.•..•..• 380
lN5392GP ......... 262
lN5393 ............ 380
lN5393GP ......... 262
lN5394 •..•.•....•. 380
lN5394GP ......... 262
lN5395 •....•..•... 380
lN5395GP ......... 262
lN5396 ............ 380
lN5396GP ......... 262
lN5397 ............ 380
lN5397GP ......... 262
lN5398 ............ 380
lN5498GP ......... 262
lN5399 ......•.•... 380
1N5399GP ......... 262
lN5400 ............ 382
lN5401 ............ 382
lN5402 ............ 382
lN5403 ............ 382
lN5404 ............ 382
lN5405 ............ 382
lN5406 ............ 382
lN5407 ....•....... 382
lN5408 ............ 382
lN5415 ....•....•.. 362
lN5416 ............ 362
lN5417 ............ 362
lN5418 ...•....•.•. 362
lN5419 ............ 362
lN542O .....•...... 362
lN5550 ............ 328
lN5551 ............ 328
lN5552 .....•...... 328
lN5553 ............ 328
lN5554 ............ 328
lN5614 ..•......... 322
lN5615 ............ 352
lN5615GP ......... 290
lN5616 ...........• 322
lN5617 ............ 352
1N5617GP ......... 290
lN5618 .....•...... 322
lN5619 .....•..•... 352
lN5619GP ......... 290
lN562O .....•...... 322
lN5621 ............ 352
1N5621 GP ......... 290
lN5622 •..•.•...... 322
lN5623 •........•.. 352
1N5623GP ......... 290
lN5624 ......•..•.. 330
lN5624GP ......... 270
lN5625 .....•...... 330
lN5625GP .. .... .. 270
lN5626 ............ 330
lN5626GP ......... 270
lN5627 ............ 330
lN5627GP ......... 270

NUMERICAL INDEX
lNS817 ............ 54
lN5818 ............ 54
1N5819 ............ 54
lN5820 ............ 60
lN5821 ............ 60
lN5822 ............ 60
lN645 ............ 316
lN646 ............ 316
lN647 ............ 316
lN648 ............ 316
lN649 ............ 316
lN6267 ........... 586
lN6267A .......... 586
lN6268 ........... 586
1N6268A .......... 586
lN6269 ........... 586
1N6269A .......... 586
lN6270 ........... 586
1N6270A .......... 586
lN6271 ........... 586
lN6271A .......... 586
lN6272 ..•........ 586
1N6272A .......... 586
lN6273 ........... 586
1N6273A .......... 586
lN6274 ........... 586
lN6274A .......... 586
lN6275 ........... 586
lN6275A .......... 586
lN6276 ........... 586
1N6276A .......... 586
lN6277 ........... 586
lN6277A .......... 586
lN6278 .....•..... 586
lN6278A .......... 586
lN6279 ........... 586
lN6279A .......... 586
lN6280 ........... 586
lN6280A .......... 586
lN6281 ........... 586
lN6281A .......... 586
lN6282 ........... 586
1N6282A .......... 586
lN6283 ........... 586
1N6283A .......... 586
lN6284 ........... 586
1N6284A .......... 586
lN6285 ........... 586
lN6285A .......... 586
lN6286 ........... 586
1N6286A .......... 586
lN6287 ........... 586
lN6287A .......... 586
lN6288 ........... 586
1N6286A .......... 586
lN6289 ........... 586
1N6289A .......... 586
lN6290 ........... 586
1N6290A .......... 586
lN6291 ........... 586
lN6291A .......... 586
lN6292 ........... 586
1N6292A .......... 586

lN6293 ............ 586
1N6293A ........... 586
lN6294 ............ 586
1N6294A ........... 586
lN6295 .•.......... 586
1N6295A ........... 586
lN6296 ............ 586
1N6296A ........... 586
lN6297 ............ 586
1N6297A ........... 586
lN6298 ............ 586
1N6298A ........... 586
lN6299 .... : ....... 586
1N6299A ........... 586
lN6300 ............ 586
1N6300A .....•..... 586
lN6301 ............ 586
lN6301A ........... 586
lN6302 ............ 586
1N6302A ........... 586
lN6303 ............ 586
1N6303A ........... 586
lN6478 ............ 492
lN6479 ............ 492
lN6480 ............ 492
lN6481 ............ 492
lN6482 ............ 492
lN6483 ............ 492
lN6484 ............ 492
2KBPOO5M ......... 438
2KBPOl M .......... 438
2KBP02M .......... 438
2KBP04M .......... 438
2KSP06M ......... .438
2KBP08M .......... 438
2KBP10M ......... .438
2WOOSG ........... 436
2W01G ............ 436
2W02G ............ 436
2W04G ............ 436
2W06G ............ 436
2W08G ............ 436
2Wl0G ............ 436
3N246 ............. 432
3N247 ............. 432
3N248 ............. 432
3N249 ............. 432
3N250 ............. 432
3N251 ............. 432
3N252 ............. 432
3N253 ............. 438
3N254 ............. 438
3N255 ............. 438
3N256 ............. 438
3N257 ............. 438
3N258 ............. 438
3N259 ............. 438
5KP10 ............. 590
5KP100 ............ 590
5KP100A .......... 590
5KP10A ........... 590
5KP11 ............. 590
5KPll0 ............ 590

5KP110A .......... 590
5KPllA ........... 590
5KP12 .....•....... 590
5KPl2A ........... 590
5KP13 ........•.... 590
5KPl3A ........... 590
5KP14 •....•.••.... 590
5KPl4A ........... 590
5KP15 .........•... 590
5KPl5A ........... 590
5KP16 .•...•......• 590
5KPl6A ........... 590
5KP17 ......•.•.... 590
5KP17A ........... 590
5KP18 ............• 590
5KPl8A ........... 590
5KP20 .•........... 590
5KP20A ........... 590
5KP22 ............. 590
5KP22A ........... 590
SKP24.. ........... 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.OA •...•.....• 590
5KP6.5 ............ 590
5KP6.5A ........... 590
5KP60 ............. 590
5KP60A ........... 590
5KP64 ......•...... 590
5KP64A ........... 590
5KP7.0 ............ 590
5KP7.0A ........... 590
5KP7.5 .•...••..... 590
5KP7.5A ........... 590
5KP70 .......•..... 590
5KP70A ........... 590
5KP75 ............. 590

·6·

5KP75A ........... 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
AGP15·2oo ...••.... 286
AGPl5-4oo ......... 286
AGP15-6oo ......... 286
AGPl5-800 ......... 266
B125Cl0000 ....... 428
B125C1SOOO ....... 434
B125CSOOG ........ 422
B125C800DM ....... 424
B2SOCloooo ....... 428
B250C150OO ....... 434
B250C800G ........ 422
B2SOC800DM ....... 424
B380Cl000G ....... 428
B380C1500G •...... 434
B380CSOOG ........ 422
B380C800DM ....... 424
B4OC1000G ........ 428
B40C1500G ........ 434
B4OC8OOG ......... 422
B4OC800DM ........ 424
B8OC1500G ........ 434
B8OC800G ......... 422
B80Cl000G ........ 428
B8OC800DM ........ 424
BA 157GP .......... 282
BAl58GP .......... 282
BA159DGP ......... 282
BY159GP .......... 282
BY228 ............. 344
BY396P ........... 408
BY397P ........... 408
BY398P ........... 408
BY399P .......... .408
BY50o-100 ......... 410
BY500-2oo ......... 410
BY5OQ.400 ......... 410
BY500-600 ......... 410
BY500·SOO ......... 410
BYM05-100 ........ 486
BYM05-200 ........ 486
BYM05·400 ........ 486
BYM05·SO ......... 486
BYM05-600 ........ 486
BYM06·100 ........ 488
BYM06·200 ........ 488
BYM06-400 ........ 488
SYMOS-SO ......... 488
BYM06-600 ........ 488
BYM07·100 .......• 490
BYM07·150 ........ 490

NUMERICAL INDEX
BYM07-200 •••••••• 490
BYM07-300 •••••••• 490
BYM07-400 •••••••• 490
BYM07-50 ......... 490
BYM1()'100 ........ 494
BYM10A-1000 ...... 494
BYM1 ()'200 ........ 494
BYM1 ().400 ........ 494
BYM1 ()'50 ......... 494
BYM1().6()0 ........ 494
BYM10A-800 ••••••• 494
BYM11-100 ........ 496
BYM11-1000 ....... 496
BYM11-200 ........ 496
BYMl1-400 ........ 496
BYM11-50 ......... 496
BYM11-600 ........ 496
BYM11-800 ........ 496
BYM12-100 •••••••• 498
BYM12-150 •••••••• 498
BYM12-200 •••••••• 498
BYM12-300 •••••••• 498
BYM12-400 ........ 498
BYM12-50 ......... 498
BYM13-2O ......... 504
BYM13-30 ......... 504
BYM13-40 ......... 504
BYM13-50 ......... 504
BYM13-60 ••••••••• 504
BYV27-100 ......... 178
BYV27-150 ......... 178
BYV27-200 ......... 178
BYV27-50 .......... 178
BYV28-50 .......... 184
BYV2B-100 ......... 184
BYV2B-150 ......... 184
BYV2B-200 ......... 184
BYV32-50 .......... 232
BYV32-100 •.......• 232
BYV32-150 .....•... 232
BYV32-200 ......... 232
BYV95A ........... 356
BYV95B ........... 356
BYV95C ........... 356
BYV96D ........... 356
BYV96E ........... 356
BYW29-50 ......... 220
BYW29-100 ........ 220
BYW29-150 ........ 220
BYW29-200 ........ 220
BYW32 ............ 360
BYW33 ............ 360
BYW34 ............ 360
BYW35 ..•• " ....... 360
BYW36 ............ 360
BYW72 ............ 368
BYW73 ............ 388
BYW74 ............ 388
BYW75 ............ 368
BYW76 ............ 368
BZW04-10 ••••••••• 574
BZW04-102 •••••••• 574
BZW04-11 ......... 574

BZW04-111 ........ 574
BZW04-128 ........ 574
BZW04-13 ......... 574
BZW04-136 ........ 574
BZW04-14 ......... 574
BZW04-145 ........ 574
BZW04-15 ......... 574
BZW04-154 ........ 574
BZW04-17 ......... 574
BZW04-171 ........ 574
BZW04-188 ........ 574
BZW04-19 ......... 574
BZW04-2O ......... 574
BZW04-213 ........ 574
BZW04-23 ......... 574
BZW04-239 ........ 574
BZW04-256 ........ 574
BZW04-26 ......... 574
BZW04-273 ........ 574
BZW04-28 ......... 574
BZW04-299 ........ 574
BZW04-31 ......... 574
BZW04-33 ......... 574
BZW04-342 ........ 574
BZW04-37 ......... 574
BZW04-376 ........ 574
BZW04-40 ......... 574
BZW04-44 ......... 574
BZW04-48 ......... 574
BZW04-53 ......... 574
BZW04-58 ......... 574
BZW04-5V8 ........ 574
BZW04-64 ......... 574
BZW04-6V4 ........ 574
BZW04-70 ......... 574
BZW04-78 ......... 574
BZW04-7VO ........ 574
BZW04-7V8 ........ 574
BZW04-85 ......... 574
BZW04-8V5 ........ 574
BZW04-94 ......... 574
BZW04P-10 ........ 574
BZW04P-102 ....••• 574
BZW04P-11 ........ 574
BZW04P-111 ....... 574
BZW04P-128 •..•.•• 574
BZW04P-13 ........ 574
BZW04P-136 ....... 574
BZW04P-14 ........ 574
BZW04P-145 ....... 574
BZW04P-15 •••••.•. 574
BZW04P-154 •••.•.• 574
BZW04P-17 ........ 574
BZW04P-171 ....... 574
BZW04P-188 ....... 574
BZW04P-19 ........ 574
BZW04P-2O •••••... 574
BZW04P-213 ••.. , •• 574
BZW04P-23 ........ 574
BZW04P-239 ..••..• 574
BZW04P-256 ••••••• 574
BZW04P-26 ••••••.. 574
BZW04P273 •.••••.. 574

BZW04P28 ........ 574
BZW04P299 •••..•• 574
BZW04P31 ........ 574
BZW04-33 ......... 574
BZW04P342 ••••••• 574
BZW04P37 ........ 574
BZW04P376 •••..•• 574
BZW04P40 ........ 574
BZW04P44 ........ 574
BZW04P48 ........ 574
BZW04P53 ........ 574
BZW04P58 ........ 574
BZW04P5V8 ••••••• 574
BZW04P64 ........ 574
BZW04P70 ........ 574
BZW04P78 ........ 574
BZW04P7VO ••••..• 574
BZW04P7V8 •..•••• 574
BZWW04P85 ••.•••• 574
BZW04P8V4 ••.•..• 574
BZW04P8V5 ••••.•• 574
BZW04P94 ........ 574
BZW04P9V4 ••.•••. 574
CG1 .............. 338
CG2 .............. 342
CG3 .............. 346
DFOO5M ........... 428
DFOO5S ........... 478
DF01M •••.•••••••• 426
DF01S ............ 478
DF02M ............ 426
DF02S ............ 478
DF04M ............ 426
DF04S ............ 478
DF06M ............ 426
DF06S ............ 478
DFOBM ............ 426
DFOBS ............ 478
DF1OM .....•..•••• 426
DF10S ............ 478
001 .............. 338
002 .............. 342
003 .............. 346
EDF1AM .......... 472
EDF1AS ........... 474
EDF1BM .......... 472
EDF1BS ........... 474
EDF1CM .......... 472
EDF1CS .......... 474
EDF1DM .......... 472
EDF1DS .......... 474
EGL34A ........... 490
EGL34B ........... 490
EGL34C ............ 490
EGL34D ........... 490
EGL34F ........... 490
EGL34G ........... 490
EGL41A ••.•.•••••• 498
EGL41B •.••.•••••• 498
EGL41C ........... 498
EGL41D ........... 498
EGL41F ........... 498
EGL41G ........... 498

-7-

EGP10A ........... 194
EGP10B •..•••••••• 194
EGP1OC •...••••••• 194
EGP10D ........... 194
EGP10F ........... 194
EGP10G ••••••..•.. 194
EGP20A ........... 196
EGP20B ••••••••••• 196
EGP20C ........... 196
EGP2OD ..••••••••• 196
EGP20F ••••••••••• 196
EGP2OG •.••••••••• 196
EGP30A ••••••••••• 198
EGP30B ••••••••••• 198
EGP30C ........... 198
EGP30D ........... 198
EGP30F ........... 198
EGP3OG ••••••••••• 198
EGP50A ........... 200
EGP50B ........... 200
EGP50C ........... 200
EGP50D ........... 200
EGP50F ........... 200
EGP50G ........... 200
ES1A ............. 514
ES1B ............. 514
ES1C ............. 514
ES1D ............. 514
ES2A ............. 528
ES2B ............. 528
ES2C ............. 528
ES2D ............. 528
ES3A ............. 542
ES3B ............. 542
ES3C ............. 542
ES3D ............. 542
FE1A ............. 172
FE1B ............. 172
FE1C ............. 172
FE1D ............. 172
FE2A ............. 176
FE2B ............. 176
FE2C ............. 176
FE2D ............. 176
FE3A ............. 182
FE3B ............. 182
FE3C ............. 182
FE3D ............. 182
FE5A ............. 186
FE5B ............. 186
FE5C ............. 186
FE5D ............. 186
FE6A ............. 188
FESB ............. 188
·FE6C ............. 188
FE6D ............. 188
FEP16AT ..•••••••• 228
FEP16BT •••••••••• 228
FEP16CT .......... 228
FEP16DT .......... 228
FEP16FT .......... 228
FEP16GT ••••••••.• 228
FEP16HT .......... 228

NUMERICAL INDEX
FEP1SJT .......... 228
FEP6AT .....•.•... 212
FEP6BT ........... 212
FEP6CT ........... 212
FEP6DT ........... 212
FEPFl6AT ......... 226
FEPF16BT ••....... 226
FEPFl6CT •...••... 226
FEPF16DT ...• , •... 226
FEPF16FT ......... 226
FEPF1SGT ...••.... 226
FEPF16HT ......... 226
FEPF1SJT ......... 226
FEPF30AP ......•.. 234
FEPF30BP ......... 234
FEPF30CP .......•. 234
FEPF30DP ......••. 234
FEPF30FP ......... 234
FEPF30GP ......... 234
FEPF30HP ......... 234
FEPF30JP ......... 234
FEPF6AT .......... 210
FEPF6BT ..•...•... 210
FEPF6CT .......•.. 210
FEPF6DT .......... 210
FEP30AP .......... 236
FEP30BP .......••. 236
FEP30CP .......... 236
FEP30DP .......... 236
FEP30FP .......... 236
FEP30GP •.•.....•. 236
FEP30HP .......... 236
FEP30JP .•......•• 236
FES8AT ........... 216
FES8BT ••...•...•. 216
FES8CT ........... 216
FES8DT ........... 216
FES8FT •......•... 216
FES8GT ........... 216
FES8HT ........... 216
FESSJT ........... 216
FESl6AT .......... 224
FES16BT .......... 224
FES16CT .......... 224
FES16DT .......•.. 224
FES16FT .......... 224
FES1SGT •......... 224
FES16HT .......... 224
FES1SJT .......... 224
FESFBAT .......... 214
FESF8BT ...•.•.... 214
FESFBCT ....••...• 214
FESF8DT ..••...... 214
FESF8FT •......... 214
FESFBGT ..... '" .. 214
FESF8HT .....•.... 214
FESFSJT .......... 214
FESF16AT ......... 222
FESF16BT ....••... 222
FESFl6CT ..•.. " .. 222
FESF16DT ......... 222
FESF16FT ......... 222
FESF1SGT ...•..... 222

FESF16HT ......... 222
FESF1SJT ......... 222
GIA .............. 324
G1B .............. 324
G1D .............. 324
G1G .............. 324
G1J ............... 324
G1K .............. 324
GIM .............. 324
G2A .............. 326
G2B .............. 326
G2D .............. 326
G2G .............. 326
G2J ............... 326
G2K .............. 326
G2M .............. 326
G3A .............. 332
G3B .............. 332
G3D .............. 332
G3G .............. 332
G3J ............... 332
G3K .............. 332
G3M .............. 332
G4A .............. 334
G4B .............. 334
G4D .............. 334
G4G .............. 334
G4J ............... 334
G4K .............. 334
G4M .............•. 334
GBL005 ........... 442
GBlOl ............ 442
GBL02 ............ 442
GBl04 ............ 442
GBl06 ............ 442
GBl08 ............ 442
GBL10 ............ 442
GBPCl005 ......... 440
GBPC101 .......... 440
GBPC102 .......... 440
GBPC104 .......... 440
GBPC106 .......... 440
GBPC108 .......... 440
GBPCll0 .......... 440
GBPC6oo5 ......... 454
GBPC601 .......... 454
GBPC602 .......... 454
GBPC604 .......... 454
GBPC606 .......... 454
GBPC608 .......... 454
GBPC610 .......... 454
GBPCB005 ......... 456
GBPCBOl .......... 456
GBPC802 ......... .456
GBPC804 .......... 456
GBPCB06 ......... .456
GBPCB08 .......... 456
GBPC810 .......... 456
GBPCla-005 ....... 462
GBPC10-ol ........ 462
GBPCla-02 ........ 462
GBPC10-04 ........ 462
GBPC10-OS ........ 462

GBPCla-08 ........ 462
GBPCla-l0 ........ 482
GBPC12-005 .•••... 464
GBPC12-01 ........ 464
GBPC12-02 ........ 464
GBPC12-04 ........ 464
GBPC12-06 ........ 464
GBPC12-08 ........ 464
GBPC12-10 ........ 464
GBPCl5-005 .•..... 464
GBPCl5-01 ........ 464
GBPCl5-02 ........ 464
GBPCl5-04 ........ 464
GBPCl5-06 ........ 464
GBPCl5-08 ........ 464
GBPCl5-10 ........ 464
GBPC25-005 ....... 464
GBPC25-01 ........ 464
GBPC25-02 ........ 464
GBPC25-04 ........ 464
GBPC25-06 ..•..... 464
GBPC25-08 ........ 464
GBPC25-10 ........ 464
GBPC35-oo5 ......• 468
GBPC35-01 ........ 468
GBPC35-02 ........ 468
GBPC35-04 ........ 468
GBPC35-06 ........ 468
GBPC35-08 ........ 468
GBPC35-10 ........ 468
GBU4A ............ 446
GBU4B ............ 446
GBU4D ............ 446
GBU4G ............ 446
GBU4J ............ 446
GBU4K ............ 446
GBU4M ............ 446
GBU6A ............ 450
GBU6B ............ 450
GBU6D ............ 450
GBUSG ....•..•..•• 450
GBUSJ ............ 450
GBU6K ............ 450
GBU6M ............ 450
GBUBA ............ 458
GBU8B ............ 458
GBU8D ...••.•...•. 458
GBU8G ....•.....•• 458
GBUSJ ............ 458
GBU8K ............ 458
GBU8M ............ 458
GFIA ............. 510
GFIB ............. 510
GF1D ............. 510
GFIG ............. 510
GF1J ......•..•.... 510
GF1K ............. 510
GFIM ............. 510
Gll-l200 .......... 340
Gll-l400 .......... 340
G11-1600 .......... 340
Gll00l ............ 174
Gll002 ...........• 174

-8-

Glloo3 ............ 174
GI1004 ............ 174
Glll0l ............ 180
Glll02 ............ 180
Glll03 ............ 180
GI1104 ............ 180
GI1301 ............ 190
GI1302 ............ 190
GI1303 ............ 190
GI1304 ............ 190
GI1401 ............ 218
GI1402 ............ 218
G11403 ............ 218
GI1404 ............ 218
G12401 ..•.....•.•. 230
GI2402 ............ 230
GI2403 ............ 230
GI2404 .......•.... 230
G125a-l ............ 246
G1250-2 ••.•.....•.. 246
GI250-3 ............ 246
GI250-4 ............ 246
GISOO ....••.....•. 384
GI501 ........•.... 384
GI502 ............. 384
G1504 ............. 384
G1506 ............. 384
GI508 ............. 384
GI510 ............. 384
G1750 ..•.......... 388
GI751 ............. 388
GI752 ............. 388
GI754 ............. 388
GI756 ............. 388
G1758 .........•... 388
GI810 ....••....... 292
GI811 ............. 292
GI812 ......•..•... 292
GI814 ............. 292
GI816 •...•....••.. 292
GI817 .......•..... 292
GI818 .....•...•... 292
G1820 .......•.... .412
GI821 ............. 412
GI822 ............ .412
GI824 ............. 412
GI826 ............ .412
Gla50 ............. 402
GI851 ............. 402
GI852 ...........• .402
GI854 ............. 402
GI856 ............ .402·
GI910 ............ .448
GI911 ............. 448
GI912 ............. 448
GI914 ............ .448
GI916 ............. 448
GI917 ............. 448
Gl34A ....•........ 486
Gl34B ............. 486
Gl34D .......•..... 486
Gl34G •..........•. 486
GL34J ............ .486

NUMERICAL INDEX
GL34K ............ 486
GL41A ............ 494
GL41B ............ 494
GL41D ............ 494
GL41G ............ 494
GL41J ............ 494
GL41K ............ 494
GL41M ............ 494
GLL4735 ....•..... 500
GLL4736 .......... 500
GLL4737 .......... 500
GLL4738 .......... 500
GLL4739 .......... 500
GLL4740 .......... 500
GLL4741 .......... 500
GLL4742 .......... 500
GLL4743 .......... 500
GLL4744 .......... 500
GLL4745 .......... 500
GLL4746 .......... 500
GLL4747 .......... 500
GLL4748 .......... 500
GLL4749 .......... 500
GLL4750 .......... 500
GLL4751 .......... 500
GLL4752 .......... 500
GLL4753 .......... 500
GLL4754 .......... 500
GLL4755 .......... 500
GLL4756 .......... 500
GLL4757 .......... 500
GLL4758 .......... 500
GLL4759 ...•..•... 500
GLL4760 .......... 500
GLL4761 .......... 500
GLL4762 .......... 500
GLL4763 .......... 500
GP02-20 ........... 244
GP02-25 ........... 244
GP02-3O ........... 244
GP02-35 ........... 244
GP02-4O ..........• 244
GP08A ............ 248
GP08B ............ 248
GP08D ............ 248
GP08G ............ 248
GPOSJ ............ 248
GP10A ....•....... 256
GP10B ............ 256
GP10D ............ 256
GP10G ..•.•.•..... 256
GP10J ............ 256
GP10K ............ 256
GP10M .......••••• 256
GP10N ....•....... 256
GP10Q ............ 256
GP10T ......•.•... 256
GP10V ..•......... 256
GP10W ...•..... :. 256
GP10Y •........... 256
GP15A ............ 264
GP15B ..•......... 264
GP15D ............ 264

GPl5G ............ 264
GPl5J .•........... 264
GP15K ............ 264
GP15M ............ 264
GP20A ............ 268
GP20B ............ 268
GP20D ............ 268
GP20G ............ 268
GP2OJ .....•....... 268
GP30A ............ 272
GP30B ............ 272
GP30D ............ 272
GP30G ............ 272
GP3OJ ............. 272
GP30K ............ 272
GP30M ............ 272
'J,JTXl N3611 ....... 28
'J,JTX1N3612 ....... 28
'J,JTX1N3613 ....... 28
'J,JTX1N3614 ....... 28
'J,JTX1N3957 ....... 28
'J,JTX1N483B ....... 24
'J,JTX1N485B ....... 24
'J,JTX1N486B ...•... 24
'J,JTX1N4245 ....... 30
'J,JTX1N4246 ....... 30
'J,JTX1N4247 ....... 30
'J,JTX1N4248 .•..... 30
'J,JTX1N4249 ....... 30
'J,JTX1N4942 ....... 32
'J,JTX1N4944 ....... 32
'J,JTX1N4946 ....•.. 32
'J,JTX1N4947 ....... 32
'J,JTX1N4948 ....... 32
'J,JTX1N5415 ....... 34
'J,JTX1N5416 ....... 34
'J,JTX1N5417 ....... 34
'J,JTX1N5418 ....... 34
'J,JTX1N5419 ....... 34
'J,JTX1N5420 ....... 34
'J,JTX1N5550 ....... 36
'J,JTXl N5551 ....... 36
'J,JTX1N5552 ....... 36
'J,JTX1N5553 ....... 36
'J,JTX1N5554 ....... 36
'J,JTX1N5614 ....... 40
'J,JTX1N5615 ...•... 38
'J,JTX1N5616 .•.•... 40
'J,JTX1N5617 •...... 38
'J,JTX1N5618 ....... 40
'J,JTX1N5619 ....... 38
'J,JTX1N5620 ....... 40
'J,JTX1N5621 ....... 38
'J,JTX1N5622 ....... 40
'J,JTXl N5623 ....... 38
'J,JTX1N5624 ....... 42
'J,JTX1N5625 ....... 42
'J,JTX1N5626 ....... 42
'J,JTX1N5627 ....... 42
'J,JTX1N5807 ....... 44
'J,JTX1N5809 ....... 44
'J,JTX1N5811 ....... 44
'J,JTX1N645 ........ 26

'J,JTX1N647 ........ 26
'J,JTX1N649 ........ 26
'J,JTX1N645-1 ....... 26
'J,JTX1N647-1 ....... 26
'J,JTX1N649-1 ....... 26
KBL005 ...........• 444
KBL01 ............. 444
KBL02 ............. 444
KBL04 ............. 444
KBL06 .......•.•... 444
KBL08 ............. 444
KBL10 .........•... 444
KBP005M .......... 432
KBP01M ........... 432
KBP02M ........... 432
KBP04M ........... 432
KBP06M ........... 432
KBP08M ........... 432
KBP10M ........... 432
KBU4A ............ 448
KBU4B ............ 448
KBU4D ............ 448
KBU4G ............ 448
KBU4J ............ 448
KBU4K ............ 448
KBU4M ............ 448
KBU6A ............ 452
KBU6B ............ 452
KBU6D ............ 452
KBUSG ............ 452
KBUSJ ............ 452
KBU6K ............ 452
KBU6M ............ 452
KBU8A ............ 460
KBU8B ............ 460
KBU8D ............ 460
KBU8G ............ 460
KBUSJ ............ 460
KBU8K ............ 460
KBU8M ............ 460
Ml00A ............ 378
Ml00B ............ 378
MlooD ............ 378
MlOOG ............ 378
MlooJ ............. 378
Ml00K ............ 378
MlooM ............ 378
MBR1035 ........... 86
MBR1045 ........... 86
MBR1050 ........... 88
MBR1060 ........... 88
MBR1090 ........... 90
MBR10100 .......... 90
MBR1535CT .•.•.... 104
MBRl545CT ........ 104
MBR155OCT ........ 106
MBRl56OCT ........ 106
MBRl635 .........• 112
MBRl645 .......... 112
MBR1650 .......... 114
MBRl660 .......... 114
MBR2035CT ........ 126
MBR2045CT ........ 126

, All military devices will be available in JTXV in mid 1992.

-9-

MBR2050CT ........ 128
MBR2060CT ........ 128
MBR2090CT ........ 130
MBR20100cT ....... 130
MBR2535CT ........ 140
MBR2545CT ........ 140
MBR2550CT ........ 142
MBR2560CT ........ 142
MBR3035PT ........ 148
MBR3045PT ........ 148
MBR3050PT ........ 150
MBR3060PT ........ 150
MBR4035PT ........ 162
MBR4045PT ........ 162
MBR4050PT ........ 164
MBR4060PT ........ 164
MBR735 ............ 76
MBR745 ............ 76
MBR750 ............ 78
MBR760 ............ 78
MBRF1035 .......... 80
MBRF1045 .......... 80
MBRF1050 .......... 82
MBRF1060 .......... 82
MBRF1090 .......... 84
MBRF10l00 ......... 84
MBRFl535CT ....... 100
MBRF1545CT ...•... 100
MBRF1550CT ....... 102
MBRF1560CT ....... 102
MBRFl635 ......... 108
MBRFl645 ......... 108
MBRF1650 ......... 110
MBRFl660 ......... 110
MBRF2035CT ....... 120
MBRF2045CT ...•... 120
MBRF2050CT ...•.. 122
MBRF2060CT ....... 122
MBRF2090CT ....... 124
MBRF20100CT ...... 124
MBRF2535CT ....... 136
MBRF2545CT ...•... 136
MBRF2550CT ....... 138
MBRF2560CT ....... 138
MBRF3035PT ....... 144
MBRF3045PT ..••... 144
MBRF3050PT .•..... 146
MBRF3060PT ....... 146
MBRF4035PT ....... 158
MBRF4045PT ....... 158
MBRF4050PT ....... 160
MBRF4060PT ....... 160
MBRF735 ........... 72
MBRF745 ....•...... 72
MBRF750 .•......•.. 74
MBRF760 ........... 74
MPG06A ........... 304
MPG06B ........... 304
MPG06D •.......... 304
MPGOSG ........... 304
MPGOSJ ........... 304
MPG06K ........... 304
MPG06M ........... 304

NUMERICAL INDEX
NSSAT ............ 394
NS8BT .......••... 394
NS8DT .......•.... 394
NS8GT ........•... 394
NS8JT ...........• 394
NS8KT ..•....•.... 394
NS8MT •......•.... 394
NSF8AT ..•..••.... 392
NSF8BT •..••.••... 392
NSF8DT .••.•.••..• 392
NSFSGT .........•. 392
NSF8JT ........... 392
NSF8KT .•.••...... 392
NSF8MT •..•..•.... 392
P300A .•......•..• 386
P300B .•.....•.... 386
P300D ....•...•..• 38S
P300G .•.......... 386
P3OOJ ............. 38S
P300K .•.......... 386
P300M .••......... 386
P4KA6.8 •••....•... 558
P4KA6.SA ......... 558
P4KA7.5 .....•.•... 558
P4KA7.5A .....•... 558
P4KA8.2 .........•. 558
P4KA8.2A .....•..• 558
P4KA9.1 ........... 558
P4KA9.1A .....•... 558
P4KA10 .......•... 558
P4KA10A ......•... 558
P4KAll .......•... 558
P4KAllA ......•... 558
P4KA12 .•.....•... 558
P4KA 12A ......•... 558
P4KA13 .......•... 558
P4KA13A ......•... 558
P4KA15 .......•... 558
P4KA15A .....•.... 558
P4KA16 ........... 558
P4KA16A .......... 558
P4KA18 ..•........ 558
P4KA18A .......•.. 558
P4KA20 ....••....• 558
P4KA20A .......•.• 558
P4KA22 .•......... 558
P4KA22A .......•.. 558
P4KA24 ........... 558
P4KA24A .......•.. 558
P4KA27 .••........ 558
P4KA27A .......... 558
P4KA30 .......•... 558
P4KA30A .......•.. 558
P4KA33 ..•...•.•.. 558
P4KA33A .•....•... 558
P4KA36 ..•....•... 558
P4KA36A .......... 558
P4KA39 .....•..•.. 558
P4KA39A ..•...•... 558
P4KA43 ........... 558
P4KA43A ......•... 558
P4KE10 ........... 570
P4KE100 ......•... 570

P4KE100A ......... 570
P4KE10A .......... 570
P4KEll ..•........ 570
P4KE110 .•...•.... 570
P4KEllOA ......... 570
P4KEllA .......... 570
P4KE12 ........... 570
P4KE120 .......... 570
P4KE120A ......... 570
P4KE12A •......... 570
P4KE13 ........... 570
P4KE130 .......... 570
P4KE130A ......... 570
P4KE13A ...••.•... 570
P4KE15 ...•....... 570
P4KE150 ....•.•... 570
P4KE150A ......... 570
P4KE15A ....•..... 570
P4KE16 ........... 570
P4KE1S0 ....•..... 570
P4KE160A ...•.••.. 570
P4KE16A ......•... 570
P4KE18 .......••.. 570
P4KE180 .......... 570
P4KE180A ......... 570
P4KE18A .......... 570
P4KE20 ........... 570
P4KE200 .......... 570
P4KE200A ......... 570
P4KE20A ...•....•. 570
P4KE22 ...•....... 570
P4KE220 .......••. 570
P4KE220A ......... 570
P4KE22A ......•.•. 570
P4KE24 ........... 570
P4KE24A ........•. 570
P4KE250 .......... 570
P4KE250A ......••• 570
P4KE27 ........... 570
P4KE27A .......•.. 570
P4KE30 ........... 570
P4KE300 .......... 570
P4KE300A .•....... 570
P4KE30A ......••.. 570
P4KE33 ...•....... 570
P4KE33A ....•...•. 570
P4KE350 ..•....... 570
P4KE350A ......... 570
P4KE36 ........... 570
P4KE36A .......... 570
P4KE39 ........... 570
P4KE39A .......... 570
P4KE400 .•........ 570
P4KE400A •........ 570
P4KE43 .....•.•... 570
P4KE43A ......•... 570
P4KE47 ........... 570
P4KE47A ...•...... 570
P4KE51 .....•..... 570
P4KE51A .......... 570
P4KE56 ........... 570
P4KE56A .......... 570
P4KES.8 ....•...... 570

P4KES.SA .......... 570
P4KE62 .....•..... 570
P4KE62A .......... 570
P4KES8 •••........ 570
P4KE68A .•........ 570
P4KE7.5 ••...•..•.. 570
P4KE7.5A ••..••••.. 570
P4KE75 ...•••..••• 570
P4KE75A •....•..•• 570
P4KE8.2A ..•••..••• 570
P4KE82 ...•....••• 570
P4KE82A ••..••..•• 570
P4KE9.1 ....•.•.... 570
P4KE9.1A •.•••...•. 570
P4KE91A .......... 570
P600A .......•...•• 390
P6006 ......•...... 390
P600D •...•......• 390
P600G ..........•. 390
P600J .•.•.•••...•• 390
P600K ..•..•.•..... 390
P600M ....•••.•••. 390
P6KAS.S .•......••• 562
P6KA6.SA ........•. 562
P6KA7.5 ........... 562
PSKA7.5A .......... 562
P6KA8.2 ........... 562
PSKA8.2A .......••. 5S2
P6KA9.1 ........... 562
P6KA9.1A .......... 562
PSKA10 ........... 562
P6KA10A .......... 562
PSKAll ........... 562
P6KAllA .......... 562
P6KA12 ........... 562
P6KAl2A .......... 562
P6KA13 ........... 562
P6KA 13A .......... 562
P6KA15 ........... 562
P6KA 15A .......... 562
P6KA16 ........... 562
P6KA16A .......... 562
P6KA18 ........... 562
P6KA lSA .......... 562
P6KA20 ........... 562
P6KA20A .......... 562
P6KA22 ........... 5S2
PSKA22A .......... 562
P6KA24 ...... , .... 5S2
P6KA24A .......... 562
P6KA27 ........... 562
P6KA27A .......... 5S2
P6KA30 ........... 562
P6KA30A .......... 562
P6KA33 ........... 562
P6KA33A .......... 562
P6KA36 ........... 562
P6KA36A .......... 562
P6KA39 ........... 562
P6KA39A .......... 562
P6KA43 ........... 562
P6KA43A .......... 562
P6KE10 ........... 582

-10-

P6KE100 ........... 582
P6KE100A ......... 582
P6KE10A .......... 582
P6KEll ............ 582
P6KEll0 ........... 582
P6KEll0A ......... 582
P6KE11A .......... 582
P6KE12 ............ 582
P6KE120 .....•..... 582
P6KE120A ......... 582
P6KEl2A .......... 582
P6KE13 ............ 582
P6KEl30 ........... 582
P6KEl30A ......... 582
P6KEl3A .......... 582
P6KE15 ............ 582
P6KEl50 ........... 582
P6KE150A ......... 582
PSKEl5A ..... : .... 582
P6KE16 ......•..•.. 582
P6KEl60 ........... 582
P6KE160A ......... 582
P6KE16A .......... 582
P6KE170 ........... 582
P6KE170A ......... 582
P6KE18 ............ 582
P6KEl80 ........... 582
P6KEl80A ...•..... 582
P6KE1SA .......... 582
P6KE20 ......••.... 582
PSKE200 ........... 582
P6KE200A ......... 582
P6KE20A .......... 582
PSKE22 ............ 582
P6KE22A .......... 582
P6KE24 ....•....... 582
P6KE24A .......... 582
P6KE27 ............ 582
PSKE27A .......... 582
P6KE30 ............ 582
P6KE300 .....•..... 582
P6KE300A ......... 582
P6KE30A .......... 582
P6KE33 ............ 582
PSKE33A .......... 582
PSKE36 ....•....... 582
P6KE36A .......... 582
P6KE39 ............ 582
P6KE39A .......... 582
PSKE400 ........... 582
P6KE400A ......... 582
P6KE43 ............ 582
P6KE43A .......... 582
P6KE47 ......•..... 582
P6KE47A .......... 582
P6KE51 ............ 582
P6KE51A .......... 582
P6KE56 ............ 582
P6KE56A .......... 582
PSKES.8 ........... 582
P6KE6.SA .......... 582
P6KE62 ............ 582
P6KE62A .......... 582

NUMERICAL INDEX
PSKE68 ........... 582
P6KE68A •......... 582
P6KE7.5 ...•....... 582
P6KE7.5A ......... 582
P6KE75 ........... 582
P6KE75A .......... 582
P6KE8.2 ........... 582
P6KE8.2A ......... 582
P6KE82 ........... 582
P6KE82A .....•.... 582
P6KE9.1 ........... 582
P6KE9.1A ....••... 582
P6KE91 .........•• 582
P6KE91A .......... 582
RF1A ...•......... 516
RF1B ............. 516
RF1D ............. 516
RF1G ............. 516
RF1J .........•.... 516
RF1K ............. 516
RF1M ............. 516
RG1A ............. 354
RG1B ............. 354
RGlD ............. 354
RG1G ............. 354
RG1J .......•..... 354
RG1K ............. 354
RG1M ............. 354
RG2A ............. 358
RG2B ............. 358
RG2D ............. 358
RG2G ............. 358
RG2J ............. 358
RG2K ............. 358
RG2M ............. 358
RG3A ............. 364
RG3B ............. 364
RG3D ............. 364
RG3G ............. 364
RG3J ............. 364
RG3K ............. 364
RG3M ............. 364
RG4A ............. 366
RG48 ............. 366
RG4D ............. 366
RG4G ............. 366
RG4J ...........•. 366
RG4K ............. 366
RG4M ..........•.. 366
RGL34A ........... 488
RGL348 ........... 488
RGL34D ..........• 488
RGL34G .......•... 488
RGL34J ........... 488
RGL41A ........... 496
RGL418 ........... 496
RGL41D ........... 496
RGL41G ..•........ 496
RGL41J ...•....... 496
RGL41K ........... 496
RGL41M •.......... 496
RGP02·12E ........ 280
RGP02·14E ........ 280

RGP02·16E ........ 280
RGP02·18E ........ 280
RGP02·20E ........ 280
RGP10A ........... 288
RGP108 .•.•....... 288
RGP10D ........... 288
RGP1OG ........... 288
RGP10J ........... 288
RGP10K ........... 288
RGP10M ........... 288
RGPl5A ........... 294
RGP158 ........... 294
RGP15D ........... 294
RGPl5G ........... 294
RGPl5J ........... 294
RGP15K ........... 294
RGP15M ........... 294
RGP20A ........... 296
RGP208 ........... 296
RGP20D ........... 296
RGP2OG ........... 296
RGP20J ........... 296
RGP25A ........... 298
RGP258 ........... 298
RGP25D ........... 298
RGP25G ........... 298
RGP25J ........... 298
RGP25K ........... 298
RGP25M ........... 298
RGP30A ........... 300
RGP308 ........... 300
RGP30D ........... 300
RGP3OG ........... 300
RGP30J ........... 300
RGP30K ........... 300
RGP30M ........... 300
RMPG06A ......... 306
RMPG068 ......... 306
RMPG06D ......... 306
RMPGOGG ......... 306
RMPGOGJ .......... 306
RS2A ............. 526
RS28 ............. 526
RS2D ............. 526
RS2G ............. 526
RS2J .............. 526
RS2K ............• 526
RS3A ............. 540
RS38 ............• 540
RS3D ............. 540
RS3G ............. 540
RS3J .............. 540
RS3K ............. 540
S2A ............... 524
S28 ..............• 524
S2D ..............• 524
S2G .............. 524
S2J ..............• 524
S2K ............... 524
S2M .............. 524
S3A ............... 538
S38 ............... 538
S3D ............... 538

S3G .............. 538
S3J ............... 538
S3K ..............• 538
S3M .............. 538
SA5.0 ....•...•.••. 578
SA5.0A ........... 578
SA6.0 ....•...•.•.. 578
SA6.0A .........•.• 578
SA6.5 ............. 578
SA6.5A ............ 578
SA7.0 ............. 578
SA7.0A .•.......... 578
SA7.5 ............. 578
SA7.5A .•.......... 578
SA8.0 ............. 578
SA8.0A ............ 578
SA8.5 .........•... 578
SA8.5A ............ 578
SA9.0 ............. 578
SA9.0A ............ 578
SA10 .......•...... 578
SA10A ............ 578
SAll .............. 578
SAllA ............ 578
SA12 .......•...•.. 578
SAl2A .....•...... 578
SA13 ....•......... 578
SA13A ....••.....• 578
SA14 .•............ 578
SA14A ............ 578
SA15 .............. 578
SA15A ............ 578
SA16 .............. 578
SA16A ............ 578
SA17 ......•....... 578
SA17A ............ 578
SA18 .............. 578
SA18A ............ 578
SA20 .............. 578
SA20A ............ 578
SA22 .............. 578
SA22A ............ 578
SA24 .............. 578
SA24A ............ 578
SA26 .............. 578
SA26A .......•.... 578
SA28 .............. 578
SA28A ............ 578
SA3a .............. 578
SA30A ............ 578
SA33 .............. 578
SA33A ............ 578
SA36 .............. 578
SA36A ............ 578
SA40 .........•.... 578
SA40A ............ 578
SA43 .............. 578
SA43A ............ 578
SA45 .............. 578
SA45A ..........•. 578
SA48 .............. 578
SA48A ............ 578
SA51 .............. 578

·11·

SA51A ..••...•..... 578
SA54 ........•..... 578
SA54A ............. 578
SA58 .............. 578
SA58A .•........... 578
SAGO .............. 578
SAGOA ............. 578
SA64 .............. 578
SA64A ............. 578
SA70 .............. 578
SA70A .•........... 578
SA75 ......•....... 578
SA75A ...•...••.... 578
SA78 ......••...... 578
SA7SA ............. 578
SASS .............. 578
SA85A ............. 578
SA90 •.•........... 578
SA90A ...•......... 578
SAloo ............. 578
SAlOOA ..••.•...... 578
SAll0 .•........... 578
SAll0A ..•......... 578
SA120 .•........... 578
SA120A ............ 578
SAl30 .•........... 578
SA130A ..•......... 578
SAl50 .•••.....•... 578
SA150A .••......... 578
SAl60 .•........... 578
SA160A ............ 578
SA170 ....•........ 578
SA170A ............ 578
SB020 .............. 52
S8030 •............. 52
SB040 .............. 52
S8120 •............. 56
S8130 .............. 56
SB140 .............. 56
S8150 .............. 56
SBl60 .•..•........• 56
S8190 .............. 58
S81100 ...•......... 58
S8320 .............. 62
S8330 .............. 62
SB340 .............. 62
SB350 .............. 62
SB360 •............. 62
SB390 ......•....... 64
SB3100 ....•..•..... 64
SB520 .............. 66
SB530 .............. 66
S8540 ............•. 66
SB550 ....••.......• 66
SB560 ............. 66
SB590 ......•....... 68
SB5100 ............. 68
SBL1030 ............ 94
SBL1040 ............ 94
SBL1030CT .•....... 98
SBL1040CT ......... 98
SBLl630CT ........ 118
SBL1640CT ........ 118

NUMERICAL INDEX
SBL1640CT ........ 118
SBL2030PT •....... 134
SBL2040PT •....... 134
SBL3030PT .•••.... 154
SBL3040PT •....... 154
SBLF1030 ..•••..... 92
SBlF1040 .......... 92
SBLFi030CT .•••.... 96
SBLF1040CT .••..•.. 96
SBLFl630CT .....•. 116
SBLFl640CT .••.... 116
SBLF2030PT ....... 132
SBlF2040PT .....•• 132
SBLF3030PT ....... 152
SBLF3040PT ...••.. 152
SD241P ..••••..... 156
SGL41-2O .......... 504
SGL41-30 ...•...... 504
SGL41-40 .••....... 504
SGL41-50 .......... 504
SGL41-60 .•........ 504
SRP100A ......•... 400
SRP100B .......... 400
SRP100D ......•.•• 400
SRP100G .....•.... 400
SRP100J .......... 400
SRP100K .......... 400
SRP300A .......... 406
SRP300B .......... 406
SRP300D .......... 406
SRP300G .......... 406
SRP300J .......... 406
SRP300K .......... 406
SRP600A .....•.•.. 414
SRP600B .••....... 414
SRP600D .......•.. 414
SRP600J .......... 414
SRP600G .•........ 414
SRP600K .......... 414
SS12 ............. 516
8513 .......•..... 516
SS14 ............. 516
SS15 .......•..... 516
SS16 ............. 516
SS19 ............ 518
851B ............. 518
SS22 ............. 530
8523 ............. 530
SS24 ............. 530
SS25 ............. 530
SS26 ............. 530
SS29 ............. 532
SS2B ............. 532
SS32 ............. 544
SS33 ............. 544
SS34 ............. 544
SS35 ............. 544
SS36 ............. 544
SS39 ............. 546
SS3B ............. 546
TGL41-10 .......... 506
TGL41-100 ......... 506
TGL41-100A ....... 506

TGL41-1OA ......... 506
TGL41-11 .......... 506
TGL41-110 ......... 506
TGl41-110A .....••. 506
TGL4H1A ......... 506
TGL41-12 .......... 506
TGL41-12O ......... 506
TGL41-12OA ........ 506
TGL41-12A ..•.•.••. 506
TGL41-13 .......... 506
TGL41-130 ......... 506
TGL41-13OA .•...... 506
TGL41-13A ......... 506
TGL41-15 .......... 506
TGL41-150 ......... 506
TGL41-150A ..•....• 506
TGL41-15A ......... 506
TGL41-16 .......... 506
TGL41-160 ......... 506
TGL41-160A ........ 506
TGL41-16A ......... 506
TGL41-170 ......... 506
TGl41-17OA ......•. 506
TGL41-18 .......... 506
TGL41-180 ......... 506
TGL41-180A •....... 506
TGL41-18A ......... 506
TGl41-2O .......... 506
TGL41-200 ......... 506
TGL41-2OOA ........ 506
TGL41-2OA ......... 506
TGL41-22 .......... 506
TGL41-22A ......... 506
TGl41-24 .......... 506
TGL41-24A .....•... 506
TGL41-27 .......... 506
TGL41-27A •....•... 506
TGL41-30 .......... 506
TGL41-3OA •........ 506
TGL41-33 .......... 506
TGL41-33A ......... 506
TGL41-36 .......... 506
TGL41-36A ......... 506
TGL41-39 .......... 506
TGL41-39A ......... 506
TGL41-43 .......... 506
TGL41-43A .....•.•. 506
TGL41-47 .......... 506
TGL41-47A .....•... 506
TGL41-51 .......... 506
TGL41-51A ......... 506
TGL41-56 .......... 506
TGL41-56A ......... 506
TGL41-6.8 ......... 506
TGL41-6.8A •....... 506
TGL41-62 .......... 506
TGL41-62A ......... 506
TGL41-68 .......... 506
TGL41-68A ......... 506
TGL41-7.5 ......... 506
TGL41-7.5A ....•.•. 506
TGL41-75 .......... 506
TGL41-75A ....•.... 506

TGL41-8.2 ......... 506
TGL41-8.2A ........ 506
TGL41-82 .......... 506
TGL41-82A ........• 506
TGL41-9.1 ......... 506
TGL41-9.1A ........ 506
TGL41-91 .......... 506
TGL41-91A ......... 506
TMPG06-6.8 ........ 554
TMPG06-6.8A ...... 554
TMPG06-7.5 ........ 554
TMPG06-7.SA ....•. 554
TMPG06-8.2 ........ 554
TMPG06-8.2A ...... 554
TMPG06-9.1 •....••. 554
TMPG06-9.1A ...... 554
TMPG06-10 ........ 554
TMPG06-10A ....... 554
TMPG06-11 ........ 554
TMPG06-11A ....... 554
TMPG06-12 ........ 554
TMPG06-12A ....... 554
TMPG06-13 ........ 554
TMPG06-13A ....... 554
TMPG06-15 ........ 554
TMPG06-15A ....... 554
TMPG06-16 ........ 554
TMPG06-16A ....... 554
TMPG06-18 ........ 554
TMPG06-18A ....... 554
TMPG06-20 ........ 554
TMPG06-20A ....... 554
TMPG06-22 ........ 554
TMPG06-22A ....... 554
TMPG06-24 ........ 554
TMPG06-24A ....... 554
TMPG06-27 ........ 554
TMPG06-27A ....... 554
TMPG06-30 ........ 554
TMPG06-30A ....... 554
TMPG06-33 ........ 554
TMPG06-33A ....... 554
TMPG06-36 ........ 554
TMPG06-36A .•..... 554
TMPG06-39 ........ 554
TMPG06-39A .•..... 554
TMPG06-43 ........ 554
TMPG06-43A ....... 554
TSMA6.8 .......... 520
TSMA6.8A ......... 520
TSMA7.5 .......... 520
TSMA7.5A ......... 520
TSMAB.2 .......... 520
TSMA8.2A ......... 520
TSMA9.1 .......... 520
TSMA9.1A ......... 520
TSMA10 ........... 520
TSMA10A .......... 520
TSMAll ........... 520
TSMA11A .......... 52O
TSMA12 ........... 520
TSMAl2A .......... 520
TSMA13 ........... 520

-12-

TSMAl3A .......... 520
TSMA15 ........... 520
TSMAl5A .......••. 520
TSMA16 ........... 520
TSMAl6A .......... 520
TSMA18 ........... 520
TSMAl8A .......... 520
TSMA20 ........... 520
TSMA20A .......... 520
TSMA22 ........... 520
TSMA22A .......... 520
TSMA24 ........... 520
TSMA24A .......... 520
TSMA27 ........... 520
TSMA27A .......... 520
TSMA30 ........... 520
TSMA30A .......... 520
TSMA33 ........... 520
TSMA33A .......... 520
TSMA36 ........... 520
TSMA36A .......... 520
TSMA39 ........... 520
TSMA39A .......... 520
TSMA43 ........... 520
TSMA43A .......... 520
TSMA47 ........... 520
TSMA47A .......... 520
TSMA51 ........... 520
TSMA51A .......... 520
TSMA56 ........... 520
TSMA56A .......... 520
TSMA62 ........... 52O
TSMA62A ...•...... 520
TSMA6S ........... 520
TSMA68A .......... 520
TSMA75 ........... 520
TSMA75A .......... 520
TSMA82 ........... 520
TSMA82A .......... 520
TSMA91 ........... 520
TSMA91A .......... 520
TSMA100 .......... 520
TSMA100A ......... 520
TSMA110 .......... 520
TSMA110A ......... 520
TSMA120 .......... 520
TSMA120A ......... 520
TSMA130 .......... 520
TSMA130A ......... 520
TSMA150 .......... 520
TSMA 150A ......... 520
TSMA160 .......... 520
TSMA160A ......... 520
TSMA170 .......... 520
TSMA170A ......... 520
TSMA180 ...... ~ ... 520
TSMA180A ......... 520
TSMA200 .......... 520
TSMA200A ......... 520
TSMB6.8 ........... 536
TSMB6.8A .......... 536
TSMB7.5 ........... 536
TSMB7.5A .......... 536

NUMERICAL INDEX
TSMB82 .......... 536
TSMB8.2A ..•..••.• 536
TSMB9.1 •.......•• 536
TSMB9.1A ••••..... 536
TSMB10 •..•.•..••• 536
TSMB10A ..•...•••• 536
TSMB11 ••.......•. 536
TSMB11A ........•• 536
TSMB12 ..••.•••••• 536
TSMB12A •....••... 536
TSMB13 ••........• 536
TSMB1aA ••••••••.. 536
TSMB15 ••••••.•... 536
TSMBl5A •....••..• 536
TSMB16 •••••••••.. 536
TSMB16A ••..••...• 536
TSMB18 .•.••.•..•• 536
TSMB18A ••••••.••• 536
TSMB20 ••....•...• 536
TSMB2OA ••••••••.. 536
TSMB22 •••••••••.• 536
TSMB22A •...•....• 536
TSMB24 .••.•••••.. 536
TSMB24A •...••.•.• 536
TSMB27 •.........• 536
TSMB27A •.•••••.•• 536
TSMB30 ••........• 536
TSMB3OA ••••••••.. 536
TSMB33 ..••....•.• 536
TSMB3aA ..•••.•••• 526
TSMB36 •.••••••.•• 536
TSMB36A .....•..•• 536
TSMB39 .......•••• 536
TSMB39A .•..••...• 536
TSMB43 ..•.....••• 536
TSMB4aA ••..••••.• 536
TSMB47 .••...••..• 536
TSMB47A ••.....••• 536
TSMB51 ••••••••.•• 536
TSMB51A ••..•.••.. 536
TSMB56 ..•••...••• 536
TSMB56A ••.•••...• 536
TSMB62 .•......•.• 536
TSMB62A •••••••.•. 536
TSMB68 •.•..•.••.• 536
TSMB68A •......••. 536
TSMB75 •..••...••• 536
TSMB75A .......••• 536
TSMB82 .••••••••.. 536
TSMB82A .•....•••. 536
TSMB91 ..•••.•••.. 536
TSMB91A .....••••. 536
TSMB100 ••••.••... 536
TSMB100A •••••.•.. 536
TSMB110 ••••••.... 536
TSMB110A ........• 536
TSMB120 •••..••••. 536
TSMB120A .......•• 536
TSMB130 .••..•••.. 536
TSMB13OA ••••..••• 536
TSMB150 •••••..... 536
TSMB150A .......•. 536
TSMB160 •....•.••• 536

TSMB160A ..•••.••• 536
TSMB170 •••••..••. 536
TSMB170A ••....... 536
TSMB180 ...•••.••. 536
TSMB180A ••.•....• 536
TSMB200 •••...•... 536
TSMB200A ..••...•. 536
TSMCS.8 •••....... 548
TSMCS.8A ........ 548
TSMC7.5 ..•••...•• 548
TSMC7.5A ••.•...•. 548
TSMCB2 •....•••.• 548
TSMCB.2A .•••..••. 548
TSMC9.1 .••.•...•. 548
TSMC9.1A ...••••.• 548
TSMC10 ....••..••. 548
TSMC10A •••.•..... 548
TSMC11 •••.••.•••. 548
TSMC11A •...•..... 548
TSMC12 .....••••.• 548
TSMC12A •..••...•• 548
TSMC13 .•••....... 548
TSMC13A ....•••••• 548
TSMC15 .•..••...•. 548
TSMC15A •.••.•.... 548
TSMC16 •...••..••• 548
TSMC16A ••••...... 548
TSMC18 ..•.••••••• 548
TSMC18A .•••....•. 548
TSMC20 ••••...•••. 548
TSMC20A .••••..••. 548
TSMC22 ••••....... 548
TSMC22A .......... 548
TSMC24 ••.•••...•• 548
TSMC24A .•........ 548
TSMC27 .••••••..•. 548
TSMC27A ••••....•• 548
TSMC30 •••..•..... 548
TSMC30A .•.••..••. 548
TSMC33 .••••....•. 548
TSMC3aA •......... 548
TSMC36 .•••••..... 548
TSMC36A ..•....... 548
TSMC39 .••••..•.•. 548
TSMC39A .••....... 548
TSMC43 •......•... 548
TSMC43A .••...•... 548
TSMC47 ......••... 548
TSMC47A •.••••.••• 548
TSMC51 ...•..••.•. 548
TSMC51A ..••••.••• 548
TSMC56 .•••••...•. 54Q
TSMC56A ..•.•••••• 548
TSMCS2 •••••....•. 548
TSMCS2A ••.••..... 548
TSMCS8 ••....••.•. 548
TSMCS8A ...••••••• 548
TSMC75 •.....••.•. 548
TSMC75A •••••.•.•• 548
TSMC82 •••••...... 548
TSMC82A ••••.•.... 548
TSMC91 .....••.... 548
TSMC91A .•..•••... 548

TSMC100 •....••.•. 548
TSMC100A .....•.•• 548
TSMC110 ••...••.•. 548
TSMC110A ..•.....• 548
TSMC120 •.....•.•• 548
TSMC120A ....•.... 548
TSMC130 •.....•.•• 548
TSMC13OA ....••.•• 548
TSMC150 •........• 548
TSMC150A .......•. 548
TSMC160 •....••••• 548
TSMC160A •.•...••• 548
TSMC170 •..•...•.• 548
TSMC170A ....•.••• 548
TSMC180 •..••..... 548
TSMC180A ......•.• 548
TSMC200 ••...•...• 548
TSMC200A ......••• 548
UF4001 ..•....•.•.• 204
UF4002 .•.......•.• 204
UF4003 ......•..••• 204
UF4004 ..•...••.•.. 204
UF4005 .•.. , ....••• 204
UF4006 ............ 204
UF4007 ............ 204
UF5400 ............ 206
UF5401 ............ 206
UF5402 ............ 206
UF5403 ............ 206
UF5404 ............ 206
UF5405 ............ 206
UF5406 ............ 206
UF5407 ............ 206
UF5408 ............ 206
WOOSG ............ 430

W001G ..•.•.....•• 430
WOO2G ............ 430
WOO4G ............ 430

WOO6G ............ 430
WOO8G ............ 430
W1OG ............. 430
ZGL41-100 ...•.•... 502
ZGL41-100A ........ 502
ZGL41-110 ...•..••• 502
ZGL41-110A .•...... 502
ZGL41-120 .•....••. 502
ZGL41-120A ••.....• 502
ZGL41-130 .......•• 502
ZGL41-130A ..•.•.•. 502
ZGL41-140 ...•••... 502
ZGL41-140A ..•.•... 502
ZGL41-150 '" ...... 502
ZGL41-150A ........ 502
ZGL41-160 •.•...... 502
ZGL41-160A .•...•.. 502
ZGL41-170 ......•• ,502
ZGL41·170A ..•..... 502
ZGL41-180 ....•..•. 502
ZGL41·180A ..•..... 502
ZGL41-190 ......... 502
ZGL41-190A •....••. 502
ZGL41-200 ......... 502
ZGL41-2OOA ...••.• , 502

-13-

ZGP1D-100 ......... 302
ZGP1D-100A ••..•••• 302
ZGP1D-100B •...• , .. 302
ZGP1D-110 ......... 302
ZGP1D-11OA ........ 302
ZGP1D-11OB •.•..... 302
ZGP1D-120 ......... 302
ZGP1D-120A ........ 302
ZGP1D-120B ••• , ..•. 302
ZGP1D-13O ......... 302
ZGP1D-l3OA •••.•••. 302
ZGP1D-13OB ••••...• 302
ZGP1D-140 ......... 302
ZGP1D-140A .....••• 302
ZGP1D-14OB ••..•••• 302
ZGP1D-150 ......... 302
ZGP1D-15OA .•• , ••.• 302
ZGP1D-15OB •....••• 302
ZGP1D-160 ......... 302
ZGP1D-16OA ..•..•.. 302
ZGP1D-160B •.••.••. 302
ZGP1D-170 ......... 302
ZGP1D-17OA .....••. 302
ZGP1D-170B .... , •.. 302
ZGP1D-180 ......... 302
ZGP1D-18OA ..•••••. 302
ZGP1D-18OB ...•.... 302
ZGP1D-190 ......... 302
ZGP1D-19OA .. '" ... 302
ZGP1D-19OB •• , , ..•• 302
ZGP1D-200 ......... 302
ZGP1 D-2OOA .•.•.... 302
ZGP1D-2OOB ••.•••.• 302

-14-

QUALITY ASSURANCE

.....- - - - -15-

IN~--

QUALITY ASSURANCE
CUSTOMER INFORMATION
INTRODUCTION
Quality and Reliability of the Power Semiconductor Division extends its services to the areas
of materials and product analysis, statistical quality control, reliability evaluation, quality inspection and development of new test methods.
Headquartered in New York, it assumes the responsibility for the development, implementation and administration of the Quality Assurance and statistical quality control programs for
all operations of the Division, both domestic and foreign.
At our manufacturing plants, rigid and extensive in-process statistical quality controls are utilized such that the quality and reliability of our products are consistent and repeatable. The
laboratories of our facilities are equipped with the latest high-level instrumentation and
staffed with skilled technicians and engineers.
Professional expertise and the most modern scientific equipment maintains our position of
excellence and leadership as the foremost producer of semiconductor devices, and assures
that the quality levels of our products, from inspection and test of raw materials to final approval of completed devices, meet the highest standards of the industry.

We offer•••
• Top-flight specialists and modern facilities.
• Experienced Test and Reliability Engineers.
• Statistical Quality Control.
• Fully equipped laboratories able to perform all types of scientific investigation.

SERVICES OF THE MATERIALS AND DEVICE ANALYSIS SECTION
• Testing, inspection and evaluation of materials utilizing the facilities of the electrical,
mechanical, high-reliability and chemical analysis departments of our laboratories.
• Research and development of testing methods.
• Inspection of materials to ensure compliance by suppliers and contractors to specifications.
• Failure analysis to determine the cause of breakdown in materials or components.
• Qualification testing of military devices in accordance with applicable military specifications. The laboratories are qualified to perform testing to MIL-S-19500, MIL-STD-750,
MIL-STD-202, and also are qualified to MIL-STD-883 tests under MIL-M-38510. Qualification approvals (QPL listing) were awarded by the United States, Canadian and West German Departments of Defense.
• A continuing program of military reliability (JAN-TX) also is in progress to assure conformance to the requirements for aerospace and the military.

-16-

TEST CONDITIONS

OPERATING LIFE

SOLDERABILITY

Conditions: Rated voltage,
rated current, for 1000 hours
at rated maximum junction temperature

Conditions: 95% coverage within
1.2 mm of device body.

DC BLOCKING

TEMPERATURE CYCLING

Conditions: Rated voltage for 1000 hours
at rated maximum junction temperature
in inert environment.

Conditions: - 65 °C

STORAGE LIFE

SHOCK

Conditions: Rated maximum ambient
temperature for 1000 hours in inert
environment

Conditions: 5 blows of 1500g's.

to +175°C.

LEAD PULL

VIBRATION (CONSTANT)

Conditions: Axial pull to destruction.

Conditions 20 g's at 60 Hz ± 20 Hz.

LEAD FATIGUE

ACCELERATION

Conditions: number of 90-degree
bends with 0.5 kg weight attached
to lead.

Conditions: 20,000 g's.

MOISTURE RESISTANCE

SAL T ATMOSPHERE

Conditions: 85°C, 85% Relative
Humidity for 1000 hours.

Conditions: 5% solution for
24 hours at 40°C.

FLAMMABILITY
Conditions: Encapsulating compound,
General Instrument's proprietary
formulas, GI-4B or GI-5A is self-extinguishing, recognized and registered
by Underwriters' Laboratories, U.S.
under 94V-O rating.

-17-

HIGH RELIABILITY-TEST CAPABILITIES
• Barometric Pressure:

• Vibration Noise:

This equipment simulates low atmospheric
pressure encountered in non-pressurized
environments up to 200,000 feet.

Measures the amount of electrical noise
produced by the devices under vibration
from 9-5kHz and 0-70g.

• Humidity:

• Non-Operating Life:

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.

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.

• Salt (Spray) and Salt 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 mgrn/m2/day. Salt Atmosphere - Salt spray 5%- 20% salt solution.

• Steady State Operating Life
• Reverse Bias Operating Life
• Intermittent Operating Life

• Solderability - Lead Integrity
(Lead Tension):

• Thermal Shock Temp.-Cycllng:
This test determines the resistance of devices to
exposure at extremely high and low temperatures.
Chamber limits - 74°C to 2500 C.

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.

• Mass Spectrometer Leak Detector
(Fine Leak):
To determine the effectiveness (or the hermeticity)
of the seal on devices with internal cavities which
are evacuated or contain air or gas. Machine limits
1 - 10 -9 to 10 - 10 -6atm.

• Lead Integrity (bending stress):

• Gross Leak:

• Lead integrity (lead torque):

Determine seal leak greater than 10 - 10 -6ATM
cc/Sec.

Check the devices, leads and seals for
resistance to twisting motion. Equipment limits
from .5 cmkg to 100 mkg.

Check the quality of leads, welds and seals of the
devices to withstand bends under specific
weights.

• Constant Acceleration:
Determines the effects of a centrifugal force on
devices up to 700,000g under space environment
(refrigerated vacuum).

• HI-Power Microscopic Inspection:

• Shock:

• Bond Strength:

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.

This determines strength of lead bonding
between the active area of the device and
connecting packaging lead.

Examine internal and external construction of
our devices up to 600 times.

• Vibration Fatigue:
Tests the effects of vibration within the frequency
range of 60 Hz at 0-70g.

-18-

MILITARY APPROVED
RECTIFIERS
0.2 AMPERE TO 6.0 AMPERES

- - - - - - INsfaMir .....
-19-

-20-

GENERAL INSTRUMENT
# 1 IN PRICE, # 1 IN 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 service. 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 rectifiers.

JAN COMPONENTS
The most economical Hi-Rei device, JAN components
are MIL qualified and subjected to environmental and
life sample tests to assure qualtty 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
frustration aspects of a purchasing agent's many
responsibilities. We remove that stumbling block for all
the JAN, JANTX and 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 addttion 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 JANTX and
JANTXV level 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!

SPECIRCATION CONTROL DRAWINGS
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 those special requirements.

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 wtth concise product
data sheets that give engineers and dElsigners complete details on electrical parameters, mechanical data,
and maximum ratings as well as other vital information.

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
Group B Testing - Group B Testing is performed on
each lot and consists of reliability testing.

Equally important is our accessability. 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 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 JANTXV level devices only.

AVAILABILITY
The following is intended as a quick guide and reference to the types of components General Instrument
Power Semiconductor Division supplies:

Traceability· Traceability is maintained per the applicable specification and MIL-S-19500.

-21-

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 1x10- 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 ·Burn 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 delta calculations are determined. Those devices not meeting the requirements are rejected.
Resistance to Solvents - Devices are exposed
to various solvents to ensure marking permanen-

HIGH-RELIABILITY
COMPARISON CHART
JAN JANTX JANTXV

Microscopic Inspection
(Internal Visual)
Tracebiiky (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 (Burri-in)
Electrical Test (Read & Record)
(with Delta limks)
Group A Inspection
per Mll-S-19500
Group B Inspection
per Mll-5-19500
Group C Inspection
per Mll-S-19500
PDA (Max. Pct. Def Allow.)
thru Power Burn-in

cy~

Solderability· Testing is performed to
determine the degree of solder
coverage on the leads.

GROUP

A
B
MlUTARYLOTS
ASSEMBLED
ANDtOO%
ELECTRICALLY
TESITED

C
SAMPLE
TEST

-22-

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
PRODUCTS QUALIFIED UNDERMILITARY SPECIFICATION MIL-S-19500
GOVERNMENT
DESIGNATION

DETAIL
SPEC

GOVERNMENT
DESIGNATION

DIODES

DETAIL
SPEC
RECTIRERS (contlnuedl

JAN, JANTX,1 N483B
JAN,JANTX,1N485B
JAN, JANTX, 1N486B

1118
1118
1118

JAN, JANTX, 1N5615
JAN,JANTX,1N5617
JAN, JANTX, 1N5619
JAN, JANTX, 1N5621
JAN,JANTX,1N5623

JAN, JANTX,
JAN, JANTX,
JAN, JANTX,
JAN, JANTX,
JAN, JANTX,
JAN, JANTX,

1240
1240
1240
1240
1240
1240

JAN, JANTX, 1N5624
JAN, JANTX, 1N5625
JAN, JANTX, 1N5626
JAN,JANTX,1N5627

1432
1432
1432
1432

JAN, JANTX, 1N5907
JAN, JANTX, 1N5809
JAN, JANTX, 1N5811

1477
1477
1477

1N645
1N647
1N649
1N645-1
1N647-1
1N649-1

RECTIRERS
1N3611
1N3612
1N3613
1N3614
1N3957

1228
1228
1228
1228
1228

JAN, JANTX , 1N4245
JAN, JANTX, 1N4246
JAN, JANTX, 1N4247
JAN, JANTX, 1N4248
JAN, JANTX, 1N249

1286
1286
1286
1286
1286

JAN, JANTX,
JAN, JANTX,
JAN, JANTX,
JAN, JANTX,
JAN, JANTX,

1N4942
1N4944
1N4946
1N4947
1N4948

1359
1359
1359
1359
1359

JAN, JANTX, 1N5415
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,1N5616
JAN, JANTX, 1N5618
JAN, JANTX, 1N5620
JAN, JANTX, 1N5622

1427
1427
1427
1427
1427

JAN, JANTX,
JAN, JANTX,
JAN, JANTX,
JAN, JANTX,
JAN, JANTX,

-23-

1429
1429
1429
1429
1429

POWER
SEMICONDUCTOR
DIVISION

INsr~

JAN AND JANTX 1 N483B THRU 1 N486B
LOW POWER MINIATURE GLASS PASSIVATED JUNCTION DIODE
VOL TAGE - 70 to 225 Volts CURRENT - 200 Milliamperes
DO-204MB
.022(.56J Il.l.!b..
A.
•018 (.46J

FEATURES

... t

-

1.50 (38.1)
1. 00 (25.4J

!

-

t

.300 0.6J
.230 (5.8J

I I

!
t

+-1. 50 (38.1)
1.00 (25.4J

!

Dimensions in inches
and

(millimeters)

• Qualified to MIL-8-19500/11BC
• High temperature metallurgically
bonded
• 0.2 amperes
operation at
TA=25'C with
no thermal runaway
• Hermetically sealed package
• Ideally suited for miniaturized equipment
• Glass passivated cavity-free junction
• High temperature soldering guaranteed 350°C/10 seconds/ .375",
(9.5mm) lead length at 5 Ibs.,
(2.3kg) tension

MECHANICAL DATA
case: JEDEC DO-204MB one
piece glass,hermetically sealed
Terminal: Axial leads,
solderable per MIL-STD-202,
Method 20B
Polarity: Color band denotes
cathode

Mounting Position: Any
Weight: .02 ounce, .56 gram

."Brazed.fead ssS(lmb/y by Patent No. 3,930,306 of 1976

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 JAN1N483B JAN1N4858 JAN1N486B

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 1001lA
Maximum Average Forward Recitified Current TA=25°C
.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 Blocking Voltage
TA=100'C
Typical Junction Capacitance (NOTE 1 )
Typical Thermal Resistance (NOTE 2 )
Operating and Storage Temperature Range

I(AV)

180
127
180
200
200
50

IFSM
VF
IR
IR
CJ
R8JA
TJ,TsTG

2.0
1.0
25
5.0
15.0
80.0
-65 to +200

VRRM
VRMS
Voc
VBR

70
50
70
80

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.C. Board Mounted.

-24-

225
159
225
250

UNITS

Volts
Volts
Volts
Volts
Milliamps

Amps
Volts

IlA

~A

pf

°CIW
°c

MAXIMUM RATING AND CHARACTERISTIC CURVES
JAN AND JANTX 1N4838 THRU 1N4868

FIG. 2 10

>-'
z
UJ
a:
a:

"

8.0

:;)

0

FIG. 1 0

UJ

200

FORWARD CURRENT DERATING CURVE

~ !'.....

~S3

.... a:
O,.1J
UJ"II::;;

150

0":

~~
a::;;

100

0":
u..Z

UJUJ
t'Ja:
a::;)
UJO

50

::<

25

100

T.a-2SOC

I

"""- .......

---

11

o

2.0

4.0 6.08 10

20

40 6080 100

NUMBER OF CYCLES AT 60Hz

'-....

FIG. 3 -

...........
150

I

.....

T",,15O"C

2.0

1.0

1.eS

8.3rns SINGLE HALF
SINE·WAVE
(JEDEC METHOD)

r--...

4.0

'"«UJ
"-

~~

75

50

6.0

0
u..

SINGLE PHASE
HALF WAVE
60Hz
RESISTIVE OR INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS

..:II:

UJ
"'en
a:UJ
:;)a:
enUJ
0"a::;;
",«
s:a:

MAXIMUM NON· REPETITIVE PEAK
FORWARD SURGE CURRENT

'-....

175

TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS

10
5.0

200

/

>-'
z
UJ
a:
a:

AMBIENT TEMPERATIJRE, °C

/

:;)

0
0

1.0

~fB

.50

a:

a:
OUJ
u.. "en:;;
:;)«
0
UJ
II:

FIG. 4 -

TYPICAL REVERSE CHARACTERISTICS

5.0

Z

10

UJen
",UJ
a: a:
UJUJ
>"UJ:;;
a:«
",0
:;)a:

;::
Z
;::en

V

T.. 15O"C

........ V

II

T".25"C

PULSE WIDTH-300j'S I - 1% DUTYCYCLE

.100
.050

:;;:

J

.......T....125°C

I

.010

i-"'"

0.6

0.8

1,0

1.2

1.4

1.6

1.8

FIG. 5 -

TYPICAL JUNCTION CAPACITANCE

50

00

~~

~~

r......

~~

z:;)

-0

u..

Q.

0.01

LU

10

'

......

TJ-25OC

0
Z

;::
r- TrSOC
0001

2.0

INSTANTANEOUS FORWARD VOLTAGE, VOLTS

0.1

l--:t
20

40

60

,

(3

..---

ct

5.0

'"

0

80

100

120

f_1.0MHz
Vsig_50m Vp-p max.

III

140

PERCENTAGE OF PEAK REVERSE VOLTAGE

1,0
1,0

1111
10

REVERSE VOLTAGE, VOLTS

-25-

100

POWER
SEMICONDUCTOR
DIVISION

.INsr~

JAN AND JANTX 1 N645 THRU 1 N649
JAN AND JANTX 1 N645-1 THRU 1 N649-1
MINIATURE GLASS PASSIVATED SILICON DIODES
VOL TAGE- 225 to 600 Volts
CURRENT - 400 Milliamperes
.0231O.61~

• 0181.051

....

t

!
t

.300 17.61
.23015.81

!
,. . t

I-

:~~~ Ic;}dI

I

OIA.,.

1.50 138.11
1.00125.41

1

Dimensions in inches
and
(millimeters)

MECHANICAL DATA

FEATURES

1.50138.11
1. 00 125.41

• Qualified to MIL-S-19500/240E
• Glass paSSivated cavity-free junction
• 0.4 amperes operation at TA= 25°C
with no thermal runaway
• High temperature metallurgically
bonded
• Ideally
suited for
miniaturized
equipment
• Hermetically sealed package
• High temperature soldering guaranteed:350·C/10seconds/.375".(9.5mm)
lead length/5 Ibs., (2.3kg) tension

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 gram

MAXIMUM RA TlNGS 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
JAN
JAN
JAN
JAN
JAN
SYMBOLS 1N645 1N645-1 1N647 1N647-1 1N649 1N64!J.1 UNITS

Maximum Recurrent Peak Reverse VoHage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 100J.LA
50 J.LA
Maximum Average Forward Recitilied TA=25°C
Current .375" (9.5mm) Lead Length at
TA= 150'C
Peak Forward Surge Current,8.3ms single hall sinewave superimposed on rated load (JEDEC Method)
atTA,.150·C
Maximum Instantaneous Forward
1.5A TA=150°C
Vokage at 400mA
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 Average Reverse Current at Peak Reverse
Voltage,lo=150mA TA=150°C .375" 9.5mm Lead Lengths
Maximum Junction Capacitance (NOTE 1)
Typical Thermal Resistance (NOTE 2 )
Operating Junction Temperature Range
Storage Ambient Temperature Range

VRRM
VRMS
Vrx;
VBR

225
156
225
270

-

225
156
225

-

270

VF

-

-

480

25
50
15 1 25

25
50
1 15 1 25
100
20.0
80.0
-65 to 175
-65 to +200

NOTES:

1. Measured at 1 MHz and applied reverse voltage of 4.0 Vee.
2. Thermal Resistance from Junciton to Ambient at .375",(9.5mm)lead lengths, P.C. Board mounted.
-26-

600
420
600
720

600
420
600

-

720

5.0
0.95
1.0
1.20

IFSM

IR(Av)
CJ
R8JA
TJ
TSTG

-

400
280
400

400
150

I(AV)

IR

400
280
400
480

VoHs
VoHs
Volts
Volts
milli
Amps

Amps
Volts

1

50
50
251 25

nA
J.LA
J.LA
pi
°CIIN
°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

""'-r'-.. ~

W

(!J(I)
a:w
~ffi

FIG. 1 - FORWARD CURRENT DERATING CURVE
0

w
II:
>=(1)
Uw
wa:
a:w
00.
a:::<
..:«
3:,.:
a:Z

04

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

03

0.1

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

-r--I-

wU

0.

~

Tl

r\.

\

RESISTIVE OR INDUCTIVE LOAD
0.375' (9j5mm) U''')D LENG~S

o
75

50

........... 1"- ....

~~

I'--..

SINGLE PHASE
HALF WAVE

25

I
T..25"C

~~

~~

60Hz

o

......

10

a:Z
OW
LLa:

02

f2~

wa:
(!J=>
«U
a:
w
~

~

J.3"" ~IN~L~ ~[~

SINE·WAVE
(JEDEC METHOD)

100

125

150

r--10

20

40

60

NUMBER OF CYCLES AT 60 Hz

FIG, 4 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS

175

100

AMBIENT TEMPERATURE. 'C

50

FIG. 3 - TYPICAL REVERSE CHARACTERISTICS

,.:

/

Z
w
a:
a:
=>
U
0
a:

30
20

T,.15O'C
10

50

a::JI

T... 125'C

-~

l"-

OW
LLo.
(1)::<
=>«
0
w
Z

-

L

10

~(I)

I

T..25'C
PULSE WlDTH-300j'S
1% DUTY CYCLE

100

>'Z
>'(I)

t--

050

~

I

I

010
06

08

10

12

14

16

18

20

INSTANTANEOUS FORWARD VOLTAGE, VOLTS

FIG. 5 - JUNCTION CAPACITANCE
50

I ........

01

LL

"-

t-? ~TJ-25'C

u.i

U

-.l

I"

T"..26OC

. . . . 1"

MAXILu~

10

z

I

>'0

~

?f.

00 1
20

40

60

80

100

120

PI

«
U

140

PERCENT OF RATED PEAK REVERSE
VOLTAGE
f-1.DMHz
Vsig-5Om Vp-p max.
10

100

REVERSE VOLTAGE. VOLTS

INsr~
·27·

100

INsr~

POWER
SEMICONDUCTOR
DIVISION

JAN AND JANTX 1N3611 THRU 1N3614 AND 1N3957
MINIATURE GLASS PASSIVATED JUNCTION RECTIFIER
VOL TAGE - 200 to 1000 Volts CURRENT - 1.0 Ampere
FEATURES
~
00
41

1.

T·

1

11
~

.110(2.791
•
'.060 U.52IDIA • •
1

.14013.561

•
•
•

Dimensions in inches
and
(millimeters)

•
•

Qualified to MIL-S-19S00/22SE
High temperature metatllurgically
bonded
Hermetically
sealed package
Glass passivated
cavity-free junction
1.0 Ampere operation at TA=100°C
with no thermal runaway
TypicallR less than 0.1j.tA
High temperature soldering guaranteed: 3S0'C/10 seconds/.37S",
(9.Smm) lead length aVS Ibs.,
(2.3kg) tension

MECHANICAL DATA

case: One piece glass, hermetically sealed
Terminals: Axial leads,
solderable per MIL-STO-202,
Method 20S
Polarity: Colorband denotes
cathode
Mounting Position: Any
Weight: 0.02 ounce, 0.S6 gram

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified.
Single phase, ha~ wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
~N

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Vottage
Minimum Reverse Breakdown Vottage at 100llA
Maximum Average Forward Recitffied Current
.375" (9.5mm) Lead Length at TA= 100'C
Peak Forward Surge Current,
8.3ms single half sine-wave superimposed on
rated load (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 Temperature Range

~N

~N

~N

~N

SYMBOLS 1N3611 1N3612 1N3613 1N3614 1N39S7
200
400
600
800
1000
VRRM
140
280
420
560
700
VRMS
400
600
800
1000
200
Voc
240
480
720
920
1150
VBR

UNITS
Volts
Volts
Votts
Volts

I(AV)

1.0

Amps

IFSM

30.0
1.1
1.5
1.0
300.0
2.0
10.0
40.0
-65 to +175
-65 to +200

Amps

VF
IR
TRR
CJ
RaJA
TJ
TSTG

NOTES:
1. Reverse Recovery Conditions: IF =0.5A, IR=I.0A. Irr=0.25A.
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.

-28-

Volts

!1A
jLS
pf

°CIW

°C
°C

MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N3611 THRU 1N3614 AND 1N3957

FIG. 1 - FORWARD CURRENT
DERATING CURVE
0

W

g;
.... en

Uw
Wo:
O:w
OQ.
0:::;
,0:<

~..:

O~

1.0

FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
20

1\

.8

W
0:
0:
::>
U

\

.6
.4

"-0:
wo:
(!l::>
<
w

\

125

10

~en

ReSIimvE OR INDUCTIVE LOAD
0.375" (9.6mm) LEAD LENGjS

I

50

0:

80Hz

;(

0

Z

05

~

'r-.....

~INe:WAVE

10

~~

30

~~

'" 0:
;:sa

20

Q.

10

~~

"c.
uj

U

z

u

it<

U

Z

20

0
F

40 60 BO 100

U

0:
0:
::>
U
wen
enw
0:0:
WW
>Q.
w::;
0:<
enO
::>0:

en
~

1.0

1.0
A

0.1

V8irfi ~'ii1';7·
10

REVERSE VOLTAGE, VOLTS

4.0

.04

1a1.0MHz
10

10

;!:
z
;!:

T"..25'C

50

;:;

FIG. 5 - TYPICAL REVERSE CHARACTERISTICS

@Q
z::;

...........
10

z

NUMBER OF CYCLES AT 60Hz

..:
zw

50

;!:

f--f-I-+-H-++H--+-+--f'P'HoCI:-I

10

.01
20

40

18

FIG. 4 - TYPICAL JUNCTION CAPACITANCE

"-1
-- __

II

16

100

I~
; "
f--f-f-+"I'-Id+H--+-+'I"Iool+++I
1 11

1.4

iJEDECMETHOD

1

1"o..,..
........+~---1I-t+t-H''''':--.....''""""-+-I-++++++I
_
T,-1 1iO"C

1.2

INSTANTANEOUS FORWARD VOLTAGE, VOLTS

T".26"C

Cl)W

II

.01

50 I"<",""-'~"TT'-I!a.lTjj":.:.
..-SING-rLE-HALF,....,..-.I"J.IT
III,
I"
40

2% DUTY CYCLE

en

FIG•. 3- MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT

w

PULSE WlDTHoo300JlS

/

01

;!:
Z
;!:

175

AMBIENT TEMPERATURE

(!len
o:w
::>0:

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

10

>-'
Z

60

60

100

120

140

PERCENT OF RATED PEAK REVERSE VOLTAGE

-29-

100

20

POWER
SEMICONDUCTOR
DIVISION

INsr~

JAN AND JANTX 1 N4245 THRU 1 N4249
GLASS PASSIVATED JUNCTION MEDIUM SWITCHING RECTIFIER
VOLTAGE -200 to 1000 Volts CURRENT- 1.0Ampere
FEATURES

MECHANICAL DATA
Case: One piece glass, her-

• Qualified to MIL-S-19500/286C
• High temperature metallurgically
....:-?~='bonded
• Glass
passivated cavityfree junction
• 1.0 Ampere operation at
TA=100°C with no thermal runaway
• TypicallR less than 0.1 Il A
+ ,.033 !.84J OIA .• Hermetically sealed package
.028 (. 71)
• High temperature soldering guaranteed: 350°C/l0 seconds/.375",
(9.5mm) lead length at 5 Ibs.,
(2.3kg) tension

metically sealed
Terminals: 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 ambientaemperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
~N

~N

~N

~N

~N

SYMBOLS 1N4245 1N4246 1N4247 1N4248 1N4249

Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
Maximum DC Blocking Voltage
VDC
Minimum Reverse Breakdown Voltage at 100!LA
VBR
Maximum Average Forward RectHied Current
.375" (9.5mm) Lead Length at TA=100°C
I(AV)
Peak Forward Surge Current,
8.3ms single haH 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=25°C
at Rated DC Blocking Voltage
TA=150°C
IR
Thermal Resistance (NOTE 3 )
R8JA
Typical Junction Capacitance (NOTE 1)
CJ
Maximum Reverse Recovery Time (NOTE 2)
TRR
Operating and Storage Temperature Range
TJ,TsTG

200
140
200
240

400
280
400
480

600
420
600
720

1000
700
1000
1150

UNITS

VoHs
Volts
Volts
VoHs

1.0

Amps

25.0
1.3
1.0
150.0
50.0
15.0
5.0
-65 to +175

Amps
Volts

NOTES:
1. Measured at 1MHz and applied reverse voltage of 4.0 volts.
2. Reverse Recovery Test Conditions: IF= O.SA, IR= 1.0A, Irr = O.2SA.
3. Thermal Resistance from Juction to Ambient at .375' (9.56mm) Lead lengths P.C. Board mounted.

-30-

800
560
800
960

!LA
°cm
pf
~S

·C

MAXIMUM RATING AND CHARACTERISTIC CURVES
JAN AND JANTX 1N4245 THRU 1N4249

,.:
Z
w

FIG. 1 -

FORWARD DERATING CURVE

1.0

\

ce
ce

::>

()

0

w

u::

Gfil
wce
00.
0(0«

s:a:
0
u..

w

50

50

UJ

100

125

~

Z

~

\

150

05

T"..25"C

'"~

PULSE WIDTH..ooo!'8 2% DUTY CYCLE
-

I
.01

175

04

AMBIENT TEMPERATURE, ·C

FIG. 3 -

I

.10

Z

75

I

0

~ESISTIVE OR INDUCTIVE LOAD
0.375" (9.5mm) LEAD LENGTHS

25

1.0

a: a:

::>0«

\

-60Hz

~

a:

OW
LLo.
"'::;;

\
_

50

~~

-SINGLE PHASE
HALF WAVE
0.2

U.l

w
a:
a:
0

\
0.'

C!l

,.....

()

0.6

«ce

10

::>

\

cew

ce::;;

,.:
Z

\

O.S

FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

20

06

08

1.0

12

14

16

INSTANTANEOUS FORWARD VOLTAGE. VOLTS

MAXIMUM NON"REPETITIVE PEAK
FORWARD SURGE CURRENT

FIG. 4 30

TYPICAL JUNCTION CAPACITANCE

b.....

u..

Q.

W

I'

T,1J:

10

()

z

20

~

i'--t--,

(3

0:
0«

0

T..100"C

10~-+~++~~~-r~~~~

'.1.0MHz
Vsig-50m Vp-p max.
10

100

10

FIG. 5 -

f-'

T.... 125OC

1.0

~~
~

O.

z

~
CJ)
~

TYPICAL REVERSE CHARACTERISTICS

10

a:
a:
::>
()
w'"
",UJ
cea:
wUJ
>0.
w::;;
ceo«
",0
::>a:
00

100

REVERSE VOLTAGE, VOLTS

NUMBER OF CYCLES AT 60 Hz
Z
W

--

,

1,/

-

..

01

T...7SOC

T.r-25"C
.01
20

40

60

80

100

120

PERCENT OF RATED PEAK REVERSE VOLTAGE

-31-

140

18

INsr~

POWER
SEMICONDUCTOR
DIVISION

JAN AND JANTX 1 N4942 THRU 1 N4948
GLASS PASSIVATED JUNCTION FAST SWITCHING RECTIFIER
VOLTAGE· 200 to 1000 Volts CURRENT.1.0Ampere

t

1.50 (38.11
.065(1.65)

~ I
~

.250(6.35)

:i4OiTI6i

+
---'-_ _.u

FEATURES

I'

MECHANICAL DATA
Case: One piece glass, hermetically sealed
Terminals: Axial leads,
solderable per MIL-STD-202,
Method 208
Polarity: Color band denoted
cathode
Mounting Position: Any
Weight: .02 ounce, .56 gram

• Qualified to MIL-S-19500/3598
High temperature metallurgically
bonded
• Glass passivated cavityfree junction
• 1.0 Ampere
operation at
T A=55°C with
no thermal runaway

.250(6.35) •
.140(3.56)

OIA.

':~~~\~i~)OIA .• Her~etically sealed packa~e
•

Typical temperature soldenng
guaranteed:350°C/1 Oseconds/.375",
(9.5mm) lead length at 5 Ibs.,
(2.3kg) tension

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%.

JAN

SYMBOLS 1N4942

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Vottage
Minimum Reverse Breakdown Voltage at 100fAA
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) at TA=100°C
Maximum Instantaneous Forward
TA=25°C
TA= -65°C
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)
TJ= 25°C
Maximum Junction Capacitance (NOTE 2 )
Typical Thermal Resistance (NOTE 3 )
Operating and Storage Temperature Range

VRRM
VRMS
Vee
VBR

200
140
200
220

JAN

JAN

JAN

JAN

1N4944

1N4946

1N4947

1N4948

UNITS

400
280
400
440

600
420
600
660

800
560
800
880

1000
700
1000
1100

Volts
Volts
Votts
Volts

I(AV)

1.0

Amps

IFSM

15.0
1.3
1.5
1.0
200.0

Amps

VF
IR
TRR
CJ
R8JA
TJ,TsTG

45

150
35

25

50.0
-65 to +175

NOTES:
1. Reverse Recovery Test Conditions IF = 5A, IR = lA, Irr = 25A.
2. Measured at 1 MHz and applied reverse voltage of 12 volts.
3. Thermal resistance from Junction to Ambient at .375"(9.5mm) lead lengths P.C.Board mounted.

-32-

Volts
fAA
250
20

500
15

nS
pf

°CIW
°C

MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N4942 THRU 1N4948
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
20

,.:
Z
w
a:
a:
:>

..J.....-'1"

10

0

0

V

a:

FIG. 1 - FORWARD CURRENT
DERATING CURVE

!Z'
W
a:
a:
:>

1.00

ll!

.75

0
0

1\

tff!
wa:

a:w
00.
a:::E
.t<
;::
a:

f2

.5Qo

.25

w
(!l
~

25

50

75

Z

0.1

f2~
(I)::E
:><
0
w

\

.100

~
(I)
.01

\

.4

Z

w
a:
a:
:>
0(1)
ww
(!la:

\

20

125

a:

175

~

,.:

a: a:

24

6810

00

,

~:E
~

z

~
(I)

./

T...75"C-

-

0.1

;!;

/
40

6080100

NUMBER OF CYCLES AT 60 Hz

01

"

20

40

I--

T,-25"C' -

60

80

100

120

140

PERCENT OF RATED PEAK REVERSE VOLTAGE

30

"

-

10

/'
20

T,.I25"C -

>0.

w::E
a:<
(1)0
:>a:

FIG. 5 - TYPICAL JUNCTION CAPACITANCE

...........

FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM

T,.w

5011

1011

NONINOUCTIVE

NONINOUCTIVE

_ _ 1..

+D.SA
(+)

r\

1/

-025
NON·
INDUCTIVE

1-1.0 MHz
Voig-llOm'lJ>p max.
10

50

REVERSE VOLTAGE. VOLTS

100

--11

D.U.T.

111

5

2.0

WW

r-..."

Iilil

1.8

0

W(l)
(l)W

r- t-

f2

,.

Z

w
a:
a:
:>

I I

10

1.6

10

....:.::...WC

a:

1.4

20

150

IJ1eoer METHOD

........ ~r-.

!§~
~<

"

1.2

FIG. 4 - TYPICAL REVERSE CHARACTERISTICS

8.3",. SINClLE
HALF·WAVE

r....

to

~B

.6

INSTANTANEOUS FORWARD VOLTAGE. VOLTS

FIG. 3 - MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
,.:

PULSE WIOTHo300jIO
2% DUlY CYCLE

;!;

AMBIENT TEMPERATURE ·C

30

I

T,-25"C

Z

O.375"(9.Iimm) LEAD LENGTHS

~

1,0

~

110Hz
RESISTIVE DR
INDUCTIVE LOAD

W

h
a: a:

OSCILLOSCOPE
(NOTE 1)

NOTE:S. 1. Rise Tlrne ... 7ns max. Input Impedance ::::
1 megohm, 22pF
2 Rise Time"" 1Dns max. Source Impedance '"

J

l' I

-1.0

-.I

Itlem

50 ohms

-33-

SET TIME BASE FOR

80100,.am

IN~

POWER
SEMICONDUCTOR
DIVISION

JAN AND JANTX 1N5415 THRU 1N5420
GLASS PASSIVATED JUNCTION FAST SWITCHING RECTIFIER
VOL TAGE· 50 to 600 Volts CURRENT· 3.0 Amperes

r

1.30 (32.02)

.037 1.94)

Case: One piece glass, her-

• Glass passivated 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°C/1 0 seconds/.375"
(9.5mm) lead lengthl5 Ibs., (2.3kg)
tension
k

.042 (1.0710.ffi,... <-

MECHANICAL DATA

FEATURES

---------.;;...;;;;.;..;..;...;;..;..;~;;..

~!(22.86) • Qualified to MIL-S-19500/4110

, .

metically sealed
Terminals: Axial leads,
solderable per MIL-STD-202,
Method 208
Polarity: Color band denotes
cathode
Mounting Posit/on: 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, 60Hz,resistive or inductive load.
For capacitive load, derate current by 20%.
JAN
SYMBOLS IN5415

Maximum Recurrent Peak Reverse Vottage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 100ilA
Maximum Average FOnNard Rectified Current
.375" (9.5mm) Lead Length at TA= 55°C
Peak FOnNard Surge Current,
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA=100°C

JAN

JAN

JAN

JAN

JAN

IN5416

IN5417

IN541S

IN5419

IN5420

UNITS

500
350

600
420

Volts
Volts

500

600

Volts

550

660

Volts

VRRM
VRMS

50
35

100
70

200

Voc

50

100

200

400
280
400

VBR

55

110

220

440

140

I(AV)

3.0

Amps

IFSM

80.0

Amps

Minimum Peak Reverse Power at 20 Ils pulse width
Maximum Instantaneous Forward
1.5A TA=25°C
Voltage at
9.0A TA=25°C
0.5A T A=-55°C
Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA=100°C
Maximum Junction Capacitance (NOTE 1)

PRM

1000

Watts

VF

1.2
1.5
1.3

Volts

CJ

550

430

250

165

140

120

Maximum Reverse Recovery Time (NOTE 2)
Maximum Thermal Resistance (NOTE 3 )

TRR
R8JL

150

150

150
150
20.0

250

400

Operating and Storage Temperature Range

TJ,TSTG

1.0
20.0

IR

-65 to +200

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 Lead at .37S",(9.Smm)lead lengths with both leads attached to heat-sinks.

-34-

IlA
pf
nS

°C/W
°C

MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5415 THRU 1N5420
FIG. 2 -

MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT

200

~ FIG. 1 w
4.0

ffi

~"­

~"'" ......

20

10

RESISTIVE OR
INOUCTIVe LOAD
375" (9 5mm) LEAD LENGTH

W

Cl

«

a:
W

0

>

TA" 100"C
100

0"-

a:::<

~«

ClU)

a:W
::Ja:
U)W

a:
a:
::J
U
3.0
OU)
a: W

«

8 3 SINGLE HALF
SINE-WAVe JEDEC METHOD

W

FORWARD CURRENT DERATING CURVE

0

25

«

SO

75

100

a:::<
««
~

"

125

50

....

1--

a:Z
OW
u.a:
",a:
«::J

........
150

wU
"-

~

10

5

10

50

100

NUMBER OF CYCLES AT 60Hz

200

175

AMBIENT TEMPERATURE. °C
FIG. 4 -

TYPICAL JUNCTION CAPACITANCE

100
U.

0-

FIG:. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
20

W
a:
a:
::J

U

o

Ow

40

Ci
«

"«

20

U

3.0

/

I.

.....

f- f.l.0MHz

~

VS;Q'jmvT

10

V

10

~J - ;50~

...........

I-

10

a:

~~
1I:a:

60

Z
«

U

/

~
Z

ui

40

20

10

60

100

REVERSE VOLTAGE, VOLTS

u.,,U)::<

=> «

oW

0.3

/

Z

«

I-

0.1

TJ~

2S"C
Pulse Width = 300j.1 S
2% Duty Cycle

Z

«
I-

U)

10
.03

6,0

Z

J

.0 1
0.4

~

0.6

08

10

1.2

14

16

1.8

4.0

Z

2.0

W
a:
a:
::J

INSTANTANEOUS FORWARD VOLTAGE VOLTS

2.0
TJ

U

FIG. 6 -

FIG.5 - TYPICAL REVERSE
CHARACTERISTICS

25'· C

1.0

REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM ~ ~ .6

500
NQNINDUCTIVE

f----trrf-..-

100
NONINDUCTIVE

0.5A

I

~

\.
1/

lapprox I

25'

OSCilLOSCOPE

NONINDUCTIVE

NOTES 1 Rise Time = 7ns max

INOlE 11

Input Imp<>dance =

1 mog&Ohm 22pF,
2 Rise Time
50 ohms

= IOns max

Source Impedance

•

10

=

A

~

,2

i3

::Ja:

D,U,T,

10

ffiffi
aJ ~

"

I

~~

1

«Z::<

06

!z

04

~

02

~

01

11cml

SET TIME BASE FOR
SO;lOOns/em

-35-

~

./

20

40

.60

80

lOa

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

INsr~

POWER
SEMICONDUCTOR
DIVISION

JAN AND JANTX 1 N5550 THRU 1 N5554
GLASS PASSIVATED JUNCTION MEDIUM SWITCHING RECTIFIER

VOLTAGE-200to 1000 Volts

f

.100 (4.57)OIA
.115 (2.92)

1.30 132.02)
0.90 (22.9)

CURRENT-3.0Amperes
FEATURES

MECHANICAL DATA

• Qualified to MIL-S-19S00/420A
• Glass passivated cavity-free junction
• Medium
switching for
good efficiency
• High temperature
metallurgically bonded
• 3.0 Ampere operation at
TA=SS'C with no thermal
runaway
• Hermetically sealed package
• High temperature soldering
guaranteed:
3S0'C/1 Oseconds/.37S".(9 .5mm)
lead lengthlS Ibs., (2.3kg) tension

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: .037 ounce, 1.04 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%
~N

~N

~N

~N

~N

200
140
200
240

4500
280
400
480

600420
600
660

800
560
800
880

1000
700
1000
1100

SYMBOLS 1N5550 1N5551 1N5552 1N5553 1N5554

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 50!1A
Maximum Average Forward Recitified Current
.375" (9.5mm) Lead Length at
TA=55°C
TL =55°C
Peak Forward Surge Current,
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA = 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 Voltag'l
TA=100°C
Maximum Reverse Recovery Time (NOTE 1)
Maximum Thermal Resistance (NOTE 2 )
Operating Junction Temperature Range
Storage Temperature Range

VRRM
VRMS
Voc
VBR

3.0
5.0

I(AV)

IR
TRR
R9JL
TJ
TSTG

Amps
1.3

1.2

VF

1.5
1.0
75.0
2.0
22.0
-65 to +175
-65 to +200

NOTES:

1. Reverse Recovery Test Conditions: IF= O.SA, IR= 1.0A, Irr= .25A.
2. Thermat Resistance from Junction to Lead at .375" ,(9.Smm) lead lengths with both leads attached to heat sink.

-36-

Volts
Volts
Volts
Volts

Amps

100.0

IFSM

UNITS

Voks
!1A
J,1S

°CIW
°C
°C

MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5550 THRU 1N5554
FIG. 2 200

FIG. 1 -

oW
u::

5.0

t5 fB

4.0

~~

3.0

FORWARD CURRENT DERATING CURVE

r--,--"'I'I:-,----,---,---,--,---,

wa:
a:w

«<

w
t'JUl
a:w
::Ja:
UlW
00.
a::2
«<
;;:,.:
a:z
Ow
u.a:
",a:
<=>
wO
a.

100

r--: h tT,,_55"C

10

1a

10

50

75

100

125

150

175

FIG. 4 -

TYPICAL JUNCTION CAPACITANCE

200

u.

"-

;0

c;:

<

L

v
10

0

50

100

REVERSE VOLTAGE, VOLTS

~Ul

Z

"I--

10

Z

10

TJ_25"C

f_l.0MHz
Vsig-50mVp-p max.

0

,.:

50

r----...

Q

50

0

;-...

z

100

w
a:
a:
=>

50

u.i
0

FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

;0
Z
;0

100

100

TEMPERATURE, "C

a:~
Ow
u.o.
Ul:2
=><
0
W

50

NUMBER OF CYCLES AT 60Hz

1--"---+---+--I'--P"""~--t---1
25

a:

8.3ms SINGLE HALF·WAVE
SINE-WAVE JEDEC) METHOD

20

wa:
t'J=>

Cl ()
~

t-..... TJ~25~ I

50

~...:

om
u.a:

MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT

PULSE WIDTH-3001'"
2% DUTY CYCLE

IL

10

FIG. 5 - TYPICAL REVERSE CHARACTERISTICS

TJ-25"C

L

30
20
10

I--

T.r=1~OC V
V

II

05

TJ_125"C

I

Ul

1

.,;

01

Ul
w
Ulw
0: a:
Ww
>0.
w:2
0:«
UlO
=>a:

as

10

~~

;:;r:

01
06

08

10

12

14

16

18

zdJ

20

~~
z=>

INSTANTANEOUS FORWARD VOLTAGE, VOLTS

-0

0.1

-

TJ-75"C

./

01

V
20

./
40

/
60

TJ",2&C

80

100

120

140

PERCENT OF RATED PEAK REVERSE VOLTAGE

·37·

INsr~

POWER
SEMICONDUCTOR
DIVISION

JAN AND JANTX 1 N5615 THRU 1 N5623
GLASS PASSIVATED JUNCTION FAST SWITCHING RECTIFIER

VOLTAGE-200to 1000 Volts

CURRENT-1.0Ampere
FEATURES

1.11012.79)
'.065 (1.65)
OIR.
.225 15.72)

.130133.00)

, .033 (.838)
.028 (.711l
OIA

Dimensions in inches
and

(millimeters)

MECHANICAL DATA
Case: One piece glass, her-

• 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
• Typical IR less than 0.1 J.IA
• High temperature soldering guaranteed: 350°C/10 secondsl.375",
(9.5mm) lead length at/5 Ibs.,
(2.3kg) tension

metically sealed
Tennlnals: Axial leads,
solderable per MIL-STD-202,
Method 208
Polarity: Colorband denotes
cathode
Mounting Position: Any
Weight: .02 ounce, .56 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%.
SYMBOLS 1N5615 1N5617 1N5619

Maximum Recurrent Peak Reverse VoHage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown VoHage at 50llA
Maximum Average Forward Recitilied Current
.375" (9.5mm) Lead Length at TA=5SoC
Peak Forward Surge Current,
S.3ms single haH sine-wave superimposed on
rated load (JEDEC Method) at TA =1 OO°C
Maximum Instantaneous Forward VoHage 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
Maximum Junction Capacitance (NOTE 2)
Typical Thermal Resistance (NOTE 3 )
Operating Junction Temperature Range
Storage Temperature Range

VAAM
VAMS
VDC
VBA

200
140
200
220

400
2S0
400
440

600
420
600
660

1N5621

1N5623

UNITS

SOO
560
SOO
SSO

1000
700
1000
1100

VoHs
VoHs
VoHs
Volts

I(Av)

1.0

Amps

IFSM

25.0

Amps

1.6
0.5
25.0
300
150
250
25
20
35
3S.0
-65 to +175
-65 to +200

VoHs

VF

IR
TAA
CJ
R8JL
TJ
TSTG

150
45

NOTES:

1. Reverse Recovery Conditions: IF=I.0A, IR= 1.0A, Irr= 0.2SA.
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.

-38-

500
15

IlA
nS
pi
°CIW
°C
°C

MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5615 THRU 1N5623
FIG. 2 - TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS
20

t--'

z

FIG. 1 - FORWARD CURRENT
DERATING CURVE
L = 375" (9.5mm) I

100

w
a:
a:
:oJ
0
0
w

"'~

75

u::

!=(!)

Ow
wa:
a:w
00.
a:::<

~-

1\

a:
25

LL

0

02" x 02"

50

w

'"a:«w

RESlilTlVE OR INDUCTIVE LOAD
O.375"(9.5mm) LEAD LENGTHS

~

50

25

75

100

125

z

T....25"C
1.0

~

I
I

.01

.6

175

t--'
Z

40

C

.r
:oJ
OCIJ
Ww
",a: 30
a:w
:oJ 0.
CIJ::<
0«

20

0:

~
a:

"

LL

w

r--... r--.

0

,.

t--'
Z

a:
a:
:oJ
o
~ fB
a: a:
WW
>0.
w::<
a:«
ClJO
:oJ a:

l'- t"--I'

TA-100"C

10

;::
Z
;::
CIJ

100

10

NUMBER OF CYCLES AT 60 Hz

.,.-

Q.

TJ_25"C

./

30

W

T....75OC

0.1

~

FIG. 5 - TYPICAL JUNCTION CAPACITANCE
01

I

r---

2.0

T".125"C

, /'

~~

"

20

T....25"C

LL

1.8

r--

00

10

b..

1.6

0

T~LJ

r----.r---

1.4

0

8.3ms SINGLE HALF
SINE-WAVE
(JEDEC) METHOD

.......

12

FIG. 4 - TYPICAL REVERSE CHARACTERISTICS

FIG. 3- MAXIMUM NON-REPETITIVE
SURGE CURRENT

'>1

1a

8

INSTANTANEOUS FORWARD VOLTAGE, VOLTS

AMBIENTTEMPERATURE, 'C

50

PULSE WIDTHo3OOl'8
2% DUTY CYCLE

/

01

;::
Z
;::CIJ

r\

150

.,.V

10

0
a:
~CIJ
a:~
OW
LLo.
CIJ::<
:oJ«
0
w

!\~~
(5mm x 5mm)

~«

0

t--'

Z

w
a:
a:
:oJ

40

60

80

100

120

140

PERCENT OF RATED PEAK REVERSE VOLTAGE

10

0

FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC
AND TEST CIRCUIT DIAGRAM

z

;::
0

11:

50n
NONJNDUCTIVE

t5

10n
NON INDUCTIVE

05A

f-1MHz
Vsig-50mVp-p max.

REVERSE VOLTAGE, VOLTS

100

y

D.U.T.

(+)

10

~

.:.. 25 Vdc
(approx.)

-0.25

(-)

OSCILLOSCOPE

-10

NOTES 1. Rise-rllT18-7ns max. Input Impedance...
1 rnegaohm 22pF.
2. Rise Time-l0ns max. Source Il'fllE'danc:e..

50 ohms.

-39-

I

\

(NOTE 1)

-til

\ J

II

cmi-'- ~~/~66~~~:SE FOR

INsr~

POWER
SEMICONDUCTOR
DIVISION

JAN AND JANTX 1 N5614 THRU 1 N5622
GLASS PASSIVATED JUNCTION MEDIUM SWITCHING RECTIFIER

VOLTAGE-200to 1000 Volts

CURRENT-1.0Ampere
FEATURES

' .110 (2.791
j • 065D~t65)

.i~~\~tJ~\

•
•

•
•
, .033 (.838)'
.028 C.711)1
OIA

Dimensions in inches
and
(millimeters)

•

•
•

Qualified to MIL-S-19500/427C
High temperature metallurgically
bonded ~"~.
HermetiCa"y-~
sealed package
____
Glass passivated cavity.~
free junction
1.0 Ampere operation at TA=55 0 C
with no thermal runaway
TypicallR less than 0.1 IJA
High temperature soldering guarnateed: 350°C/1 0 seconds/.375",
(9.5mm) lead length atl5 Ibs.,
(2.3kg) tension

MECHANICAL DATA
Case: One piece glass, hermetically sealed
Terminals: Axial leads,
solderable per MIL-STD-202,
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%.

Maximum Recurrent Peak Reverse Vokage
Maximum RMS Vottage
Maximum DC Blocking Vokage
Minimum Reverse Breakdown Voltage at 50j.!A
Maximum Average Forward Rectified Current
.375" (9.5mm) Lead Length at TA=55°C
Peak Forward Surge Current,
S.3ms single haH 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 Temperature Range

SYMBOLS

JAN

JAN

JAN

fN5614

fN56f6

fN56f8

fNS620

JAN

fN5622

JAN

UNITS

VAAM
VAMS
Voc
VBA

200
140
200
220

400
2S0
400
440

600
420
600
660

SOO
560
SOO
SSO

1000
700
1000
1100

Voks
Voks
Voks
Voks

I(AV)

1.0

Amps

IFSM
VF

30.0
1.3
0.5
25.0
2.0
15.0
3S.0
-65 to +175
-65 to +200

Amps
Voks

IA
TAA
CJ
R8JL
TJ
TSTG

NOTES:
1. Reverse Reoovery Conditions: IF=1.0A, IR=1.0A, Irr=O.25A.
2. Measured at 1.0 MHz and applied reverse vollage of 4.0 Voe.
3. Thermal Resistance from Junclion 10 lead al.375" (9.5mm) lead lengths P.C. Board mounled.

-40-

I1A
I1S
pf
°cm
°C
°C

MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5614 THRU 1N5622
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
20

FIG. 1 - FORWARD CURRENT
DERATING CURVE
1.00

~ ~375" IJmml T

0

w

I\I~,-

rr:

t3ffl
wa:

.75

a:w

~~
,,

RESISTiVe OR
NOUCTIVE LOAD
. o.m'(9.6mm) LEADLENGTHS
25

50

75

100

125

7

0

I

1

1\

w
~

V

0

1\

150

T....25"C
PULSE WlDTH-300JIS

--,

2% DUlY CYCLE

1

.4

.6

81.01.21.4

1.61820

INSTANTANEOUS FORWARD VOLTAGE. VOLTS

175

FIG 4 _TYPICAL REVERSE CHARACTERISTICS

AMBIENT TEMPERATURE ·C

20

FIG. 3 - MAXIMUM NON-REPETmVE
SURGE CURRENT
50

,.:

Z
w
a:
a:
::>
u'"
ww
C)a:
a:w
::>Il.

~~

40

30

a:

20

f2

10

f'.. I'-..

10

a._SINGLE HALF
SINE·WAVE

Z
W
a:
a:
::>
u
w'"
"'w
a: a:
WW

(JEDjMnr

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

~
a:

~ 1'-1~lJ

"

Tj'!71

T.... I25'C

,.:

~

10

i1i~
a:a:
OU

"'-,,-

~

~~

i'!
Z
i'!

II
10

7
J

0.1

'"~

100

NUMBER OF CYCLES AT 60Hz

"c.

.01
20

40

60

80

100

120

FIG. 6 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM

~O~INDUCTIVE

~
Z
i'!

(+)

0

_

it

-

~

~~~INDUCTIVE

+O.5A

--tI
V

-0.25
OSCILLOSCOPE
(NOTE 1)-

NOTES 1. Rio. Tlmo-7M max. Input Irnpedan_
1 mogaohm22pF.
2. Rise TIme-l0ns max. Source ImpedanC8at

500111.0.

-41-

I

II

Vaig-50mVp-p max.
100

t..

D.U.T.

(-)

10

jo-

1"\

50Vdc
(approx:)

f-1MHz

REVERSE VOLTAGE. VOLTS

140

PERCENT OF RATED PEAK REVERSE VOLTAGE

r--....... .....T~~

10

.-

~

III

I--

T.-2,C _I--

./

FIG 5 - TYPICAL JUNCTION CAPACITANCE
40 ,......"
30

1=

./

...

'j..,J
BASE FOR
-ti' emle- SETTIME
5OI100nslcm

-1.0

POWER
SEMICONDUCTOR
DIVISION

INsr~

JAN AND JANTX 1 N5624 THRU 1 N5627
GLASS PASSIVATED JUNCTION RECTIFIER
VOL TAGE - 50 to 800 Volts CURRENT - 3.5 Amperes
MECHANICAL DATA

FEATURES
.230·(5.841 DIA
.110 (4.321

.052 U.32IDl&... _
.049 (1.241

Dimensions in inches
and
(millimeters)

• 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
• Typical IR less than 0.1 !J,A
• High temperature soldering guaranteed: 350°C/10 seconds/.375",
(9.5mm) lead length aU5 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 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, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage

VRRM
VRMS

JAN
1N5624
200

JAN
1N5625
400

JAN
1N5626
600

JAN
1N5627
800

140

280

420

560

Volts

200
240

400
460

600
660

800
880

Volts
Volts

UNITS
Volts

Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 50ILA

Voc
VBR

Maximum Average Forward Rectified Current
.375" (9.5mm) Lead Length at TA= 55'C

I(AV)

3.5

Amps

Peak Forward Surge Current,
8.3ms single half sine-wave superimposed on
rated load (JEDEC Method) at TA=100'C

IFSM

125.0

Amps

Maximum Instantaneous Forward
Vo~age at 3.5A

TA=25'C
TA= -65'C

IR

1.0
1.5
1.0
100.0

CJ

40.0

pf

Maximum Reverse Recovery Time (NOTE 2)
TJ=25'C
Maximum Thermal Resistance (NOTE 3 )

TRR
ReJL

5.0
18.0

Operating and Storage Temperature Range

TJ,TsTG

-65 to +200

ILS
'CIW
DC

Maximum DC Reverse Current
TA=25'C
at Rated DC Blocking Voltage
TA=150'C
Typical Junction Capacitance (NOTE 1)

VF

NOTES:

1 Measured at 1.0 MHz and applied reverse voltage of 4.0 Volts.
2. Reverse Recovery Test Conditions: IF = 0.5A, IA = 1.0A, Irr = 0.2SA
3. Thermal Resistance from Junction to Lead at .375", 9.5mm lead lengths, with both leads attached to heat sink.

-42-

VoHs

/LA

MAXIMUM RATING AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5624 THRU 1N5627
FIG. 2 -

MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT

200

100

FIG. 1 0

w
u:
;::",
Uw
wa:
a:w

00.
0::;
,(<(

~t-'

-

FORWARD CURRENT DERATING CURVE

T... l00"C

4.0
3.5

50

.........

3.0

..........

2.0

~

f'."

0"-

LLll!

wO:
C)::l
«U
a:
w

8.3ms SINGLE HALF
SINE·WAVE
(JEDEC) METHOD

.........

80Hz
RESISTIVE OR INDUCTIVE LOAD
O.37S'(9.&nm) LEAD LENGTHS

1.0

'i'

25

75

50

100

10

~

........
125

150

10

"

175

AMBIENT TEMPERATURE, °C

100

50

NUMBER OF CYCLES AT 60Hz

FIG, 4 -

200

TYPICAL JUNCTION CAPACITANCE

100

LL

c.

FIG. 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

.......
50

f"-

W

U

z

100

>'

r---......

()

Cl:

50

«
U

/

f.1MH,
Vsig_50mVp--p max.

T...25"C

1" .....

10

,..:

Z

/.

10

W

0:
0:

::l

5.0

10

50

100

U

0

~(I)

~ffi

1.0

(I):;

0.5

LLo.

::l«
0
w

/

'";::;

FIG. 5 20

I

-

I

I

0.1

TJ.l~

T...25OC
PULSE WlDTHo3OO... 2% DUTY CYClE

- ---

TYPICAL REVERSE CHARACTERISTICS

30

z
z>'

>'

REVERSE VOLTAGE, VOLTS

I

0:

10

...-

T.... 12SOC

,.

I

-

.05

1,0
,01
0.6

0.8

1.0

1.2

lA

1.6

1.8

2,0.

__ i--"'"
T.,..75"C

INSTANTANEOUS FORWARD VOLTAGE, VOLTS
0.1

17

,01

./
20

V

40

-"
TJ "125°C
60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

-43-

140

POWER
SEMICONDUCTOR
DIVISION

INsr~

JAN AND JANTX 1 N5807 THRU 1 N5811
GLASS PASSIVATED JUNCTION FAST EFFICIENT RECTIFIER
VOLTAGE RANGE - 50 to 150 Volts CURRENT-6.0Amperes

t

MECHANICAL DATA

FEATURES

1.30 (32.021 _ _ _ _ _ _ _ _ _.......;....;;;,;...;,.;..;;;...;..;;,=

.185(4.19)DIA.
.115 (2.92)

~!)

• Qualified to MIL-STD-19500/477

• Glass passivated cavity free junction
:~ I~::
S.uperf~s! recovery times for very
!
high efficiency ,
f
• Low forward
~)D.m:.....~
1.30 132.02)
voltage, high current
.037 (.941
0.9°1(22.96)
_
c..:pability
• Hermetically sealed
package
• High surge capability
• High temperature metallurgically
bonded
Dimensions in inches
• High temperature soldering guaranand
teed: 350°C, .375",(9.5mm), from
(millimeters)
case for 10 seconds at 5lbs.,
(2.3kg) tension

•

case: One pice glass hermetically
sealed
Terminals: Axial leads, solderable
to MIL-STD-202
Method 208
Polarity: Colorband denotes
cathode end
Mounting Position: Any
Wleght: 0.037 ounce, 1.04 gram

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25°C ambient temperature unless othelWise specified.
Single phase, half wave, 60Hz,resistive or inductive load.
For capacitive load. derate current by 20%

SYMBOLS

JAN1N5807

JAN15809

JAN1N5811

UNITS

VRRM
VAMS
Voc
VBA

50
35
50
60

tOO
70
100
110
3.0
6.0

150
105
150
160

Volts
Volts
Volts
Volts

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Minimum Reverse Breakdown Voltage at 10011A
Maximum Average Forward Recitilied Current TA=55'C
.375" (9.5mm) Lead Length at
Tl=75'C
Peak Forward Surge Current,
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= l00'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 Temperature Range

I(AY)

IFSM
VFM

IA
TAA
TFA
VFR
CJ
ReJL
TJ
TSTG

125.0
0.875
0.975
0.800
1.075
5.0
150.0
30.0
15.0
2.2
60.0
22.0
-65 to +175
-65 to +200

NOTES:
I. Reverse Recovery Test Condition: IF = 1.0A, IR = 1.0A, IRR =C.IA, di/dt =100 AI!,s.
2. Measured at 1 MHz and applied reverse voltage of 10 volts.
3. Thermal Resistance from Junction to Lead at .375", 9.5mm lead lengths, with both leads attached to heatsinks.

-44-

Amps

Amps
Volts

IIA
nS
nS
Volts
pi
'CIW
'C
'C

MAXIMUM RATINGS AND CHARACTERISTIC CURVES
JAN AND JANTX 1N5807 THRU 1N5811
FIG. 2. MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
200

FIG. 1- FORWARD CURRENT DERATING CURVE
12,---r---,.--,----,---,---,---,

elm

",w

:::J'"

10

100

rn~

I:

8.0

(JEDEC Method)

""

--

50

~a
rr----I

4.0 1-=-~+:----+---+--"'''oEP'O..--+-____

....

TA = 55"C

!2~
><'"

8.0

H~lf Jine~wLl

lJ.3ms Sinlgle

W

10
10

2.0

50

100

NUMBER OF CYCLES AT 60 Hz

FIG. 4- TYPICAL JUNCTION CAPACITANCE
~

n

50

m

@

~

ill

100

TEMPERATURE. 'C

u.

a.
W

FIG. 3 - TYPICAL FORWARD CHARACTERISTICS

'"

0

100.0

Z

;!

fa

,

'"

<

,.:
Z

.....

~

/

W
0-

:::;

TJ

= 1MHz
V
= 150~Vn

7fl;

6

10

f

10.0

10

'il9

W

20

~
40

60

100

REVERSE VOLTAGE. VOLTS

:::J
0
0

FIG. 5 - TYPICAL REVERSE CHARACTERISTICS

I

1.0

,.:

@

TJ = 250(;

Z

PULSE WIDTH = 3OOtJos

J

0.1

Z

200

'"'":::J
0

100

W

:::J

;!
Z
;!

2S"C

.....

20

15

'"

'"
'"~
'"rn
!2

=

40

[j

~~

-

~~

2% DUTY CYCLE

~~

I

1.0

;!
z
;!

I
0.6

1==

10

"'<

rnO
:::J'"
00

0.4

100'C:::

w:::;

rn
;!!;

0.01

.......

I
T,

0.8

1.0

1.2

1.4

1.6

'"
;!!;

1.8

INSTANTANEOUS FORWARD VOLTAGE. VOLTS

T, - 25'C

==

0.1

20

60

40

80

100

120

PERCENT OF RATED PEAK REVERSE VOLTAGE

--

FIG. 6 - TEST CIRCUIT DIAGRAM AND REVERSE RECOVERY TIME CHARACTERISTICS

~
p.U.T.

'+1.OA

I\.

~~~
l"Ee

I,

Lo

/

T
J

-1.QA

NOTES:
1. RISE TIME = 3ns MAX. INPUT IMPEDANCE:: 50 OHM MIN.
2. RISE TIME _ Sn, MAX. SOURCE IMPEDANCE ~ 50 OHM MAX.

1

I\, 1/

I,

I

~t em'" SET TIME BASE FOR 5ns/em
~

-45-

INsrBmt

140

-46-

SCHOTTKY RECTIFIERS
0.6 TO 40 AMPERES

-47-

LOW CURRENT AXIAL SCHOTTKY RECTIFIERS

-

TYPE
PACKAGE
IO(A)
VRo2O(V)
VR03O(V)
VR-4O(V)
YR-5O(V)
VRo6OM
VR·9OM
VR-I9OM

....

81110

lN1817
Ib..

IhnI

8111GO
DW

TYPICAL JUNCTION CAPACITANCE

1000

0.1

FIG. 5 -

20

40

80 100

MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT

25

o

.... ,

10

REVERSE VOLTAGE VCl TS

./
.001

1.0

0.4

40

60

80

100

120

I

140

PERCENT OF RATED PEAK
REVERSE VOLTAGE

"'"
1.0

TJ-TJmax.

1'0 :--..~

2.0

~
5.0

10

-

20

NUMBER OF CYCLES AT 60 Hz

-53-

J

I III II

8.3m. SINGLE HALF SINE·WAVE
JEDEC METHOD

- ......
50

100

1N5817 THRU 1N5819
HIGH CURRENT SCHOTTKY BARRIER RECTIFIERS
VOLTAGE-20 t040 Volts CURRENT- 1.0Ampere
FEATURES
DO-41

t

1.0 (25.4)

.10712.7)
.080(2.0)

MIN

.1

1+ ~

~
.205(5.2)
.160(4.1)

~

t

1.0(25.4)
lAIN
.034 (.86) ~

I

+

.028 (,71)

..

• Low cost
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-0
• Metal to silicon rectifier, majority carrier
conduction
• Guardring for stress protection
• Low power loss,
high efficiency
• High current capability,
10wVF
• 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/.37S" (9.S mm) lead lengths at
Sibs., (2.3 ~g) tension

MECHANICAL DATA
Dimensions in inches

and

(millimeters)

Case:JEOEC 00-41 Molded Plastic
Terminals: Axial leads, solderable per MIL-STO202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.012 ounces, .34 gram

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%.

• Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
• Maximum DC Blocking Voltage
• Maximum Non-Repetitve Peak Reverse Voltage
• Maximum Average Forward Rectified Current
.375", 9.5mm Lead Length at Tl = 90°C
• Peak Forward Surge Current, 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
TL = 70°C
• Maximum Forward Voltage at 1.0A
• Maximum Forward Voltage at 3.1 A
• Maximum Instantaneous Reverse Current at
Rated DC Reverse Voltage (NOTE3)
TA = 25°C
TA=1000C
Typical Thermal Resistance (NOTE 1)
Typical Junction Capacitance (NOTE 2)
• Storage and Operating JunctionTemperature Range

SYMBOLS

1N5817

1N5818

1N5819

UNITS

VRRM
VRMS
Voc
VRSM

20
14
20
24

30
21
30
36

40
28
40
48

Volts
Volts
Volts
Volts

I(AV)
IFSM
VF
VF
IR
R8JL
CJ
TJ,TsTG

1.0

.450
.750

25.0
.550
.875

Amps

I

.600
.900

1.0
10.0
15.0
110.0
-65 to +125

NOTES: 1. Thenmal Resistance from Junction to Lead, PC Board Mounting with .375(9.5mm) Lead Lengths and 1.5 in2
(38.1 mm 2) copper pads.
2. Measured at 1 MHz and applied reverse voltage of 4.0 volts.
3. Pulse Test: 300~ Pulse Width, 2.% Duty Cycle .
• JEDEC registered values

-54-

Amps
Volts
Volts
rnA
°cm
pf
°c

RATINGS AND CHARACTERISTIC CURVES 1N5817 THRU 1N5819

FIG 3 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

FIG 1 - FORWARD CURRENT DERATING CURVE
1.0

\

lN58A....

~~~
lN581

1\

\

SINGLE PHASE HALF WAVE
60Hz
RESISTIVE OR INDUCTIVE LOAD
~ (9.8mm) LEAD LENGTH
40

20

60

60

100

I "

~
120

140

LEAD TEMPERATURE; C

Vu'~~~IDTH.300J'll1% DUTY CYCLE

1
3

~

J

~

1~

13

L5

lJ

1~

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
FIG 2 - TYPICAL REVERSE
CHARACTERISTICS
FIG 4 -MAXIMUM NON-REPETITIVE PEAK
SURGE CURRENT

100

30

25

W

(!;IU>

",w
:::>'"
u>W

~~
«
;:0-:
",Z

0

-

20

~

15

OW

LL'"
",'"
<:::>

/

T..75"C

T.. - T.. max.
8.3ms·SINGLE HALF SINE-WAVE
JEDEC METHOD

""- ..... ....
........... ........

10

wO
c.

5

1=

~

...

".

.0

.00 1

I

~

T..125"C

10

20

60

.100

NUMBER OF CYCLES AT 60 Hz

T~5·C

I

I

I

I

I

20

40

60

60

100

120

140

FIG 5 - TYPICAL JUNCTION CAPACITANCE

PERCENT OF RATED PEAK
REVERSE VOLTAGE

400

200

'a
o
~

100

5

60
60

<::

40

ui

~

'-

1o
0.1

-..... .....

T,.25 C

....
f.l.0MHz
Vsig _ 50m Vp-p
I

0.4

1.0

4

10

REVERSE VOLTAGE, VOLTS

-55-

INSTUMIr

40

80

100

S8120 THRU S8160
MINIATURE SCHOTTKY BARRIER RECTIFIER
VOLTAGE RANGE - 20 to 60 Volts CURRENT - 1.0 Ampere
FEATURES
00-41

t

1.0 (25.4)

MIN
.107(2.7) ~ 1

1+

.080(2.0)

i

----r-.205 (5.2)
.160(4.1)

t

t

.034(.96) ~

+

.028 (.71)

1.0 (25.4)
MIN

l

Dimensions in inches
and
(millimeters)

• Low cost
• Plastic package has Underwriters Laboratory
Flammability Classifications 94V-O
• Metal to silicon rectifier, majority
carrier conduction
• Low power loss,
high efficiency
• High current capability,
10WVF

•
•
•
•

High surge capacity
Epitaxial construction
Guardring for transient protection
For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250 0 C/l0 seconds/.375" (9.5mm) lead
lengths/5Ibs., (2.3kg) tension

MECHANICAL DATA
C8se:JEOEC 00-41 Molded Plastic
Terminals: Axial leads, solderable per MIL-STO202, 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%.

SYM80LS S8120

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
.375", (9.5mm) Lead Length See Fig.l
Peak Forward Surge Current,
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage
at 1.0A (NOTE 2)
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage (NOTE 2) TA=25°C
TA=100DC
Typical Thermal Resistance (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range

S8130

S8140

S8150

S8160

UNITS

VRRM
VRMS

20
14

30
21

40
28

50
35

60
42

Volts
Volts

Voc

20

30

40

50

60

Volts

I(AV)

1.0

Amps

IFSM

40.0

Amps

VF

0.50

IR
IR
R8JL
TJ
TSTG

0.5
10.0 I
15.0
-65 to +125
-65 to +150

NOTES:
I.Thermal Resistance Junction to Lead P.C. Board Mounting .375" (9.5 mm) Lead Lengths.
2. Pulse Test: Pulse Width = 300jlS. Duty Cycle=2.0%.

-56-

0.70

Volts

5.0

mA
mA
°CIW

-65 to +150

°C
DC

RATINGS AND CHARACTERISTIC CURVES 58120 THRU 58160
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

fZ

lU

....-

FIG. 1 -

Z

lU

a:

1.0

()

.75

a:lU

«a:
~ ~ .50

~~

SB130

~B140

.25

«

a:

lU

50

25

>
«

75

\

100

~oo
gj~

SB150
THRU
SB180

1\ \

RESISTIVE OR INDUCTIVE LOAD
.375" (9.5mm) LEAD LENGTH

~

175

3

.5

7

t.1

9

13

1.5

1.7

1.9

2,1

t--

....-

LI

S8'50 THRU 58180

.Ii

Z

w

'0

a:

a:

::l

()

~ra

~oo

ffi~
Gj~

.0

TJ_7SoC

~~

~~
5~

.1

0-

"

10

w::ii

/

~

Z

.0

f-

f---- TJ=2SoC

5~

lU:2

~
Z
«

.....' 1/:/ 1;'

TJ-150oC

1 .0

a::2
oo~

/

1

Z

~

t--TJ_7SoC,

Z

,

.0

,

.00

,

~
00

TJ-2S9C

~

00
Z

17

I~"'"

TJ ..2SoC

~

.001
20

40

60

80

100

120

140

20

FIG. 4 - TYPICAL JUNCTION CAPACITANCE
400

S~'~~

TJ.125'C
LL 200

~~

0.

100
80

-,

S8'30
58140

-1-

40

60

!1Ii15ti
58160

....-

40

Il.

"'.

rn

10
0.'

.......

a:
::>

40

~(/)

30

()

~~

20

3:
a:

'0

~~

i"o..

50

04

120

140

0

w

::la:

f- f.~.OMHz
VS'9i

100

Z

a:

a:W

80

80

PERCENT OF RATED PEAK REVERSE VOLTAGE
FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT

PERCENT OF RATED PEAK REVERSE VOLTAGE

20

1

'00

0

ffiffi

«
()

I
TJ_2SoC
PULSE WIDTH_3001". 1% DUN CYCLE

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
FIG. 38 -- TYPICAL REVERSE CHARACTERISTICS

()

6«

0.1

~

a:
::l

W

:

;

Z

150

a:

o
Z
«
f-

S8160:

f-

S812~
ToI-125°C

Z

S8140

Z

«

\

125

~~~~gS8150~

o
lU

S8130
S8140
lU

J l

OO::ii 1.0
::l«

FIG. 3A - TYPICAL REVERSE CHARACTERISTICS

....-

1-

L'

LL~

LEAD TEMPERATURE. 'C

'00

~ .,.~'"

10

a:

SB1~ \

000

lU
(!)

::l

()

o

1\ i\

a:
::l

20

a:
a:

FORWARD CURRENT DERATING CURVE

tEIJLLE JALF UEUAtl
JEDEC METHOD

"''"

TJ...TJmax.

,..
to-...
f"""o,...

o

u.
~

1.0

10

80 100

40

;'5
Il.

REVERSE VOLTAGE, VOLTS

-57-

4

6 810

20

40

60 80100

NUMBER OF CYCLES AT 60Hz

S8190 AND S81100
MINIATURE LOW CURRENT SCHOTTKY BARRIER RECTIFIER
VOLTAGE RANGE -90 and 100 Volts CURRENT-1.0Ampere
FEATURES
D0-41

-r
1.0 (25.4)
MIN

.107(2.7) ~
.OBO (2.0)

1 I.

~

.20515.2)
.160(4.1)

---L-

t

1.0 (25.4)
MIN
.034 (.86)..
•02B (.71)

I

+

Dimensions in inches
and
(millimeters)

• 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
• Guardring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed: 250°C/1 0
secondsl.375"{9.5mm) lead lengths at 5lbs .
(2.3kg) tension

MECHANICAL DATA
Case:JEDEC 00-41 Molded Plastic
Terminals: Axial leads, solderable per MIL-STD202, Method 208
Polarity: Color band denotes cathode
Mounting Posit/on: 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 capacttive load, derate current by 20%.

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
DC Blocking Voltage
Maximum Average Forward Rectified Current .375"
(9.5mm) lead lengths at TL=135°C
Peak Forward Surge CurrentS.3ms single half sine-wave
superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Voltage Rate of Change (rated VR)
Maximum Instantaneous Forward IF- 1.0A, TA- 25°C
Voltage at (NOTE 1)
IF" 1.0A, TA,,1000C
Maximum Instantaneous Reverse Current TA= 25°C
at Rated DC Reverse Voltage (NOTE 1)
TA-l000c
Typical Thermal Resistance
Junction to Ambient
(NOTE 2)
Junction to Lead
Operating Junction Temperature Range
Storage Temperature Range

SYMBOLS

88190

S8110D

VRRM
VRMS
Voc

90

100
71
100

64

90

I(AV)

1.0

Amps

IFSM
IRRM
dv/dt

50.0
1.0
1000

Amps
Amps

VF

0.79
0.69

IR
IR
RaJA
RaJL

0.5
5.0
47.0
S.O

°CIW

TJ

-65 to +150

°C

TSTG

-65 to +175

°C

NOTES: 1. Pulse Test: Pulse Width=300}lS, Duty Cycle=2%.
2. Units vertical mounted on P.C. Board with .375", 9.5mm Lead Length with 1.5" sq. (38.1 mm2 ) copper pads.
3. Pulse width=2.0}lS, f=I.0KHz.

-58-

UNITS
Votts
Volts
Volts

V/jIS

Volts
mA
mA

RATINGS AND CHARACTERISTIC CURVES SB190 THRU SB1100

FIG. 2· MAXIMUM NON·REPETITVE PEAK
FORWARD SURGE CURRENT
60

~~

~~

'"

a:::

,

FIG. 1-FORWARD CURRENT DERATING CURVE

z

a:
::J

1.0

U

Of./) .7 5

I

~ll'

,5 0

RESISTIVE OR INDUCTIVE LOAD
O.375"(9.5mm) LEAD LENGTHS

W

Cl
~

""r-..

~ ........ ~
~

10

IuD

5
,0
20
NUMBER OF CYCLES AT 60 Hz

FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

\

W

;(
50

"'1-0

a.

~

.2 5

8.3m. SINGLE HALF SINE-WAVE
JEDEC METHOD

20

1\

a: W
«a:

~~

~§
wU

TJ- TJ max,

30

ex:Z
OW
u..ex:

1

II

0",
0 .....

W

ClUl
ex:w
::Jex:
UlW

5.0

~

I

Z
W
ex:
ex:
::J

150

100

LEAD TEMPERATURE:C

./

~

/

TJ-1SOOC
1.0

~

V

==
=

U

Cl

ex:
«Ul
i: w
ex: a:
Ow
u..a.
Ul::1
::J«

FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
10,0

0

1= TJ - 150°C

, ,
/ J

.10

W

Z
«

....z
....«
Ul

T... 25°C

I

I

~

-"

1.0

01

I

II I

I
.5

A

."

."

TJ",1 OO"C

.10

u..

." ,., ."
/'

c. 200

-

-

T....75"C

W

U

Z

....«

100

«
a.
«

60

U

I'

.00

1

V
20

I'
40

.7

.8

.9

1.0

FIG. 5 - TYPICAL JUNCTION CAPACITANCE
400

.0 1

.6

INSTAN rAN EO US FORWARD VOLTAGE,
VOLTS

.J'

.,..,

T,.25"(;
PULSE WIDTH.300~.
2% DUTY C Y C L E _

I

""
60

80

' '-1
I

TJ",25"C

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

U

r

r--

80

-"'"

40

..........

I

TJ o25=¢'~
F= 1MHz

20

111i',

10
0.1

0.4

1.0

2

10

REVERSE VOLTAGE, VOLTS

-59-

o50

r',

20

40

~
100

1 N58~O THRU 1N5822
MEDIUM CURRENT SCHOTTKY BARRIER RECTIFIER
VOL TAGE - 20 to 40 Volts CURRENT - 3.0 Amperes
FEATURES
OD-201AO

f

.210(5.31
.190(4.81
DIA.

1.0 (25.41

T'

LI

t

.375 (9.51

T

• Plastic package has Underwriters Laboratory
Flammability Classification 94V-O
• Metal to silicon rectifier, majority
carrier conduction ~
• Low power loss,
...
high efficiency
• High current capability, low VF
' ." .......
• High surge capacity
'~
• Epitaxial construction
.'"
• Guardrlng for transient protection
• For use in low voHage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250 0 C/10 seconds/.375" (9.5 mm) lead lengths at
5 Ibs. (2.3 kg) tension

1.0 (25.41

.052 (1.31
.048(1.21

+

T'

Dimensions in inches
and
(millimeters)

MECHANICAL DATA
Csse:JEDEC DO-201AD Molded PlastiC
Terminals: Axial leads, solderable per MIL-STD202, Method 208
PolarUy: Color band denotes cathode
Mounting PosUlon: Any
Weight: 0.04 ounces, 1.12 gram

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

• Maximum Recurrent Peak Reverse Voltage
VRRM
Maximum RMS Voltage
VRMS
• Maximum DC Blocking Voltage
Voc
• Non-Repetitve Peak Reverse Voltage
VRSM
• Maximum Average Forward Rectified Current
I(Ay)
.375":9.5mm Lead Length at TL= 95°C
• Peak Forward Surge Current, 8.3ms single
half slne-wave superimposed on rated load
(JEDEC Method) at TL _ 75°C
IFSM
• Maximum Instantaneous Forward Voltage at 3.0 (NOTE 1)
VF
• Maximum Instantaneous Forward Voltage at 9.4 (NOTE 1)
VF
• Maximum Average Reverse Current at Rated
DC Blocking Voltage
TA = 25°C
IR
(NotE 1)
TA= 100°C
IR
Typical Thermal Resistance (NOTE 2)
R8JL
TJ,TsTG
• Storaae and Operatina Junction Temperature Ranae

fNSBRO
20
14
20
24

fN581f
30
21
30
36

fN58Z2

UNITS

40
28
40
48

Volts
Volts
Volts
Volts

3.0

.475
.850

I

80.0
.5:10
.900

Amps

I

.525
.950

2.0
20.0
20.0
-65 to +125

NOTES:
1. Pulse Test: Pulse Width=300J1S, Duty Cycle=2%.
2. Thermal Resistance from Junction to Lead Vertical P'C.Board Mounting, .500" (12.7 mm) Lead Length with 2.5' sq.
(S3.5mm2) copper pads.
'JEDEC registered values

-so-

Amps
Volts
Volts
mA

rnA
·CIW
°C

RA TlNGS AND CHARACTERISTIC CURVES tN5B20 THRU tN5B22

FIG 3 • MAXIMUM NON·REPE11TVE PEAK
FORWARD SURGE CURRENT
90
70

W

~f3

• FIG. 1 - FORWARD CURRENT DERATING CURVE

IG

II)W

Oil. 50

"

~

It...:

~

~~
1

W

0

20

40

80

120

100

LEAD TEMPERATURE,

~

..... r--.

~G

Q.

20

\
80

40

a::z
OW
ILa::
lI:a:: 30

\

SINGLE PHASE
HALF WAVE 110Hz
RESISTIVE OR
INDUCTIVE LOAD
.375" (1.5mm) LEAD LENGTH

"

...

a:: 2

a:: 2

I

I

T'.T,l.
8.3m, SINGLE HALF SINE-WAVE
JEDEC METHOD

o(C

~;

\2c

80

;:)a::

,

~

~

...

10

140

10

5

'c

20

100

90

NUMBER OF CYCLES AT 60 Hz

FIG.4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS

nee

!iW
a::
a::

;:)

1.0

0
WII)
II)W
15 a::

no DulyCyclo

-

~ ~TJ'1~C ~ ~
T...7&-C

~~

a:: 2 0.1

...

I/"

/, VI'

,

;:§
o. 1

II)~

;:)

~
!

_ -;0..

~.

I I.

....
0=
w2
z

~

~

TJ =
Pul.. Width • 300,.,..

10

0.2

/1'

~- ·1N5822

0.3

0.4

0.8

0.5

0.7

0.8

0.1

INSTANTANEOUS FORWARD VOLTAGE
VOLTS

V'

.01

T,po25'C

FIG 5 - TYPICAL "'UNCTION CAPACITANCE
1000
800

II)
TJ •

'a

noD"'rCycIo

.001

20

40

eo

eo

100

-

TJ'25.~J
t-1.OMHz

800

n-c

Pul.. Wklth • 3OO,u1

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

oJ
0

.........

Voigo5OmVPiI

i"o

200

........

Z
C

!::
0

~

~

100
90
80

20
10

0.1

.4

1.0

4

10

40

100

REVERSE VOLTAGE, VOLTS

IN~
-61-

58320 THRU 58360
MEDIUM CURRENT SCHOTTKY BARRIER RECTIFIER
VOL TAGE - 20 to 60 Volts CURRENT - 3.0 Amperes
FEATURES

f

.210 (5.3)
.190 (4.8)
DIA.

r

1.0 (25.4)

LI

/+

t

.375 (9.5)

~
1.0 (25.41

.052 [1.3)
.048 [1.21

T

+

Dimensions in inches
and
(millimeters)

• Plastic package has Underwriters Laboratory
• Flammability Classificaiton 94V-O
• Metal to silicon rectifier, majority
carrier conduction',,",
• Low power loss,
..••,""'
high efficiency
""~
• High current capability,
"'IIIIIII!.
10WVF"""
• High surge capacity
.' ....
• Epitaxial construction
• Guardring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250 oC/10 seconds/.37S" (9.5 mm) lead lengths
at Sibs. (2.3 kg) tension

MECHANICAL DATA
Case:JEDEC DO-201AD Molded Plastic
Terminals: Axial leads, solderable per MIL-STD202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.04 ounces, 1.12 gram

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 2SoC ambient temperature unless othelWise specified.
Resistive or inductive load.
For capacitive load, derate current by 20%.
SYMBOLS SB320

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at
.375", 9.5mm Lead Length (see fig. 1)
Peak Forward Surge Current, 8.3ms single
haH sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage at 3.0A
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage (NOTE 2)
TA = 25°C
TA _100°C
Typical Thermal Resistance (NOTE 1)
Operating JunctionTemperature Range
Storage Temperature Range

VRRM
VRMS
Voc

SB330

SB340

SB350

SB360

UNITS

30
21
30

40
28
40

50
35
50

60
42
60

Volts
Volts
Volts

20
14
20

3.0

I(AV)

80.0

IFsM

VF

.50

.74

IR

0.5

IR

20.0

RaJA
TJ
TSTG

Amps

20.0
-65 to +125

mA
mA
10.0

°CIW

-65 to +150

°c

-65 to +150

NOTES:
1. Thermal Resistance from Junction \0 Lead Vertical PC Board Mounting, .500" (12.7 mm)Lead Length with 2.5"sq.
(63.5mm2) copper pads.
2. Pulse Test: Pulse width = 300jlS, Duty Cycle = 2%.

-62-

Amps
Volts

°c

RATINGS AND CHARACTERISTIC CURVES S8320 THRU S8360

FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 1 - FORWARD CURRENT DERATING CURVE

SB3~ I\.

S8330
58340

THRU
' \ S8360

\

RESISTIVE OR
I
INDUCTIVE LOAD
~.
375" 0..
W::;
a:«
CIl::J..J
O:!
W::;
z
«
IZ
«
ICIl

--

1.0

---

0.1

.",.-

-

~

~41'

./

V

TJ '" 7SD C

In

TJ = 25 C
C

,,4

.001

40

60

-

80

TYPICAL JUNCTION CAPAICTANCE

TJ

U

60

25°C

~ r-.

40

._-

10

88320 thru 58340
S8350 thru S8360

I IIII111

0.1

140

=

80

20

S8350 thru
SB360

120.

10

i""'o

100

I-

56320 thru
SB340

100

.9

200

U
Z
«

«
0..
«
U

1/>'

.6.7

400

...a.

~,
~,

5

1000
800
600

~

20

.4

FIG. 4 -

41'

ui

.01

3

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

~

..

S8350 thru S8360

J

.2

...

... V

"

I
II
01

TJ " 125°C

/

J

1.0

~

I---

,

~

If

CIl::;
::J«
0
W
Z
«
IZ
«
ICIl

LEAD TEMPERATURE, 'C
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS

10

,

... ~

\ \
125

IS8320 11h'U s8d40
10

...

......

I

0

'-

100

I

0.4

1.0

4.0

40 80 100

10

REVERSE VOLTAGE VOLTS

PERCENT OF RATED PEAK
REVERSE VOLTAGE

FIG. 5 150

W
(!)CIl
a:W
::Ja:
CIlW
00..
a:::;
««

:;:...:
a:Z
OW
... a:
~a:
«::J
wU

120

~

90

MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT

I

"" ....... "'"

II I

8.3ms SINGLE HALF SINE-WAVE
JEDEC METHOD

~

60

I

TJ- TJ max.

30

-

I- .......

0..

1.0

2.0

5.0

10

20

NUMBER OF CYCLES AT 60Hz

-63-

50

100

58390 AND 583100
MEDIUM CURRENT SCHOTTKY BARRIER RECTIFIER
VOLTAGE RANGE -90 and 100 Volts

CURRENT -3.0 Amperes
FEATURES

DO-201AD

1

.210(5.3)
.190(4.8)

r

1.0 (25.4)

DIA.

LI I·

t

.375 (9.5)

~
1.0 (25.4)

.05211.3)
•04811.2)

l

Dimensions in inches
and
(millimeters)

• Plastic package has Underwriters Laboratory
Flammability Classifications 94V-O
• 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
• Guardring for transient protection
• High temperature soldering guaranteed: 250°C/10
seconds/.375(9.5 mm) lead lengths at 5 Ibs .
(2.3 kg) tension

MECHANICAL DATA
Case: JEDEC DO-201AD Molded Plastic
Terminals: Axial leads, solderable per MIL-STD202, Method 208
Polarity: Color Band denotes cathode
Mounting Position: Any
Weight: .04 ounces, 1.12 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

SB390

S83100

VRRM
VRMS
Voc

90
64
90

100
71
100

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
.375" (9.5mm) Lead Lengths at Tl-100·C
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Voltage Rate of Change, (rated VR)
Maximum Instantaneous Forward Voltage at
IF = 3A, TA = 25°C
(NOTE 1)
IF =3A, TA = 100·C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage TA =25°C (NOTE 1)
Peak Reverse Voltage TA = 100·C
Junction to Ambient
Typical Thermal Resistance
(NOTE 2)
Junction to Lead
Operating Junction Temperature Range
Storage Temperature Range
NOTES:

1. Pulse Test Pulse Width=300 lAS, Duty Cycle=2%.
2. Units vertical mounted on P.C. Board wtth .3'/5", 9.5mm lead lengths.
3. Pulse width=2.01AS, f=1.0m KHz.
-64-

UNITS
Volts
Volts
Volts

I(AV)

3.0

Amps

IFSM
IRRM
dvldt

150.0
1.0
1000

Amps
Amps
VIIlS

VF

0.79
0.69

Volts

IR
RaJA
RaJL
TJ
TSTG

0.1
10.0
20.0
5.0
-65 to +150
-65 to +175

mA

·CIW
·C
·C

RATINGS AND CHARACTERISTIC CURVES S8390 THRU S83100
FIG. 2 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
FIG. 1 OCll

a: W

50

FORWARD CURRENT DERATING CURVE

I

ffi

•

~ffi

a: a.
W"':
(!lZ

2

a: ~
~::l

1

a.

PULSE WIDTH-3OOjLS _

r

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

J
1.0

II

II
0.2

10

Z

I

I

~

W
a:
a:

I

I

I

Z

..,:

I

W

115

LEAD TEMPERATURE.·C

T... ,25"C .

L/

o

~

RESISTIVE OR

T... ,5O"C

o::l

\,

O~

... <

"

'f'

a:
a:

FIG. 5 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
40

60

60

100

120.

140

150""

PERCENT OF RATED PEAK
REVERSE VOLTAGE

120

I I IIIII

T,oT,l.
8.3n'8 SINGLE HALF SINE·WAVE
JEDEC METHOD

.

~~---+--+-+-r+++tr----r--r-+~rtrM

50

O~_~-L-L~UUUL_~~-'-~~~~
~
~
g
20
~
1.0

NUMBER OF CYCLES AT 60Hz

~5·

IN~

S8520 THRU S8560
HIGH CURRENT SCHOTTKY BARRIER RECTIFIERS
VOLTAGE - 20 to 60 Volts CURRENT - 5.0 Amperes
FEATURES
DO-201AD

f

.21015.3)
.190 (4.8)

r

1.0 (25.4)

Dli

1+

.......~·--+t-­

r·

.375 (9.5)
•

28S

2

)

1.0 (25.4)

.0520.3)
.0480.21

.. T

• Low cost
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-O
• Metal to silicon rectifier, majority
carrier conduction c",
• Low power loss,
"""'"
high efficiency
"lIIh..
• High current capability,
~,
low VF
--."
• Hi~h s~rge c a p a c i t . y " ' ' ' - , - ,
• Epitaxial construction
'"
• Guardring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
2S0°C/10 seconds/.37S" (9.S mm) lead lengths at
Sibs., (2.3 kg) tension

MECHANICAL DATA
Dimensions in inches
and
(millimeters)

Case:JEDEC DO-201AD Molded Plastic
Terminals: Axial leads, solderable per MIL-STD202, Method 208
Polarity: Color band denotes cathode
Mounting Position: Any
Weight: 0.04 ounces, 1.12 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 Vottage

SYMBOLS SB520

VRRM

20

30

40

50

60

Volts

Maximum RMS Voltage

VRMS

14

21

28

35

42

Volts

Maximum DC Blocking Voltage

Voc

20

30

40

50

60

Volts

Maximum Average Forward Rec@ed Current
.375", 9.5mm Lead Length See Fig.1

I(AV)

Peak Forward Surge Current, 8.3ms single
haH sine-wave "uperimposed on rated load
(JEDEC Method) at rated Tl
Maximum Instantaneous Forward Voltage at 5.0A
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage
TA=25°C
(NOTE 2)
TA = 100°C
Typical Thermal Resistance

(NOTE 1)

Operating Junction Temperature Range
Storage Temperature Range

IFSM
VF

Amps

5.0

Amps

150.0
0.55
0.5
50.0

IR
IR

0.67

Volts

25.0

mA
mA

R8JL

15.0

10.0

°CIW

TJ

-65 to +125

-65 to +150

°C

TSTG

-6510 +125

NOTES:
1. Thermal Resistance Junction to Lead Vertical P.C. Board Mounting, .375" (9.Smm) Lead Length.
2. Pulse Test: Pulse Width=300f!S, Duty Cycle=2%.

-66-

°C

RATINGS AND CHARACTERISTIC CURVES S8520 THRU S8560

FIG. 2 -

MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT

300

250>

W
(!l",

a:w
:::la:
CIlW

t-

FIG. 1 - FORWARD CURRENT DERATING CURVE

Z

W

a:
a:
:::l

50

I~

o

40
0",
a:W
a: 30

S~~ i'..

«

THRU
SB540

~~

W

~

10

~

~~C

", ( Sm ~)

!§J VE

R

THRU'- ISB560

r\
~

a:::< 20

~«

S~501

~

LE GT
CTI E OA

I'"

r\
i'..

W

20

40

60

80

100

a:::;
««
~r:
a:Z
OW
u..a:
><:a:
«:::l
wU

150

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

100

120

"'Z
W
a:
a:
:::l
0
0
a:
«

a:
a:
:::l
0

---

10

I J

"'::;

:::l« 1.0

0

SB550THRU
Sj

-

W
Z
«

t-

t-

1..-:

./

10

z

'"~

J

0.1

I

T".2So C
PULSE WIDTH-~

'~DUTYICYCLEI
.7

.8

.9

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

V

FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000

T,-25'C -

.~~

«

t-

Z
«

CIl

I.

f

Z
«

:::l--'
O::d
W::<

t-

10

./

>Q.

"'-

0

\

u..~

~

.;9

THRU
r-- t-- SB520
SB540

T".7SoC

w'"
"'w
a: a:
Ww
W::;
a:«

40

~'"
a: W
Oa:

....

."...

100

50

FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

.J.," ~17

r:

zW

20

NUMBER OF CYCLES AT 60Hz

ISO

FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS

TJ.12~oC~

JEDEC METHOD

10

t-

10

8.3ms SINGLE HALF SINE-WAVE

50

LEAD TEMPERATURE, 'C

20

--

TJ-TJm&X•

.......,;""""

Q.

r\

a:

>
«

200

OQ.

01

r--

,*'V

---20

[-

c.

ui

1000

0

800
600

t-

400

Z
«

~

001

2000

u..

U

asr

0

SB5fS
40

60

80

--- ,-

Q.

«

200

r- ~BifCj~~W

100
100

120

140

01

PERCENT OF RATED PEAK REVERSE
VOLTAGE

-

1"'0..

«

SB520-SB540

1111

I' ~~-25'C

1-.... ~
!iii

SB550-SB560

04

10

10

REVERSE VOLTAGE, VOLTS

-67-

40

80100

S8590 AND S85100
MEDIUM CURRENT SCHOTTKY BARRIER RECTIFIER
VOLTAGE RANGE - 90 and 100 Volts CURRENT - 5.0 Amperes
FEATURES
DD-201AD

f

~

.19014.81
DIA.

r'

1.0125.41

LI

1+

t

-+.37519.51

1.0 125.41

.05211.3) • +
.04811.21

T'

• Plastic package has Underwriters Laboratory
Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier con- -'-_
duction
"-"""'• Low power
~
loss, high efficiency
"'IIIIIIIIiIl .
• High current capability, low VF
"'""".,,
"""_
• High surge capacity
• Epitaxial c o n s t r u c t i o n ' • High temperature guaranteed: 250°C/10
seconds/.375" (9.5 mm) lead lengths at 5 Ibs.
(2.3 kg) tensions
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Guardring for transient protection

MECHANICAL DATA
Dimensions in inches

and
(millimeters)

Case: JEDEC DO-201AD Molded Plastic
Terminals: Axial leads, solderable per MIL-STD202, Method 208

Polarity: Color Band denotes cathode
Mounting Position: Any
Weight: .04 ounces, 1.1 gram
---------:M-=-~::-::)(j-=lM::-::U::-::M=-=R::-::A=-=7i=lN::-::G::-::S::-A::-::H:-::'D::-::ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless otherwise specified. Resistive or inductive load.
For capacitive load, derate current by 20%.

SYMBOLS

SB5100
100
71
100

UNITS

Maximum Recurrent Peak Reverse Voltage

VRRM

SB5SO
90

Maximum RMS Voltage
Maximum DC Blocking Voltage

VRMS
VDe

64
90

Maximum Average Forward Rectified Current
.375" (9.5 mm) lead length at TL=125'C

I(AV)

5.0

Amps

Peak Forward Surge Current
8.3ms single half sine·wave superimposed
on rated load (JEDEC Method)

IFSM

150.0

Amps

IRRM
dv/dt

1.0
1000

Amps

VF

0.79
0.69

Peak Repetitive Reverse Surge Current
(2.0us, 1KHz)
Voltage Rate of Change, (rated VR)
Maximum Instantaneous Forward Voltage at (NOTE 1)
IF = 5A, TA = 25°C
IF = 5A, TA = 100°C
Maximum Instantaneous Reverse Current at
DC Blocking Voltage (NOTE 1)
TA=25°C
TA=100°C
Typical Thermal Resistance,
(NOTE 2)

Junction to Ambient
Junction to Lead

Operating Junction Temperature Range
Storage Temperature Range

Volts
Volts
Volts

V/lJ.s

Volts

IR

0.5
20.0

RaJA
RaJL

15.0
6.0

TJ

-65 to +150

°C

TSTG

-65 to +175

°C

mA

°CIW

NOTES: 1. Pulse Test: Pulse Width=300 JIS, Duty Cycle=2%.
2. Units vertical mou'lled on a P .C. Board with .500' (12.7mm) lead length with 2.5' sq. (63.5mm2) copper pads.

-68-

RATINGS AND CHARACTERISTIC CURVES S8590 THRU S85100

FIG. 3 -

MAXIMUM NONoREPETITIVE PEAK
FORWARD SURGE CURRENT

300

I

I

I TTT'1
I,

I

T... ToImBX.

FIG. 1 -

...:
z
W

a:
a:
::J

U

,

FORWARD CURRENT DERATING CURVE

50

~

a: W

~ ffi

a: 11.

O~

IL

30
20

<

ffi

~

,

RESISTIVE OR INDUCTIVE LOAD
0.37S0(9.&nm) LEAD LENGTHS

W
C)

o

~t::
a:Z

150

100

50

130

I

JEDEC METHOD

I

I

I

200

OW
ILa:
lI<:a:
«::J
wU
11.

100

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

I

:
i"""

~r-

2.0

1.0

5.0

10

20

,

!
I

I

r--

50

\

1.0

o

250

a:~

,

40

000

W
C)(J)
a:W
::Ja:
(1)W
011.

8.311"8 SINGLE HALF SINE·WAVE

--

ill

I
in

50

NUMBER OF CYCLES AT 60Hz
FIGo 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

150

50

LEAD TEMPERATURE:C

I-

Z
W
a:
a:
::J
U

I

T~15O"C

/
/

/I
T'~25-C

10

0

a:

~ff3

FIG. 2 - TYPICAL REVERSE
CHARACTERISTICS

a: a:
OW
ILIl.
00::;:
::J«
0
W
z
«

10

...:
z

W
a:
a:
::J
U
Woo
(1)W
a: a:
Ww
>11.
W::;:
a:<

~

,/

10

01

...

T.._12SOC

lL

, ...

~

OW::;:
Z
<
IZ
<:

ILa.
U
Z
«

~

I

, /~
20

40

60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

0.4

0.6

0.8

1.0

1.2

I

I

1.4

1.B

1.B

i3

«
11.
«
U

TYPICAL JUNCTION CAPACITANCE

1

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

200

TJ

ui
I-

.001

PULSE W1DTH-300~._
2% iUTY CYCLE

II
0.2

FIG. 5 -

01

T.. _25"C

o

400

I00

."

I

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

""

~

I

I00
01

T,.7f;"(\ . - ~

./

J.

IZ

~

..,

::Jj

J

«

T.... l000c ~ ~

u:-

I

10

100
80
60
40

~ 25}C

F
'.l.oMHz
~ vou. 50m VP1'

II

II

20

140

10
0.1

04

10

10

40

REVERSE VOLTAGE, VOLTS

IN~
-69-

I

80 1 uO

I

·70·

MEDIUM CURRENT
SCHOTTKY RECTIFIERS
7.5 TO 40.0 AMPERES
SEE
NEW

ISOLATED
PACKAGES

.....-

_ _ _ _ INsr~MIr - -71-

MBRF735 AND MBRF745
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 7.5 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 voHage, high frequency' inverters, '
free wheeling, and polarity protection applications
• High temperature soldering guaranteed:
250°C/10 seconds/.25", (6.35mm) from case
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS .

110-220

MECHANICAL DATA
+

PIN 10----,

......4°REF.......

PIN20---M-l
STANDARD POLARITY

Dimensions in inches and (millimeters)

case: IT0-220 Fully Overmolded Plastic
Tennlnals: Leads Solderable per MIL-STD-202,
Method 208
Polarity: As marked Mounting PosH/on: Any
Mounting Torque: 5 In.- lb. max.
W"ght: .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 Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc-l05°C
Peak Repetitive Forward Current (Square Wave, 20 KHz)
at Te=105°C
Peak Repetitive Forward Current (Square Wave, 20 KHz)
at Te-l05°C
Peak Forward Surge Current,8.3ms single hail sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Maximum Instantaneous
IF-7.5A, Te=125°C
Forward Voltage at
IF-15A, Te= 125°C
IF-15A, Te-25°C
Maximum Instantaneous Reverse Current Tc-l25°C
at Rated DC Blocking Voltage (NOTE 2)
Tc-25°C
Voltage Rate of Change (rated VR)
Typical Thermal Resistance (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1.Thermal Resistance Junction to Case.
2. Pulse Test: 3DOjIS Pulse Width, 2% Duty Factor.
3. 2.0jlS Pulse Width, f= 1.0 KHz.
-72-

SYMBOLS

IIBRF735

VRRM
VRWS
Voc

35
35
35

IIBRF745
45
45
45

UNITS

Volts
Volts
Volts

I(AV)

7.5

Amps

IFRM

15.0

Amps

IFRM

15.0

Amps

IFSM
IRRM

150.0
1.0
0.57
0.72
0.84
15.0
0.1
1000
3.5
-65 to +150
-65 to +175

Amps
Amps

VF
IR
dv/dt
ReJC
TJ
TSTG

Volts
mA
mA

V/JLS
°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBRF735 AND MBRF745

FIG. 3 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGI! CURRENT
175

W
a:W
::lao
",W

150

(!)'"

FIG. 1-FORWARD CURRENT DERATING CURVE

,.:
Z

00.

a::2

10.0

W

a:
a:

,

8.0

::l

()

0'"

3::g:
a::2
~ la:

,1\

100

(!)

2.0

«::l

W()

i'- r-.

~

100

-~

TJ-T",rMX.

............
f""".

50

I"'b

0.

25
5

1

10

20

100

50

NUMBER OF CYCLES AT 60Hz

f\

W

>

50

8.3ms SINGLE HALF
SINE·WAVE
(JEDEC METHOD)

75

~

W

;i

J"'... """

3::":

~

a: W
~ a: 6.0

125

FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

150

....

CASE TEMPERATURE, ·C

50

~

Z
W
a:
a:

I

TJo125OC~

::l
()

I

10

.".. ~5·C~

~V

0

a:
~

FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS

3::'"

.LL L

a: W
offi
!.LQ.
",:2

10

'L

h

::l«

0

W

~
....

Z

,.:
Z

W

I

'"~

a:
a:
::l

0.1 :1
TJ - 75°C

V

W",

~W

~ffi

I

....~

1.0

()

" I T J ' 25°C

Z

TJ" 125°C

~

1.0

L

,,/ /

.2

.3

PULSE WIDTH 300,...5 2"AI Duty Cycle

.4

.5

.6

.7

V
11/

0=2

w:2

z

V

~

....
~

1.0

4000

"'~
::l...J

Z

.9

FIG. 5-TYPICAL JUNCTION CAPACITANCE

~~ o.

....

.8

INSTANTANEOUS FORWARD VOL TAGE.
VOLTS

V

u..
0-

W
~ 1000

TJ "25°C

.01

~

800

U

600
400

....

'"Z

~

0.

I'

TJ= 25°C
F= lMHz

2000

r-- t-

VSI9' 50mVp·p

~

()

...........

200

.001

20

40

60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

r'"

100
0.1

0.4

1.0

10

REVERSE VOLT AGE VOLTS

-73-

40

80 100

MBRF750 AND MBRF760
SCHOTTKY RECTIFIER
CURRENT - 7.5 Amperes

VOLTAGE RANGE - 50 and 60 Volts

FEATURES
• Isolated plastic package has Underwriters
Laboratory Flammability Classification 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
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS

ITO-220

MECHANICAL DATA
+

PIN 1<>--"1
PIN 2 5-+f--I
STANDARD POLARITY

Dimensions in inches and (millimeters)

Case: ITO-220 Fully Overmolded Plastic
TermInals: Leads Solderable per MIL-STO-202,
Method 208

Polarity: As marked
Mounting PositIon: Any
Mounting Torque: 5 in. - lb. max.
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 200/•.
SYMBOLS

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Vohage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at
Tc=125'C
Peak Repetitive Forward Current (Square Wave, 20 KHz)
at Tc=125"C
Peak Forward Surge Current, a.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Maximum Instantaneous
IF= 7.5A, Tc= 125°C
Forward Vohage at (NOTE 2)
IF= 7.5A, Tc= 25°C
Maximum Instantaneous Reverse Current at Tc=125°C
Rated DC Blocking Voltage (NOTE 2)
Tc=25°C
Voltage Rate of Change (rated VR)
Typical Thermal Resistance (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES:
1. Thermal Resistance Junction to Case.
2. Pulse Test: 3001J.S Pulse Width, 2% Duty Factor.
3. 2.01J.S Pulse Width, 1=1.0 KHz.

-74-

VRRM
VRWM
Voc

MBRF750
50

MBRF760
60

50
50

60
60

UNITS
Vohs
Vohs
Volts

I(AV)

7.5

Amps

IFRM

15.0

Amps

IFSM
IRRM

150.0
0.5
0.65
0.75
50.0
0.5
1000
3.5
-65 to +150
-65 to +175

Amps
Amps

VF
IR

dvldt
R8JC
TJ
TSTG

Vo~s

mA
mA
V/IlS
°CIW
DC
DC

RATINGS AND CHARACTERISTIC CURVES MBRF750 AND MBRF760
FIG. 3 -MAXIMUM NON-REPETIVE PEAK
FORWARD SURGE CURRENT
175

150

UJ
a:UJ
:::>a:
UlUJ
Oa.
a:::;
««

(!)'"

,..:

FIG. 1-FORWARD CURRENT DERATING CURVE

15

10.0

a:
a:



«

,

"'

75

~

4. 0

(!)

ffi

a:Z
OUJ
... a:
",a:
«:::>
UJO
a.

8.0

a:::;

~«

100

~>-

a

OUl
a: UJ

125

II

8.3ms SINGLE HALF SINE WAVE
(JEDEC METHOD)
T..-T"max.

FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50

150

>Z

CASE TEMPERATURE, °C

UJ
a:
a:
:::>

0

./

7

10

0

a:
«
~oo
a: UJ

FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS

I-I"'"

Z
UJ
a:
a:
:::>

"'a.
00::;
:::>«
0
UJ
Z
«
>Z
«
>00

T... 'SOOC

T~125°C

,..:

~

1.0

"

~

."..

T...75OC /
0.1

:::>..J
0=
UJ::;

>00

J

"

.01

/

20

...

2000

0

W
Z
«

1000
800

>-

500

«
a.
«

400

U

/

V

0
40

60

80

100

.3

.4

.5

.6

.7

.8

.9

1.0

FIG. 5-TYPICAL JUNCTION CAPACITANCE

~

.001

~t~;i;'OTti '" 300JJ S-

2% Duty Cycle

4000

Q.

T....25oo

.2

/

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

./

Z
«
«

'I'
1.0

0.1
.1

oo~

>Z

/

~

0

UJUl
OOUJ
a: a:
UJUJ
>a.
~::;

~

offi

10

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

I

--

I II'

IT,JJ II

.....

!.,MHz
Vslg-5CmVp-p

["'...

200

..... 1-0.

140

100
0.1

0.4

1.0

10

REVERSE VOLTAGE, VOLTS

-75-

40

80100

MBR735 AND MBR745
SCHOTTKY RECTIFIER

VOLTAGE RANGE - 35 and 45 Volts

CURRENT - 7.5 Amperes
FEATURES

TO-220

~ .u~~:m

I'

-

(3~8lJ
ft

.150

j

.055 (1.401
.04511.141

J

.110(1~1 _

.600115.241
.575114.GlJ

1

.3S0 (9.141
.320 (8.131

!

,:;"'¥"""'~

US3 (29 5411
1.103 (28.021
.025
.5S0 (124.22i "MAX.

j

.530 (t4S1

"'11,:m~::;~

+--+ .210(5.331
.190 (4.831

·mo.....
.014( .3S1

-

• 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
• Guardring for transient protection

110(2.791
.090(2.291

(CASE POSITIVEI PIN 1 + <>----t.;,
STANDARD POLARITY PIN 2 - ~CIfSE

Dimensions in inches and (millimeters)

MECHANICAL DATA
Case: JEDEC 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 2S'C ambient temperature unless otherwise specified. Resistive or inductive load.
For capacitive load, derate current by 20%.

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Vo~age
Maximum DC Blocking Voltage
Maximum Average Forward Rectnied Current at
Tc=105°C
Peak Repetitive Forward Current(Square Wave, 20 KHz)
at Tc-l05°C
Peak Foward Surge Current,8.3ms single haff sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Maximum Instantaneous
IF=7.5A, Tc=125°C
Forward Vo~age at
IF=15A, Tc-125°C
IF=15A, Tc=25°C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage
Tc=125°C
(NOTE 2)
Tc = 25°C
Voltage Rate of Change (rated VR)
Maximum Thermal Resistance (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES:

1. Thermal Resistance Junction to Case.
2. Pulse Test: 300J.lS Pulse Width, 2% Duty Factor.
3. 2.0J.lS, 1.0 KHz.
-76-

SYMBOLS

MBR735

MBR745

UNITS

VRRM
VRWM
Voc

35
35
35

45
45

Vo~s

45

Volts

Vo~s

I(AV)

7.5

Amps

IFsM

15.0

Amps

IFSM
IRRM

150.0
1.0

Amps
Amps

VF

0.72
0.84

Volts

IR

15.0
0.1
1000
3.0
-65 to +150
-65 to +175

rnA
rnA
V/IlS
°CIW
°C
°C

0.57

dv/dt
RaJC
TJ
TSTG

RATINGS AND CHARACTERISTIC CURVES MBR735 AND MBR745

FIG. 3 -MAXIMUM NON-REPETIVE PEAK
FORWARD SURGE CURRENT

-r

175

r:
~

FIG. 1 -

0

10.0

0:
0:

3

:"'~

FORWARD CURRENT DERATING CURVE

OUl

80

/;;;;j;;*~-I-I-4-*4;;f;~~,ct--t--jIH

o:W
~~60
<{o:

'",+-

40

;:;

2.0

~

I""-- r--..

0

r--.

I

~~ ~+-4-~-+~~}-+-~-+-4--r-~ct--t-i
~

,

TJ..TJ max.

i"r--

;

h

II

8.3ms SINGLE HALF SINE WAVE
(JEDEC METHOD)

;
5

'I\.

10

20

50

100

NUMBER OF CYCLES AT 60Hz

~+-4-~-+~I--+-++-+-l--r-t-+"V--t

~

FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

OL-~~L-L-~L-L-L-L-~~L-L-~
o
~
100

~

f-

CASE TEMPERATURE, "C

~::;,....o-:

Z

I

W

0:
0:

TJ0125"C~

::::>

U

o

I

10

L

~

~5"C"!:

0:

<{

FIG. 2 - MAXIMUM REVERSE
CHARACTERISTICS

~~

1

offi

10

h I/'

Ul:2

o::::><{

/

'/ II

LLo..

10

/TJ o25"C

W

Z

TJ ::: 125°C

~

<{

fZ
<{
fUl

1

I

./

V

V

....

I

111 1

Z

1

30o'~PULSE \il/IDTH
2"" Duty Cycle
10

TJ ::: 75°C

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
FIG. 5 -

TYPICAL JUNCTION CAPACITANCE

4000

V

V

LL

:WOO

Q.

ui

TJ=25°C

1

U

1000

<{

800

Z

f-

0<{

.,

iI lI
TJ1"25°C
f.. 1MHz

r- I-

\ Vsig.. 50mVp-p

600
400

0..
<{

U

..

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

200

00 1

20

40

60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

100
01

04

10

10

REVERSE VOLTAGE. VOLTS

-77-

....
40

80 100

MBR750 AND MBR760
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 7.5 Amperes
FEATURES
TO-220

.420(10.67)
.380 (9.65)

.155 (3.94) DIA
.145p.68)
.

-----I .m\i:~~l
.055 (1.40)
-+ • .045 tl.14)

.150(3~81) =~
·lJDt;!J!!l ~

ft

.620 (15.75)

P~N~

PIN

~r=~11

'0)

. i:lfllr.iiID

. t

"11·:m~:l;~

.......... 210(5.33)
.190(4.83)

T

.600 (15.24)
.575 tl4.6lJ

1

.360 (9.14)
.320 (8.13J

~

1163(29.54)1
1.103 (28.02)

.025

j~:~~rJMllX'
'~+I"

..

• Plastic package has Underwriters Laboratory
Flammability Classification 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
• Guardring for transient protection

MECHANICAL DATA

.110(2.79)
.090(2.29)

(CASE POSITIVE)
PIN 1 • <>------t...;.
STANDARD POLARITY PIN '- - o--+f--lCASE

Dimensions in inches and (millimeters)

Case: JEOEC TO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STO- 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 Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at
Tc=125°C
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 (NOTE 3)
Maximum Instantaneous Forward Voltage at
(NOTE 2)
IF=7.5A, Tc =125°C
IF=7.5, Tc=25°C
Maximum Instantaneous Reverse Current at Tc=25°C
Rated DC Blocking Voltage (NOTE 2)
Tc=125°C
Voltage Rate of Change (rated VR)
Typical Thermal Resistance (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range

NOTES:
1. Thermal Resistance from Junction to Case.
2. Pulse Test: 3OO!J.S Pulse Width, 2% Duty Factor.
3. 2J'S Pulse Width, f=I.0 KHz.

-78-

SYMBOLS

MBR750

MBR760

VRRM
VRWS

50
50
50

60
60
60

Voc

UNITS
Volts
Volts
Volts

I(AY)

7.5

Amps

IFRM

15.0

Amps

IFSM
IRRM

150
0.5

Amps
Amps

VF

0.65
0.75
0.5
50.0
1000
3.0

Volts

V/!J.s
°CIW

-65 to +150
-65 to +175

°C
°C

IR
dv/dt
R9JC
TJ
TSTG

rnA
rnA

RATINGS AND CHARACTERISTIC CURVES MBR750 AND MBR760

FIG. 3 -MAXIMUM NON-REPETIVE PEAK
FORWARD SURGE CURRENT
175
150
W
C)(/)

FIG. 1 -

~

zW

10.0

a:
a:
::>

6.0

o

FORWARD CURRENT DERATING CURVE

!\

OC/)
a: W

«ffi

6.0

3:0..

gs~

u..

W

2.0

~

o

125

00..

a::::;;
««
3:~
a:Z
OW
... a:
>!a:
«::>
wO

,

o

50

100

\

I!

""...

II

8.3... SINGLE HALF SINE WAVE

I (JEOEC METHOO)

__ r----- _

T".TJ max.

......

100

...

~

75

,

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

50

~

i

0..

\

4.0

W
C)

«
a:

a:W
::>a:
(l)W

25 L---

5

1

10

20

!
100

50

NUMBER OF CYCLES AT 60Hz

FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50

150

..L

~

CASE TEMPERATURE, ·C

io""

Z
W
a:
a:
::>

./

0
0

V

10

I--

a:

~(I)

FlO. 2 - MAXIMUM REVERSE
CHARACTERISTICS

UJ

a:
oce

... ~

10

~ T... 15O'C

/

'I'

(I):::;;

::>«

0

1.0

UJ

~
~
Z
W
a:
a:
::>

T... 125"C

".

l.,....oo-' ~

1.0

Z
«

~

Z
«

~
0.1

0

2

WC/)
C/)w
a: a:
Ww

T....75OC . /

>0.. 0.1

~~
C/)-

::>--'
O:::!
W:::;;

z
«
z~

«
~
C/)

J

~
(I)

/
.01

PULSE WIDTH

"

.3

.6

FIG. 5 - TYPICAL JUNCTION CAPACITANCE

...

Q.

/

2000

u.i
0

Z
«

~

(3
«

I

0..

1000

Lsllll

r-- ....

f_1MHz
Vsig_50mVP1>

800
600
400

«

/

20

0
40

60

80

100

1.0

4000

~

.001

=300 us -

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

~
T...25"C

/

TJ = 25°C
2% Duty Cycle

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

f"'..

200
100
0.1

ro.""
0.4

10

10

40

REVERSE VOLTAGE. VOLTS

IN~~
-79-

80 100

MBRF1035 AND MBRF1045
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 10.0Amperes
FEATURES
ITO-220

.13 •• 008
(3.3 to.21

,.1071.008
(2.7'0.21

• Isolated plastic package has Underwriters
Laboratory Flammability Classification 94V-0
• Metal to silicon rectifier majority
carrier conduction
• Low power loss,
high efficiency
• High current capability, low VF
• High surge capacity
• Guardring for transient protection
• Epitaxial construction
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Intemallnsulation: 1.SK VRMS
• High temperature soldering guaranteed:2S0°C/1 0
secondsl.2S"(6.3Smm) from case

MECHANICAL DATA
+

PIN1~

PIN 2 0---+1--1
STANDARD POLARITY

Dimensions and (millimeters)

Case: ITO-220 Fully Overmolded Plastic
Terminals: Leads Solderable per MIL-STD- 202,
Method 208
Polarity: As marked Mounting Position: Any
Mounting Torque: S in.- Ib.max.
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 Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectnied Current at
Tc-135°C
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Te = 135°C
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 2»
Voltage Rate of Change at (rated VR)
Maximum Instantaneous Forward Voltage at (NOTE 1)
IF= 10A, Te= 125·C
IF= 20A, Te= 125·C
IF= 20A, Te= 25·C
Maximum Instantaneous Reverse Current at
DC Blocking Voltage (NOTE 1)
Te= 125·C
Te - 25·C
Typical Thermal Resistance, Junction to Case
Typical Operating Junction Temperature Range
Typical Storage Temperature Range

SYMBOLS

MBRF1035

AfBRF1045

VRRM
VRWS
Voc

35
35
35

45
45

I(AV)

10.0

Amps

IFSM

20.0

Amps

IFSM
IRSM

150.0
1.0
1000

Amps
Amps

dv/dt

VF

IR
R8JC
TJ
TSTG

NOTES: 1. Pulse Test: Pulse Width 3OOIIS, Duty Cycle 2%.

2. 2.0IJS Pulse Width, f=I.0KHz.
-80-

45

UNITS
Volts
Voks
Volts

VlIlS

0.57
0.72
0.84

Volts

15.0
0.1
2.2
-65 to +150
-65 to +175

mA
mA
°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBRF1035 AND MBRF1045

FIG. 3 ·MAXIMUM NON·REPETIVE PEAI':
FORWARD SURGE CURRENT
175

150

UJ
C)I/)
a:UJ
:::>a:
I/)UJ

FIG. 1-FORWARD CURRENT DERATING CURVE
12

,
1\,

««

;:..:

a:Z
OUJ
LLa:
:.:a:
«:::>
UJU

75

50

o

50

100

....

'r-~

II.

~

o

'" '"

125

011.
a:~ 100

\

II
IIT""T._.
8.3ms SINGLE HALF SINE WAVE
(JEDEC METHOD)

25

1

10

-

20

50

100

NUMBER OF CYCLES AT 60Hz
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

...Z

150

CASE TEMPERATURE. 'C

UJ
a:
a:
:::>
U

50 I

II!"::.

T,

~

\25 C
0

10 I

V

.L'

"""'

... V

0

a:

~lll

FIG. 2-MAXIMUM REVERSE
CHARACTERISTICS

a: a:
OUJ
LLQ.
I/)~
:::>«
0
UJ
Z
....«Z
....I/)«

10

~ f-T,

125 C
0

.,:
Z

UJ
a:
a:
:::>

1.0

1.0

0.1

~

~

"

.JIll"

/

V

TJ =- 25°C

II

j
0.1

.1

I

/

PULSE WIDTH = 300 fJ.S -

II
.2

.3

~% Duty ICycle I
.4

.5

.6

.7

.9

.8

1.0

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

TJ = 75° C

FIG. 5-TYPICAL JUNCTION CAPACITANCE

I/):!;

4000

el;;!

i

~

UJ~

~«

/
j

~

u
111111

ffiffi
iiia:~II.

L

V

.01

/'

II.

iii

TJ = 25° C

u

Iii

Z
«

1000
800

U

600
400

....

~

«
II.
«
U
.001

20

40

60

80

J

2000 ,

M5~ I I

0.

100

120

!.1MHz
Vslg.50mVp-p

i"'"

200

140

100

PERCENT OF RATED PEAK
REVERSE VOLTAGE

1"00..

I

0.1

....
...... i'"

0.4

1.0

10

REVERSE VOLT AGE. VOLTS

-81-

40

90 100

MBRF1050 AND MBRF1060
SCHOTTKY RECTIFIER
VOLTAGE RANGE -50 and 60 Volts CURRENT· 10.0 Amperes
FEATURES
ITO-220

.13

~

.008

(3.3 ~o. 2)

• 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
• Guardring for transient protection
• For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
• Internal Insulation: 1.5K VRMS
,.lon.ooa • High temperature soldering guaranateed:
(2.1~0.2)
250°C/10 seconds/.25"(6.35mm) from case

MECHANICAL DATA
+

PINI~

PIN2~
STANDARD POLARITY

Dimension in inches and (millimeters)

Case: ITO-220 Fully Overmolded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method.208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
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 Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at Tc= 133°C
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Tc= 133'C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on ratea:
enW
Oil.
a:::;

FIG. 1-FORWARD CURRENT DERATING CURVE

~

10

a:
a:
::>
U
oen
!1f Il:!

s:W

~~

«

\

W

150

e"",

12

125
100

3:~

a:z
OW
u.a:
><:a:
<::>
wU

6

75

'"

~ .....

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

50

r-....

~

I-

CL.

25

10

4

20

100

50

NUMBER OF CYCLES AT 60Hz

W

~

a:

FIG. 4-TVPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

W

~

~I'-

o

o

50

100

50

150

I-

CASE TEMPERATURE. 'C

Z

W

V

a:
a:

TJ = 150 C
0

::>
U

10

" ..,..

.,

, / /'"

0

a:

<

FIG. 3 - MAXIMUM REVERSE
CHARACTERISTICS

-

10

TJ

~

~

Z

W
a:
a:
::>

125 C
0

Z

f

'"~

0.1. 1

."",.. ~

TJ

"'-

25° C

L

<

~

L

1/

/ /

1.0

I-

If
.2

.3

I

I
PULSE WIDTH - 300 IJ.S
2% Duty Cycle

.4

.5

.6

.8

.7

.9

1.0

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

TJ = 75° C

0.1

FIG. 5- TYPICAL JUNCTION CAPACITANCE
4000

u. 2000

V

Z

<

I-

Z

L

If

I-

0=
w::;
<
en

en::;
::><
0
W
Z
<

1.0

U

Wen
enw
a: a:
Ww
>CL.
W::;
a:<
en::>...J

3: en

a: w
Oa:
u.~

./

.01

a
ui

....... TJ~25·C

U
Z

<

I-

I-

~

(3

i!"'"

<
0.
<

~ 2~·

T,
C
1_1.0 MHz

1000
600

Vsig_SOmVp-p

600
400

r'"

U

........

200
.001

~

~

00

00

100

1~

PERCENT OF RATED PEAK
REVERSE VOLTAGE

1~

100
0.1

0.4

1.0

10

REVERSE VOLTAGE. VOLTS

·83·

i"""'o

~I'40

80 100

MBRF1090 AND MBRF1 01 00
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 90 and 100 Volts

CURRENT -10.0 Amperes
FEATURES

ITO-220

.13 '.008

(3.3 to.2)

,.IO?! .008
(2.7 t 0.2)

• 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
• Guardring for transient protection
• Internal insulation: 1.Sk VRMS
• High temperature soldering guaranteed: 250°C/10
seconds/.25"(6.35mm) from case

MECHANICAL DATA
+

PIN 1 <>-----]
PIN 2 O--+t-l
STANDARD POLARITY

Dimensions in inches and (millimeters)

Case: ITO-220 Fully Overmolded Plastic
Terminals: Leads Solderable per MIL-STD-202,
Method 208
Polarity: As marked Mounting Position: Any
Mounting Torque: .08 ounces, 2.24 gram
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 Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectnied Current
at Tc=125°C
Peak Repetitive Forward Current, rated VR
(Square Wave 20 KHz) at Te=125°C
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 2)
Voltage Rate of Change (rated VR)
Maximum Instantaneous
IF= 10A, Te= 25°C
Forward Voltage at (NOTE 1)
IF= 1OA, Te= 125°C
IF= 20A, Te= 125°C
IF= 20A, Te= 25°C
Maximum Instantaneous Reverse Current at rated
DC Blocking Voltage
Te=125°C (NOTE 1)
Te=25°C
Typical Thermal Resistance, Junction to Case
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1. Pulse Test: Pulse Width 300 115, Duty Cycle 2%.
2. 2.0115 Pulse Width, 1=1.0 kHz.
-84-

SYMBOLS
VRRM
VRWM
Voc

IlIBRFI090
90
90
90

MBRFt0100
100
100
100

UNITS
Volts
Volts
Volts

I(AV)

10.0

Amps

IFRM

20.0

Amps

IFSM
IRRM
dv/dt

150.0
0.5
1000
0.80
0.70
0.85
0.95

Amps
Amps

150.0
0.15
2.2
-65 to +150
-65 to +175

rnA
rnA
°CIW
°C
°C

VF

IR
R8JC
TJ
TSTG

V/IJ.S

Volts

RATINGS AND CHARACTERISTIC CURVES MBRF1090 AND MBRF10100

FIG. 2 -MAXIMUM NON-REPETITIVE
PEAK FORWARD SURGE CURRENT
175

,

a:W

FIG. l-FORWARD CURRENT DERATING CURVE

\

\

8.3 ms SINGLE HALF SINE-WAVE
JEDEC METHOD

,

W
150
(!lUl

::> a:

UlW

125

O~

~« 100
~~
a:Z
OW
!La:

75

~ i3
a.

,

""

......

t-.....

o

50

100

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

50

25

5

1

\
o

r--..t--.

10

....

20

50

100

NUMBER OF CYCLES AT 60Hz
FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

150

10

CASE TEMPERATURE, ·C

1/

/
FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS
I

0

I

TJ

~

V

.1

~

=125°C

,1,...0-' ~

0=

T,
25° C
PULSE WIDTH - 300f.l.s _
2% Duty Cycle

I

I

I
.01

~

1

7'

I'"

.2

.3

.4

.5

.6

.7

.8

.9

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

TJ =75°C

FIG. 5-TYPICAL JUNCTION CAPACITANCE
4000

!L

V

.01

ui
~

TJ = 25°C

«

f-

13
«
a.
«

~

~

.001

V

~

~

u
00

00

100

1W

T

TJ = 25° C

2000

1.0 MHz
V sig = 50mVp-p

f

Q.

:""'-i"-o
1000
800
600

40 0

200

1~

PERCENT OF RATED PEAK
REVERSE VOLTAGE

100
0.1

0.4

1.0

10

REVERSE VOLTAGE, VOLTS

-85-

40

80 100

MBR1035 AND MBR1045
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 10.0 Amperes
FEATURES
TO-220
-

.160(4:06)

...1 • .055 11.40)
.045 i1.141

"
-rr ~

.15013.811
.13013.30)
.36019.14)
.32018.131

.60011.24)
.575114.&11

1

l

l
I"~";

3129.54)
3128.02)

.,025
MAX.

.530T·46)

"I I' :~5~ ~:l;:

+--+ .21015.33)
.19014.83)

.022[0 56) •
•014[0.36)

IJ"",",
.09012.29)

ICASE POSITIVE)
PIN 1·~
STANDARD POLARITY PIN 2 - ~CASE

Dimensions in inches and (millimeters)

• Plastic package has Underwriters Laboratory
Flammabilty 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
• Guardring for transient protection
• High temperature soldering guaranteed: 250°C/10
seconds/.25"(6.35mm) from case

MECHANICAL DATA
Case: JEDEC 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 specilied.
Resistive or inductive load.
For capacitive load, derate current by 20%.

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current at
Te-135°C
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Te= 135°C
Peak Forward Surge Current
8.3ms single.haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 2)
Voltage Rate of Change at (rated VA)
Maximum Instantaneous
IF=10A, Tc=125°C
Forward VoHage (NOTE 1)
IF=20A, Tc=125°C
IF=20A, T c=25°C
Maximum Instantaneous Reverse Current at rated
DC Blocking VoHage (NOTE 1)
Te= 125°C
Te= 25°C
Maximum Thermal Resistance, Junction to Case
Operating Junction Temperature Range
Storage Temperature Range

SYMBOLS

MBR1035

MBRI045

UNITS

VAAM
VAWM
VDC

35
35
35

45
45
45

VoRs
VoRs
Volts

-

I(AV)

10.0

Amps

IFSM

20.0

Amps

IFSM
IAAM

150.0
1.0
1000
0.57
0.72
0.84

Amps
Amps
V/(J.S

15.0
0.1
2.0
-65 to +150
-65 to +175

rnA
rnA

dv/dt

VF
IR
R8JC
TJ
TSTG

NOTES: 1. Pulse Test: Pulse Width 300!'S, Duty Cycle 2%.
2. 2.0!'S Pulse Width, 1=1.0 KHz.
-86-

VoRs

°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBR1035 AND MBR1045

FIG 3 • MAXIMUM NON·REPETmVE
SURGE CURRENT
175

w
~'"
a:w

FlO 1 • FORWARD CURRENT DERATING CURVE

~ffi

12

~

-<

0.4

~~

~

~

""I'"""

a:!z

f2 tl!

75

...

60

~§

--

wO

~

W

W

a:~

,

i3
ffffl
LL

"'-

125

~ • 100

~

a:

0.6

~

0'"

10

~ffi

160

25
0.1

0.5

0.2

10

I"""- r--

20

100

50

NUMBER OF CYCLES AT 60 Hz
0.2

o

1\

o

60

FlO 4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
60

160

100

CASE TEMPERATURE,' C

I

V'

Jc V

IT.. 1
10

FlO 2 • MAXIMUM REVERSE
CHARACTERISTICS

f

10.0

10"'"
~

~

f

1/

1.0

T...25'C

f-- r- T...125'C
LL

!iW

1

1.0

a:
a:

0.1

i3

w'"
"'w
a: a:
Ww
> ...

tl!~

~

io!""

.10

1/ 10""

~

U

IU

PULSE WIDTH-3OO1&S
2% DUTY CYCLE

U

U

U

U

U

u

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

I/'
T....75'C

FlO 5 • TYPICAL JUNCTION CAPACITANCE
4000

"'~

§:i
z
~
~

I

... V

.01

u. 2000

V'
T...25'C

C!,

w

°~
.....~
°
Z

ii!:

.001

o

20

40

60

60

100 120

140

PERCENT OF RATED VOLTAGE PEAK
REVERSE VOLTAGE

l00c
800

....

T;25°6

800
400

"

200

100
0.1

OA

1.0

4

10

REVERSE VOLTAGE, VOLTS

-87-

f""'ol'"
40

60 100

MBR1050 AND M'BR1060
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT -10.0 Amperes
FEATURES
To-220

:j

.160 (4. )
_.055 (1.40)
.045 (1.14)

~

:gg~t~M ,j

-fr

.360 C9.l4J
.320 (8.13)

.600(1.24)
.575 (l4.6ll

!

1
. ~~.
r~";

3 (29.54)
3 (28.02)

1

.530Ct 46 )

"11·:gm~::;l

_ _ .210(5.33)
.190(4.83)

I::;

.02210.56).
.01410.36)

• Plastic package ,has Underwriters Laboratory
Flammability Classification~ 94V-O
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, 10V' 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
• High temperature soldering guaranteed: 250°C/1 0
secondsl.25"(6.35mm) from case

.110(2.79)
"]9ii'i2.29)

(CASE POSITIVE) PIN'l +<>----u
STRNDARD POLARITY PIN2 -~CIiSE

Dimensions in inches and (millimeters)

MECHANICAL DATA
Case: JEDEC TO-220 Molded Plastic
Termlnals: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 Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current'
Tc=133°C
Peak Repetitive Forward Current.
(Square Wave 20 KHz) at Tc=,133°C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
PeaklRepetitive Reverse Surge Current (NOTE 2)
Voltage Rate of Change at (rated VA)
Maximum Instantaneous
IF=10A, Tc=25°C
Forward Voltage (NOTE 1)
IF=10A, Tc=125°C
IF=20A, Tc=125°C
IF=20A, Tc=25°C
Maximum Instantaneous Reverse Current at rated
DC Blocking Voltage (NOTE 1)
Tc=125°C
Tc=25°C
Maximum Thermal Resistance, Junction to Case
Operating Junction Temperature Range
Storage Temperature Range

SYMBOLS

MBRI050

AfBR1060

UNITS

VAAM
VAWM
Voc

50
50
50

60
60
60

Volts
Volts
Volts

I(AV)

10.0

Amps,

IFSM

20.0

Amps

IFSM
IAAM

150.0
0.5
1000
0.80
0.70
0.85
0.95

Amps
Amps

50.0
0.15
2.0
-65 to +150
-65 to +175

rnA
rnA
°CIW
°C
°C

dvldt

VF

IA
R8JC
TJ
TSTG

NOTES:

1. Pulse Test: Pulse Width 300 !IS. Duty Cycle 2%.
2. 2.0 !IS Pulse Width. 1=1.0 KHz.
-88-

V/IlS

Volts

RATINGS AND CHARACTERISTIC CURVES MBR1050 AND MBR1060

FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
175

100

W

ClUJ
O:W
::::>0:

FIG.1- FORWARD CURRENT DERATING CURVE
12

"-'
Z
W

,

U

OC/l

o:W

ffi
~O-

00..

0::;:
««
:S:"-'
o:Z

1\

0:
0:
::::>



50

u.o:

wU

6

8.3ms SINGLE HALF
SINE WAVE
(JEDEC METHOD)

i'
............

r--.... t"'--o

I'"

0..

0::;:

fr«

i\

25
1

\,

W

Cl
«
0:
W
>

«

o

"'- .....

125

C/lW

10

tLJmax I

"-

o

50

100

10

20

50

100

NUMBER OF CYCLES AT 60Hz

FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50

150

f-

CASE TEMPERATURE, "C

Z

I'

W

0:
0:
::::>

U

o
0:
«

FIG. 3 - MAXIMUM REVERSE
CHARACTERISTICS

TJ

~~

f

I J

C/l:;:

::::>«

o

150°C

10

offi
u.o..

10

~

10

L

V V

f

~

TJ

=:

25°C

W

Z

TJ - 125°C

i-"""

«
f-

Z

.L

«

I

f--

C/l
Z

o1

j,...ooo'"
1

~

I--"

TJ

I

V 1

PULSE WIDTH 300 iJs
2"0 Dull Cycle

10

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

= 75 c C

FIG. 5 - TYPICAL JUNCTION CAPACITANCE
4000

V
./ V

1

TJ " 25°C

U.

2000

U
Z

1000

a.
W

«

800

U

600

f-

,.

TJ=2S!C

«
0«

U

f=1.0MHz
Vsig",SOmVp-p -

400

~

~

200

00 1

20

40

60

80

100

120

100

PERCENT OF RATED PEAK
REVERSE VOLTAGE

01

04

10

10

REVERSE VOLTAGE, VOLTS

-89-

-40

80100

MBR1090 AND MBR10100
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 90 and 100 Volts CURRENT -10.0 Amperes
FEATURES
• 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
• Guardring for transient protection
• High temperature soldering guaranteed:
250°C/10secondsl.25"(6.35mm)

TO-220

*

.15013.81)
.13013.30)

-p-

~

j

.1GO 14.0G)
, .05511.40)
.04511.14)

.GOOJ5.24)
.575114.&ll

.3GO (9.14)
.32018.13)

1

1

~
3129.
1.10 3 128.02)

1

roo"",;

.,025
MAX.

.530It 4G )

+11·:gmg:::l

- . . .21015.33)
.19014.83)

ICASE POSlTIVEl

·N21D.5G).
.0141O.3G)

I .... 11012.79)
-

MECHANICAL DATA

.090(2.29)

Case: JEDEC TO-220 Molded plastiC
Terminals: Leads solderable per MIL-STD-202,

PIN 1 + <>-----t...;.

STANDARD POLARITY PIN 2 - ~CASE

Method 208

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 capacitive load, derate current by 20%.

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Vo~age
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at
Tc.. 133°C
Peak Repetitive Forward Current,
(Square Wave 20 KHz) at Tc=133°C
Peak Forward Surge Current
8.3ms single half sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 2)
Voltage Rate of Change, (rated VR)
Maximum Instantaneous
IF- lOA, Tc= 25°C
Forward Voltage at
IF= lOA, Tc= 125°C
(NOTE 1)
IF=20A, Tc= 125°C
IF= 20A, Tc= 25°C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage (NOTE 1)
Tc=25°C
Tc=125°C
Maximum Thermal Resistance, Junction to Case
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1. Pulse Test Pulse Width 300 "s, Duty Cycle 2%.

2. 2.0"s Pulse Width, 1.0 KHz.

-90-

SYMBOLS

MBRf090

MBRfOfOO

UNITS

VRRM
VRWM
Voc

90
90
90

100
100
100

Volts
Volts
Volts

I(AV)

10.0

Amps

IFSM

20.0

Amps

IFSM
IRRM
dv/dt

150.0
0.5
1000
0.80
0.70
0.85
0.95

Amps
Amps

0.1
25.0
2.0
-65 to +150
-65 to +175

rnA
rnA
°CIW
°C
°C

VF
IR
IR
R8JC
TJ
TSTG

VlWS
Volts

RATINGS AND CHARACTERISTIC CURVES MBR1090 AND MBR10100

FIG. 2 - MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
I

TJ_TJm&X.

II!
~

~

!i
III

a:
a:
::>

\,

8.0

~

~
III

4.0

~

2.0

1\

~

,

OW

::=~
o:z

75

11.0:
:.:0:
«:::l

wO

50

,

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

00..

0:::< 100
««

8.0

8.3ms SINGLE HALF
SINE WAVE
(JEDEC METHOD)

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

a:W
",W

:::l0: 125

10

0

IE

III
C)

~

400

f"Ioo
200

140

100
0.1

0.4

1.0

10

40

80100

REVERSE VOLTAGE, VOLTS

INsr~
-91-

SBLF1030 AND SBLF1040
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts

CURRENT - 10.0 Amperes
FEATURES

ITD-220
.1581.008
[4t.021
.13 t .008
(3.3 0 0.21

r--+ '

.189 MAX.
[4.S1

,.10n.00s
[2.7 t O.21

• Isolated plastic package has Underwriters
Laboratory Flammability Classification 94V-O
• Isolated overmolded package
• Metal to silicon rectifier,
majority carrier conduction
• Low power
loss, high efficiency
• High current capability, low VF
• High surge capacity
• Epitaxial construction
• Guardring 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
• Internal Insulation: 1.5K VRMS

MECHANICAL DATA
+

PIN 1 0------,
PIN 2 O--+I-l
STANDARD POLARITY

Dimensions in inches and (millimeters)

Case: ITO-220 Fully Overmolded PlastiC
Terminals: Leads Solderable per MIL-STD-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in - Ibs max.
Weight: .08 ounces, 2.24 gram

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25°C ambient temperature unless otherwise spscified.
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
Peak Forward Surge Current, 8.3ms single
~alf sine-wave superimposed on rated load
JEDEC Method)
Maximum Instantaneous Forward Voltage
IF-lOA, (NOTE 2)
Maximum Average Reverse Current at
Tc=25'C
Rated DC Blocking Voltage per element TC-l00'C
Typical Thermal Resistance (NOTE 1)
Operating and Storage Temperature Range

SYMBOLS

SBLF1030

SBLF1040

UNffS

VRRM
VRMS
Voc

30
21
30

40
28
40

Volts
Volts
Volts

IIAV)

10.0

Amps

IFSM

250.0

Amps

VF

0.60
1.0
50.0
3.5
-40 to +125

Volts

IR
R9JC
TJ, TSTG

NOTES:

1. Thermal Resistance from Junction to Case.
2. Pulse Test: 300 lIS Pulse Width, 2% Duty Factor.

-92-

mA
'CIW
'C

RATINGS AND CHARACTERISTIC CURVES SBLF1030 AND SBLF1040

FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
8.3ms SINGLE HALF SINE WAVE
(JEDEC METHOD)

T...TJmBX.

~

~

'"

FIG.1·
FORWARD CURRENT DERATING CURVE
'0.0

~een

......

"' ....

i"

:\

cr W

;Iho
~~
II. c .

oo

~wc

-

~

5

~

2.0

o

t'......

\

10

o

~

20

100

50

NUMBER OF CYCLES AT 60Hz

\

'00

'0

"'~

FIG. 4 • TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
~

CASE TEMPERATURE. 'C

100

W

a:
a:

::l

o
o

/

0

a:

;13

FIG.3 • TYPICAL

REVERSE CHARACTERISTICS

~ffi

'00

I

"-A-

V

en~

::lC •.0

@
Z
C

!

. / 10-'
TJ·100·C-

.v

r-

~

TJ ' 25'C

.1
.0

PULSE WIDTH. 300jJl
~

·11
.2.3.0.5.6

.J!'

FIG. 5 • TYPICAL JUNCTION CAPACITANCE
0000

V

II.
A

-'

0
Z

'000

C

100
100

C

400

AC
0

.J1I'

20

40

10

10

'00

'20

-

2000

u.l

T,":aoC

...(3
.0'

~--:
.•.•

INSTANTANEOUS FORWARD VOLTAGE •
VOLTS

\....-" ~ T,'15'C

V

Duty Cycle

'40

i

III

IT." ~5Jd

1"-0""

t·1MHz
Vlig = SOmVp·p

200
'00

PERCENT OF RATED PEAK
REVERSE VOLTAGE

0.'

0.0

'.0

'0

REVERSE VOLTAGE. VOLTS

-93-

80100

SBL1030 AND SBL1040
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts

CURRENT - 10 Amperes
FEATURES

TO-220

.42000.611
.380 (9.651

i+-:'

.lS0(3~81JW
_
f

.62005.151

PIN

P~NimJ

11::;5;=:::;9=

.

.DlI1i.rn

~

.155 (3.94)0IA
_1_.055(1.40)
.145p.68)
.-r----.,...-+- Ji45iIl4j

bkom
(. 6
t

.1j Oc:!J!!l
t
.360 (9.14)
.320 (8.13J

I

.600(15.241
.575 (14.611

1

l

1.163 (29 5411
1.103 (28.021
......025
1.560 (124.22)
MAX.
.530

(t461

• 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
• Guardring for transient protection

MECHANICAL DATA
"11.:m~:::l

+--+ .210(5.331
.190 (4.831

.02210.56)·1 .... 110(2.191
.01410.361
.090(2.291

(CASE POSITIVE) PIN 1 + ~
STANDARD POLARITY PIN 2 - ~CASE

Dimensions in inches
(millimeters)

Csse: JEOEC TO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram

CROSS REFERENCE GUIDE
GI
SB11040
SBl1030

FUJI

SHINDENGEN
S5S4M
S5S3M

ERC62-004

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 Vo~age
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward RectHied Current
at Tc=110'C
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage at
IF=1 OA, Tc~25'C (NOTE 2)
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage (NOTE 2)
Typical Thermal Resistance (NOTE 1)
Operating and Storage Temperature Range

Tc= 25'C
Tc=100'C

NOTES:
1. Thermal Resistance from Junction to Case.
2. Pulse Test: 300 J.lS Pulse Width, 2% Duty Cycle.

-94-

SYMBOLS

SBLt030

SBL1040

VRRM
VRMS
Voc

30
21
30

40
28
40

UNITS
Voks
Volts
Volts

I(AV)

10.0

Amps

IFSM

250.0

Amps

VF

0.60

Voks

IR
ReJC
TJ,TsTG

1.0
50.0
3.0
-40 to +125

mA
'CIW

'c

RATINGS AND CHARACTERISTIC CURVES SSL 1030 AND SSL 1040

FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
300

T....TJmax.
250
W

<:0:

\

~ffi

15

t'- I'

;liB

50

-

t'-~

!l.
5

w

U

~

/

10

«
~ffi

FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS

offi
u.!l.

100

I

If

"'::.
::J « , 0
ow
z

«

.,.:
Z

W

10

/

'i

0:
0:

I--'

::>

-~

1-

U

Z

«

~

T, -100'C=

f==
r---

~

V

>!l. 1.0

~~

~
I"" T, ~ 75" C

lL

0.2

FIG. 5 -

"'::>-'
O:::!

V

V

U.

c.

'"~

U
Z

1000

U

600
400

«
I-

..,

2000

u.i

T,"25'C

0.1

«
«

./

0.3

0.4

0,5

------1.------1:----:-:
0.7
a,s
0.9

0.6

!l.

u

TYPICAL JUNCTION CAPACITANCE

-

4000

W~

z
«
IZ
«
I-

01

TJ = 25°C
PULSE WIDTH'" 300,Us_
2% Duty Cycle

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

.Y

w",
"'W
0:0:
Ww

-

f-f

I-

II

,...,..

ITJ I~ !5Jd

""'"

800

f-1MHz
Vsig = 50mVp-p

"

200

'"

.01
";):0

40

60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

14(j"

100
0.1

0,4

1,0

10

REVERSE VOLTAGE, VOLTS

-95-

40

.80100

SBLF1030CT AND SBLF1040CT
SCHOTTKY RECTIFIER
VOLTAGERANGE-30and40 Volts CURRENT-10.0Amperes
FEATURES
ITO-220CT
405 MAX

r

.1581.00S
H • 02 )

In ----$-' V--t .d
-

.13 t.OOS
I~I
(3.310.2) "- "'-y

1+-+ "

lS9 MAX
(4. S)

"«'

~

tflX.
(17)

I

.103 MAX.
(2.6)

PIN
1 2 3

r•

I
.0511.008 pi

1

I~--

I

l

-

1""'-

qI" !.5312 MIN.
1.1 1('ff.5)
i .. i .. i
'j 2.54
~
40REF.
.028 1 .OOS,
...
."" "'CO.7!:O.2] 1+

(1.3~042)

.029 !:08s
(0.7518:!)

,

• 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
• Dual rectifier construction, positive center-tap
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS
• High temperature soldering guaranteed:250°C/1 0
seconds/.25"(6.35mm) from case

,.10n.00S
(2.7 1 0.2)

MECHANICAL DATA

~

lID It"CI

o---t+-t!A'i

PIN 12
PIN3-~ STANDARD POLARITY

Dimensions in inches

and

case: ITO-220 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 gram

(millimeters)

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, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg at IF _ 5.0A,Tc = 25°C (NOTE 2)
Maximum Instantaneous Reverse Current at Tc= 25°C
Rated DC Blocking Voltage per element Tc= 100°C
Typical Thermal Resistance per element (NOTE
Operating and Storage Temperature Range

1)

SYMBOLS

SBLF1030CT

VRRM
VRMS
Voc

30
21
30

1. Thonnal Resistance from Junction to Case per element.
2. Pulse Test: 300J.lS Pulse Width, 2% Duty Cycle.

-96-

UNITS
Vo~s

Volts
Volts

I(AV)

10.0

Amps

IFSM

175.0

Amps

VF

0.55
0.5
50.0

Vo~s

3.5
-40 to + 125

°CIW

IR
ReJC
TJ,TsTG

Notes:

SBLFI040CT
40
28
40

mA
°C

RAnNGS AND CHARACTERISnC CURVES SBLF1030CT AND SBLF1040CT

FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG

-----.--

300

8.3rra SINClLE HALF SINE WAVE
(JEDEC METHOD)

FIG.

t-=

Z

W
a:
a:
::l

1 - FORWARD CURRENT DERATING CURVE

OCil

a: W

<

\

7.5

5

,

60

~

100

a:
<
;s:CIl
a: W
offi
LLQ.
CIl:::;
::l<
0
W
Z
<

>11. 0.1

~~
CIl-

.01

100

./

10

",

./

1

J

1.0

I-

Z

<
CIl

I

I-

~

0.1
0.2

~t~:iG;IDTH = 300,. 5 -

I

2% DUTY CYCLE

0.3

0.4

0.5

0.8

0.7

0.8

0.8

1.0

1.1

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

.. -

~

FIG. 5· TYPICAL JUNCTION CAPACITANCE PER LEG
4000

T,.

~

2S'C

T.-2&"C

LL

Q.

I-

Z

-

==

::l...J
w::::i!
z
<
O~

<
CIl

T'~l~""

i-""'"
~
~ ~. ~ 7S'C
~

50

".....

W
a:
a:
::l

10

WCIl
CIl
W
a: a:
Ww

20

Z

CHARACTERIS,TICS

0

10

I-

FIG. 3- TYPICAL REVERSE

W
a:
a:
::l

I

60
160

0

1.0

,-

~

FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

a

r--

r---....

50

~
o

r...

NUMBER OF CYCLES AT 60Hz

CASE TEMPERATURE. ·C

Z

........ ~

100

11.

2.5

t-=

..........

~

5.0

o

150

a:z
OW
LLa:
",a:
<::l
wO

10.0

0

200

«
;:t-=

12.&

T,.T"rnlIK.

250

W
C)CIl
a:W
::la:
CIlW
all.
a:::::i!

1-1.0 MHz

2000

VoIg-5OmVp-p

W

,,/

0
Z

I-

<

800

U

600

I-

~

1000

<
<

11.

0

400

200

..........
.001

20
40
80
80 100 120
PERCENT OF RATED PEAK

100
01

140

REVERSE VOLTAGE

04

10

10

REVERSE VOLTAGE. VOLTS

"

40

I~
·97·

80100

SBL1030CT AND SBL1040CT
SCHOTIKY RECTIFIER
VOLTAGE RANGE· 30 and 40 Volts CURRENT· 10.0 Amperes
FEATURES
TO-220

~:m~Ull
....1 '
...-_-;-+-

.640(1626)
.620115.75)

1 PIN
2 3

~

.160li1:im

1

:I4Olf.5Gi

t

:tlg!i~l~f
f ~
t

.36019.14)
.32016.13)

!

1.163 (29.54)
1.103 128.02)

.05511.4OJ
.04511.14)
.600124)
.575 [14.61)

1

i

It

·5601124.22)
46)
.530

1

..,
..I ,:m~ml

.lJ37 (0.94)
".D27(O.691
~

.190(4:831

• 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
• Dual rectifier construction, positive center-tap
• Guardring for transient protection
• High temperature soldering guaranteed:250°C/1 0
seconds/.25"(6.35mm) from case

MECHANICAL DATA

.022 10.56).... .11012.79)
.014(0.]6)
.09012.29)

I'"

PIN2

(CASE POSITlVEl PINl-~
STANDARD POLARITY PIN 3-~E

Dimensions in inches
and
(millimeters)

Case: JEDEC TO-220 Molded Plastic
Terminals: Solderable per MIL-STD-202,
Method 208
Polarity: As marked
Moumlng 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 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, 8.3ms single
haH sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg at IF- 5.0A,Tc= 25°C (NOTE 2)
Maximum Instantaneous Reverse Current at Tc= 25°C
Rated DC Blocking Voltage per element
Tc=100°C
Typical Thermal Resistance per element (NOTE 1)
Operating and Storage Temperature Range
NOTES:

1. Thermal Resistance from Junction to Case per element.
2. Pulse Test: 300flS Pulse Width, 2% Duty Cycle.

-98-

SYMBOLS

SBLt030CT

SBLt040CT

UNITS

VRRM
VRMS
Voc

30
21
30

40
28
40

Volts
Volts
Volts

I(AV)

10.0

Amps

IFSM

175.0

Amps

VF

0.55
0.5
50.0
3.0
-40 to +125

Volts

IR
R8JC
TJ,TSTG

mA
°CIW
°C

RATINGS AND CHARACTERISTIC CURVeS SBL 1030CT AND SBL 1040CT

FIG. 2 • MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
300

1".T.. max.

8._ SINCllE HALF SINE WAVE
FIG. 1 - FORWARD CURRENT DERATING CURVE

..:z

w 12.5
a:
a:
:l
10
0
OCl)
a: W

<

150

3:":a:z
OW
u.a:
><:a:
<:l
wO
0.

,

I

200

«

~

(JEIlEC METHOD)

250

W
ClU)
a:w
:la:
Cl)W
00.
a::::;:

I~

:
100

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

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

50

~

5

\

,
....
z

CASE TEMPERATURE. ·C

0
0

FIG. S - TYPICAL REVERSE
CHARACTERISTICS

W
a:
a:
:l

1.0

0

WCI)
Cl)w
a: a:
Ww
>0.

:!!~
CI)-

:l....l
o:::!
W:::;:
z
....z<
<
....
CI)

F

'T.....aI"C
PUlSE WlDTHo3OO,..
2'110 DUTY CYCLE

-

J
.2

..-

I

.3

.4

.5

.8

.7

.8

.8

1.0

1.1

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

FIG. II· TYPICAL JUNCTION CAPACITANCE PER LEG
"T.-25"C

4000

~

2000

0
Z

1000

....<

~

T"..26-C .

u.

c.
ui

/

(3

I
o

j
10"

01

~

=

•001

I

/

~

0.1

.01

10

~ffl

a: a:
Ow
u.Q.
CI):::;:
:l<
0
W
Z
<
....
z
....CI)<

T""~~

~ ~J7&C
F-,..,..
.... ~

.".,...,...

v./

a:

10

..:z

1pO

-

50

W
a:
a:
:l

r--

50

FIG. 4 • TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG
150

100

-to-

20

NUMBER OF CYCLES AT 60Hz

~
50

10

<
0.
<

800

600
400

0

20

40

60

60

100

120

r-1.oM~
Voigo5OmVi>P

200

.........

140

PERCENT OF RATED PEAK
REVERSE VOLTAGE

100
01

04

10

10

~
40

REVERSE VOLTAGE. VOLTS

I~
-99-

eo 100

MBRF1535CT AND MBRF1545CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE· 35 and 45 Volts CURRENT· 15.0 Amperes
FEATURES
ITO-220CT

• 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°C110 secondsl.25", (6.35mm) from case
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS

.13 t .008
(3.3 to.21

'<:<>

1 P~N 3

.103 MAX.

~""""-rIr-""""
.051..008 I!,
!-r!l.3~~421

.029 !:008

m.75:!:8:!)

1,1"

,

!.531~ MIN.

+, I--rr:sr-

1,.., .. 1

... ,.107<.008
!2.7 t 0.21

2.54

~
4'REF.
.028 t.008
.... ...
.... ... (0.7 :to.2)

""'*'''''
..,. ..4° REF..... ....

PIN1-~2

PI" 3-~ ... +
STANDARD POLAR lTV

Dimensions in inches
and
(millimeters)

MECHANICAL DATA
Case: ITO-220 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 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
Working Peak Reverse Voltage
DC Blocking Voltage
Maximum Average Forward Rectified Current at Tc-105'C
Peak Repetitive Forward Current (Square Wave, 20 KHz)
per leg at Te=105'C
Peak Forward Surge Current, 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge (NOTE 3)
Maximum Instantaneous
IF= 7.5A,Tc-125'C
Forward Voltage
IF- 15A, Te=125°C
Per Leg at (NOTE 2)
IF=15A, Tc- 25°C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage per element
Te= 125°C
(NOTE 2)
Tc= 25°C
Voltage Rate of Change at (Rated VR)
Typical Thermal Resistance per element (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1. Thermal Resistance from Junction to Case per element.
2. Pulse Test: 300f1S Pulse Width. 2% Duty Cycle.
3. 2.0f1S Pulse Width. 1.0KHz.
-100-

SYMBOLS
VRRM
VRWM
Voc
I(AV)

MBRF1S3SCT MBRF1S4SCT
35
45
I
35
45
I
35
45
I
15.0

UNITS
Volts
Volts
Volts
Amps

IFRM

15.0

Amps

IFSM
IRRM

150.0
1.0
0.57
0.72
0.84

Amps
Amps

mA

TJ

15.0
0.1
1000
3.5
-65 to +150

TSTG

-65 to +175

VF
IR
dv/dt
R8JC

Volts

Vlu.s
'CIW

'c
'C

RATINGS AND CHARACTERISTIC CURVES MBRF1535CT AND MBRF1545CT

FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
160
140

W

1'...

ClUJ

a:w
~a:

...:
~

~

<{

«~

!'.... .....

0
100

10

20

100

50

NUMBER OF CYCLES AT 60Hz

FIG. 4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

150

z

CASE TEMPERATURE, °C

50

I

W

a:
a:

TJ

~

o

o
a:
«

,
/

offi

10

LLQ.

00::;:

:J«

oUJ

125 C
0

125~V

/"

./

10

~~

FIG. 3 - MAXIMUM REVERSE
CHARACTERISTICS

T,

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

40 1

~

~

,

l't-.

80

~

4.0
50

(JEDEC METHOD)

60

,

W

W

f'

Q.

I'1\

Cl

«
a:

I

~a:

wO

8.0

8.3rns SINGLE HALF SINE WAVE

i'...

100

OW
LLa:

ffi12.0

0::;:
lL

a:::;:
««
~...:
a:Z

,

a:, .5312 MIN.
.029!:00S • • 1
CO.75 t gJI
::
2.54

!

1

1-m:sJ

...

0. 107 •. OOS

Q.7·O.21

~
4° REF.
.02S'.008
.. •
... ... (O.7tO.2)
"""""" PIN1-~2
.......4°REF........

PIN

3-<>---tJ+-1

+

STANDARD POLARITY

Dimensions in inches
and
(millimeters)

• 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
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS

MECHANICAL DATA
Case: ITO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208
Polarity: As marked Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
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%.
SYMBOLS

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc_105°C
Peak Repetitive Forward Current (Square Wave,
20 KHz)' at Tc-1 05°C per leg
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 IF=7.5A,Tc=125°C
Voltage Per Leg at (NOTE 2)
IF=7.5A, Tc=25°C
Maximum Instantaneous Reverse Current Tc=125°C
at Rated DC Blocking Voltage per element Tc= 25°C
(NOTE 3)
Voltage Rate of Change, (Rated VR)
Typical Thermal Resistance per element (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1. Thermal Resistance from Junction to Case per element.
2. Pulse Test: 300(1$ Pulse Width, 2% Duty Cycle.
3. 2.0(1$ Pulse Width, 1.0 KHz.

-102-

VRRM
VRWM
Voc

MBRF1550CT MBRF1560CT

50
35
50

60
42
60

UNITS

Votts
Votts
Volts

I(AV)

15.0

Amps

IFRM

15.0

Amps

IFSM
IRRM

150.0
0.5
0.65
0.75
50.0
0.5

Amps
Amps

VF
IR

dv/dt
R8JC
TJ
TSTG

1000
3.5
-65 to +150
-65 to +175

Votts
rnA

VlJl.S
°CIW
DC
DC

RATINGS AND CHARACTERISTIC CURVES MBRF1550CT AND MBRF1560CT

FIG. 2· MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
160

w

140

1I, •.3ms SINGLE HALF SINE WAVE

..........

(!)Vl
O::UJ
~

,...~

0::

20.0

~

o::UJ

~

ffi 12.0

f2~
w

•. 0

«

«

.....

.0

..........

60

4.0

o
o

50

100

r--..

~ ...

Cl.

40 ,

5

10

20

100 '

50

NUMBER OF CYCLES AT 60Hz

\

(!)

a:::
UJ
>

100

~a

~

0::Cl.

......
f".r--.

~

~,...0::2
ou.0::
UJ

16.0

OU)

120

OCl.

0::
0::

i3

a:::

U)UJ

FIG. l-FORWARD CURRENT DERATING CURVE

PER LEG (JEDEC METHOD)
T....TJ max.

......

1\

FIG. 4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

50

150
~

CASE TEMPERATURE. 'C

2

I

UJ

0::
0::

::J
U
0

TJ

=

L

125 C
0

10

",. ~

/

0::

«

FIG. 3-MAXIMUM REVERSE

o::UJ

offi
u.Cl.

10
TJ

L

3:U)

CHARACTERISTICS

/

u):;,

150 C
0

j

::J«

0

V

/

TJ

-

25° C

UJ

2

V

~

0

i-""'TJ

~

«

~

125'

2

C

«

?,:
0.1
.1

.2

/"
.3

PULSE WIDTH = 300IJ.s
2% Duty Cycle

.4

.5

.6

I'

l/

/

~

1.0

...l ...l .li

J

75'C

.9

FIG.5· TYPICAL JUNCTION CAPACITANCE PER LEG
4000

T,

..

.7

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

1/

1

,

I /

~

U)

VTJ~25'C

J

/

~,

LL

2000

"-

ill
~ 1000
<:(

800

<:(

600
400

S
Cl.

ITJ.125!~I-+

r-- 1""-,...

f:: 1MHz
~sig = 50mVp-p

«

..........

U

200

.00 1

100

PERCENT OF RATED PEAK
REVERSE VOLTAGE

0.1

0.4

1.0

10

r-...

I"ro40

BO 100

REVERSE VOLTAGE. VOLTS

IN~M'r
·103-

MBR1535CT AND MBR1545CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 15.0 Amperes
FEATURES
TO-220CT

.m~Ull
:n
-+1 ' .05511.40l
.045 tl.141

-r---:--I-.150

(3~lIlJ

r- f I

.11°f(~@)~ ~

1

.575 (14.611

t·

.360(9.14)
•320 13)

~~i

1.103 (28.021

/ "'"'''T''''''-''-

+1 ,.037(0.94)

I I .02710.69)
+I 'i~~glI)
. .)
~

.190(4:83)

1. (t46)

560 U24.221
.530

1...

.02210.561 ..
.014(0.361

-

• Plastic package has Underwriters Laboratory
Flammabiiity 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
• Guardring for transient protection

MECHANICAL DATA

.110 [2. 7S1
.090(2.291

PIN2

(CASE POSITIVE) PINl+~
STANDARD POLARITY PIN 3-~E

Dimensions in inches
and
(millimeters)

Case: JEDEC 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 load. derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc-l05°C
Peak Repetitive Forward Current per diode at Tc=105°C
(Rated VR, Square wave, 20KHz)
Peak Forward Surge Current 8.3ms single half sinewave 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=15A.Tc=25°C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage per element
Tc=125°C
Tc = 25°C
Voltage Rate of Change at (Rated VR)
Maximum Thermal Resistance per element (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES:
1. Thermal Resistance Junction to Case.
2. Pulse Test: 300l'S. Pulse Width. 2% Duty Factor.
3. 2.0I1s. Pulse Width 1.0 KHz.
-104-

SYMBOLS

MBR1535CT

MBR1545CT

UNITS

VRRM
VRWM
Voc

35
35
35

45
4.5

Voks
Volts

45

Volts

IrAV)

15.0

Amps

IFRM

15.0

Amps

IFSM
IRRM

150.0
1.0

Amps
Amps

VF

0.57
0.72
0.84

Volts

dv/dt
R8JC
TJ

15.0
0.1
1000
3.0
-65 to +150

TSTG

-65 to +175

IR

mA

VlIlS
°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBR1535CT AND MBR1545CT

FIG. 2· MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
160

~

FIG. 1 -

ffi

FORWARD CURRENT DERATING CURVE

«

a:
W

40

~

I

'I
50

TJ..TJ max.

100

I'-.... ........

80

60

0..

-'j-

~

-'-

100

a:Z
OW
u.a:
~a:
«::>

"'1\

~~ 80

u.
W
Cl

LEG (JEDEC METHOD)

1'....
1"1'0

wU

3:0..

ll
l.3nmILllELi
PER

3:~

,

160

.........

120

a:::;:
««

OUJ
a: W
c( ffi12.0

r-....

00..

200

a:
a:

B

140

W
ClUJ
a:W
::>a:
UJW

5

10

l"- ,...,...
"
20

"'1"

50

100

NUMBER OF CYCLES AT 60Hz

f\

FIG. 4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG
50

150
I-

CASE TEMPERATURE, 'C

Z

I

W

a:
a:
::>
()

o
a:
«

FIG. 3 - MAXIMUM REVERSE
CHARACTERISTICS

~ffl

,/

/

LL~
UJ::;:

a::>«

I

10

,."

/

10

Oa:

10

./

=125~C/

TJ

"""

1/

V

/
TJ=25°C

W

TJ = 125°C

Z

«

~
Z

IZ

«

~

0\

U

0.1

-

I
3

.4

.5

I

.6.7

.9

1.0

FIG. 5· TYPICAL JUNCTION CAPACITANCE PER LEG

@~
z
«

«

ri:e~~!;~o}tS-

4000

~:::i

IZ

/ II

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

V ...

ffiffi

~~

/

TJ = 75°C

~fa
> a.

J

tii

10

W
a:
a:
::>

.L:

.0 1

V

TJ = 25°C

I--

C.

ui

U
Z

«

tiiz

t-

~
0..

1000

f_1.0MHz

t-- I-t--

Vsig_SOmVp-p

800
600
400

«

U

:-....

200

00 1

20

~

00

00

100

PERCENT OF RATED PEAK
REVERSE VOLTAGE

120

I

TJ-25"C

u.. 2000

V

100
0.1

0.4

1.0

10

~
40

80 100

REVERSE VOLTAGE, VOLTS

-105-

INsBMIr

MBR1550CT AND MBR1560CT
SCHOTTKY RECTIFIER

VOLTAGE RANGE - 50 and 60 Volts

CURRENT - 15.0 Amperes
FEATURES

+ Plastic package has Underwriters Laboratory
Flammability Classifications 94V-0

~:m~u~~
.../ _.05511.40)
-r---..,...-+- :omr:m

.15013~8lJp

.1]0 lih~) _

1i==='11
1

P~H 3

.640 (1626)
.620 [15.75)

~

1

ft

!

r

:I4Ol3.56i

" :~~~ ~:~:~
.. -+, ,·mlm)

.02210.56) ..
.0141O.36J

t

1

.

.575 U4.611

.360(9.14)
.32010.l3)

J.J6~ 129.54)
1.10 128.02)
.5601124.22)
[ .530It 46 )

.1Siii4.OCi

I
1

.600115.24)

1....

I'"

.11012.79)
.09012.29)

+ 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
+ Guardring for transient protection

MECHANICAL DATA

I.)

- - - .19014.83J
~

(CRSE POSITIVE) PIN1+~PI~2
STRNDARD POLARITY PIN 3-0CASE

Case: JEOEC TO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208

Dimensions in inches
and
(millimeters)

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 Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc=105°C
Peak Repetttive Forward Current (Rated VR, Sq. Wave,
20KHz) at Tc=1 05°C
Peak Forward Surge Current, 8.3ms single hall sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Maximum Instantaneous Forward Voltage
IF=7.5A,Tc=2SoC (NOTE 2)
per leg
IF=7.5A, Tc=125°C
Maximum Instantaneous Reverse Current at Rated
DC Blocking Voltage per element
Tc=25°C
Tc=125°C
Voltage Rate of Change (Rated VR)
Typical Thermal Resistance per element (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1. Thermal Resistance from Junction to Case per element.
2. Pulse Test: 300(lS Pulse Width. 2% Duty Factor.
3. 2.0(lS Pulse Width, f=1.0KHz.
-106-

SYMBOLS

MBR1550CT

MBR1560CT

UNITS

VRRM
VRWM
VDC

50
50
50

60
60
60

Volts
Volts
Volts

I(AV)

15.0

Amps

IFRM

15.0

Amps

IFSM
IRRM

150.0
0.5

Amps
Amps

VF

0.75
0.65

Volts

IR
dv/dt

R8JC
TJ
TSTG

1.0
50.0
1000
3.0
-65 to +150
-65 to +175

rnA
Vl(ls

°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURYES MBR1550CT AND MBR1560CT

FIG. 2 • MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
'60
'40

W

,..:

~

a:
a:
::.
u

FIG. 1 -

FORWARD CURRENT DERATING CURVE

"-

a:CL

O~

w

~r\

80

40

W

>

'00

" ..........

60

50

40,

5

10

20

'""
50

NUMBER OF CYCLES AT 60Hz

FIG. 4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG
,SO

'00

........

60

r\

<

1'-.....

CL

1\ ~

C)

<
a:

«
;;:,..:
a:z
OW
,,-a:
:.:a:
<::.
wU

'60

OCl)

a: W
~ ffj'20
"-

'20

Oil.

a:::;

20.0

T...T.rrnax.

" ""

C)CI)

a:w
::.a:
Cl)W

8.31118 SINGLE HALF SINE WAVE
PER LEG (JEDEC METHOD)

r--..

50

f-

CASE TEMPERATURE. ·C

Z

w
a:
a:

./

lL

::.
U
0

'0

a:

~ffl

FIG. 3 - MAXIMUM REVERSE
CHARACTERISTICS

/

OW
"-CL

'0

CI)::;

~

T,='5O" C

1..,..000"

--

f

a: a:

::.<
0

....

j

, 0

W
Z

<
f-

~ ~C='2S· C

,

Z

<
f-

CI)

~

0'

lL

.2

2% Duty Cycle

.3

.4

.5

.6

.7

.8

.9

1.0

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

1/ ~

,

.1

Tj=2S·C
PULSE WIDTH = 300 M' -

-'FIG. 5· TYPICAL JUNCTION CAPACITANCE PER LEG
4000

Ttl - 7SO C

u. 2000
c.

./

V

,

~

W

"'T, = 2S· C

~ 1000

«

800

<{

600
400

6
CL

<
U

/
.00

,

o

V
20

40

60

60

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

ITJ=12S1~1-+

r-. r-.

f= 1MHz
Vsig = 50mVp-p

....... ,

200

,..

'00

0'

04

, 0

'0

40

REVERSE VOLTAGE. VOLTS

·107-

I~

80 100

MBRF1635 AND MBRF1645
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 16.0Amperes
FEATURES
ITO-220

.13 •• 008
(3.3 '0.2)

MAX.,
1,.405
110.3)

I

r

.I5h .008
H • 02) ~ ,.189 MAX.
I
(4.B)

,.lon.OOB
(2.7 t 0.2)

• 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
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS

MECHANICAL DATA
PINl~
PIN2~

STANDARD POLAR lTY

Dimensions in inches and (millimeters)

case: ITO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any Mounting Torque: 5 in. -Ibs. max.
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 Reverse Vokage
Maximim Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc= 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 (NOTE 2)
Voltage Rate of Change at (Rated VR)
Maximum Instantaneous Forward Voltage at
(NOTE 1)
IF=16A, Tc=125°C
IF= 16A, Tc= 25°C
Maximum Instantaneous Reverse Current
Tc=125°C
at Peak Reverse Voltage (NOTE 1)
Tc=25°C
Typical Thermal Resistance, Junction to Case
Operating Junction Temperature Range
Storage Temperature Range
NOTES:

1. Pulse Test: 3001'5 Pulse Width, 2%Duty Cycle.
2.2.01'5 Pulse Width, 1.0 KHz.
-108-

SYMBOLS

MBRFI635

MBRFI645

UNITS

VRRM
VRWM
VDC

35
35
35

45
45

Voks
Voks
Volts

45

I(AV)

16.0

Amps

IFSM

32.0

Amps

IFSM
iRSM
dv/dt

150.0
1.0
1000

Amps
Amps
V/IlS

VF

0.57
0.63
40.0
0.2
2.0
-65 to +150
-65 to +175

Voks
Volts
mA

IR
RQJC
TJ
TSTG

°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBRF1635 AND MBRF1645

FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150

UJ
a:UJ
::la:
(/)UJ
00.
a:::;
««
~..:
a:Z
OUJ
LLa:
"a:
«::l
UJU

125

Cl(/)

FIG. i-FORWARD CURRENT DERATING CURVE

,
\

100
75

'"

......

100

25

,

5

UJ
a:
a:
::l
U
UJ(/)
(/)UJ
a: a:
UJUJ
>0.
UJ::;
a:«
(/)::l-'
UJ::;
Z
«
I-Z
«

Z

I
TJ'" 125°C

10

,

~~

~ffi
LLo.
(/)::;
::l«

@
Z
«
I-

-

/

1.0

Z

TJ"- 125°C

I

I'
TJ" 25°C

I

I
.1

.2

I

PULSE WIDTH = 3001-15
2% Duty Cycle

.3

.4

.5

.6

.7

.9

.8

1.0

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

."

./

FIG. 5-TYPICAL JUNCTION CAPACITANCE
5000
4000

2

~J=75OC

LL

2000

U

1000
800

a.
W

0.1

Z
«

I--

~

(3

«
0.
«

~

~
•01

/

........

./

/' 7

I

~
0.1

1.0

100

I-

~

0=
t;

~

10

50

FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

f:: TJ ~ 15O"C
..:
z

20

50

150

100

-

10

NUMBER OF CYCLES AT 60Hz

FIG.3-MAXIMUM REVERSE
CHARACTERISTICS

..

f'. ~ ~

50

UJ
a:
a:
::l
U
o
a:

.J'

..........

0.

CASE TEMPERATURE. ·C

./

8.3ms SINGLE HALF SINE WAVE
(JEDEC METHOD)

r-......

~
50

1111

T.. _T.. max.

I........ ~
20

40

U

TJ = 25°C

60

f

80

100

120

140

PERCENT OR RATED VOLTAGE PEAK
REVERSE VOLTAGE

600

,

-

.........

T...25OC
f.1.0mHz

VIIg-5OVpop

I

...... ,...

400

200
100
0.1

0.4

1.0

10

40

80100

REVERSE VOLTAGE. VOLTS

INsDMIr
-109-

MBRFl650 AND MBRF1660
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 16.0Amperes
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°C110 seconds/.25", (6.35mm) from case
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS

ITO-220

13 t .008
(3.3 to.2)

MECHANICAL DATA
PIN 1<>---"1
......4°REF.... _

PIN2~

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: 5 in. - Ibs. max.
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 Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current at Tc=125°C
Peak Repetitive Forward Current. (Square Wave,
20 KHz) at Tc= 125°C
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 2)
Voltage Rate of Change at (Rated VR)
Maximum Instantaneous Forward Voltage at
(NOTE 1)
IF=lSA, Tc=125°C
IF=16A, Tc= 25°C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage
Tc=125°C
(NOTE 1)
Tc=25°C
Typical Thermal Resistance, Junction to Case
Operating Junction Temperature Range
Storage Temperature Range
NOTES:
1. Pulse Test: 300!lS Pulse Width. 2% Duty Cycle.
2. 2.0!lS Pulse Width, 1.0 KHz.
-110-

SYMBOLS

MBRF1650

MBRF1660

VRRM
VRWM
Voc
I(Av)

50
50
50

SO
SO
SO
lS.0

UNITS
VoRs
VoRs
Volts
Amps

IFRM

32.0

Amps

IFSM
IRRM
dv/dt

150
0.5
1000

Amps
Amps
V/lJ.s

VF

0.S2
0.75

VoRs
Volts

IR

50.0
1.0
2.0
-65 to +150
-S5 to +175

mA

R8JC
TJ
TSTG

°CIW

'c
°C

RATINGS AND CHARACTERISTIC CURVES MBRF1650 AND MBRF1660

FIG. 2· MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
180

~(I)

140

a:W

T....ToImBX.

'""

:::I a:
(I)

.,:

20.0

a:
a:

18.0

Z
w

:::I

,

o

0(1)
a: ~ 12.0

~~

a:::;

12<

i\

8.0

W

~

~.,:

~

i'~

100

a:Z

12 ~

80

~O

80

~!5

,

........

........

o
o

100

50

~
1""0 ...

40

1

10

20

50

100-

NUMBER OF CYCLES AT 60Hz

\

4.0

a:
W

~

~ 120

~~

FIG. 1-FORWARD CURRENT DERATING CURVE

8.3.. SINGLE HAlF SINE WAVE
(JEDEC METHOD)

"-

FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

150

I-

CASE TEMPERATURE,·C

50

Z

/

W

a:
a:

/'

:::I

o
o

10

a:

~ffl

FIG. '3-TYPICAL REVERSE
CHARACTERISTICS

I

~ffi

10

f

"-0..

I

(I)::;

-

5<

-T,'15O"C

1.0

W

Z

~~

<

!z'
<

.",.,- ---;01= =125° C

I

I(I)

II

~
O•1
.2

./

T" '" 75°9.
1

T, - 25°C

"

.8

.7

.8

u. 2000

,J

1.0

uj

~

T,: ~od
f = .1MHz

.........!--or-.

Co

I

Vsig "" 5OmVp-p

1000

~800

0

<

0..

800
400

(3

V

........
200

40

.9

FIG. 5-TYPICAL JUNCTION CAPACITANCE

,
20

.5

4000

1

.001

.4

3OO~s

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

,

./

.3

TJ" 25°C
PULSE WIDTH"
2% Duty Cycle

80

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

1""0

100
0.1

OA

1.0

4

10

40

80100

REVERSE VOLTAGE, VOLTS

·111·

I~

MBR1635 AND MBR1645
SCHOTIKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 16.0 Amperes
FEATURES
TO-220

~

.15013.81)
.13013.30)

-fr

.36019.14)
.32018.131

~

.16014.06)
•• 05511.40)
.04511.14)

W

.60011.24)
.575 !l4.611

1

~

3129.54)1
3128.02)

I··~m
.530It 46)

+11·:m~::;~

_ _ .210(5.33)
.190(4.83)

.~.

.01410.36)

II~

• 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", (S.3Smm) from case
• Guardring for transient protection

MECHANICAL DATA
.11012.79)
.090(2.29)

(CASE POSITIVE) PIN 1 + <>----'J...:.
STANDARD POLARITY PIN 2 - ~CIiSE

Dimensions in inches and (millimetefs)

case: JEDEC 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 load, derate current by 20%.
SYMBOLS

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc-125°C
Peak Repetitive Forward Current, (Rated VR, Sq. Wave
20 KHz) at Tc-125°C
Peak Forward Surge Current
8.3ms s:ngle haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 2)
Voltage Rate of Change, (rated VR)
Maximum Instantaneous Forward Voltage (NOTE 1)
IF= 16A, Tc= 25°C
IF=16A, Tc-125°C
Maximum Instantaneous Reverse Current at
Peak Reverse Voltage
Tc=25°C
(NOTE 1)
Tc=125°C
Maximum Thermal Resistance (NOTE 3)
Operating Junction Temperature Range
Storage Temperature Range
NOTES:

1. Pulse Test Pulse Width 300I'S, Duty Cycle 2%.
2. 2.01'S Pulse Width. 1.0 KHz.
3. Thermal Resistance from Junction to Case.
-112-

VRRM
VRWM
Voo

MBR164S
45
45
45

MBR163S
35
35
35

UNITS
VoHs
VoHs
Volts

I(AV)

16.0

Amps

IFRM

32.0

Amps

IFSM
IRRM
dv/dt

150.0
1.0
1000

Amps
Amps
V/jlS

VF

0.63
0.57

VoHs

IR

0.2
40.0
1.5
-65 to +150
-65 to +175

rnA

R8JC
TJ
TSTG

°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBR1635 AND MBR1645

FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
150

FIG. 1 -

UJ
(!JII)
a:UJ
::I
a:
II)UJ
00.
a:::E

FORWARD CURRENT DERATING CURVE

,

125
100

""'"

..........

.........

a:Z
OUJ
LLa:

50

<::I
UJO

26

~a:

50

5

\

100

1

0.

10

20

100

50

NUMBER OF CYCLES AT 60Hz

~

0

I I I

r--... r--. i"'oo

~t-="

~
4

...

75

«

I

T,- T,":"

8.3mo SINGLE HALF SINE WAVE
(JEDEC METHOD)

FIG.4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS
50

150

fZ

CASE TEMPERATURE, ·C

UJ
a:
a:

o

10

o

.......

~

I
TJ = 125°C

::I

~

V

a:

~ffl

FIG. 3 - MAXIMUM REVERSE
CHARACTERISTICS

II

!§ffi
LLo.

100

11):;
::1<
@

=

TJ· 150"C

.",.

~

V

r--

/

1.0

Z
Z

g

I

I

~
0.1

~

LL

Co

2000

ui
0

L....... ~
20

40

80

-

80

100

PERCENT OF RATED PEAK
REVERSE VOLTAGE

Z

1000
800

(3

600

<
f-

<
0.
<
0

=25"C

r

l

FIG. 5 -

~ ~J.75°C

.0 1

.2

PULSE WIDTH = 300 ,",8

2% Duty Cycle

.3

.4

.5

.6

.8

.7

.9

1.0

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS
5000
4000

TJ

I

I
.1

... i""'"

TJ=2SoC

<
f-

TJ = 125°C

/

/

II

120

140

--

TYPICAL JUNCTION CAPACITANCE

r--. "'1"-

T,025'C

1-1.0 MHz
Vlig_6OmVp-p

.......

400

1'1"-

200

100
0.1

0.4

1.0

10

40

80 100

REVERSE VOLTAGE, VOLTS

I~
-113-

MBR1650 AND MBR1660
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 16.0 Amperes
FEATURES
TO-220
..illJi.lill

I ..

~II~
05511.40)
,..-_--:--+_- .04511.14)

I

PI"

1

.150(3:8llj
.110(1~) _
.600(1.24)
ft
.575 [14.&ll
.3&0 [9.14)

1

P~N 16~~;:;T) (2~-,",~:;-;):.:8i.·I31_,'n"''i-_~_
1.163

~

1.103 (28.02)

1.560 [124.22)

-t

-+1 I·:m ~:::l

_ _ .210(5.33)
.190 (4.83)

.S3°T·

-

46 )

.022[0.56):11"
.014(0.36) -

• 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:
2S0°C/10 seconds/.2S", (6.3Smm) from case
• Guardring for transient protection

MECHANICAL DATA

.110[2.79)

.090(2.29)

[CASE POSITIVE)
PIN l + O - - U
STANDARD POLARITY PIN 2 - <>---+f--lCASE

Dimensions in inches and (millimeters)

Case:JEOEC TO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any
Weight: .08 ounces, 2.24 gram

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambienltemperature unless otherwise specified.
Resistive or inductive load.
For capacitive or inductive load, derate current by 20%.
Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc=125°C
Peak Repetitive Forw1i\rd Current (Rated VA, Sq. Wave,
20 KHz) at Tc=125°C
Peak Forward Surge Current, 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Pead Repetitive Reverse SurgeCurrent (NOTE 3)
Maximum Instantaneous Forward Voltage
Per leg
IF=16A, Tc = 25°C
IF= 16A, Tc= 125°C (NOTE 2)
Maximum Instantaneous Reverse Current at Tc= 25°C
Rated DC Blocking Voltage
Tc=125°C
Voltage Rate of Change (Rated VA)
Maximum Typical Thermal Resistance (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES:

1. Thermal Resistance from Junction to Case.
2. Pulse Test: 300j.lS Pulse Width. 2% Duty Factor.
3. 2.0j.lS Pulse Width, 1=1.0 KHz.
-114-

SYMBOLS

MBR1650

MBR1660

VAAM
VAWM
Voc

50
50
50

60
60
60

UNITS
Volts
Volts
Volts

ICAV}

16.0

Amps

IFAM

32.0

Amps

IFsM
IAAM

150.0
0.5

Amps
Amps

VF

0.75
0.65
1.0
50.0
1000
3.0
-65 to +150
-65 to +150

Volts

IA
dv/dt

R8JC
TJ
TSTG

mA

V/p..s
°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBR1650 AND MBR1660

FIG. 2· MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT
160

FIG. 1 -

~

FORWARD CURRENT DERATING CURVE

,

20.0

W

a:
a:
::> 16.0
o
Oe/)
a: w 12.0

wO
11.

\

~~

f2 ~

W
CJe/)
a:W
::>a:
e/)W
011.
a:::;:

.......

80

i""'o~i"o
1

10

50

20

100

NUMBER OF CYCLES AT 60Hz
40

\

a:
W

~

100

50

FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS

150

IZ

CASE TEMPERATURE, °C

50

1/

W

a:
a:
::>

o

o
a:

1.0

0=

/

u.~

-

e/)::;:
::><

o

I

1.0

W

Z

I-"""

<

,

1-.
Z

".. ~J_=125OC

«

l-

e/)
~

0

We/)
e/)W
a: a:
Ww
>11.
W::;:
a:<
e/)::>....1
W::;:
Z
<
IZ
<
le/)

,

~ffl

~ T,.~ 150°C

~

10

Oa:

10

Z
W
a:
a:
::>

/

<

FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS

~

~

40

W

~

......

60

01
2

T.. '" 75°C

./

0.1

./

TJ

/

.4

.5.6

.8

9

1.0

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

"

FIG. 5 -

,

=25°C

.3

TJ = 25 c C
PULSE WIDTH'" 300.u s
2% Duty Cycle

~

TYPICAL JUNCTION CAPACITANCE

~J~J50~ III

1-- 1'--1"-

f =.lMHz
Vsig '" 50mVp-p

.01

,
001

........ ~

V
o

20

40

60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

I"i"o
100
0.1

0.4

1.0

10

40

80 100

REVERSE VOLTAGE, VOLTS

·115·

IN~

SBLF1630CT AND SBLF1640CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE ~ 30 and 40 Volts CURRENT - 16.0 Amperes
FEATURES
ITO-220CT

r

.158t.008

13 '.008
(3.3tO.2J

MAX"j
/ ,.405
(103J

u . 02J 1+-+ ,.189

!i
..,.'v..,. .d

"'-y~

I.

MAX.

(4.8J

MAX.

(17J

.103 MAX.

(2.6J

t·

1 piN 3

..L~I

(0.75 t gj)

:!~--

'! I'! .5312i MIN.
, I. i 1---m:5J

.051t.00B I',
(1.3'0.2J
I"

.029 ~:gga

1

-

:.. :.. :Ll:!.S4

0.107 LOOS
12.7 t 0.2J

~
4.RH.
.02B 008.1"
.". ...
... .... (0.7 :to.2)

• Isolated Plastic Package has Underwriters Flammability Classification 94V-O
• Isolated overmolded package
• 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", (S.3Smm) from case
• Guardring for transient protection
• Internal Insulation: 1.SK VRMS

MECHANICAL DATA

t.

""tpllJJ
J

......4°REF.......

PINl-~N2

PIN

3-~ -+

STANDAR 0 POLAR ITY

Dimensions in inches
and
(millimeters)

case: ITO-220 Fully Overmolded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: Sin. - Ibs. max.
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

VRRM

SBLF1630CT
30

SBLFI640CT
40

UNITS
Volts

Maximum RMS Voltage
Maximum DC Blocking Voltage

VRMS
Voc

21
30

28

Volts
Volts

SYMBOLS

Maximum Average Forward Rectified Current
at Tc = 95'C
Peak Forward Surge Current, 8.3ms single half sine·
wave superimposed on rated load (JEDEC Method)
Maximum Instantaneous Forward Voltage
per leg IF = S.OA (NOTE 2)
Maximum Instantaneous 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

!rAV)

16.0

Amps

IFSM

250.0

Amps

VF

0.55
0.5
50.0
2.2
·40 to +125

Volts

IR
R8JC
TJ,TsTG

NOTES:
1. Thermal Resistance from Junction to Case per element.
2 Pulse Test: 300 lIS Pulse Width, 2% Duty Factor.

-116-

40

mA

·CIW
·C

RATINGS AND CHARACTERISTIC CURVES SBLF1630CT AND SBLF1640CT

FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEO

....z

300

a:
a:

250

w

8.3ma SINGLE HALF SINE WAVE
PER LEG (JEDEC METHOD)

;;>

o

~

,

20.0

16.0

12.0

~~
~<

,........

~

100

~

50

'"<

0

W

o

50

10

,

r--.... ..... ~

20

50

100

FIG. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG
150

100

........

NUMBER OF CYCLES AT 60 Hz

~

o

.....

Q.

\

4.0

''''

a:

1\

8.0

200

U)

a:W
::>a:
rn w 150

FIG. 1-FORWARD CURRENT DERATING CURVE

T...TJmalC.

....-

CASE TEMPERATURE. ·C

100 ,

Z

w

a:
a:
::>

o

~

./

10

o

/

a:

~~

FlO. 3 - TYPICAL
REVERSE CHARACTERISTICS

a: a:

Ow

100

LL.Q.

oo:;

:l 

T, ~ 100~
10

>=
Z

V

<
r-

o
w",
"'w
a: a:

~

Ww

111

8

.7

FIO.5-TYPICAL JUNCTION CAPACITANCE PER LEG
4000

filS

z
z>=

0.1

'"Z

"- 2000

25'C--=

0

Z

<

0

<
<

Q.

./

1000
800
600

~

II
25,Ic I I

f = 1MHz

-"'"

W

t:

Vsig = 50mVp-p

400

0

200
0.01

o

I

T,

LL.

II"

K-

.9

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

k"'" i"""T,~75'C

W:; 1.0

a:<
"'::;
::> ....

o.

TJ - 25 0 C
PULSE WIDTH = 300 P.s
2% Duty Cycle

.2.3.4.56

~

>Q.

~

1.

OO

z

~

~

00

~

100

PERCENT OF RATED PEAK
REVERSE VOLTAGE

1~

1~

I
I

100 I
0.1

0.4

1.0

4

10

REVERSE VOLTAGE. VOLTS

-117-

40

80 1 00

SBL1630CT AND SBL1640CT
SCHOTIKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts CURRENT -16.0 Amperes
FEATURES
TO-220CT

•

190(483)
1r160 (4:06)
....1 • . 055 (1.40)
.ij~5 (U;U

.150 (3.8U
.13013.30)

Tr )

.640 (16.26)
.620(15.15)

!
IP~N3 ~l ~
3 (29.54) i
~
t

1.10 3 (28.02)

l"·~·';;
''''''.~,

1+' ,·:~m~:::~
..j

,0221.56)"
.014 CO. 36)

• •.~~~ (~.6II
(.4

+--+ .210(5.331

.190 (4.831

.600J5.24)
.515 (14.61)

.360 (9.14)
.320 (8.13)

(CRSE POSITIVE 1

'J-.

1

.025

4-

.110(2.19)
.090 (2.291

PINl_~PI~2

STRNDRRD POLRRITY PIN 3-

CRSE

• 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°Cf10 secondsf.25", (6.35mm) from case
• Guardring for transient protection

MECHANICAL DATA
Case: JEDEC TO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208
Polarity: As marked
Mounting Posit/on: Any
Weight: .08 ounces, 2.24 gram

CROSS REFERENCE GUIDE

Dimensions in inches and (millimeters)
GI
SBL1640CT

FUJI

SHINDENGEN

ESAD82-004

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
at Tc = 95°C
Peak Forward Surge Current, 8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
per leg IF=8.0A (NOTE 2)
Maximum Instantaneous Reverse Current at Tc= 25°C
Rated DC Blocking Voltage per element
Tc=100°C
Typical Thermal Resistance per element (NOTE 1)
Operating and Storage Temperature Range

NOTES:
1. Thermal Resistance from Junction to Case per element.
2 Pulse Test: 300IJS Pulse Width, 2% Duty Factor.

-118-

SYMBOLS

SBL1630CT

VRRM
VRMS

30
21

Voc

30

SBL1640CT
40

UNITS

28

Volts
Volts

40

Volts

ICAV)

16.0

Amps

IFSM

250.0

Amps

VF

Volts

IR
R8JC

0 .. 55
0.5
50.0
3.0

TJ,TsTG

-40 to +125

rnA
°CIW
°C

RATINGS AND CHARACTERISTIC CURVES SBL 1630CT AND SBL 1640CT

FIG. 2 • MAXIMUM NON-REPmTlVE PEAK
FORWARD SURGE CURRENT PER LEG
300

a.3mo SINGLE HALF SINE WAVE
PER LEG (JEDEC METHOD)

250

W

!i

!

a::~

150

,

20.0

16.0

~W 12.0
8.0

~a
Q.

o

50

100

'"

T...,T.. max.

I"~

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

50

0,

i\

4.0

o

~.,:

a::z
OW
1La::
:.:a::

\

a::Q.

~~

200

..,w
oil.

FIG. 1 - FORWARD CURRENT DERATING CURVE

i~

e~
W

!11m
;:)a::

100

10

5

~

....

Z
W

100

::l

(J

o

v

10

a::

~ffi
ILQ.
..,2

100

Sl <

!

""

~

I

I

1.0

TJ = 25°C
PULSE WIDTH'" 300,....

I

I

o. 1
.2

2'MI DutyCyc:le
.3

.4

'" T, • wc

.8

.7

.8

.9

F1G.5-TYPICAL JUNCTION CAPACITANCE PER LEG
4000

ILQ.

i/

/ T':"~'C..=

1

-

2000

TJ· 25'C
'-1MHz

..

W

(J

1000
800
~ 800
(3
400

Z

Vsig " 50mVp-p

~

t3

.JI'

o

.5

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

~

.0

~

~m

FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS

/

100

fig. 4-TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

150

a::
a::

"00':'"

50

20

NUMBER OF CYCLES AT 60Hz

CASE TEMPERATURE, 'C

T,

r-- ...

~

~

M

~

100

PERCENT OF RATED PEAK
REVERSE VOLTAGE

1~

1~

200

100
0.1

0.4

1.0

10

40

80100

REVERSE VOLTAGE, VOLTS

I~
·119·

MBRF2035CT AND MBRF2045CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts

CURRENT - 20.0 Amperes
FEATURES

ITO-220CT
.158' .008
.13 '.008
[3.310.21

4 ±.021 _
i ,AOSMAX."r
1
ClO.31

-!

,.189 MAX.
[4.8)

...... 107!: .008

[2.7'0.21

• 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
• Guardring 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
• Internal Insulation: 1.5k VRMS

MECHANICAL DATA
Case: ITO-220 Fully Overmolded Plastic
Terminals: Leads Solderable per MIL-STO-202,
Method 208
Polarity: As marked Mounting Position: Any
Mounting Torque: 5 in. - Ibs. max.
Weight: .08 ounces, 2.24 gram

PINl-~2

+

PIN3-~
STANDARD POLARITY
[POSITIVE CIl

Dimensions in inches and (millimeters)

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambientlemperature 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
at Tc=135°C
Peak Repetitive Forward Current per diode leg
(Rated VR, Sq. wave, 2.0KHz) 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 (NOTE 3)

SYMBOLS

MBRF2035CT

VRRM
VRWM
Voc

35
35

AfBRF2045CT
45
45

UNITS
Volts
Volts

35

45

vons

I(AV)

20.0

Amps

IFRM

20.0

Amps

IFSM

150.0
1.0

Amps

IRRM

Maximum Instantaneous
Forward Voltage Per Leg

IF= lOA, Tc = 125°C
IF= 20A, Tc=25°C
IF= 20A, Tc=125°C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Vonage per element Tc = 25°C
Tc =125°C
Voltage Rate of Change (Rated VR)
Typical Thermal Resistance per element (NOTE 1)

(NOTE 2)

Operating Junction Temperature Range
Storage Temperature Range

NOTES: I.Thermal Resistance lrom Junction to Case per element.
2. Pulse Test: 300IJ.S Pulse Width, 2% Duty Factor.
3. 2.01J.S Pulse Width,l= I KHz.
-120-

VF

0.57
0.84
0.72

Amps

Volts

IR

0.1
25.0

mA

dv/dt

1000

R9JC

V/IJ.S
°CIW

TJ

2.2
-65 to +150

TSTG

-65 to +175

°C
°C

RATINGS AND CHARACTERISTIC CURVES MBRF2035CT AND MBRF2045CT

FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
160

20.0

,

::>
()

16.0

II:
II:

« ffi
~a.

12.0

<{

8.0

UJ

100

'5:,..:
~m

80

~~
<>.

~IN~ JAl

I'-... .......

T"..TJmax.

~~

""

~

.......

60

........ ....
... ",

40
1

~

UJ

~
II:

~~

SI~GLE

8.3ms
HLF
PER LEG (JEDEC METHDDl_

"0::

~

II:::<

120

cnw

\

O(/)
II:UJ

~ ......

w

a? ffi

:ocr:

FIG. 1-FORWARD CURRENT DERATING CURVE

~
UJ

12

140

5

10

20

100

50

NUMBER OF CYCLES AT 60Hz

4.0

~

50

100

\

FIG. 4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

150

50

Z

I

UJ
II:
II:
::>
()

I

TJ = 125°C./
10

~

0
II:

~~

FIG.3- MAXIMUM REVERSE
CHARACTERISTICS

/

IL.a.
::><{

aUJ

.... ~

0

1.0

TJ = 25°C

z<{

TJ" 125°C

""""""

"

II'

I/' J

(/)::<
TJ" 150°C

"""

1.,....000'"

/

II: II:
OUJ

10 0

t=

.-.

f-

CASE TEMPERATURE. ·C

f-

"

Z

<{

/

f-

(/)

/

~
0.1
.1

t

PULSE WIDTH" 300 I-ts _
2% Duty YC1e

1

.2

.3

.4

.5

.6

.7

.8

I

.9

1.0

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

TJ = 75°C

0

FIG. 5 • TYPICAL JUNCTION CAPACITANCE PER LEG
4000

IL. 2000

~

1

/'

()

Z

<{

TJ=2SoC

>U
<{

......

a.

V
.01

/

1000
800

600
400

.........

<{
()

V
~

T....25OC
1-1.0 MHz
Vaig_50mVp-p

r---. r--I'-

a.
W

r-....

200
~

00

80

100

1~

PERCENT OF RATED PEAK
REVERSE VOLTAGE

100
0.1

0.4

1.0

10

40

80 100

REVERSE VOLTAGE. VOLTS

IN~
-121-

MBRF2050CT AND MBRF2060CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 50 and 60 Volts CURRENT - 20.0 Amperes
FEATURES
ITO-220CT

.13 •• 008

13.3 to.2l

,.107t.00B
12.7' 0.2l

• Isolated Plastic package has Underwriters
laboratory Flammability Classification 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
• Guardring for transient protection
• Internal Insulation:l.Sk VRMS

MECHANICAL DATA
PIN1-~N/

." ...4°REF......

PIN3-~
STANDARD POLARITY

Dimensions in inches and (millimeters)

Case: ITO-220 Fully Overmolded Plastic
Terminals: leads Solderable per Mll-STD- 202,
Method 208
Polarity: As marked
MOunting Position: Any Mounting Torque: 5 in. - Ibs. max.
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

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc-133°C
Peak Repetitive Forward Current per leg
(Rated VR,Sq. wave, 2.0 KHz) at Tc=133°C
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Maximum Instantaneous
IF=10A, Tc=25°C
Forward Voltage
IF= lOA, Tc= 125°C
per leg (NOTE 2)
IF= 20A, Tc= 25°C
IF- 20A, Tc= 125°C
M!IJ(imum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element Tc = 25°C
Tc = 125°C
Voltage Rate of Change (Rated VR)
Typical Thermal Resistance per element (NOTE I)
Operating Junction Temperature Range
Storage Temperature Range

VRRM
VRWM
Voc

60
60
60

UNITS

Volts
Volts
Volts

20.0

Amps

IFRM

20.0

Amps

IFSM
IRRM

150.0
1.0
0.80
0.70
0.95
0.85

Amps
Amps

0.15
150.0
1000
2.2
-65 to +150
-65 to +175

mA

IR
dv/dt
R8JC
TJ
TSTG

-122-

50
50
50

I(AV)

VF

NOTES: I.Thermal Resistance from Junction to Case per element.
2. Pulse Test: 300j.lS Pulse Width, 2% Duty Factor.
3. 2.0j.lS Pulse Width,f= 1 KHz.

MBRF2050CT MBRF2060CT

Volts

V/J.lS

°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBRF2050CT AND MBRF2060CT

FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
160

~ en

140

a:W
::>a:

FIG. 1-FORWARD CURRENT DERATING CURVE

!i

1\

W

16.0

~ ffi

12.0

\

o

c(a:

~~

l2 ~

B.O

120

3:..,:

100

~~

20.0

a:
II:
::>

~~

_.

o

o

50

100

~:f

80

a.

60

~5

,

r......

r--""

--

10

II:
a:
::>

~

W

TJ
10

aW

C

'/

~

"""

"'"

1.0

TJ = 25" C

Z

t!'Z

~ """

~~

I

/

i'

PULSE WIDTH

.2

.3

.4

.5

.6

=:

300

,...s

DUlY, CYCle,

.7

.6

.9

1.0

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS
FIO.S.TYPICAL JUNCTION CAPACITANCE PER LEG
4000

~

0.1

I

I

TJ = 75° C

~~
gJ3

~

100

/'1'

u.~

en::;:

::>c(

M:lffi

c(

1-0

50

~en

a: W
Oa:

0.1. 1

fil~
z

125°C/

=

a:

o

ffiffi 1.0 I
>11.

20

Z

,...
1250

r-......

f-

100

-

........

50

150

FIG. 3 -MAXIMUM REVERSE
CHARACTERISTICS

TJ

T....T.. max.

...

FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

0
0

..-""

~

NUMBER OF CYCLES AT 60Hz

a:
a:
::>

150" C

"'- ......

10

CASE TEMPERATURE. 'C

f--T,

II

Hk ~'N~ wiv~

B.3mo SIJGLE
PER LEG (JEOEC METHOD);

a:Z
OW

\

4.0

!iW

"-........

V

~

,

TJ

'a,

~

= 25" C

V

W

0

Z

1000
600

0

600
400

~

,

~

2000

c(

a.
c(

I II

-

-~

Vsig 7 50mVp-p

.......
~

200
20

40

60

60

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

I I

f = 1MHz

0

.01 0

I

j

TJ = 25° C

140
100
0.1

0.4

1.0

10

40

60 100

REVERSE VOLTAGE. VOLTS

-123-

IN~

MBRF2090CT AND MBRF20100CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE -90 and 100 Volts CURRENT - 20.0 Amperes
FEATURES
ITO-220CT
.1581.008

.

11

1,.405 MAX., (41.02))...;-;1,,;3o;t·ifOO~8......... i-'(,-,,10....~3)'-i.h_
I
(3.3 to.2)

.+.+~
.

.103 MAX.

1 piN 3

~
.051

.

t.o1; Ii, I !I

~-'--III·

(1.30~42),

.029!:008

(0.75t8:~)

,

(17)

,.189 MAX.
(4.8)

-

1

:r:
--

1+1 1--m:sJ
'.531 MIN.

'":

.. ,.10H.008
(2.7' 0.2)

2.54

~
4° REF.
.028 •• 008., +
.". ....
.". .. lO.7!O.2J
"" ''I',.Ill
.".. ..4°REF.......

PIN1-~2

PIN 3-~~
STANDARD POLARITY

Dimensions in inches and(millimeters)

• 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
• Guardring for transient protection
• Internal Insulation: 1.5k VRMS
• High temperature soldering guaranteed:
250°C/10 seconds/.25"(6.35mm)

MECHANICAL DATA
case: ITO-220 Molded Plastic
Terminals: Leads Solderable per MIL-STD-202,
Method 208
Polarity: As marked Mounting POSition: Any
Mounting Torque: 5 in. - Ibs. max.
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 Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectffied Current at Tc= 133°C
Peak Repetitive Forward Current, per leg
(Square Wave 20 KHz) at Tc=133°C
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Voltage Rate of Change, (rated VR)
Maximum Instantaneous
IF= lOA, Tc= 25°C
Forward Vottage per leg
IF= lOA, Tc= 125°C
(NOTE 2)
IF= 20A, Tc=25°C
IF= 20A, Tc= 125°C
Maximum Instantaneous Reverse Current Tc=25°C
at Rated DC BLocking Vottage (NOTE 2)
Tc=125°C
Typical Thermal Resistance per element (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES:
l.Thermal Resistance from Junction to Case per element.
2. Pulse Test: Pulse Width 300 JlS, Duty Cycle 2%.
3. 2.0 JlS Pulse Width, f=I.0 KHz.

-124-

20.0

UNITS
Volts
Volts
Votts
Amps

IFSM

20.0

Amps

IFSM
IRSM
dv/dt

150.0
0.5
1000
0.80
0.70
0.95
0.85
0.15
150.0
2.2
-65 to +150
-65 to +175

Amps
Amps
VlIlS

SYMBOLS

MBRF2090CT

MBRF20tOOCT

VRRM
VRWM
Voc
I(AV)

90
90
90

100
100
100

VF
IR
R8JC
TJ
TSTG

Volts
mA
°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBRF2090CT AND MBRF20100CT

FIG. 2 - MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
175

W
Cl",
a:W
:>a:
(J)W
0<>'
a::2'
««

FIG. 1-FORWARD CURRENT DERATING CURVE

..:
z

W
a:
a:
:>
C,)
O(J)
a: W
«a:
:;:W
a:<>'
0::'
u.«
W
Cl
«
a:
W
>
«

20

\

16

150

125

100

a:Z
OW
u.a:
",a:
«:>
wC,)
<>.

\

i'

25
1

5

10

20

50

100

NUMBER OF CYCLES AT 60Hz

FIG. 4 - TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

Z

150

100

.........

50

I50

,

75

\,

o

per leg

..... r-.~

:;:..:

12

o

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

8.3m. SINGLE HALF SINE WAVE
PER LEG (JEDEC METHOD)
TJ-TJmax.

W

10

a:
a:
C,)

CASE TEMPERATURE, °C

:>

o
a:
«

/

~ffJ

u.<>.
(J):2'
:>«

100

-.:

W
a:
a:
:>
C,)
W(J)
(J)W
a: a:
Ww
><>.

M!~
(J)-

10

I

oW
Z

..:
z

i

.1

I-

,

Z

«

T, ~ 125' C

TJ "25°C

I-

(J)

.."". ~

I

.01

V

~

I
.3

.4

.5

I~.7

.8

.9

WC

FIG. 5 - TYPICAL JUNCTION CAPACITANCE PER LEG
4000

:>...J
W::.
Z
«
IZ
«
I(J)

0=

.L.

u.

2000

ui
C,)
Z
«

1000
800

a.

~
TJ

25 0 C

~

l-

t)

.01

.6

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

.",
'T,

PULSE WIDTH = 300j.1s
2% DUTY CYCLE

I

Z
.2

1.0

I

I

offi

FIG. 3- TYPICAL REVERSE
CHARACTERISTICS

...,.

P8'1og

Vw

«
<>.
«
C,)

./

-

-I"-

III
T J = 25 0 C

1
1.0 MHz
V sig = 50mVp-p

600
400

I'

200
~

00

00

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

1~

100

0.1

0.4

1.0

10

40

80 100

REVERSE VOLTAGE. VOLTS

-125-

IN_MIt

I

MBR2035CT AND MBR2045CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts CURRENT - 20.0 Amperes
FEATURES
• Plastic Package has Underwriters Laboratory
Flammability Classification 94V-O
:m~Ull • Metal to silicon rectifier,
majority carrier con,.420110.67),
.155
(3.94) OIA •...,r-_.,.-t.:-+:~I~'j·[j05~5
(~1~.40l!t
.380(9.65)
.145.--+t-IcAsE

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 Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc-133·C
Peak Repetitive Forward Current per leg (Rated VR.
Sq. wave. 2.0 KHz) at Tc-133° C
Peak Forward Surge Current 8.3ms single half sinewave superimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Maximum Instantaneous
IF 10A,Tc=25°C
Forward Voltage per leg
IF=10A, Tc~ 125·C
(NOTE 2)
IF=o20A, Tc=25°C
IF=20A. Tc= 125·C
Maximum Instantaneous Reverse Current at
Rated DC Blocking Voltage per element
Tc=25·C
Tc= 125·C
Voltage Rate of Change (Rated VR)
Maximum Thermal Resistance per element (NOTE 1)
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1. Thermal Resistance from Junction to Case per element.
2. Pulse Test: 300 lIS Pulse Width. 2% Duty Factor.
3. 2.0 lIS. Pule Width. f= 1 KHz.

-128-

SYMBOLS

MBR20SOCT

MBR2060CT

UNITS

VRRM
VRWM
Voc

50
50
50

60
60
60

Volts
Volts
Volts

I(AV)

20.0

Amps

IFRM

20.0

Amps

IFSM:
IRRM

150.0
0.5
0.80
0.70
0.95
0.85

Amps
Amps

0.15
150.0
1000
2.0
-65 to +150
-65 to +175

mA

VF
IR
dv/dt
R8JC
TJ
TSTG

Volts

V/JlS
·CIW
·C
·C

RATINGS AND CHARACTERISTIC CURVES MBR2050CT AND MBR2060CT

FIG 3 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT

!i

160

w
a:

140

a:

FIG 1 • FORWARO CURRENT DERATING CURVE

~

20.0

~

16.0

~
::>

12.0

~

!i

~
~

w

o

~~

100

o

60

100

.... ~

~

~

2

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

60

I"""

~

,

~

SINGlEIH~F

B.3...
SINE·WAVE
JEDEC METHOD

«« 60

W
Q.

40

1.0

~

4.0

w

" ....... ......

120

a:w

~ffi

\

6.0

~

(!lUI

~

o

~

aw

10

20

FIG 4 • TYPICAL REVERSE
CHARACTERISTICS

a:
a:

::>

......

T.... 125"C

10.0

./ ~ ~

()

c

a:
~UI
a:tl!
OW
LLQ.

100

FT...,50'C
!i

w
a:
a:

TJ.125"C

:.,......

10

,.,..,..

::>« 1.0
0
w

---:l r-

T....25°0

L

UI

;!!;
0.1

/
~

i

(r

I

U

M

M

PULSE WI TH.300~s
ClE
2% UTY

u

U

U

M

~

U

INSTANTANEOUS FORWARD VOLTAGE, VOLTS
T....75°0

~

1.0

FIG 5· TYPICAL JUNCTION CAPACITANCE

UI ....

4000

::> ....

. ~:!

~
~
;!!;

II

~

;5

0

a:,s

---

Z

::>
wUl
Ulw
a:a:
Ww
>Q.
w:;;

,
III

UI:;;

..-

100

60

!iw

FIG 2 • MAXIMUM REVERSE
CHARACTERISTICS

60

NUMBER OF CYCLES AT 60 Hz

160

CASE TEMPERATURE: C

5.0

2.0

,..
V
0.1

T.,..25°C

-,'"

-/

LL
0

2000

u.i

0

1000

~

600

«
Q.
~

400

Z

0

-r-

T".25°0
f.l.0MHz
Vslg.5OmVp-p

"'1-0

600

I........

200

.01

o

20

40

60

60

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

100
0.1

0.4

1.0

10

......
40

60 100

REVERSE VOLTAGE: VOLTS

INSTHMIr
·129·

MBR2090CT AND MBR20100CT
SCHOTTKY RECTIFIER
VOLTAGE RANGE -90 and 100 Volts CURRENT - 20.0 Amperes
FEATURES
TO-220CT
.19014.83)

~ :IGOi4"]6i

...1 ' .055(1.40)

-r':-}l-g-~t:-:t-~lt-~-~ .~::[4:
.640 (16.26)
.620 (15.75)
PIN
2

.6~

~
"11·:m~:::l
+
·:m~m:
~

.190 [4.83)

1

n

W:s75U4.ffi

.36019.14)
•320

t.13J

!

1

1

1163 (29.54)
1.103 (28.02)
.560 [124.22)
.530

[t46)

• 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
• Guardring for transient protection
• High temperature soldering guaranteed: 250°C/l0
secondsl.25"(6.35mm) from case

MECHANICAL DATA

.022 CO.56).I.. .110 [2.79)
.014[0.36) - .090(2.29)

PIN2
(CASE POSITIVE! PIN 1-~
STANDARD POLARITY PIN 3-o-+f-1CAsE

Dimensions in inches and (millimeters)

case: JEDEC 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 load, derate current by 20%.

Maximum Recurrent Peak Reverse Voltage
Maximum Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
atTc-133°C
Peak Repetitive Forward Current, per leg
(Square Wave 20 KHz) at Tc=133°C
Peak Forward Surge Current
8.3ms single haH sine-wave superimposed
on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current
(2.0(.1s Pulse Width, 1 KHz)
Voltage Rate of Change, (rated VR)
Maximum Instnataneous
IF= lOA, Tc= 25°C
Forward Voltage
IF= lOA, Tc- 125°C
(NOTE 1)
IFa 20A, Tc- 125°C
IF= 20A, Tc- 25'C
Maximum Instantaneous Reverse
Tc= 25°C (NOTE 1)
Current at rated DC Blocking Voltage Tc=125°C
Maximum Thermal Resistance, Junction to Case
Operating Junction Temperature Range
Storage Temperature Range
NOTES: 1. Pulse Test Pulse Width 300!lS. Duly Cycle 2%.
-130-

SYMBOLS

MBR2090CT

MBR20100CT

UNfTS

VRRM
VRWM
Voc

90
90
90

100
100
100

Volts
Volts
Volts

ICAV)

20.0

Amps

IFSM

20.0

Amps

IFSM

150.0

Amps

IRSM
dv/dt

0.5
1000.0
0.80
0.70
0.85
0.95
0.15
150.0
2.0
-65 to +150
-65 to +175

Amps
V/(.1S

VF
IR
IR
R8JC
TJ
TSTG

Volts
rnA
rnA
°CIW
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBR2090CT AND MBR20100CT
FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
175

"l,lTT

150

1?5

'"'~

100

-.

UJ

FIG. 1 -

FORWARD CURRENT DERATING CURVE

20

<.)

«

1\

16

OUl
II:UJ

<

<{::J
UJU
0.

,

0

50

~ ro-."",

50

I

-,

I
~

75

~II:

H

I

,

3:~

i

!

I
....
~
11
~I
I

25

2.0

1.0

5.0

1\

Cl

8.3rns SINGLE HALF SINE WAVE
PEA LEG (JEDEC METHOD)
T".T,IrTIaX.

10

20

50

100

NUMBER OF CYCLES AT 60Hz

FIG. 4 • TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

I-

Z

100

UJ
II:
II:

CASE TEMPERATURE, ·C

10

~
o
II:
<

~~
Ul::!;
::J<
o
UJ

10

Z

<

.."
~

Z
UJ
II:
II:
::J

1.0

",.

"

UJ if,
UlUJ
II: II:
UJUJ
>0.
UJ::;
II: <
Ul::J-'
o='
UJ::;
Z
<
IZ
<
IUl
~

I
i

O. 1

<

I-

Ul
~

TJ '" 25°C
PULSE WIDTH = 300fJs
DUTY yeLE

I

21

I

01

l

I

3

,
,
~

<.)

I

IZ

f--

TJ '" 125 c C

/

1.0

offi
u..o.

FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS

INSTANTANEOUS FORWARD VOLTAGE.
VOLTS

T.. = 75 c C

0.1

FIG. 5 -

TYPICAL JUNCTION CAPACITANCE

4000

2000

U
Z
<

1000

U

600

a.
ui

V

.01

u..

TJ = 25°C

I-

./

<
0.
<

./
.001

1/
a

.........

TJ '" 25¢C

f_l.0MHz
V sig • 5OmVp.-p

800

....

400

<.)

".

20

-

I

200

40

60

80

100

"

120 140

PERCENT OF RATED PEAK
REVERSE VOLTAGE

100
0.1

04

10

4.0

10

REVERSE VOLTAGE, VOLTS

·131·

40

80100

SBLF2030PT AND SBLF2040PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts

CURRENT - 20.0 Amperes
FEATURES

ITO-3P

.1~8(3.50)DIA.
.1_213.10)

I

.800(20.2)
.700ns.B)

'
II'

.598U5.2)
.582U4.8)
.381(9.7)
.366(93)

'I

I

~

--*--

~

.06(1.5)

,45"

• (4.B)
+-+1

Chamfe

,

.180 (4. 5)

_

~=~=~
1=

lo.r-.-~

f

2°REF
10·

PlN

~

.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 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.17", (4.3mm) lead lengths at
5 Ibs. (2.3kg) tension
• Internal Insulation: 1.5k VRMS

.. I, .028 (.70)

MECHANICAL DATA

.020 (.50)

PINl~

STANDARO POLARITY PIN 3 5--t>f-IPIN 2

Dimensions in inches
and

(millimeters)

case: ITO-3P Molded Plastic
Terminals: Leads Solderable per MIL-STD202, Method 208
Polarity: As marked
Mounting Position: Any
Mounting Torque: 5 in. - lb. max.
Weight: .47 ounces, 13.2 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 Vonage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc=105°C
Peak Forward Surge Current, a.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
Per Leg IF= 10.0 (NOTE 2)
Maximum Instantaneous 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. Pulse Test: 300j!s Pulse Width. 2% Duty Factor.
-132-

SYMBOLS

SBLF2030PT

SBLF2040PT

UNITS

VRRM
VRMS
Voc

30
21
30

40
28
40

Volts
Voks
Voks

I(AV)

20.0

Amps

IFSM

250.0

Amps

VF

0.55
1.0
50.0
2.0
-40 to +125

Volts

IR
R8JC
TJ,TsTG

mA
°CIW
°C

RATINGS AND CHARACTERISTIC CURVES SBLF2030PT AND SBLF2040PT

~
Z

RG. 1-FORWARD CURRENT DERATING CURVE
20.0

1\,

W

a:
a:

:>

o

16.0

~~

12.0

a:~

~<

8.0

W

CI

<
a:

0

o

~

\

100

250

8.3ma SINGLE HALF SINE WAVE
PER LEG (JEDEC METHOD)

o

~

U)

Irw

200

~

:::>0:
(I)

T".TJmalC.

.........

W 150

~

I""

~~

~ '"

- I- -

4.0

w

>
<

0:
0:
;:)

~

~~

300

w

,

C'"

FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG

..:
z

........

100

0:

---:-.

1~

~

50

'"'"

0

W

CASE TEMP'ER'ATURE, 'C

a..

1

10

r--.... b"",,

20

50

100

NUMBER OF CYCLES AT 60 Hz
FIG. 4· TYPICAL INSTANTANEOUS
F0I'IWARD CHARACTERISTICS PER LEG

FIG. 3 - TYPICAL
REVERSE CHARACTERISTICS

...:

100

Z

100

w

a:
a:

,

:::>

o
c

~

L

0

,/

0:

~

z

W

a:
a:

~~
a: a:

j;.. V

To = 100'
10

Ow
u.a..

o

::) <

WIll

"'W
Ira:

Ww
>0..
W~

o

V'"
~

1.0

0:<

1.0

1/

W

Z

;:!:

,....TJ=7S·C

.Z

'"

L

I-

Ill::;

'"
:!:

;:)...0

S~

0.1

111

-

25° C

PULSE WIDTH :: 3(0)1..$

o.

"_.Duty Cycle

.3

.4

.5

.6

.7

.8

FIG.S-TYPICAL JUNCTION CAPACITANCE PER LEG

'"

:!:

4000

il

ui

o

20

TJ ~ 2S.IC I I
f == 1MHz
Vsig "" SOmvp-p

u. 2000
"-

I.........

0.01

40

60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

.9

INSTANTANEOUS FORWARD VOLTAGE,
VOLTS

~ - 25°C~

Z

TJ

1

.2

1/

Z

;:!:
;:!:

f

(/)~

;:)

140

0
Z

<

~
0

'"a..<

i"""1-1000
800
600
400

0

200
100

0.1

0.4

1.0

10

REVERSE VOLTAGE, VOLTS

·133·

40

80100

SBL2030PT AND SBL2040PT
SCHOTTKY RECTIFIER
VOLTAGE RANGE - 30 and 40 Volts

CURRENT - 20.0 Amperes
FEATURES

T0-3P

.0(71U9R
UE)F

r

.193 (4. 0)

. -I r

1~ i:~'TYP.

.245'(6.2)
.225 CS.7)t

,. BOTH SIDES

1
.840(21.3)
.820 (20.8)

l"REF-~-

, .1

- ' l"REF
~

,::~:g:~~

!

• Dual rectifier construction, positive center-tap
• Plastic package has Underwriters Laboratory
Flammability Classifications 94V-O
• Metal to silicon rectifier,
majority carrier con.323(8.21
.31317.91
duction
.142(3.6)
• 38(3.5) • Low power loss,
t .110
high efficiency
+ (4.3) • High current capability, low VF
• High surge capacity
• Epitaxial construction
.1/ '.~~~ ~:~~~ • For use in low voltage, high frequency inverters,
free wheeling, and polarity protection applications
-:;1 11' 1 :~m~:m
High temperature soldering guaranteed:
I
250°C/10 seconds/.17" ,(4.3mm) from case
I
I
• Guardring for transient protection
I

1·IGk :
.140 (3.5)

.795 (20.2)

• ,:~~~ m~ .71T·1J

•

1+-+1 • •.048 (1.22)
.225 (5.7)
.205(5.2)
(Case Positive)

MECHANICAL DATA

.044 (1.12)

PINl~PIN2

STANDARD POLARITY PIN 3 ~E

Dimensions in inches
and
(millimeters)

case: JEDEC TO-3P Molded Plastic
Terminals: Lead solderable per MIL-STD202, Method 208
Polarity: As marked
Mounting Position: Any
Weight: 0.2 ounces, 5.6 gram

CROSS REFERENCE GUIDE
GI
SBL2040PT

SHINDENGEN

FUJI
ESA83-004

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25'C ambient temperature unless othelWise specified.
Rasistive or inductive load.
For capacitive or inductive loed, derate current by 20%.

Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
at Tc=105·C
Peak Forward Surge Current,8.3ms single
half sine-wave superimposed on rated load
(JEDEC Method)
Maximum Instantaneous Forward Voltage
per leg IF= 8.0 (NOTE 2)
Maximum Instantaneous Current at
Tc=25·C
Rated DC Blocking Voltage per element Tc=100·C
Typical Thermal Resistance per leg (NOTE 1)
Operating and Storage Temperature Range

SYMBOLS

SBL2030PT

SBL2040PT

UNITS

VRRM
VRMS
Voc

30
21
30

40
28
40

Volts
Volts
Volts

I(AV)

20.0

Amps

IFSM

250.0

Amps

VF

0.55
1.0
50.0
1.5
-40 to +125

Volts

IR
R8JC
TJ,TsTG

NOTES: 1. Thermal Resistance from Junction to Case per element.
2. Pulse Test: 300l1s Pulse Width, 2% Duty Factor.

-134-

rnA

·cm
·C

RATINGS AND CHARACTERISTIC CURVES SBL2030PT AND SBL2040PT
FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEG
300

W
(!l",
a:W
::Ja:
",W
Oil.
a::::;;

FIG. 1 - FORWARD CURRENT DERATING CURVE

r:
Z
W

a:
a:
::J

20 .0

\

U
16 .0
0'"

a: W


0
50

100

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

.......

50

0
1

\

<

'"

.... r---.. i '

r---

Il.

,

8. 0

(!l

200

«

:;=r:
a:Z

,8.3ms SINGLE HAlF SINE WAVE i
,PER LEG (JEDEC METHODI
T...TJmax.

250

5

10

20

50

100

NUMBER OF CYCLES AT 60Hz

FIG. 4· TYPICAL INSTANTANEOUS
FORWARD CHARACTERISTICS PER LEG

150

CASE TEMPERATURE, °C

zr:

100

W

a:
a:
::J

U

o

FIG. 3 - TYPICAL REVERSE
CHARACTERISTICS

a:

~ffl
a: a:

100

~

10

Ow
u.1l.
"':::;;
::J<

oW

r:

Z
W
a:
a:
::J
U
W'"
"'W
a: a:
Ww
>Il.
W:::;;
a:<
::J-'
O::!
W:::;;
Z

T ..

=lODQe

10

./

~
«
Z

'"~

I
.2

" , i-""'"T, ~ WC

1.0

/

2% DUTY CYCLE

.3

.4

.5

.6

.7

.9

.8

INSTANTANEOUS FORWARD VOLTAGE
VOLTS

,

«

TJ = 25°C
PULSE WIDTH'" 300 1-18 _

I

I'"

ff-

Z

".,

f-

"'Z
<

I
I(
1.0

fiG. 5· TYPICAL JUNCTION CAPACITANCE PER LEG
4000

TJ=2S"C

U.

0-

0.1

2~oC ",.1

T...
f.1.0MHz
Vsig_50mVp-p

2000

r""'o

ui

'"~

U
Z

1000

0

600

«
f-

".

./

«
«

!'--i"o

800
400

Il.

.01
~o

40

60

80

100

120

PERCENT OF RATED PEAK
REVERSE VOLTAGE

140

U

"

200

100
0.1

0.4

10

10

REVERSE VOLTAGE, VOLTS

-135-

40

80100

MBRF2535CT AND MBRF2545CT
SCHOTIKY RECTIFIER
VOLTAGE RANGE - 35 and 45 Volts

CURRENT - 30.0 Amperes
FEATURES

• Isolated plastic package has Underwriters
Laboratory Flammabilty 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
• Guardring for transient protection
• Internal Insulation: 1.Sk VRMS

ITD-220 CT

.. ,.107! .008
[2.7 1 0.21

MECHANICAL DATA
Case: ITO-220 Fully Overmolded 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 gram

PI"1-~2

......4°REF.........

PI"3-~

+

STANDARD POLARITY
[POSITIVE CTl

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 Working Peak Reverse Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectffied Current
at Tc=130°C
Peak Repetitive Forward Current per leg (rated VR,
Square Wave,20 KHz) at Tc=130°C
Peak Forward Surge Current 8.3ms single half sine-wave
!luperimposed on rated load (JEDEC Method)
Peak Repetitive Reverse Surge Current (NOTE 3)
Maximum Instantaneous Forward Voltage
Per Lag IF=30A, T c.;25°C (NOTE 2)
IF=30A, Tc=125°C
Maximum Instantaneous Reverse Current at Tc=25°C
Rated DC Blocking Voltage per leg (NOTE 2) Tc=125·C
Typical Thermal Resistance, (NOTE I)
Voltage Rate of Change (rated VR)
Operating Junction Temperature Range
Storage TemperatureRange

SYMBOLS

MBRF253SCT

MBRF2545CT

UNITS

VRRM
VRWM
Voc

35
35
35

45
45

Voks
Voks
Volts

I(Av)

30.0

Amps

IFRM

30.0

Amps

IFSM
IRRM

150.0
1.0

Amps
Amps

VF
IR
IR
R8JC
dv/dt
TJ
TSTG

NOTES: 1. Thermal Resistance from Junction to Case per leg.
2. Pulse Test: 300~ Pulse Width, 2%, Duty Factor
3. 2.0~, Pulse Width 1 KHz.
-136-

45

0.82
0.73
0.2
40.0
1.8
1000
-65 to + 150
-65 to +175

Voks
rnA
rnA
°CIW

V/Jls
°C
°C

RATINGS AND CHARACTERISTIC CURVES MBRF2535CT AND MBRF2545CT

FIG. 2 • MAXIMUM NON·REPETITIVE PEAK
FORWARD SURGE CURRENT PER LEO
15

o~

5

,

"

0

FIG. I-FORWARD CURRENT DERATING CURVE

fZ

30

W

a:
a:
:J

oen

a: W
~ffi

18

~~

12

a:1l.

,

W

o

~

1

<{

5

a:
W
>
<{

o

50

100

10

to-

+-

I'- ""

20

50

100

NUMBER OF CYCLES AT 60Hz

1\

, ! .5311 MIN.

I

[O.75.8:~)

I. I I-rrrsri~ i

,.107!.008
12.7' 0.2)

2.54

i

~
40REF.
.028'.008
......
... "'(0.71:0.2)·

MECHANICAL DATA

""
<

30

1\

18

a:Z
OW
",a:
"a:
<::l
wU
0..

,

\

12

o

100

«
;:,..:

24

o

50

~

100

~

125

~

8.3mo SINGLE HALF SINE WAVE
PER LEG (JEDEC METHOD)
T,.T.. max.

"'" r"oo~

75

I'"

"-

50

5

1

10

50

150

Z

a:
a:
::l
U
o
a:

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