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GENERAL DESCRIPTION QUICK REFERENCE DATA Glass-passivated double diffused SYMBOL PARAMETER MAX. UNIT rectifier diode in a full pack plastic envelope featuring low forward VRRM Repetitive peak reverse voltage 1500 V voltage drop, fast reverse recovery VF Forward voltage 1.5 V and soft recovery characteristic. The IF(AV) Average forward current 10 A device is intended for use in TV IFSM Non-repetitive peak forward current 60 A receivers, series resonant switched trr Reverse recovery time 0.6 µs mode power supplies and other high voltage circuits. PINNING - SOD100 PIN CONFIGURATION SYMBOL PIN DES...
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GENERAL DESCRIPTION QUICK REFERENCE DATA

Glass-passivated double diffused SYMBOL PARAMETER MAX. UNIT rectifier diode in a full pack plastic envelope featuring low forward VRRM Repetitive peak reverse voltage 1500 V voltage drop, fast reverse recovery VF Forward voltage 1.5 V and soft recovery characteristic. The IF(AV) Average forward current 10 A device is intended for use in TV IFSM Non-repetitive peak forward current 60 A receivers, series resonant switched trr Reverse recovery time 0.6 µs mode power supplies and other high voltage circuits.

PINNING - SOD100 PIN CONFIGURATION SYMBOL

PIN DESCRIPTION 1 cathode casek2anode a case isolated12

LIMITING VALUES

Limiting values in accordance with the Absolute Maximum System (IEC 134). SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT VRSM Non-repetitive peak reverse - 1500 V voltage VRRM Repetitive peak reverse voltage - 1500 V VRWM Crest working reverse voltage - 1300VIAverage forward current1F(AV) sinusoidal; a = 1.57; Ths ≤ 54 ˚C - 10 A IF(RMS) RMS forward current - 15.7 A IFRM Repetitive peak forward current sinusoidal; a = 1.57 - 60 A IFSM Non-repetitive peak forward t = 10 ms - 60 A current t = 8.3 ms - 66 A half sine wave; Tj = 150 ˚C prior to surge; with reapplied VRWM(max) I2t I2t for fusing t = 10 ms - 18 A2s Tstg Storage temperature -40 150 ˚C Tj Operating junction temperature - 150 ˚C

ISOLATION

Ths = 25 ˚C unless otherwise specified SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT Visol Repetitive peak voltage from R.H. ≤ 65% ; clean and dustfree - - 1500 V both terminals to external heatsink Cisol Capacitance from cathode to f = 1 MHz - 12 - pF external heatsink 1 Neglecting switching and reverse current losses. October 1994 1 Rev 1.100,

THERMAL RESISTANCES

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT Rth j-hs Thermal resistance junction to with heatsink compound - - 4.8 K/W heatsink without heatsink compound - - 5.9 K/W Rth j-a Thermal resistance junction to in free air. - 55 - K/W ambient

STATIC CHARACTERISTICS

Tj = 25 ˚C unless otherwise stated SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT VF Forward voltage IF = 20 A - 1.3 1.8 V IF = 10 A; Tj = 150˚C - 1.00 1.5 V IR Reverse current VR = 1300 V - 10 100 µA VR = 1300 V; Tj = 100 ˚C - 50 300 µA

DYNAMIC CHARACTERISTICS

Tj = 25 ˚C unless otherwise stated SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT trr Reverse recovery time IF = 2 A; VR ≥ 30 V; -dIF/dt = 20 A/µs - 0.47 0.6 µs Qs Reverse recovery charge IF = 2 A; VR ≥ 30 V; -dIF/dt = 20 A/µs - 1.6 2.0 µC Vfr Peak forward recovery voltage IF = 10 A; dIF/dt = 30 A/µs - 11.0 - V October 1994 2 Rev 1.100, dI PF / W BY359X Ths(max) / CIFFdt a = 1.57 20 1.9 54 trr 2.2 2.8 time 10 102 Qs 25% 100%

I

R I rrm 0 1500246810 12 IF(AV) / A Fig.1. Definition of trr, Qs and Irrm Fig.4. Maximum forward dissipation PF = f(IF(AV)); sinusoidal current waveform where a = form factor = IF(RMS) / IF(AV).

I

F IFS(RMS) / A BY359

IFSM

timeVF30

V

fr 10VF01ms 10ms 0.1s 1s 10s time tp / s Fig.2. Definition of Vfr Fig.5. Maximum non-repetitive rms forward current. IF = f(tp); sinusoidal current waveform; Tj = 150˚C prior to surge with reapplied VRWM. PF / W BY359 Ths(max) / C IF / A 30 30 Vo = 1.1600 V Rs = 0.0340 Ohms D = 1.0 Tj=150C 25 30 Tj=25C 0.5 20 54 20 0.2 15 0.1 78 10 t tp 102 10 typIpD=

T

5 126 maxTt015000510 15 20 0 1.0 2.0 IF(AV) / A VF / V Fig.3. Maximum forward dissipation PF = f(IF(AV)); Fig.6. Typical and maximum forward characteristic square wave where IF(AV) =IF(RMS) x √D. IF = f(VF); parameter Tj October 1994 3 Rev 1.100, trr / us Qs / uC 10 10 IF = 10A 5A 2A IF = 1A 1.0 1.0 10A 5A 2A 1A 0.1 0.1 1.0 10 100 1.0 10 -dIF/dt (A/us) 100 -dIF/dt (A/us) Fig.7. Maximum reverse recovery time trr = f(dIF/dt); Fig.8. Maximum reverse recovery charge parameter Tj Qs = f(dIF/dt); parameter Tj Zth j-hs / (K/W) 0.1 PD tp t 0.01 10us 100us 1ms 10ms 0.1s 1s 10s tp / s Fig.9. Transient thermal impedance Zth = f(tp) October 1994 4 Rev 1.100,

MECHANICAL DATA

Dimensions in mm 10.2 Net Mass: 2 g max 5.7 4.4 max 0.9 max 3.2 0.5 3.0 2.9 max 4.4 4.0 7.9 7.5 seating max plane 3.5 max not tinned 4.4 13.5 minka0.4 M 0.9 0.7 0.55 max 1.3 5.08 top view Fig.10. SOD100; The seating plane is electrically isolated from all terminals. Notes 1. Accessories supplied on request: refer to mounting instructions for F-pack envelopes. 2. Epoxy meets UL94 V0 at 1/8". October 1994 5 Rev 1.100,

DEFINITIONS

Data sheet status Objective specification This data sheet contains target or goal specifications for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specifications. Limiting values Limiting values are given in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of this specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application information Where application information is given, it is advisory and does not form part of the specification. Philips Electronics N.V. 1994 All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. The information presented in this document does not form part of any quotation or contract, it is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights.

LIFE SUPPORT APPLICATIONS

These products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale. October 1994 6 Rev 1.100]
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