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VS-40CPQ0.0PbF Series, VS-40CPQ0.0-N3 Series

www.vishay.com

Vishay Semiconductors

Revision: 11-Oct-11

Document Number: 94209

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THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

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Schottky Rectifier, 2 x 20 A

FEATURES

• 150 °C T

operation

• Very low forward voltage drop

• High frequency operation

• High purity, high temperature epoxy

encapsulation for enhanced mechanical

strength and moisture resistance

• Guard ring for enhanced ruggedness and long

term reliability

• Compliant to RoHS Directive 2002/95/EC

• Designed and qualified according to JEDEC-JESD47

• Halogen-free according to IEC 61249-2-21 definition

(-N3 only)

DESCRIPTION

The VS-40CPQ... center tap Schottky rectifier has been

optimized for very low forward voltage drop with moderate

leakage. The proprietary barrier technology allows for

reliable operation up to 150 °C junction temperature. Typical

applications are in switching power supplies, converters,

freewheeling diodes, and reverse battery protection.

PRODUCT SUMMARY

Package TO-247AC

F(AV)

2 x 20 A

50 V, 60 V

at I

0.49 V

max. 96 mA at 125 °C

max. 150 °C

Diode variation Common cathode

18 mJ

Base

common

cathode

Common

cathode

Anode

TO-247AC

MAJOR RATINGS AND CHARACTERISTICS

SYMBOL CHARACTERISTICS VALUES UNITS

F(AV)

Rectangular waveform 40 A

RRM

50/60 V

FSM

= 5 μs sine 3200 A

20 Apk, T

= 125 °C (per leg) 0.49 V

- 55 to 150 °C

VOLTAGE RATINGS

PARAMETER SYMBOL VS-40CPQ050PbF VS-40CPQ050-N3 VS-40CPQ060PbF VS-40CPQ060-N3 UNITS

Maximum DC reverse voltage V

50 50 60 60 V

Maximum working peak

reverse voltage

RWM

ABSOLUTE MAXIMUM RATINGS

PARAMETER SYMBOL TEST CONDITIONS VALUES UNITS

Maximum average forward current

See fig. 5

F(AV)

50 % duty cycle at T

= 120 °C, rectangular waveform 40

Maximum peak one cycle

non-repetitive surge current per leg

See fig. 7

FSM

5 µs sine or 3 µs rect. pulse

Following any rated load

condition and with rated

RRM

applied

3200

10 ms sine or 6 ms rect. pulse 320

Non-repetitive avalanche energy per leg E

= 25 °C, I

= 2 A, L = 9.0 mH 18 mJ

Repetitive avalanche current per leg I

Current decaying linearly to zero in 1 μs

Frequency limited by T

maximum V

= 1.5 x V

typical

Summary of content (7 pages)

PAGE 1
VS-40CPQ0.0PbF Series, VS-40CPQ0.0-N3 Series www.vishay.
PAGE 2
VS-40CPQ0.0PbF Series, VS-40CPQ0.0-N3 Series www.vishay.com Vishay Semiconductors ELECTRICAL SPECIFICATIONS SYMBOL PARAMETER TEST CONDITIONS 20 A Maximum forward voltage drop per leg See fig. 1 VFM (1) TJ = 25 °C 40 A 20 A TJ = 125 °C 40 A Maximum reverse leakage current per leg See fig.
PAGE 3
VS-40CPQ0.0PbF Series, VS-40CPQ0.0-N3 Series Vishay Semiconductors 1000 1000 IR - Reverse Current (mA) IF - Instantaneous Forward Current (A) www.vishay.com 100 TJ = 150 °C TJ = 125 °C TJ = 25 °C 10 1 TJ = 150 °C 100 TJ = 125 °C 10 TJ = 100 °C TJ = 75 °C 1 TJ = 50 °C 0.1 TJ = 25 °C 0.01 0.1 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 0 1.6 10 20 30 40 50 60 VFM - Forward Voltage Drop (V) VR - Reverse Voltage (V) Fig. 1 - Maximum Forward Voltage Drop Characteristics (Per Leg) Fig.
PAGE 4
VS-40CPQ0.0PbF Series, VS-40CPQ0.0-N3 Series Vishay Semiconductors 16 155 RthJC (DC) = 1.25 °C/W 145 135 DC D = 0.08 D = 0.17 D = 0.25 D = 0.33 D = 0.50 14 Average Power Loss (W) Allowable Case Temperature (°C) www.vishay.com 12 RMS limit 10 8 6 DC 4 2 0 125 0 5 10 15 20 25 0 30 5 10 15 20 25 30 IF(AV) - Average Forward Current (A) Fig. 5 - Maximum Allowable Case Temperature vs. Average Forward Current (Per Leg) Fig.
PAGE 5
VS-40CPQ0.0PbF Series, VS-40CPQ0.0-N3 Series www.vishay.
PAGE 6
Outline Dimensions www.vishay.com Vishay Semiconductors TO-247 DIMENSIONS in millimeters and inches A A (3) (6) Φ P E B (2) R/2 N A2 S (Datum B) Ø K M DBM Φ P1 A D2 Q 2xR (2) D1 (4) D 1 4 D 3 2 Thermal pad (5) L1 C L A See view B 2 x b2 3xb 0.10 M C A M 0.01 M D B M View A - A C 2x e A1 b4 (b1, b3, b5) Plating (4) E1 Base metal D DE (c) c1 E C C (b, b2, b4) (4) Section C - C, D - D, E - E SYMBOL A A1 A2 b b1 b2 b3 b4 b5 c c1 D D1 MILLIMETERS MIN. MAX. 4.65 5.31 2.
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