Vskt320pbf series, Vishay semiconductors – C&H Technology VSKT320PbF Series User Manual

VSKT320PbF Series

www.vishay.com

Vishay Semiconductors

Revision: 05-Jul-12

4

Document Number: 94085

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Fig. 1 - Current Ratings Characteristics

Fig. 2 - Current Ratings Characteristics

Fig. 3 - On-State Power Loss Characteristics

Fig. 4 - On-State Power Loss Characteristics

Fig. 5 - Maximum Non-Repetitive Surge Current

Fig. 6 - Maximum Non-Repetitive Surge Current

Maximum Allowa

b

le Case

Temperature (°C)

Average On-State Current (A)

50

150

250

100

200

300

350

0

94085_01

60

70

80

90

100

120

130

110

180°

120°

60°

30°

90°

R

thJC(DC)

= 0.125 K/W

Conduction angle

Ø

Maximum Allowa

b

le Case

Temperature (°C)

Average On-State Current (A)

100

400

200

300

500

0

94085_02

50

60

70

80

100

110

120

130

90

R

thJC(DC)

= 0.125 K/W

Ø

Conduction angle

180°

120°

60°

30°

DC

90°

Maximum Average On-

S

tate

Power Loss (W)

Average On-State Current (A)

100

200

300

400

0

500

450

350

250

150

400

300

200

50

100

0

180°
120°

90°
60°
30°

RMS limit

Conduction angle

Per Junction

T

J

= 130 °C

Ø

94085_03

Maximum Average On-

S

tate

Power Loss (W)

Average On-State Current (A)

300

100

500

200

400

0

650

450

500

550

600

350

250

150

400

300

200

50

100

0

DC

180°
120°

90°
60°
30°

RMS limit

Conduction angle

Per Junction

T

J

= 130 °C

Ø

94085_04

Peak Half

S

ine Wave

On-

S

tate Current (A)

Number of Equal Amplitude Half

Cycle Current Pulses (N)

10

100

1

8000

7500

7000

6500

6000

5500

5000

4500

4000

3500

94085_05

60 Hz 0.0083 s
50 Hz 0.0100 s

Per junction

At any rated load condition and with

rated V

RRM

applied following surge.

Initial T

J

= 130 °C

Peak Half

S

ine Wave

On-

S

tate Current (A)

Pulse Train Duration (s)

1

0.1

0.01

3000

94085_06

4000

5000

6000

7000

8000

9000

No voltage reapplied
Rated V

RRM

reapplied

Per junction

Maximum non-repetitive surge current

versus pulse train duration. Control

of conduction may not be maintained.

Initial T

J

= 130 °C