SGP04N60XKSA1

P1-P3 P4-P6 P7-P9 P10-P12

SGP04N60

SGD04N60

7 Rev. 2.2 Sep 07

E, SWITCHING ENERGY LOSSES

0A 2A 4A 6A 8A 10A

0.0mJ

0.1mJ

0.2mJ

0.3mJ

0.4mJ

0.5mJ

0.6mJ

E

on

*

E

off

E

ts

*

E, SWITCHING ENERGY LOSSES

0Ω 50Ω 100Ω 150Ω 200Ω

0.0mJ

0.1mJ

0.2mJ

0.3mJ

0.4mJ

E

ts

*

E

on

*

E

off

I

C

, COLLECTOR CURRENT

R

G

, GATE RESISTOR

Figure 13. Typical switching energy losses

as a function of collector current

(inductive load, T

j

= 150°C, V

CE

= 400V,

V

GE

= 0/+15V, R

G

= 67Ω,

Dynamic test circuit in Figure E)

Figure 14. Typical switching energy losses

as a function of gate resistor

(inductive load, T

j

= 150°C, V

CE

= 400V,

V

GE

= 0/+15V, I

C

= 4A,

Dynamic test circuit in Figure E)

E, SWITCHING ENERGY LOSSES

0°C 50°C 100°C 150°C

0.0mJ

0.1mJ

0.2mJ

0.3mJ

E

ts

*

E

on

*

E

off

Z

thJC

, TRANSIENT THERMAL IMPEDANCE

1µs 10µs 100µs 1ms 10ms 100ms 1

s

10

-3

K/W

10

-2

K/W

10

-1

K/W

10

0

K/W

0.01

0.02

0.05

0.1

0.2

single pulse

D=0.5

T

j

, JUNCTION TEMPERATURE

t

p

, PULSE WIDTH

Figure 15. Typical switching energy losses

as a function of junction temperature

(inductive load, V

CE

= 400V, V

GE

= 0/+15V,

I

C

= 4A, R

G

= 67Ω,

Dynamic test circuit in Figure E)

Figure 16. IGBT transient thermal

impedance as a function of pulse width

(D = t

p

/ T)

*) E

on

and E

ts

include losses

due to diode recovery.

*) E

on

and E

ts

include losses

due to diode recovery.

*) E

on

and E

ts

include losses

due to diode recovery.

C

1

=

τ

1

/R

1

R

1

R

2

C

2

=

τ

2

/R

2

R ,(K/W)

τ

, (s)

0.815 0.0407

0.698 5.24*10

-3

0.941 4.97*10

-4

0.046 4.31*10

-5

SGP04N60

SGD04N60

8 Rev. 2.2 Sep 07

V

GE

, GATE-EMITTER VOLTAGE

0nC 10nC 20nC 30nC

0V

5V

10V

15V

20V

25V

480V

120V

C, CAPACITANCE

0V 10V 20V 30V

10pF

100pF

C

rss

C

oss

C

iss

Q

GE

, GATE CHARGE

V

CE

, COLLECTOR-EMITTER VOLTAGE

Figure 17. Typical gate charge

(I

C

= 4A)

Figure 18. Typical capacitance as a

function of collector-emitter voltage

(V

GE

= 0V, f = 1MHz)

t

sc

, SHORT CIRCUIT WITHSTAND TIME

10V 11V 12V 13V 14V 15V

0

µs

5

µs

10

µs

15

µs

20

µs

25

µ

s

I

C(sc)

, SHORT CIRCUIT COLLECTOR CURRENT

10V 12V 14V 16V 18V 20V

0A

10A

20A

30A

40A

50A

60A

70A

V

GE

, GATE-EMITTER VOLTAGE

V

GE

, GATE-EMITTER VOLTAGE

Figure 19. Short circuit withstand time as a

function of gate-emitter voltage

(V

CE

= 600V, start at T

j

= 25°C)

Figure 20. Typical short circuit collector

current as a function of gate-emitter voltage

(V

CE

≤ 600V, T

j

= 150°C)

SGP04N60

SGD04N60

9 Rev. 2.2 Sep 07

PG-TO-220-3-1

P1-P3 P4-P6 P7-P9 P10-P12

SGP04N60XKSA1

Mfr. #:

Buy SGP04N60XKSA1

Manufacturer:

Infineon Technologies

Description:

IGBT 600V 9.4A 50W TO220-3

Lifecycle:

New from this manufacturer.

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