Powerex C435, CA398, C436, C379 Data Sheet

5.2

C435

AMPLIFYING

GATE

Condensed Electrical And Thermal Characteristics And Ratings

~

~

GETYPE
CONSTRUCTION

1 Voltage Range

Forward Conduction

I(RMS)

I

TSM

I2t
ReJC

tq

QRR
di/dt

T

J

dV/dt voltage, exponential to rated V

IGT

VGT

V

TM

ReJc

Package Outline No.
Max. Mounting Force

Expanded Electrical Characterization, see page:

I.

Voltage Drop Model: V

"2.

Transient Resistance Model:

* tq measured with V R

307

SPECIFICATIONS:

Max. forward conduction sinusoidal:
@T

=

65°C,

c

50% duty (A)
@60Hz.
@600Hz.

@

1000Hz.
@ 1200Hz. 800
@2500Hz.
@5OOOHz.
@ 10,000 Hz. -

Max. peak one-cycle, non­repetitive surge current (A)

2

Max. I

t for fusing 1.5 msec

Max. thermal impedance
Thrn-offtime @ rated voltage and T

V

~

50V (j.lsec)

R

@ 20V I

j.lsec

reapplied

@ l00V/j.lsec reapplied ­@ 200V I
@ 400V I

j.lsec

reapplied

j.lsec

reapplied -

Max. reverse recovered charge(j.lc), T
Critical rate-of-rise

of

on-state current (AI

j.ls)

Junction operating temperature range

Min. critical rate-of-rise

@ Max. T

(V/j.ls)

J

Max. required gate current to trigger

@

-40°C

@

+25°C

Max. required voltage to

trigger (V) from -

40°C

Max. forward voltage I
drop for the
current
range:

Transient thermal

2

resistance for
time:

~

A +

B·

F

:$

5V.

LN(I) + CI +

RS1C ~ F·

500

50 Hz.
60Hz.

(A

2

sec

(OC/w)

of

off-state

DRM

to + 125°C

G

t

INVERTER SCRs

TO

650

AMPERES

100-700

975

1050

900

500
270

7600
8000

)

100,000

.045

J

10

14

=

25°C

J

-

500

-40

(0

(0C)

125°C

200

(mA)

400

200

5

IM1N(A)
IMAX(A)
A

B

C

D

T

MIN(s)
TMAX(s)
F
G

200

3000

-1.1066
.6344

.0011

-.0845
.001

.01
.16

.602

307
Lbs
KN

2000

8.9

212

D-'1.

136

100-700 1 800-1400 1 500-1200 11200-1800

975 700 575

1050 700

500

-

900 675 400 500
800 650 275
500 450 150

-

-

270 200 -

-

-

7600 7600
8000 8000

100,000 100,000

.045

15

-

.06

- 20 -

- - -

-

5000 6500
5500 7000

50,000

.045

-

.06

20 30 60

-40(0

-

-

200

125°C

200

200

-

- -

15,20*

500 500

-40

(0

125°C

-4010125°C

200 400 200

400
200

400
200 200

5 5

200 20

3000 3000

-1.1066
.6344

.0011

-.0845
.001

.01

- 1.1066
.634 - .45

.0011

-.0845
.001

.01 .01 .01

.16 .16

.602

.602 .602 .65

-

6.0

500

-40(0

125°C

400 400

5 5

500

4000

2.96

.00009

.067
.001 .001

.16 .365

307 276 307 276

2000 2000 2000 2000

8.9 8.9

8.9

212 255 214

8.9

N.A.

1

5.3

Expanded Electrical Characterization

SII\lUSOIDAL CURRENT WAVEFORMS

~O

OOOEf-"~~33!a

uJ

0:

W

a.

:Ii

<l

I

I-

Z

w

~IOOO§~;~~

w

~

I-

I

'"

Z

o

<l

'"

~

10o~1

__

~~~~LW~

10

1.

MAXIMUM

VS. PULSE WIDTH

MOUNTING, DOUBLE-SIDE COOLING)

ALLOWABLE PEAK ON-STATE CURRENT

__

~~~~~~

PULSE BASE

FOR

WIDTH

T c =

(I"SEC)

65°C

__

-L~~~WW~

(2000

LBS.

IC435SCR

~oooO~~~!~EES!~~~~~~~~~~~~~~

w

0:

w

a.

:!i

<l

I

I-

Z

W

0:

~

~IOOO~~ml~~!~§~

I-

'{'

t5

1----+--f-~r+_1Fl"'!'~--+--+

'"

<l

~

2.

MAXIMUM

VS. PULSE WIDTH FOR

~f'.R=H=:"=""1----+

:'-4----+---+

PULSE

BASE

I.

Vs'

400

2.

2000

LB

3. DOUBLE

4.

RC

SNUBBER;

--VIl!>

---

VR

WIDTH (I" SEC)

V

--+--t-+-t-

MOUNTING FORCE
SIDE

COOLED

0.25

UFo 5 OHM

10V

!>

400V

ALLOWABLE PEAK ON-STATE CURRENT

T c =

90°C

(2000

MOUNTING, DOUBLE-SIDE COOLING)

LBS.

3.

MAXIMUM

VS. PULSE WIDTH

MOUNTING, DOUBLE-SIDE COOLING)

ALLOWABLE PEAK ON-STATE CURRENT

FOR T c =

65°C

(2000

LBS.

W

I-

~

I

'"

Z

o

<l

'"

W

Il.

4.

MAXIMUM

ALLOWABLE PEAK ON-STATE CURRENT

VS. PULSE

WIDTH

FOR

T c =

90°C

MOUNTING, DOUBLE-SIDE COOLING)

(2000

lBS.

5. ENERGY

PULSE BASE WIDTH

PER

PULSE FOR SINUSIODAL PULSES

("SEC)

212