Powerex C384 Data Sheet

C384/C385

TEST

Repetitive
and

Repetitive
and

Thermal

Peak Reverse

Off-State

Peak Reverse

Off-State

Resistance

Current

Current

Critical Rate-of-Rise
Off-State Voltage (Higher
values

may

cause device

switching)

Holding Current

DC Gate Trigger

Current

DC Gate Trigger Voltage

Peak

On-State Voltage

Turn-On

Conventional
Commutated

Time

Delay Time

(with

Reverse

Circuit

Turn-Off

Voltage)

Conventional
Commutated

Time

(with

Circuit

Turn-Off

Feedback

Diode)

I

of

SYMBOL

IRRM

and

IORM
IRRM

and

IORM

ReJc

dv/dt

Higher

IH

IGT

V

GT

V

TM

td

tq

C38S
C384

tq(diode)

C385
C384

CHARACTERISTICS

MIN.

-

-

200

-

-

-

-

- -

-

O.lS

-

-

-

TYP.

SOO

3

IS

-

-

MAX.

10

20 rnA

0.19

°C/Watt

0.09S

-

UNITS

rnA

V //lsec

TJ = +2SoC

TJ

= 12SoC

Junction-to-Case - One-Side Cooled
Junction-to-Case - Double-Side Cooled
TJ = +12SoC,

linear

or

Exponential

minimum dv/dt selections available - consult factory.

7S

SOO

mAdc

Tc = -I-2SoC,

Initial On-State

l2S
l7S

300
SOO

100 2S0

S.O

3.0

- -

2.3

2.8S

1

-

mAdc

Vdc

Volts

/lsec

+2SoC,

Tc

=

Tc

=

Tc

= +12SoC,

Tc

=-40°CtoO°C,

Tc

=0°Cto+12SoC,
Tc = +l2SoC,
Tc

= +2SoC,

Duty

Cycle ~ .01%

Tc

= +2SoC, I
Supply:
O.l/lsec.

(1)

/lsec

-

8 10

IS

20

Tc

(2)

ITM

(3)

VR =
V

(4)

ORM

(S) Rate-of-Rise

Voltage =

(6)

Commutation

(7)

Duty

(8) Gate Bias During

o Volts, 100 Ohms.

(1)

/lsec

-

-

20
10

J.

1

t

Tc=+12SoC

(2)

ITM

(3)

V

R

(4)

VORM

(5) Rate-of-Rise

Voltage =

(6)

Commutation

(7)

Duty

(8)

Gate Bias During

o Volts, 100

TEST

V = V

V = V

Gate

exponential

dv/dt = VORM

Anode

Current

Vo

-40°C,

Vo
VD = 6Vdc,

VORM, RL = 1000

ITM = lS00

:=

T

20

Volt-Open

max. rise

= +12SoC

= 2S0 Amps.

SO

Volts

(Reapplied)

of

200V//lsec

Cycle ~ .01%

= 2S0 Amps.

= 1 Volt

(Reapplied)

of

200V//lsec

Cycle ~ .01%

Ohms

CONDITIONS

= V

ORM

ORM

Open.

rising waveform.

Supply = 24

T

=

= V

V

ORM

(.632)

2.S

RRM

RRM

=

Vdc,

Amps.
= 6 Vdc, RL = 3
= 6 Vdc, RL = 3

RL = 3

Vo =

6Vdc,

RL = 3

Vo

=6Vdc,RL =30hms

Ohms

Amps. Peale.

SO

Adc, V

Circuit,

ORM

20

,

Gate

Ohm,

time.

Min.

Reapplied Off-State

(linear)

di/dt

= 12.S Amps//lsec.

Turn-Off

Interval =

Reapplied Off-State

(linear)

di/dt

= 12.5 Amps//lsec

Turn-Off

Interval =

Rated

Ohms
Ohms
Ohms

Ohms

tConsult factory

for

maximum turn-off time.

922

SINE WAVE CURRENT RATING

DOUBLE-SIDE COOLING

DATA

C384/C385

2000

'"

"'

f5

a.

'"

'"

~

~

a

~

j'!

I

'"

~

'"

~

a.

1500

1000

BOO

600

400

300

200

PULSES

-......

r--...

-

1000

--

r--...

........

40

60

80

1.

MAXIMUM

roo

200

PULSE

BASE

ALLOWABLE

400

WIDTH -MICROSECONDS

CURRENT VS. PULSE WIDTH (Tc

PER

i'-

600

SECOND

qU

I

800

1000

PEAK

"-

2000

ON-STATE

==

65°C)

I

........

4000

~I

I

"-

6000

10,000

NOTES:
(Pertaining

to

Sine

and

Snubber

of

least.

of

voltage

- .22Jlf. 5

total

W-S/P shown

W-S/P are

1. Switching

2. RC

3. Max. energy dissipated
15%
is

4. Values

2000

J500

1000

800

600

400

300

200

Trapezoidal Wave

<;

400

volts.

ohm.

during

reverse recovery

or

0.03

for

T J = 125°C.

-

-

40

60

80

10D

PULSE

2.

MAXIMUM

CURRENT VS. PULSE

Current

Ratings)

to

W-S/P whichever

be

PULSES

l-

t--

100

0

r---..

200

BASE

400

WIDTH-MICROSECONDS

ALLOWABLE

923

PER

SECOND

qoo

....,

600

'"

80Q 1000

PEAK ON-STATE

VVIDTH

(Te

'-...

2000

::;;:

gooC)

~

4000

r-..

~o

6000

IOPOD

U>

w

a:

w

Q.

:i

..

I

l-

z

w

a:

0:

=>

u

w

I-

;:!

II>

,

z

0

..

"

w

a.

200

150

100

90
80

60
50

40

30

20

70

15

10

JLfL

FOR
WAVE

ONLY

10

HALF SINE

CURRENT

15

20

30

3.

ENERGY

60

70

PULSE

00

80

200

96

BASE

PER

PULSE FOR SINUSOIDAL PULSES

400

WIDTH-

600

800

MICROSECONDS

I K

2K

3K

4K

5K 6K

8K

lot<

40

50

(/)

w

0::

W
!l.

::;;

«

I-

Z

w

0::
0::

=>

u

w

!:i

l-

(/)

Z

0

«

"

w

!l.

I

I

(f)

UJ

0::

UJ

!l.

::;;

«

I

I-

z

UJ

0::

0::

=>

u

UJ

I-

«

I-

(f)

I

z

0

«

'"

UJ

0..

5.

1000

800

600

400

300

200

100

5

4.

MAXIMUM

1000

800

600

400

300

200

100

5

MAXIMUM

DUTY

RATE

PULSES

10

OF

RISE

AMPERES

CYCLE -

ALLOWABLE

CURRENT VS.

PULSES

10

RATE

OF

RISE

AMPERES

ALLOWABLE

CURRENT

VS.

TRAPEZOiDAL

50%

PER

SECOND

20

30

40

OF

ON-STATE

PER

MICROSECOND

di/dt

20

OF

ON-STATE

PER

di/dt

CURRENT

PEAK ON-STATE
(TC

= 65°CI

PER

SECOND

30

40

MICROSECOND

CURRENT

PEAK ON-STATE
(TC

= 90°CI

WAVE CURRENT RATING

1000

(/)

800

IJJ

0::

UJ

!l.

600

::;;

«

,

60

4,0

1

1

1000

80

60

100

60

41°~

1000

60

80

1

100

I-

Z

UJ

0::
0::

=>

u

UJ

I-

<!

l-

(/)

,

z

0

«

'"

UJ

0..

(/)

UJ

0::

UJ

!l.

::;;

<!

I

I-

Z

w

0::

n:

=>

u

UJ

I-

..

l-

(/)

I

Z

0
<!

'"

UJ

!l.

400

300

200

100

6.

1000

800

600

400

300

200

7.

5

MAXIMUM

100

MAXIMUM

DATA

DUTY

CYCLE -

PULSES

RATE

CURRENT

5

RATE

CURRENT VS.

PER

10

OF

RISE

AMPERES

ALLOWABLE

VS.

10

OF

RISE
AMPERES

ALLOWABLE

25%

SECOND

20
OF
PER

30

ON-STATE

MICROSECOND

PEAK ON-STATE

di/dt

(TC

PULSES

20

OF

ON-STATE
PER

MICROSECOND

PEAK ON-STATE

di/dt

(Tc

40

CURRENT

= 65°C)

PER

30

CURRENT

= 90°C)

400

60

SECOND

40

60

1000

1000

60

80

T

400

J

100

60

I

BO

100

924

WATT-SECONDS

PER

PULSE

I C384/C385

di/df

::

IOOAMPS/~SEC

21<

3)(

41<

5)(

61<

91(

10

20

30

40

5060

eo

100

puLSE

BASE

8.

ENERGY

AND

PER

PULSE WIDTH

400

200

WIDTH-MICROSECONDS

PULSE

VS.

(di/dt

GOO

800

II<

PEAK CURRENT

= 100 A//lsec.)

10K

1000

800

600
500

400

300

200

100

1000

800

600
500

400

3001---!---+--+-

-t;;

0250~

,

02

Ol~

..

~

016

014

~~

,~~

~6

~

~

003

80

~2

01--­01--

40

--

30

0

10

'--"--'-r-1-r--r-r-::-::-,-",;;;:T""""nT"''''''''-~:;;:::-,==-:-:::-::-o::--r-,,-.-'

1---'-

...............

~

........

..........

......

:::::::

~

-

-

-

"-

---

-

20

30

9.

ENERGY

-+-t--t-1-t;';Tit'-'k:-"""","',...'

......

No.4

J).~

......

~"'""'-........::

['.

.::::

~

......

......

......

......

::::

~

~"

r--.

....

~

......

::::t--

r-..

~

I"---

r-

r-...

~

,:-.

-

40

5060

aD 100

PULSE

PER

PULSE WIDTH

AND

~

"-

~

~

"-

,r-..

~

~

:::::

..........

~

:';

--

200

BASE

PULSE

I:.0~

~

""

r--.

~

1"

r-..

r...

t......'

1'

......

t-..

t:;:

~

i'-

:-::

::--..

400

WIDTH-MICROSECONDS

....

i::::~

~

.....;

:::~

~s:

~

r-...

~~

~~

.......:

:;:~

r-..

r-...

r-.r-......

F'--

r-...

........

'~

r-..

---

600

BOO

VS.

PEAK CURRENT

(di/dt

= 25 A//lsec.)

WATT

-SEC/PVLSE

t"-......

" "

..................

.

~

~

...........

c-.....

t:::

t;:

~

~

~

~

di/dt

IK

21<

3

6

•

,

'c:-...;

"

....

'I'......

::::

,

~

~

~

~

'",

"

~

'~

t::

~~

....

.....

~

~~

~

:::....

:--...

~

- -

.L~

::

25

AMPS/",SFC

31(

41<

51<

61<

BK

10K

80

60

-

50

'

40

30

di/dl::

5 AMPSIj.!SEC

21<

31(

4K 5)(

61<

8K

10

20

30

40

50

60

80

100

200

400

GOO

800

IK

VS.

PEAK CURRENT

(di/dt

= 5 A//lsec.)

10.

ENERGY

AND

PULSE WIDTH

PULSE

PER

BASE

WIDTH-MICROSECONDS

PULSE

101(

925

C384/C385l

~

6000

w

'"

~

2000

«

,:.

1000

Z

w

600

'"

::>

'"

u

200

w

100

~

C/)

60

Z

0

C/)

20

::>

0

w

10

z

«

I-

6

Z

«

I-

(J)

2

!'E

I

o 2 3

11.

10,000

9,000

w

!i

6,000

I--

'i'(J)

5,000

~~

's:~

4,000

«::;:

'3:«

~~

3,000

(J)Z

Ij~

«~

Xu

2,000

«

""

w

Q.

I'

I

I

INSTANTANEOUS ON·STATE VOLTAGE-VOLTS

MAXIMUM

./'

V

L

/TJ=125°C

ON-STATE CHARACTERISTICS

INITIALITJ c -40

~~kco

~

l..--

0

6

TO

DOUBLE-SIDE COOLING

--

+125°~

~

-

(J)

::>

o

w

Z

f'!

Z

~

(J)

!'E

.2

.3

4

12. GATE TRIGGER CHARACTERISTICS

60,000

':!,.

50,000

C/)

Q.

C/)

<!>::;:

~

40,000

:~<tO

H!;t

~

hj30,000

D::,£SU)

-

20,000

10,000

8,000
6,000

5,000

4,000

3,000

.4.5.6.7.8

INSTANTANEOUS

AND

--

--

GATE

POWER

INITIAL

--

1.0

CURRENT

RATINGS

TJ =

-40°C

2.

- AMPERES

TO

+125°C

r--

-

3.

4.

5.

6.

7.

8.

10

..,

r-

r--

r--

-

AT

60

I-

!i

~

"-

~

I

W

U

Z

«

0

w

Q.

~

-'

«

:li

w

'"

X

I-­I--

Z

w

U)

z

«

I-

'"

10

Hz

1.01

.1

.01.

./

001

~

15.

20

V

~

~~

.01

TRANSIENT

/:::::

2

13. SURGE (NON-REPETITiVE) ON-STATE CURRENT

5

CYCLES

60

14. SUB-CYCLE SURGE (NON-REPETITIVE)

rtrWCOrEr~

./'

.....

,.

"'"

.1

TIME - SECONDS

THERMAL

JUNCTION-TO-CASE

OOU\3LE.-SIOE COOLED

1--'

I

IMPEDANCE -

2,000

I

ON-STATE

10

1.5

2 3 4 5 6 9

PULSE BASE WIDTH - MILLISECONDS

CURRENT

100

AND

2

1

t RATING

10

926

~

~

4

f----!---+----!-----c

~ 3 f---+---+--~

'"

CJ

2

'"

I

W

'"

<{

'"

I

U

0

W

0.6

w

'"

0.5

>

0

0.4

u

w

0::

0.3

4 5 6 8

REVERSE

dlldt(AMPERESII'-

16.

TYPICAL

RECOVERED CHARGE

SINEWAVE

CURRENT

10

RECOVERED CHARGE

~'tt±mAMPERES

20

30

40

50

60

SEC) ....

AT

WAVEFORM

80

25°C

500

400

300
200

100

ITM=50

100

DATA

C384/C385

100

~=l==~=l=~=l=l==R=a==l==l===l==r==r=Bffi

t

80r_-+~

w

60r--+~

gi)

40

3

:::J

30

8 =

~20~-+~---r~-+++~

u

W

0::

;;:;

l0t=±=t=

c:

B

1----+--+-

w

'"

6

0::

<{

I

U 4

IL--L~

I 4 5 6 8

17.

__

-1_~-+-+++++

__

-1_~-+-+++++

__

-L~~-L~~

REVERSE

TYPICAL

RECOVERED CHARGE

SINEWAVE

__

__

__

10

dl/dt

(AMPERES/I'-

CURRENT

+--+

+--+

~-+-

__

+--r4-++~

__

+--r4-++~

__

~-L~~~

20

30

40

SEC)

WAVEFORM

50

....

AT

125°C

60

80

100

500

400

300

100

AUK

CATHODE

f)

RED

f

P

--

H

~

L

----~~~~~~~==T~T

\----------

E

-1

i

,1---L..-,

ACCEPTS AMP.
TERMINAL
OR

H ­T

-SURFACE

#60598-1

EQUIVALENT

STRAIGHT

CREEPAGE

LEAD

LENGTH,

TYP. 2

,

I

A

TYP.

LEADS

D

.

.

---J

,

OUTLINE

R-DIA.

S

-DEEP

I:

.

+

t

B

DRAWINGS

1;-

C

f

!

SYM

A
B
C

D

E

F

G

H

J

K

L
M

N

P

R

S

.,.

,

U

TABLE

DECIMAL

MIN

.744
.030
.515

1.600
.110
.031

.057

7.980

-

.137

.065

.245
.120

1.090

.135

.067

':tAr.

.-.1.,.....,

.186

OF DIMENSIONS

Conversion Table

INCHES METRIC

MAX.

.752
.060

.565

1.656

-

.017
.059

B.115

.300
.153

.070

.260

.140

1.125
.145

.083

-

.189

MIN.

18.897
.762

13.081

40.64

2.794
.330

1.447

202.70

-

3.479 3.886

1.651

6.223

3.048

27.69

3.429

1.701

8.636

4.724

MM

MAX.

19.101

1.524

14.351

42.06

-

.432

1.449

206.11

7.620

1.778

6.604

3.556

28.

3.683

2.108

-

4.801

55

S27