Powerex C354, C355 Data Sheet

HIGH

The General Electric

C354

Silicon

and C355 Silicon Controlled Rectifiers are de-

Controlled

Rectifier

signed for power switching at high frequencies. These are all-diffused Press-

the

Pak devices employing

FEATURES:

..

Fully characterized for operation in inverter and chopper applications.

..

High di/dt ratings.

..

High dv/dt capability with selections available.

..

Rugged hermetic glazed ceramic package.

TYPES

C354A, C355A C354B, C355B 200 C354C, C355C 300 C354D, C355D 400 400 C354E, C355E 500 500 C354M, C355M 600 600

field-proven amplifying gate.

REPETITIVE

VOLTAGE,

TJ

=

-40°C

MAXIMUM

PEAK

OFF-STATE

VDRMI

to

+125°C

100

Volts

ALLOWAB RATINGS

REPETITIVE

VOLTAGE,

T J =

-40°C 100 Volts

200 300

PEAK

VRRMI

to

REVERSE

+125°C

NON-REPETITIVE

REVERSE

VOLTAGE,

T

=

J

200 Volts 300 400 500 600

720

+125°C

PEAl<

VRSM

1

Half

sinewave waveform 10 ms max. pulse width.

Peak One Cycle Surge (Non-Repetitive) On-State Current,

One Cycle Surge (Non-Repetitive) On-State Current, I

Peak

2

t (for fusing) for times ~ 1.5 milliseconds. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1

et

(for fusing) for times ~ 8.3 milliseconds . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Critical Rate-of-Rise Critical Rate-of-Rise Average Gate Power Dissipation, Storage Stemperature, T

Operating Temperature, T Mounting Force

tdijdt

ratings established

20 ohms gate trigger source with 0.5/1s short circuit trigger current rise time.

of

On-State Current, Non-Repetitive

of

On-State Current, Repetitive

PG(AV)

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

stg

.••..•••••.••.•..•••..••......•..••......••.•.•.......

J

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

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

in

accordance with EIA-NEMA Standard RS-397, Section 5.2.2.6 for conditions

ITSM

TSM

.....

(60 Hz) (50 Hz)

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

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

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

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

891

.. ..

........

9.500

RMS

13,500

RMS

of

max. rated VDRM;

1,800 Amperes

1,700 Amperes Ampere2 Seconds Ampere2 Seconds

..

800

A//ls

500

A//ls

2 Watts

-40° C to + 150° C _40°C

to +125°C

800 Lbs. ± 10%

KN

3.56

± 10%

20

volts,

"I i"

RISTICS

I

TEST

Repetitive Peak Reverse and

Off-State

Repetitive Peak Reverse and Off-State

Thermal

Critical Rate-of-Rise Off-State Voltage (Higher Using Linear Values May Cause Device Waveform. Switching)

Current

Resistance

of

C354 C355

Holding Current

DC Gate Trigger

DC Gate Trigger Voltage

Peak On-State Voltage

Turn-On Delay Time

Conventional Circuit t Commutated

(with

Time

Voltage) (4)

Current

Turn-Off

Reverse

SYMBOL

IRRM

and

IDRM IRRM

and

IDRM

ReJc

dv/dt

Higher

IH

IGT

VGT

VTM

td

q

MIN.

-

- -

-

200 100

-

0.25

-

C354 C355

TYP.

12 17

-

500 300

minimum dv/dt selections - consult factory.

100

50

100

3.0 5.0

1.25 3.0

2.2 3.0 Volts

-

MAX.

5 12

.26 .13 Junction-to-Case - Double-Side Cooled

-

150 200

30

- -

1 2

120

UNITS

rnA

DC/Watt

V//lsec

mAdc

Vdc

/lsec

Tc

Junction-to-Case - Single-Side Cooled

TJ =

Exponential

Tc = +25°C, Initial On-State

Tc

Tc Tc

Tc

RL = 3

Tc = O°C

RL = 3

Tc

Tc = +25°C,

Duty Tc

Supply:

0.1 /lsec rise

(1)

(2)

(3)

-

9

12

10 20

(5) Rate-of-Rise

(6) (7)

(8)

= +25°C, V =

= 125°C, V = V

+125°C,

+25°C,

=

-40°C, V

= = +125°C,

= -40°C

= +125°C, VDRM, RL =

Cycle ~ .01%

=

+25°C,

Tc = +125°C ITM = 50

VR = 50

V

DRM

Voltage = 20 V//JJlec (linear).

Commutation Duty Gate

o Volts, 100

Conventional Circuit Commutated Time

(with

Diode) (4)

I

Turn-Off

Feedback

C354 - 12 C355

tq(diode)

I

-

15

1-

j1sec

(1)

Tc = +125°C

(2)

ITM

(3)

VR = I Volt

VDRM

(5)

Rate-of-Rise

Voltage = 20 V//lsec (linear)

(6)

Commutation

(7)

Duty

(8)

Gate Bias During

o Volts,

TEST

VDRM

Gate

or

Exponential

dv/dt = VDRM

Anode

Current

VD

D

VD = 6Vdc,

to

O°C, V

Ohms

to

+125°C,

Ohms

ITM = 500

IT =

20 Volt

Bias During

Open

time

Amps.

Volts

(Reapplied)

of

Cycle ~ .01%

Ohms

= 150 Amps.

(Reapplied)

of

Cycle ~ .01%

100

Ohms

CONDITION

= V

RRM

= V

DRM

Open.

Supply = 24

RRM

VDRM = Rated,

Rising

(.632)

T

Vdc.

= 2 Amps. = 6 Vdc, RL = 3 =

6Vdc,

RL = 3 RL = 3

= 6 Vdc,

D

V

= 6

Vdc

D

1000

Ohms

Amps. Peak

50

Adc, VDRM' Gate

Circuit,

Min.

Reapplied Off-State

di/dt

Turn-Off

Reapplied Off-State

di/dt

Turn-Off

20

Ohm,

= 5 Amps//lsec.

Interval =

= 5 Amps//lsec

Interval =

Ohms Ohms Ohms

,Consult factory

for

specified maximum turn-off time.

SINE

RRENT

DOUBLE-SIDE COOLING

RATI

C354/c355

Ul

w

ffi

Il.

~

1000

~

a:

a

w

~

Ul

I

Z

o

,,/'

'"

~

Il.

100

100A/!"S/

/'

/'r"

/'

/

-

5000

I

PULSES PER

-

2500

Sl!:c

ft

100

PULSE

BASE

WIDTH-

1.

MAXIMUM

CURRENT VS. PULSE WIDTH

ALLOWABLE

'"

°"'0

'~400

1000

MICROSECONDS

PEAK ON-STATE

(Tc

"'-

= 65°C)

II

III

60

10,000

Ul

W 0: W

Il.

::E

1000

<t

I

!z

~

w

~

Ul

I

Z

0

~

100

10

I I "

100Al!"o/

/

"'"

./

m

/'

/"

V--

100

PULSE

2.

MAXIMUM

CURRENT VS. PULSE WIDTH

pu(

s<'s

-

2500

BASE

WIDTH-MICROSECONDS

ALLOWABLE

~

P<'/y

~<'COil'

I

I""N.

........

400

I I

r-.

1000

PEAK ON-STATE

(Tc = 90°C)

~

60

10,000

893

I

C354/C355

1000

t--

-

r--

100

r-

"-

10

3.

ENERGY

-r-.

·0,

!"-..r-..

I

r::::::

~

-.....

-..

........

-.......

--

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

~

-.,..,

"r---

",

"

,0"

""'DIS

~

""

100 1000

PULSE

BASE

WIDTH-MICROSECONDS

PER

PULSE FOR

~

~~

.~

""'-

-lV-<'"

I~"

~

.1iI<

,?;f..'l~r

-0S .....

s~C'

~

"-

':"t

"-

~"-

I'-'

SINUSOIDAL

>

S

~

",<s"",-

.........

I"

""'-

~

,,~

1\

""I"-

~U'<'

,

"-

."-.,

PULSES

NOTES:

1.

i'

10,000

Switching voltage ~ 400

2.

Maximum

3. Reverse voltage applied = VR

4. Required gate drive: 20 volts,

}.!sec

20

amps/}.!sec

5. R-C

6. Double-Side Cooled

7. Max. energy dissipated during reverse recovery of is

8, Values

volts,

Snubber

total

least,

ckt.

65

ohms, 1 }.!sec

20

ohms,

W-S/P

of

W-S/P are

dv/dt = 100

ckt.

shown

volts.

.5

}.!sec

= 0,25}.!f,

in

chart 5 or

for

T J = 125°C.

volts/}.!sec

<400

volts.

rise

time

for

less

rise time for greater

5.11

0.03

W-S/P whichever

than

100

than

to

amps/

be

100

15%

(f)

w n: w

a..

;;;:

<t

I

I-

Z

w n: n:

::)

u

w

I-

<t

I-

(f)

I

Z

0

<t

""

w

a..

(f)

w n: w

a..

:;:

<t

I-

z

w

r:t

n:

::)

u

w

I-

~

(I)

z

0

<t

""

w

a..

I

800

600

400

300

200

150

4.

800

600

I

400

300

200

I

150

100

80

RATE OF RISE

5.

5

RATE

OF

MAXIMUM

CURRENT

I-

5

ON-STATE

MAXIMUM

CURRENT

RECTANGULAR

DUTY

10

RISE

10

CYCLE 50%

PULSES PER SECOND

20

ON-STATE

ALLOWABLE

VS.

di/dt

PULSES PER SECOND

CURRENT

20

AMPERES

ALLOWABLE

VS.

di/dt

400

I I

1000

30

40

CURRENT-AMPERES

PEAK (TC

30

PER

60

ON-STATE

= 65°C)

0

400

1000

40

60

MICROSECOND

PEAK ON-STATE

(TC

= 90°C)

WAVE

60

80

100

(f)

w n:

w

a..

::;:

<t

I

I-

Z

w n: n:

::)

u

w

l-

f:!

(f)

I

Z

0

<t

""

w

a..

::;:

<t

I-

w

::)

u

z

<t

""

800

600

400

300

200

RATE

(f)

w n: w

a..

I

Z

400

n: n:

w

I:::::

j::

(f)

I

0

w

a..

100

OF

800

600

300

200

150

100

DUTY

I=-

5 10

RISE

ON-STATE

6.

MAXIMUM

P-,

5

PEAK

ON-STATE

7.

MAXiMUM

CYCLE -

CURRENT

ALLOWABLE

CURRENT

PULSES PER

10

CURRENT

ALLOWABLE

CURRENT

VS.

25%

20

30

AMPERES

PEAK

di/dt

(Tc

SECOND

20

30

AMPERES

di/dt

40

PER

= 65°C)

400

J

1

000

40

PER

PEAK (Tc

= 90°C)

60

400

1000

60

MICROSECOND

ON-STATE

60

I

60

MICROSECOND

ON-STATE

Hz

Hz Hz

80

100

-I-

100

894

1000

aoo

500 400

600

300

'DO

100

,...."'-

r-

r-.

-

0 0

40

'0

0

!O

0.2

-.......

.gea

~4

.......

~

UO

i;;;;-

f'..

0,06

0.04

003

0.02

20

8.

ENERGY

WATT -

1

0.25

0'0

"'-

,

r---.

'I'

I"

r=::

r-

r-r=:

i-

1

Cs

~t:

I-

r--

I

30

405060

AND

PULSE

SECONDS

'I'-....

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

~

r:::~

i"

-....

~~

r-.:::---

[--.....

-~

--

80

100

PULSE BASE WlOTH-MICROSECONOS

PER PULSE VS. PEAK

WIDTH

PER

I 1

I

1.0

I'-

t'-.

i'.,

:--...

~

-..:

;::

~'"

i",....

.......

-

r--

-..::

i"

.-

r-.

-.......

b

~I-r::::

200

400

(di/dt

,"'"

~

f'~"

~

~~

,....

t-..:i"

I'-.

i'~'"

i'.l:'......~

:-..~

600

BOO

II<

= 100 A/psec)

,

1.5

2

i'..'

l""

t-::

~

.........

"

'"

~

.........

"

"'

0-

~

2K 3K

CURRENT

4 5

.'

~

f' f'1'

;::

r"

::-

i'.:

~

41<

t:::"

~~

~

1"'"

I'.:

"'"

51<

6K

8K

10K

C354/C355

1000

-l~

600

--

500

400

'00

200

1000

10

800

600 500

400

300

20

~

0.1

-.

o~

0;

t---

r;;-;;s..

-

r--

~

0

003

o~

0

0.02

0

0.015

0

0-·

10

,,0

9.

ENERGY

~-j---

I

0

'~~

10

0

o

f~,'':::::::

~

::::-,."

r-c;;;;;

0-

0

10

,,0

----

-1-

--~'~~

;;;;;::

,

.......

.....

,

......

,

:::::

......

[

...

;::

-

r--

,....

--1-

30

405060

AND

PU

--""

-1--\-1

r.-

Olt':'

'O:OOI~

oo~06

'

004,

'"

-

::--,,-

'"'-

30

........

~

r--

405060

..

WAn

-s~c

/ PULSE

~.

."

i'......l"'--

"'

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

r-.~

i"~

i"i"-.......

r-K--

80

PER PULSE VS.

b:::

t:::

r-....

~

I'-....

r--.

-

f;

1----

1---·

100

200

PULSE BASE WIDTH-MICROSECONDS

LSE

WIDTH

WATT-

SEC

025

0.3

OA

~"'~

.......

~~~

"~

r-..~

80

~

......

-........

:--".-

I

...........

~

::::::.:::::

i

100

200

PULSE

BASE

WIDTH - MICROSECONDS

05

)6

,

I

........

"r-

i'..

........

~l'

........

"r'-

"'-

......."

,

~

""-

--

"-

1

400

(di/dt

/

PUL~iE

~,~

i'-~

.........i'

r-~

~

::--..-'

1'-."-

",-'

'"

.......

""

400

1.0

i'.:

"

.........

~

,

........

:::--

600000

PEAK

~

-......:

........

"-,.

""-

bOO

1.5

,

4 5

r.....

"~,,

,,~

~~

II<

= 25 A/psec)

1.0

"i".....,"-

'~

~~t'-

"t".~~"'"

BOO

IK

3

t'-.

"'''

f'

.........

::::

"

""'"

3K

---

I'-

I"-..

,

\'...

""

"-

::-.;

"

,

_K

"

41<

4

4K

K~

1"-.."

1"-"

r-

l"

i'..

"

r--.l"'-.

"

~"'-

~"

---

-

51{

61<

8K

101<

__

1_-

--

5

"

,,'

,,!'-

,

"

,,!'-

",

~~

"

"-

",:::,

i";:[s

:"-,~

p,.~

I

51<

6K

BK

10K

~

.........

..........

~

" "

.........

"

~.

'-....~

"

21<

CURRENT

---~

----

15

,

~""

"-

:--.....

..........

1'-..

,"-..,'

""-'-'

i'---"-....~~

I I

I

21<

10.

ENERGY

AND

PER

PULSE

PULSE VS.

WIDTH

(di/dt

895

PEAK

= 5 A/psec)

CURRENT

C354/C355

en

2000

W

l!j

1000

a.

:i

600

I

400

I-

Z

200

W

0:: 0::

100

:::>

U

60

W

40

\;{

l-

20

f{'

Z

o

10

en

:::>

6

o

W

4

Z

q:

I-

2

Z

q:

I-

I

en

o

~

11.

.;

~

A

/~

;'

1/

/

TJ

=

1250cI

/TJ

0

=

25

i I

,

:

INSTANTANEOUS ON-STATE VOLTAGE - VOLTS

MAXIMUM

2

ON-STATE CHARACTERISTICS 12. GATE TRIGGER CHARACTERISTICS

3

-

4

~

POWER

AND

RATINGS

I

I-

Z

W

0:: 0::

:::>

U

W

I-

q:

I-

en

I

zen ow

Ww

>a.

q:::;; ;;:q:

W

z

en

1I..

...J

q:

:c

q:

'"

W

a.

3000

2000

INITIAL

~--..

TJ = -40°C

~F-..

-

2

.........

3 4 5 6

NUM8ER

l"-

i"-

OF

i"

...

18

CYCLES

r-~

10

AT

0::

1000

800

600

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

I

w

U

Z

q:

0

w

a.

::;;

-I-

...J\;{

:li3t

0::0::

I

Ww

i=a.

I-u

Zo

!:'

(J)

z

q:

0::

I-

y'"

I .0

.001

TO

+125°C

~

-...,..

20

30

60

HERTZ

405060

/.;::;

r

AI~~

.01

20

1

';:.::;;

wf

>1-

q:z

;;:w

wO::en

z:::>w

(jiuo::

lL.W~

...JI-::;;

~~q:

",f{'

q:z

wO

a.*

U 15,000

W

en

'"

-0:

10,000

q:

I/)

:IE

0::

,000

8,000

6,000

4,000

3,000

2,000

1,000

-

INITIAL

r--.

-

2

PULSE 8ASE WIDTH -

:3

TJ = -40°C

r--

---

4 5 6 1 8 9

MILLISECONDS

r--

TO

+125°C

r-

>-

i"-

10

14. SUB-CYCLE SURGE (NON-REPETITIVE) ON-STATE

E.

COOLED

E._SID

~

ttnlll

V _SIDE COOLED

_O()uSLE.

'e""

V

./

V

.1

TIME

- SECONDS

10

CURRENT LOAD 1

100

2

t

RATING

15.

TRANSIENT

THERMAL

IMPEDANCE -

JUNCTION-TO-CASE

896

C354/C355

~

30

~t

...J

5

20

o

0::

o

:;;

I

U

10

w

~

8

a:

o

6

UJ

~

5

<!

I 4

o

~

3

w

>

o

~

21

RECOVERED CHARGE

Lb

400 300

,....."'"

L

.......

:/

,.....

,.........

V-

...........

/.

V

V"

V I

V

::;;.-::;..

/

,.............

...

V

,....

16.

TYPiCAL

V

.......

....,..,

2 3 4 5 6 8

REVERSE

SINEWAVE

,.....

".,.

,.....

".,.

~

di/dt

RECOVERED CHARGE

DATA

I

";---

I

II

:;l:T~;:::

F-'

;;;;.c~....,..,

i-"

I=-->:

k-"

00

......

1.

..-"\GO

........ ~ SO

1.~'"

10

- AMPERES PER MICROSECOND

CURRENT

WAVEFORM

~

-;:::.

--

~E.S

P.

20

~

cli

F-"'"

V

......

F-"'"

",.,....

30

40

AT

I--

50

60

--

12SoC

F-"

F-'

E:

80

100

f)

f

H

AUX.

CATHODE

RED

1+-------0

--

OUTLINE

DRAWING

R-DIA.

S-DEEP

DECIMAL INCHES

SYM

MIN

A

.744

B

.030 .515

C

0

1.600

E

.110

F

.031

G

.057

H

7.980

J

-

.137

K

L

.065

M

.245

N

.120

P

1.090 ,135

R

S

.067

T

.340

.186

U

TABLE

Conversion

1.656

8.115

OF DIMENSIONS

Table

MAX.

.752 .060 .565

-

.017 .059

.300

.153 .070

.260

.140

1.125 .145

.083

-

.189

METRIC

MIN.

18.897 .762

13.081

40.64

2.794 .330

1.447

202.70

-

3.479

1.651 1.778

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

3.886

6.604

3.556

28.55

3.683

2.108

-

4.801

ACCEPTS AMP. TERMINAL OR

H T

-SURFACE

#60598-1

EQUIVALENT

STRAIGHT

LEAD

LENGTH,

CREEPAGE

I--

A

TYP.

TYP. 2 LEADS

B

897

Powerex C354, C355 Data Sheet

Specifications and Main Features

Frequently Asked Questions

User Manual