Powerex C154, C155, C156, C157 Data Sheet

HIGH SPEED

Silicon

600

Controlled

VOLTS

110A

Rectifi

RMS

The General ElectIic C154, C155, C156 and C157 Silicon Controlled Rectifiers are designed for diffused

FEATURES:

" High di!dt ratings. " " Excellent surge and 12t ratings providing easy fusing.

Pic-Pac devices employing

High

dv!dt capability with selections available.

" Guaranteed maximum " Rugged hermetic package with long creepage path.

TYPES

C154A, C156A, C157A

C154B, C155B, C156B, C157B

C154C, C156C,

C154D, C155D, C156D,

C154E, C156E, C157E

C154M, C156M,

C155A,

C155C, C157C

C157D C155E,

C155M,

C157M

power

turn·off

REPETITIVE

switching

time with selections available.

VOLTAGE,

T

= ·40

J

at

high frequencies. These are all

the

field proven amplifying gate.

MAXIMUM

PEAK

OFF·STATE

VORMI

o

C

to

+125°C

100 Volts

ALLOWABLE

REPETITIVE

VOLTAGE,

T

=

J

RATINGS

.40oC

100 Volts

200 200

300

400 400

500 500

600 600

PEAK

VRRMI

to

REVERSE

+125°C

AMPLIFYING

NON·REPETITIVE

REVERSE

VOLTAGE,

T

=

J

160 Volts

260

380

480

600

720

GATE

C154/155

PEAK

VRSMI

+125°C

1 Half sinewave waveform, 10

RMS On-State

Current, Peak One Cycle Surge (Non-Repetitive) On-State Current, I Peak One Cycle Surge (Non-Repetitive) On-State Current, I Critical Rate-of-Rise Critical Rate-of-Rise

I2

t (for fusing) for

12t (for fusing) for

ms

max. pulse width.

IT(RMS)'

of

On-State Current, Non-Repetitive

of

On-State Current, Repetitive. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

times? times?

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

(60 Hz)

TSM

(50 Hz)

TSM

...

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

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

1.5 milliseconds . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8.3 milliseconds

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

..

9,500 (RMS

13,500 (RMS Ampere)2 Seconds

.. ..

Ampere?

Average Gate Power Dissipation, PG(AV) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Storage Temperature, T Operating Temperature, T

Torque

Stud

t

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

di/dt

20

ohms gate trigger source with

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

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

stg

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

J

0.511s

short circuit trigger current rise lime.

AO°C to +150°C

. AO°C

150 Lb.-In. (Max.), 125 Lb.-ln. (Min.)

17

N-m

(Max.), 14 N-m (Min.)

of

max. rated VORM;

823

110 Amperes 1800 Amperes 1700 Amperes

800

A!/ls

500

A!/ls

Seconds

..

2 Watts

to

+125°C

20

volts,

'I 'I

C154,C156 C155,C157

CHARACTERISTICS

TEST

Repetitive

Peak Reverse

and Off-State

Current

SYMBOL

IRRM

IORM

Repetitive and Off-State

Peak Reverse

Current

IRRM

IORM Thermal Critical Rate-of-Rise

Resistance

of Off-State Voltage (Higher values

may

cause device

switching)

C154/C156

C155/C157

Holding

DC Gate Trigger

Current

DC Trigger Voltage V

Peak

On-State Voltage V

Turn-On

Conventional Commutated Time

Delay

(with

Time

Circuit Turn-Off

Reverse

Voltage)

C154/C156 C155/C157

Conventional

Commutateel Time

(with

Circuit

Tum-Off

Feedback)

tq(diode)

Diode)

C154/C156 C155/C157

MIN.

-

TYP.

5

MAX.

12

UNITS

rnA

and

-

12

17 rnA

and

ReJc

dv/dt

-

200 100

.2 .3

500 300

°C/Watt

V//lsec

-

For higher minimum dv/dt selections - consult factory.

IH

IGT

GY

-

- 50 150

-

100

200

30 120

3.0

5.0

1.25 3.0

mAdc

Vdc

0.15

TM

td

tq

-

- 12

2.2 3.0

Volts

1 /lsec

/lsec

8

10 20

/lsec

-

- 15

12

t

i"

TEST

= +25°C

T

J

V =

VORM

= V

TJ=125°C

V =

VORM

= V J unction-to-Case TJ = + 125°C,

Linear Exponential

Tc

= +25°C,

Initial

On-State

Tc

=

Tc

=

Gate

or

Exponential

.

dv/dt = --

Anode

+25°C,

-40°C,

Tc = +125°C,

TC

==

-40°C

to

RL = 3 Tc

RL = 3 Tc T c = +25°C,

Duty Tc

Supply:

0.1

(1)

(2) (3) (4) (5)

(6)

(7) (8)

Ohms

==

O°C

to

+125°C,

Ohms

==

+125°C, V

ITM

Cycle < .01 %

= +25°C,

20

IT

Volt

/lsec max. rise time.

Tc

= +125°C

ITM

=·150

V

==

50

R

VORM

Volts

(Reapplied)

Rate-of-Rise

Voltage

==

Commutation

Duty

Cycle < .01%

Gate Bias During

o Volts, 100

(1)

Tc

==

(2) (3) (4)

+125°C

ITM = 150 VR = 1 Volt VORM

(Reapplied)

(5) Rate-of-Rise

Voltage

(6)

Commutation

(7)

Duty Gate

(8)

==

Cycle < .01%

Bias During

o Volts, 100

CONDITIONS

RRM

Open. V

ORM

Rising Waveform

V

ORM

(.632)

T

Supply = 24

Current Vo Vo Vo = 6Vdc,

O°C,

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

RL = 3

Vo

= 6Velc,

Vo = 6Vdc,

,

RL

==

ORM

1000

= 500 Amps. Peak

= 50 Adc, VORM,

Open

Circuit,

20

Amps.

Min.

of

Reapplied Off-State

20 V //lsec (linear)

eli/dt = 5 Amps//lsec.

Turn-Off

Interval

Ohms

Amps.

of

Reapplied Off-State

20 V//lsec

eli/elt = 5 Amps//lsec

Turn-Off

Interval =

Ohms

= Rated,

Vdc.

Ohms

Gate

Ohms,

==

tConsult factory for specified maximum turn-off time.

824

SINE

WAVE

DATA

C154, C156 C155,C157

2000

Ul

1500

w

a::

w

a..

:l;

<t

f-

Z

w

a:: a::

:::>

u

w

!;t

f-

Ul

0

<t

w

a..

1000

800

I

600

400 300

I

z

200

150

'"

100

10~

10

A/JS./

~

V

--

-

/

--

..-

PULSE

2500

ILl

......

100

BASE

1. Maximum allowable peak on-state

2000

1500

Ul

w

a::

1000

w

a..

:l;

<t

I

f-

Z

W

a:: a::

i3

w

~

U)

I

Z

0

<t

'"

~

800

600

400

300

200

100

80

10

100 A

I,.,.

/

/"

-

r

....--

5

....

PULSE

100

BASE

I I

~uzJ~lll

"'~I?

s~C

'

......

i'

1000

I

~s

f:J~1?

'-.......

"'400

1000

"OtvD

s~c

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

"::"00

..,fOoo

..........

......

WIDTH-MICROSECONDS

current

-

2500

WIDTH-MICROSECONDS

vs. pulse width

I)

r-.....

u

i'

1000

1111

Zs

-

6'0

.......

r--..,

i'

(T

c = 65°C)

~tvD

"",

'"

10K

60

10K

2. Maximum allowable peak on-state

NOTES: (Pertaining

to

Sine

and

Rectangular

1. Switching voltage <

Maximum

2. Required

3.

20

4. Reverse voltage applied = VR <

5.

R-C

6. Max. energy dissipated

15% of is Va

7.

ckt.

gate drive:

volts,

20

Snubber

total

least.

lues of W-S/P are

dv/dt = 100

ohms,

.5

ckt. = .25

W-S/P

400

)isec rise

during

shown

for

825

current

Wave

volts.

volts/)isec.

time.

)if,

5

ohms.

reverse recovery

or

0.03

Tj =

125°C.

vs. pulse

Current

Ratings)

400

volts.

W-S/P, whichever

width

to

(T

c = 90°C)

be

C154,C156 C155,C157

SINE WAVE

DATA

V>

~

400

Ii'

1

300

I-

2:

W

~

200

::J

U

OJ

t;

l-

V>

,

100

z

0

80

'"

w

"

"-

60

4.

MAXIMUM

1000

:;J

cr

w

a.

Z

<t

I

I-

Z

w

cr cr

r---

::J

U W

r---

!;i

t;

100

I

Z

o

<t

'"

W

a.

~

10

50%

PULSES

10

RATE OF

AMPERES PER MICROSECONO

ALLOWABLE

CURRENT

r--

...........

-....,

3.

ENERGY

DUTY

PER

20

RISE

ON

VS.

di/dt

-

r-

-I-

~

r-...

SECOND -

30

-STATE

PEAK (T

PULSE

PER

40

CURRENT

ON-STATE

c

==

65°C)

-..

-

--.....

..........

~

""

........

~

"'"

"'-

""

"

~

I~s

100

BASE

WIDTH-MICROSECONDS

PULSE FOR

-

60

400

1000

I I

I

60

80

100

r-

i'

i'..

r---

I"-,

"'-

,

"'-

,!'-,

.........

""'-0",

-os

'-0.1

"'r--.,

SINUSOIDAL

"-

'"

"

'-

""

""'''

~x"-

~

"0>,

"-

,

"

"-

"'

"'-""

,,""

1000

500

:z

400

ffi

"-

::;

300

I

"

I-

Z

~

200

Il:

::J

U

OJ

I-

....

"

V>

I

100

z

0

80

'"

w

"

"-

60

5.

MAXIMUM

,

,Jflll

.<>&.~~

s

.1

(s,,,,,,,-

"-

"

"-

~s('

,

i'.

f',t'-

"-,

'"

"-

"""-,,,'

<0

~

i'-

"-

""

"-

""

\,

"

~"

"

PULSES

25%

I

~uLsl

10

RATE

OF

AMPERES

ALLOWABLE

CURRENT

Z)

10K

DUTY

PJR

20

RISE

ON'-STATE

PER

VS.

SECOND _

30

CURRENT

MICROSECOND

PEAK

di/dt

(Tc

-

400

,11

40

ON-STATE

==

65°C)

60

1

60

80

100

I

U)

w

400

a:

w

"-

::;

300

~

I-

Z

W

a:

200

Il:

::J

U

150

w

l-

i"

U)

I

100

z

0

80

'"

w

"

"-

60

6,

MAXIMUM

PULSES

10

RATE OF RISE

AMPERES PER MICROSECONO

ALLOWABLE

CURRENT

PER SECOND

20

ON

- STATE

VS.

di/dt

60

400

1000

30

40

CURRENT

PEAK

(Tc

60

ON-STATE

==

90°C)

U)

OJ

400

a:

w

"-

::;

300

I

"

I-

Z

w

200

Il: Il:

::J

150

u

w

I-

'"

100

U)

I

Z

80

0

'"

60

w

"

80

100

"-

7.

MAXIMUM

PULSES

-

10

RATE

AMPERES

ALLOWABLE

CURRENT

OF

RISE

VS.

PER

20

ON-STATE

PER

di/dt

SECOND

30

40

CURRENT

MICROSECOND

PEAK (TC

==

60

400

1000

60

80

ON-STATE

90°C)

100

826

1000

BOO

600 500

400 300

'00

100

BO

60 50

40

30

'0

.....

-

r-.

r--

I-

10

8.

.......

0.2

0.25 0.30

..Q;"

,

..!2;!4

~

.;;;;;.;;~

20

i'

"""

"

~

:-.

i':::::

r-

0.06

0.04 003

O.Ol

I

30

40

50

ENERGY

AND

,

""-

r-

60

PULSE

1

r

WATT-

SEC/PULSE

0.6

0.5

f'......""

:'--

~

........

r-.:

r--

..........

r-:::

'"

..........

200

WIDTH

O.B

,

['...

t'--

"

:::::'

~

......

r-

.....

I~

-

~"'f;::

r-...

400

(di/dt

0.4

--.........,

I"'-

I"'-i'-..~

f::~

I'-

~~

~

...........

1'-1"'--........

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

t-

::--

80

100

PULSE BASE WIDTH - MICROSECONDS

PER PULSE VS.

1.0

I

1.5

i"'-..

1'--

<"'-'

~

,~"

~

~~~

::-...,

~~,~

.....

" "",

t--...

'C'-...

'"

,::-..."

.....

",~

.....~

---r--'-

I

600

OOIK

PEAK

CURRENT

= 100 A/psec)

2.

"-

21< 3 41(

3 4

<,

.~

~

"'"

~

dl/dl

I

5

1

"-

'I.

t-...,

':::S::~

,

'"

~~

~

0-

k::,

1'-'

~

r-.:

~'\

~

= 100

AMPS/~SEC

,

K

51<

6K

OK

10K

C154, C156 C155,C157

1000

BOO

600 500

400

30

0

-

20

o=--

-

r--

10

0 0

01--0

0 0

0

10

9.

1000

BOO

600

500

400

0-

30

20

a

10

0

00°\5

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

01

00.

o-

0

°r-~~~~

10 ! 20

10.

02

02.5

015

0.1

r"--

0.;;;-

r-...

.......

0.06

r......

......

r;;;;-

:::::~

~

""-

0.03

0.02

nOIS

20

30

405060

ENERGY

AND

_;_

010

OO~

OBi"",

004,

003

" "

O~

i'-

j-....

r--..

.......

r-.

30

405060

ENERGY

AND

03 04 05

.......

r......

""

'-,::<:::::,1'--,

r......

......

~

-

......

,

f::::

.....

--.........,

.......

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

-

r--

-

t-r-...

I

60

100

PULSE

PER PULSE VS.

PULSE

0.25

020

016

012

"

,,,,

~"

~

,,,,

1"-,

~

:..

"

.......

r-.......

~

-.............:

I

t--i--'~

BO

100

PULSE OASE WIDTH - MICROSECONDS

PER

PULSE

,

WATT

-SEc

I PULSE

.......

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

'.....i"--

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

"-

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

.....

........

-

......

,

r--.

200

BASE

WIDTH-MICROSECONDS

WIDTH

WATT-

SEC I PULSE

0,3

-oAOSi

;::

:;::

~

........

~

........

,

"'

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

~~~

200

PULSE VS.

WIDTH

I I I

0608

10

"-

~~

.....

"

i'

,

,,~,

'm

~t--

;:

'",I'-

........

,

'I"'-

........

I I

r.......

~

t-...,

j-....

........

1'

..

~~~~"",

t......i'-..

,

""

........

,

j-....I"-

:::.---

400

600

800

PEAK

(di/dt

I

0.8

,1.0

"-

,

~"-...

,

:::::'

~~~

,

K~:"""""'"

'-

'"

'-

......

""

.....

'

I i

-~

~r

400

600

a

00

PEAK

(di/dt

"-

i"

~"

1"-""",

~

......

.....

,

0-,'

1"-"-...

""

di/dl " 25

2K

IK

CURRENT

= 25 A/psec)

t~

,~

,"",

"

~

~"

~

,,,-,,

,,-......:

"-..

"'"

~

:"....."

di/dt ~ 5 AMPS/}l-SEC

I

IK

2K 3K

CURRENT

= 5 A/jlSec)

~-

~~

~

,,-'

'."""'"

'"

"

,~

~i'-

,"-l',

"

AMPS/fLSEC

31<

41<

5K

6K

I

~

-~

, ,

I"f-

"-,i"'>

"-

f'

"I'-

"-,1"'-

"-,

"I"-

b"

~~

"I'

i'..

"-..1,\

~

\.['\

i'\

i':r-...

I

4K

SK

6K

BK

10K

BK

10K

827

I C154, C156 I

C155,C157 I

0010,000

W

a::

W

a.

::;;

<t

I-

1,000

z

W

a:: a::

::l

u

~

100

~

00

I

Z

o

(J)

g

10

w

z

~

z

~

(J)

Z

I

[33,000 a::

W

a.

::;;

<t

I

I-

~

2,000

a:: a::

::l

u

~

o

~

W

1,500

Z

W

1,000

z

iii

lL. ...I

<t

:r

~

a.

800

600

~

1

T

125°C

•

J

I i

I

,

:

INSTANTANEOUS ON-STATE

11.

MAXIMUM

~""

1.5

'""""

~

3 4 6 8

2

NUMBER

13.

MAXIMUM

(NON-REPETITIVE)

I""'"

&IIJII'

~

A

~

?-/TJ z 25°C

I

234

ON-STATE CHARACTERISTICS

INITIAL

.......

~

VOLTAGE

TJ :

-40·C

!'"""

I'-~

- VOLTS

TO

+125°C

--,

'"

20

OF

ALLOWABLE

10

CYCLES

AT

CURRENT

60Hz

SURGE

30

----

~

....

40

60

40,-----r-~r_,_,_TlIA~~--_r~~~~~~

00

301-----t---t---I-+-_t_:..

~

~201-----+---+-~~+-~~~~--

I

w

(!>

<t

~

10~====~~=t==~~t=~,

>

81__--.~--_+-+_+-~~~;

W

!;i

(!>

00

::l

4~--~---t--+-+-+-~~-----~

o

~

31-!~r---f"'"C

<t

I-

Z

~

2

00

z

INSTANTANEOUS GATE CURRENT - AMPERES

12. GATE TRIGGER CHARACTERISTICS AND

20

1

,000

~

15,000

00

N

€

~

10,000

<t

~

8,000

a::

W~~

~~

6,000

4,000

3:w

W~oo

3,000

Z::lW

iiiua::

lL.w~

...11-::;;

2,000

~~<t

~<?

<tZ

wO

a.~I,OOOI

14. SUB-CYCLE SURGE (NON-REPETITIVE)

~

1.5

PULSE BASE WIDTH

ON-STATE

POWER

INITIAL

2

CURRENT

~

RATINGS

TJ •

-40·C

r---

-

3

TO

+125°C

--

4 6

-

MILLISECONDS

2

AND

1

t

r--

RATING

r--

I'--c

8

-

10

I-

0.4

I-

~

a::

W

a.

~

0.3

I

W

u

Z

~

0.2

~

...I

<t

::;;

a::

W

I

i:

O.

I-

Z

!:!:!

(J)

Z

<t

i-'"

a::

I-

15. TRANSIEI\JT

r-

....

,./

./

r

IO

MILLISECONDS

THERMAL

"r

V

/

V

/

V

~

100 I

"'r

TIME

IMPEDANCE - JUNCTION-TO-CASE

828

10

SECONDS

10

0.1

o

(f)

III

:;:

10

o

..1

::J

o 6

17.

U

o

W

(!)

0::

~

o 0.6

W

0::

~

o

~

0::

5

::l...

U 3

W

0:: 0::

2

I

O.B

//

-:;..r/

'lV

0.5

VV

0.4

V

03

1

TYPICAL

f::;:~~

h

~~

./

V~V

/'

~

.a

......

........

RECOVERED CHARGE

SINEWAVE

4 5 6

REVERSE

V

di/dt

(AMPERES/j-L SEC)

CURRENT

~

V

8

10

.....::

h

'l

V

20

WAVEFORM

"/

V V V

V

........

--1/1>

E

G L

I'

REO

J~~

r-r=-~~

L-

~EE~~N-"O-T-E-2-L=<-L--!

l~

i

N

~

AUX.

AND

IS

2.5

TERMINAL

CATHODE

COPPER

ONE

IS

STEEL,

DIA.

THREADS

GATE

OF

MODEL

C154,

CI55

NOTES:

I.

GATE

e.

2. FLEXIBLE

3.

ONE

NUT

HARDWARE

4.

"R"

DIM.

5.

"T"

DIM. IS AREA

WITHIN

6. ANGULAR QRIENTATIQN

CD

LEADS LEAD. LOCKWASHER

EFFECTIVE SEATING AREA.

UNTHREADED PQRTlON. COMPLETE

D

TERMINAL TERMINAL

® ®

AUX

CATHODE

SUPPLIED

tAD

SUPPLIED WITH

PLATED.

OF

SEATING PLANE.

OF

TERMINALS

CATHODE

LIGHTLY TWISTED

IS

RECOVERED CHAR

......

1/

"'"

V

30

40

50

DATA

(TJ = 12SoC)

TERMINAL

+

EACH

UNIT. MATERIAL

UNDEFINED.

~~

pP'" 1-->

60

80

100

OUTLINE

--

SEATING

®

ANODE

-

TOGETHER.

THDS.

5

00

400

300 200

I

00

DRAWING

PLANE

R

S

THREAD

1/220UNF-2A

OF

ARE

SIZE

(f)

~

o

..1 3

::J

o u 2

::l...

u

w

0::1

0::

o

t!,

(!)

0::

<r

I

U

o

W

0::

w

>

o

u

W

0::

16.

f

GE

DATA

0

4

0

8

-::;;.--

6

~

5

-

r::;...---

4

~

:5

r

~

2

I

TYPICAL

SYM

A 1.020 B C 1.57.0 D 6 .

6.850

E

F

G

H

J

K

,...

~

.-

..-

~

......

3 4 5 6 8

REVERSE

.....,

-

V

2

RECOVERED

SINEWAVE

INCHES

MIN.

MAX.

MIN.

1.14.0

25.90

.390

.500

1.750

39.87

.000

6.39.0

152.40 162.31

7,50.0 173.99 190.50

:797

.827

20.24

.14.0

.150 3.55 3.81 .3.00

-

.500

.61.0 12.70

.260

.281

.,..

I-""

~

..,.-

10

di/dt(AMPERES

CHARGE

CURRENT

METRIC

MM

9.9.0 12.7.0 M

6.60

MAX.

28.96

44.45

21..01

7.62

15.49

7.14

SYM

k:;:::

~

I.--

..-

-

20 30

Ip.

SEC)

-I>

DATA

WAVEFORM

INCHES

MIN. .330

L

275

N

.065

.840

P

Q

.425

.92.0

R

-

T

V

1.052

C154,C156

I

C155,C151

I

j::;..

E::-

f-

l-

t-

-p

40

5060

80

(TJ = 25°C)

METRIC

MAX.

1..063

MM

MIN. MAX.

-

8.38

.325

6.98 . .095 1.65 2.41 .910 21.33

1.0.79

.499

23.36

-

- 1.57 5

. .06.0

26.72 27.00

500 400 300 200

100

ITM=5 AMPERE

100

-

8.26

23.11

12.67

-

I

o

s

NOTES

4

C156, CI57

NOTES:

I.

ONE OF

2.

"T' WITHIN

3.

ANGULAR

MODEL

NUT

AND

HARDWARE

DIM.

IS

AREA

2.5 ORIENTATION

TERMINAL

GATE

ONE

LOCKWASHER

IS

STEEL,

OF

THREADS

TERMINAL TERMINAL

CD

CATHODE

SUPPLIED

CAD

PLATED.

UNTHREADED

OF

SEATING

OF

TERMINALS

@

+

PORTION.

PLANE.

IS

@)

ANODE

-

WITH

EACH

COMPLETE

UNDEFINED.

THREAD

1/2·20

UNIT.

S

UNF-2A

MATERIAL

THDS.

SIZE

ARE

829

INCHES

SYM

MIN. MAX.

A 1.020 B C

D 1.660 1.8.0.0 E .312 F .797 G H

J

K

1.140

.390

1.460

REF

.060 .385 .445 .198 .212

.50.0

.827 .075 AI5

A85

METRIC

MIN.

25.9.0

9.90

7.92

42.16 7·92

20.24

1.52

9.77

11.30

5.02

MM

MAX

28.96

12.70 REF.

45.72 REF.

21.01

1.91

1.0.54 T

12.32

5.38

SYM.

L

N

P

Q

V

INCHES

MIN.

.590

. .058 .

.840

.425

-

1.052

METRIC

MAX. MIN.

.64.0

14.98

.07.0

1.47 1.78

.910

21.33

10.79

.499 .06.0

-

26.72

1.063

MM

MAX.

16.26

23.11

12.67

1.52 2

27.00

NOTES

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