Powerex C392, C393, C394, C395 Data Sheet
600
Volts
(500-700)
Amps
le393
95
RMS
The General Electric C392, C393,
for
fiers are designed
power
C394
switching
diffused Press-Pak devices employing
FEATURES:
" Fully characterized for operation in inverter and
" High
..
" Rugged
IMPORTANT:
High
di/dt
ratings.
dv
/dt
capability
hermetic
Mounting instructions
1300
"00
;;;
:t
1000
~
;]
~
~
~
~
~
glazed ceramic package having 1" creepage path.
0
--1-+-+++-1-1- \
1-
900
-
600
700
600
f\J'L
500
SINUSOIDAL
'00
300
200
WtNEFORM I I
50%
DUTY
180°
CONDUCTION
65°C
CASE
600
VOLT
5n,o.2}JF
oL-~~~~~lll_-L-L~~llL_~
with
selections available.
on
the last page
HIGH
'"
-I-
~
\ I
1\
CYCLE
TEMPERATURE
SWITCHING
SNUBBER
FREQUENCY
IN
Hl
FREQUE
-I-~I-H--I--I
"".
++--1--1
CJ95
1
1
H-t-N+--i--I
-----1-
10,000
and C395 Silicon
at
high frequencies. These are
the
field-proven amplifying gate.
chopper
of
specification
I
1
Controlled
applications.
must
be followed.
1000
m
~
900
:]"
BOO
-TI
I
~
700
~
:::
~M
~
50%
~
400
1800
~
300
65°C
~
600
i
200-
5 n
~
100
rttH--
-i------ri--I--I~~H-+
Recti-
a11-
NGS
I
-----1---1---1---1-1\
~
DUTY
CYCLE
CONDUCTION
CASE
TEMPERATURE
VOLT
SWITCHING
,0.!2}JF
100
-I
SNUB
1 I
AMPLIFYING
I----Ig~~'t__I-I-+++H
GATE~t
L,I\-''----+_~-_-L
~
--
-----j---i-++++H
--'\.------+----I--++-+-+-H
BE
R
T+i
FREQUENCY
~
------I-~--~---I-W-
il--+---I--H-+H+I
1000
IN
Hz
10,000
Equipment
" Choppers
..
Inverters
Like the
Type
designers can use the C392, C393, C394,
" Regulated Power Supplies
..
Cycloconverters
FOR
SINEWAVE
C140/141,
OPERATION
C158/159
and C358 SCR's,
the C392, C393, C394, C395 SCR's are rated for:
..
Peak Current
vs.
..
Pulse Wiclth
..
Frequency
..
Case
Temperature
C3
947
5 SCR's
in
demanding applications, such as:
"
DC
to
DC
High Frequency Lighting
"
FOR
RECTANGULAR
WAVE
Converters
OPERATiON
G E now introduces a new, high-frequency rating for
the
C392, C393, C394, C395 SCR's, which are:
..
Peak Current
vs_.
..
di/clt
of
Leading Edge
" Frequency
Duty
Cycle
" Case
Temperature
I C392/C393/C394/C39S1
MAXIMUM
ALLOWABLE RATINGS
Repetitive Peak
TYPES
C392,C393,C394,C395A
C392,C393,C394,C395B
C392,C393,C394,C395C
C392,C393,C394,C395D
C392,C393,C394,C395E
C392,C393,C394,C395M
o Half
sinewave
Peak One Cycle Surge (Non-Repetitive) On-State Current, I
Peak One Cycle Surge (Non-Repetitive) On-State Current, I
2
1
t
(for
2
1
2
1
2
1
Critical Rate-of-Rise
Critical Rate-of-Rise
Average Gate
Storage
Operating
Mounting
fusing) for times;:;' 1.5 milliseconds - C392, C393 . . . . . . . . . . . . . . . . . .
t
(for
fusing) for times;:;' 1.5 milliseconds - C394, C395
t
(for
fusing) for
t
(for
fusing) for times;:;' 8.3 milliseconds - C394, C395
Temperature,
Temperature,
Force
waveform,
Oower
Required
10
times;:;'
of
On-State Current, Non-Repetitive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
of
On-State Current,
Dissipation, P
Tstg
......................................................
T
.•......................•.......•................•....
J
.......................................................
Off-State Voltage,
T
=
J
ms
max.
pulse
8.3 milliseconds - C392, C393
G(A
V)
CD
V
ORM
-40°C
to
+125°C
100 Volts
200
300
400
500
600
width.
Repetitive.
....•............•...•...............•..•.........
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Repetitive Peak
Reverse Voltage,
VRRMCD
T
= -40°C to +125°C
J
200
300
400
500
600
(60
(60
Hz)
Hz)
TsM
TSM
....................
....................
....................
100
Volts
- C392, C393
- C394, C395
.............
.............
..
50,000
100,000
120,000
250,000
Non-repetitive
Reverse Voitage,
V
T
150
300
400
500
600
720
(RMS
(RMS Ampere)2 Seconds
(RMS Ampere)2 Seconds
(RMS Ampere)2 Seconds
RSM'D
= 125°C
J
Volts
Ampere?
Peak
5500
8000
..
..
_40°C
_40°C
2000
8.9
800
500
Amperes
Amperes
Seconds
Alps t
Alps t
2 Watts
to
+150°C
to
+125°C
Lb. ±
KN
±
10%
10%
I
tdi/dt ratings established in accordance with
20
ohms
gate trigger source with
TEST
Repetitive Peak Reverse
and Off-State
Repetitive Peak Reverse
and
Off-State
Thermal Resistance
Critical Rate-of-Rise
Forward
(Higher values may cause
device switching)
Holding Current
DC
Gate Trigger
Current
Current
Blocking Voltage
Current
of
0.5
}J.S
short trigger current
SYMBOL
IRRM
and
IORM
IRRM
and
IORM
ROJe
dv/dt
Higher
IH
IGT
EIA-NEMA
Standard
rise
time.
CHARACTE R ISTiCS
MIN.
-
-
200
-
-
-
TYP.
S
20
.OS
SOO
minimum dv/dt selections
40
70
100
2S
RS-397,
MAX.
.06
1000
200
400
ISO
Section 5.2.2.6 for conditions of
UNITS
IS mA
4S
DC/Watt
-
V/psec
available
mAdc
mAdc
mA
max.
rated
VDRM;
TEST
CONDITION
T
= +2SoC
J
V =
VORM = VRRM
TJ
= 12SoC
V =
VORM
Junction-to-Case (Double-Side Cooled
TJ =
Linear
Exponential
consult factory.
Te
= +2SoC, Anode Supply =
Initial On-State Current = 10 Amps.
Te
=
Te
=
Te
= +12SoC,
= V
+l2SoC,
or
Exponential
+2SoC,
-40°C,
RRM
Gate
Open. V
Rising Waveform.
dv/dt = VO_RM
"'
Vo
= 10 Vdc,
Vo
= 10 Vdc, RL = 1
Vo
= 10 Vdc, RL = 1
ORM
(.632)
24
RL
= Rated
Vdc,
= 1
20
Ohm
Ohm
Ohm
volts,
948
TEST
DC
Gate
Trigger Voltage V
Peak On-State Voltage
C392, C393 3.3 4.2
C394, C395 2.3 2.5
Turn-On Delay Time
Conventional Circuit
Commutated
(with
Time
Turn-Off
Reverse
Voltage)
C392,
C394
C393, C395
C392,
C394
C393, C395
Conventional Circuit
Commutated
Time
(with
Turn-Off
Feedback
Diode)
C392, C394
C393, C395
tConsult
HDelay
tHCurrent
factory for specified maximum turn-off time.
time may increase significantly as the gate drive approaches the IGT
risetime
as
SYMBOL
GT
MIN.
-
-
0.15
VTM
td
-
tq
-
- 12
-
-
tq(diode)
-
measured with a current probe,
CHARACTERISTICS
TYP.
3
1.50
0.5
8
MAX.
3.0
-
-
UNITS
5
Vdc
Tc = _40DC
RL
= 1
Tc
= 25
RL = 1
Tc
= +125
Tc
Volts
= +25
Duty
Cycle ~ .01%.
Pulse Width = 3.0 ms
Tc
/lsec
= +25
Supply:
/lsec max. rise time.
0.1
(1)
/lsec
t
t
Tc
(2)
ITM
(3)
V
R
(4)
VORM
(5) Rate-of-rise
voltage
(6)
Commutation
(7)
Repetition
(8) Gate bias during
o volts, 100
12
17
14
20
(1)
Tc = +l25
(2)
ITM
(3) V
R
(4)
VORM
(5) Rate-of-rise
voltage
Commutation
(6)
(7) Repetition
(8) Gate bias during
o volts, 100
(1)
Tc = +l25DC
(2)
ITM
(3)
VR
(4)
VORM
(5)
Rate-of-rise
voltage
(6)
Commutation
(7)
Repetition
(8) Gate bias during
18
25
/lsec
t
t
o volts, 100
of
or
voltage risetime across a non-inductive resistor.
the Device Under Test.
I C392/C393/C394/C395!
TEST
CONDITION
to
25DC,
Vo
Ohm
D
C
to
+125DC,
Ohm
D
C,
VORM,
D
C,
ITM = 3000
D
C,
ITM
20 Volt
D
= +125
= 50 Volts Min.
C
= 500 Amps.
(Reapplied)
= 20 V //lsec (linear).
rate = 1 pps.
D
= 500 Amps
= 50 Volts Min.
(Reapplied)
= 200 V//lsec (linear).
rate
= 500 Amps
= 1 Volt
(Reapplied)
=
200
rate = 1 pps.
Vo = 10Vdc,
RL =
= 50 Adc,
Open
Circuit,
of
reapplied off-state
di/dt = 25
turn-off
ohms
C
of
reapplied off-state
di/dt
= 1 pps.
turn-off
ohms
of
reapplied off-state
V//lsec (linear).
di/dt
turn-off
ohms
= 10 Vdc,
500
Ohms
Amps
Peak
tt,
VORM.
ttt
20
Gate
Ohms,
Amps//lsec
interval =
= 25 Amps//lsec
interval =
= 25 Amps//lsec
interval =
10,000
1000
100
~
/
1-
f--
I-
t--
r-TTIII
10
f---
1-15,000
IO,DOOHl.
4
,1
PULSE
l--
1""00
100
I-
2500
"
BASE
1'>(;
l..SF~
r--
I'-
1'1000
"
WIDTH-(jLSEC)
1000
1
"'Z1'>~1r
~co
1\10
~60
10K
"400
I
n.
949
3.
MAXIMUM
CURRENT
SINE WAVE CURR
ALLOWABLE PEAK ON-STATE
VS.
PULSE WIDTH
RATING
(Tc
= 65
D
DATA
Cl
I
C392/C393/C394/C39S!
r--t--- I
100.L-
__
10
I-i~,o~o
-L
__
L-~-ULU~
10,000
I I I
IV,
I
100
PULSE
__
-L
BASE
__
L-~-LLLU-
WIDTH
4.
MAXIMUM
CURRENT
__ ~ __
1000
-(
fL
SEC)
~~LL~U
101<
ALLOWABLE
VS. PULSE
PEAl< ON-STATE
WIDTH
(Tc
= 90°C)
Ui
w
n:
w
n.
O!
"
IW
I-
oW
2:
n:
n:
::J
u
w
<t
l-
f
z
c
<t
"
n.
10,000
1000
100
-
!--
---
10
-
-1-1-
-
--
---
I'---......
.........
.........
r£Z
t"'--
~
h
"'~
~
.........
l'.........
"
~
I'
100
PULSE
BASE
I,
"-...
/Y-<J1'
I'-.
~~8
~co
~~,
"'-
"
...............
~O
~
WIDTH-(fL
~
~
,o~-)l
~
i'
,0&
<8:--
-...
...
f-
'~
N's
...............
"
O"S
l'...
'"
~
1000
SEC).
~
~S
'"
'r.........
r.........
i'-..
"'~
!i'-..S
.........
'"
'"
'"
5.
ENERGY
SINUSOIDAL
PER
PULSE FOR
PULSES
"-
10K
950
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