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C434
Data Sheet
3 pgs281.66 Kb0
Data Sheet
3 pgs270.49 Kb0

Powerex C434, C435, CA398, C436, C379 Data Sheet

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5.2
C434
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
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 +
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
5.3
Expanded Electrical Characterization
10000
III
UJ
a:
UJ
Q.
:;
«
f-
Z
UJ
a:
~IOOO
u
UJ
f-
«
f-
III
I
Z
o «
'"
UJ
Q.
100
6.
,L.
~
........
-
..
""-
'(0
'~it
10
MAXIMUM
VS. PULSE WIDTH
t
(-
-
.....
°0
PULSE BASE WIDTH (j.LSEC)
ALLOWABLE PEAK ON-STATE CURRENT
:-::::
--
~
~
SOo
~
.....
F::-:~
~
'::..
........
2S
--rs.°01j
.....
~
~
100 1000
FOR
T c =
MOUNTING
TRAPEZOIDAL CURRENT WAVEFORMS
F=
~
""
~
100
a
Ij~
I.
Vs'
400V
2.
di/dt • 100A/USEC
3.
2000LB
4. DOUBLE SIDE COOLED
5.
1-
MOUNTING FORCE
RC
SNUBBER:
VR
I-;-~;-
VR
65°C & 2000
r--
0
.....
6
1t
0",
~
0.25
< 10V IIIII
~
40~VI
"
UF, 5 OHM
10000
LBS.
7.
MAXIMUM
VS.
IC434/c435
PULSE BASE WIDTH (j.LSEC)
ALLOWABLE PEAK Ol\l-STATE CURRENT
PULSE
WIDTH
FOR
T c =
MOUNTING
90°C & 2000
SCRI
LBS.
8.
MAXIMUM
VS.
PULSE BASE WIDTH (j.LSEC)
ALLOWABLE PEAK ON-STATE CURRENT
PULSE
WIDTH
FOR
T c =
65°C & 800
MOUNTING
10000
I.
Vs'
400V
2.
di/dl • 100A/USEC
.
3.
RC
--
---
r-.
t--..
'"
O~--
10
10
ENERGY
SNUBBER:
VR S IOV
VR:S
[;<
"
.......
~
......
......
{.
[-.
"-
In
UJ
a:
w
Q.
:;
«
I
f­Z
W
0::
~IOOO
u
UJ
f-
«
f-
In
I
Z
o
'"
«
w
Q.
10.
9.
LBS.
0.25 5
OHM
400V
",
"
.....
'r--
UF
V
~
~
/"-
'~
.....
"-
""
~
MAXIMUM
4. CURVES VOLTAGE LOSSES.
..,.. THIS
I'..
"'
N
i't<lr.1"
r<'
~~
"'III
",
VS. PULSE
1'-.
••
.,..
I
"J1'
('0
>f,o~~r--.~~
ALLOWABLE PEAK ON-STATE CURRENT
00
NOT
INCLUDE BLOCKING
ON
A PER CYCLE
VA
(llfl
VA'
e6~T:~~CKING
1'...
I'
.045
f •
~
'"
'<>&
~t=~o~
~ ~
',-
~
r-...
~
r,i'
~'~~
"S
100
PULSE BASE WIDTH (j.LSEC)
PER
PULSE FOR TRAPEZOIDAL CURRENT
S
~
PULSES
213
.......
........
Ko
r-....
~S
~
1000
.......
PULSE BASE WIDTH (j.LSEC)
WIDTH
FOR
T c =
MOUNTING
TO
COMPUTE
BA5IS'
WHElM
A
REPETiTiON RATE 1Hz)
t
'0
I'.~s-
L
r--. r--.
'"
~'"
10000
90°C & 800
LBS.
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