
5.2
Condensed Electrical And Thermal Characteristics And Ratings
I
GETYPE
I CONSTRUCTION
SPECIFICATIONS
1'-V,_o_lt--'ag::...e_R_a--'ng::...e
Forward Conduction
I(RMS)
I
TSM
2
1
t Max. 12t for fusing 1.5 msec (A2sec)
ReJc
tq
QR
R
dildt
T
J
dV/dt
IGT
VGT
V
TM
ReJc
Package Outline No.
Max. Mounting Force
Expanded Electrical Characterization, see page:
I Voltage Drop Model: V F ; A +
2 Transient Thennal Resistance Model: RSJC ;
_____________
Max. forward conduction sinusoidal:
@T
=
65°C,
= 50V
J.Lsec
J.Lsec
J
50% duty (A)
(J.Lsec)
reapplied
reapplied
reapplied
reapplied
(AI
(V/J.Ls)
-40°C
2
B·
LN(l) + CI
charge(J.Ls), T
J.Ls)
of
to +
1
c
@60Hz.
@600Hz.
@
1000Hz.
@
1200Hz.
@2500Hz.
@5000Hz.
@ 10,000 Hz.
Max. peak one-cycle, non-
repetitive surge current (A)
Max. thermal impedance (OC/w)
Thrn-offtime @ rated voltage and T
V
?:
R
@ 20V I
@
lOOV/J.Lsec
@
200V/J.Lsec
@ 400V I
Max. reverse recovered
Critical rate-of-rise
of
on-state current
Junction operating temperature range
Min. critical rate-of-rise
voltage, exponential to rated V
@ Max. T
Max. required gate current to trigger (mA)
@
-40°C
@
+25°C
Max. required voltage to
trigger (V) from
Max: forward voltage
drop for the
current
range:
Transient thermal
resistance for
time:
INVERTER SCRs
650
AMPERES
50Hz.
60Hz.
J
=
25°C
J
(0C)
off-state
DRM
125°C
IMIN(A)
IMAx(A)
A
B
C
0
T
MIN(s)
T
MAX(s)
F
G
Lbs
KN
+ D
~l.
G
F.
t
276
I C437/C438 I C376 I C377/C378 I C397/C398
AMPLIFYING I AMPLIFYING I AMPLIFYING I AMPLIFYING
GATE GATE GATE
I
L
:.~0-1200
100,000
-40
I 500-1400 I 500-1400 J 500-1200
750
585
500
425
200
-
-
7000
7500
.045
30
40
-
75
800
to + 125
200
400
200
5
500
4000
2.96
- .45
9E-5
.0667
.001
.01
.292
.618
276
2000
8.9
216
500
500 600 610
500 600 -
500 600
480 500
400 440
- 350
5800
6000
54,000
.06 .06 .06
-
-
20
-
40
800 800 800
0
-40to + 1250 -40
200
400
200 200
5
300 300
7000 7000
-2.32
1.09
.0015 .0054 .00068
- .137
.001
.01
.292
.618 .618
276 276
2000 2000
8.9 8.9 8.9
187
600 650
7200/6800
750017000
85.000172.500 100,000
-
-
40/30 60
-
90 75
to +
200 200
400 300
5 5
3.04 .265
-.31
.024
.001
.01 .01
.292 .307
188/189
125
GATE
400
250
150
-
7000
7500
40
TYP.
50
-
0
-40
to + \25
150
200
4000
.247
-.0176
.001
.628
276
2000
200
0
137

5.3
Expanded Electrical Characterization
SINUSOIDAL CURRENT WAVEFORMS
~OOOO'~~~~~~~~~~~~~~~
w
a:
bJ
lI-
::I!
<l
I
I-
Z
...
II:
!IOOO~~~~~~~~~~~~~~~~~~~~~~
S
~
<II
c=~;::~~ttw=~=t
~
o
~
...
1-"-;=-+-+1-1-++1-1--+-+
II.
1.
MAXIMUM
VS.
ALLOWABLE PEAK ON-STATE CURRENT
PULSE WIDTH
FOR
MOUNTING
I.
'Is'
2.
RC
3.
800
4.
DOUBLE
___
___
T c =
BOOV
SNUBBER:
LB
MOUNTING
SlOE
VR
VR:::
Q
65
C &
0.25
UFo
FORCE
COOLED
:::
10
v r-+-H+H
BOOV
BOO
LBS.
5
OHM
~OOOO~~~~~E!lE~~~~~~
UJ
a:
UJ
II.
:::E
<I
,
I-
Z
.....
a::
alooo~~E:t
III
S
,
'"
z
o
::c
<l
III
II.
10000
100'----'----'--'-'-'-
10
2.
MAXIMUM
VS. PULSE WIDTH
ALLOWABLE PEAK ON-STATE CURRENT
--t--t-
100
PULSE BASE
FOR
MOUNTING
!.VS·800V
2.
3.
4,
WIDTH
T c =
FlC
BOO
DOUBLE
-VR:::l0V
---VR:::
SNUBBER:
(!-'SECI
LB
MOUNTING
SIDE
1000
0.25
COOLED
BOOV
90°C & 800
UFo
5
FORCE
LBS.
6"0
OHM
~;;;;;*=::t:1:frml:==rt=t
..
;:;;;;ii..-1""""'!-==t-H-t+tt----t--'-
3.
MAXIMUM
VS. PULSE
ALLOWABLE PEAK ON-STATE CURRENT
WIDTH
FOR
MOUNTING
<II
III
II:
1.&.1
0.
::I!
<l
,
I-
Z
I.
'Is •
800
2.
3.
4. DOUBLE SlOE COOLED
T c
V
RC
SNUBBER:
2000
LB MOUNTING
--VR:::IOV
---VR:::
65°C & 2000
0.25
800'1
UF,
FORC
LBS.
50H
4.
MAXIMUM
VS. PULSE WIDTH
ALLOWABLE PEAK ON-STATE CURRENT
FOR
T c =
90°C & 2000
LBS.
MOUNTING
'"
!IOOO~~~~~~~~~~~~~~~~~~~~~;
S
'"
z
o
'"
<l
W
0.
,
~
NOTES:
1.
Switching
2. Reverse Voltage Applied VR T
3. R-C Snubber Circuit . 251-'f.
4.
Double-Side Cooled.
Voltage s
800
Volts.
150.
800
Volts.
5. ENERGY
PER
PULSE
PULSE
BASE
WIDTH
l/LSECl
FOR SINUSOIDAL PULSES
216

5.3
Expanded Electrical Characterization
IC437/C438
SCRI
TRAPEZOIDAL CURRENT WAVEFORMS
It
Ii"
6'0
10000
(III)
1
0
""
'0
10000
10000
!II
IJJ
a::
IJJ
a.
:E
C(
I
IZ
IJJ
a::
~IOOO
<.>
w
1/
A
~
!II
I
Z
o
C(
'"
IJJ
Il.
7.
--
i'-...
1'---
100
10
MAXIMUM
VS.
10000
(J)
IJJ
a::
IJJ
a.
:::
<t
I
I-
Z
IJJ
a::
!!l1000
<.>
w
~
!II
~
o
C(
'"
IJJ
a.
9.
-
...........
...
_-
100
10
MAXIMUM
VS. PULSE WIDTH
I.
Vs • eoov
2.
di/dl
• 100 A/USEC
3
800
LB
RC
SNUBBER:
-VRS
~iil
PULSes
~~
- '100
1000
m
(/'oSEC)
MOUNTING
SIDE
VR S eoo
,I
Pc",
/
r---..
-
I
"
'.
j.-~-
4. DOUBLE
5.
I-
~'
-
---
--'"
~--
--
--
100 1000
PULSE
BASE
11
WIDTH
ALLOWABLE PEAK ON-STATE CURRENT
PULSE
WIDTH
FOR
T c =
90°C & 800
MOUNTING
I.
Vs'
eoov
2.
di/dl
• 100 A/USEC
3.
2000
LB MOUNTING FORCE
/
-
.If
I
PULSES~~_
V
-
-
-
-.
f---
I-
100
PULSE
--
--
sE.C
--
BASE
OriO
1000
WIDTH
r-
4. DOUBLE
5.
RC
SNUBBER:
-VRS
---
'100
1000
(I'SECl
SIDE
VR S eoov
---::::::--
ALLOWABLE PEAK ON-STATE CURRENT
FOR
T c =
90°C & 2000
MOUNTING
COOLED
0.25
10V
v
J
°'-io
LBS.
COOLED
0.25
10V
~
"',
~
FORCE
UFo 5 OHM
6'0
10000
UFo 5 OHM
10000
LBS.
I.
Vs = eoov
2.
di/dl
10000~~~~~~ff~~~~~fI~~~~~~~~~
!II
~
I--+--+-++++H¥--+-+-+
~
i--+-++++-bI'9+--+-+-+
:E
C(
1-_t-II~/~ttHt-=~~~r.ttP~Ul;S~E~s=p~IL-~I_~I,,~
I-
I
~
a::
w
~IOOO~II/I'-I~II~gll
!;[
1/'
\;;
~
o
C(
'"
w
a.
6.
MAXIMUM
VS. PULSE WIDTH
It"
1"''''I-l-4-oI-H'''---~'''
, ....,..........
-....
.........
PULSE
-
...
BASE
10
r~
WIDTH
ALLOWABLE PEAK ON-STATE CURRENT
FOR
T c =
• 100A/USEC
3.
eoo
LB
4. DOUBLE
5.
00
MOUNTING
SIDE
RC
SNUBBER:
-VRS
___
(I'SECl
COOLED
0.25
10V
VR S eoov
C"'s
1-~~O'-iO
r-O;:OI:i!;lIl'll
400
65°C & 800
FORCE
uFo 5 OHM
.1
lBS.
MOUNTING
10000
!II
W
a::
w
a.
:E
C(
I-
Z
W
a::
g;
1000
<.>
w
1/
~
I-
--........
!II
I
Z
o
C(
'"
w
--
a.
100
10
8.
MAXIMUM
VS. PULSE WIDTH
II
/
PULSES;:~
/
I"-
r---....
I"-
ALLOWABLE PEAK ON-STATE
-
PULSE eASE
2500
---
100
FOR
I<
SECOriD
T c =
I.
Vs • eoov
2.
dildl
3.
2000
4. DOUBLE
5.
RC
SNUBBER:
-VRS
---
1-_. -
1000
WIDTH
m-~
(!,-SEC)
65°C & 2000
• 100 A/USEC
LB MOUNTING FORCE
SIDE
COOLED
0.25
UFo 5 OHM
10V
VR S eoov
,
6'~
40
1000
0
~~
CURREI\JT
LBS.
MOUNTING
10000
I.
Z.dlldt = 100A/USEC
3.RC SNUBBER:
!II
W
a::
--VNSIOV
w
---
a.
:E
C(
I
I-
Z
IJJ
a::
!!l1000
<.>
IJJ
S
~
z
I'...
o
C(
'"
w
a.
10
a
10
10.
ENERGY
V. = 400V
0.Z5
~
1'
...........
UF, 5 OHM
VRS400V
~~
~
:::.~
.......
..
':-..
ft~
r--...
PER
I'-or-.
PULSE
J
~
PULSE
L
""-
.......
~
I
100
4. CURVES
VOLTAGE LOSSES.
"
ON
::--. WHERE
r-....
~
.......
.........
'"
,
~;;::~
'''1""
.....
FOR
i'~
":
,
~
BASE
WIDTH
TRAPEZOIDAL
DO
NOT INCLUDE BLOCKING
TO
A PER CYCLE BASIS: _ =
iJ-
4
....
COMPUTE THIS
VA = AVG.
BLOCKING
l=
.04!lA
7"'
= REPETITION RATE 1Hz)
~~
VA
VOLTAGE
~~a
~~-91
...............~
=::"
"""
~
~~
1000
(!,-SEC)
N"~.I'~
,,~t5-
"
~""
,~o
I'
I"
1"0./'1
i'
CURREI\JT
PULSES
217