Page 1
T72
Other lead code
options available
Outline
Features:
• Center fired
• High
di/dt
• High
frequency
• Sinusoidal
Rectangular
•
•
Low
dynamic
•
Low
switching
•
Lifetime
Guarantee
di/namic
with
soft
operation
waveform
waveform
forward
losses at
gate
gate
control
operation
operation
voltage drop
high
to 20KHz
to
20KHz
frequency
Symbol
.pO
.pO,
.pO,
H
.pJ
J,
L
N
Creep
Strika
(In
Finish--Nickel
Approx.
1.
Inches
Min.
2.250
1.333
2.030
1.020
7.75
Distance-l.CO
Distance-.69
accordance
Weight-8
Dimension
Applications:
•
Inverters
UPS
Induction
AC
•
Cycloconverters
• Choppers
•
Crowbars
Ordering
Max.
2.290
1.343
2.090
1.060
.135
.145
.075
.090
8.50
.040
in. min. (25.40 mm).
In. min. (17.53
with
NEMA
Plate.
oz. (227
"H"
is a clamped dimension.
heating
motor
drives
Information
Millimeters
Min.
57.15
33.86
51.56
25.91
3.43
1.91
196.85
1.02
mm).
standards.)
g).
Max .
58.17
34.11
53.09
26.92
3.68
2.29
215.90
Code
T727
Example
Obtain
optimum
selecting
VRRM
(V)
100
200
300
400
500
600
700
800
device
Order
performance
Code.
proper
Westinghouse
Electric
01
02
03
04
OIL
01$
07
08
for
your
application
Corporation.
Type
IGT =
T727
150
by
Semiconductor
rated at
rna.
t9
Division.
=
475
30
IGT
(ma)
150
A average
)lsec
max.
Code
4
with
V
and standard control
DRM
Youngwood,
Case
T72
600V.
Pa.
Code
ON
leads-order
15697
as:
319
Page 2
Blocking
State
Repetitive peak
,=tepetitive
Non*repetitive
Forward
Reverse
t.s
peak
5.0
leakage
leakage
msec. V
Maximums
forward
reverse
transient
....................
current.
current.
0)
iTJ
blocking
voltage
peak
rnA
rnA
~-C
voltage
. V
revers'e
peak
peak
125"CI
voltage,
. V
Symbol
V
VRRM
V
.
IORM
IRRM
ORM
RSM
100
100
200
200
200
300
300
300
400
400
400
500
30
30
500
500
600
600
600
700
700
700
800
800
800
900
Ave.
forward
One-half
cycle
2
1
t
for
fusing
A'2
sec.
Forward
voltage
and
TJ = 25"C.
Min.
repetitive
Switching
IT
=
25"C)
J
Max.
turn~off
TJ = 125"C.
AiJ1.sec. reapplied
20V/Ilsec
Typ.
turn~on~time.
V 0 =
300V
Min.
critical
T
=
J
Min.
di/dt
Gate
Maximum
IT
=
25"C)
J
Gate
current
Gale
voltage
Non·triggering
and rated V
Peak
forward
Peak
reverse
Peak
gate
Average
gate
Thermal
Min.,
Max.
Min.,
Max.
Max.
mounting
Max.
Thermal
Case
to
CD
Consult
CD
Applies
CD
Per JEDEC RS-397.
CD
With"ecommended
CD
Higher
CD
Per JEDEC
CD
For
operation
current.
surge
(for
times>
drup
di/dt
time.
diR/dt = 25
linear
CD.
J1.sec
dv/dt.
125"C.
V/J1.sec00
non-repetitive.
A/llsec
Parameters
to
trigger
to
trigger
gate
ORM
gate
gate
voltage.
power,
Watts
power,
and
oper.
junction
storage
torque,
resistance
~unction
sink.
lubricated.
recommended
for
zero
dv/dt
ratings
standard
with
A
current@.
V
A/J1.sec
IT = 400A
IT = l000A
exponential
voltage,
' V
current,
-
ai I TM
dv/dt
to
0.8
Ci-'0Ci}
at
at
Watts
8.3
=
VORM,I'
.. ~ .
Vo
Vo
=
TJ
A
V
A
ms)
3000A
Mechanical
tempq
temp.,
°C
in
lb.
CD
j"
Double
to
case,
°C/Watt
°C/Watt
mounting
or
negative
5.2,2~
1.
gate drive.
available.
AS-397.
antiparallel
sec
to
V
OAM
~'"
12V.
mA
12V.
V
125"C.
ac
side
procedures.
gate bias.
consult
5.2.2.6.
diode.
CD0
..
~
-
cooled
factory,
consult
Symbol
ITlrms)
I
Tlav
I
TSM
I't
V
TM
di/dt
Symbol
tq
ton
dv/dt
di/dt
Symbol
IGT
V
GT
VGOM
IGTM
V
GRM
PGM
PGlav)
Symbol
T
J
Tstg
RS
JC
R
eCS
factory.
T727--48
3.0
300
800
150
0.15
16
265.000
to
50
3
4
to
~I
tol~
to
2400
8000
2.30
125
150
750
475
400
!!!
'0
>
;?'
t-
>
ci
0
Ci
III
0>
~
'0
>
-c
ro
~
0
u.
E
:l
E
'x
ro
~
oj
In
ro
U
o
l-
e:
o
ti
e:
:l
-,
Maximum
7
6
5
4
3
2
10
Forward
Current.
Transient
Forward
IIII
100
Thermal
Voltage
ITM.
Drop
IIIII
1.000
Peak
Amperes
Impedance
VS
VS.
Forward
Time
Current
v
10.000
J
/
100.000
)
10
-40
-40
2000
.06
.02
320
lime. t. Seconds
Page 3
10.0
SineWnve
6
3
2
1.0
~2000Amps
ill
:;
"-
"-
Vl
.,
:;
.10
o
...,
J---GOOAmps
06
1---400Amps
04
03
>-
02
I--IOOAI'"
i':'
.,
1
~
.0
10
Pulse
ENERGY
6000
Amps
....
Amps
- Microseconds
I"""
-
T
4000Amps
l0Q0Amps
100
Width
PER PULSE FOR
.",..
.-
....
-
.....
...........
j..;
100
SINUSOIDAL
~
V
T J ~ 125"C
Va"
VR$SOV
PULSES
GOOV,
lK
./
io"
V
lOO,
./
V'
I'
25 ul
2K
Trapezoidal
10.0
SqunreWllvlI
6
d!/dt = SOA/usee
6000
Amps
4000
Amps
1.0
2000
.,
Vl
:;
"-
';;;
.,
:;
0
...,
Vl
Vl
0
...J
>-
en
Q;
c:
w
ENERGY
Amps
1000
Amps
600
Amps
.10
400
Amps
06
04
200
Amps
03
02
100
Amps
I I
.01
10
Pulse
Width
PER PULSE FOR
1-
I"""
Wave
i/
.",..
100
- Microseconds
Current
./
i-"
,/
,
,
TRAPEZOIDAL
V
VI.,;
lK
PULSES
Data
T J -
125~C
Va
= 600V.
VR~50V
,
"
20[J,
25 ul
(di/dt = 50A/usec)
10K
SlOeWflYC
OK
4K
3K
2K
11(
Vl
.,
GOO
Q;
C.
400
E
«
300
1
:WO
c:
~
100
':i
U
60
en
'=
40
m
30
Q;
C.
2O
0
""
.,
'"
10
"-
10
Pulse
MAXIMUM
vs.
PULSE
6'
~
10Kf,s~,"~"~Wt"'~'~~~~~~~~~~~~~~~~!!~~~
"
"
1 K
Vl
.,
600
Q;
C.
400
E
«
300
1
200
C
~
100
':i
u
60
en
'=
m
30
Q;
C.
20
0
I--+-+++-l-H-++++--l--l-l-l-+-
""
.,
'"
10
"-
10 100
Pulse
MAXIMUM
vs.
PULSE
r;io"
Width
- Microseconds
ALLOWABLE
WIDTH
(TC =
Width
- Microseconds
ALLOWABLE
WIDTH
5000
10.000
Hz
100
PEAK
65°C)
-
5000
10,000
Ht
PEAK
(TC = 90°C)
""'"
.......
-...
2500
Hl
Hz
ON-STATE
2500
Hz
Ht
_I--
ON-STATE
~
1000
Hz
65"C
1 C
600V. 2011.
Vo
VR$50V
lK
CURRENT
~0D9.1-!1
-3400
T C
90
C
Va
600V
20/1
S0V
VR5:
lK
CURRENT
100
~400Hl
25u!
........
100
25
Hz
2K
HI
HI
uf
2K
10.0
SqUiHll
Wilve
dl/dl
=
lOOA/u50C
GOOOAmps
3
4DO?
AiPS
1.0
2000
.,
Vl
:;
"-
';;;
.,
:;
.10
0
...,
06
04
Vl
Vl
03
0
...J
02
>-
en
Q;
c:
.01
w
10
Pulse
ENERGY
I I
Am
J5
1000
Amps
600
Amps
to-
4J,
AJ.,
2,,\,A'I"'
100
Amps
I I
34
Width
PER PULSE FOR
J.,....-i"'"
,......
i"'"
100
Microseconds
1/
3 4
TRAPEZOIDAL
(di/dt = 100A/usec)
10.0
SQulIwW,we
6
dl/rlt ' :lOOA/usee
4000
Amps
2000
Amps
1.0
1000
:;:
:;
"-
;;;
.,
:;
0
...,
V>
Vl
0
-'
>-
en
Q;
c:
w
ENERGY
Amps
6,,\,
A',"'
400
Am
10
06
04
OJ
02
.D1
5,
200
Amps
100
Amps
I-+-+++-+-H+t-ft-+-+-H-t-++t+t+--+-v 0 600V.
I I
10
Pulse
J
WIdth
PER PULSE FOR
,
100
- MIcroseconds
.l 4
TRAPEZOIDAL
(di/dt = 200A/usec)
V
......
lK
lK
IL
V-
I.,;
1...-
125DC
1J
600V.
Vo
VR$5DV
.I
PULSES
TJ 12f)oC
Vn550V
J'
PULSES
4
200.
20J),
25
25
ul
10K
ul
10K
321
Page 4
Trapezoidal
Wave
Current
(TC = 65°CI
Square
Walle
6K
dlldl::;
SOA/usee
10K~~~mmI
'K
3K
2K
lK
'"
i':
600
OJ
C-
400
E
«
300
I
200
E
i':
100
5
u
60
'"
S
,0
ro
30
iii
C-
20
o
I-+-+++-+-f-++t++-+-t-H-I-+-H-Ht--+ v 0 fiOOV,
'"
OJ
'"
10
CL
10
Pulse
MAXIMUM
vs. PULSE
Pulse Width - Microseconds
MAXIMUM
vs. PULSE
3 ,
Width
- Microseconds
ALLOWABLE
WIDTH
ALLOWABLE
WIDTH
10,000
100
(di/dt
(dildt
5000
HI
Hz
3 4
PEAK
=
50A/usec)
PEAK
=
100A/usec)
2500
Hz
lK
ON-STATE
ON-STATE
.....
1000
Hz
Data
400
Hl
T C
65"C
20
J1
VR~50V
3 ,
CURRENT
CURRENT
, 25 uf
10K
Trapezoidal
SquareWullo
6K
dl/dl::;
10K~~fIIf"
OJ
'"
iii
C-
E
«
I
E
~
100
:J
U
'"
S
§
.,
C-
O
'"
OJ
'"
0-
MAXIMUM
vs.
10K~~Saq"~"~"W~'E"±:Ej~~~~~!j~~~~~~~~~~!!~
lK
OJ
"'
600
iii
C.
400
E
«
300
I
'DD
E
~
100
5
u
'"
S
§
<l>
C-
O
'"
OJ
'"
CL
MAXIMUM
vs. PULSE
SOAI sec
4K
3Kt::t:$$mm~UWmtf
2KH
lK
6DO
40D
300
200
60
40
30
20
t-+-++t-t-H+t-tt-t-t-H-I-+-H-H+--+
10
10
Pulse
PULSE
6K
4K
2KJ::::::q
3KR=3fimm_am!1!
dl/dl"
Width
WIDTH
l00A/useC
34
- Microseconds
ALLOWABLE
60
40
1D
20
I-+-+++-t-H+!-tt-t-+-H-I-+-H-H.t--+ v 0
10
10
Pulse
34
Width
- Microseconds
ALLOWABLE
WIDTH
Wave
(TC =
10,000
-++t-Hrl--I-I-+++rl-+H-f-+++lf-H-'100
100
PEAK
(di/dt
10,000
100
(di/dt = 100A/usec)
900CI
5000
Hz
34
=
50A/usec)
5000
Hl
Hl
, 4
PEAK
Current
2500
Hz
Hz
ON-STATE
ON-STATE
1000
lK
lK
Data
Hz
400
Hl
T C
90"C
Va
600V.
lOll.
Vf.$,50~
3 4
CURRENT
400
Ht
o
T
90<'C
C
600V
20
0V
VRS5
3 4
CURRENT
25
100
II
.
25
Hz
ul
10K
Hl
uf
10K
322
6K
Ol/d!::;
10K~~Sq~"~"'~W~'~"~~!f~~~~~~~~~~~~~~~~
~
~
E
«I
OJ
J
1001Im
S
ro
~
o
;';j
/f
MAXIMUM
vs. PULSE
200A/u5CC
4K
2K
JK~!!I~m~
600
lK~~~iI~~V~~~~~~~~~
400
3DO
~~:$~~~!$~!a=±=ana=!tntana
'DD
flO
40
30t:~=$~t=~:$~~==t=~~=i:$~~~:$~~~~~~~
20
I-
I-+-t-+I-I--t-++++--I-I-I-+-+-t--H-I+I--+-
10
10
Pulse Width - Microseconds
••
3 4 1
ALLOWABLE
WIDTH
1/
2500
Ht
HI
10.1)00
5000
HI
BIII
au
(di/dt = 200A/usec)
' , 1 K 3 4
PEAK
ON-STATE
1000
HI
400
HI
Te'
65"(
v 0
600V
20/J
50V
Vn:S.
CURRENT
100
HI
:15
tlf
PEAK
3 ,
lK
ON-STATE
3 4
CURRENT
10K
10K
Pulse
MAXIMUM
vs. PULSE
14
Width
Microseconds
ALLOWABLE
WIDTH
100
(di/dt = 200A/usec)
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