ETC ST330C08L0

Bulletin I25154 rev. C 04/00
ST330C..L SERIES
PHASE CONTROL THYRISTORS
Hockey Puk Version
Features
650A
Center amplifying gate
Metal case with ceramic insulator
International standard case TO-200AC (B-PUK)
High profile hockey-puk
Typical Applications
DC motor controls
Controlled DC power supplies
AC controllers
case style TO-200AC (B-PUK)
Major Ratings and Characteristics
Parameters
ST330C..L
Units
650
A
55
°C
1230
A
25
°C
@ 50Hz
9000
A
@ 60Hz
9420
A
@ 50Hz
405
KA2s
@ 60Hz
370
KA2s
IT(AV)
@ Ths
IT(RMS)
@ Ths
ITSM
2
It
VDRM /VRRM
tq
typical
TJ
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400 to 1600
V
100
µs
- 40 to 125
°C
1
ST330C..L Series
Bulletin I25154 rev. C 04/00
ELECTRICAL SPECIFICATIONS
Voltage Ratings
Voltage
V DRM /VRRM , max. repetitive
VRSM , maximum non-
IDRM /I RRM max.
Code
peak and off-state voltage
repetitive peak voltage
@ T J = TJ max
V
V
mA
400
500
Type number
04
ST330C..L
08
800
900
12
1200
1300
14
1400
1500
16
1600
1700
50
On-state Conduction
Parameter
I T(AV)
Max. average on-state current
@ Heatsink temperature
ST330C..L
Units Conditions
650 (314)
A
180° conduction, half sine wave
55 (75)
°C
double side (single side) cooled
I T(RMS) Max. RMS on-state current
1230
I TSM
Max. peak, one-cycle
9000
non-repetitive surge current
9420
DC @ 25°C heatsink temperature double side cooled
t = 10ms
A
7570
I 2t
Maximum I2t for fusing
V T(TO) 1 Low level value of threshold
voltage
V T(TO) 2 High level value of threshold
t = 8.3ms
reapplied
Sinusoidal half wave,
t = 10ms
No voltage
Initial TJ = TJ max.
370
t = 8.3ms
reapplied
t = 10ms
100% VRRM
t = 8.3ms
reapplied
KA2s
4050
KA 2√s
Low level value of on-state
V
(I > π x IT(AV)),TJ = TJ max.
0.93
High level value of on-state
slope resistance
(16.7% x π x IT(AV) < I < π x IT(AV)), T J = TJ max.
0.57
slope resistance
r t2
t = 0.1 to 10ms, no voltage reapplied
(16.7% x π x IT(AV) < I < π x IT(AV)), TJ = TJ max.
0.91
voltage
r t1
100% VRRM
405
262
Maximum I2√t for fusing
reapplied
t = 10ms
7920
287
I 2√ t
No voltage
t = 8.3ms
mΩ
(I > π x IT(AV) ),TJ = TJ max.
0.57
V TM
Max. on-state voltage
1.90
IH
Maximum holding current
600
IL
Typical latching current
1000
V
mA
I = 1730A, TJ = TJ max, t = 10ms sine pulse
pk
p
T J = 25°C, anode supply 12V resistive load
Switching
Parameter
di/dt
Max. non-repetitive rate of rise
of turned-on current
ST330C..L
1000
td
Typical delay time
1.0
t
Typical turn-off time
100
Units Conditions
A/µs
µs
2
q
Gate drive 20V, 20Ω, tr ≤ 1µs
TJ = TJ max, anode voltage ≤ 80% VDRM
Gate current 1A, di g /dt = 1A/µs
Vd = 0.67% VDRM, TJ = 25°C
ITM = 550A, TJ = TJ max, di/dt = 40A/µs, VR = 50V
dv/dt = 20V/µs, Gate 0V 100Ω, tp = 500µs
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ST330C..L Series
Bulletin I25154 rev. C 04/00
Blocking
Parameter
ST330C..L
Units Conditions
dv/dt
Maximum critical rate of rise of
off-state voltage
500
V/µs
T J = TJ max. linear to 80% rated V DRM
IRRM
IDRM
Max. peak reverse and off-state
leakage current
50
mA
TJ = TJ max, rated VDRM /V RRM applied
Triggering
Parameter
PGM
ST330C..L
Maximum peak gate power
Max. peak positive gate current
+VGM
Maximum peak positive
3.0
Maximum peak negative
VGT
VGD
T J = TJ max, t ≤ 5ms
V
TJ = TJ max, t ≤ 5ms
mA
T J = 25°C
DC gate voltage required
-
100
200
50
-
2.5
-
1.8
3.0
1.1
-
DC gate current not to trigger
DC gate voltage not to trigger
p
p
MAX.
200
T J = - 40°C
DC gate current required
to trigger
IGD
A
5.0
TYP.
to trigger
p
T J = TJ max, f = 50Hz, d% = 50
20
gate voltage
IGT
W
2.0
gate voltage
-VGM
T J = TJ max, t ≤ 5ms
10.0
PG(AV) Maximum average gate power
IGM
Units Conditions
10
0.25
T J = 125°C
T J = - 40°C
V
Max. required gate trigger/ current/ voltage are the lowest value
which will trigger all units 12V
anode-to-cathode applied
T J = 25°C
T J = 125°C
mA
V
TJ = TJ max
Max. gate current/voltage not to
trigger is the max. value which
will not trigger any unit with rated
VDRM anode-to-cathode applied
Thermal and Mechanical Specification
Parameter
ST330C..L
TJ
Max. operating temperature range
-40 to 125
T
Max. storage temperature range
-40 to 150
stg
RthJ-hs Max. thermal resistance,
junction to heatsink
RthC-hs Max. thermal resistance,
case to heatsink
F
wt
Mounting force, ± 10%
Approximate weight
Case style
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Units
°C
0.11
0.06
0.011
Conditions
DC operation single side cooled
K/W
K/W
0.005
DC operation double side cooled
DC operation single side cooled
DC operation double side cooled
9800
N
(1000)
(Kg)
250
g
TO - 200AC (B-PUK)
See Outline Table
3
ST330C..L Series
Bulletin I25154 rev. C 04/00
∆RthJ-hs Conduction
(The following table shows the increment of thermal resistence RthJ-hs when devices operate at different conduction angles than DC)
Sinusoidal conduction
Rectangular conduction
Single Side Double Side
Single Side Double Side
Conduction angle
Units
180°
0.012
0.010
0.008
0.008
120°
0.014
0.015
0.014
0.014
90°
0.018
0.018
0.019
0.019
60°
0.026
0.027
0.027
0.028
30°
0.045
0.046
0.046
0.046
Conditions
TJ = TJ max.
K/W
Ordering Information Table
Device Code
ST
33
0
C
16
L
1
1
2
3
4
5
6
7
1
-
2
-
Essential part number
3
-
0 = Converter grade
8
Thyristor
4
-
C = Ceramic Puk
5
-
Voltage code: Code x 100 = VRRM (See Voltage Rating Table)
6
-
L = Puk Case TO-200AC (B-PUK)
7
-
0 = Eyelet terminals (Gate and Auxiliary Cathode Unsoldered Leads)
1 = Fast-on terminals (Gate and Auxiliary Cathode Unsoldered Leads)
2 = Eyelet terminals (Gate and Auxiliary Cathode Soldered Leads)
3 = Fast-on terminals (Gate and Auxiliary Cathode Soldered Leads)
8
-
Critical dv/dt: None = 500V/µsec (Standard selection)
L
4
= 1000V/µsec (Special selection)
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ST330C..L Series
Bulletin I25154 rev. C 04/00
Outline Table
34 (1.34) DIA. MAX.
0.7 (0.03) MIN.
2 7 (1 . 0 6 ) M AX .
TWO PLACES
PIN RECEPTACLE
AMP. 60598-1
53 (2.09) DIA. MAX.
0.7 (0.03) MIN.
6.2 (0.24) MIN.
20°± 5°
5 8 .5 (2 .3 ) D I A . M A X .
4.7 (0.18)
Case Style TO-200AC (B-PUK)
All dimensions in millimeters (inches)
36.5 (1.44)
Quote between upper and lower
pole pieces has to be considered
after application of Mounting Force
(see Thermal and Mechanical
Specification)
2 HOLES DIA. 3.5 (0.14) x
2.5 (0.1) DEEP
130
ST330C..L Series
(Single Side Cooled)
R thJ- hs (D C) = 0.11 K/W
120
110
100
90
C o ndu ctio n A ng le
80
70
30°
60
60°
90°
120°
180°
50
40
30
0
50 100 150 200 250 300 350 400 450
Average On -state Current (A)
Fig. 1 - Current Ratings Characteristics
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M a x im u m A llo w a b le H e a t sin k T e m p e ra t ure (° C )
Maximum Allowable Heatsink Temperatu re ( °C)
CREPAGE DISTANCE 36.33 (1.430) MIN.
STRIKE DISTANCE 17.43 (0.686) MIN.
130
ST 3 3 0 C ..L Se rie s
(Sin g le S id e C o o le d )
R thJ-h s (D C ) = 0 .1 1 K / W
120
110
100
90
C o ndu ctio n Pe riod
80
70
60
50
30°
40
60°
90 °
12 0°
30
1 80°
20
0
2 00
4 00
DC
60 0
80 0
A v e ra g e O n -st a t e C u rre n t (A )
Fig. 2 - Current Ratings Characteristics
5
ST330C..L Series
ST 3 3 0 C ..L Se rie s
(D o ub le Sid e C o o le d )
R th J-hs (D C ) = 0 .0 5 K / W
120
110
100
90
C on duc tio n Ang le
80
70
60
30 °
40
120°
180 °
30
20
0
2 00
4 00
600
80 0
1200
110
100
90
Co n duc tio n Pe riod
80
70
30°
60
60°
50
90 °
1 20°
40
180 °
30
DC
20
0
2 00
40 0
6 00
8 00 1 00 0 1 2 00 1 40 0
Fig. 3 - Current Ratings Characteristics
Fig. 4 - Current Ratings Characteristics
RMS L im it
1000
800
600
Co n duc tio n A ng le
400
ST330C..L Series
T J = 125°C
200
0
0
ST 3 3 0 C ..L Se rie s
(D o ub le Sid e C o o le d )
R thJ-hs (D C ) = 0 .0 5 K/ W
120
A v e ra g e O n - sta t e C u rre n t (A )
180°
120°
90°
60°
30°
1400
130
A v e ra g e O n - sta t e C u rre n t (A )
1600
2200
DC
180°
120°
90°
60°
30°
2000
1800
1600
1400
1200 RMS L im it
1000
800
C o ndu ctio n Pe rio d
600
ST330C..L Series
T J = 125°C
400
200
0
0
100 200 300 400 500 600 700 800
200
400
600
800 1000 1200 1400
Average O n-state Current (A)
Average O n-state Curren t (A)
Fig. 5- On-state Power Loss Characteristics
Fig. 6- On-state Power Loss Characteristics
8 00 0
A t A n y R a t e d Lo a d C o n d itio n A n d W it h
R a t e d V RRM A p p lie d F o llo w in g Su rg e .
In it ia l T J = 1 2 5 ° C
@ 6 0 H z 0 .0 0 8 3 s
@ 5 0 H z 0 .0 1 0 0 s
7 50 0
7 00 0
6 50 0
6 00 0
5 50 0
5 00 0
4 50 0
S T 3 3 0 C ..L S e r ie s
4 00 0
3 50 0
1
6
90°
Maximum Average O n-state Power Loss (W )
50
60°
M a x im u m A llo w a b le H e a tsin k T e m p e ra tu re (° C )
130
10
100
Peak Half Sine Wave On-state Curren t (A)
P e a k H a lf Sin e W a v e O n -st a t e C u rre n t (A )
Maximum Average On-state Power L oss (W)
M a x im u m A llo w a b le H e a t sin k T e m p e ra t ure (°C )
Bulletin I25154 rev. C 04/00
9000
M axim um Non Repetitive Surge Current
V ersus Pulse T rain Dura tion. Con trol
8000 Of Conduction May Not Be Maintain ed.
Initial TJ = 125°C
7500
No V oltag e Rea pplied
Rated V RRM Rea pplied
7000
8500
6500
6000
5500
5000
4500
4000
ST330C..L Series
3500
0.01
0.1
1
N um b er O f E qua l A m p litude H alf C yc le C urren t Pulse s (N )
Pulse Train Duration (s)
Fig. 7 - Maximum Non-Repetitive Surge Current
Single and Double Side Cooled
Fig. 8 - Maximum Non-Repetitive Surge Current
Single and Double Side Cooled
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ST330C..L Series
Bulletin I25154 rev. C 04/00
In st a n t a n e o u s O n -sta t e C u rre n t (A )
1 0 0 00
TJ = 25° C
T J = 1 2 5 °C
1 0 00
ST 3 3 0 C ..L Se rie s
10 0
0 .5 1 1 .5 2 2 . 5 3 3 . 5 4 4 .5 5 5 . 5 6 6 .5 7
In st a n t a n e o u s O n - st a te V o lt a g e (V )
T ra n sie n t Th e rm al Im p e da n c e Z thJ-hs ( K/W )
Fig. 9 - On-state Voltage Drop Characteristics
1
St e a d y St a t e V a lu e
R thJ-hs = 0 .1 1 K / W
( Sin gle Sid e C o o le d )
0 .1
R thJ-hs = 0 .0 5 K / W
( D o u ble S id e C o o le d )
( D C O p e rat io n )
0 .0 1
ST 3 3 0 C ..L Se r ie s
0 .0 0 1
0 .0 0 1
0 .0 1
0 .1
1
10
Sq u a re W a v e P ulse D ur at io n ( s)
Fig. 10 - Thermal Impedance ZthJ-hs Characteristics
100
In sta n t a n e o u s G at e V o lta g e ( V )
R e c t a n g ula r g a t e p ulse
a ) Re c o m m e n d e d lo a d lin e fo r
ra t e d d i/d t : 2 0 V , 1 0 o h m s; t r< =1 µ s
b ) Re c o m m e n d e d lo a d lin e f o r
< = 3 0 % ra t e d d i/ d t : 1 0 V , 1 0 o h m s
10
tr< = 1 µs
(1)
(2)
(3)
(4)
PGM
PGM
PGM
PG M
=
=
=
=
10W ,
20W ,
40W ,
60W ,
tp
tp
tp
tp
=
=
=
=
4m s
2m s
1m s
0 .6 6 m s
(a )
(b )
Tj=-40 °C
Tj=2 5 °C
Tj=125 °C
1
(1)
(2)
(3) (4)
VG D
IG D
0. 1
0 .0 0 1
0 .0 1
Fre q u e n c y L im ite d b y P G ( A V )
D e v ic e : ST 3 3 0 C ..L S e rie s
0 .1
1
10
1 00
In sta n t a n e o u s G a te C u rre n t ( A )
Fig. 11 - Gate Characteristics
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7