NJSEMI BTW63-600R Fast turn-off thyristor Datasheet

oauc£i, Una.
TELEPHONE: (973) 376-2922
(212) 227-6005
FAX: (973) 376-8960
20 STERN AVE.
SPRINGFIELD, NEW JERSEY 07081
U.S.A.
BTW63 SERES
FAST TURN-OFF THYRISTORS
Glass passivated, asymmetrical, fast turn-off, forward blocking thyristors (ASCR) in TO-48 envelopes,
suitable for operation in fast power inverters. For reverse-blocking operation use with a series diode,
for reverse-conducting operation use with an anti-parallel diode.
QUICK REFERENCE DATA
BTW63-600R
800R
1000R
VDRM
ma*-
800
1000
Average on-state current
'T(AV)
max.
25
A
Repetitive peak on-state current
ITRM
max.
250
A
tq
tq
<
<
Repetitive peak off-state voltage
600
Circuit-commutated turn-off time
suffix K
suffix N
suffix P
MECHANICAL DATA
4
6
8
fiS
MS
IK
Dimensions in mm
Fig.1 TO-48
14.0
Net mass: 14 g
Diameter of clearance hole: max. 6.5 mm
Accessories supplied on request
Supplied with device: 1 nut, 1 lock washer.
Torque on nut: min. 1.7 Nm (17 kg cm)
max. 3.5 Nm (35 kg cm)
Nut dimensions across the flats: 11.1 mm
NJ Semi-Conductors reserves the right to change test conditions, parameter limits and package dimensions without
notice. Information furnished by NJ Semi-Conductors is believed to be both accurate and reliable at the time of going
to press. However, NJ Semi-Conductors assumes no responsibility for any errors or omissions discovered in its use.
NJ Semi-Conductors encourages customers to verify that datasheets are current before placing orders.
Quality Semi-Conductors
BTW63 SERIES
RATINGS
Limiting values in accordance with the Absolute Maximum System (IEC134)
Anode to cathode
Transient off-state voltage
Repetitive peak off-state voltage
Continuous off-state voltage
BTW63-600R
VDSM
VDRM
VD
max.
max.
max.
800
600
500
V
800R
1000
1000R
1000
1000
V
800
650
700
V
V
*v
VRSM
max.
15
V
'T(AV)
max.
max.
25
22
A
A
max.
max.
40
A
'TRM
250
A
'TSM
i2t
max.
370
A
max.
700
A's
dlj/dt
max.
1000
A/MS
Gate to cathode
Average power dissipation (averaged over
any 20 ms period)
PG (AV)
max.
1
W
Peak power dissipation; t = 10 us
PGM
max.
10
W
Temperatures
Storage temperature
Operating junction temperature
stg
T,
-40 to+125
max.
125
Transient reverse voltage (tp < 5 /ra)
Average on-state current (averaged over any 20 ms
ns period]
period)
up to Tmb = 75 °C
'T(AV)
R.M.S. on-state current
Repetitive peak on-state current; tp = 50 jis; 8 = 0.05
0.05
Non-repetitive peak on-state current
TJ = 125 °C prior to surge;
t » 10 ms; half sine-wave
l j t for fusing; t = 10ms
• Rate of rise of on-state current after triggering
with IG - 1,25 A; Ij = 80 A
THERMAL RESISTANCE
From junction to mounting base
From mounting base to heatsink
with heatsink compound
'T(RMS)
°C
°C
Rtn j.m^
0.9
K/W
Rth mo.n
0.2
K/W
OPERATING NOTE
The terminals should be neither bent nor twisted; they should be soldered into the circuit so that there
is no strain on them.
During soldering the heat conduction to the junction should be kept to a minimum.
BTW63 SERIES
CHARACTERISTICS
Anode to cathode
On-state voltage
IT = 50 A; TJ = 25 °C
2.6
Off-stats current
Holding current; TJ = 25 °C
ID
IH
6.0
400
mA
mA
VGT
2.0
V
'GT
250
mA
Gate to cathode
Voltage that will trigger all devices
V D = 1 2 V ; T j = 25°C
Current that will trigger all devices
Switching characteristics (see Fig.5)
Circuit commutated turn-off time
dVo/dt= 500 V//is (linear to VDRMmax);
R G K = 10 n; V G = 0; TJ = 125 °C;
when switched from l-r = 100 A;tp = 150 /is
-d! T /dt=50A//is
suffix K
suffix IM
suffix P
6
9
12
-dlT/dt= 10 A/fis
suffix K
suffix N
suffix P
4
6
8
Vdl-r/dt
reapplied VDM
Fig.2 Circuit-commutated turn-off time definition.
•Measured under pulse conditions to avoid excessive dissipation.
MS
BTW63 SERIES
M81-1282/3
/b
a =1.1 /
s
i
P
(W)
J
1.9
•
j
/
2.8
4.0
Ii /
//
/, V
// ft
25
M
ff//
t f't
'I f
/
1ft
ft
t
ft
1
f i
//'
^
/
/
"^
^
>x
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s
t
s,
^ \fc
< SW
X.
^«
Skq
s^
^
^
40 0
V
\
^
1
•s,
x
»^
s
*,
•s^
•^
50
•^
^
S,
^ sS
s
•^
«^
-^
s
10X5
^
^
s
**,
Sa
1
^
\ ^V
^
*
!^
\
s
s
^
s,
^
T(AV)' A >
V
V
s
80
k
\
^
20
k^
^
\
s
Tmb
s\ b
<*
*s
*«*
^
sV
\^
7
f
\af(
\W^
"\ i
/
D
|S
/^-
f:
s,s^^
s
'j
I IJMF
0
V
f
^
3
>
f
t
*
s
^
/ f
/f
'> /
2.2f
^
.
t
50
V
J
1.57
\
Sy
S
Vc
^ •^
V
%
'
^V
sv \_
5 '•-j
r r 125
^
100
12
Tamb(°C)
ig.3 The right-hand part shows the interrelationship between the power (derived from the left-h
art) and the maximum permissible temperatures.
,
'TfRMS)
= form factor =
'T(AV)
57.5
?
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