ABB 5STP12N8200

VDRM
VDSM
IT(AV)M
IT(RMS)
ITSM
V(T0)
rT
=
=
=
=
=
=
=
8000
8500
1200
1880
35×103
1.25
0.48
V
V
A
A
A
V
mΩ
Phase Control Thyristor
5STP 12N8500
Doc. No. 5SYA1044-02 Nov. 04
•
Patented free-floating silicon technology
•
Low on-state and switching losses
•
Designed for traction, energy and industrial applications
•
Optimum power handling capability
•
Interdigitated amplifying gate
Blocking
Maximum rated values
1)
5STP 12N8500 5STP 12N8200
5STP 12N7800
Symbol
Conditions
VDSM, VRSM
f = 5 Hz, tp = 10 ms
8500 V
8200 V
7800 V
VDRM, VRRM
f = 50 Hz, tp = 10 ms
8000 V
7700 V
7300 V
VRSM
tp = 5 ms, single pulse
9000 V
8600 V
8200 V
dV/dtcrit
Exp. to 5360 V, Tvj = 90°C
2000 V/µs
Characteristic values
Parameter
Symbol Conditions
min
typ
max
Unit
Forward leakage current
IDSM
VDSM, Tvj = 90°C
1000
mA
Reverse leakage current
IRSM
VRSM, Tvj = 90°C
400
mA
Mechanical data
Maximum rated values
1)
Parameter
Symbol Conditions
Mounting force
FM
Acceleration
a
Acceleration
a
min
typ
81
90
max
Unit
108
kN
Device unclamped
50
m/s
2
Device clamped
100
m/s
2
Characteristic values
Parameter
Symbol Conditions
Weight
m
Housing thickness
H
Surface creepage distance
DS
FM = 90 kN, Ta = 25 °C
min
typ
35.3
56
Air strike distance
Da
22
1) Maximum rated values indicate limits beyond which damage to the device may occur
ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.
max
Unit
2.9
kg
36
mm
mm
mm
5STP 12N8500
On-state
Maximum rated values
1)
Parameter
Symbol Conditions
Average on-state current
IT(AV)M
RMS on-state current
IT(RMS)
Peak non-repetitive surge
current
ITSM
Limiting load integral
I2t
Peak non-repetitive surge
current
ITSM
Limiting load integral
I2t
min
typ
Half sine wave, Tc = 70°C
max
Unit
1200
A
1880
A
3
tp = 10 ms, Tvj = 90 °C,
35×10
VD = VR = 0 V
A
6
6.13×10
3
38×10
tp = 8.3 ms, Tvj = 90 °C,
VD = VR = 0 V
A2s
A
6
5.99×10
A2s
Characteristic values
Parameter
Symbol Conditions
On-state voltage
VT
IT = 1500 A, Tvj = 90 °C
Threshold voltage
V(T0)
IT = 700 A - 2100 A, Tvj= 90 °C
Slope resistance
rT
Holding current
IH
Latching current
Switching
Maximum rated values
IL
min
typ
max
Unit
2
V
1.25
V
0.48
mΩ
Tvj = 25 °C
150
mA
Tvj = 90 °C
125
mA
Tvj = 25 °C
600
mA
Tvj = 90 °C
800
mA
1)
Parameter
Symbol Conditions
Critical rate of rise of onstate current
di/dtcrit
Critical rate of rise of onstate current
di/dtcrit
Circuit-commutated turn-off tq
time
min
Tvj = 90 °C,
Cont.
ITRM = 2000 A,
f = 50 Hz
VD ≤ 5360 V,
Cont.
IFG = A, tr = 0.5 µs
f = 1Hz
Tvj = 90°C, ITRM = 2000 A,
VR = 200 V, diT/dt = -1 A/µs,
VD ≤ 0.67⋅VDRM, dvD/dt = 20V/µs
typ
max
Unit
250
A/µs
1000
A/µs
600
µs
Characteristic values
Parameter
Symbol Conditions
Recovery charge
Qrr
Tvj = 90°C, ITRM = A,
VR = 200 V,
diT/dt = -1 A/µs
Gate turn-on delay time
tgd
VD = 0.4⋅VRM, IFG = 2 A,
tr = 0.5 µs, Tvj = 25 °C
min
typ
2800
max
Unit
3400
µAs
3
µs
ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.
Doc. No. 5SYA1044-02 Nov. 04
page 2 of 6
5STP 12N8500
Triggering
Maximum rated values
1)
Parameter
Symbol Conditions
Peak forward gate voltage
VFGM
min
typ
max
12
Unit
V
Peak forward gate current
IFGM
10
A
Peak reverse gate voltage
VRGM
10
V
Average gate power loss
PG(AV)
see Fig. 9
Characteristic values
Parameter
Symbol Conditions
Gate-trigger voltage
VGT
Tvj = 25 °C
min
typ
max
2.6
Unit
V
Gate-trigger current
IGT
Tvj = 25 °C
400
mA
Gate non-trigger voltage
VGD
VD = 0.4 x VDRM, Tvjmax = 90 °C
0.3
V
Gate non-trigger current
IGD
VD = 0.4 x VDRM, Tvjmax = 90°C
10
mA
Thermal
Maximum rated values
1)
Parameter
Symbol Conditions
Operating junction
temperature range
Tvj
min
max
Unit
90
°C
140
°C
max
Unit
Double-side cooled
Fm = 81...108 kN
5.7
K/kW
Rth(j-c)A
Anode-side cooled
Fm = 81...108 kN
11.4
K/kW
Rth(j-c)C
Cathode-side cooled
Fm = 81...108 kN
11.4
K/kW
Double-side cooled
Fm = 81...108 kN
1
K/kW
Single-side cooled
Fm = 81...108 kN
2
K/kW
Storage temperature range Tstg
typ
-40
Characteristic values
Parameter
Symbol Conditions
Thermal resistance junction Rth(j-c)
to case
Thermal resistance case to Rth(c-h)
heatsink
Rth(c-h)
min
typ
Analytical function for transient thermal
impedance:
n
Zth(j-c) (t) = ∑ R th i (1 - e-t/τ i )
i =1
i
1
2
3
4
Rth i(K/kW)
3.400
1.260
0.680
0.350
τi(s)
0.8685
0.1572
0.0219
0.0078
Fig. 1 Transient thermal impedance junction-to case.
ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.
Doc. No. 5SYA1044-02 Nov. 04
page 3 of 6
5STP 12N8500
On-state characteristic model:
VT = A + B ⋅ iT + C ⋅ ln(iT +1) + D ⋅ IT
Valid for iT = 200 – 4000 A
A
B
C
D
1.9700e+0
-1.8000e-4
-3.0000e-1
6.2000e-2
Fig. 2 On-state characteristics.
Tj=125°C, 10ms half sine
Fig. 3 Max. on-state voltage characteristics
Tcase (°C)
90
Double-sided cooling
DC
180° rectangular
180° sine
120° rectangular
85
80
5STP 12N8500
75
70
0
200
400
600
800 1000 1200 1400 1600 1800
ITAV (A)
Fig. 4 On-state power dissipation vs. mean on-state
current. Turn-on losses excluded.
Fig. 5 Max. permissible case temperature vs. mean
on-state current.
ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.
Doc. No. 5SYA1044-02 Nov. 04
page 4 of 6
5STP 12N8500
Fig. 6 Surge on-state current vs. pulse length. Halfsine wave.
IG (t)
100 %
90 %
IGM
IGM
IGon
diG/dt
tr
tp(IGM)
Fig. 7 Surge on-state current vs. number of pulses.
Half-sine wave, 10 ms, 50Hz.
≈ 2..5 A
≥ 1.5 IGT
≥ 2 A/µs
≤ 1 µs
≈ 5...20 µs
diG/dt
IGon
10 %
tr
t
tp (IGM)
tp (IGon)
Fig. 8 Recommended gate current waveform.
Fig. 9 Max. peak gate power loss.
IRM(A)
400
300
ITRM = 2000 A
max
200
Tj = Tjmax
min
102
90
80
70
5STP 12N8500
60
50
40
30
1
Fig. 10 Recovery charge vs. decay rate of on-state
current.
2
3
4
5 6 7 8 910
30
20
-diT/dt (A/µs)
Fig. 11 Peak reverse recovery current vs. decay rate
of on-state current.
ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.
Doc. No. 5SYA1044-02 Nov. 04
page 5 of 6
5STP 12N8500
Fig. 12 Device Outline Drawing.
Related application notes:
Doc. Nr
Titel
5SYA2020
Design of RC-Snubber for Phase Control Applications
5SYA2034
Gate-drive Recommendations for PCT's
5SYA 2036
Recommendations regarding mechanical clamping of Press Pack High Power Semiconductors
Please refer to http://www.abb.com/semiconductors for actual versions.
ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.
ABB Switzerland Ltd
Semiconductors
Fabrikstrasse 3
CH-5600 Lenzburg, Switzerland
Telephone
Fax
Email
Internet
+41 (0)58 586 1419
+41 (0)58 586 1306
[email protected]
www.abb.com/semiconductors
Doc. No. 5SYA1044-02 Nov. 04