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零件编号 | G1000QC400 | ||
描述 | Anode Shorted Gate Turn-Off Thyristor | ||
制造商 | IXYS | ||
LOGO | |||
1 Page
WESTCODE
An IXYS Company
Date:- 31 Jan, 2008
Data Sheet Issue:- 1
Provisional Data
Anode Shorted Gate Turn-Off Thyristor
Types G1000QC400 to G1000QC450
Absolute Maximum Ratings
VDRM
VRSM
VDC-link
VRRM
VRSM
VOLTAGE RATINGS
Repetitive peak off-state voltage, (note 1)
Non-repetitive peak off-state voltage, (note 1)
Maximum continuos DC-link voltage
Repetitive peak reverse voltage
Non-repetitive peak reverse voltage
MAXIMUM
LIMITS
4500
4500
2800
18
18
UNITS
V
V
V
V
V
ITGQ
Ls
IT(AV)M
IT(RMS)
ITSM
ITSM2
I2t
di/dtcr
PFGM
PRGM
IFGM
VRGM
toff
ton
Tj op
Tstg
RATINGS
Peak turn-off current, (note 2)
Snubber loop inductance, ITM=ITGQ, (note 2)
Mean on-state current, Tsink=55°C (note 3)
Nominal RMS on-state current, 25°C (note 3)
Peak non-repetitive surge current tp=10ms, (Note 4)
Peak non-repetitive surge current tp=2ms, (Note 4)
I2t capacity for fusing tp=10ms
Critical rate of rise of on-state current, (note 5)
Peak forward gate power
Peak reverse gate power
Peak forward gate current
Peak reverse gate voltage (note 6).
Minimum permissible off-time (note 2)
Minimum permissible on-time
Operating temperature range
Storage temperature range
Notes:-
1) VGK=-2Volts.
2) Tj=125°C, VD=2800V, VDM≤4500V diGQ/dt=25A/µs, ITGQ=1000A and CS=1µF.
3) Double-side cooled, single phase; 50Hz, 180° half-sinewave.
4) Tj(initial)=125°C, single phase, 180° sinewave, re-applied voltage VD=VR≤10V.
5) For di/dt>300A/µs please consult the factory.
6) May exceed this value during turn-off avalanche period.
MAXIMUM
LIMITS
1000
300
443
867
6500
11450
211.25×103
300
185
7
100A
18
80
20
-40 to +125
-40 to +125
UNITS
A
nH
A
A
A
kA
A2s
A/µs
W
kW
A
V
µs
µs
°C
°C
Provisional Data Sheet. Types G1000QC400 to G1000QC450 Issue 1
Page 1 of 15
January, 2008
WESTCODE An IXYS Company
Anode Shorted Gate Turn-Off Thyristor types G1000QC400 to G1000QC450
tgq
tf
0.9
VDM
ITGQ
0.1
IGQ
QGQ
VD
0.1
VG(AV)
VGQ
VGR
tgw
Diagram 11, Turn-off parameter definitions.
In addition to the turn-off figures given in characteristic data, the curves of figures 9, 10 & 11 give the
relationship of IGQ QGQ and tgq to turn-off current (ITGQ) and diGQ/dt. Only typical values of IGQ are given due
to a great dependence upon the gate circuit impedance, which is a function of gate drive design not the
device. The tgq is also, to a lesser extent, affected by circuit impedance and as such the maximum figures
given in data assume a good low impedance circuit design. The curves of figures 16 & 17 give the tail time
and minimum off time to re-fire device as a function of turn-off current. The minimum off time to re-fire the
device is distinct from tgw, the gate off time given in characteristics. The GTO thyristor may be safely re-
triggered when a small amount of tail current is still flowing. In contrast, the gate circuit must remain low
impedance until the tail current has fallen to zero or below a level which the higher impedance VGR circuit
can sink without being pulled down below –2 Volts. If the gate circuit is to be switched to a higher
impedance before the tail current has reached zero then the requirements of diagram 12 must be applied.
i tail
R
(VGR - itail R)>2V
Diagram 12.
VGR
The figure tgw, as given in the characteristic data, is the maximum time required for the tail current to
decay to zero. The figure is applicable under all normal operating conditions for the device; provided
suitable gate drive is employed. At lower turn-off current, or with special gate drive considerations, this
time may be reduced (each case needs to be considered individually).Typical turn-off losses are given in
the curves of figures 12 & 13, the integration period for the losses is nominally taken to the end of the tail
time (Itail<1A) i.e. :-
tgt +ttail
Eoff = ∫ iv.dt.
0
Provisional Data Sheet. Types G1000QC400 to G1000QC450 Issue 1
Page 8 of 15
January, 2008
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页数 | 15 页 | ||
下载 | [ G1000QC400.PDF 数据手册 ] |
零件编号 | 描述 | 制造商 |
G1000QC400 | Anode Shorted Gate Turn-Off Thyristor | IXYS |
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