R0809LS10D [IXYS]
Silicon Controlled Rectifier, 1691A I(T)RMS, 1260000mA I(T), 1000V V(DRM), 1000V V(RRM), 1 Element, 101A336, 3 PIN;型号: | R0809LS10D |
厂家: | IXYS CORPORATION |
描述: | Silicon Controlled Rectifier, 1691A I(T)RMS, 1260000mA I(T), 1000V V(DRM), 1000V V(RRM), 1 Element, 101A336, 3 PIN 栅 栅极 |
文件: | 总12页 (文件大小:259K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Date:- 30 Mar, 2001
Data Sheet Issue:- 1
WESTCODE
Distributed Gate Thyristor
Type R0809LS10x
Absolute Maximum Ratings
MAXIMUM
LIMITS
1000
VOLTAGE RATINGS
UNITS
VDRM
VDSM
VRRM
VRSM
Repetitive peak off-state voltage, (note 1)
Non-repetitive peak off-state voltage, (note 1)
V
V
V
V
1000
1000
1100
Repetitive peak reverse voltage, (note 1)
Non-repetitive peak reverse voltage, (note 1)
MAXIMUM
LIMITS
809
OTHER RATINGS
UNITS
IT(AV)
IT(AV)
IT(AV)
IT(RMS)
IT(d.c.)
ITSM
ITSM2
I2t
Mean on-state current, Tsink=55°C, (note 2)
Mean on-state current. Tsink=85°C, (note 2)
Mean on-state current. Tsink=85°C, (note 3)
Nominal RMS on-state current, Tsink=25°C, (note 2)
D.C. on-state current, Tsink=25°C, (note 4)
A
A
504
271
A
1691
A
1260
A
Peak non-repetitive surge tp=10ms, VRM=0.6VRRM, (note 5)
8000
A
≤
8800
A
Peak non-repetitive surge tp=10ms, VRM 10V, (note 5)
I2t capacity for fusing tp=10ms, VRM=0.6VRRM, (note 5)
I2t capacity for fusing tp=10ms, VRM 10V, (note 5)
320×103
387×103
1000
A2s
A2s
A/µs
A/µs
V
I2t
≤
Maximum rate of rise of on-state current (repetitive), (Note 6)
Maximum rate of rise of on-state current (non-repetitive), (Note 6)
Peak reverse gate voltage
diT/dt
1500
VRGM
PG(AV)
PGM
VGD
5
Mean forward gate power
2
W
Peak forward gate power
30
W
Non-trigger gate voltage, (Note 7)
Operating temperature range
0.25
V
THS
-40 to +125
-40 to +150
°C
°C
Tstg
Storage temperature range
Notes:-
1) De-rating factor of 0.13% per °C is applicable for Tj below 25°C.
2) Double side cooled, single phase; 50Hz, 180° half-sinewave.
3) Single side cooled, single phase; 50Hz, 180° half-sinewave.
4) Double side cooled.
5) Half-sinewave, 125°C Tj initial.
≤
6) VD=67% VDRM, IFG=2A, tr 0.5µs, Tcase=125°C.
7) Rated VDRM
.
Data Sheet. Type R0809LS10x Issue 1
Page 1 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
Characteristics
PARAMETER
MIN.
TYP. MAX. TEST CONDITIONS
UNITS
(Note 1)
VTM
V0
Maximum peak on-state voltage
Threshold voltage
-
-
2.52 ITM=1400A
V
V
-
-
2.1
0.3
rS
Slope resistance
-
-
Ω
m
dv/dt
IDRM
IRRM
VGT
IGT
IH
Critical rate of rise of off-state voltage
Peak off-state current
Peak reverse current
Gate trigger voltage
200
-
-
VD=80% VDRM
Rated VDRM
Rated VRRM
Tj=25°C
µ
V/ s
-
-
-
-
-
-
-
-
-
-
-
-
70
70
3.0
mA
mA
V
-
-
Gate trigger current
-
300 Tj=25°C
1000 Tj=25°C
1.0
VD=10V, IT=3A
mA
mA
Holding current
-
tgd
Gate controlled turn-on delay time
Turn-on time
0.5
VD=67% VDRM, ITM=1500A, di/dt=60A/µs,
µs
I
FG=2A, tr=0.5µs, Tj=25°C
tgt
0.9
2.0
140
60
Qrr
Qra
Irm
Recovered charge
-
-
-
-
µC
µC
A
Recovered charge, 50% Chord
Reverse recovery current
Reverse recovery time
I
TM=1000A, tp=1000µs, di/dt=60A/µs,
Vr=50V
80
trr
2.0
µs
ITM=1000A, tp=1000µs, di/dt=60A/µs,
Vr=50V, Vdr=80%VDRM, dVdr/dt=20V/µs
ITM=1000A, tp=1000µs, di/dt=60A/µs,
Vr=50V, Vdr=80%VDRM, dVdr/dt=200V/µs
-
-
-
15
20
tq
Turn-off time (note 2)
µs
12
-
-
-
0.032 Double side cooled
K/W
K/W
kN
Rth(j-hs) Thermal resistance, junction to heatsink
-
-
0.064 Single side cooled
F
Mounting force
Weight
10
-
20
-
Wt
340
g
Notes:-
1) Unless otherwise indicated Tj=125°C.
2) The required tq (specified with dVdr/dt=200V/µs) is represented by an ‘x’ in the device part number. See ordering information
for details of tq codes.
Data Sheet. Type R0809LS10x Issue 1
Page 2 of 12
March, 2001
WESTCODE Positive development in power electronics
Notes on Ratings and Characteristics
1.0 Voltage Grade Table
R0809LS10x
V
DRM VDSM VRRM
VRSM
V
1100
VD VR
DC V
700
Voltage Grade
10
V
1000
2.0 Extension of Voltage Grades
This report is applicable to other and higher voltage grades when supply has been agreed by
Sales/Production.
3.0 Extension of Turn-off Time
This Report is applicable to other tq/re-applied dv/dt combinations when supply has been agreed by
Sales/Production.
4.0 Repetitive dv/dt
Higher dv/dt selections are available up to 1000V/µs on request.
5.0 De-rating Factor
A blocking voltage de-rating factor of 0.13%/°C is applicable to this device for Tj below 25°C.
6.0 Rate of rise of on-state current
The maximum un-primed rate of rise of on-state current must not exceed 1500A/µs at any time during
turn-on on a non-repetitive basis. For repetitive performance, the on-state rate of rise of current must not
exceed 1000A/µs at any time during turn-on. Note that these values of rate of rise of current apply to the
total device current including that from any local snubber network.
7.0 Square wave ratings
These ratings are given for load component rate of rise of forward current of 100 and 500 A/µs.
8.0 Duty cycle lines
The 100% duty cycle is represented on all the ratings by a straight line. Other duties can be included as
parallel to the first.
9.0 Maximum Operating Frequency
The maximum operating frequency is set by the on-state duty, the time required for the thyristor to turn off
(tq) and for the off-state voltage to reach full value (tv), i.e.
1
max =
f
tpulse +tq +tv
Data Sheet. Type R0809LS10x Issue 1
Page 3 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
10.0 On-State Energy per Pulse Characteristics
These curves enable rapid estimation of device dissipation to be obtained for conditions not covered by
the frequency ratings.
Let Ep be the Energy per pulse for a given current and pulse width, in joules
Let Rth(J-Hs) be the steady-state d.c. thermal resistance (junction to sink)
and TSINK be the heat sink temperature.
Then the average dissipation will be:
=
=
−
WAV EP f and TSINK (max.) 125 WAV Rth
(
J −Hs
)
11.0 Reverse recovery ratings
(i) Qra is based on 50% Irm chord as shown in Fig. 1 below.
Fig. 1
µ
(ii) Qrr is based on a 150 s integration time.
150µs
Qrr = irr .dt
∫
i.e.
0
t1
K Factor =
(iii)
t2
12.0 Reverse Recovery Loss
12.1 Determination by Measurement
From waveforms of recovery current obtained from a high frequency shunt (see Note 1, Page 5) and
reverse voltage present during recovery, an instantaneous reverse recovery loss waveform must be
constructed. Let the area under this waveform be E joules per pulse. A new heat sink temperature can
then be evaluated from the following:
=
−
+
TSINK (new) TSINK (original) E k f Rth
(
J −Hs
)
Where k=0.227 (°C/W)/s
E = Area under reverse loss waveform per pulse in joules (W.s.)
f = rated frequency Hz at the original heat sink temperature.
Rth(J-Hs) = d.c. thermal resistance (°C/W).
Data Sheet. Type R0809LS10x Issue 1
Page 4 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
The total dissipation is now given by:
=
+
E f
W(TOT) W(original)
12.2 Determination without Measurement
In circumstances where it is not possible to measure voltage and current conditions, or for design
purposes, the additional losses E in joules may be estimated as follows.
Let E be the value of energy per reverse cycle in joules (curves in Figure 9).
Let f be the operating frequency in Hz
TSINK
=
TSINK
−
E Rth f
(
)
(
new
)
(
original
)
Where TSINK (new) is the required maximum heat sink temperature and
TSINK (original) is the heat sink temperature given with the frequency ratings.
A suitable R-C snubber network is connected across the thyristor to restrict the transient reverse voltage
to a peak value (Vrm) of 67% of the maximum grade. If a different grade is being used or Vrm is other than
67% of Grade, the reverse loss may be approximated by a pro rata adjustment of the maximum value
obtained from the curves.
NOTE 1
- Reverse Recovery Loss by Measurement
This thyristor has a low reverse recovered charge and peak reverse recovery current. When measuring
the charge care must be taken to ensure that:
(a) a.c. coupled devices such as current transformers are not affected by prior passage of high
amplitude forward current.
(b) A suitable, polarised, clipping circuit must be connected to the input of the measuring oscilloscope
to avoid overloading the internal amplifiers by the relatively high amplitude forward current signal
(c) Measurement of reverse recovery waveform should be carried out with an appropriate critically
damped snubber, connected across diode anode to cathode. The formula used for the calculation
of this snubber is shown below:
Vr
R2 = 4
di
CS
dt
Where: Vr = Commutating source voltage
CS = Snubber capacitance
R
= Snubber resistance
13.0 Gate Drive
Ω
The recommended pulse gate drive is 30V, 15 with a short-circuit current rise time of not more than
0.5µs. This gate drive must be applied when using the full di/dt capability of the device.
The duration of pulse may need to be configured with respect to the application but should be no shorter
than 20µs, otherwise an increase in pulse current could be needed to supply the resulting increase in
charge to trigger.
Data Sheet. Type R0809LS10x Issue 1
Page 5 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
14.0 Computer Modelling Parameters
14.1 Calculating VT using ABCD Coefficients
The on-state characteristic IT vs VT, on page 8 is represented in two ways;
(i)
the well established Vo and rs tangent used for rating purposes and
(ii)
a set of constants A, B, C, D, forming the coefficients of the representative equation for VT in
terms of IT given below:
= +
( )
+
+
VT A B ln IT C IT D IT
The constants, derived by curve fitting software, are given in this report for hot and cold characteristics
where possible. The resulting values for VT agree with the true device characteristic over a current range,
which is limited to that plotted.
125°C Coefficients
A
B
C
D
2.127734
-0.1823644
2.283167×10-4
0.0355332
14.2 D.C. Thermal Impedance Calculation
−
t
=
p n
r = r 1− eτ
p
∑
t
p
=
p 1
Where p = 1 to n, n is the number of terms in the series.
t = Duration of heating pulse in seconds.
rt = Thermal resistance at time t.
rp = Amplitude of pth term.
τp
= Time Constant of rth term.
D.C. Double Side Cooled
Term
rp
1
2
3
4
0.01771901
0.7085781
4.240625×10-3
6.963806×10-3
3.043661×10-3
2.130842×10-3
0.1435833
0.03615196
τp
D.C. Single Side Cooled
Term
1
2
3
4
5
0.03947164
4.090062
0.01022837
1.078983
8.789912×10-3 4.235162×10-3 1.907609×10-3
rp
0.08530917
0.01128791
1.240861×10-3
τp
Data Sheet. Type R0809LS10x Issue 1
Page 6 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
Curves
Figure 1 - On-state characteristics of Limit device
Figure 2 - Transient thermal impedance
10000
0.1
SSC 0.064K/W
Tj = 125°C
DSC 0.032K/W
0.01
1000
0.001
0.0001
R0809LS10x
Issue 1
R0809LS10x
Issue 1
100
0.00001
0.0001
0
1
2
3
4
5
0.001
0.01
0.1
1
10
100
Instantaneous on-state voltage - VT (V)
Time (s)
Figure 3 - Gate characteristics - Trigger limits
Figure 4 - Gate characteristics - Power curves
20
7
R0809LS10x
R0809LS10x
Issue 1
Issue 1
Tj=25°C
Tj=25°C
18
6
16
5
14
Max VG dc
Max VG dc
12
10
8
4
IGT, VGT
3
PG Max 30W dc
6
2
4
Min VG dc
1
PG 2W dc
2
IGD, VGD
Min VG dc
0
0
0
2
4
6
8
10
0
0.25
0.5
0.75
1
Gate Trigger Current - IGT (A)
Gate Trigger Current - IGT (A)
Data Sheet. Type R0809LS10x Issue 1
Page 7 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
Figure 5 - Total recovered charge, Qrr
Figure 6 - Recovered charge, Qra (50% chord)
1000
100
10
1000
2000A
1500A
1000A
500A
2000A
1500A
1000A
500A
100
Tj = 125°C
Tj = 125°C
R0809LS10x
Issue 1
R0809LS10x
Issue 1
10
10
100
Commutation rate - di/dt (A/µs)
1000
10
100
Commutation rate - di/dt (A/µs)
1000
Figure 7 - Peak reverse recovery current, Irm
Figure 8 - Maximum recovery time, trr (50% chord)
10
1000
R0809LS10x
Issue 1
Tj = 125°C
2000A
1500A
1000A
500A
100
2000A
1500A
1000A
500A
Tj = 125°C
R0809LS10x
Issue 1
1
10
10
100
1000
10
100
Commutation rate - di/dt (A/µs)
1000
Commutation rate - di/dt (A/µs)
Data Sheet. Type R0809LS10x Issue 1
Page 8 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
Figure 9 - Reverse recovery energy per pulse
Figure 10 - Sine wave energy per pulse
1.00E+02
100
R0809LS10x
Issue 1
Tj=125°C
2000A
1500A
1000A
500A
1.00E+01
4kA
1.00E+00
2kA
1.5kA
1.00E-01
Snubber
0.1µF, 10Ω
500A
Tj = 125°C
Vrm = 67% VRRM
250A
R0809LS10x
Issue 1
1.00E-02
10
1.00E-05
1.00E-04
1.00E-03
1.00E-02
10
100
1000
Pulse width (s)
Commutation rate - di/dt (A/µs)
Figure 11 - Sine wave frequency ratings
Figure 12 - Sine wave frequency ratings
1.00E+05
1.00E+05
R0809LS10x
Issue 1
THs=55°C
500A
1.5kA
100% Duty Cycle
500A
100% Duty Cycle
1.00E+04
1.5kA
1.00E+04
1.00E+03
1.00E+02
1.00E+01
2kA
2kA
4kA
1.00E+03
4kA
1.00E+02
1.00E+01
THs=85°C
R0809LS10x
Issue 1
1.00E+00
1.00E-05
1.00E-04
1.00E-03
1.00E-02
1.00E-05
1.00E-04
1.00E-03
1.00E-02
Pulse Width (s)
Pulse width (s)
Data Sheet. Type R0809LS10x Issue 1
Page 9 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
Figure 13 - Square wave frequency ratings
Figure 14 - Square wave frequency ratings
1.00E+05
1.00E+05
1.00E+04
1.00E+03
1.00E+02
1.00E+01
1.00E+00
500A
1.5kA
500A
100% Duty Cycle
100% Duty Cycle
1.00E+04
1.5kA
2kA
2kA
4kA
1.00E+03
4kA
1.00E+02
1.00E+01
THs=55°C
THs=55°C
di/dt=500A/µs
di/dt=100A/µs
R0809LS10x
Issue 1
R0809LS10x
Issue 1
1.00E+00
1.00E-05
1.00E-04
1.00E-03
1.00E-02
1.00E-05
1.00E-04
1.00E-03
1.00E-02
Pulse width (s)
Pulse width (s)
Figure 15 - Square wave frequency ratings
Figure 16 - Square wave frequency ratings
1.00E+05
250A
1.00E+05
250A
100% Duty Cycle
1.00E+04
500A
500A
1.5kA
100% Duty Cycle
1.00E+04
1.00E+03
1.00E+02
1.00E+01
1.5kA
1.00E+03
2kA
2kA
4kA
1.00E+02
4kA
1.00E+01
THs=85°C
THs=85°C
di/dt=500A/µs
R0809LS10x
di/dt=100A/µs
R0809LS10x
Issue 1
Issue 1
1.00E+00
1.00E-05
1.00E-04
1.00E-03
1.00E-02
1.00E-05
1.00E-04
1.00E-03
1.00E-02
Pulse width (s)
Pulse width (s)
Data Sheet. Type R0809LS10x Issue 1
Page 10 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
Figure 17 - Square wave energy per pulse
Figure 18 - Square wave energy per pulse
1.00E+03
1.00E+03
R0809LS10x
R0809LS10x
Issue 1
di/dt=500A/µs
Tj=125°C
Issue 1
di/dt=100A/µs
Tj=125°C
1.00E+02
1.00E+02
4kA
2kA
1.00E+01
1.00E+01
1.00E+00
1.00E-01
1.00E-02
4kA
1.00E+00
2kA
1.5kA
500A
250A
1.5kA
1.00E-01
500A
250A
1.00E-02
1.00E-05
1.00E-04
1.00E-03
1.00E-02
1.00E-05
1.00E-04
1.00E-03
1.00E-02
Pulse width (s)
Pulse width (s)
Figure 19 - Maximum surge and I2t Ratings
Gate may temporarily lose control of conduction angle
100000
10000
1000
1.00E+07
1.00E+06
1.00E+05
R0809LS10x
Issue 1
Tj (initial) = 125°C
I2t: VRRM 10V
≤
I2t: 60% VRRM
≤
ITSM: VRRM 10V
ITSM: 60% VRRM
1
3
5
10
1
5
10
50 100
Duration of surge (ms)
Duration of surge (cycles @ 50Hz)
Data Sheet. Type R0809LS10x Issue 1
Page 11 of 12
March, 2001
WESTCODE Positive development in power electronics
R0809LS10x
Outline Drawing & Ordering Information
ORDERING INFORMATION
(Please quote 10 digit code as below)
R0809
LS
♦ ♦
♦
Fixed
Fixed
Fixed Voltage Code
tq Code
Type Code
Outline Code
VDRM/100
10
B=12µs, C=15µs, D=20µs
Typical order code: R0809LS10B – 1000V VDRM, VRRM, 12µs tq, 27.7mm clamp height capsule.
UK: Westcode Semiconductors Ltd.
P.O. Box 57, Chippenham, Wiltshire, England. SN15 1JL.
Tel: +44 (0) 1249 444524 Fax: +44 (0) 1249 659448
E-Mail: WSL.sales@westcode.com
WESTCODE
USA: Westcode Semiconductors Inc.
3270 Cherry Avenue, Long Beach, California 90807
Tel: 562 595 6971 Fax: 562 595 8182
Internet: http://www.westcode.com
E-Mail: WSI.sales@westcode.com
The information contained herein is confidential and is protected by Copyright. The information may not be used or
© Westcode Semiconductors Ltd.
disclosed except with the written permission of and in the manner permitted by the proprietors Westcode Semiconductors
Ltd.
In the interest of product improvement, Westcode reserves the right to change specifications at any time without prior
notice.
Devices with a suffix code (2-letter or letter/digit/letter combination) added to their generic code are not necessarily subject
to the conditions and limits contained in this report.
Data Sheet. Type R0809LS10x Issue 1
Page 12 of 12
March, 2001
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