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WESTCODE
An IXYS Company
Date:- 1 July, 2008
Data Sheet Issue:- 1
Provisional Data
Medium Voltage Thyristor
Type K0566L#440 to K0566L#520
Development Type No. KX191LC440-520
Absolute Maximum Ratings
VDRM
VDSM
VRRM
VRSM
VOLTAGE RATINGS
Repetitive peak off-state voltage, (note 1)
Non-repetitive peak off-state voltage, (note 1)
Repetitive peak reverse voltage, (note 1)
Non-repetitive peak reverse voltage, (note 1)
MAXIMUM
LIMITS
4400-5200
4400-5200
4400-5200
4500-5300
UNITS
V
V
V
V
OTHER RATINGS
IT(AV)M
IT(AV)M
IT(AV)M
IT(RMS)
IT(d.c.)
ITSM
ITSM2
I2t
I2t
(di/dt)cr
VRGM
PG(AV)
PGM
Tj op
Tstg
Maximum average on-state current, Tsink=55°C, (note 2)
Maximum average on-state current. Tsink=85°C, (note 2)
Maximum average 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)
Peak non-repetitive surge tp=10ms, Vrm=60%VRRM, (note 5)
Peak non-repetitive surge tp=10ms, Vrm10V, (note 5)
I2t capacity for fusing tp=10ms, Vrm=60%VRRM, (note 5)
I2t capacity for fusing tp=10ms, Vrm10V, (note 5)
continuous, 50Hz
Critical rate of rise of on-state current, (Note 6)
repetitive, 50Hz, 60s
non-repetitive
Peak reverse gate voltage
Mean forward gate power
Peak forward gate power
Operating temperature range
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, tr0.5µs, Tcase=125°C.
MAXIMUM
LIMITS
566
399
252
1100
994
6000
6600
180×103
218×103
150
300
600
5
2
30
-40 to +125
-40 to +150
UNITS
A
A
A
A
A
A
A
A2s
A2s
A/µs
V
W
W
°C
°C
Provisional Data Sheet. Types K0566L#440 to K0566L#520 Issue 1
Page 1 of 11
July, 2008

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Characteristics
Medium Voltage Thyristor Types K0566L#440 to K0566L#520
PARAMETER
VTM Maximum peak on-state voltage
VTM Maximum peak on-state voltage
VT0 Threshold voltage
rT Slope resistance
(dv/dt)cr Critical rate of rise of off-state voltage
IDRM Peak off-state current
IRRM Peak reverse current
Vtr On-state recovery voltage
VGT Gate trigger voltage
IGT Gate trigger current
VGD Gate non-trigger voltage
IH Holding current
tgd Gate-controlled turn-on delay time
tgt Turn-on time
Qrr Recovered charge
Qra Recovered charge, 50% chord
Irm Reverse recovery current
trr Reverse recovery time, 50% chord
tq Turn-off time
RthJK
F
Wt
Thermal resistance, junction to heatsink
Mounting force
Weight
MIN.
-
-
-
-
1000
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
10
-
TYP.
-
-
-
-
-
-
-
10
-
-
-
-
0.6
1.2
2200
1000
100
20
650
900
-
-
-
340
MAX. TEST CONDITIONS (Note 1)
2.25
4.05
1.36
ITM=500A
ITM=1500A
1.79
- VD=80% VDRM, linear ramp, gate o/c
50 Rated VDRM
50 Rated VRRM
- IT=2×IT(AV)M, tp=10ms, Tcase=25°C
3.0
300 Tj=25°C.
VD=10V, IT=3A
0.25
1000
1.0
2.0
Rated VDRM
Tj=25°C
VD=57% VDRM, IT=800A, di/dt=10A/µs,
IFG=2A, tr=0.5µs, Tj=25°C
2400
- ITM=500A, tp=1000µs, di/dt=10A/µs,
- Vr=100V
-
-
-
0.032
ITM=1000A, tp=1000µs, di/dt=10A/µs,
Vr=100V, Vdr=80%VDRM, dVdr/dt=20V/µs
ITM=1000A, tp=1000µs, di/dt=10A/µs,
Vr=100V, Vdr=80%VDRM, dVdr/dt=200V/µs
Double side cooled
0.064 Single side cooled
20
-
UNITS
V
V
V
m
V/µs
mA
mA
V
V
mA
V
mA
µs
µs
µC
µC
A
µs
µs
K/W
K/W
kN
g
Notes:-
1) Unless otherwise indicated Tj=125°C.
2) For other clamp forces consult factory.
Provisional Data Sheet. Types K0566L#440 to K0566L#520 Issue 1
Page 2 of 11
July, 2008

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Medium Voltage Thyristor Types K0566L#440 to K0566L#520
Notes on Ratings and Characteristics
1.0 Voltage Grade Table
Voltage Grade
4400
4800
5000
5200
VDRM VDSM VRRM
V
4400
4800
5000
5200
VRSM
V
4500
4900
5100
5300
VD VR
DC V
2080
2160
2200
2240
2.0 Extension of Voltage Grades
This report is applicable to other voltage grades when supply has been agreed by Sales/Production.
3.0 De-rating Factor
A blocking voltage de-rating factor of 0.13%/°C is applicable to this device for Tj below 25°C.
4.0 Repetitive dv/dt
Standard dv/dt is 1000V/µs.
5.0 Gate Drive
The nominal requirement for a typical gate drive is illustrated below. An open circuit voltage of at least 30V
is assumed. This gate drive must be applied when using the full di/dt capability of the device.
IGM
4A/µs
IG
tp1
The magnitude of IGM should be between five and ten times IGT, which is shown on page 2. Its duration
(tp1) should be 20µs or sufficient to allow the anode current to reach ten times IL, whichever is greater.
Otherwise, an increase in pulse current could be needed to supply the necessary charge to trigger. The
‘back-porch’ current IG should remain flowing for the same duration as the anode current and have a
magnitude in the order of 1.5 times IGT.
6.0 Frequency Ratings
The curves illustrated in figures 17 & 18 are for guidance only and are superseded by the maximum
ratings shown on page 1. For operation above line frequency, please consult the factory for assistance.
7.0 Rate of rise of on-state current
The maximum un-primed rate of rise of on-state current must not exceed 600A/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 300A/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.
8.0 Square wave frequency ratings
These ratings are given for load component rate of rise of on-state current of 50A/µs.
Provisional Data Sheet. Types K0566L#440 to K0566L#520 Issue 1
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July, 2008

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Medium Voltage Thyristor Types K0566L#440 to K0566L#520
9.0 Computer Modelling Parameters
9.1 Device Dissipation Calculations
I AV = −VT 0 +
VT 02 + 4 ff 2 rT WAV
2 ff 2 rT
and:
Where VT0=1.36V, rT=1.79m,
Rth = Supplementary thermal impedance, see table below and
ff = Form factor, see table below.
WAV
=
T
Rth
T = Tj max THs
Conduction Angle
Square wave Double Side Cooled
Square wave Single Side Cooled
Sine wave Double Side Cooled
Sine wave Single Side Cooled
Supplementary Thermal Impedance
30° 60° 90° 120°
0.0480 0.0436 0.0413 0.0388
0.0790 0.0769 0.0740 0.0716
0.0415 0.0394 0.0378 0.0355
0.0735 0.0718 0.0701 0.0679
180°
0.0360
0.0688
0.0320
0.0640
270°
0.0345
0.0665
d.c.
0.0320
0.0640
Conduction Angle
Square wave
Sine wave
30°
3.464
3.98
Form Factors
60° 90°
2.449
2
2.778
2.22
120°
1.732
1.879
9.2 D.C. Thermal Impedance Calculation
rt
=
p=n
rp
p =1
1
t
eτ p

Where p = 1 to n, n is the number of terms in the series and:
t = Duration of heating pulse in seconds.
r
t
=
Thermal resistance at time t.
rp = Amplitude of pth term.
τp = Time Constant of rth term.
The coefficients for this device are shown in the tables below:
180°
1.414
1.57
270°
1.149
d.c.
1
Term
rp
τp
1
0.01771901
0.7085781
D.C. Double Side Cooled
2
4.240625×10-3
3
6.963806×10-3
0.1435833
0.03615196
4
3.043661×10-3
2.130842×10-3
Term
rp
τp
1
0.03947164
4.090062
D.C. Single Side Cooled
23
0.01022837
8.789912×10-3
1.078983
0.08530917
4
4.235162×10-3
0.01128791
5
1.907609×10-3
1.240861×10-3
Provisional Data Sheet. Types K0566L#440 to K0566L#520 Issue 1
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Medium Voltage Thyristor Types K0566L#440 to K0566L#520
9.3 Calculating VT using ABCD Coefficients
The on-state characteristic IT vs. VT, on page 6 is represented in two ways;
(i) the well established VT0 and rT 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 below for the hot and cold characteristics. The
resulting values for VT agree with the true device characteristic over a current range, which is limited to
that plotted.
25°C Coefficients
A -3.601622e-3
B 0.3236869
C 1.366986e-3
D -0.03236849
125°C Coefficients
A -1.819017
B 0.79521
C 2.47e-3
D -0.094268
10.0 Snubber Components
When selecting snubber components, care must be taken not to use excessively large values of snubber
capacitor or excessively small values of snubber resistor. Such excessive component values may lead to
device damage due to the large resultant values of snubber discharge current. If required, please consult
the factory for assistance.
11.0 Reverse recovery ratings
(i) Qra is based on 50% Irm chord as shown in Fig. 1
(ii) Qrr is based on a 150µs integration time i.e.
150 µs
Qrr = irr .dt
0
(iii)
K
Factor
=
t1
t2
Fig. 1
12.0 Duty cycle lines
The 100% duty cycle is represented on the frequency ratings by a straight line. Other duties can be
included as parallel to the first.
Provisional Data Sheet. Types K0566L#440 to K0566L#520 Issue 1
Page 5 of 11
July, 2008