Page 1
Date:- 24 Oct, 2001
WESTCODE
Phase Control Thyristor
Types N1010NC300 to N1010NC380
Absolute Maximum Ratings
VOLTAGE RATINGS
V
DRM
V
DSM
V
RRM
V
RSM
I
T(AV)
I
T(AV)
I
T(AV)
I
T(RMS)
I
T(d.c.)
I
TSM
I
TSM2
I2tI
I2t
diT/dt
V
RGM
P
G(AV)
P
GM
V
GD
T
HS
T
stg
Repetitive peak off-state voltage, (note 1) 3000-3800 V
Non-repetitive peak off-state voltage, (note 1) 3000-3800 V
Repetitive peak reverse voltage, (note 1) 3000-3800 V
Non-repetitive peak reverse voltage, (note 1) 3100-3900 V
OTHER RATINGS
Mean on-state current. T
Mean on-state current. T
Mean on-state current. T
Nominal RMS on-state current. T
D.C. on-state current. T
Peak non-repetitive surge tp=10ms, Vrm=0.6V
Peak non-repetitive surge tp=10ms, V
2
t capacity for fusing tp=10ms, Vrm=0.6V
I2t capacity for fusing tp=10ms, V
Maximum rate of rise of on-state current (repetitive), (Note 6) 200 A/µs
Maximum rate of rise of on-state current (non-repetitive), (Note 6) 400 A/µs
Peak reverse gate voltage 5 V
Mean forward gate power 4 W
Peak forward gate power 30 W
Non-trigger gate voltage, (Note 7) 0.25 V
Operating temperature range -40 to +125 °C
Storage temperature range -40 to +150 °C
=55°C, (note 2) 1010 A
sink
=85°C, (note 2) 704 A
sink
=85°C, (note 3) 436 A
sink
=25°C, (note 2) 1978 A
sink
=25°C, (note 4) 1754 A
sink
, (note 5) 12100 A
RRM
≤
10V, (note 5)
rm
, (note 5) 732×10
RRM
≤
10V, (note 5)
rm
Data Sheet Issue:- 1
MAXIMUM
LIMITS
MAXIMUM
LIMITS
13300 A
3
3
884×10
UNITS
UNITS
A2s
A2s
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% V
7)
Rated V
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 1 of10 October, 2001
, ITM=1000A, IFG=2A, t
DRM
.
DRM
≤
0.5µs, T
r
case
=125°C.
Page 2
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Positive development in power electronics
Characteristics
N1010NC300 to N1010NC380
PARAMETER MIN. TYP. MAX. TEST CONDITIONS
V
V
r
S
dv/dt Critical rate of rise of off-state voltage 200 - - VD=80% V
I
DRM
I
RRM
V
I
GT
I
H
t
gd
t
gt
Q
Q
I
rm
t
rr
t
q
R
Maximum peak on-state voltage - - 2.43 ITM=1830A V
TM
Threshold voltage - - 1.17 V
0
Slope resistance - - 0.687
Peak off-state current - - 100 Rated V
Peak reverse current - - 100 Rated V
Gate trigger voltage - - 3.0 V
GT
T
Gate trigger current - - 300
DRM
RRM
=25°C, VD=10V, IT=2A
j
Holding current - - 1000 Tj=25°C mA
Gate controlled turn-on delay time - 1.0 1.5
Turn-on time - 2.5 3.0
Recovered Charge - 4800 - µC
rr
Recovered Charge, 50% chord - 2000 2500 µC
ra
Reverse recovery current - 125 - A
VD=67%V
I
=2A, tr=0.5µs, Tj=25°C
FG
I
=1000A, tp=1000µs, di/dt=10A/µs,
TM
V
=50V
r
Reverse recovery time, 50% chord - 32 -
ITM=1000A, tp=1000µs, di/dt=10A/µs,
V
=50V, Vdr=80%V
r
ITM=1000A, tp=1000µs, di/dt=10A/µs,
V
=50V, Vdr=80%V
r
Turn-off time
Thermal resistance, junction to heatsink
th(j-hs)
- 600 650
- 1100 1200
--0.024 Double side cooled K/W
--
0.048 Single side cooled K/W
(Note 1)
, linear ramp, Gate O/C
DRM
, ITM=1000A, di/dt=20A/µs,
DRM
, dVdr/dt=20V/µs
DRM
, dVdr/dt=200V/µs
DRM
UNITS
m
V/µs
mA
mA
mA
µs
µs
µs
F Mounting force 19 - 29 kN
W
Weight - 510 - g
t
Ω
Notes: -
Unless otherwise indicated Tj=125°C.
1)
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 2 of10 October, 2001
Page 3
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Notes on Ratings and Characteristics
1.0 Voltage Grade Table
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N1010NC300 to N1010NC380
V
Voltage Grade
30 3000 3100 1750
32 3200 3300 1800
34 3400 3500 1850
36 3600 3700 1900
38 3800 3900 1950
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 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 Rate of rise of on-state current The maxim um un-primed rate of r ise of on-state current mus t not ex c eed 400A/µs at any time during turnon on a non-repetitive basis. For repetitive performance, the on-state rate of rise of current must not exceed 200A/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.
6.0 Gate Drive The recomm ended pulse gate drive is 30V, 15Ω 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.
DRM VDSM VRRM
V
V
RSM
V
V
V
D
DC V
R
The pulse duration may need to be configured acc ording to the application but should be no shorter than
20µs, otherwise an increase in pulse current may be needed to supply the necessary charge to trigger.
7.0 Computer Modelling Parameters
7.1 Device Dissipation Calculations
∆
2
4
=
I
AV
00
2
Where V0=1.17V, rs=0.687m
R
= Supplementary thermal impedance, see table below.
th
ff
= Form factor, see table below.
Conduction Angle 30° 60° 90° 120° 180° 270° d.c.
Square wave Double Side Cooled 0.03047 0.03035 0.02857 0.02733 0.02569 0.0242 0.024
Square wave Single Side Cooled 0.05823 0.0577 0.05408 0.05286 0.05121 0.0497 0.048
Sine wave Double Side Cooled 0.0303 0.0275 0.0262 0.02524 0.024
Sine wave Single Side Cooled 0.05588 0.05323 0.05186 0.05089 0.048
Ω,
2
2
⋅⋅
rff
s
Supplementary Thermal Impedance
⋅⋅⋅++−
WrffVV
AVs
and:
W
AV
=
R
max
T
th
−=∆
TTT
Hsj
Form Factors
Conduction Angle 30° 60° 90° 120° 180° 270° d.c.
Square wave 3.46 2.45 2 1.73 1.41 1.15 1
Sine wave 3.98 2.78 2.22 1.88 1.57
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 3 of10 October, 2001
Page 4
WESTCODE
=
=
p
=
p
=
7.2 Calculating VT using ABCD Coefficients
Positive development in power electronics
N1010NC300 to N1010NC380
The on-state characteristic I
(i) the well established V
(ii) a set of constants A, B, C, D, forming the coefficients of the representative equation for V
terms of I
The constants, derived by curve fitting soft ware, are given below for both hot and c old c harac teris tic s. T he
resulting values for V
that plotted.
7.3 D.C. Thermal Impedance Calculation
Where p = 1 to n, n is the number of terms in the series and:
Duration of heating pulse in seconds.
t
r
Thermal resistance at time t.
t
Amplitude of pth term.
r
τ
Time Constant of rth term.
given below:
T
T
A 0.9538873 A 0.571466615
B 0.07518263 B 0.1223907
C 4.912747×10
D -2.98×10
vs. VT, on page 5 is represented in two ways;
T
and rs tangent used for rating purposes and
0
in
T
()
ln
agree with the true device characteristic over a current range, which is limited to
25°C Coefficients 125°C Coefficients
-4
-3
=
∑
=
p
C 7.111703×10
D -8.46958×10
np
1
pt
1
−
τ
−⋅=
err
t
p
⋅+⋅+⋅+=
IDICIBAV
TTTT
-4
-3
D.C. Double Side Cooled
Term12345
r
p
τ
p
Term1234567
r
p
τ
p
8.0 Reverse recovery ratings (i) Qra is based on 50% Irm chord as shown in Fig. 1.
(ii) Q
(iii)
0.02836 5.574×10
is based on a 150µs integration time.
rr
0.01248 6.216×10
0.884 0.1221 0.03612 7.612×10
-3
3.588×10
6.345 3.55 0.582 0.132 0.0496 0.01015 2.225×10
µ
s
150
i.e.
=
FactorK
rrrr
∫
0
-3
D.C. Single Side Cooled
-3
dtiQ
.
t
1
1.939×10
6.222×10
=
t
2
-3
-3
2.04×10
1.527×10
-3
-3
-3
1.675×10
Fig. 1
1.038×10
1.93×10
-3
-3
-3
1.258×10
-3
-3
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 4 of10 October, 2001
Page 5
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N1010NC300 to N1010NC380
Curves
Figure 1 - On-state characteristics of Limit device Figure 2 - Transient Thermal Impedance
0.1
N1010NC300-380
0.01
Issue 1
(A)
TM
10000
Tj = 125°CTj = 25°C
SSC
0.048K/W
DSC
0.024K/W
1000
Instantaneous On-state current - I
N1010NC300-380
Issue 1
100
012345
Instantaneous On-state voltage - V
(V)
TM
0.001
Transient thermal impedance (K/W)
0.0001
0.00001
1E-05 0.0001 0.001 0.01 0.1 1 10 100
Time (s)
Figure 3 - Gate Characteristics - Trigger Limits Figure 4 - Gate Characteristics - Power Curves
5
N1010NC300-380
Issue 1
Tj=25°C
4
Max VG dc
20
N1010NC300-380
Tj=25°C
18
16
14
Issue 1
Max VG dc
(V)
G
3
IGT, V
GT
(V)
G
12
10
2
Gate Voltage - V
8
Gate Voltage - V
PG Max 30W dc
6
25°C
125°C
-10°C
1
IGD, V
GD
0
0 0.25 0.5
Gate Current - I
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 5 of10 October, 2001
-40°C
Min VG dc
4
PG 4W dc
2
0
Min VG dc
0246810
(A)
G
Gate Current - I
(A)
G
Page 6
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Positive development in power electronics
N1010NC300 to N1010NC380
Figure 5 – Recovered Charge, Q
100000
(µC)
rr
10000
Recovered charge - Q
1000
1 10 1 00 1000
di/dt (A/µs)
rr
4000A
2000A
1000A
500A
N1010NC300-380
Tj=125°C
Issue 1
Figure 6 – Recovered charge, Qra (50% chord)
10000
, 50% chord (µC)
ra
Recovered charge - Q
1000
1 10 100 1000
di/dt (A/µs)
N1010NC300-380
Issue 1
Tj=125°C
4000A
2000A
1000A
500A
Figure 7 – Reverse recovery current, I
1000.00
(A)
rm
Reverse recovery current - I
N1010NC300-380
Issue 1
Tj=125°C
100.00
10.00
1 10 100 1000
di/dt (A/µs)
rm
4000A
2000A
1000A
500A
Figure 8 – Reverse recovery time, trr (50% chord)
100
(µs)
rr
10
Reverse recovery time (50% chord) - t
1
1 10 100 1000
di/dt (A/µs)
N1010NC300-380
Issue 1
Tj=125°C
4000A
2000A
1000A
500A
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 6 of10 October, 2001
Page 7
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Positive development in power electronics
N1010NC300 to N1010NC380
Figure 9 – On-state current vs. Power dissipation – Double Side Cooled (Sine wave)
4500
180°
4000
60°
3500
3000
2500
2000
1500
Maximum forward dissipation (W)
1000
500
0
0 200 400 600 800 1000 1200 1400
Mean forward current (A) (Whole cycle averaged)
30°
120°
90°
N1010NC300-380
Issue 1
Figure 10 – On-state current vs. Heatsink temperature - Double Side Cooled (Sine wave)
150
125
100
75
50
Maximum permissable heatsink temperature (°C)
25
0
0 200 400 600 800 1000 1200 1400
Mean forward current (A) (Whole cycle averaged)
30° 60° 90° 120° 180°
N1010NC300-380
Issue 1
Figure 11 – On-state current vs. Power dissipation – Double Side Cooled (Square wave)
4500
4000
3500
3000
d.c.
Issue 1
270°
180°
120°
90°
60°
30°
2500
2000
1500
Maximum forward dissipation (W)
1000
500
N1010NC300-380
0
0 500 1000 1500 2000
Mean Forward Current (Amps) (Whole Cycle Averaged)
Figure 12 – On-state current vs. Heatsink temperature - Double Side Cooled (Square wave)
150
125
100
75
50
Maximum permissible heatsink temperature (°C)
25
0
0 500 1000 1500 2000
Mean Forward Current (Amps) (Whole Cycle Averaged)
N1010NC300-380
Issue 1
30°
60°
90°
120°
180°
270°
d.c.
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 7 of10 October, 2001
Page 8
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Positive development in power electronics
N1010NC300 to N1010NC380
Figure 13 – On-state current vs. Power dissipation – Single Side Cooled (Sine wave)
2500
180°
2000
1500
1000
Maximum forward dissipation (W)
500
0
0 200 400 600 800 1000
Mean forward current (A) (Whole cycle averaged)
60°
30°
120°
90°
N1010NC300-380
Issue 1
Figure 14 – On-state current vs. Heatsink temperature - Single Side Cooled (Sine wave)
150
125
100
75
50
Maximum permissable heatsink temperature (°C)
25
0
0 200 400 600 800 1000
Mean forward current (A) (Whole cycle averaged)
30° 60° 90° 120°
N1010NC300-380
Issue 1
180°
Figure 15 – On-state current vs. Power dissipation – Single Side Cooled (Square wave)
2500
2000
1500
1000
Maximum forward dissipation (W)
500
0
0 200 400 600 800 1000 1200
Mean Forward Current (Amps) (Whole Cycle Averaged)
d.c.
270°
180°
120°
90°
60°
30°
N1010NC300-380
Issue 1
Figure 16 – On-state current vs. Heatsink temperature - Single Side Cooled (Square wave)
150
125
100
75
50
Maximum permissible heatsink temperature (°C)
25
0
0 200 400 600 800 1000 1200
Mean Forward Current (Amps) (Whole Cycle Averaged)
N1010NC300-380
Issue 1
30°
60°
90°
120°
180°
270°
d.c.
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 8 of10 October, 2001
Page 9
WESTCODE
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Figure 17 – Maximum surge and I2t Ratings
N1010NC300 to N1010NC380
100000
N1010NC300-380
Issue 1
Tj (initial) = 125°C
10000
Total peak half sine surge current (A)
I2t: V
I2t: 60% V
I
: V
TSM
I
: 60% V
TSM
RRM
RRM
≤
≤
10V
RRM
10V
RRM
1.00E+07
1.00E+06
s)
2
t (A
2
Maximum I
1000
135101 5 10 50 100
Duration of surge (ms) Duration of surge (cycles @ 50Hz)
1.00E+05
Data Sheet. Types N1010NC300 to N1010NC380 Issue 1. Page 9 of10 October, 2001
Page 10
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Outline Drawing & Ordering Information
N1010NC300 to N1010NC380
ORDERING INFORMATION
N1010 NC
Fixed
Type Code
Typical order code: N1010NC320 – 3200V V
Fixed
Outline Code
DRM/VRRM
, 27.7mm clamp height capsule.
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Internet: http://www.westcode.com
The information contained herein is confidential and is protected by Copyright. The information may not be used or 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. Types N1010NC300 to N1010NC380 Issue 1. Page 10 of10 October, 2001
(Please quote 10 digit code as bel ow)
♦ ♦
♦ ♦
♦ ♦♦ ♦
Voltage Code
30-38
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
USA: Westcode Semiconductors Inc.
3270 Cherry Avenue, Long Beach, California 90807
Tel: +1 (562) 595 6971 Fax: +1 (562) 595 8182
E-Mail: WSI.sales@westcode.com
© Westcode Semiconductors Ltd.
0
Fixed turn-off
time code
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