TDK4--3302 Phase Control Thyristor, 3300 Amperes, 4500 Volts

TDK4_ _3302
Phase Control Thyristor
3300 Amperes 4500 Volts
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724)925-7272
The TDK4 is a high voltage, high current
disc pack SCR employing a high di/dt
gate structure. This gate design allows
the SCR to be reliably operated at high
di/dt and dv/dt conditions in various
phase control applications.
FEATURES:
Low On-State Voltage
High di/dt Capability
High dv/dt Capability
Hermetic Ceramic Package
Excellent Surge and I2t Ratings
APPLICATIONS:
DC Power Supplies
Motor Controls
ORDERING INFORMATION
Select the complete 12 digit Part Number using the table below.
EXAMPLE: TDK4443302DH is a 4400V-3300A SCR with 300ma
IGT and 12 inch gate and cathode potential leads.
Voltage Voltage Current Current
PART
Rating
Code
Rating
Code Turn-Off
Tq
Itavg
VDRM-VRRM
TDK4
4500
4400
4200
4000
3600
45
44
42
40
36
3300
33
0
Gate
IGT
2
400us
300ma
(typ.)
(max)
Page 1
Leads
12"
Revised:
7/27/2003
TDK4_ _3302
Phase Control Thyristor
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724)925-7272
3300 Amperes 4500 Volts
Absolute Maximum Ratings†
Characteristic
Symbol
Rating
Units
VDRM-VRRM
4400
Volts
Average On-State Current, TC=72°C
IT(Avg.)
3300
A
RMS On-State Current, TC=70°C
IT(RMS)
5184
A
Average On-State Current, TC=55°C
IT(Avg.)
3900
A
RMS On-State Current, TC=55°C
IT(RMS)
6126
A
Peak One Cycle Surge Current, 60Hz, VR=0V
ITSM
50,000
A
Peak One Cycle Surge Current, 50Hz, VR=0V
ITSM
47,140
A
Fuse Coordination I t, 60Hz
2
It
1.04E+07
A2s
Fuse Coordination I2t, 50Hz
I2t
1.11E+07
A2s
di/dt
150
A/us
di/dt
300
A/us
PGM
16
Watts
PG(avg)
5
Watts
Tj
-40 to+125
°C
TStg.
-40 to+150
°C
7
lb
3.18
Kg
18,000 - 25,000
lbs
Repetitive Peak Voltage
2
Critical Rate-of-Rise of On-State Current
Repetitive from .67•VDRM
Critical Rate-of-Rise of On-State Current
Non-Repetitive from .67•VDRM
Peak Gate Power, 100us
Average Gate Power
Operating Temperature
Storage Temperature
Approximate Weight
Mounting Force
80 - 110
†
Ratings apply for operation at rated load force.
Page 2
KNewtons
TDK4_ _3302
Phase Control Thyristor
3300 Amperes 4500 Volts
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724)925-7272
Electrical Characteristics,
Tj=25°C unless otherwise specified
Rating
Characteristic
Repetitive Peak Forward
Leakage Current
Repetitive Peak Reverse
Leakage Current
Symbol
Test Conditions
min
typ
max
Units
IDRM
Tj=125°C, VDRM=Rated
300
ma
IRRM
Tj=125°C, VRRM=Rated
300
ma
Peak On-State Voltage
VTM
Tj=125°C, ITM=3000A
1.60
V
VTM Model, Low Level
VTM = VO + r•ITM
V0
Tj=125°C
15% ITM - π•ITM
0.991269 V
VTM Model, High Level
VTM = VO + r•ITM
V0
Tj=125°C
0.772002 V
VTM Model, 4-Term
A
Tj=125°C
0.132
B
15%ITM - ITSM
0.181
VTM= A + B•Ln(ITM) +
C•(ITM) + D•(ITM)
½
r
r
1.96E-04
π•ITM - ITSM
2.18E-04
C
Turn-On Delay Time
D
td
Turn-Off Time (typ)
tq
-1.41E-02
3
us
VD = 0.5•VDRM
Gate Drive: 40V - 20Ω
Tj=125°C
dv/dt = 20V/us to 80% VDRM
dv/dt
Tj=125°C Exp. Waveform
VD =67% Rated
Gate Trigger Current
IGT
VGT
Tj=25°C VD = 12V
Peak Reverse Gate Voltage
Ω
2.57E-04
dv/dt(Crit)
Gate Trigger Voltage
Ω
400
us
2000
V/us
40
100
300
ma
0.8
2.0
4.0
V
5
V
Rating
typ
max
Units
VGRM
Thermal Characteristics
Characteristic
Thermal Resistance
Test Conditions
min
Junction to Case
RΘjc
Double side cooled
0.0055
0.007
°C/Watt
Case to Sink
RΘcs
Double side cooled
0.0015
0.002
°C/Watt
ZΘjc
Double side cooled
Thermal Impedance Model
ZΘjc(t) =
Symbol
Σ(A(N)•(1-exp(-t/Tau(N))))
N=
where:
1
2
3
4
A(N) = 1.43E-04 9.38E-04 2.42E-03 3.50E-03
Tau(N) = 2.62E-03 2.31E-02 3.05E-01 3.30E+00
Page 3
TDK4_ _3302
Phase Control Thyristor
3300 Amperes 4500 Volts
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724)925-7272
MAXIMUM TRANSIENT THERMAL
IMPEDANCE
Maximum On-State Voltage Drop
6.00
VTM (V)
5.00
Thermal Impedance
(°C/Watt)
Tj = 125°C
4.00
3.00
2.00
1.00
0.00
100
1000
10000
100000
8.00E-03
7.00E-03
6.00E-03
5.00E-03
4.00E-03
3.00E-03
2.00E-03
1.00E-03
0.00E+00
0.001
0.01
0.1
ITM (A)
Sinusoidal Waveform
130
Tc (°C)
(Watts)
Pavg
8000
120
120° 180°
60° 90°
6000
4000
CONDUCTION ANGLE
2000
CONDUCTION ANGLE
110
100
0°
180°
360°
0
1000
2000
Iavg
3000
120° 180°
60° 90°
0
4000
1000
2000
Iavg
(A)
Maximum On-State Power Dissipation
3000
4000
(A)
Maximum Allowable Case Temperature
Square Waveform
Square Waveform
14000
360°
80
60
0
180°
90
70
0°
130
12000
360°
10000
60° 90°
8000
120
120° 180°
CONDUCTION ANGLE
110
Tc (°C)
(Watts)
100
Maximum Allowable Case Temperature
Sinusoidal Waveform
10000
Pavg
10
Time (sec)
Maximum On-State Power Dissipation
12000
1
6000
CONDUCTION ANGLE
4000
2000
0°
180°
100
0°
80
60° 90°
60
0
0
2000
4000
Iavg
0
6000
(A)
1000
2000
120° 180°
3000
Iavg
Page 4
360°
90
70
360°
180°
(A)
4000
360°
5000
6000