LS43__50
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
POW-R-BLOK Single SCR Isolated Module 500 Amperes / Up to 1600 Volts
TM
OUTLINE DRAWING
D G A K H E B J
Description:
Powerex Single SCR Modules are designed for use in applications requiring rectification and isolated packaging. The modules are isolated for easy mounting with other components on a common heatsink. TM POW-R-BLOK has been tested and recognized by the Underwriters Laboratories. LS43__50 Single SCR TM POW-R-BLOK Module 600 Amperes / Up to 1600 Volts
"Q"
M
N
"P"
"S"
K
A
Features:
T T T T T Electrically Isolated Heatsinking Aluminum Nitride Insulator Compression Bonded Elements Metal Baseplate Low Thermal Impedance for Improved Current Capability T Quick Connect Gate Terminal with Provision for Keyed Mating Plug T UL Recognized
L
C
F
R
LS43 Outline Dimensions
Dimension A B Inches 3.15 1.50 2.05 3.62 1.97 0.39 0.24 0.79 0.99 0.48 0.12 1.45 1.76 M10 Metric 0.22 Dia. 0.99 0.110 x .032 Millimeters 80.0 38.0 52.1 92.0 50.0 9.9 6.1 20.1 25.1 12.2 3.1 36.8 44.7 M10 5.6 Dia. 25.1 2.5 x 0.8
K K G
A
C D E F G H
Benefits:
T No Additional Insulation Components Required T Easy Installation T No Clamping Components Required T Reduce Engineering Time
CONNECTION DIAGRAM
Ordering Information:
J K L M N P Q R
Select the complete eight-digit module part number from the table below. Example: LS431650 is a 1600 Volt, 500 Ampere Single SCR Isolated TM POW-R-BLOK Module
Applications:
T T T T T Bridge Circuits AC & DC Motor Drives Battery Supplies Power Supplies Large IGBT Circuit Front Ends
Type
LS43
Voltage Volts (x100)
08 10 12 14 16
Current Amperes (x10)
50
S
Note: Dimensions are for reference only.
Revision Date: 4/19/2002
LS43__50
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
POW-R-BLOK Single SCR Isolated Module 500 Amperes / Up to 1600 Volts
TM
Absolute Maximum Ratings
Characteristics Repetitive Peak Forward and Reverse Blocking Voltage Non-Repetitive Peak Blocking Voltage (t < 5 msec) RMS Forward Current Average Forward Current Peak One Cycle Surge Current, Non-Repetitive Peak Three Cycle Surge Current, Non-Repetitive Peak Ten Cycle Surge Current, Non-Repetitive I t for Fusing for One Cycle Maximum Rate-of-Rise of On-State Current, (Repetitive) Operating Temperature Storage Temperature Max. Mounting Torque, M6 Mounting Screw Max. Mounting Torque, M10 Terminal Screw Module Weight, Typical V Isolation @ 25C Vrms
2
Conditions
Symbol VDRM & VRRM VRSM IT(RMS) up to 1600 VRRM + 100 900 500 17,000 16,300 12,250 10,500 1.20 x 10 1.33 x 10 200
6 6
Units V V A A A A A A A sec 2 A sec A/µs °C °C in. – Lb. Nm in. – Lb. Nm g lb V
2
180° Conduction, TC=86°C 60 Hz, 100% VRRM reapplied 50 Hz, 100% VRRM reapplied 60 Hz, 100%VRRM reapplied 60 Hz, 100% VRRM reapplied 8.3 milliseconds 10 milliseconds Per JEDEC Standard 397 5.2.2.6
IT(AV) ITSM ITSM ITSM ITSM It 2 It di/dt TJ Tstg
2
-40 to +130 -40 to +150 55 6 110 12 816 1.80 3000
Revision Date: 4/19/2002
LS43__50
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
POW-R-BLOK Single SCR Isolated Module 500 Amperes / Up to 1600 Volts
TM
Electrical Characteristics, TJ=25°C unless otherwise specified
Characteristics Repetitive Peak Forward Leakage Current Repetitive Peak Reverse Leakage Current Peak On-State Voltage Threshold Voltage, Low-level Slope Resistance, Low-level Threshold Voltage, High-level Slope Resistance, High-level VTM Coefficients, Full Range Symbol IDRM IRRM VFM V(TO)1 rT1 V(TO)2 rT2 Test Conditions Up to 1600V, TJ=130°C Up to 1600V, TJ=130°C ITM=1500A TJ = 130°C, I = 15%IT(AV) to πIT(AV) TJ = 130°C, I = πIT(AV) to ITSM TJ = 130°C, I = 10A to 6kA VTM = A+ B Ln I +C I + D Sqrt I Minimum dV/dt Gate Trigger Current Gate Trigger Voltage Non-Triggering Gate Voltage Peak Forward Gate Current Peak Reverse Gate Voltage dV/dt IGT VGT VGDM IGTM VGRM Exponential to VDRM Tj=130°C, Gate Open Tj=25°C, VD=12V Tj=25°C, VD=12V Tj=130°C, VD= ½ VDRM A= B= C= D= 1000 Typ. 200 3.0 0.25 4.0 5 Min. Max. 80 80 1.30 0.81 0.32 0.90 0.26 0.8824 -4.46E-02 8.12E-05 1.54E-02 V/µs mA Volts Volts Amp Volts Units mA mA V V mΩ V mΩ
Thermal Characteristics
Characteristics Thermal Resistance, Junction to Case Thermal Impedance Coefficients Symbol RΘJ-C ZΘJ-C Per Module/Junction ZΘJ-C= K1 (1-exp(-t/τ 1)) + K2 (1-exp(-t/τ 2)) + K3 (1-exp(-t/τ 3)) Thermal Resistance, Case to Sink Lubricated RΘC-S + K4 (1-exp(-t/τ 4)) Per Module K1 = 8.03E-04 K2 = 1.03E-02 K3 = 1.64E-02 K4 = 3.75E-02 Max. 0.0650 τ 1 = 3.39E-04 τ 2 = 3.15E-03 τ 3 = 0.106 τ 4 = 2.066 0.02 °C/W Units °C/W
Revision Date: 4/19/2002
LS43__50
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
POW-R-BLOK Single SCR Isolated Module 500 Amperes / Up to 1600 Volts
Maximum Transient Thermal Impedance
(Junction to Case)
TM
Maximum On-State Forward Voltage Drop
( Tj = 130 °C )
5.00
.07000 .06000
On-State Voltage - Vtm - Volts
Thermal Impedance - Zjc - °C/W
4.00
.05000 .04000 .03000 .02000 .01000
3.00
2.00
1.00
0.00 10 100 1000 10000
.00000 0.0001
0.001
0.01
0.1
1
10
100
Instantaneous On-State Current - Itm - Amperes
Time - t - Seconds
Maximum Allowable Case Temperature
Maximum On-State Power Dissipation
(Sinusoidal Waveform) 700 600 120°
(Sinusoidal Waveform)
130
180°
125
Max. Case Temperature - Tcase -°C_
120 115 110 105 100 95 90 85 80 15° 30° 60° 90° 120° 180° 0 100 200 300 400 500 600
0 180 360
Max. Power Dissipation - Watts
500 400 30° 300 200
0
90° 60°
CONDUCTION ANGLE
15°
180
360
100 0 0 100 200 300
CONDUCTION ANGLE
400
500
600
Average On-State Current - It(av) - Amperes
Average On-State Current - It(av) - Amperes
Maximum On-State Power Dissipation
(Rectangular Waveform) 900 800 270° 180° 120° 90° 60° 30° 15° 360°
140 130 120 110 100 90 80 70 60
Maximum Allowable Case Temperature
(Rectangular Waveform)
Max. Power Dissipation - Watts
700 600 500 400 300 200
Max. Case Temperature - Tcase -°C
0
CONDUCTION ANGLE
180
360
15° 30° 60° 360°C 120° 180° 270°
90°
0
100 0 0 100 200 300 400 500
CONDUCTION ANGLE
180
360
600
700
800
0
100
200
300
400
500
600
700
800
Average On-State Current - It(av) - Amperes
Average On-State Current - It(av) - Amperes
Revision Date: 4/19/2002