ETC LD430650

LD43__50
TM
POW-R-BLOK
Dual SCR Isolated Module
500 Amperes / Up to 1600 Volts
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
OUTLINE DRAWING
Description:
A
R
Powerex Dual SCR Modules are
designed for use in applications
requiring phase control 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.
B
C
J
F
K
G
D
1
2
3
L
H
LD43__50
P - M10 THD (3 TYP.)
Q - DIA. (4 TYP.)
TM
Dual SCR Pow-R-Blok
Module
500 Amperes/ 600 – 1600 Volts
Features:
M
T - (4 TYP.)
LD43 Outline Dimensions
S
4
5
E
7
6
N
5 4
6 7
2
1
3
CONNECTION DIAGRAM
Dimension
Inches
Millimeters
A
5.91
150.0
B
4.88
124.0
C
4.41
112.0
D
2.36
60.0
E
2.05
52.0
F
1.97
50.0
G
1.89
48.0
H
1.73
44.0
J
1.22
31.0
K
1.10
28.0
25.4
L
1.00
Ordering Information:
M
0.69
17.5
Example: Select the complete
eight-digit module part number
from the table below.
Example: LD431650 is a
1600Volt, 500 Ampere Dual SCR
TM
Isolated POW-R-BLOK Module
N
0.39
10.0
P
M10 Metric
M10
Q
0.26 Dia.
6.5 Dia.
R
0.24
6.0
S
0.12
3.0
T
.110 x .032
2.5 x 0.8
Note: Dimensions are for reference only.
Type
LD43
Voltage
Volts
(x100)
Current
Amperes
(x10)
06
08
10
12
14
16
50
Electrically Isolated Heatsinking
Aluminum Nitride Insulator
Compression Bonded Elements
Metal Baseplate
Low Thermal Impedance
for Improved Current Capability
Quick Connect Gate Terminal
with Provision for Keyed Mating
Plug
UL Recognized
Benefits:
No Additional Insulation
Components Required
Easy Installation
No Clamping Components
Required
Reduce Engineering Time
Applications:
Bridge Circuits
AC & DC Motor Drives
Battery Supplies
Power Supplies
Large IGBT Circuit Front Ends
11/4/1999
LD43__ 50
TM
POW-R-BLOK
Dual SCR Isolated Module
500 Amperes / up to 1600
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
Volts
Absolute Maximum Ratings
Characteristics
Conditions
Repetitive Peak Forward and Reverse Blocking
Voltage
Non-Repetitive Peak Blocking Voltage
(t < 5 msec)
RMS Forward Current
Symbol
Units
VDRM & VRRM
up to 1600
V
VRSM
VRRM + 100
V
IT(RMS)
900
A
180° Conduction, TC=86°C
IT(AV)
500
A
Peak Three Cycle Surge Current, Non-Repetitive
60 Hz, 100% VRRM reapplied
50 Hz, 100% VRRM reapplied
60 Hz, 100%VRRM reapplied
ITSM
ITSM
ITSM
17,000
16,300
12,250
A
A
A
Peak Ten Cycle Surge Current, Non-Repetitive
60 Hz, 100% VRRM reapplied
ITSM
10,500
8.3 milliseconds
10 milliseconds
It
2
It
Per JEDEC Standard 397 5.2.2.6
di/dt
Average Forward Current
Peak One Cycle Surge Current, Non-Repetitive
2
I t for Fusing for One Cycle
Maximum Rate-of-Rise of On-State Current,
(Repetitive)
Operating Temperature
Storage Temperature
2
1.33 x 10
200
6
2
A sec
2
A sec
A/ms
TJ
-40 to +130
°C
Tstg
-40 to +150
°C
55
6
110
12
1500
in. – Lb.
Nm
in. – Lb.
Nm
g
3.30
lb
3000
V
Max. Mounting Torque, M6 Mounting Screw
Max. Mounting Torque, M10 Terminal Screw
Module Weight, Typical
V Isolation @ 25C
1.20 x 10
A
6
Vrms
11/4/1999
LD43__50
TM
POW-R-BLOK
Dual SCR Isolated Module
500 Amperes / up to 1600
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
Volts
Electrical Characteristics, TJ=25°C unless otherwise specified
Characteristics
Symbol
Test Conditions
Min.
Repetitive Peak Forward Leakage Current
IDRM
Up to 1600V, TJ=130°C
Repetitive Peak Reverse Leakage Current
IRRM
Peak On-State Voltage
VFM
Threshold Voltage, Low-level
Slope Resistance, Low-level
Threshold Voltage, High-level
Slope Resistance, High-level
mA
Up to 1600V, TJ=130°C
80
mA
ITM=1500A
1.30
V
V(TO)1
rT1
TJ = 130°C, I = 15%IT(AV) to πIT(AV)
0.81
0.32
V
mΩ
V(TO)2
rT2
TJ = 130°C, I = πIT(AV) to ITSM
0.90
0.26
V
mΩ
TJ = 130°C, I = 10A to 6kA
VTM = A+ B Ln I +C I + D Sqrt I
Gate Trigger Current
Units
80
VTM Coefficients, Full Range
Minimum dV/dt
Max.
dV/dt
Exponential to VDRM
Tj=130°C, Gate Open
IGT
Tj=25°C, VD=12V
A=
B=
C=
D=
0.8824
-4.46E-02
8.12E-05
1.54E-02
1000 Typ.
V/ms
200
mA
VGT
Tj=25°C, VD=12V
3.0
Volts
Non-Triggering Gate Voltage
VGDM
Tj=130°C, VD= ½ VDRM
0.25
Volts
Peak Forward Gate Current
IGTM
4.0
Amp
Peak Reverse Gate Voltage
VGRM
5
Volts
Gate Trigger Voltage
Thermal Characteristics
Characteristics
Symbol
Max.
Units
0.0325
0.0650
°C/W
°C/W
Thermal Resistance, Junction to Case
RΘJ-C
Per Module, both conducting
Per Junction, both conducting
Thermal Impedance Coefficients
ZQJ-C
ZQJ-C= K1 (1-exp(-t/t1))
K1 = 8.03E-04
t1 = 3.39E-04
+ K2 (1-exp(-t/t2))
+ K3 (1-exp(-t/t3))
K2 = 1.03E-02
t2 = 3.15E-03
Thermal Resistance, Case to Sink Lubricated
RΘC-S
+ K4 (1-exp(-t/t4))
Per Module
K3 = 1.64E-02
t3 = 0.106
K4 = 3.75E-02
t4 = 2.066
0.01
11/4/1999
°C/W
LD43__50
Dual SCR Module
Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (724) 925-7272
500 Amperes / up to 1600 Volts
Maximum On-State Forward Voltage Drop
Maximum Transient Thermal Impedance
( Tj = 130 °C )
(Junction to Case)
5.00
.07000
LD43N
.06000
Thermal Impedance - Zjc - °C/W
3.00
2.00
1.00
.05000
.04000
.03000
.02000
.01000
0.00
10
100
1000
10000
.00000
100000
0.0001
0.001
0.01
Instantaneous On-State Current - Itm - Amperes
1
10
100
M axim um Allow able Case T em perature
(Sinusoidal W aveform )
(S in u so id al W av efo rm )
130
700
125
180°
Max. Case Temperature - Tcase -°C_
LD 43N
600
Max. Power Dissipation Per SCR - Watts
0.1
Time - t - Seconds
M axim u m O n -S tate P o w er D issip a tio n
120°
90°
500
60°
400
30°
15°
300
200
180
0
360
CONDUCTION ANGLE
100
120
115
180
0
360
CONDUCTION ANGLE
110
105
100
15°
30°
95
60°
90
90°
85
180°
120°
LD43N
80
0
0
100
200
300
400
500
0
600
100
200
300
400
500
600
Average O n-State Current - It(av) - Am peres
A v erag e O n -S tate C u rren t - It(av ) - Am p eres
Maximum Allowable Case Temperature
Maximum On-State Power Dissipation
(Rectangular Waveform)
(Rectangular Waveform)
140
900
Max. Case Temperature - Tcase -°C
360°
270°
LD43N
800
Max. Power Dissipation Per SCR - Watts
On-State Voltage - Vtm - Volts
LD43N
4.00
180°
700
120°
600
90°
500
60°
30°
400
15°
300
200
0
180
360
CONDUCTION ANGLE
100
130
120
180
0
110
360
CONDUCTION ANGLE
100
15°
90
30°
80
60°
90°
120°
180°
70
270°
360°C
LD43N
60
0
0
100
200
300
400
500
600
700
Average On-State Current - It(av) - Amperes
800
900
0
100
200
300
400
500
600
700
Average On-State Current - It(av) - Amperes
11/4/1999
800
900