CELDUC SCM0100200

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MOSFET BASED
DC SOLID STATE RELAY
SCM0100200
! Latest MOSFET technology generation.
! Ultra low on-state resistance.
! New innovative isolated driver ensuring fast power transistor
turn on and off therefore low power transient.
! Ultra low output leakage current
! Low control current consumption
Control voltage
range
Max. output peak
voltage
Nom. load current
with heatsink
! Triggered control input to avoid linear control risks
! Low conducted and radiated disturbances
Load voltage
range
Load current
range
Depends on protection
clamping voltage
(with heatsink)
Fig. 1
0 to 100A
Control input
voltage range
In & case / Out
Insulation
Connections
4.5-32VDC
4kV
M3 round tabs
M5 round tabs
HIGH SIDE WIRING DIAGRAM
(Load connected to “-“)
Proud to serve you
Data given at Tambient=40°C and subject to modification without previous notice
200VDC
100ADC
Dimensions
(WxHxD)
Weight
44.5 x 58.2 x 27
100g
(mm)
LOW SIDE WIRING DIAGRAM
(Load connected to “+”)
Fig. 2
See Instruction
sheet for
selective the
right
protective
components
See Instruction
sheet for selective
the right
protective
components
Fig. 3
4.5-32VDC
INTERNAL DIAGRAM
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CONTROL INPUT CHARACTERISTICS
INPUT CIRCUIT
CHARACTERISTIC
LABEL
VALUE
INFO.
Control voltage range
Uc
4.5 – 32VDC
Current consumption
Ic
25 – 42mADC for control voltage range
Typical turn on voltage
Ucontyp
4.3V
Min. releasing voltage
Ucoffmin
1VDC
Typical releasing voltage
Ucofftyp
3.5V
Max. input voltage
Ucmax
32VDC
Max. reverse voltage
-Ucmax
32VDC
Max. reverse leakage current
-Icmax
100µA
Re
Current limitation
Input impedance
See fig. 5
See fig. 5
POWER OUTPUT CHARACTERISTICS
CHARACTERISTIC
LABEL
VALUE
Ue
Depends on protection clamping voltage
Uep
200V
Overvoltage protection
D1
Not integrated
A voltage clamping mean must be connected across the
terminals 1 & 2 (see fig 1 & 2)
Reverse voltage (internal diode)
-Ue
1,6V
Max. repetitive avalanche
current
Iep
100A
Max. single pulse avalanche
energy
Eep
750mJ
@Ue=50V
@Ie=Iep
Max. repetitive pulse avalanche
energy
Eep
58mJ
@Ie=56A
Mains voltage range
Non-repetitive peak voltage
POWER CIRCUIT
Maximum nominal currents
INFO.
See Instruction
sheet for selective
the right
protective
components
@Ie=-100A
@Uc=0
Pulse width
limited by Tj
max
Resistive
Motor
100A
Please consult us
Ie
See fig. 7
for limits
Values with
heatsink
Non-repetitive peak overload
current
Iepeak
Min. load current
Iemin
0mA
Ielk
250µADC
@Uep @Tjmax
Max. on-state resistance
RDSon
22mΩ
@Iemax @Tjmax
Typ. output capacitance
Cout
1.5nF
Junction/case thermal
resistance per power element
Rthjc
0.4K/W
Total = 2
power
elements
Built-in heatsink thermal
resistance vertically mounted
Rthra
8K/W
@∆Tra=60°C
Heatsink thermal time constant
Tthra
10min
@∆Tra=60°C
Control inputs/power ouputs
insulation voltage
Uimp
4kV
Inputs/case insulation voltage
Uimp
4kV
Outputs/case insulation voltage
Uimp
4kV
Rio
1GΩ
Max. leakage current
Isolation resistance
Isolation capacitance
Maximum junction temperature
Storage ambient temperature
Operating ambient temperature
Max. case temperature
400A @Ue=100VDC L(load+line)=10µH
Cio
<8pF
Tjmax
175°C
Tstg
-40->+100°C
Tamb
-40->+90°C
Tc
100°C
See fig. 8
See fig. 7
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TIME CHARACTERISTICS
TIME CHARACT.
Fig. 4
TIME DIAGRAMS
CHARACTERISTIC
LABEL
VALUE
Turn on time
ton
10µs (1.2µs typical)
Turn on delay
tdon
600µs (500µs typical)
Turn off time
toff
10µs (1µs typical)
tdoff
100µs (60µs typical)
F(on-off)
700Hz
Turn off delay
Max. On-Off frequency
INFO.
MISC.
CONNECTIONS
GENERAL INFORMATION
Connections
Power
Control
Philips™ NR2
Philips™ NR1
1.8 N.m
0.8 N.m
Insulated crimp terminals
(round tabs, eyelet type)
M5
M3
Display
Green LED
(indicates relay has switched ON)
Screwdriver advised
Min and max tightening torque
Housing
UL94V0
Mounting
2 screws (M4x12mm)
Noise level
No audible noise
Weight
See mounting
sheet
100g
E.M.C.
EMISSION
E.M.C.
IMMUNITY
GENERAL
STANDARDS
Standards
IEC60947-1
Protection level
IP00
Protection against direct touch
None
CE marking
Yes
UL, cULUS and VDE approvals
Pending
TYPE OF TEST
STANDARD
LEVEL
EFFECT
E.S.D. (Electrostatic discharges)
EN61000-4-2
Pending
?
Radiated electromagnetic fields
EN61000-4-3
Pending
?
Fast transients bursts
EN61000-4-4
4kV coupling by clamp on the input side and direct for power side
No effect
Electric chocks
EN61000-4-5
1kV direct coupling on the input side (pending for power side)
?
Voltage drop
EN61000-4-11
-
Radiated and conducted
disturbances
NFEN55011
Pending
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CHARACTERISTIC CURVES
Fig. 5
INPUT CHARACTERISTIC
Fig. 6
Ic (mADC)
45
ON RESISTANCE VS TEMPERATURE
RDSon
25
(mOhms)
40
20
35
30
@25°C
15
25
20
10
15
10
5
5
0
0
0
2
4
6
8
-50
10 12 14 16 18 20 22 24 26 28 30 32
0
50
Fig. 7
100
POWER DISSIPATED AND LOAD CURRENT LIMIT VS TEMPERATURE
Permanent current
Ie AC51 (ARMS)
11 0
Power dissipated
(W)
26 6
Please refere to the installation notice for
precautions about mounting the device on a heatsink.
1.1K/W
0.9K/W
0.75K/W
0.55K/W
0.3K/W
0.2K/W
0.1K/W
10 0
22 0
90
17 8
80
14 1
70
10 8
60
79 .2
50
55
40
35 .2
30
19 .8
20
8.8
2.2
10
8K/W
4K/W
2.4K/W
2.2K/W
2.1K/W
1.95K/W
1.5K/W
1.3K/W
1.2K/W
0
0
0
8K/W = No Heatsink
2.1K/W = WF210000
1.1K/W = WF131100
0.3K/W = WF031100
Fig. 8
150
Junction Temperature (°C)
Uc (VDC)
10
20
30
4K/W = No reference
1.95K/W = WF191100
0.9K/W = WF092000
0.2K/W = WF020000
40
50
60
70
2.4K/W = WF152100
1.5K/W = WF141100
0.9K/W = WF115100
0.1K/W = No reference
80
90
10 0
11 0
Ambient temperature (°C)
2.2K/W = WF262100
1.3K/W = WF129100
0.7K/W = WF070000
CURRENT OVERLOAD CHARACTERISTIC (ITSM PER POWER ELEMENT)
Please consult us for calculation
2.2K/W = WF151200
1.2K/W = WF121000
0.55K/W = WF050000
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DIMENSIONS AND ACCESSORIES
Fig. 9
DIMENSIONS
28
Ø0,5
22.8
28
Æ4.7
M5
2-
4-
3+
47.6
1+
25.4
44.5
25.8
5.1
7.5
43.2
58.2
19.6
M3
TOLERANCES: Ø0.3
Fig.
10
ACCESSORIES
PROTECTIVE COVER 1K470000
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Rue Ampère B.P. 4
42290 SORBIERS - France
Phone : 33 (0) 4 77 53 90 21 Fax : 33 (0) 4 77 53 85 51 Email : [email protected]