SCM030200

MOSFET Relay, DC, 200 V, 30 A, Hockey Puck, Panel Mount

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Manufacturer: CELDUC
Product type: MOSFET Solid State Relays
Contact Configuration:-; Load Current:30A; Relay Terminals:Screw; Load Voltage Max:200VDC; On State Resistance Max:0.164ohm; Isolation Voltage:4kV; Forward Current If:42mA; Product Range
SVHC: Lead (27-Jun-2024)
Load Type: DC
Contact Form: -
Load Current: 30A
Product Range: SCM Series
Relay Mounting: Panel Mount
Relay Terminals: Screw
Load Voltage Max: 200V
Isolation Voltage: 4kV
Forward Current If: 42mA
I/O Capacitance Typ: -
On State Resistance Max: 0.164ohm
MOSFET Relay Package Style: Hockey Puck
Off State Leakage Current Max: -

Delivery and price
Units per pack	1
Price	203.68 €
Current stock	10+
Lead time	30 days

Datasheet

**S/CON/SCM030200/E/18/12/14** 

**Page 1/5 GB** 

## MOSFET BASED DC SOLID STATE RELAY 

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SCM030200<br>**----- End of picture text -----**<br>


- 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 

- Triggered control input to avoid linear control risks 

- Low conducted and radiated disturbances 

> Control voltage range 4.5-32VDC Max. output peak 200VDC voltage Nom. load current 30ADC with heatsink 

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Control input  In & case / Out  Dimensions<br>Load voltage range  Load current range  voltage range  Insulation  Connections  (WxHxD)  Weight<br>Depends on protection clamping voltage  (with heatsink)0 to 30A  4.5-32VDC  4kV  M3 round tabs M5 round tabs  44.5 x 58.2 x 27 (mm)  100g<br>HIGH SIDE WIRING DIAGRAM   LOW SIDE WIRING DIAGRAM<br>Fig. 1  Fig. 2<br>(Load connected to “-“) (Load connected to “+”)<br>DC Control DC Control<br>Power Supply Power Supply<br>+ - + DC Mains - T ‘J + - (*)See<br>Instruction<br>(*)See Instruction<br>/ Yue On -O ff sheet for<br>sheet for selective<br>| iz =| the right  c1 '(3) cont rol selective the right<br>protective<br>protective<br>components<br>I c AX be ia thd D2 ra 6 components<br>(Red paths as<br>On -O ff | © oh or or te) | (Red paths as<br>short as possible)<br>short as<br>control we ><br>20h ot possible)<br>if iti<br>Fig. 3  INTERNAL DIAGRAM<br>**----- End of picture text -----**<br>


## _Proud to serve you_ 

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celduc®<br>**----- End of picture text -----**<br>


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r     e     l     a     i    s<br>**----- End of picture text -----**<br>


Data given at Tambient=40°C and subject to modification without previous notice 

**celduc® r e l a i s** 

**S/CON/SCM030200/E/18/12/14** 

**Page 2/5 GB** 

||||CONTROL INPUT CHARACTERISTICS|CONTROL INPUT CHARACTERISTICS|CONTROL INPUT CHARACTERISTICS|
|---|---|---|---|---|---|
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|INPUT CIRCUIT|CHARACTERISTIC|LABEL|VALUE||INFO.|
||Control voltage range|Uc|4.5 – 32VDC|||
||Current consumption|Ic|25 – 42mADC for control voltage range||See fig. 5|
||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|||
||Input impedance|Re|Current limitation||See fig. 5|
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||||POWER OUTPUT CHARACTERISTICS|||
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|POWER CIRCUIT|CHARACTERISTIC|LABEL|VALUE||INFO.|
||Mains voltage range|Ue|Depends on protection clamping voltage|||
||Non-repetitive peak voltage|Utp|200V|||
||Overvoltage protection|D1|Not integrated<br>A voltage clamping mean must be connected across the<br>terminals 1 & 2 (see fig 1 & 2)||See Instruction<br>sheet for selective<br>the right<br>protective<br>components|
||Reverse voltage (internal diode)|-Ut|1,5V||@Ie=-30A<br>@Uc=0|
||Max. repetitive avalanche current|Iep|18A||Pulse width<br>limited by Tj<br>max|
||Max. single pulse avalanche energy|Eep|315mJ||@Ut=50V<br>@Ie=Iep|
||Max. repetitive pulse avalanche<br>energy|Eep|20mJ||@Ie=30A|
||Maximum nominal currents|Ie|Resistive|Motor|See fig. 7 for<br>limits<br>Values with<br>heatsink|
||||30A|Please consult us||
||Non-repetitive peak overload<br>current|Iepeak|120A @Ut=7VDC during 1ms||See fig. 8|
||Min. load current|Iemin|0mA|||
||Max. leakage current|Ielk|100µADC||@Utp @Tjmax|
||Max. on-state resistance|RDSon|164m||@Iemax @Tjmax|
||Typ. output capacitance|Cout|3nF (Ut=1V 1MHz)||Uc=0|
||Junction/case thermal resistance<br>per power element|Rthjc|0.75K/W||Total = 1<br>power<br>element|
||Built-in heatsink thermal<br>resistance verticallymounted|Rthra|8K/W||@Tra=60°C|
||Heatsink thermal time constant|Tthra|10min||@Tra=60°C|
||Control inputs/power outputs<br>insulation voltage|Uimp|4kV|||
||Inputs/case insulation voltage|Uimp|4kV|||
||Outputs/case insulation voltage|Uimp|4kV|||
||Isolation resistance|Rio|1G|||
||Isolation capacitance|Cio|<8pF|||
||Maximum junction temperature|Tjmax|175°C|||
||Storage ambient temperature|Tstg|-40->+100°C|||
||Operating ambient temperature|Tamb|-40->+90°C||See fig. 7|
||Max. case temperature|Tc|100°C|||



**celduc® r e l a i s** 

**S/CON/SCM030200/E/18/12/14** 

**Page 3/5 GB** 

## TIME CHARACTERISTICS 

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Fig. 4  TIME DIAGRAMS<br>**----- End of picture text -----**<br>


|Fig. 4|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|TIME DIAGRAMS|
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|TIME CHARACT.|CHARACTERISTIC||||LABEL|VALUE|||||INFO.|
||Turn on time||||ton|10µs (1.2µs typical)||||||
||Turn on delay||||tdon|600µs (500µs typical)||||||
||Turn off time||||toff|10µs (1µs typical)||||||
||Turn off delay||||tdoff|100µs (60µs typical)||||||
||Max. On-Off frequency||||F(on-off)|700Hz||||||
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|||||||GENERAL INFORMATION||||||
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|CONNEC-<br>TIONS|Connections|||||Power|||Control|||
||Screwdriver advised|||||Philips™ NR2|||Philips™ NR1|||
||Min and max tightening torque|||||1.8 N.m|||0.8 N.m|||
||Insulated crimp terminals (round<br>tabs, eyelet type)|||||M5|||M3|||
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|MISC.|Display|||||Green LED<br>(indicates relayhas switched ON)||||||
||Housing|||||UL94V0||||||
||Mounting|||||2 screws (M4x12mm)|||||See mounting<br>sheet|
||Noise level|||||No audible noise||||||
||Weight|||||100g||||||
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|||||||STANDARDS||||||
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|GENERAL|Standards|||||IEC60947-1||||||
||Protection level|||||IP00||||||
||Protection against direct touch|||||None||||||
||CE marking|||||Yes||||||
||UL, cULUS|||||Yes||||||
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|E.M.C.<br>IMMUNITY|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 (power side to be tested)|||||No effect|
||Electric chocks||||EN61000-4-5|1kV direct coupling on control side (pending on power side)|||||No effect|
||Voltage drop||||EN61000-4-11|-||||||
|||||||||||||
|E.M.C.<br>EMISSION|Radiated and conducted<br>disturbances||||NFEN55011|Pending||||||



**celduc® r e l a i s** 

**S/CON/SCM030200/E/18/12/14** 

**Page 4/5 GB** 

## CHARACTERISTIC CURVES 

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Fig. 5  INPUT CHARACTERISTIC  Fig. 6 ON RESISTANCE VS TEMPERATURE<br>Ic (mADC)<br>RDSon<br>45 250<br>(mOhms)<br>40<br>35 200<br>30 @25°C<br>150<br>25<br>20 100 etna<br>15<br>10 50 TT<br>5<br>0 0 LUE<br>0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 -50 0 50 100 150<br>Junction temperature (°C)<br>Uc (VDC)<br>**----- End of picture text -----**<br>


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Fig. 7  POWER DISSIPATED AND LOAD CURRENT LIMIT VS TEMPERATURE<br>**----- End of picture text -----**<br>


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Permanent current  Please refere to the installation notice for   Power dissipated<br>Ie (ARMS)  precautions about mounting the device on a heatsink.  (W)<br>35 201<br>1.3K/W 1.2K/W 1.1K/W 0.9K/W 0.75K/W 0.55K/W 0.3K/W 0.2K/W 0.1K/W<br>30 en 148<br>Set ee<br>25 EE 103<br>———=— =<br>20 EPPS 65.6<br>—S—— TTT TTT tf<br>= Se | — ~~}<br>15 ee tT} | 36.9<br>10 SS—SS — | SSSA 16.4<br>ty Bee SN<br>5 SRG G ee 4.1<br>ee \ ee<br>| | | {| | | ee | | | a W\<br>8K/W 4K/W 2.4K/W 2.2K/W 2.1K/W 1.95K/W | 1.5K/W SN<br>0 0<br>0 10 20 30 40 50 60 70 80 90 100 110<br>Ambient temperature (°C)<br>8K/W = No Heatsink 4K/W = No reference 2.4K/W = WF152100   2.2K/W = WF262100   2.2K/W = WF151200<br>2.1K/W = WF210000   1.95K/W = WF191100  1.5K/W = WF141100   1.3K/W = WF129100   1.2K/W = WF121000<br>1.1K/W = WF131100   0.9K/W = WF092000   0.9K/W = WF115100   0.7K/W = WF070000   0.55K/W = WF050000<br>0.3K/W = WF031100<br>**----- End of picture text -----**<br>


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Fig. 8<br>**----- End of picture text -----**<br>


## CURRENT OVERLOAD CHARACTERISTIC 

**celduc®** 

**S/CON/SCM030200/E/18/12/14** 

**r e l a i s** 

**Page 5/5 GB** 

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DIMENSIONS AND ACCESSORIES<br>rr<br>Fig. 9  DIMENSIONS<br>|<br>28<br>±0,5<br>22.8<br>28<br>19.6 Ø4.7 M5<br>an -- Ow No —D VIN<br>1+ 2-<br>|<br>|<br>|<br>C| 4- 3+<br>a<br>: ame<br>25.4<br>25.8<br>| Am ch<br>44. ae 5 M3<br>TOLERANCES: [±] 0.3<br>Fig.<br>ACCESSORIES<br>10 |<br>58.2 43.2 47.6<br>7.5<br>5.1<br>**----- End of picture text -----**<br>


## PROTECTIVE COVER 1K470000 

**celduc® www.celduc.com r     e     l     a     i     s** ~~gs~~ **5 Rue Ampère B.P. 30004              42290 SORBIERS - FRANCE        E-Mail : celduc-relais@celduc.com Fax +33 (0) 4 77 53 85 51            Service Commercial France Tél. : +33 (0) 4 77 53 90 20 Sales Dept.For Europe Tel. : +33 (0) 4 77 53 90 21    Sales Dept. Asia : Tél. +33 (0) 4 77 53 90 19** 

**www.celduc.com**

Updated at June 3, 2026

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