celduc® r e l a i S/CON/SCM0100200/D/28/11/03 s Page 1/5 GB 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 celduc ® r e l a i s celduc® r e l a i S/CON/SCM0100200/D/28/11/03 s Page 2/5 GB 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 celduc® r e l a i S/CON/SCM0100200/D/28/11/03 s Page 3/5 GB 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 celduc® r e l a i S/CON/SCM0100200/D/28/11/03 s Page 4/5 GB 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 celduc® r e l a i S/CON/SCM0100200/D/28/11/03 s Page 5/5 GB 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 celduc® r e l a i s www.celduc.com 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]