Solid-State Relays

Catalogs > Industrial Controls Catalog > Relays, Timers, and Temperature Controllers > Solid-State Relays > Bulletin 700-SC Ice Cube Relay

Bulletin 700-SC Ice Cube Relay

Specifications

Control/Input Ratings
Cat. No.	Rated Control Voltage	Max. Operating Control Voltage Range	Max. Reverse Control Voltage [V]	Impedance	Control Voltage Levels
					Pick-up Voltage	Drop-out Voltage
700-SCZY3Z25	5…24V DC	4…28V DC	-28.8	15 mA max. ⋆	4V DC max.	1V DC min.
700-SCZY2A1	100/110V AC	75…125V AC	NA	41 kW± 20%	75V AC max.	20V AC min.
700-SCZY2A2	200/220V AC	150…250V AC	NA	72 kW± 20%	150V AC max.	40V AC min.
700-SCTY3Z24	24V DC	19.2…28.8V DC	-28.8	2 kW± 20%	19.2V DC max.	1V DC min.
700-SCNY3Z25	5…24V DC	4…28V DC	-28	1.5 kW +20%/ -10% ‡	4V DC max.
700-SCZN3Z26	4…24V DC	3…28V DC	-28.8	15 mA max. ⋆	3V DC max.
700-SCTN3Z24	24V DC	19.2…28.8V DC	-28.8	2 kW± 20%	19.2V DC max.
700-SCNN3Z26	4…24V DC	3…28V DC	-28	1.5 kW +20%/ -10% ‡	3V DC max.
700-SCNN2Z25	5…24V DC		-28.8
Load/Output Ratings
Cat. No.	Rated Control Voltage	Max. Load Voltage Range		Continuous Load Current (Resistive) [A]		Max. Inrush Current§
				Min.	Max.♣
700-SCZY3Z25	100…240V AC	75…264V AC		0.1	3	45 A (@50/60 Hz, 1 cycle)
700-SCTY3Z24
700-SCZN3Z26
700-SCTN3Z24
700-SCZY2A1				0.1	2
700-SCZY2A2
700-SCNN3Z26	4…48V DC	3…52.8V DC		0.1	3	18 A (10 ms)
700-SCNY3Z25
700-SCNN2Z25	5…110V DC	3…125V DC		0.1	2	10 A (10 ms)
⋆ With constant current input circuit system. SSR impedance varies with a change in input (control) voltage.
‡ Input impedance attains its maximum at the operating voltage.
§ If the SSR operation is continuous ON/OFF, this value should be reduced by 50%. Refer to “Inrush Current Resistivity” graphs on page Inrush Current Resistivity⋆  for details.
♣ Refer to the following “Load Current Versus Ambient Temperature Characteristics” graphs on page Load Current Versus Ambient Temperature Characteristics for additional load current details.

Characteristics
Description	Cat. No. 700-SCZ…	Cat. No. 700-SCT	Cat. Nos. 700-SCNY, 700-SCNN3…	Cat. Nos. 700-SCNN2…
Load Switching Method/Device	Triac		Transistor
Pick-up time	1/2 of load power source cycle time ∆ + 1 ms max. (DC input)	1 ms max	0.5 ms max.	0.5 ms max.
	3/2 of load power source cycle time ∆ + 1 ms max. (AC input)
Drop-out time	1/2 of load power source cycle time∆  + 1 ms max. (DC input)	1/2 of load power source cycle time∆  + 1 ms max	2 ms max.	2.5 ms max.
	3/2 of load power source cycle time∆  + 1 ms max. (AC input)
Output On Voltage Drop	1.6 V (RMS) max.	1.6 V (RMS)	1.5 V max.	1.5 V max.
Output Leakage Current	5 mA max (@ 100 V AC) 10 mA max (@ 200 V AC)	2.5 mA max (@ 100 V AC) 5 mA max (at 200 V AC)	5 mA max (@ 50 V DC)	0.1 mA max (@ 100 V DC)
Output VDRM, VCEO (V)	600	600	80	80
Output di/dt (A/uS)	50	50	—	—
Output dv/dt (V/uS)	250	250	—	—
Output I2t (A2S)	18	18	—	—
Output Tj (°C) Max.	125	125	150	150
Insulation Resistance	100 MW min (@500V DC)
Dielectric Strength	1500V AC, 50/60 Hz for 1 minute
Vibration Resistance (max.)	10…55 Hz, 1.5 mm double amplitude (10 G)
Shock Resistance (max.)	1000 m/s2 (100 G)
Ambient Temperature	Operating: -30…+80 °C (-22...+176 °F) with no icing or condensation Storage: -30…+100 °C (-22...+212 °F) with no icing or condensation
Standards Compliance	UL5 08, CSA C22.2 No. 14, EN/IEC 60950, EN 50011, EN 61000-6-2, EN/IEC 60947-1, -4-3
Certifications	cURus Recognized (File No. E96956, Guide NMFT2/NMFT8), CE Marked, VDE Certified
Ambient Humidity	Operating: 45…85% (no condensation)
Weight	Approx. 50 g
∆ 60 Hz full cycle time = 16.6 ms, 50 Hz full cycle time = 20 ms

Load Current Versus Ambient Temperature Characteristics



Inrush Current Resistivity⋆ 

⋆ Inrush current resistivity is the ability of an SSR to withstand a large surge current for a short period of time. Surges are considered non-repetitive (max. repeatability once every 2…5 seconds). Keep the inrush current to half the rated value if it occurs repetitively. Exceeding the non-repetitive inrush current will damage the SSR.