This is a SPST-NO SSR with small dimensions provides DC output switching for PCB assembly or socket mount occasion, especially for some high density mounting applications.With DC input control, compatible with 5VDC, 12VDC, 24VDC,48VDC and 60VDC logic systems. The relays provide 2500Vrms opto-isolation between input and output.
The relays' pin are full compatibility to the electromechanical standard relay, so very convenient for user install and use.
Input Parameters (Ta = 25℃)
Control voltage
range |
5 (4 ~ 6)VDC |
12 (9.6 ~ 14.4)VDC |
24 (19.2 ~ 28.8)VDC |
48 (38.4 ~ 57.6)VDC |
60 (48 ~ 72)VDC |
Must turn-on
voltage |
5 4VDC |
12 9.6VDC |
24 19.2VDC |
48 38.4VDC |
60 48VDC |
Must turn-off
voltage |
5 1VDC |
12 3VDC |
24 10VDC |
48 10VDC |
60 20VDC |
Max.input current |
25mA |
Max.reverse
protection voltage |
5 -6VDC |
12 -14.4VDC |
24 -28.8VDC |
48 -57.6VDC |
60 -72VDC |
Output Parameters (Ta = 25℃)
Load voltage range |
24D口 (0 ~ 28.8)VDC |
48D口 (0 ~ 57.6)VDC |
Max.transient voltage |
24D口 33VDC |
48D口 58VDC |
Load current range |
24D3 (0.02 ~ 3)A |
24D4 (0.02 ~ 4)A |
24D5 (0.02 ~ 5)A |
24D3 (0.02 ~ 3)A |
Max.surge current (10ms) |
24D3 48Apk |
24D4 48Apk |
24D5 60Apk |
24D3 30Apk |
Max.off-state leakage current |
100μA |
Max.on-state voltage drop |
24D3 0.2VDC |
24D4 0.35VDC |
24D5 0.2VDC |
24D3 0.35VDC |
Max.turn-on time |
50μs |
Max.turn-off time |
300μs |
GENERAL (Ta = 25℃)
Dielectric strength (input to output) |
2500VAC 1min |
Insulation resistance |
1000MΩ (500VDC) |
Max.capacitance (input to output) |
5pF |
Vibration resistance |
10 Hz ~ 55Hz 1.5mm DA |
Ambient
temperature |
Operating temperature |
-30℃~ 80℃ |
Storage temperature |
-30℃~ 100℃ |
Ambient humidity |
45% ~ 85% RH |
Unit weight |
Horizontal type approx 11g,vertical type approx 4g |
Shock resistance |
Acceleration 980m/s2, continuous surge 6ms |
1.Soldering must be completed within 10s at 260℃ or less or within 5s at 350℃ or less.
2.The SSR case serves to dissipate heat. Install the relays so that they are adequately ventilated. If poor ventilation is unavoidable,the load current must be reduced. Please refer to the curve of Max. Load current Vs. Ambient Temperature.
3.Please do not use the relay beyond the descriptions in the datasheet.