Product Description
XSSR- Solid State Relay SSR
Product Parameters
Features:
Input and output electro-optic isolation or transformer isolation;
Input constant current control and LED display, control signal and TTL & CMOS LOGIC IS COMPATIBLE;
Bidirectional controlled sillion or unidirectional controllable counter-parallel output, zero electric current opening zero electric current shutdown;
Power solid state usees the SCR chip counter-parallel output and working is stable;
Buit-in resistance-capacitance absorbing circuit,dead zone voltage and small harmonic interference;
Higher than of 2.5KV safe isolation voltage between the input output and ledger wall's;
Small volume, small input power, non-contact, sparkless, noiseless, non-machinery wear, anti-vibration and the long life.
Technical Specification:
Main Application:
Industrial automation installment
Computer periphery connection
Illumination stage lighting control
Electric stove, heating, warm control
Street light, signal light, traffic light, etc
AC motor control
Intermediate relay , solenoid valve control
Numerical control machinery , external guidance system
Color photo enlargement, film processing equipment, injection machinery
Automatic fire control and security system
Application attentions:
Control voltage and working voltage must be stable, the coefficient of fluctuation should guarantee in 10%, when wiring should pay attention to the solid state relay's polarity to avoid wrong connection causing solid state relay permanence Damage, SSR should be mounted away from origin of heat and good radiating conditions ,In the case than the ambient temperatures is too high or bad radiating condition, it should increase the current margin to ensure SSR good working, In the case that the ambient temperatures is too high or bad radiating condition, it should increase the current margin to ensure SSR good working, SSR can be even and good radiating, When mounting SSR , fastener must be tightened to prevent increasing resistance
Should use the corresponding overflow and the overvoltage protection measure, Overflow
protection may select the fast fuse than response time is 10μ s
Fuse size choose the practical work current 1.2-1.5 times, Overvoltage protection may use RC resistance-capacitance absorbing circuit and var-istorm, This series SSR has built in RC resistance-capacitance, Varistor choosing may according to the working voltage and current 220V voltage select the varistor of 430-470V,380V voltage select the varistor of 750-820V, the varistor discharge current capacity choose according to the current size.
Solid state relay's radiating and heat sink choice
Because the inside switch components have interface resistance function, solid state relay can have certain heat in its breakover time, therefore guar-antee solid state relay normal work must have the good radiation condition. For example: Natural cooling, radiation cool, the radiator to add wind cooling and so on, Below 5A may use the natural cooling, above 10A must add the radiator to cool, above 40A needs to add the ventilator strongly cold.
Not only radiator's effect related with the size, but also with the ambient temperature, the well ventilated condition and installment tightness has the relations, Radiation effect reference standard: make the solid state relay's bottom board's temperature not surpass 75%, it may install a 70ºC , (NC model) to connect in the control loop, when the radiator temperature surpasses the valve value will separate the control loop, thus protection solid state relay and equipment, particularly in the actual large current, big mounting density and high ambient temperature situation , in addition, need relay's board temperature does not surpass 75ºC, in the worst situation.
Our company has many series radiator specification for choice, but each model SSR in not to certainly match the only model radiator, they both have not completely corresponding relationships, Solid state relay's Calorific capacity only related with the actual load ; current, not completely consistent with current rank, (Calorific capacity formula : Calorific capacity= actual load current ×1.5 tile/amp)
Detailed Photos
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