70S2-06-C-12-S Magnecraft / Schneider Electric, 70S2-06-C-12-S Datasheet - Page 28

70S2-06-C-12-S

Manufacturer Part Number

70S2-06-C-12-S

Description

Panel-mount With Screw Terminals

Manufacturer

Magnecraft / Schneider Electric

Datasheet

1.70S2-01-A-05-N.pdf (32 pages)

Specifications of 70S2-06-C-12-S

Control Voltage Range

3 VDC to 30 VDC

Load Voltage Rating

24 VAC to 280 VAC

Load Current Rating

12 A

Output Device

Triac

Mounting Style

Panel

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Magnecraft

Solid State Relays

Application Data

(continued)

Load Considerations

The major cause of application problems with SSRs is improper heat sinking�

Following that are issues which result from operating conditions which specific loads

impose upon an SSR� Carefully considered the surge characteristics of the load

when designing an SSR as a switching solution�

• Resistive Loads

Loads of constant value of resistance are the simplest application of SSRs� Proper

thermal consideration along with attention to the steady state current ratings is

important for reliable operation�

• DC Loads

DC loads are inductive loads� Place a diode across the load to absorb surges

during turn off�

• Lamp Loads

Incandescent lamp loads, though basically resistive, require special consideration�

Because the resistance of the cold filament is about 5 to 10 percent of the heated

value, a large inrush current can occur� It is essential to verify that this inrush

current is within the surge specifications of the SSR� One must also check that the

lamp rating of the SSR is not exceeded� This is a UL rating based on the inrush of

a typical lamp� Due to the unusually low filament resistance at the time of turn-on, a

zero voltage turn on characteristic is particularly desirable with incandescent lamps�

• Capacitive Loads

These types of loads can be difficult because of their initial appearance as short

circuits� High surge currents can occur while charging, limited only by circuit

resistance� Use caution with low impedance capacitive loads to verify that the dl/dt

capabilities are not exceeded� Zero voltage turn on is a particularly valuable means

of limiting dl/dt with capacitive loads�

• Motors and Solenoids

Motor and solenoid loads require special attention for reliable SSR functionality�

Solenoids have high initial surge currents because their stationary impedance is

very low� Motors also frequently have severe inrush currents during starting and can

impose unusually high voltages during turn off� As a motor’s rotor rotates, it creates

a back EMF that reduces the flow of current� This back EMF can add to the applied

line voltage and create an over voltage condition during turn off� Likewise, verify that

the inrush currents associated with mechanical loads having high starting torque

or inertia, such as fans and flywheels, are within the surge capabilities of the SSR�

Use a current shunt and oscilloscope to examine the duration of the inrush current�

70S2-06-C-12-S Magnecraft / Schneider Electric, 70S2-06-C-12-S Datasheet - Page 28

70S2-06-C-12-S

Specifications of 70S2-06-C-12-S

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