Delta RMC151 User Manual

10 Wiring and Installation

user must power the outputs externally. The maximum current and voltage for the

outputs is 75 mA (50 mA for Class I, Div 2) and 30 V.
Outputs can be wired in either a high-side or low-side configuration. Because all the

outputs share a common, all outputs on the same module must be wired the same.
Using Outputs with Resistive Loads

Figure 1: SSR switching resistive load: low-

side configuration.

Figure 2: SSR switching resistive load:

high-side configuration.

The load resistance must be sized such that the maximum current through the SSR does

not exceed 50mA. The maximum current is calculated with the following equation:

Current = V

cc

/ R

Load

For example, if the supply voltage V

cc

is 24V, and the load resistance is 480Ω, the current

will be:

Current = 24Ω / 480Ω = 50mA

which is right at the 50mA limit. The load resistance should not be decreased any further

with a 24V supply voltage.
Using Outputs with Inductive Loads
External fuses should be used to protect the SSRs if there is a possibility of over-

current. When switching inductive loads, it is important to place a diode or tranzorb

across the load to protect the switch when transitioning from an ”ON” to an ”OFF” state.

Otherwise, the collapsing magnetic field can cause a reverse voltage spike in excess of

the 30 V rating of the SSR. See figures below for details.

Figure 3: SSR switching inductive inductive load: high-side configuration.

Example: Calculating maximum current for inductive load.
To calculate the maximum current through the SSR in the above diagram, we assume

zero SSR resistance:

Max. current = 24V / 480Ω = 50mA
Max. current = 12V / 480Ω = 25mA

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