Omega Vehicle Security OM-420 manual Charging, Boost Charge, STATE-OF-CHARGE SOC Indication

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USING THE RPS-1in the OM-420

voltage is set to 12 VDC or higher output. For 12VDC or higher power supply OUTPUT VOLTAGE settings, the MAIN POWER SWITCH must be set to 24VDC. In the 12VDC mode, the two batteries are in parallel, hence the amp hour capacity is doubled (i.e. approx. 4AH). In the 24VDC mode, the two batteries are connected in series and the amp hour capacity is approximately 2AH

CONTROL INPUT

The two CONTROL INPUT terminals are provided for connection of an external control signal. When HIGH (5 VDC), any power supplies set to AUTO mode will turn on their outputs. When the control signal returns to a LO (0 VDC) state, the supply outputs will turn OFF.

Note: Ensure polarity is correct when making control wiring connections.

CHARGING

The two internal gel-cell batteries can be charged from a current source connected to the CHARGER terminals. Charging can be performed simultaneous with power supply operation. The CHARGER input will accept an AC or DC source and polarity of connection is not specified as an integral rectifier bridge circuit compensates for AC or either polarity of DC.

With the MAIN POWER SWITCH set in the 12 VDC position, CHARGER input voltages of 13.5 to 20 VAC or VDC are acceptable. With the switch in the 24 VDC setting, input voltages of 25.5 to 32 VAC or VDC are acceptable. Charging current is limited within the RPS-1 to a maximum of 200 mA. Photovoltaic arrays can be directly connected to the CHARGER terminal allowing for extremely long term stand-alone operation (contact factory for photovoltaic module and mounting kit information).

NOTE: The MAIN POWER SWITCH must be in the 24VDC or 12VDC position to allow charging.

BOOST CHARGE

The `BOOST CHARGE' momentary push button switch on the RPS-1 provides initial charging current to units with batteries that have been completely discharged.

If the RPS-1 batteries have been 100% discharged, insufficient voltage exists to enable the charging circuitry and allow the batteries to recharge. The BOOST CHARGE button bypasses the charging circuitry and allows a direct charging current to flow into the batteries.

To use the BOOST CHARGE feature on batteries that are suspected as being completely dead (eg no lights glow when the Battery State of Charge TEST button is depressed) connect up the charging source to the correct terminals on the RPS-1 as normal. Then press and hold the BOOST CHARGE button for approximately 10 seconds then release it. To insure that the unit is charging, wait a few minutes, then press the Battery State of Charge TEST button and one or more lights should glow indicating that the battery voltage is increasing.

NOTE: Batteries that have been completely discharged may be permanently damaged and will exhibit shortened life unless they are immediately recharged fully. It is not advisable to discharge batteries to the point where the BOOST CHARGE is needed to initiate charging.

If the batteries do not recharge after a 24 hour period or discharge very quickly after removal from the charging source, it is likely that they have been damaged and should be replaced.

STATE-OF-CHARGE (SOC) INDICATION

Depressing the TEST switch connects a slight load across the batteries and displays a relative battery voltage (indicative of state of charge of the battery) on the 10 step LED display. The test button should be

Omega Engineering Inc.

5

Stamford, CT

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Contents Overview Using the RPS-1, Rechargeable Power Supply OM-420Power Supply Outputs Main Power SwitchOutput Voltage / Mode Switches Hardware / User ControlsOperation / SET-UP InstallationRPS-1 Control Wiring STATE-OF-CHARGE SOC Indication ChargingBoost Charge Control INPUT...SPECIAL Applications MiscellaneousBattery Replacement TroubleshootingSymptom Output Voltage is LOW Symptom STATE-OF-CHARGE Indicator does not LightSymptom Power Supplies do not Turn on Symptom STATE-OF-CHARGE Indicator Shows Less than FullSymptom Batteries do not Appear to Charge