Automation Direct PSM24-BCM360S Operating Instructions Manual - Page 4

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10. Now the PSM Power Supply will switch on the BCM and the UPS system is operational.

11. The potentiometer on the BCM is set by the factory to suit Valve Regulated Lead Acid Battery from Panasonic and equivalent types (the recommended

battery type) and should not be adjusted by the user, unless other Lead Acid Batteries of different voltage temperature characteristics are connected.

12. If a non recommended battery is applied to the circuit, the output voltage of the BCM module needs to be adjusted to a different "End of Charge

Voltage." This voltage value can be obtained from battery manufacturer's datasheets.

13. The Temperature Sensor should now be fixed to the battery and connected to J5 on the BCM

14. Next the battery wires should be connected on the BCM module; DO NOT connect to the battery first.

15. Then connect the battery wires on the battery.

16. Next the Load can be connected to J2 of the BCM.

17. To verify proper functionality, switch off the input AC power at the external circuit breaker and output power should be supplied from the battery if a

fully charged battery has been connected.

18. For proper operation, a new system should always start up with a fully charged battery. If a fully charged battery is not connected, the battery should

be charged in full over night before any load is applied to the output of the BCM module.

19. The system is now fully operational and the output load can be connected.

DC-Input (Connector J1, pin 1 & pin 2)

Make the 24 VDC connection using the –Vin (–DC In) and +Vin (+DC In) connections following all local regulations. Properly

sized wiring must be used. To achieve a reliable and shockproof connection, strip the connecting ends according to the table below.

If flexible wires are used, terminate them using ferrules.

Battery In (Connector J1, pin 3 and pin 4)

Make the battery connection using the "+Bat In" and "–Bat In" connections. Make sure that the battery lines are sized according to

the maximum output current (see Connections and Terminal Assignments table below) or are separately protected. The wires on the

secondary side should have large cross sections to keep the voltage drops on these lines as low as possible. To achieve a reliable and

shockproof connection, strip the connecting ends according to table below. If flexible wires are used, terminate them using ferrules.

Connections and Terminal Assignments

Device

Terminals

+Vin & - Vin

+Bat & - Bat

PSM24-090S

PSM24-180S

+Vout & - Vout

Signal

+Vin & - Vin

+Bat & - Bat

PSM24-360S

+Vout & - Vout

Signal

Output (Connector J2, pin 1, pin 2, pin 3 & pin 4)

The 24VDC connection is made using the "+Vout" and "–Vout" terminals. All output terminals should be connected to the load.

Make sure that all output lines are sized according to the maximum output current (see Connections and Terminal Assignments

table above) or are separately protected. The wires on the secondary side should have large cross sections in order to keep the voltage

drops on these lines as low as possible.

To achieve a reliable and shockproof connection, strip the connecting ends according to the table above. If flexible wires are used,

terminate them using ferrules.

The device is protected against overload and short circuit.

RHINO Battery Control Module PSM24-BCM360S Operating Instructions

4th Edition 06/18

Function

Input voltage (24 VDC)

Battery voltage (24 VDC)

Output voltage (24 VDC)

Relay inputs and relay outputs

Input voltage (24 VDC)

Battery voltage (24 VDC)

Output voltage (24 VDC)

Relay inputs and relay outputs

Solid or Stranded Wires

AWG

0.5 to 2.5

24 to 12

0.2 to 2.5

32 to 12

1.0 to 2.5

18 to 12

0.2 to 2.5

32 to 12

Torque

Stripping

Length, mm

0.5 to 0.6

7.0

0.5 to 0.6

7.0

1 - 8 0 0 - 6 3 3 - 0 4 0 5