Battery input – Rockwell Automation 1606-XL240-UPSE Power Supply Reference Manual User Manual

All parameters are specified at an input voltage of 24V, 10A output load, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

It is assumed that the input power source can deliver a sufficient output current.

Rockwell Automation Publication 1606-RM013A-EN-P — March 2014

7

Bulletin 1606 Switched Mode Power Supplies

8. Battery Input

The DC-UPS requires one 12V VRLA battery to buffer the 24V output.

Battery voltage

nom.

DC 12V

Use one maintenance-free 12V VRLA lead acid battery or
one battery module which is listed in the Accessories
section.

Battery voltage range

9.0

–

15.0V

Continuously

allowed,

except deep discharge protection

max.

35Vdc

Absolute maximum voltage without any damage to the unit

typ.

7.4V

Above this voltage level battery charging is possible

Allowed battery sizes

min. 17Ah

max. 130Ah

Internal battery resistance

max.

100mOhm

See individual battry data sheets for this value.

Battery charging method

CC-CV

Constant current, constant voltage mode

Battery charging current (CC-mode)

nom.

3.0A

Independent from battery size

max. 3.4A

End-of-charge-voltage (CV-mode)

13.0-14.4V

See section 15.

Battery charging time

typ.

9h *)

For a 26Ah battery

typ.

34h *)

For a 100Ah battery

Battery discharging current **)

typ.

21A

Buffer mode, 10A output current, 11.5V on the battery
terminal of the DC-UPS, see Fig. 8-1 for other parameters

typ.

0.3A

Buffer mode, 0A output current

max.

50μA

At no input, buffering had switched off, all LEDs are off

typ.

270mA

At no input, buffering had switched off, yellow LED
shows “buffer time expired” (max. 15 minutes)

Deep discharge protection ***)

typ.

10.5V

At 0A output current

typ.

9.8V

At 10A output current

*) The charging time depends on the duration and load current of the last buffer event. The numbers in the table represent a

fully discharged battery.

**) The current between the battery and the DC-UPS is more than twice the output current. This is caused by boosting the 12V

battery voltage to a 24V level.

This high current requires large wire gauges and short cable length for the longest possible

buffer time. The higher the resistance of the connection between the battery and the DC-UPS, the lower the voltage on the
battery terminals which increases the discharging current. See also section 26 for more installation instructions.

***) To ensure longest battery lifetime, the DC-UPS has a battery deep discharge protection feature included. The DC-UPS stops

buffering when the voltage on the battery terminals of the DC-UPS falls below a certain value. The yellow LED will show
“buffer time expired” for a period of 15 minutes after the unit stopped buffering.

Fig. 8-1 Battery discharging current
vs. output current, typ.

Battery Current

0

0

10

20

5

15

25

30A

2.5

7.5

10

5

.

2

1

A

5

1

5

Output Current

Voltage on

battery terminal

of the DC-UPS:
A:

10.5V

B:

11V

C:

12V

A

B

C