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Hold-up time, Dc-ok relay contact – Rockwell Automation 1606-XLS240F, -XLS240F-D Power Supply Reference Manual User Manual

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All parameters are specified at 48V, 5A, 230Vac, 25°C ambient and after a 5 minutes run-in time, unless noted otherwise.

Rockwell Automation Publication 1606-RM045A-EN-P — March 2014

9

Bulletin 1606 Switched Mode Power Supplies

7. Hold-up Time

AC 100V

AC 120V

AC 230V

Hold-up Time

typ.

51ms

53ms

55ms

at 48V, 2.5A, see Fig. 7-1

typ.

26ms

27ms

28ms

at 48V, 5A, see Fig. 7-1

Fig. 7-1 Hold-up time vs. input voltage

Fig. 7-2 Shut-down behavior, definitions

0

10

20

30

40

50ms

85

120

155

190

230Vac

Input Voltage

48V, 2.5A, min.

48V, 2.5A, typ.

48V, 5A, min.

48V, 5A, typ.

Hold-up Time

- 5%

Hold-up Time

Zero Transition

Output
Voltage

Input
Voltage

8. DC-OK Relay Contact

This feature monitors the output voltage, which is produced by the power supply itself. It is independent of a back-fed
voltage from a unit connected in parallel to the power supply output.

Contact closes

As soon as the output voltage reaches the adjusted output voltage level.

Contact opens

As soon as the output voltage dips more than 10% below the adjusted output voltage.
Short dips will be extended to a signal length of 250ms. Dips shorter than 1ms will be ignored.

Contact re-closes

As soon as the output voltage exceeds 90% of the adjusted voltage.

Contact ratings

max

60Vdc 0.3A, 30Vdc 1A, 30Vac 0.5A

resistive load

min

1mA

at

5Vdc min.

permissible

load

Isolation voltage

See dielectric strength table in section 18.

Fig. 8-1 DC-ok relay contact behavior

250ms

0.9* V

ADJ

<

1ms

10%

V

OUT

= V

ADJ

>

1ms

open

open

closed

closed

Note: The DC-ok feature requires that the output voltage reaches the nominal (=adjusted) level after turn-on in order to function according

to specification. If this level cannot be achieved, the overload lamp will be on and the DC-ok contact will be open. The overload signal
will only shut off as soon as the adjusted voltage is reached. This is an important condition to consider particularly if the load is a
battery, if the power supply is used in parallel or if the power supply is used for N+1 redundant systems.