Magnum Energy RD Series User Manual

Page 38

©

2010 Magnum Energy, Inc.

Operation

3.6 Protection Circuitry Operation

The inverter is protected against fault conditions, and in normal usage it will be rare to see any.

However, if a condition occurs that is outside the inverter’s normal operating parameters, it will

shut down and attempt to protect itself, the battery bank, and your AC loads. If there is a condition

that causes the inverter to shut down, it may be one of the following conditions [also refer to the

Troubleshooting section (Section 4.2) to help diagnose and clear the fault condition]:

Low Battery - The inverter will shut off whenever the battery voltage falls to the Low

Battery Cut Out (LBCO) level to protect the batteries from being over-discharged. After the

inverter has reached the LBCO level and turned off, the inverter will automatically restart

after one of the following conditions:

AC Power is applied and the inverter begins operating as a battery charger, or
battery voltage rises to the Low Battery Cut In (LBCI) level.
The inverter’s status LED turns off when a low battery fault condition occurs. Refer to Table

3-1 to determine the LBCO and LBCI levels for your particular inverter model.

High Battery - In the event the battery voltage approaches the High Battery Cut Out

(HBCO) level, the inverter will automatically shut down to prevent the inverter from

supplying unregulated AC output voltage. The inverter’s status LED turns off when a high

battery fault condition occurs. The inverter will automatically restart when the battery falls

to the High Battery Cut In (HBCI) level. Refer to Table 3-1 to determine the HBCO and

HBCI levels for your inverter model.

Info: High battery voltage may be caused by excessive or unregulated voltage

from solar panels or other external charging sources.

Overload - During inverter and standby operation, the inverter monitors current levels.

In the event of a short-circuit or an overload condition for more than a few seconds, the

inverter will shut down. To start operating after this fault, the inverter would need to be

restarted (turned back on) after the inverter’s AC loads are reduced/removed.

Over-temperature - If internal power components begin to exceed their safe operating

temperature level, the inverter will shut down to protect itself from damage. The inverter’s

status LED turns OFF to indicate the over-temperature fault condition. The inverter will

automatically restart after the units cool down.

Internal Fault - The inverter continually monitors several internal components and

the processor communications. If a condition occurs that does not allow proper internal

operation, the inverter will shut down to protect itself and the connected loads. The

inverter will need to be reset to start operating again (refer to Section 4.3 for information

on resetting the inverter).

Table 3-1, Inverter Battery Turn On/Off Levels

Inverter battery turn

ON/OFF Levels

Inverter Model

RD2212

RD1824

RD2824

RD3924

HBCO

>15.8 VDC

>31.6 VDC

>31.6 VDC

>31.6 VDC

HBCI

15.5 VDC

31.0 VDC

31.0 VDC

31.0 VDC

LBCI

≥12.5 VDC

≥25.0 VDC

≥25.0 VDC

≥25.0 VDC

LBCO*

(1 minute delay)

10.0 VDC

(9.0 - 12.2 VDC)

20.0 VDC

(18.0 - 24.4 VDC)

20.0 VDC

(18.0 - 24.4 VDC)

20.0 VDC

(18.0 - 24.4 VDC)

LBCO (immediate)

8.5 VDC

17.0 VDC

17.0 VDC

17.0 VDC

*adjustable with remote control

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