Magnum Energy RD Series User Manual

©

2010 Magnum Energy, Inc

Page 5

Introduction

1.2 How an Inverter/Charger Works

An inverter takes direct current (DC) from your batteries and turns it into alternating current (AC).

It also takes alternating current (when connected to a generator or to utility power) and transforms

it into direct current to charge your batteries. These two modes of operation associated with this

inverter/charger are referred to in this document as:

Inverter Mode:
When the inverter is properly connected to batteries and turned on, the direct current

(DC) from the batteries is transformed into a modifi ed sine wave alternating current (AC).

This AC is similar to the voltage provided by a utility for your home, and is used to power

the AC electrical appliances (i.e., AC loads) connected to the inverter’s output.

Standby Mode:
When an external source of AC power (e.g., utility power or generator) is connected and

qualifi ed on the inverter’s AC input, it operates in the Standby Mode. In the Standby Mode,

the unit operates as a Battery Charger to convert the incoming AC power into DC power to

recharge the batteries; and at the same time, automatically closes an internal AC Transfer

Relay to pass the incoming AC power directly to the inverter’s output to continue powering

the connected electrical appliances.

1.3 What Appliances will run from a Modifi ed Sine Wave Inverter

Today’s inverters come in two basic output waveforms: modifi ed sine wave (which is actually a

modifi ed square wave) and pure sine wave. Modifi ed sine wave inverters approximate a pure sine

waveform and will run most appliances and electronics without any problems. These inverters are

less expensive, and therefore, offer a viable alternative to more expensive pure sine inverters.
The output of a modifi ed sine wave inverter will run most electronic and household items, including

but not limited to: TV, VCR, satellite dish receiver, computers, and printers. Some devices such as

rechargeable power supplies for phones, drills, and other like items may not run, and could even

be at risk for damage from modifi ed sine wave inverters.

1.4 Appliances and Run Time

The RD Series inverter/charger can power a wide range of household appliances including small

motors, hair dryers, clocks, and other electrical devices. As with any appliance using batteries

for power, there is a certain length of time that it can run – this is called “run time.” Actual run

time depends on several variables, including: the size and type of appliance, the type of batteries

installed in your application, as well as the battery’s capacity and age. Other factors such as

the battery’s state of charge and temperature can also affect the length of time your appliances

can run.
Appliances such as TVs, VCRs, stereos, computers, and lights can all be successfully powered

by your inverter. Depending on your inverter capacity, electrical appliances that use larger loads

such as coffee pots and hair dryers can be used for short durations. However, loads that are

used for longer periods (stoves, water heaters, etc.) can quickly drain your batteries and are not

recommended for inverter applications.

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