Vector ElectroMate VEC097 User Manual

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simulates a short to ground and pops the breaker. This turns off the outlets.

Pressing the RESET button allows the outlets to turn on and provide power.

Use with Appliances

Make sure the AC appliance can operate on 110/120 Volts, 60 Hz AC

modified sine wave (MSW) as most appliances sold in the USA can. There are

a few exceptions, noted later.

• Plug the appliance’s two or three-pin North American standard plug into

the GFCI AC receptacle on the inverter

• Turn On the inverter’s power switch

• Turn On the appliance and operate it as usual

• After use, turn Off the power inverter’s On/Off Switch

5.2 Principles of Operation

The Power Inverter converts power in two stages. The first stage is a DC-to-DC

conversion process that raises the low voltage DC at the inverter input to 145

Volts DC. The second stage is the actual inverter stage that converts the high

voltage DC into 110 Volts, 60 Hz AC, Modified Sine Wave (MSW). MSW is a

waveform that has characteristics similar to the sine wave shape of utility

power. This type of waveform is suitable for most AC loads, including linear

and switching power supplies used in electronic equipment, transformers, and

motors. The modified sine wave produced by the Power Inverter has an RMS

(root mean square) voltage of 110, which is the same as standard household

power. Most AC voltmeters (both digital and analog) are calibrated for RMS

voltage under the assumption that the waveform measured will be a pure sine

wave. These meters will NOT READ the RMS voltage of a modified sine wave

correctly. They will read about 20 to 30 Volts low when measuring the output

of the power inverter. For accurate measurement of the output voltage of this

unit, use a voltmeter marked “TRUE RMS”. Figure 6 compares a Modified Sine

Wave with a True Sine Wave.

FIGURE 6

Power is provided to the inverter through two conductors that pass through the

battery compartment cover. With a full charge on the battery (typically 85AH),

the inverter will supply an AC load of 100 watts for approximately 8 hours.

Lower wattage loads will operate longer, higher wattage loads will operate

for a shorter time.
Example: If a load is rated at 100 watts AC, the power source must be able to

deliver: 100 / 10 = 10 amperes

CAUTION:

The inverter must be connected only to batteries with a nominal

output voltage of 12 Volts. The unit will not operate from a 6 volt battery and

will sustain permanent damage if connected to a 24 VOLT battery.

WARNING:

NEVER TRY TO JUMPSTART A 6 OR 24 VOLT SYSTEM.

DAMAGE TO THE INVERTER AND INTERNAL BATTERY CAN RESULT.