Team Products PMP200XL User Manual

PMP200XL Models

Owner’s Manual

• Avoid placing the inverter on or near heating vents, radiators or other

sources of heat. Do not place or use the inverter in direct sunlight. Ideal air

temperatures should be between 50°F and 80°F.

• In order to properly disperse the heat generated from the inverter while it is

operating, keep the inverter well ventilated. Keep the area surrounding the

inverter clear while in use.

• Do not use the inverter near flammable materials. Do not place the inverter in

areas such as battery compartments where fumes or gases may accumulate.

Inverter Protection Features
• Short Circuit Protection. The inverter will automatically shut down until

short is removed.

• Low Voltage Alarm. An alarm will sound when the voltage from the battery

discharges to 10.5 +/- 0.5 volts DC. This is an indication that the battery needs

to be recharged.

• Over Voltage Protection. The RED LED Indicator Light will illuminate and

the inverter will automatically turn itself off when the input exceeds 16.5 +/- 1

volt DC.

• Under Voltage Protection. The RED LED Indicator Light will illuminate and

the inverter will automatically turn itself off when the input is less than 10.0+/-

0.5 volts DC.

• Overload Protection. The RED LED Indicator Light will illuminate and

the inverter will automatically turn itself off when the continuous draw of

the equipment being operated exceeds 200 watts or the surge draw of the

equipment exceeds 400 watts.

• Thermal Protection. The RED LED Indicator Light will illuminate and the

inverter will automatically turn itself off when the circuit temperature exceeds

130°F.

Notes
• The inverter is equipped with a cooling fan, which is designed to run

continuously while the inverter is operating. Automatic shut down of the unit

caused by high circuit temperatures will occur when the cooling fan is unable

to maintain a cool enough temperature for safe operation.

• In the event of automatic shut down or a continuous audible alarm, turn the

inverter power switch to the OFF(O) position until the source of the problem

has been determined and resolved.

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Television and Audio Suggestions
Although all COLEMAN® inverters are shielded and filtered to minimize

signal interference, some interference with your television picture may be

unavoidable, especially with weak signals. However, here are some suggestions

that may improve reception:
• Make sure the television antenna produces a clear signal under normal

operating conditions (at home plugged into a standard 110/120- volt AC

outlet). Also, ensure that the antenna cable is properly shielded and/or good

quality.

• Change the positions of the inverter, antenna cables and the television power

cord.

• Isolate the television, its power cord and antenna cables from the 12-volt

power source by running an extension cord from the inverter to the television

set.

• Coil the television power cord and the input cables running from the 12-volt

power source to the inverter.

• Attach an AC interference filter or similar product between the inverter and

the television power cord. These filters are available at most electronic supply

stores including Radio Shack.

Note

Inexpensive sound systems may emit a “buzzing” sound when operated with

an inverter. This is due to the inadequate filters in the sound system. There is

no solution to this problem other than purchasing a sound system with a higher

quality power supply.

How Power Inverters Work
Power inverters convert low voltage DC (direct current) power to 110/120-volt

AC (alternating current) household power. This conversion process thereby

allows you to use household products, power tools, and other electronic

products away from normal AC power sources (standard 110/120V wall outlets).
Depending on the model and its rated capacity, inverters can draw power

either from standard 12-volt automobile and marine batteries or from portable

high power 12-volt power sources. The waveform that is generated by this

conversion is a “modified sine wave”. The modified sine wave produced by our

inverters has a root square mean (RMS) voltage of 110/120 volts, which is the

same as standard household power.
The majority of AC voltmeters are calibrated for RMS voltage under the

assumption that the measured waveform will be a pure sine wave. Therefore,

these meters will not read the RMS modified sine wave voltage correctly.

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