OWNER’S MANUAL
1200/2000/3000
WATT SERIES
HIGH SURGE POWER INVERTERS
THE WHISTLER GROUP, INC.
CORPORATE HEADQUARTERS
13016 N. Walton Blvd.
Bentonville, AR 72712
TEL (479) 273-6012 FX (479) 273-2927
CUSTOMER RETURN CENTER
1201 N. Dixieland Rd.
Rogers, AR 72756
Consumer Relations Tel (800) 531-0004
Email: [email protected]
P/N 20562
© 2004 The Whistler Group, Inc.
TABLE OF CONTENTS
WHISTLER FEATURES
A Word About Whistler Power Inverters
Topic
Page
Whistler inverters convert low voltage, direct current (DC)
to 110 volt alternating household current (AC). The AC output
is called “modified sine wave”. See “Technical Operating
Principles” section for more information. Depending on
the model and its rated capacity, Whistler inverters draw
power either from standard 12 volt automobile and marine
batteries or from portable high power 12 volt sources.
Features Summary ..................................................................3-7
Important Information................................................................8
Inverter Information............................................................9 - 11
• Getting Started
• Don’t Push It
Battery Information...........................................................11 - 13
• Selecting the Optimum Power Source
Cable Information.............................................................13 - 14
• Wire Cable Gauges
d
b
e
Inverter Features
Operation ..........................................................................15 - 23
• Making the Connection
• Tips
a
• Recharging Equipment
• Power Source
• TV’s & Microwaves
1200 watt series shown
c
Technical Operating Principles........................................23 - 25
Operation Summary .........................................................25 - 27
Troubleshooting................................................................28 - 29
Specifications............................................................................30
Warranty Information ...............................................................31
a). ON/OFF Switch. This switch controls the flow of power
from the power source to the inverter. It does not control
the power running from the inverter to the equipment or
appliance being operated.
b). High Temperature LED Indicator Light. This light will
turn RED and the inverter will automatically shut down when
the internal temperature exceeds design parameters for
safe operation. When this occurs, turn the equipment or
appliance off.
2
In the event of excess temper3ature, the High Speed Cooling
FEATURES
FEATURES
Fan also will automatically turn on. Overheating may result
when the inverter is being operated at levels exceeding
its wattage rating or because it has been placed inalocation
or in an manner which prevents proper heat dissipation.
After approximately 15 minutes, the High Temperature
Indicator light and the Cooling Fan will turn off and the
inverter will automatically restart indicating that the inverter
temperature has dropped to a safe operating level.
d). Wattage & Voltage
Wattage Indicator. This illuminated Digital display moni-
tors the wattage being consumed by the inverter.
When the reading rises above the rated limits, the inverter
may automatically shut down. In this event, it is likely that
the draw of the equipment or appliance being operated is
greater than the battery is capable of producing.
Voltage Indicator. This Digital display monitors the voltage
being drawn from the battery by the inverter. The voltage
is measured at the Negative and Positive power input terminals
on the inverter. The voltage level reading will be lower
than the battery voltage due to the voltage "drop" that
occurs as the battery voltage runs through the terminal
connections and cables.
Over Load LED Indicator Light. This light will turn RED and the
inverter will automatically shut down when the continuous
power draw from the inverter exceeds the maximum
continuous power rating for the inverter. Turn the inverter
OFF (O), determine and resolve the cause of the overload
prior to resuming operation of the equipment or appliance.
Turning the inverter ON (I) will reset it.
The inverter is designed to operate with input voltages
ranging from 10 to 15 volts. When the voltage drops below
10.5 volts DC an audible alarm will sound. If the voltage
drops below 10 volts DC, the voltage indicator will go out
and the inverter will automatically shut down. The inverter
also will shut down automatically when the input voltage
exceeds 15 volts DC. Despite this "built in" protection,
the inverter may be damaged if the input voltage exceeds
15 volts DC and damage caused by excess voltage input
is not covered under the WHISTLER warranty.
c).Remote Operation Jack.
The inverter is designed to be operated from a remote
location via the WHISTLER PP015DC Remote Control
Switch which plugs into this socket. This optional accessory
is available through WHISTLER or your WHISTLER dealer.
i
Note: In the event of automatic shut down or continuous
audible alarm, turn the inverter OFF (O) until the source of
the related problem has been determined and resolved.
2000 watt series shown
j
4
5
FEATURES
FEATURES
e). Standard North American 110 AC Outlets are provided.
d
c
f). High Speed Cooling Fan. This fan will turn on
b
automatically when the internal temperature exceeds
design parameters for safe operation. The Cooling Fan
will automatically turn off when the temperature drops to
a safe operating level. This fan does not run continuously.
g
e
a
h). Power Input Terminals
3000 watt series shown - Front view
Make note of the proper polarity.
i). Chassis Ground Terminal Lug.
g). Circuit Breakers. (3000 Watt Only). Each 110 AC outlet
is equipped with a 15 amp circuit breaker.
Note:
The 3000 watt inverters incorporates all of the operating
and safety features of the 1200 and 2000 models. In addition
to these common features, the 3000 is equipped with circuit
breakers and a terminal for making direct connection
between the inverter and an electrical distribution panel.
3000 watt
series shown-
Back view
h
f
6
7
IMPORTANT INFORMATION
INVERTER INFORMATION
Getting Started
Power equipment and appliances which operate with motors
or tubes require an initial surge of power to get them up
and running. This power surge is referred to as the "starting
load" or "peak load." By comparison, electrical devices such
as standard light bulbs do not require a large starting load).
Once the equipment or appliance has been powered up, it
settles down to a slower pace and requires far less electrical power
to operate. This lower power requirement is referred to as
the "continuous load."
Important Information About Your New Whistler Inverter.
This manual will provide you with directions for the safe
and efficient operation of your Whistle Power Inverter.
Important Note: Each of the following operating procedures
and safety features must be carefully reviewed and thor-
oughly understood prior to using the inverter. Failure to
do so may result in damage to the inverter or equipment
or serious personal injury.
In order to ensure that the capacity of your Whistler inverter
is sufficient to meet the required start up load, you must first
determine the power consumption of the equipment or
appliance you plan to operate.
Notes:
Your Whistler inverter is designed to operate from a 12
volt power source only. Never attempt to connect your
Whistler inverter to any other power source, including any
AC power source.
Power consumption is rated either in wattage or in amperes,
and information regarding the required "watts" or "amps"
generally is stamped or printed on most appliances and
equipment. If this information is not indicated on the appliance
or equipment, check the owner’s manual. Contact the
appliance or equipment manufacturer to determine if
the device you are using (TV’s, battery re-charger, computer,
etc.) is compatible with a modified sine wave.
•
110 volts can be lethal. Improper use of your Whistler
inverter may result in property damage, personal
injury or loss of life.
NOTE: Not recommended for use with medical equip-
ment.
If the power consumption is rated in amps, multiply the number
of amps by 110 (AC voltage) to determine the comparable
wattage rating. Induction motors may require 2 to 6 times
their wattage rating to start up.
•
Check with the appliance manufacturer for
compatibility with modified sine wave inverters.
Some appliances may not work well, not at all or be
damaged. This is especially true for medical equipment.
For more information on compatibility issues, please visit
our inverter FAQ page at:
For further information on the fundamental operating
principles of Whistler inverters and related technical
data, see "Technical Operating Principles"
8
9
INVERTER INFORMATION
INVERTER INFORMATION
Don’t Push It.
start up load ratings comparable to your inverter wattage
rating will not damage it.
Although your Whistler power inverter has the capacity to
provide power output (excess current) equal to approximately
two times its rated wattage capacity for a very brief period,
it is designed to operate equipment and appliances with
start up load wattage ratings no higher than its own maximum
continuous wattage rating.
If a piece of equipment or an appliance will not operate,
first confirm that the inverter has been properly connected
to the 12 volt power source (See "Making The Connection").
If all connections have been properly made, turn the inverter
rocker switch ON (l), OFF (O) and ON (l) again in quick
succession. If this procedure is unsuccessful, it is likely that
the inverter does not have the required start up capacity or
your battery supply isn’t large enough to operate the
equipment or appliance in question.
For example, the 1200 model has a maximum continuous
rating of 1200 watts. Although this model has the capacity
to briefly provide up to 2400 watts of power (that is, excess
current), it is designed to operate equipment and appliances
with start up load requirements of 1200 watts or less.
Selecting the Optimum Power Source.
Consequently, if the start up load rating of your equipment
or appliance is the same or approximately the same as the
maximum continuous rating of the inverter, the inverter will
attempt to start loads above the continuous rating.
Operating the inverter for extended periods combined with
a high continuous load demand may result in excessive
power drain from the battery. Therefore, the reserve capacity
of the battery you select to power the inverter is an
important consideration.
Some refrigerators, freezers, pumps and other similar
equipment and appliances require very high start up loads
to operate. Before attempting to power up this type of
equipment or appliance, make especially certain that all
connections have been properly made and that the power
source is fully charged.
The potential power drain can be estimated by calculating
the reserve power ("amp/hour") of the battery and the
amps required by the inverter to meet the continuous load
demand of the equipment or appliance being operated.
To determine whether your inverter will operate a particular
piece of equipment or appliance, run a test. The inverter
is designed to shut down automatically in the event of a
power overload. Testing appliances and equipment with
10
11
BATTERY/CABLE INFORMATION
BATTERY INFORMATION
1. To calculate the amp/hour of the battery, first determine
its "reserve minutes" rating. (Deep cycle marine batteries
generally have the highest reserve minute ratings). This
rating typically is marked on the battery along with the
"Cold Cranking Amps" (CCA) rating. Multiply the reserve
minutes rating of the battery by 0.3 to determine the
battery amp/hour rating. A battery with a reserve minutes
rating of 166 has an amp/hour.
•
It may be advisable to operate the inverter from a bank
of batteries of the same type in a "parallel" configuration.
Two such batteries will generate twice the amp/hours
of a single battery; three batteries will generate three
times the amp/hours and so on.
This multiple parallel battery option is especially
recommended for the Whistler 3000 inverter due to the
high level of amps these models require to produce up
to 3000 watts of continuous load. For more information
regarding battery power please visit our inverter faq
2. To estimate the maximum battery power the inverter
will require to run a piece of equipment or appliance,
divide its continuous load wattage requirement by 10.
The WHISTLER 1200 watt model utilizes 50 amps of battery
power to operate an appliance with a 500 watt continuous
load requirement. (500 divided by 10 = 50).
Wire Cable Gauges
For safe and proper operation of the inverter, connect the
inverter to the power source with the thickest wire available
and in the shortest length practical.
3. Conclusion: The reserve power of the battery is sufficient
to satisfy the continuous load demand placed on the
inverter for a maximum of about one hour. (49.8 divided
by 50 = 1 hour).
1200
When the inverter and the battery are set up within four feet
of each other, use a minimum of #4 gauge wire to make the
connections. Within four to six feet, use a minimum of #2 gauge
wire. At distances of more than six feet, use #0 gauge wire.
Note:
•
When the inverter will be operating equipment or
appliances with high continuous load ratings for extended
periods, it is not advisable to power the inverter with the
same battery used to power your vehicle. If the car or truck
battery is utilized for an extended period, it is possible that
the battery voltage may be drained to the point where
the battery has insufficient reserve power to start the vehicles.
Regardless of the wire gauge selected to make the connections
to the battery, we recommend use of an "O Ring
12
13
OPERATION
CABLE INFORMATION
Making the Connection.
Adapter." Use of #0 gauge wire to make the connections to
the inverter may require a "0 to 4 Gauge Adapter." Both
adapters are available through electronic supply stores
including Radio Shack. Radio Shack part number is listed below:
1. Make certain that the Power switch is in the OFF (O) position.
2. Connect the cables to the power input terminals at the
rear of the inverter and tighten the screws to make a
secure connection. Do not use tools to tighten these screws.
O Ring Adapter:
0 to 4 Gauge Adapter:
RSU11538139
RSU11538667
(To make these connections on the 2000 and 3000,
remove the supplied nut at each terminal on the inverter,
install the wire connectors flush with the metal backing
plates and refasten the nuts securely.
2000 and 3000
When the inverter and the battery are set up within four
feet
of each other, use a minimum of #2 gauge wire to make the
connections. Within four to six feet, use two #0 gauge wire.
At distances of more than six feet, use #0 gauge wires
connected in parallel to the battery.
3. Connect the cable from the Negative (-) terminal on
the inverter to the Negative (-) terminal on the 12 volt
power source. Make certain the connection is secure.
4. Confirm that the cable you have just installed is
properly connected. Specifically, make certain that
the cable is connected to the Negative (-) terminals
on both the inverter and the 12 volt power source.
5. Connect the cable from the Positive (+) terminal on
the inverter to the Positive (+) terminal on the power
source.
14
15
OPERATION
OPERATION
Note:
7. Turn the inverter ON (I). Check the Meter on the
front panel. The Voltage should read between 11
and 14 volts depending on the voltage of the power
source. If the reading is not within this range, check
the voltage of the power source and the terminal
connections on the power source and the inverter
to make sure they are secure.
•
•
Loose connections can result in a severe decrease in
voltage which may cause damage to the wires and insulation.
Failure to make proper connection between the inverter
and the power source will result in reverse polarity.
Reverse polarity will blow the internal fuses in the inverter
and may cause permanent damage to the inverter.
Damage caused by reverse polarity is not covered
under the Whistler warranty.
Making the connection between the Positive (+)
terminals may cause a spark as a result of current flowing
to the capacitors in the inverter. This is a normal
occurrence. Due to the potential for sparking, however,
it is extremely important that both the inverter and the
12 volt battery be well removed from any possible
source of flammable fumes or gases.Failure to heed
this warning could result in fire or explosion.
8. Confirm that the equipment or appliance to be
operated is turned off. Plug the equipment or
appliance into one of the AC receptacles on the
front panel of the the inverter.
•
9. Turn the inverter to the ON (I) position. Turn on the
equipment or appliance.
Note:
•
The audible alarm may make a momentary “chirp”
when the inverter is turned OFF (O). The same alarm
may also sound when the inverter is being connected
to or disconnected from the 12 volt power source.
Again, this is normal.
6. Run a ground from the Ground Lug Terminal at the
rear of the inverter to a proper grounding point using
the shortest practical length of 18 AWG wire. Selection
of the grounding point will depend on where you are
using the inverter. The ground wire may be connected
to the chassis of your vehicle or to the grounding
system in your boat or to the earth* if you are operating
the inverter in a remote location. Before connecting
the ground, make certain that the inverter is turned off.
Operating the inverter without properly grounding it
may result in electrical shock.
•
The use of an extension cord from the inverter to
the appliance or equipment being operated will not
significantly decrease the power being generated
by the inverter. For best operating results, the
extension cord should be no more than 50 feet long.
* This ground can’t be the same ground as the AC ground.
16
17
OPERATION
OPERATION
or the charging unit. Check with the appliance manufacturer
for compatibility with sine wave inverters if you’re unsure.
•
•
Check frequently to ensure that the input and
output connections are secure. Loose connections
may damage the inverter, the power source, or
may generate excessive heat.
The following precautions apply to the 3000 watt
models only.
Although we advise against it, if you attempt to recharge a
charging unit, monitor the temperature of the charging unit
for approximately 10 minutes. If the charging unit becomes
unusually warm, disconnect it from the inverter immediately.
a). The AC receptacles are equipped with 15 amp circuit
breakers. Consequently, each of these outlets is rated
for a maximum output of 1500 watts (110 volts x 15 amps).
The Power Source.
When the engine is off, most batteries will provide ample power
supply to the inverter for one to two hours. The actual length
of time is a function of several variables including the age and
condition of the battery, the number of batteries and the power
demand being placed on it by the equipment being operated
with the inverter. If you are using the inverter while the engine
is off, we recommend you start the engine every 30 to 60
minutes and let it run for at least 10 minutes to recharge the
battery. We also recommend that the device plugged into
the inverter be turned off before turning over the engine.
To generate the maximum output, the 3000 watt model
should be connected to a power supply which has the
capacity to produce up to 300 amps. The loads should
be distributed between the two receptacles to ensure
that each outlet is producing no more than its maximum
1500 watt output.
If more than one piece of equipment or appliance is
to be operated at the same time, first turn on the
inverter and then turn on each piece of equipment or
appliance separately to enable the inverter to produce
the required start up loads.
Although it is not necessary to turn off the inverter when turning
over the engine, the inverter may momentarily cease operation
as the battery voltage decreases. When the inverter is not
supplying power, and turned on, it draws low amperage from
the battery (<0.65 A ).
Important Information on Battery Chargers
For You Television Fans & Audiophiles.
Using your inverter to recharge units designed to charge such
portable equipment as power tools, flashlights, video cameras
and laptop computers may cause damage to the inverter
Although the inverter is shielded and filtered to minimize signal
interference, some interference with your television picture
18
19
OPERATION
OPERATION
problem short of purchasing a sound system with a higher
quality power supply.
may be unavoidable, especially with weak signals. However,
here are some suggestions that may improve the reception.
For You Microwave Chefs.
1. First, make certain that the television antenna produces
a clear signal under normal operating conditions (i.e.,
at home plugged into a standard 110 AC wall outlet).
Also, ensure that the antenna cable is properly shielded
and of good quality.
The power rating commonly associated with microwave ovens
is the "cooking power" which is the power being "delivered"
to the item being microwaved. The actual operating power
requirement rating is higher than the cooking power rating
and typically is referenced on the back of the microwave. If
the operating power requirement does not appear on the
back of the microwave, check the owner’s manual or contact
the manufacturer.
2. Change the relative positions of the inverter, antenna
cables and television power cord.
3. 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.
Some Powerful Advice.
Your Whistler inverter will work best when placed on a reasonably
flat surface. The floor or wall of your vehicle are good locations.
4. Coil the television power cord and the input cables running
from the 12 volt power source to the inverter.
When driving with the inverter in operation, make certain that
neither the inverter nor the power cords will impede safe
operation of your vehicle. Keep the unit and all cords clear
of the steering wheel, gas, brake and clutch pedals and gear shift.
5. Attach a "Ferrite Data Line Filter" to the television power
cord. More than one filter may be required. These filters
are available at most electronic supply stores including
Radio Shack. (Radio Shack Part Number is 273-105).
Note:
To maintain your inverter in proper working condition, note
the following important safety precautions:
Inexpensive sound systems may emit a "buzzing" sound
when operated with the inverter. This is due to inadequate
filters in the sound system. There is no solution to his
•
MOISTURE. Keep the inverter dry. Do not expose it
20
21
OPERATION
OPERATING PRINCIPALS
to moisture. Do not operate the inverter if you, the
inverter, the device being operated or any other surfaces
that may come in contact with any power sources are
wet. Water and many other liquids can conduct electricity
which may lead to serious injury or death.
in a full bridge configuration. The result is excellent overload
capability and the capacity to operate difficult reactive loads.
The output waveform resulting from these conversions is a
"quasi-sine wave" or a "modified sine wave" as shown on
the following page.
•
•
•
HEAT. For peak efficiency, the ambient air temperature
should be between 50° and 80° F. Avoid placing the
inverter on or near heating vents, radiators or other
sources of heat. Do not place the inverter in direct sunlight.
This stepped waveform is similar to the power generated by
utilities and has a broad range of applications.
145 volts peak
115 volts RMS
VENTILATION. In order to disperse the heat generated
while the inverter is in operation, keep it well ventilated.
While in use, maintain several inches of clearance around
the top and sides of the inverter.
0
FUMES & GASES. Avoid using the inverter near
flammable materials. Do not place the inverter in
areas such as battery compartments, where fumes or
gases may accumulate.
The modified sine wave produced by
your Whistler Inverter
The modified sine wave produced by your Whistler inverter
has a root mean square (RMS) voltage of 110 volts. The majority
of AC voltmeters are calibrated for RMS voltage and assume
that the measured waveform will be a pure sine wave.
For You Technical Types.
1. Basic Operating Principles:
Whistler inverters work in two stages. During the first stage,
the DC to DC converter increases the DC input voltage from
the power source (e.g. a 12 volt battery) to 145 volts DC. In
the second stage, the high voltage DC is converted to 110
volts (60 Hz AC) using advanced power MOSFET transistors
Consequently, these meters will not read the RMS modified
sine wave voltage correctly and, when measuring your Whistler
inverter output, the meters will read about 20 to 30 volts too
low. To accurately measure the output voltage of your inverter,
22
23
OPERATING PRINCIPALS/SUMMARY
OPERATION SUMMARY
•
•
Make certain the rated power consumption of the
appliance or equipment you wish to operate is compatible
with the capacity of your inverter.
use a true RMS reading voltmeter such as a Fluke 87, Fluke
8060A, Beckman 4410, Triplett 4200 or any multimeter identified
as "True RMS."
For more information on inverters see our Inverter FAQ page
If the rated power consumption of the equipment is in
the range of the maximum specified wattage of your
converter, test the inverter to ensure that it will operate
properly.
•
•
•
Before attempting to use a battery charger see page 19.
Before attempting to use medical equipment see page 8.
Use the heaviest gauge wire (smaller the number, the
larger or heavier the cable) available to connect the
inverter to the power source.
•
•
When operating the inverter with the engine off, start the
engine every 30 to 60 minutes and let it run for at least
10 minutes to recharge the battery.
A true sine wave typical of home AC outlet.
In Review.
In the event of automatic shut down, turn the inverter
OFF (O) immediately. Do not restart the inverter until the
source of the problem has been identified and corrected.
•
Never attempt to operate your Whistler inverter from
any power source other than a 12 volt battery or a
group of batteries that total 12 volts.
•
•
To avoid battery drain always disconnect the inverter
when the vehicle is not in use for long periods.
•
Always make certain that the power cable terminal
connections run Negative (-) to Negative (-) and
Positive (+) to Positive (+). Check these connections
frequently to ensure that they are secure.
Do not expose the inverter to moisture.
24
25
OPERATION SUMMARY
TROUBLESHOOTING
•
•
•
•
Avoid placing the inverter near sources of heat or in
direct sunlight.
PROBLEM: TV Interference
Solution
Problem
When in use, make certain that the inverter is properly
ventilated.
Electrical interference from
ter inverter.
Add a Ferrite data line fil-
on to the TV power cord.
This filter is available at
RadioShack, or other
Do not use the inverter near flammable materials,
fumes, or gases.
electronic supply stores.
part number 273-105.
Always operate the inverter in accordance with the
instructions in this manual. Failure to do so may result
in property damage, personal injury, or loss of life.
PROBLEM: Low or No Output Voltage
Problem
Solution
Using incorrect type of
voltmeter to test output
voltage.
Use true RMS reading meter
See "For You Technical
Types"
•
While connecting the inverter to the power source,
make certain that the inverter is well removed from
any potential source of flammable fumes or gases.
Section of this manual.
•
•
Always ground the inverter before operating it.
PROBLEM: Low Battery Alarm On All The Time
In the event a continuous audible alarm or automatic
shut off, turn the inverter OFF immediately. Do not
restart the inverter until the source of the problem has
been identified and corrected.
Problem
Solution
Input voltage below
11 volts.
Keep input voltage above
11 volts to maintain
regulation.
Poor or weak battery
condition.
Replace battery.
Inadequate power being
delivered to the inverter
or excessive voltage drop.
Use lower gauge wire. See
“Wire Cable Gauges”
section of this manual.
Keep wire length as short
as possible.
26
27
TROUBLESHOOTING
SPECIFICATION
WHISTLER 1200 WATT INVERTER SPECIFICATIONS
Maximum Continuous Power……………………………1200 Watts
Maximum Surge Capability (Peak Power).......................2400 Watts
No Load Current Draw………………………………...............0.50 A
Waveform……………………………….............Modified Sine Wave
Operating Input Voltage Range…………….............10-15 Volts DC
AC Receptacle……………………..............Dual 3 Prong Grounded
Approximate Dimensions............................. 9.5” L x 8.5” W x 3” H
Approximate Weight………………...................………………..8 lbs
Overload or High Temp LED on
Solution
Problem
Equipment has a high
Turn inverter power switch
OFF (O) and then ON (l)
again until the inverter
powers your appliance.
Repeat as necessary
to get your appliance
"started".
start up surge.
Battery voltage below
10 volts.
Equipment being operated Use a higher capacity
draws too much power.
Recharge or replace
battery.
WHISTLER 2000 WATT
INVERTER SPECIFICATIONS
Maximum Continuous Power…………........................…2000 Watts
Maximum Surge Capability (Peak Power).......................4000 Watts
No Load Current Draw…………………………...............…....0.50 A
Waveform…………………………...............…..Modified Sine Wave
Operating Input Voltage Range………….................10-15 Volts DC
AC Receptacle…………………..................Dual 3 Prong Grounded
Approximate Dimensions….........................13” L x 10.5” W x 3” H
Approximate Weight………………..............………………….12 lbs
inverter or do not use this
equipment.
Allow inverter to cool.
Check for adequate
ventilation. Reduce the
load on the inverter to
rated continuous power
Inverter is too hot (thermal
shutdown mode).
output.
WHISTLER 3000 WATT
INVERTER SPECIFICATIONS
Maximum Continuous Power……………........................3000 Watts
Maximum Surge Capability (Peak Power).......................5000 Watts
No Load Current Draw……………………………...............…0.80 A
Waveform…………………………….................Modified Sine Wave
Operating Input Voltage Range………….............…10-15 Volts DC
AC Receptacle……………………..............Dual 3 Prong Grounded
Approximate Dimensions…….................... 16” L x 9” W x 6.25” H
Approximate Weight……………………....…………….............20 lb
28
29
WARRANTY
WARRANTY
IMPORTANT: Whistler will not assume responsibility for loss
or damage incurred in shipping. Therefore, please ship your
inverter insured with return receipt requested.
Consumer Warranty
The Whistler 1200/2000/3000 series inverters are warrantied
to the original purchaser for a period of (2) two years, from
the date of original purchase, against all defects in materials
and workmanship. This limited warranty is void if the unit
is abused, modified, installed improperly, had its housing
removed, or has a missing serial number. There are no express
warranties covering this product other than those set forth
in this warranty. All express or implied warranties for this product
are limited to (2) two years. Whistler is not liable for damages
arising from the use, misuse, or operation of this product.
2. Include with your unit the following information, clearly printed:
• Your name and street address (for shipping via UPS), a
daytime telephone number, (No P.O. Box please) and
e-mail address (if applicable).
• A detailed description of the problem, i.e. Unit powers
up but no AC output.
• A copy of your dated store receipt or bill of sale.
Service Under Warranty
3. Be certain your inverter is returned with its serial number.
For reference, please write your unit’s serial number in
the following space: s/n __________________.
During the warranty period, defective units will be repaired
or replaced (with the same or a comparable model), at Whistler’s
option, without charge to the purchaser when returned with
a dated store receipt to the address below. Inverters returned
without a dated store receipt will be handled as described
in section “Service Out Of Warranty.”
Inverters without serial numbers are not covered under warranty.
IMPORTANT: To validate that your inverter is within the
warranty period, make sure you keep a copy of your dated
store receipt! You may register your warranty online at
purposes, a copy of your dated store receipt must accompany
any unit sent in for warranty work.
When returning a unit for service under warranty, please follow
these instructions:
1. Ship the inverter in the original carton or in a suitable
sturdy equivalent, fully insured, with return receipt requested,
and shipping charges prepaid to:
Service Out Of Warranty
Whistler Repair Dept.
1201 North Dixieland Road
Rogers, AR. 72756
Inverters will be repaired at “out of warranty” service rates when:
• The unit’s original warranty has expired.
• Dated store receipt is not supplied.
• The unit has been returned without its serial number.
• The unit has been abused, modified, installed
improperly, or had its housing removed.
Please allow 3 weeks for return.
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WARRANTY
MEMO
The out of warranty service fee for your 1200 Whistler inverter
is $90.00, 2000 Whistler inverter is $150.00 and 3000 Whistler
inverter is $250.00. If you require out of warranty service,
please return your inverter as outlined in the section “Service
Under Warranty” along with a certified check or money order
for the correct amount. Payment may also be made by
MasterCard, VISA or American Express; personal checks
are not accepted. In the event repairs cannot be covered
by the service fee, you will be contacted by a Whistler
technical service specialist who will outline options available
to you. If you elect not to have your inverter repaired/replaced,
it will be returned to you along with your certified check or
money order.
IMPORTANT: When returning your inverter for service, be
certain to include a daytime telephone number and email
address (if applicable).
Customer Service
If you have questions concerning the operation of your Whistler
inverter, or require service during or after the warranty period,
please call Cutstomer Service at 1-800-531-0004.
Representatives are available to answer your questions
Monday - Friday from 8:00 a.m. to 5:00 p.m. (CT).
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