MOTOMASTER 011-2103-8 1500 W Pure Sine Inverter 3000 W Pure Sine Inverter Instruction Manual
- June 6, 2024
- MOTOMASTER
Table of Contents
MOTOMASTER 011-2103-8 1500 W Pure Sine Inverter 3000 W Pure Sine Inverter
1500 W PURE SINE INVERTER
3000 W PURE SINE INVERTER
IMPORTANT:
Please read this manual carefully before running this power inverter and save
it for reference.
MotoMaster ® has been providing Canadians with reliable, affordable automotive products that are targeted at the DIY customer. Our extensive line of engine oils and lubricants, antifreeze and coolants, washer fluids, transmission fluids and treatments, winter chemicals, garage and car interior accessories, batteries, chargers and boosters, as well as lifting equipment was developed with our roads and drivers in mind. With over 600 individual automotive products, MotoMaster ® has helped keep Canadians on the go by providing well- priced automotive products with competitive performance and durability.
| SAVE THESE INSTRUCTIONS
This manual contains important safety and operating instructions. Read all
instructions and follow them with use of this product.
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WELCOME
Please read this manual thoroughly before installing and operating your new MotoMaster ® Eliminator inverter. This manual contains information you need to obtain the performance required for your application. Keep this manual for future reference.
This MotoMaster® Eliminator inverter converts low voltage direct current (DC)
to 115 V pure sine wave (PSW) alternating current (AC). The inverter draws
power from 12 V deep-cycle batteries such as those used for marine, golf cart,
and fork-lift applications, or from other high-current 12 V sources.
This model, 011-2103-8 / 011-2104-6, has been performance tested by ETL and
complies with Underwriters Laboratories and Canadian Standards Association
safety standards.
A HIGHER WATTAGE INVERTER MAY BE REQUIRED
To determine whether the power inverter’s wattage capacity is within your power requirements, turn on the highest wattage appliance first and then all other devices in order of highest wattage to lowest. This inverter is designed to automatically shut down in the event of power overload. While running this test, if inverter shuts down due to power overload, you may require a larger capacity inverter or run the devices separately to stay within the inverter’s capacity.
WARNINGS, CAUTIONS AND NOTES
It is very important that any operator and installer of this inverter read and follow all WARNINGS, CAUTIONS AND NOTES and all installation and operation instructions. In particular, comply with WARNINGS (possibility of serious injury or death), CAUTIONS (possibility of damage to the inverter and/or other equipment), and NOTES (included to assist you in achieving the maximum performance and longest working life from this advanceddesign inverter).
WARNINGS: INVERTER OUTPUT
This is a heavy-duty device that produces voltages similar to commercial AC power.
- Danger of shock or electrocution–treat inverter output the same as commercial AC power.
- Do not use the inverter near flammable materials or in any locations that may accumulate flammable fumes or gases.
- This is an electrical device that can briefly spark when electrical connections are made or broken.
- Do not allow water or other liquids to contact the inverter.
- Do not use appliances with damaged or wet cords.
CAUTIONS: INVERTER OPERATING ENVIRONMENT
- Surrounding air temperature should be between -20°C and 40°C (4°F and 104°F) ideally between 15°C and 25°C (60°F and 80°F).
- Keep the inverter away from direct sunlight if at all possible.
- Keep the area surrounding the inverter clear to ensure free air circulation around the unit. Do not place items on or over the inverter during operation. The unit will shut down if the internal temperature gets too hot. Restart the inverter after it cools.
- This Eliminator® inverter will only operate from a 12 V power source. Do not attempt to connect the inverter to any other power source, including any AC power source.
- Do not reverse DC input polarity this will void the warranty.
- Because of the possibility of sparking, however, it is extremely important that both the inverter and the 12 V battery be positioned far from any possible source of flammable fumes or gases. Failure to heed this warning could result in fire or explosion.
- Operating the inverter without correctly grounding the unit may result in electric shock.
CAUTIONS
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Loose connections can result in a severe decrease in voltage that can cause damage to cables and insulation.
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Failure to make correct polarity (pos, neg) connection between the inverter and the battery bank can result in blowing fuses in the inverter and can permanently damage the inverter. Damage caused by reversed polarity is not covered under the MotoMaster® warranty.
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Making the connection to the positive terminal may cause a spark as a result of current flowing to charge capacitors within the inverter. This is a normal occurrence.
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Because of the possibility of sparking, however, it is extremely important that both the inverter and the 12 V battery be positioned far from any possible source of flammable fumes or gases.
Failure to heed this warning could result in fire or explosion. -
Operating the inverter without correctly grounding the unit may result in electric shock.
POWER REQUIREMENTS
When a motorized appliance or a tool turns on, there is an initial surge of power to start. This surge of power is referred to as the “starting load” or “peak load.” Once started, the tool or appliance requires less power to operate. This is referred to as the “continuous load” in terms of power requirements. You will need to determine how much power your tool or appliance requires to start up (starting load) and its continued running power requirements (continuous load).
Power consumption is rated in watts, or it can be calculated from amperes (amps). This information is usually stamped or printed on most appliances and equipment. If this information is not indicated on the appliance or equipment, check the owner’s manual.
Multiply: AC AMPS X 110 (AC voltage) = WATTS
This formula yields a close approximation of the continuous load of your
appliance.
Multiply: WATTS X 2 = starting load for most appliances
This formula yields a close approximation of the starting load of most
appliances. Exceptions are motorized appliances such as pumps, freezers and
air conditioners. These appliances can have startup loads of up to eight times
the rated watts.
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WARNING! DANGER OF BATTERY EXPLOSION – INSTALL A FUSE
Battery banks can deliver very high levels of current that can vaporize metal,
start fires and cause explosions. Motomaster ®recommends installing one ANL
type fuse and fuse holder close to the positive battery bank terminal. This
fuse protects the batteries from accidental DC cable shorts, which can cause
batteries to explode. ANL fuses and fuse holders are available at most marine
supply st
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FRONT PANEL
A LCD Digital Display (see LCD diagram on next page).
B MENU Button: Pressing the button will change the display between OUTPUT
WATTAGE, INPUT/OUTPUT VOLTAGE or INTERNAL TEMPERATURE
C ON / OFF Power button
D Wired remote control receptacle
E Two USB Ports QC3.0 (5V/3A, 9V/2A, 18W max) F Two standard North
American AC outlets, each rated at 15 A
G Hardwire terminals
LCD DISPLAY
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Battery Level (25%, 50%, 75%, 100%).
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Output Wattage (W), Input Voltage (VDC) or Output Voltage (V) Display.
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Temperature Shutdown.
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Warning Indicator:
a. High voltage
b. Low voltage
c. Overload -
Error.
Remote Instructions
The included remote control features an LED indicator showing on/off light, push button and 20′ (6 m) cable that simply plugs into the inverter.
Features
A: LCD display
B: Power button
C: Power ON/OFF Indicator
D: Menu button
Indicator
Solid Green: Inverter “on”
Solid Red: Inverter fault
No Colour: Inverter “off
REAR PANEL
E. Positive Power Input Terminal.
F. Negative Power Input Terminal.
G. Thermal Activated High-Speed Cooling Fans. When temperature inside
inverter exceeds a preset limit, the cooling fans automatically turn on to
cool the inverter.
H. When the temperature reduces, the fans turn off.
CABLE GAUGES
When connecting the inverter to a battery bank use the thickest stranded insulated copper wire available, in the shortest length practicable. Recommended cable gauges are as follows:
Model | Description | Recommended Gauges |
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011-2103-8
011-2104-6| 1500 W POWER INVERTER
3000 W POWER INVERTER| 2 AWG (3’/0.9 m included W/ 150 A inline ANL fuse)
0 AWG (3’/0.9 m included W/ 300 A inline ANL fuse
HARDWIRE INSTRUCTIONS
This inverter comes equiped with an optional AC output hardwire connection to allow for direction connection to an off-grid electrical panel. All AC wiring ( inverter to AC panels, AC panels to circuit breakers, and GFCIs) must be rated to at the current rating of the fuses and/or circuit breakers. Multistrand wire is required. Typically, 15A circuit breaker requires a 12 AWG wire.
Always make sure unit is completely disconnected from any power source while insalling or adjusting any AC output connections.
Begin by unscrewing the front plate which is located under the 2 x AC outlets at the front of the inverter. You will then see the 3 connecting terminals, as illustrated below:
H HOT N NEUTRAL E EARTH GROUND
SELECT BATTERY TYPE
Select 12V “Deep Cycle” batteries to receive optimum performance from your power inverter. If connected to a vehicle, boat or RV, we recommend to keep engine running while inverter is in use. If the batteries you connect to the power inverter are not true Deep Cycle batteries, their operational lifetimes may be significantly shortened. If you are using the same battery bank to power the inverter as well as DC loads, your battery bank will need to be appropriately sized (larger loads will require a battery bank with a larger amp-hour capacity) or the operational lifetimes of the batteries may be significantly reduced.
UNDERSTANDING BATTERY AMP-HOUR CAPACITY WITH YOUR APPLICATION
Determine Total Wattage Required:
Add the wattage ratings of all equipment you will connect to your inverter.
Wattage ratings are usually listed in equipment manuals or on nameplates. If
your equipment is rated in amps, multiply that number times AC utility voltage
to estimate watts. (Example: a drill requires 2.5 amps. 2.5 amps × 120 volts =
300 watts.)
Determine DC Battery Amps Required
Divide the total wattage required by the nominal battery voltage to determine
the DC amps required. (Example: total wattage required 900 watts: 900 ÷ 12V =
75 DC Amps.)
Estimate Battery Amp-Hours Required
Multiply the DC amps required by the number of hours you estimate you will
operate your equipment exclusively from battery power before you have to
recharge your batteries with utility- or generator-supplied AC power.
Compensate for inefficiency by multiplying this number by 1.2. This will give
you a rough estimate of how many amp-hours of battery power (from one or
several batteries) you should connect to your Inverter/Charger. (Example: 75
DC Amps x 5 Hrs. Runtime x 1.2 Inefficiency Rating = 450 Amp-Hours.)
NOTE:
The type of batteries you use to power your high-power inverter is important.
Operating a high-power inverter will routinely discharge batteries and they
will require frequent recharging. Batteries used to start engines are not
designed to repeatedly charge and discharge. MotoMaster recommends using
“deep-cycle” or “marine” rated batteries.
INSTALLING THE INVERTER
Your MotoMaster ® inverter should not be mounted under the hood of a vehicle. If installing in a vehicle, choose a dry, cool, ventilated area as close to the battery as practical. Before drilling any mounting holes, make sure that there are no wires, fuel lines or tanks directly behind the surface to be drilled to install the inverter :
- Inverter must be off.
- The inverter should be mounted horizontally to avoid any foreign objects from falling into the inverter from ventilation openings.
- Position the inverter against the mounting surface and mark locations of the mounting screw openings.
- Remove the inverter and drill four mounting holes.
- Fasten the inverter to the mounting surface using corrosion-resistant fasteners sized #10 or larger.
CONNECTING THE INVERTER
- Inverter must be off.
- Prepare 1 set of positive and negative cables to connect to battery. Ring terminals are recommended. It is highly recommended to use red cable for the positive terminal and black cable for the negative terminal. The copper cables gauge should be:
CABLE LENGTH
| CABLE GAUGE
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1500 W|
3000 W
<=6′
| 2 AWG| 0 AWG
<=10′| 0 AWG|
2/0 AWG
- Remove the nuts, washers and bolts from the positive and negative DC terminals.
- With the positive cable, connect the ring connector of the positive (red) battery cable to the positive (red) DC terminal (1) of the inverter.
- With the negative cable, connect the ring connector of the negative (black) battery cable to the negative (black) DC terminal (2) of the inverter.
- Insert the nuts on both DC terminals and tighten them with washers. Do not overtighten.
- Connect the negative (black) battery cable ring terminal to the negative (black) post of the battery (5). Tighten the nut with washer firmly. Do not overtighten.
- Connect the positive (red) battery cable ring terminal to the positive (red) post of the battery (4). Tighten the nut with washer firmly. Do not overtighten.
- Prepare a 14 AWG copper wire with enough length to connect the inverter to a ground. Strip the insulation at both sides. Connect one end of the copper wire to the ground terminal (3) of the inverter, and the other end of the wire to the chasis or ground.
NOTE:
If connecting the inverter in a vehicle, connect the copper wire to the
chassis of the vehicle. If connecting the inverter in a boat, connect the
copper wire to the boat grounding system. If connecting the inverter in a
fixed location, connect the copper wire to a ground rod (a metal rod pounded
into the earth) or other proper service entrance ground.
OPERATION
- Ensure the inverter is OFF.
- Ensure the appliance to be operated is turned OFF and plug it’s electrical cord into one of the AC outlet on the front of the inverter.
- Turn the inverter ON.
- Turn the appliance ON.
- Plug in and turn ON additional appliances as needed.
OPERATING A MICROWAVE OVEN WITH YOUR POWER INVERTER
The power rating used with microwave ovens is the “cooking power” which means the power being “delivered” to the food being cooked. The actual operating power rating is listed on the back of the microwave. If the operating power cannot be found on the back of the microwave, check the owner’s manual or contact the manufacturer.
MORE EFFICIENT USE OF THE BATTERY
Make sure any appliances are energy efficient and turned off after use. Use LED lighting when ever possible. Wherever possible, charge with solar panels or wind generators. Do not allow lead acid batteries to remain discharged for long periods of time; they lose capacity (amp-hours).
DISPOSAL / RECYCLING OF INVERTER
Electronic products are known to contain toxic materials if not properly
disposed of. Contact local authorities for information on disposal and
recycling. This inverter is certified “lead free”.
The converters in this inverter contain nickel components. Nickel is known to
be neurotoxic if ingested.
REMARQUE:
Sparks are normal for the first connection.
Make sure you have good secure connections – do not overtighten.
TROUBLESHOOTING
PROBLEM | POSSIBLE CAUSE | SOLUTION |
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The digital display shows “LOW VOLTAGE” |
- Low battery voltage shutdown feature turns OFF the inverter.
- DC wiring is incorrect
Battery condition is poor.
|
- Recharge the battery. Check if cables and connections are secure.
- Use proper cable length and gauge. Refer assembly instructions page 12 – Monting the Inverter
- Charge or replace the battery if needed.
The digital display shows “HIGH VOLTAGE”.| High battery voltage shutdown
feature turns OFF the inverter.| Make sure the inverter is connected to a 12 V
battery.
The digital display shows “OVERLOAD”.| AC output overload or device short
circuit shutdown feature turns the inverter OFF.| Make sure the load attached
to the inverter is within the operating limit.
The digital display shows:
| Over temperature shutdown feature turns OFF the inverter.| Make sure the
inverter is placed in a well-ventilated area and ventilation openings are not
obstructed. Reduce the ambient temperature if possible. Refer technical
specifications.
No output voltage and voltage indication.|
- The inverter is in OFF position.
- There is no power supply to the inverter
- Reversed DC polarity.
|
- Turn ON the inverter
- Check the wiring to the inverter
- Reverse DC polarity will damage the inverter and voiding the warranty. Have a qualified service technician to repair.
SPECIFICATIONS: 011-2103-8
Output Continuous Watts (W) | 1500 W + 18 W USB |
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Surge Capacity (Peak Power) | 3000 W |
DC Input, Full Load DC Input Current | 12V battery, 150 A |
Input Voltage Range | 10.5 to 16 V DC +/- 0.3 V (auto reset) |
Rated Frequency (Hz) | 60 Hz±1 |
Rated Output AC (V, A) | 115 V +/- 10%, 13 A |
Rated Output USB (V, A) | 2 * USB ports QC3.0 (5V/3A, 9V/2A, 18W max) |
No Load Current | <1.2 A DC |
Optimum Efficiency | 85% min. |
Fuse (A) | (40 A*4) |
Fuse Type | Internal Blade |
Output Wave Form | Pure Sine Wave |
Touch Temperature | 65°C (149ºF) Max. |
Operating Temperature | -20 to 40ºC (4 to 104ºF) |
Operating/Storage Humidity RH | 5 to 95% |
Cooling System | Thermo Fan |
THD | < 4.5% |
Dimensions LxWxH | 15 1/8 x 9 7/8 x 4 1/8” (38.4 x 24.9 x 10.5 cm) |
Assembled Weight | 10 lb 1 oz (4.58 kg) |
SPECIFICATIONS: 011-2104-6
Output Continuous Watts (W) | 3000 W + 18 W USB |
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Surge Capacity (Peak Power) | 6000 W |
DC Input, Full Load DC Input Current | 12 V battery, 300 A |
Input Voltage Range | 10.5 to 16 V DC +/- 0.3 V (auto reset) |
Rated Frequency (Hz) | 60 Hz±1 |
Rated Output AC (V, A) | 115 V +/- 10%, 26 A |
Rated Output USB (V, A) | 2 * USB ports QC3.0 (5V/3A, 9V/2A, 18W max) |
No Load Current | <1.4 A DC |
Optimum Efficiency | 85% min. |
Fuse (A) | (40 A*8) |
Fuse Type | Internal Blade |
Output Wave Form | Pure Sine Wave |
Touch Temperature | 65°C (149ºF) Max. |
Operating Temperature | -20 to 40ºC (4 to 104ºF) |
Operating/Storage Humidity RH | 5 to 95% |
Cooling System | Thermo Fan |
THD | < 4.5% |
Dimensions LxWxH | 21 3/4 x 9 7/8 x 4 1/8” (55.4 x 24.9 x 10.5 cm) |
Assembled Weight | 15 lb 4 oz (6.9 kg) |
WARRANTY AND RETURNS
IF ANY PARTS ARE MISSING OR DAMAGED, OR IF YOU HAVE ANY QUESTIONS, PLEASE CALL OUR TOLL-FREE HELPLINE AT 1-888-942-6686
Read and understand this instruction manual thoroughly before using the
product. It contains important information for your safety as well as
operating and maintenance advice.
Keep this instruction manual for future use. Should this product be passed on
to a third party, this instruction manual must be included.
The English version of this manual is available online at:
www.canadiantire.ca/manuals
This MotoMaster Eliminator product carries a three (3) year warranty against defects in workmanship and materials. At its discretion, MotoMaster Canada agrees to have any defective part(s) repaired or replaced free of charge, within the stated warranty period, when returned by the original purchaser with proof of purchase. This product is not guaranteed against wear or breakage due to misuse and/or abuse.
MADE IN CHINA
IMPORTED BY
MOTOMASTER CANADA TORONTO, CANADA M4S 2B8
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