Around the home
To determine your basic home power needs, ask yourself these questions:
Do you use mains or tank water? Tank water pumps, like those on farms and lifestyle blocks, require a larger 240-volt generator (usually 3800 watts or above due to start up power needs - visit the section on Power Management to find out more).
How do you heat your home? Heat pumps typically need over 5,000 watts or more to run and cannot be powered by a portable generator. Smaller column heaters can run on generator power.
Is your hot water heater electric or gas? Gas heaters obviously will use less power – as little as 1500 watts. Electric heaters often require at least 4500 watts.
Most household appliances use between 3000 and 6500 watts, so a there is a Honda Generator available that will cover them all...just not all at once! The more items you want to run at the same time is the key to knowing what size generator to get. Visit the section on Power Management to find out more about how to use your generator more effectively.
If you heat your home with a small heater and use town supply water, you can generally expect that 3000-5000 watts will cover your needs. If you have want to run a larger heater and/or a water tank pump, you will likely need a 5500w to 7000 watt generator.
Overseas, most "RV's" have air conditioning units on onboard, this is not the case in New Zealand. But if your campervan does have AC, then the primary factor you need to consider is the size of your air conditioning unit(s).
- The EU30iK and EU30iS will power most 13,500 BTU AC units
- Larger AC units may need two EU22i’s paralleled together.
- The EU70iS works well for large campervans RVs with dual AC units.
- The AC’s needs may vary based on many factors, including the ambient temperature and the efficiency of your model. Your Honda dealer can help you to select the best generator for your individual situation.
Camping, NZ Style campervans, picnics, and boating:
- Usually, 1000-2200 watts will handle most needs. The EU10 and EU22 will provide all the power you need.
- Check the power requirement of your blender, coffee pot, TV, or other appliances you want to use.
- The EU22 is the most versatile for NZ style camping and campervans due to its size. It takes up about the same space as a small suitcase and is easily set up and then stowed away after use.
Industrial power needs range widely based on what kind of tools you are using.
Keep in mind that wattage required for starting a tool or appliance with a motor will be much higher than the watts required to run the device. See more about starting vs running wattage on the next tab.
If you need the wattage on a specific tool, see our section on determining the power needed by an appliance below.
See our section on power management to learn how to use a smaller generator to power more.
DETERMINING THE POWER REQUIRED BY AN APPLIANCE
Most appliances and electric motors list their power requirements in amps. Typical locations include:
- A stamp on the bottom or side
- The nameplate
- A data tag is found on all electric motors.
Keep in mind:
- Appliances with electric motors need additional power to start – up to 3 times the amount to run. More info about starting vs. running wattage can be found on the next tab.
- Older appliances may require more power than what is listed. This is because they become less efficient over time.
You can use an appliance load tester to determine the exact power needed for a variety of tools and appliances.
MAXIMUM VS. RATED POWER
Generators are often advertised at the maximum wattage they can produce. But you’ll also see the “rated power” listed.
- Maximum power = the maximum output that a generator can produce. Maximum power is usually available for up to 30 minutes.
- Rated power - the power that a generator can produce for long periods of time. Typically 90% of the maximum power.
Our Wattage Estimation Guide also provides average wattage for many applications.
In general, use rated power to determine if a generator will be able to adequately power your applications continuously.
Some appliances require extra power to start up, while others maintain the same power requirements constantly.
To calculate your power needs correctly, you need to know which kind of load you are dealing with. (A load is defined as the device that you are powering.) There are two kinds of loads:
Resistive loads are pretty simple: they require the same amount of power to both start and run the equipment. Many resistive loads are involved in heating or making heat of some kind. Examples of resistive loads include:
- Light bulbs
- Coffee maker
Reactive loads contain an electric motor, which requires additional power to start, but significantly less power to run once it gets going. Typically starting power is 3 times the amount of power to run the application. Examples of reactive loads include:
- Refrigerators / freezers
- Furnace fans
- Water tank pumps
- Air conditioners
- Bench grinders
- Air compressors
- Power tools
Some household appliances, like refrigerators, have internal fans that come on intermittently. Extra wattage/power is needed to start the fan each time. Refrigerators also have a defrost cycle that requires power in addition to the compressor and fans.
Reactive loads may also require additional power when the electric motor begins to work. For example, when a saw begins cutting wood, its power requirement will increase. This is not applicable for most household appliances.
MY APPLIANCE IS A 1000 WATT MODEL, BUT IT TAKES 1600 WATTS TO RUN IT. WHY?
Some devices are labeled or promoted with a power number. For example, a hairdryer might say "1000W." This means the hairdryer itself produces 1000 watts of heat energy. But the amount the hairdryer uses from a power outlet is always more than it produces in heat. This is because the device’s energy use is not 100% efficient.
Another example is a microwave oven. It may be marketed as "1100 watt oven" and indeed produce 1100 watts of cooking power, but it will require more wattage than that from a generator.
TRANSLATING THE DATA TAG:
For some appliances, you can determine the power needed by looking at the data tag supplied by the electric motor manufacturer.
All electrical motors should have a data tag attached to their bodies that give volts, amps, phase, cycles, and horsepower
- Volts (V) - The volts must be 240. Honda generators are 240V.
- Amps (A) - Indicates the amps required to RUN the electric motor but doesn't consider STARTING or LOADED power requirements.
- Phase (PH) - Honda Generators can only power single phase motors.
- Horsepower (HP) - Rating of how much work an electric motor can perform.
To determine the wattage needed, use this formula: Amps x Volts = Watts