Inverters

How To Choose The Right Solar Inverter For Your Home and Office in 6 Steps

What are the factors to be considered when selecting an inverter?

How do I know what size inverter to buy?

How many watts is a good inverter?

How much inverter capacity do I need for my home?

Understanding Your Power Requirements

How many watts is a good inverter?

Before you buy an inverter, it’s important to understand how much power you need to run your electrical appliances like your TV, lights, satellite, and fridge. This will help you determine the size of inverter you need and how many batteries to use.

To calculate your power requirements, add up the power consumed by each appliance you want to run during a power outage.

For example, if you want to run 3 fans, 3 tube lights, 1 CFL, and 1 television, your total power requirement would be (370 + 360 + 25 + 120) = 535 watts.

What are the factors to be considered when selecting an inverter?

How do I know what size inverter to buy?

Determining the VA Rating of the Inverter You Need

The VA rating, or volt-ampere rating, is the voltage and current supplied by the inverter to your appliances. Inverters typically have an efficiency range of 60-80%, which is also known as the power factor. The power supplied by the inverter, or the VA rating, is equal to the power required by the appliances divided by the power factor.

Using an average power factor of 0.7, the power of the inverter you need would be 765 VA (535 watts / 0.7). In the market, you can find 800 VA inverters, so that would be a good choice for your home.

Knowing the Battery Your Inverter Needs

How much inverter capacity do I need for my home?

The battery is an essential part of an inverter system, and the performance and lifespan of the inverter depend on the battery quality. The battery capacity, measured in ampere-hours (AH), determines how long the inverter will power your appliances.

To calculate the battery capacity you need, use the following formula:

Battery capacity = Power requirement (in watts) x Duration (in hours) / Battery voltage (in volts)

For example, if you want to run the appliances listed above for 3 hours during a power outage, you would need a battery with a capacity of 130 AH (535 watts x 3 hours / 12 volts).

Determine Your Power Requirements The first step in selecting an inverter is to figure out how much power you need. This will depend on the appliances and tools you want to run during a power outage. To determine your power requirements, you'll need to know the wattage or current (in amps) of each item. This information can usually be found on the specification plate of the appliance or in the manual. If you can't find this information, you can contact the appliance supplier to ask. It's important to know both the continuous rating (in watts or amps) and the peak/surge rating (in watts or amps) of each item.  Convert Amps to Watts To convert amps to watts, use this formula: watts = amps x voltage. For example, if you have an appliance that uses 5 amps and is plugged into a 120-volt outlet, the wattage would be 5 amps x 120 volts = 600 watts.  Calculate the Startup Load (Peak/Surge Watts) Many appliances, particularly those with induction motors (such as air conditioners, refrigerators, and pumps), have a higher peak/surge wattage when they start up. To approximate the startup load for an appliance, multiply the continuous wattage by 3. For example, if an appliance has a continuous wattage of 500 watts, the peak/surge wattage would be approximately 500 watts x 3 = 1500 watts.  Consider Sinewave Output Inverters can have either modified sinewave (squarewave) or pure sinewave output. Pure sinewave inverters produce a cleaner, more stable power supply and are compatible with all appliances. Modified sinewave inverters are less expensive, but may not work with certain appliances and can produce interference with some electronics.  Compare Inverter Sizes and Prices Once you know your power requirements, you can compare the sizes and prices of different inverters to find the one that best meets your needs. Be sure to consider both the continuous rating and the peak/surge rating when selecting an inverter. It's also a good idea to choose an inverter with a higher continuous rating than you need, to allow for a safety margin.  Look for Quality and Durability When shopping for an inverter, it's important to consider the quality of the product and the reputation of the manufacturer. Look for an inverter with a long warranty period, as this can be an indication of the manufacturer's confidence in the product. It's also a good idea to research the company's history and read customer reviews to get an idea of the level of service you can expect.  Consider the Size and Weight of the Inverter The physical size and weight of the inverter will be a factor if you need to transport it or have limited space to store it. Make sure you have enough room to install the inverter and that it is not too heavy for you to handle.  Check for Safety Features Make sure the inverter you choose has safety features such as overload protection, overvoltage protection, and temperature control. These features will help ensure the inverter operates safely and reliably.
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How to Choose the Right Inverter for Your Needs – Quick Guide

Step #1 Determine Your Power Requirements

The first step in selecting an inverter is to figure out how much power you need. This will depend on the appliances and tools you want to run during a power outage.

To determine your power requirements, you’ll need to know the wattage or current (in amps) of each item. This information can usually be found on the appliance or in the manual. Check online or or the manufacturing website.

If you can’t find this information, you can contact the appliance supplier to ask. It’s important to know both the continuous rating (in watts or amps) and the peak/surge rating (in watts or amps) of each item.

Convert Amps to Watts

To convert amps to watts, use this formula: watts = amps x voltage. For example, if you have an appliance that uses 5 amps and is plugged into a 120-volt outlet, the wattage would be 5 amps x 120 volts = 600 watts.

Calculate the Startup Load (Peak/Surge Watts)

Many appliances, particularly those with induction motors (such as air conditioners, refrigerators, and pumps), have a higher peak/surge wattage when they start up.

To figure out the startup load for an appliance, multiply the continuous wattage by 3. Find the continuous wattage online by searching for your appliance name.

For example, if an appliance has a continuous wattage of 500 watts, the peak/surge wattage would be approximately 500 watts x 3 = 1500 watts.

How to Choose the Right Inverter for Your Needs - Quick Guide

Consider Sinewave Output Inverters

These can have either modified sinewave (squarewave) or pure sinewave output. Pure sinewave inverters produce a cleaner, more stable power supply and are compatible with all appliances. Modified sinewave inverters are less expensive, but may not work with certain appliances and can produce interference with some electronics.

Compare Inverter Sizes and Prices

Once you know your power requirements, you can compare the sizes and prices of different inverters to find the one that best meets your needs. Be sure to consider both the continuous rating and the peak/surge rating when selecting an inverter. It’s also a good idea to choose an inverter with a higher continuous rating than you need, to allow for a safety margin.

Look for Quality and Durability

When shopping for an inverter, it’s important to consider the quality of the product and the reputation of the manufacturer. Look for an inverter with a long warranty period, as this can be an indication of the manufacturer’s confidence in the product. It’s also a good idea to research the company’s history and read customer reviews to get an idea of the level of service you can expect.

Consider the Size and Weight of the Solar Inverter

The physical size and weight of the inverter will be a factor if you need to transport it or have limited space to store it. Make sure you have enough room to install the inverter and that it is not too heavy for you to handle.

Check for Safety Features

Make sure the solar inverter you choose has safety features such as overload protection, overvoltage protection, and temperature control. These features will help ensure the inverter operates safely and reliably.

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