The Ultimate Guide To Solar Panel Calculation - Jackery (2023)

Solar power is a sustainable energy solution, and the goal is to make the most out of it and reduce dependence on the electrical grid. While switching to solar energy seems easy, calculating the number of solar power panels required can be challenging.

During solar panel calculation, there are a variety of factors that you need to keep in mind. These include geographic location, home energy usage, number of sun's peak hours, etc.

The Ultimate Guide To Solar Panel Calculation - Jackery (1)

If you live in a location that receives few peak hours of sunlight, consider purchasing Jackery SolarSaga Solar Panels with a high conversion rate. These solar panels can convert most solar energy to usable electricity.

But before you purchase solar panels for your power needs, read this guide. This guide will help you calculate the load wattage, power output, energy usage, backup time, etc., of the solar panels,so you make the best choice.

FYI. Jackery's biggest sale of 2023 is on Now! Up to 44% off on solar generators, portable power solutions, and solar panels. Learn more>>

What Isa Solar Panel?

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A solar panel (also called a photovoltaic cell or PV panel) is a device that converts the sun's energy into electricity. The energy generated is then used to charge power stations, which power all your electrical appliances.

Solar panels consist of individual solar cells composed of silicon, phosphorus, and boron. When photons from the sun's energy strike the surface of a solar panel, they knock out the electrons to create a directional current.

DC current directly transfers from the solar panels to the power station, where the inverter converts it to AC electricity. Using the combination of power stations and solar panels, you can quickly charge electrical appliances at home or during outdoor adventures when you are away from the electrical grid.

The Benefits ofa Solar Panel

Solar panels are a clean and renewable energy source for homeowners and outdoor enthusiasts. Below are the benefits of using a solar panel and power station to charge your appliances.

  • Clean & Green Energy:Solar panels do not emit toxic fumes while converting the sun's energy into electricity. Hence, they are a clean, green energy source that reduces your carbon footprint.
  • Zero Maintenance:Solar power panels are easy to clean and maintain. All you need to do is wipe the dust off with a soft, clean cloth to improve its efficiency.
  • Safe:Unlike gas generators, solar panels do not require coal or gas to generate electricity. Hence, they are pretty safe for indoor use.
  • Reduces High Electricity Bills:You can power all your home appliances with solar panels and a portable power station. Thus, renewable energy helps reduce high electricity bills and save money.
  • Eco-friendly:Solar panels reduce the emission of greenhouse gases like carbon dioxide, nitrogen oxides, sulfur oxides, etc., into the atmosphere, making them an environment-friendly power solution.

Solar Panel Calculation

There is no single accurate answer to how many solar panels a home needs. Every home is different, and so are its power needs. Using a solar panel calculatorand understanding various variables gives an accurate estimate of how many panels you'll require. Some essential factors you'll need to consider are load wattage, energy usage, solar panel backup time, efficiency, etc. Let us discuss each aspect in detail.

Solar Panel Output Calculation

Generally, solar panels produce a few hundred watts to 400 watts per hour. However, there are several external variables that affect the actual output of the panels.

Some important factors include how many hours of sunlight the solar panels receive, your location, and how many watts your panels can produce in an hour.


To help you understand better, here is the mathematical solar panel calculation of daily watt-hours.

Daily watt hours = Average hours of sunlight × solar panel watts ×85%.

(As not all the sunlight is converted into electricity, we tested to determine that the Jackery solar panels are 85% efficient.)


Suppose you live in an area that receives 4 hours of peak sunlight, and your panel has a 200-watt rating. In this case, the solar panel output will be:

Daily watt hours = 4 × 200 × 0.85 = 680Wh.

That means one solar panel with a 200-watt capacity can produce around 680 Wh, depending on its efficiency.

For instance, if you purchase Jackery SolarSaga 200W Solar Panels,you can enjoy a high conversion rate and efficiency. Along with the portable power station, these solar panels can convert sunlight into electricity and power appliances.

Load Wattage Calculation

The load wattage is the next important thing you'll need to keep in mind while buying a solar panel system. In simple words, load wattage involves analyzing your power requirements by understanding how many appliances you wish to charge and for how much time.


To calculate the total load wattage of the electrical appliances, you need to multiply the power used by each device by the number of usage hours per day. This will give you the total kWh per day of one appliance.


For instance, if you wish to run a refrigerator for 6 hours and it consumes 300 watts per hour, here is how to calculate its load wattage.

Load Wattage = 300 × 6 = 1800 Wh.

Similarly, you can calculate the load of all other home appliances. Add them up, and you will get the total power you need for one day.

Energy Usage Calculation

The next crucial step for solar panel calculationis to determine your home's average electricity consumption and energy usage. The amount of energy an appliance uses in an hour is termed energy usage.

To get an estimated energy usage value, you need to figure out daily kWh usage, peak sun's hours, etc.


Here is how you can calculate it:

Step 1: Calculate the kWh usage:First, you need to gather the kilowatt-hour usage from your electricity bills. Next, determine the average monthly kWh by adding 12 months of kWh usage and dividing it by 12. Divide the resulting number by 30 to calculate daily kWh usage.

Step 2: Determine peak sun hours: Note down the peak sun hours you receive. Remember, not every location gets the same amount or intensity of sunlight. To make the most of solar power, calculate the average sun hours you receive and move to the third step.

Step 3: Calculate Solar System Size:The last step is to determine the size or capacity of the solar system you'll need to power appliances. You can simply divide the daily kWh by the average sun hours. Then, multiply the result by the panel's efficiency to get an estimated solar system size.

Note:Always use highly efficient solar panels with a power station to charge appliances. Instead of connecting hundreds of solar panels, you can purchase a combination of powerful power stations with high battery capacity and connect them with solar panels.

Refer to the table to determine the energy needs of different appliances.

Kitchen Appliances


Living Room Appliances


Outdoor Appliances



500 W


150-200 W

Band Saw

1100 W

Coffee Machine

1000 W

LED Bulb

10-30 W


250-1000 W


1200-1500 W

Video Game Console

150 W

Electric Blanket

200 W

Electric Kettle

1200 w


100 W

Hair Dryer

1500 W


850 W

LCD Monitor

100 W


280 W

Electric Oven

1200 W


100 W

Circular Saw

1100 W

Solar Panel Backup Time Calculation

The backup time of the inverter or solar power station determines how long it can provide power during outdoor adventures or power outages. The backup time of a solar energy system depends on the solar battery size and charge consumed by the appliance.

The battery capacity is generally measured in AH (ampere-hour). The most common battery type is 12V, which provides 80% efficiency. The more the solar panel backup time, the longer you can run your devices.


Here is how you can easily calculate it:

Battery Backup Time = (Battery AH × 12V × battery efficiency) ÷ Total power consumption.


Suppose you are running an appliance that consumes 100W of energy. In this case, the backup time will be: (100 AH × 12 V × 0.8) ÷ 100 watts = 9.6 hours.

Hence, you can run the appliance for 9.6 hours with a 100 AH battery capacity solar power system.

Solar Panel Cost Calculation

With the increasing popularity of solar panel systems, many homeowners are planning to harness solar energy. However, the cost associated with solar panels before switching to renewable energy is worth noting.

The main factors that affect the overall cost of solar panels include the type of panels you wish to install. For instance, if you're planning to install monocrystalline solar panels that are highly efficient, you'll need to pay a few extra bucks.

Other factors influencing solar panel calculationinclude size, conversation rate, and other relevant features of solar power panels.

Alternatively, you can use the solar panel cost calculatorto determine the overall expenses.

Solar Panel Paycheck Period Calculation

The solar panel payback period is the estimation of the time it takes for the solar panel system to generate enough energy savings so you can offset the initial investment.


The simple formula to calculate the payback period is the total cost of the system divided by the average yearly energy savings.

Payback Period = Total cost of solar panel system ÷ Average yearly energy savings.


Suppose you've purchased a solar system of $20,000 that helps you to reduce your electricity bills by $70 per month.

In this case, the average yearly energy savings will be $70 × 12 = $840.

Payback period = $20,000 ÷ $840 = 24 years.

Hence, solar panel systems will take 24 years to completely offset the initial investment.

Solar Panel Efficiency Calculation

Solar panel efficiency, in simple words, represents the amount of sunlight a solar panel can convert into usable electricity. It is calculated by dividing the amount of electricity produced by the solar panel by the amount of the sun that strikes the solar panel.


Here is the mathematical representation of the solar panel efficiency.

Efficiency (%) = [(Pmax ÷ Area) ÷ 1000] × 100%.


Pmax = Maximum solar panel power (measured in watts).

Area = Length × Width of solar panels (measured in sq. M).

1000 = Conversion factor to convert power output per unit area from watts per sq. M to percent.


Suppose you have a solar panel with a maximum power output of 200W and a surface area of 1.6 m2. The efficiency of solar panels would be:

Efficiency = [(200 W ÷ 1.6 m2) ÷ 1000] × 100% = 12.5%.

In this case, the solar panel efficiency is 12.5%. That said, it can convert 12.5% of the sunlight that hits the panels to electricity.

Surface Color

Fraction of Incident Radiation Absorbed

Dark blue to black


Dark brown to blue


Green, red, and brown


Grey to dark grey


White smooth surfaces


Solar Panel Insolation Calculation

Solar panel insolation is the amount of solar energy that falls on the surface area in a specific amount of time. It is measured in kilowatt-hours per square meter per day (kWh/m2/day).


To calculate the solar panel insolation, you can use the following formula:

I = E / A × t


I = Solar insolation (kWh/m2/day)

E = Total solar energy that falls on the panel (kWh/m2)

A = Surface area (m2)

t = Length of time (day)


Suppose a 1 square meter of the surface area receives 5 hours of peak sunlight and 5 kWh of energy in a day. In this case, the insolation would be calculated as follows:

I = 5 kWh / 1 m2 × 1 day = 5 kWh/m2/day.

Note:The actual insolation will depend on multiple other factors, including but not limited to location, atmospheric conditions, time of year, etc.

How To Maintain Your Solar Panel?

Solar panels can efficiently generate electricity for decades as long as you maintain them well.

Here are a few simple ways to improve efficiency and maintain solar panels:

  • Clean your solar panels frequently. Accumulation of objects, dust, and debris on the surface of solar panels can block some sunlight. Regular cleaning helps solar panels efficiently convert solar energy to electricity.
  • Cover the portable power station when it is not in use. Store it in a clean and dry location, as dust and moisture may leak into the device and damage internal components.
  • Avoid overloading the portable power station by connecting multiple devices to it. It's worth checking the rated power output of the solar panel specified by the manufacturer before plugging in the appliances.
  • Use the portable solar power station frequently to keep the battery in good condition and prevent it from self-discharging.

Best Portable Solar Panels With Jackery

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Jackery SolarSaga Solar Panelscome with foldable handles, making them easy to carry wherever and whenever you go. With the highest efficiency in the industry, these solar panels convert more sunlight into usable electricity than other conventional panels.

Combining the solar panels with Jackery Explorer Portable Power Stations allows you to store the generated electricity in a lithium-ion battery and keep all your appliances charged. Made with monocrystalline solar cells, the three best Jackery SolarSaga Solar Panels help you make the most of solar power and ensure you can minimize your high electricity bills.

Below we compare the three best Jackery SolarSaga Solar Panels.


Compatible with

Conversion Efficiency

Input & Output Ports


Jackery SolarSaga 200W Solar Panel

Jackery Explorer 2000 Pro and 1000 Pro power stations.


It features fast charging capabilities and can power Jackery Explorer 2000 Pro Portable Power Station in just 2.5 hours.

The instant setup of solar panels ensures that you can quickly convert the sun's energy into clean electricity.

The IP67 rating and the ETFE-laminated case protect the panels, making them durable.

Jackery SolarSaga 100W Solar Panel

Jackery Explorer 240/500/1000 power station.


USB-A Output: 5V, 2.4A

USB-C Output: 5V, 3A

With a weight of only 10.33 lbs, the solar panels are pretty portable and the perfect companion for outdoor travel.

TPE rubber handle ensures easy setup and allows you to carry your power source easily.

IP65 water resistant and ETFE-laminated case makes it suitable for harsh weather conditions.

Jackery SolarSaga 80W Solar Panel

All the Jackery power stations.


IP68 waterproof and dustproof solar panels are designed for outdoor usage.

Low iron full toughened glass boosts the durability of the panel and extends its lifespan.

Extra-white glass and dual-sided panels increase the conversion rate.

Solar Panel Calculation FAQs

Below are a few frequently asked questions aboutsolar panel calculation.

How to reduce your energy consumption?

Saving energy can help you lower your electricity bills and reduce your carbon footprint. Here are a few ways to reduce power consumption:

  • Draught-proof windows and doors to ensure energy is not lost.
  • Turn off lights and other electrical appliances when you're not using them.
  • Be careful with your washing machine by using it on a 30-degree cycle instead of at higher temperatures.
  • Tumble dryer uses a lot of energy. Instead of using the appliance, try to dry clothes on racks.
  • Invest in a solar power generator and use free and renewable solar energy to charge devices.

How to calculate the payback time of a solar panel?

The simple formula for payback time solar panel calculation is as follows:

Solar payback period = Total investment ÷ savings per year.

Suppose you've invested $12,000 in the solar system and you save $1200 per year; the payback period will be $12000 ÷ $1200 = 10 years.

How to calculate energy production per PV module?

The simple formula to calculate energy production per PV module:

E = A × r × H × PR


E = Energy (kWh)

A = Total area of the solar panel (m2)

r = Solar panel yield (%)

H = Annual average solar radiation on panels

PR = Performance Ratio (default value = 0.75). And PR of Jackery Solar Panels can reach up to 0.85.

Note:This is a general calculation, and the values can vary depending on the brand of the solar panel.

How to make full use of Jackery solar panels?

Jackery SolarSaga Solar Panels are highly efficient and help convert solar energy into usable electricity. To make the most of your solar panels, combine them with Jackery Explorer Portable Power Stations. With Jackery Solar Generator, you can charge all your small and large appliances using the sun's energy.

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Final Thoughts

Solar panel calculationdoes not have to be daunting when you switch to solar energy. Simple measures can help you determine the size, cost, and efficiency of the solar power panels available on the market. If you are still confused about which solar panels to choose, consider the different Jackery SolarSaga Solar Panels models.

You can choose the right type of solar power panel depending on your power needs, budget, and preferences. Make sure to purchase Jackery Explorer Portable Power Station in addition to solar panels that can help you charge all your electrical appliances.

Before you go, sign up for the Jackery newsletter and get all the updates, exclusive deals, and promotional offers about the products.


How many solar panels can you hook up to a Jackery? ›

If you connect several panels you also need to make sure that the wire is thick enough to handle the amperage. For the new Explorer 1500 and 2000, I recommend two 12V 100W panels wired in parallel with the MC4 Y branch linked to above. If you have four panels, you can do two pairs and use both 8mm inputs.

How many solar panels for Jackery 1000? ›

The Jackery 1000 can be charged with up to 200W of solar power. You can use the portable Jackery Solar Saga solar panel, which provides 100W, or two panels can be combined to give the full 200W for faster recharge times.

What is the formula for calculating solar panels? ›

Suppose you live in an area that receives 4 hours of peak sunlight, and your panel has a 200-watt rating. In this case, the solar panel output will be: Daily watt hours = 4 × 200 × 0.85 = 680Wh. That means one solar panel with a 200-watt capacity can produce around 680 Wh, depending on its efficiency.

How do I calculate how many solar panels I need? ›

You can calculate how many solar panels you need by dividing your yearly electricity usage by your area's production ratio, and then dividing that number by the power output of your solar panels.

How long to charge jackery 1000 with solar panel? ›

The Explorer 1000 can be quickly fully recharged within 8 hours by connecting two SolarSaga 100W solar panels together with an adapter cable (package included).

Is Jackery 1000 enough? ›

The inverter on the Jackery is pure sine wave, and is capable of putting out 1000W continuous with a 2000W surge. This is plenty big enough to power most AC appliances you would need in a van (we run a Xantrex 1000W inverter in our van, and we've rarely needed more than that).

Can you use a 100W solar panel with a Jackery 240? ›

Jackery SolarSaga 100-watt Solar Panel is best known for its superior portability, foldable design, and rubber handle. You can combine it with Jackery Explorer 240/300/500/1000/1500 power station to build up your portable solar generator system.

Can you overload a Jackery? ›

And if you overload it, it has protection built in that turns it off immediately. Unlike the RavPower you can turn the AC socket back on again immediately and plug in something it is capable of powering.

How many solar panels do I need for 1000? ›

It gives us 20.83, or 21 panels when rounded up. This estimate indicates that we need 21 panels rated at 400 watts to gather enough energy to supply a home with 1000 kWh. That said, you may want to size up a bit more to account for rainy months, power lost to inverters, and other factors.

Is there a solar calculator? ›

We at the Guides Home Team created a solar panel cost calculator that estimates your system costs and provides a detailed look at what a move to renewable energy would look like for you. Get a customized estimate by entering details about your energy usage and house, including its size, layout and roof design.

How many solar panels do I need for 2000 kWh per month? ›

However, to give some examples, if the average 2,000-kWh-per-month household were looking to install high-wattage solar panels from 315 watts to 375 watts, they would need a 14.34-kilowatt system consisting of anywhere from 39 to 46 solar panels, depending on average daily sun hours2.

How many solar panels do I need for 1 kWh per day? ›

One standard solar panel produces about 1.24 kWh per day, and costs around 65 to 75 cents per watt. Solar panels from well-known manufacturers run as high as one to two dollars (or more) per watt.

How many solar panels is 1200 watts? ›

1200W Complete Solar System

6pcs 195W solar panels can generate about 1200WH in one hour by 2 series and 3 parallel.

How many kWh does a solar panel produce per day? ›

How much power does a solar panel produce in a day? Solar power from a single panel in a solar panel system typically produces about 2 kWh per day. However, the amount a single panel will produce depends on a wide variety of factors.

Can you connect multiple Jackery solar panels? ›

Jackery solar panel connector features one male and three female connectors. Using the connector, you can connect two or three Jackery SolarSaga Solar Panels in series to charge the portable power station.

Can you charge Jackery 500 with 2 solar panels? ›

Please note that the Explorer 500 and smaller models only have 1 input port and does not support the use of a parallel adapter. Using an extra solar panel will not expedite the recharge process.

Can you use any solar panels with a Jackery? ›

Jackery power stations can be charged with a third-party brand solar panel. You must match the plug size and input voltage of the Jackery Power Station you are trying to charge.

Can you hook up Jackery to solar panels? ›

Yes. You can store the power generated by solar panels in solar power stations. Jackery Explorer Portable Power Stations are compatible with Jackery SolarSaga Solar Panels. Connecting the portable power station with the solar panels helps you to store the energy for later use.

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