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Updated 2026 · By ToolFern

Solar Output Calculator

Estimate how much energy your solar system produces. Enter your system size in kW (or the number of panels and their wattage), set your local peak sun hours and expected losses, and see daily, monthly and yearly kWh production update instantly in your browser.

4-6 is typical for most regions
Heat, wiring, inverter, dust
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Daily production
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Monthly production
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Yearly production

Output uses a performance ratio for real-world losses (heat, wiring, inverter and dust). Actual production depends on roof angle, shading, orientation and weather. This is a planning estimate, not a guarantee.

How to use this solar output calculator

  1. System size, enter your array size in kilowatts (kW). Or tick the box to enter the number of panels and the panel wattage instead, and the size is worked out for you.
  2. Peak sun hours, type your local daily average. Most places sit between 4 and 6.
  3. System losses, leave this near 20% unless you have a specific figure for your install.
  4. Read your daily, monthly and yearly production. They update as you type.

Nothing is submitted or stored: the numbers stay on your device, so you can model different system sizes privately.

How solar production is calculated

Solar output starts from a simple formula:daily kWh = system size (kW) × peak sun hours × performance ratio. When you enter panels instead of a kW figure, the system size is justpanels × panel wattage ÷ 1000. So fifteen 400 W panels make a 6 kW array.

Peak sun hours are not the same as daylight hours. They count the hours where sunlight averages 1,000 watts per square metre, the condition panels are rated against. Most regions average 4 to 6 peak sun hours a day across the year, with sunnier climates near the top of that band and cloudier ones near the bottom.

The performance ratio is where reality meets the spec sheet. Panels rarely deliver their full rated power, so we apply a ratio of about 0.8 (roughly 20% losses) to cover heat, wiring resistance, inverter conversion, dust and minor shading. That ratio is just 1 minus your losses percentage, which is why a higher losses figure lowers your estimated output. Monthly production is the daily figure times 30.4 (the average days in a month) and yearly is the daily figure times 365.

Treat the result as an estimate

This calculator gives a realistic planning figure, not a guaranteed yield. Actual output shifts with roof angle and orientation, seasonal sun, temperature, shading from trees or chimneys, snow cover and the slow degradation of panels over their lifetime. A south-facing, unshaded array will beat one that faces east and catches afternoon shade, even at the same kW rating. Use this number to compare system sizes and set expectations, then confirm with a local installer who can model your exact roof.

Frequently asked questions

How do I calculate solar panel output?

Multiply system size in kW by peak sun hours per day, then by a performance ratio. A 6 kW system at 5 peak sun hours and 20% losses makes about 6 × 5 × 0.8 = 24 kWh per day.

What are peak sun hours?

The hours per day when sunlight averages 1,000 W/m². Most regions see 4 to 6, so use a number near 6 in a sunny climate and nearer 4 in a cloudier one.

Why is the performance ratio about 0.8?

Around 15 to 25% of rated power is lost to heat, wiring, inverter conversion, dust and shading. A ratio of roughly 0.8 reflects a typical well-installed system.

How much does a 6 kW system make per year?

At 5 peak sun hours and 20% losses, about 24 kWh a day, roughly 730 kWh a month and around 8,760 kWh a year, depending on your local conditions.

Is my data uploaded?

No, everything is calculated on your device and nothing is sent anywhere.