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Solar Panel System Designer —
Complete Solution for Every Need

Whether you are a homeowner planning rooftop solar, an installer sizing a system, or an engineer designing an off-grid setup — this AI-powered calculator covers everything from panel count and inverter sizing to financial ROI, government subsidies, and 25-year savings projections. Just fill in your details and get a complete professional design report instantly.

🔌 On-Grid / Off-Grid / Hybrid 🏛️ PM Surya Ghar Subsidy 💰 Payback & ROI Analysis 🔋 Battery Sizing 📐 Roof Area Check
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For Home Owners Enter your monthly bill and location — get system size, cost, and savings instantly
For Installers Full appliance load profile, string design, inverter sizing, and cable calculations
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For Engineers Advanced parameters — tilt angle, temperature derating, MPPT, performance ratio
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Financial Analysis Subsidy calculation, net metering, payback period, and 25-year savings projection

☀️ Solar Panel System Designer

Professional-grade AI calculator covering all aspects of solar system design — for designers, installers, and customers. Get complete system sizing, financial analysis, and step-by-step working instantly.

🔌 On-Grid / Off-Grid / Hybrid 🔋 Battery Sizing 💰 ROI & Payback 🏛️ India Subsidies ⚡ Inverter Sizing 📐 Roof Area
🏠 Location & Energy Details
Used to estimate peak sun hours for your region
From your electricity bill — used to estimate consumption
From your electricity bill (if known)
Your current electricity rate per unit
⚙️ System Preferences
Approximate shadow-free area available
🔋 Battery / Backup Requirements
How many hours of power backup do you need?
Total watts of appliances needed during power cut
🏛️ Subsidy & Policy
⚡ Appliance Load Calculator — Build Your Energy Profile

Add all your appliances to calculate exact daily energy consumption. This gives the most accurate system sizing.

Appliance Qty Watts (W) Hours/Day Wh/Day
480
2400
3600
500
12000
Total Daily Energy 18,980 Wh
💡 Common wattages: LED bulb=10W, Fan=75W, Fridge=150W, TV=100W, AC 1T=1000W, AC 1.5T=1500W, Washing Machine=500W, Motor Pump=750W, Computer=200W, Microwave=1200W
💰 Financial Analysis Inputs
From your basic sizing result or your own estimate
Typical range: ₹55,000–₹75,000 per kW in India (2025)
Historically 4-7% per year in India
Check your state DISCOM for additional subsidies
Rate at which your DISCOM buys excess units from you
Typical: 0.5–0.7% per year for quality panels
🔧 Advanced System Design Parameters
India ranges: 4.5–6.5 hrs. Mumbai≈5.5, Delhi≈5.0, Rajasthan≈6.5, Northeast≈4.0
Accounts for inverter loss, wiring loss, temperature, soiling. Typical: 75-85%
Optimal tilt ≈ latitude of location. Flat roof: 10-15° recommended
From panel datasheet. Typical monocrystalline: -0.30 to -0.40%/°C
Used to calculate temperature derating of panel output
Leave blank for AI to suggest optimal string design
Distance from panels to inverter + inverter to main board
🧠 Ask the Solar AI Anything

Have a specific question? Describe your solar project in plain English and get expert AI guidance instantly.

AI is designing your solar system...

Solar System Design Report

📋 Complete System Design & Calculations
☀️ AI Solar System Designer  |  efficiencyeval.com  |  Powered by Claude AI  |  For detailed site assessment consult a certified solar installer
❓ Frequently Asked Questions

Solar Panel System — Common Questions

Everything you need to know before designing or installing your solar system.

The typical cost in India ranges from ₹55,000 to ₹75,000 per kW for quality on-grid systems including installation. A 3 kW system costs approximately ₹1.65 to ₹2.25 lakhs before subsidy. Under the PM Surya Ghar Muft Bijli Yojana, residential customers get a central government subsidy of ₹30,000 for 1 kW, ₹60,000 for 2 kW, and ₹78,000 for 3 kW and above systems, significantly reducing the net cost.

For a typical residential on-grid system in India, the payback period is 4 to 7 years after subsidy. Key factors affecting payback include:

  • Your current electricity tariff — higher tariff means faster payback
  • System size and quality of panels used
  • Available sunlight hours at your location
  • Net metering availability in your area
After payback, the system generates free electricity for 18 to 20 more years, making total 25-year savings typically ₹5 to ₹15 lakhs for a 3–5 kW system.

  • On-Grid: Connected to the electricity grid. No battery. Excess power exported to grid via net metering. Lowest cost. Does not work during power cuts.
  • Off-Grid: Not connected to grid. Requires battery bank. Works independently. Higher cost due to batteries. Ideal for remote locations.
  • Hybrid: Connected to grid AND has battery backup. Works during power cuts. Best of both worlds but higher cost. Recommended where power cuts are frequent.

As a general rule, each 1 kW of solar capacity requires approximately 80 to 100 sq ft of shadow-free roof area for standard 440W panels. So:

  • 3 kW system — approximately 240 to 300 sq ft
  • 5 kW system — approximately 400 to 500 sq ft
  • 10 kW system — approximately 800 to 1,000 sq ft
Flat RCC terraces are ideal. Our calculator checks roof area against your required system size automatically.

PM Surya Ghar is the Indian Government's flagship solar subsidy scheme launched in 2024. It provides:

  • 1 kW system: ₹30,000 subsidy
  • 2 kW system: ₹60,000 subsidy
  • 3 kW and above: ₹78,000 subsidy (maximum)
To apply, visit pmsuryagrih.pmgov.in, register with your electricity consumer number, select an empanelled vendor, and apply online. The subsidy is credited directly to your bank account after installation and inspection.

Net metering allows you to export excess solar power to the grid and earn credits on your electricity bill. During daytime when your panels produce more than you consume, the surplus units are sent to the grid. At night when you draw from the grid, those exported units offset your consumption. Most DISCOMs in India offer net metering at ₹2.50 to ₹4.50 per unit exported. This significantly improves your financial returns and reduces payback period.

This calculator is powered by Claude AI by Anthropic and uses established solar engineering formulas including peak sun hours, performance ratio, temperature derating, and string voltage calculations. Results are highly accurate for planning and budgeting purposes. However, for final installation design, always get a site assessment by a certified solar installer who will evaluate your specific roof structure, shading profile, and local DISCOM requirements before final system design.

Quality solar panels come with a 25-year performance warranty and typically last 30 years or more. Panel output degrades by approximately 0.5 to 0.7% per year — so after 25 years a panel rated at 440W will still produce around 360W. Maintenance is minimal:

  • Clean panels with water every 2 to 4 weeks to remove dust
  • Annual inspection of wiring and mounting structure
  • Inverter typically lasts 10 to 15 years and may need replacement once
  • Lithium batteries last 10 to 15 years, lead acid 5 to 7 years

Ready to design your solar system? Free, instant, no login — results in seconds.
☀️ AI Solar System Designer  |  efficiencyeval.com  |  For site-specific design consult a certified solar installer