When you’re planning a solar energy system, the first question is usually the biggest: How many solar panels do I actually need? The answer is simpler than it looks. With five inputs and one easy formula, you can right-size your array—whether you’re grid-tied, planning whole-home backup, or building an off-grid system with SunGoldPower.

The Five Inputs That Determine Panel Count

1. Daily energy use (kWh/day). Use recent utility bills or a load list for off-grid.

2. Peak sun hours (PSH). This is the average number of “full sun” hours per day in your location.

3. System losses (performance factor). Wiring, temperature, inverter and dust can reduce output; planning for ~20% losses is common.

4. Panel wattage. Modern modules typically range from 200W to 560W—SunGoldPower offers options across that spectrum.

5. Future growth. If you expect an EV, heat pump, or home office expansion, add a cushion now.

 

 

The 5-Step Sizing Formula (Keep This Handy)

Panels needed =

Daily kWh×1.20(Panel Wattage1000)×Peak Sun Hours\frac{\text{Daily kWh} \times 1{.}20}{\left(\frac{\text{Panel Wattage}}{1000}\right) \times \text{Peak Sun Hours}}(1000Panel Wattage​)×Peak Sun HoursDaily kWh×1.20​

• The 1.20 factor pre-loads typical system losses (≈20%).

• Multiply panel wattage by sun hours to estimate daily kWh per panel, then divide your adjusted daily need by that value.

Example A: Whole-home, grid-tied

• Daily use: 30 kWh

• PSH: 5

• Panel: 415W

• Panels = 30×1.20.415×5=362.075≈17.4\frac{30 \times 1.2}{0.415 \times 5} = \frac{36}{2.075} \approx 17.40.415×530×1.2​=2.07536​≈17.4 → 18 panels

Example B: Efficient cabin or partial-offset

• Daily use: 10 kWh

• PSH: 5

• Panel: 415W

• Panels = 10×1.20.415×5=122.075≈5.8\frac{10 \times 1.2}{0.415 \times 5} = \frac{12}{2.075} \approx 5.80.415×510×1.2​=2.07512​≈5.8 → 6 panels

Tip: If your PSH is closer to 4, you’ll need more panels; if it’s 6, fewer.

Choosing Panel Wattage with SunGoldPower

Panel wattage changes the math immediately.

• 200–400W modules: great for RV/marine, tight roofs, and incremental upgrades.

• 415–560W modules: ideal for residential roofs and ground mounts where you want more output per panel and fewer mounting points.
  Pair higher-wattage panels with SunGoldPower split-phase inverter/chargers (120/240V) and 48V LiFePO4 batteries to support demanding loads like AC, well pumps, tools, or a home office.

Grid-Tied vs Off-Grid: What Changes?

• Grid-tied: You’re covering daytime usage and offsetting bills; the grid handles overnight. The formula above is perfect for a quick sizing pass.

• Off-grid / backup-first: Size for both daily energy and peak loads. Panels recharge batteries; batteries handle night and weather. Many SunGoldPower systems use 48V storage plus a 12kW+ split-phase inverter to run 120/240V appliances. If you’ll add batteries later, leave roof space or plan a ground mount for expansion.

Common Sizing Mistakes to Avoid

• Ignoring PSH. Use realistic local sun hours, not best-case.

• No loss factor. Skipping losses leads to undersized arrays.

• Overlooking shade. Even small chimneys or trees can cut production—design stringing and module placement accordingly.

• Zero expansion room. If you’re adding an EV or workshop, plan mounts and electrical for more panels now.

• Mismatch with BOS. Make sure your inverter, charge controller, wiring, and racking all align with string voltage/current and future scale.

Your Next Step with SunGoldPower

1. List your daily loads (or pull kWh/day from your bill).

2. Check your local peak sun hours.

3. Pick a panel class (e.g., 415–560W for residential).

4. Run the formula and round up to the nearest whole panel.

5. Match the array with a SunGoldPower inverter/charger and 48V LiFePO4 storage if you need backup or off-grid capability.

Bottom line: A right-sized array powers your life today and leaves room for tomorrow. With the simple formula above and modular components from SunGoldPower, you can build a solar energy system that’s efficient, expandable, and tailored to your goals.