The Ultimate Van Life Solar & Battery Calculator (With Layout) - OneSDR

🚐 Dreaming of a life on the road? Whether you’re chasing sunsets, exploring remote trails, or just living off-grid, a solar setup in your van keeps your lights on, fridge cold, and devices charged — without relying on campsites or generators.

☀️ But how much solar do you really need?

Let’s break it down with a simple DIY solar calculator you can use to plan your perfect vanlife energy system!

Table of Contents

💡 Why You Need a Solar Calculator for Your Van

Every van build is different. Your power needs depend on:

How often you use lights, fans, and appliances
Whether you have a fridge, microwave, or heater
Your laptop, phone, and entertainment habits

A solar calculator helps you:

Right-size your solar panel setup
Avoid running out of power on the road
Save money by not overspending on batteries and panels

✅ Step 1: List Your Daily Energy Usage

Make a list of all the devices you plan to use in your van and their wattages.

Example list:

Device	Power (Watts)	Hours per Day	Watt-hours/day
LED Lights	20 W	5 hrs	100 Wh
12V Fridge	50 W avg	24 hrs	1200 Wh
Laptop	60 W	2 hrs	120 Wh
Phone Charging	10 W	3 hrs	30 Wh
MaxxFan Vent	30 W	6 hrs	180 Wh

Total Daily Usage = 100 + 1200 + 120 + 30 + 180 = 1630 Wh/day

The next two steps show you how to calculate the solar panel and battery strength.

✅ Step 2: Calculate Required Solar Panel Size

Assume about 4-5 hours of peak sunlight per day depending on your location.

Formula:

Solar Panel Size (Watts) = Total Daily Usage (Wh) ÷ Peak Sun Hours

Example:

Solar Panel Size = 1630 ÷ 4 = 407.5 Watts

📌 In this case, you’d want at least 400–450 W of solar panels.

✅ Step 3: Calculate Battery Bank Size

Next, calculate your battery storage needs.

Formula:

Battery Bank (Ah) = (Total Daily Usage ÷ System Voltage) ÷ Depth of Discharge (DoD)

Assume:

System Voltage = 12V
Safe Depth of Discharge = 80% for lithium batteries (0.8)

Example:

Battery Bank = (1630 ÷ 12) ÷ 0.8 ≈ 170 Ah

✅ So you’d need about 170 amp-hours at 12V — a 200Ah lithium battery would be perfect.

Use the calculators below to

Calculate daily usage. (Click + Device to start adding appliances to the list)
Solar panel battery bank and design

⚡ Daily Energy Usage Calculator

Device	Wattage (W)	Hours/Day	Wh/Day

Total Daily Energy Usage: 0.00 Wh

📌 A practical requirement is to enter a System Loss factor that represents the inefficiencies that naturally occur in a solar power system. It’s the percentage of energy that is lost and not usable when converting sunlight into electricity.

Typical System Loss Factors are:

25% or more if conditions are tough (lots of shading, older equipment, extreme heat)
10% – 15% for very well-designed, premium systems
20% is commonly assumed for average real-world conditions

⚙️ Solar Panel Layout + Battery Bank Calculator

Roof Dimensions

Roof Width (meters):
Roof Length (meters):

Solar Panel Selection

Panel Type:

Energy Usage

Daily Energy Usage (Wh):
Peak Sun Hours (per day):
System Loss Factor (%):

Battery Settings

System Voltage (V):
Depth of Discharge (DoD %):

Total Panels That Fit: —

Total Solar Power: —

Required Solar Power (for daily use): —

Suggested Battery Bank Size: —

🛠️ Bonus Tips for Van Solar Success

Add 20–30% margin for cloudy days
Use a MPPT charge controller for maximum efficiency
Secure panels with aerodynamic mounts to reduce drag
Consider a DC-DC charger for alternator charging backup

🔁 Related Posts

Solar Battery Bank Calculator
What is Depth of Discharge?