Solar Power: How Much Do You Need for Fulltime Van Life

As technology becomes affordable than ever, many RV solar power companies offer great options for van-lifers. Thus, many would opt to power their vans with solar, not only because it’s budget-friendly but also because it requires fewer entry barriers. But do you know how much solar power you need for a fulltime van life? 

If you intend to add solar power to your van, or you want to know how much do you need for fulltime van life, then you’re in luck. In this article, you will know the components that will make up the solar setup and find answers to your questions. Of course, it highlights more on how much solar power you need to make your van life experience worth it and unforgettable. 

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Solar Power for RV or Van Living

Having off-grid power or electricity when RV or van living is one of the essentials and luxuries that would keep you sufficient when you travel. With this, you will never worry about low-battery notifications and charging your gadgets in the middle of the road. You will not plug your devices in an overcrowded place just to sustain the power. 

Solar powers work when the sun’s rays hit your solar panel. It converts energy into electricity, so you may use the appliances and power up your gadgets inside the RV. 

That being said, you have the freedom to your van wherever you want and plug the device you need. As to the cost, know that solar power keeps dropping, allowing more and more consumers the freedom to enjoy solar electricity. 

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Got more RV inquiry? Visit the Bayside RV for more tips at www.baysiderv.com. 

Fulltime Van Life Solar Power Considerations  

• In every base package of the van, there must be a 200ah AGM battery, along with a 160-watt solar panel. 
• There should also be a smart isolator to power up or charge the 200ah battery while getting direct from your van’s alternator. 
• Using the equation: 160 watts/ 12 volts, this simply means that you’re going to get 13.33 amps every hour to keep your battery charged. 
• There is probably about 4 hours of sunlight during winter compared to summer, which takes 6 hours or more. If that’s the case, charged controllers could only operate at about 70% efficiency. If you solve it, 13.33 amps x 70% equates to 9 amps. During the winter season, you will only get 36 amps (9 amps x 4 hours) each day.

“Not how long, but how well you have lived is the main thing”