This post explains the different ways of wiring multiple solar panels together, providing the information you need to decide how best to configure your camper solar setup.

It starts simple, with diagrams for the different wiring configurations, and explains how each affects the components needed.

We’ll then delve into the complexities of mixed solar panels (avoid doing this if possible).

We’ve included an interactive series vs parallel calculator so you can decide the best configuration for your solar array.

We’ve made our own mistakes when setting up our campervan solar system.

This post will help you avoid these to get the best performance from your solar setup from the outset.

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This post is part of our series on campervan electrical components.

If you’re new to electrics or van builds, look at our starter guide to campervan electrics first.

## Solar Panel Wiring | Series vs Parallel Calculator

Depending on the number of panels and sizes, there could be many different configuration options for your set up.

This calculator allows you to enter up to three different panel specs and as many of those panels as you choose.

Enter the details, and we’ll calculate the total power output, voltage and current they could produce when wired:

- in series
- in parallel
- and in a combination, with each panel spec wired in series, then all series group wired together in parallel,
- and in a combination, with each panel spec wired in parallel, then all parallel groups wired together in series.

It’s important only to enter each spec on one line or your calculations will be skewed.

Aim to choose a configuration that balances the least loss of total power output and a high enough voltage to charge the batteries all day. Calculations are rounded.

The aim is to get the best combination of watts (power out) and voltage.

Suppose you’d prefer to wire your mix of panels without losses. In that case, you’ll need to wire each panel variant with a dedicated solar charge controller.

We’d need an MPPT controller to handle the string of 95w panels and another for the 130w panel with our setup.

It becomes an expensive pastime, so best to install matching products wherever possible.

Use our other electrical calculators to help size your camper van electrical system.

**Ways of Wiring Multiple Solar Panels**

There are three different ways of wiring multiple solar panels on your DIY campervan conversion:

- In series
- In parallel
- A combination of series & parallel

We’ll take a look at each of these in turn before we make a comparison.

### Solar Panels Wired in Series

Each solar panel has a positive and a negative terminal. A series connection is created when one panel’s positive terminal is connected to the negative terminal of another.

When solar panels are wired in series, the array’s voltage is added together while the current (or amps) stays the same.

In the diagram above, 4 x 100w panels, each with a rated voltage of 17.9 and current of 5.72A, wired in series could produce 71.6 volts and 5.72 amps – a total of 409 watts.

Note, solar panels’ wattage is rated under standard test conditions. These 100w panels will provide 100w then but a little more in colder temperatures.

### Solar Panels Wired in Parallel

A parallel connection is created when the positive terminal of one panel is connected to the positive terminal of another, and the negative terminals are connected to each other.

The connections are made with branch connectors.

When solar panels are wired in parallel, the array’s voltage stays the same while the current (or amps) are added together.

In the diagram above, 4 x 100w panels, each with a rated voltage of 17.9 and current of 5.72A, wired in parallel could produce 17.9 volts and 22.8 amps – a total of 409 watts.

### Solar Panels Wired in a Combination of Series and Parallel

There are no surprises for figuring out what wiring solar panels in a combination of series and parallel means.

Taking the same 4 x 100 watt panels, you’d wire a pair in one string (i.e. in series), the 2nd pair in another string, then wire the two strings in parallel.

When solar panels are wired in a combination of series and parallel, the voltage in each string is added together while the current (or amps) stays the same.

Then, the two strings’ voltage stays the same while the current (or amps) are added together.

In the diagram above, 4 x 100w panels, each with a rated voltage of 17.9 and current of 5.72A:

- The 1st pair of panels wired in series could produce 35.8 volts and 5.72 amps
- The 2nd pair of panels wired in series could produce 35.8 volts and 5.72 amps
- These two strings wired in parallel could produce 35.8 volts and 11.44 amps – a total of 409 watts.

When the solar panels in the array are all the same, the power output is the same regardless of how they are wired (at least mathematically), but the current and voltage differ.

It’s important when it comes to selecting a solar charge controller for your RV or campervan.

But there are two caveats to all of this.

- Firstly, the calculations only hold when all the solar panels in the array are the same.
- Secondly, the power output calculations are based on optimal operating conditions.

The following sections look at each of these in turn.

## Mixing Solar Panels & How Best to Wire Them

In an ideal world, your camper solar setup will consist of a set of identical solar panels.

They’ll all be the same brand, type, and wattage, so operating currents and voltages will all be the same.

But we don’t live in an ideal world.

Perhaps you have a few mismatched solar panels to kick off a budget solar setup.

What if you’re on the road, living in your van full-time, and need to replace an existing solar panel or want to add another to your setup but can’t source the same panels?

Can you add a different panel?

Yes, you can but determining how best to configure the system isn’t as straightforward.

### The Maths

The calculations explained above for series, parallel, and series and parallel combinations still hold.

When wired in series, the lowest amp rating of all the panels is used in the calculation.

When wired in parallel, the lowest voltage is used.

When a solar array uses a mix of panels with different ratings, the power output is no longer the same across all configurations.

Let’s take an example, which happens to be an identical setup to that on Baloo, our Sprinter van conversion:

We have 2 x 95w panels, each rated at 4.5A and 21.1 volts, and a 130w panel rated at 7.5A and 17.3 volts.

**Wired in series**, we add the volts together and use the lowest current rating. So we get 21.1v + 21.1v + 17.3v = 59.5v at 4.5A.

We can get a total of 267.75 watts from our 320 watt panels – a loss of over 16%.

**Wired in parallel**, we add the amps together and use the lowest voltage rating. So we get 4.5A + 4.5A + 7.5A = 16.5A at 17.3v.

We can get a total of 285.45 watts from our 320 watt panels – a loss of over 11%.

**Or we can wire them in a combination of series and parallel**. We’ll wire the 95 watt panels in one string because they are identical and keep the 130 watt panel in a string.

- The 95w panel string could produce 42.2 volts and 4.5 amps
- The 130w panel string could produce 17.3 volts and 7.5 amps
- Combined, these two strings wired in parallel could produce 17.3 volts and 12 amps – a total of 207 watts, a loss of 35%.

## Which is Best? Series, Parallel, or a Combination?

The calculator will give you a good idea of the total power output, current, and voltage you might expect from each wiring configuration.

But keep reading. The decision isn’t black and white.

While the calculated results are interesting and useful for sizing your solar charge controller, don’t wire your solar panels based on the minimum power loss.

The calculations are all based on the optimal operating conditions for the given solar panels.

In reality, though, those conditions may not be met all the time.

### Series v Parallel in Shade

The sun’s height in the sky affects the energy produced, varying throughout the day and the year.

Cloud and shade fall on the solar panels. It may not be much of an issue for solar farms in wide-open fields, but it is on an RV or campervan.

Parking under a tree or in a building’s shadow varies power output from the panels, depending on how they’re wired.

When shade hits any part of a solar array wired in parallel, the power output from that panel reduces significantly. BUT, any other panels in the configuration are unaffected.

Conversely, when shade hits any part of a solar array wired in series, the power output from that panel reduces a lot. AND every other panel in the configuration is dragged down with it.

### Battery Charging Affect

With a parallel wiring configuration handling mixed panels and coping with a partial shade better, you might think this is the best approach for a campervan solar setup.

But first, we need to consider the other components in the solar setup, specifically the batteries.

We have a detailed post on campervan batteries for the full detail. The critical point is a 12v battery needs at least 12.6v to charge (or thereabouts).

So consider all the calculations we’ve used above and your own too.

The voltage produced by solar panels in a parallel configuration is low – around 17 – 22v, depending on the panels. And this is when environmental conditions meet the optimal operating conditions of the panels.

Anything less, and the voltage will fall.

Let’s take a look at some numbers to prove the point:

4 x 100w panels, each with a rated voltage of 17.9, could produce 17.9 volts when wired in parallel.

The same panels wired in series could produce 71.6 volts.

Both scenarios produce enough volts to charge the battery bank when conditions are good.

But when wired in parallel, the panels must perform at least 70%. Anything less, the volts will fall below 12.6v needed to charge the battery bank, rendering them next to useless.

When wired in series, performance would need to fall to around 18% before they stop charging the batteries.

### Automatically Create Your Bespoke Campervan Wiring Diagram

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### So What’s Best?

We had our mixed panels wired in parallel for a long time.

Why wouldn’t we? Parallel wiring handles the mixed panels far better than in series, and we wouldn’t suffer as much loss when we parked in the shade.

And then we sat around a campfire with some fellow overlanders and discussed it all at length.

Convinced we might have it wrong, we spent 5 minutes the next morning changing the setup from parallel to series.

We’ve not needed hookup since!

The last six months, we’ve been in Patagonia, throughout the southern hemisphere winter and not driven anywhere – there’s a global issue preventing us from travelling.

We’re not hooked up; our mixed 320w panels are now wired in series with an MPPT controller, and with careful management, we’re doing much, much better.

Why?

Though we suffer slightly more losses during the optimum operating conditions, we produce a high enough voltage to charge the batteries from dawn to dusk.

So, we charge our batteries for longer.

Result!

## Our Recommendations

- Wire your camper solar setup in series.
- Wherever possible, use the same solar panels throughout the entire array.
- If you must use a mix of panels, try to make them as close to each other’s specs as possible. Avoid putting a 50w 3A 18v panel with a 200w 9A, 21v panel.
- If you have mixed panels, configure them to maximise the current by wiring appropriate pairs in series.
- Pay special attention to anything on your roof that could cast a shadow on your panels, including aerials, satellite dished, and vents.
- Avoid parking in the shade to maximise performance.
- Clean solar panels regularly.
- Remove any broken or damaged panels for the series, so the rest of the panels aren’t affected.
- Use an MPPT controller when wiring in series so you can handle the higher system voltage.

Don’t forget. This post is just one part of our DIY camper solar setup series. Check it out for more information & guides.

### Download Chapter 1 of the Campervan Electrics Handbook FREE!

And if you love it so much you want to buy the full version, we’ll send you a 10% discount code too!

**Like it? Pin it!**

JB

Monday 11th of October 2021

Useful and clear article but I don’t think the calculator is working properly.

I put in a 120W panel (17.5V, 6.98A) and 2 60W panels (17.5V, 3.49A). The calculator gives different answers for mixed configuration of series and parallel depending on how you enter the 60W panel details into the calculator.

Putting the 60W panels in once with a quantity of 2 gives 17.5V, 10A, 175W and 28% loss.

Entering the 60W panels twice each with a quantity of 1 gives 17.5V, 14A, 245W and 0% loss.

If you put any of the panels in series the voltage has to be at least 35V.

I believe the answer should be, you put the 2 60W panels in parallel to get 17.5V, 6.98A and then put the 120W in series with them giving, 35V, 6.98A and power of 241.5W.

Angela and Graham

Monday 11th of October 2021

Hi Jeremy. Let me start by thanking you for your feedback. We've spent a few hours going through your comment and the calculator and finally figured out where the confusion has come from. The calculator was set up to work out the total power when each panel spec is wired in a dedicated (series) string, then each of those strings wired together in parallel.

So, your first point regarding the different calculation results when you enter the same panel spec but on 2 different rows is because the calculator assumes these would each be in their own series. Entering the exact same panel on 2 different rows basically had you calculate for a parallel configuration. I've further stressed the importance to the calculator of using only one line per spec.

That said, you were also right in that wiring the 2 small panels in parallel then in series to the larger panel would give you a better outcome as a mixed config compared to putting the 2 in series then in parallel to the larger panel. The total is about the same as wiring them all in parallel. However, we felt the post wasn't clear on that point so spent a few hours updating the calculator to output the 2 different types of mixed configuration.

Now the calculator works out the power for all in series, all in parallel, each spec type in series then all those wired in parallel and finally, each spec type in parallel then all those wired in series.

There's a bit rounding going on within the calculation but that's all much of a muchness.

The main point to take from this is that mixed configs can give as about as much power as parallel in lab conditions - the remainder of the info in the post about real world use should then help further inform your installation decision.

Thanks again for your feedback and I hope this has fully addressed your point.

ROY V BERTALOTTO

Wednesday 22nd of September 2021

Has anyone designed a simple switch to switch the panels back and forth from Parallel to Series as the conditions warrant?

allen

Friday 23rd of July 2021

i have 5 100 watt panels in parallel my mppt only shows at the most in full sun 18v 7 amps why does it only show that

Angela and Graham

Wednesday 28th of July 2021

Hi Allen. Mmm this doesn't seem right. You should be kicking out a lot more than that. It sounds as though maybe only 1 panel is connected. Are they rigid panels? Check they have a good air gap below them. Disconnect them all then test each one individually with a multimeter. As you reconnect each panel (in parallel) in turn, check the MPPT readings are increasing in line with expectations. Check this as you reconnect every panel to try to find the problem. Let us know how you get on.

Corlius Jooste

Tuesday 22nd of June 2021

Great relevant article!

Do you know what the effect is if two panels are in parallel and: 1)one is fixed at 30 degrees on the roof (Land Rover Series), then another is removable and lies flat. 2) If I remove the one panel and aim it optimally on the ground, while the fixed one is still at an angle.

Would the differing amps just be a simple addition calculation? or something more complex?

Angela and Graham

Wednesday 23rd of June 2021

Hi Corlius Any panel directed towards the sun will perform better than if it were flat. If you wired in series, the improved performance of one panel would be dragged down by the other panel. That's not the case when wired in parallel. So the upshot is, if you plan to have 2 panels mounted differently from each other, you get a better result when wired in parallel. But, it's still worth testing that out over the course of an entire day. With more hours charging, even at a lower rate, you may end up better off in series. Hope that helps answer the questions - I can't be precise about angle of mount because of the location of the sun in the sky during the day, year round and your location. Regards Graham

David Kirkcaldy

Monday 14th of June 2021

Hi,

I am a newbie to all this so really hope you can help as been looking for answers everywhere. I have 2x 100w panels and am going to buy a Victron smart solar charge controller 100/20 and i have 110ah leisure battery which is already getting charge by main motorhome battery. what i wanted to know is i was going to use 4mm2 cable from panels to controller but wanted to put a fuse between them so what size fuse do i need? also going to do the same from controller to leisure battery but have 6mm2 cable so what size fuse for that cable? One more thing would the charge controller charge the main motorhome battery as well as the leisure battery? Thanks Dave

Angela and Graham

Monday 14th of June 2021

Hi David, Solar panel cable is a standard 10AWG/6mm² so it's probably best to stick to that size. The 2 100w panels will give around 8a if wired in series, 16 if wired in parallel. Therefore the fuse should be 10a for a series configuration and 20a for a parallel setup.The charge controller will only output 20a (that's what the spec says) so you need a 20a fuse between the controller and the battery bank.If you have a dual sensing VSR or B2B, then the starter battery will get a top up from the charge controller once the leisure batteries are full. I hope this helps and I recommend getting a copy fo the Campervan Electrics Handbook to help build your knowledge.RegardsAngela