##### Updated 2020

## Connecting Caravan Batteries

Connecting caravan batteries is often misunderstood. This article explains what’s possible, and why and how to do it successfully.

A typical caravan has an ongoing need for *energy*. And an occasional need for (high)* power.*Â Knowing the difference between energy and power truly assists.

**Energy** is the *ability* to perform work. It was originally estimated that a brewery horse couldÂ typically lift 33,000 pounds one foot in one minute. That amount of energy was thus called one horsepower. Â This now mostly expressed in watts. (About 750 watts is one horsepower).

**Power** is the* rate* at which energy is used to perform work. If that 750 watts is drawn for one hour, it’s expressed as 750 watt hours.

That brewery horse’s one-minute lifting is equalled, in a few hours, by a child. Â Horse and child exert equal *energy.* But the horse needs far more *power.*

Battery usage is similar. A starter battery is thus horse-like. It can exert high power. Starting a car engine however takes only two/three seconds. The *energy* expended is tiny. It’s about that used by a 12 watt LED in ten minutes.

A deep cycle battery, contrarily, is akin to a marathon runner. Less ‘power’ but energy can be expended far longer.

### Connecting caravan batteries – ensuring enough energy and power

As explained above – most RV batteries have two main (but different) requirements.

1.Â Enough* power* to cope with high peak loads.

2. Enough *energy* to cope whilst away from 230 volts etc.

This can be addressed in two main (but different) ways.

### Different batteries – different characteristics

Increasing battery capacity increases available power. And, virtually by definition, more energy. There are, however, downsides. You must, for example, have the ability to recharge them. That charging must be both deep and fast.

Lead acid deep cycle batteries are heavy. Twelve volt versions weigh about 25 kg/100 amp hour. Their life is greatly reduced by frequent deep discharging.Their plus side is (relatively) low price. Plus ready availability.

AGM batteries are a compromise. They are physically rugged – thus suited to off-road use. AGMs can supply higher power than conventional batteries. They maintain charge far longer (12 months plus in cool climates). AGMs, however, are even heavier than conventional batteries. Discharge needs limiting to about 50%. If exceeded, their life is thereby curtailed. And they cost a lot more. (Gel cell batteries are similar – but less often used.)

Any 12 volt LiFePO4 battery above 18 amp hour supplies RVs peak power with ease. The energy capacity needed, however. is slightly less. This is because they can be routinely discharged to 10%-20% remaining. Another benefit is that (in RV use) they rarely drop below about 12.9 volts. They are about 35% of the weight and bulk. On the downside they cost far more. They must also have effective individual cell management. Buy only from vendors who truly understand them. These are, however, rare.

In practice, a 300 plus amp hour AGM will provide the peak power required for any RV. It also has ample energy capacity. AGM batteries are thus a good choice if space and weight permits

**Connecting caravan batteriesÂ **

To ease handling, (or obtain higher voltage, or higher current) batteries can be connected together. There are two main ways of doing so.

**Series:** consecutively positive to negative. Total battery voltage is the sum of each individual battery voltage. Total current is that of the battery that produces the least current. For example, were all batteries 100 amp hour, but oneÂ 50 amp hour, the total output would be 50 amp hour.

**Parallel:** positive to positive, and negative to negative.

Here, all batteries must be the same voltage, but can be of widely different *capacity*. The available current and capacity is the sum of each individual’s current and capacity.

When connecting caravan batteries in parallel, it is, for example, just fine to parallel a 12 volt 10 amp hour battery across a 12 volt 500 amp hour battery bank. The result is a 12 volt 510 amp hour battery bank.

###### This battery bank (at the authorâ€™s previous all-solar powered property outside Broome, WA) had 16 batteries, each 12 volts and 235 amp hour.Â Each level has four such batteries in series. All four rows are parallel connected.The output is thus 48 volts and 950 amp hour. That’sÂ 45,120 watt hours (45.12 kW/h).Â Â Pic:Â solarbooks.com.au

### Parallel connecting batteries is safe

Contrary to common belief, this is safe. Like good socialists each (battery) will thus take according to its need, and supply according to its capacity. SeeÂ Interconnecting batteries in series or parallelÂ re advised limits.

To increase both voltage *and* current, you parallel *identical* strings of series connected batteries. Here, the voltage is that of any one string. The amp hour capacity is the sum of all the batteries’ capacity. Doing so, furthermore, is* routine* in large solar systems. They are typically 48 volts upwards.

Connecting batteries in series (end-to-end) thus increases total *voltage.Â *Connecting batteries in parallel increases total *current.*

In every case their total *energy*Â (i.e. watt hours) is the sum of each battery’s energy so connected.

There is no magic way of increasing it.*Â *

**Connecting caravan batteries – 6 volts or 12 volts?**

Most caravans and motorhomes have 12 volt systems. As batteries are heavy, some owners prefer 6 volt batteries. To obtain 12 volts they are series-connected (positive to negative) as below. This results in the same current (as each 6-volt battery) but twice the voltage.

###### Series connection. If each 6 volt battery is 100 amp hour (600 watt hour) two series-connected such batteries hold 100 amp hour at 12 volts (1200 watt hour). Pic:Â solarbooks.com.au

If more capacity is required, further pairs of so-connected batteries are then wired in parallel as shown below.

###### Here, four 6 volt 100 amp hour batteries can hold 200 amp hour at 12 volts (2400 watt hours). Similar connection (but using 12 volt batteries) are used to obtain 24 volts in converted coaches with 24 volt alternators. Pic:Â solarbooks.com.au

A few caravans have only one 12 volt battery. Most, however, have two 12 volt, 100 amp hour batteries. The result is 200 amp hours (2400 watt hours.)

If four batteries, each of 100 amp hour are parallel connected, total capacity is thus 400 amp hours (4800 watt hours).

###### Typical battery bank for a largish RV. Four 12 volt 100 amp hour batteries store 400 amp hour at 12 volts (4800 watt hours). Pic:Â solarbooks.com.au

### Probable requirements

For most RVs, the highest (domestic) power need is likely to be a microwave oven. They draw about 130 amps for 5-15 minutes, typically via an inverter.

Any LiFePO4 battery used as the main RV supply will cope with ease. Such power can *just* be met by a 12 volt 200 amp hour AGM battery. But 300 plus amp hour is preferable.Â Some owners attempt this with 200 or so amp hour deep cycle lead acid batteries. They will supply such power for a short time, but doing so repeatedly shortens their life.

**Connecting caravan batteries Â –Â Summary**

The bestÂ way to increase available *power* for the*Â sameÂ *energy capacity*Â *is via batteries capable of doing so.

Conventional lead acid deep cycle batteries are the least so-capable. AGMs are better. If bulk and weight Â does not handicap, a 300-400 amp hour AGM bank readily provides RV power typically needed.

The highest power (by far) is from lithium-ion (LiFePo4). Any such battery will have ample*Â power*Â to drive whatever you wish. They also have more availableÂ *energy*Â capacity.They are however costly.Â Furthermore, they need specialised installation and charging.

**Connecting caravan batteries Â – further information**

Batteries and their charging are complex subjects.Â *Caravan & Motorhome ElectricsÂ *explains battery charging in depth.

If you liked this article you will like my books. They are technically accurate – yet in plain English. Other books are the *Caravan & Motorhome Book,Â *the*Â Camper Trailer Book*,Â *Solar That Really Works*Â (for RVs), and*Â Solar Success*Â (for homes and properties).