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How to select the right RV Batteries 2024

Table of Contents

RV Battery Types

Flooded rv batteries are commonly used in starting applications. This battery has a no-spill design and can be tilted to a 45° angle, making it perfect for rv use.

Brava offers three different types of batteries: Starting, deep cycle and dual-purpose. Each of these battery types is offered with a choice of battery chemistries, which are flooded lead acid, gel, AGM (Absorbed Glass Matt) and most recently, Lithium Iron Phosphate. When choosing a battery, first consider how the battery will be used. For example, will it be used for starting an engine, powering “house” loads or maybe for both? Your choice of battery chemistries will depend on the performance you desire—balanced against how much you are willing to spend. Let’s begin by discussing the three battery types and then move on to the characteristics of the different battery chemistries from which you can select.

Starting Batteries

Starting batteries, which crank the starter of your RV’s engine, are the sprinters of your electrical system. They deliver between 75 and 400 amperes for 5–15 seconds, and then are recharged in short order by your engine’s alternator. Like all lead-acid batteries, they are constructed with alternating layers of negative and positive plates with insulation between them.

Starting batteries have thinner and more numerous plates, providing extra surface area to generate high amperage bursts of current. The two drawbacks of this construction are that the plates are relatively fragile in high-impact environments, and that starting batteries do not tolerate deep discharges, which reduce their operating lifespan.

Deep Cycle Batteries

Six volt “Traction Batteries” are heavily over-built for industrial applications. This GC2 deep cycle battery is rated at 230 amp-hours. You’ll need a pair connected in series for 12 volts.

Your RV’s house battery bank uses deep cycle batteries, the marathon runners of the storage system. They power the electrical loads on your RV when no charge source (shore power charger, engine alternator, wind generator or solar panel) is available. Consider them a kind of savings account into which energy is deposited or withdrawn.

Compared to starting batteries, which deliver high bursts of energy for short periods, deep cycle batteries recover fully after being heavily discharged over longer periods because their design features thicker plates with a high content of antimony. Overnight, their use might deplete 50–70 percent of the battery capacity, depending on the house loads of the RV. When the batteries are recharged, energy is re-deposited into the bank, and the process, or cycle, starts over. Generally, deep cycle batteries should be sized to store three to four times the expected amount of energy to be used between recharge cycles.

Dual-Purpose Batteries

Sealed RV batteries, like this dual purpose AGM battery, are more rugged and accept higher charging current than flooded type batteries.

With large, thick plates containing more antimony than starting batteries and an active lead paste chemistry, dual-purpose batteries are a good compromise, tolerating deep discharges that would ruin a typical starting battery. Since they have lower storage capacity than comparably-sized deep cycles, we recommend them for the following applications:

  • RV  using a single battery for both starting and running loads with the engine turned off.
  • RV with two identical batteries used interchangeably for starting and house electrical loads.
  • RV with one battery bank that does double-duty for house applications and engine starting.

Battery Chemistries

At BRAVA, you can choose from among four different battery chemistries: Flooded lead acid, gel, AGM (Absorbed Glass Mat) and Lithium Iron Phosphate. We suggest you select the battery chemistry based on your needs (deep cycle versus starting versus dual-purpose) and on the performance you desire balanced against your budget.

Flooded Batteries

Flooded batteries, unlike other types, use a reservoir of liquid sulfuric acid, and produce hydrogen and oxygen when the battery is being charged. Vented wet cells allow the gases to escape into the atmosphere, unlike gel and AGM batteries, which recombine the gases and re-introduce them to the system. Hydrogen is an explosive gas, so battery boxes and compartments must be vented to let the gas escape safely.

Flooded batteries require periodic inspection and the cells must be topped-off with distilled water when levels get low. Since flooded batteries are not sealed and allow excess hydrogen to escape, they handle overcharging better than gel and AGM batteries. They self-discharge at a higher rate (6 to 7 percent per month) and thus require off-season charging. Wet cells must be installed in an upright position and don’t tolerate high amounts of vibration. Their initial cost is lower than similarly sized AGM or gel batteries, and MUCH lower than the new type of lithium batteries. Properly charged and maintained, wet cell deep-cycle batteries are capable of between a few hundred and over a thousand charging cycles.

Gel Batteries

Sealed, valve-regulated (SVR) gelled-electrolyte batteries offer advantages over regular flooded batteries. They self-discharge at only three percent per month, handle the highest number of lifetime charging cycles, are maintenance free, spill proof, submersible and leakproof.  A pressure release valve keeps their internal pressure at a slightly positive level, but they can release excess pressure if needed. The SVR design nearly eliminates gassing, so they are safer to install around people and sensitive electronics (but gel and AGM batteries still need to be vented). Gel batteries, because they’re sealed, are manufactured to very high-quality standards. They need carefully regulated smart charging to prevent damage.

AGM Batteries

More RV are switching to this type for a performance improvement over flooded batteries. Sealed, valve-regulated AGM (Absorbed Glass Mat) batteries feature fine, highly porous microfiber glass separators compressed tightly between the battery’s positive and negative plates, which are saturated with just enough acid electrolyte to activate the battery. During charging, precision pressure valves allow oxygen produced on the positive plate to migrate to the negative plate and recombine with the hydrogen, producing water. In addition to providing equal saturation across the entire surface of the battery’s positive and negative plates, the fibers in the dense glass mats embed themselves into the plates’ surface like reinforcing rods in concrete, providing more plate support and better shock and vibration protection than in conventional batteries.

High-density AGM batteries have lower internal resistance, allowing greater starting power and charge acceptance, up to 45 percent of the battery’s total capacity, and quicker recharging than other types of deep cycle batteries. Long life, a low three percent self-discharge rate and outstanding performance make AGM batteries excellent dual-purpose batteries for RV who require the fastest recharging, quick starting power and reliable deep cycle ability.

Lithium Iron Phosphate Batteries

BRAVA’s LFP12-100 100Ah Group 31 Lithium Iron Phosphate battery can sustain up to 3,500 charging cycles—10X the charging cycles of comparable group 31 AGMs.

New technologies will require new ways of thinking about your RV’s battery system. BRAVA Lithium Iron Phosphate Batteries  are among the most advanced RV batteries in the world. Compared to flooded, gel or AGM batteries, which should only be discharged down to 50 percent of their capacity, BRAVA batteries can discharge up to 80 percent of their capacity—which equates to 60 percent more usable power! They also can be recharged at a faster rate and weigh less than half their flooded, gel or AGM counterparts. It gets even better: Compared to the roughly 500 discharge/charge cycles of a typical Group 31 AGM battery, Lithium Iron Phosphate batteries can be cycled up to 3,500 times. All of this performance does come at a cost. For an expanded discussion of how lithium batteries differ from their flooded, gel and AGM counterparts.

Can lithium batteries be used for engine starting?

While lithium batteries offer superior performance for powering house loads, most are not designed for engine starting. The typical peak current on a standard BRAVA battery is 200A and it should not be used for engine starting.

What Battery Ratings to Look For

Starting functions: the amount of power available for cranking a starter is measured several ways.

CCA vs. MCA: The two common power measurements are CCA (Cold Cranking Amps, the number of amps a battery can deliver for 30 seconds at 0°F while maintaining its voltage above 7.2 volts) and MCA (Marine Cranking Amps, similar but measured at 32°F instead of 0°F). The reason that MCA are 20–25% higher than the CCA is because batteries work better at higher temperatures.

Reserve Minutes indicate how long a battery can sustain a load of 25 amps before it drops to 10.5 volts. A battery rated at 150 minutes can operate a 25A load for 2 1/2 hours (at 80°F). Starting batteries aren’t used to handle loads for long periods, so reserve minutes are less critical.

Size: Engine size, type, and ambient temperature determine what size cranking battery you need. High cranking power (and a larger battery) is required for cold temperatures, diesel engines, or large and high compression gas engines. The first sizing criteria is to meet the minimum CCA (if any) stated by the engine or rv manufacturer. If a Group 24, 550 CCA battery worked well for five years, we’d recommend replacing it with a similar model. If, however, it cranked too slowly or failed after a season or two, we’d suggest that you look for a battery with a higher CCA or MCA rating.

Deep cycle functions: Battery capacity measurements are commonly expressed in Amp-hours  (Ah) and Reserve Minutes. Amp-hours measure the total amount of energy that a battery can deliver for 20 hours at a constant rate of discharge before the voltage drops to 10.5 volts. This means that a 200Ah battery can run a 10A load for 20 hours. The reserve minute rating is the number of minutes that a battery can run a 25A load until dropping to 10.5V, just like with starting batteries. A Group 27 deep cycle battery with a rating of 180 reserve minutes will run a 25A load for three hours. House loads range from 5A to 25A or more. Amp hours is generally the more relevant measurement for house banks.

Longevity: Battery manufacturers measure longevity by discharging full batteries at a temperature of 80°F until their voltage drops to 10.5 volts. The batteries are recharged under controlled conditions, and the process is repeated until the battery fails to hold half of its rated capacity.  This measurement, called cycle life, shows how many discharge cycles a battery provides over its lifespan.  This ability to cycle repeatedly is what differentiates deep cycle batteries from starting batteries, which can’t withstand more than a few deep discharges before they begin to fail. If nothing else, cycle life provides a baseline for comparing one battery to another.

How House Batteries Differ from Chassis Batteries

In a driveable RV, there are two main types of batteries: chassis (or vehicle) and house batteries. Chassis batteries are designed for starting the engine and supplying energy to auxiliary systems, similar to car batteries.

As discussed, they should not be discharged very far before being recharged and you may be interested in different traits for these such as cold cranking amps and reserve capacity.

On the other hand, house batteries are intended for continuous power delivery rather than one big burst of energy and as deep cycle batteries, they are designed to be cycled between 50-100% of their capacity.

RV House Battery Chassis Battery
Used For Powering appliances inside the RV or trailer Starting the vehicle
Type MUST be deep cycle Usually flooded lead acid
Depth of Discharge Can have deep discharge MUST NOT be discharged too much
How to Recharge Solar, Shore Power, Generator Vehicle alternator

Additionally, the vehicle’s alternator ensures that the chassis battery, typically a lead-acid battery, remains fully charged during operation. On the other hand, you can recharge your RV batteries by a variety of methods including shore power, a solar system, generator or the alternator.

Battery Tips for Best Performance

No matter what kind of battery chemistry you choose, follow the manufacturer’s recommendations to get the best performance. Note: The following recommendations apply to flooded, gel and AGM batteries.

  • Stay with one battery chemistry (flooded, gel or AGM). Each battery type requires specific charging voltages. Mixing battery types can result in under- or over-charging. This may mean replacing all batteries on board at the same time.
  • Never mix old batteries with new ones in the same bank. While it seems like this would increase your overall capacity, old batteries tend to pull down the new ones to their deteriorated level.
  • Regulate charge voltages based on battery temperature and acceptance (manually or with sensing) to maximize battery life and reduce charge time. Ensure that your charging system is capable of delivering sufficient amperage to charge battery banks efficiently. This generally means an alternator with an output that is 25% to 40% the capacity of your entire battery bank.
  • Keep batteries clean, cool and dry.
  • Check terminal connectors regularly to avoid loss of conductivity.
  • Add distilled water to flooded lead acid batteries when needed. Keep them charged. Leaving them in a discharged state for any length of time will damage them and lower their capacity.
  • Clean corrosion with a paste of baking soda and water.
31M-825 Dual purpose battery 31M-825 Dual purpose battery
  • Deep-Cycle
  • Starting
  • Save size and weight
  • Dual Purpose
  • Save money
  • Fast Delivery

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Maintaining Your RV House Battery

Maintaining your RV house battery properly is key to guaranteeing its long life and peak performance. This includes the following best practices and proper care:

  • Adhering to charging and discharging guidelines
  • Regularly monitoring and testing your battery (and knowing its limitations such as self-discharge rate when not in use)
  • For flooded lead-acid batteries, routine maintenance is necessary, such as inspecting the cells to ensure the proper water levels and replenishing with distilled water when needed.

Monitoring and testing your RV house battery can help detect potential issues and guarantee optimal performance. By implementing proper maintenance practices, you can prevent unexpected power outages during your camping trips and ensure that your RV’s appliances and devices remain functional.

Our lithium RV batteries are 100% maintenance free. We incorporate a state of the art battery management system to ensure that the batteries charge and discharge at appropriate levels and prevent other issues from arising. When RV owners invest in our Enduro Power Batteries, they will never have to worry about their batteries again as all of our RV batteries are backed by our 10 year warranty.

Charging and Discharging Guidelines

Following optimal charging and discharging practices is necessary to extend the life and maintain the performance of your RV house battery. This is more important with lead acid batteries that require high to low maintenance depending on the battery type.

For example, it’s advised not to allow a deep-cycle flooded lead acid battery to drop below a 50% state of charge (60% for an AGM battery). Similarly, overcharging can result in water loss and corrosion, rendering the battery inoperable and unreliable.

Leaving a battery discharged for extended periods can also lead to it not functioning correctly. By adhering to the manufacturer’s instructions and employing a battery charger specifically designed for RV house batteries, you can ensure that your battery remains in optimal condition and provides reliable power for your RV’s needs.

Once again, our lithium RV batteries are designed to be low maintenance with a self-discharge rate under 3% and a battery management system capable of ensuring that the battery shuts off before it causes harm to itself or appliances.

Monitoring and Testing

By keeping a close eye on your battery’s health and addressing any issues as they arise, you can prevent unexpected power outages and maintain the functionality of your RV’s appliances and devices. Proper maintenance and monitoring not only extends the life of your battery, but also ensures a pleasant and worry-free camping experience.

Consistent monitoring and testing of your RV house battery is essential to detect potential problems and guarantee peak performance. To monitor and test your battery, you can use a multimeter to measure the voltage and identify any irregularities.

Additionally, in the case of a flooded lead acid battery, a hydrometer can be employed to measure the specific gravity of the electrolyte in each cell, helping you determine the state of charge of the battery.

This can be complicated and more than the average RV owner may want to deal with. Once again, this leads to why our Baja Series lithium RV batteries are the best deep cycle batteries for your RV application.


How long should house batteries last in an RV?

Deep-cycle RV batteries can last up to 6 or more years with proper maintenance, allowing you to enjoy extra RV trips and save money in the long run. Flooded lead acid batteries will last between 3-5 years with AGM and gel gell batteries lasting 4-6 years. Our lithium batteries will last a minimum of 10 years with our guarantee.

Proper maintenance of your RV battery can help you get the most out of your investment. Regularly checking the water levels, cleaning the terminals, and ensuring the battery is fully charged can help extend its life. Additionally, you can store your battery in a cool place.

What is the house battery on an RV?

The house battery on an RV is a type of deep cycle battery that supplies 12 volts of direct current power (DC) and powers home appliances like the microwave, refrigerator and TV.

Common types include flooded lead-acid, AGM and lithium-ion batteries.

What batteries should I use for my RV?

You should use a deep cycle RV battery with enough amp hours to power your essential accessories. This battery is separate from a vehicle or chassis battery that is used in starting your vehicle or motorhome.

What is the difference between a house battery and a chassis battery?

The house battery provides power for the living space in an RV or motorhome while the chassis battery is used to start the engine. You will need two different kinds of batteries to safely and properly have each.

What is the main purpose of an RV house battery?

The main purpose of an RV house battery is to provide power to the living area, allowing lights, water pumps and other appliances to be used.

These appliances can be powered by either AC or DC power, depending on the type of RV. AC power is typically provided by a generator or shore power, while DC power is provided by the house battery.

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