RVs typically utilize 12-volt batteries, but those who require power for longer periods of time or for heavier loads can choose from a range of amp-hour capacities and higher voltage alternatives. Trying to figure out what size battery you need might be difficult. We’ll go over common battery sizes, how they compare to Maxworld Power Batteries, and how to figure out what size battery your RV needs.
Batteries' Function in Providing Power for Electronic Equipment
With the advent of the Industrial Revolution, electronic devices have permeated almost every aspect of our daily lives. We are surrounded by electronics every day, from the alarm clocks that wake us up in the morning to the laptops we use at work or school and even the televisions we switch on when we get home. Even how we get from one point to another is electronic as a result of ongoing technological advancements.
Electronics can be powered in two main ways since they depend on electrical currents to operate. Electronic devices were initially connected straight to electrical current originating from the grid or other sources. They have few power restrictions, however this restricts the places in which these gadgets can be utilized and keeps them connected to a cord. Your plugged-in devices will just keep working as long as there is electricity from the grid or fuel from another source.
Electronic devices that run on batteries have become commonplace in recent decades. The battery was developed in response to the innate urge to use electronic gadgets while on the go and not connected to a cord or the grid. Batteries are “devices that use an electrochemical oxidation-reduction (redox) reaction to directly transform the chemical energy contained in their active materials into electric energy.” Electrons are transferred from one material to another through an electric circuit in this kind of reaction.
Batteries are not made equal, even though they all serve the same general purpose. When batteries lose their capacity to produce electricity, they can be disposed of and replaced, or they can be recharged and connected to the electrical grid. Batteries differ in size and chemical makeup according to what they are used to power.
How Can I Pick the Right Battery Size for My Recreational Vehicle?
In general, a battery’s size corresponds to how much power an electronic device needs. Small toys and wristwatches can be powered by tiny button cells, but torches and remote controls need AA batteries because they are a little bigger. Additionally, the size of the battery will depend on how long you want it to run your device. Smoke detectors need a 9-volt battery since their long-term power reliability is essential, despite the fact that they aren’t much bigger than many other devices that run on C and D batteries.
Deep cycle 12-volt house batteries are usually used to power all of your RV’s equipment. These batteries are typically larger and much heavier than the average household battery. This is due to the fact that these batteries power several devices, outlets, and light switches as opposed to just one electronic gadget. Additionally, appliances like air conditioners and refrigerators that require power for hours at a time are powered by RV batteries, whereas TV remote controls only require power in extremely brief spurts.
RVs typically utilize 12-volt batteries, but bigger voltage and a range of amp-hour capacities are available for users who require power for longer durations or heavier loads. Trying to figure out what size battery you need might be difficult. First and foremost, we advise you to measure the amount of space in your RV that is available for batteries. RVs typically have restricted storage spaces and stringent weight limitations, which will affect your choice even if we would all desire infinite power. Knowing your maximum capacity will allow you to research different battery sizes and configurations. After that, you can select the one that best suits your space limits and has the highest power potential.
What Does Group Size on an RV Battery Mean?
In order to establish uniformity across rechargeable batteries utilized in automobiles, boats, and recreational vehicles, the Battery Council International (BCI) established several battery group sizes according to their dimensions and additional characteristics. In order to determine the appropriate battery for automotive applications, BCI Group Sizes are supplied. Batteries are categorized into numerical group sizes based on their voltage, maximum overall dimensions, terminal configuration, and unique characteristics that could impact battery fit.
The four most common group sizes of deep cycle house batteries for RVs are determined by power capacity and space limitations.
Typically, Group 24 batteries are lead-acid batteries of the standard form, measuring 10.5 L by 6.1875 W by 8.875 H. They are frequently utilized “in medical systems, backup power systems, and automobiles.” They are often employed as a deep-cycle house battery in RVs and similar systems, while they can also be utilized as a starting battery.
Lead-acid batteries in Group 27 are likewise of the typical model. They are 12.5 L × 6.75 W x 9.37 H in size. These are the most widely used deep-cycle battery type, “used for automotive, marine, off-the-grid, RVs, and similar applications.” Additionally, compared to a Group 24 battery, these batteries have a greater group number, which denotes a higher amount of amp-hours.
There are several different varieties of Group 31 batteries, such as “Flooded Lead Acid Batteries (FLA), Absorbent Glass Mat Batteries (AGM), Gel types, and LiFePO4 options.” They are 13″ long by 6.8″ wide by 9.44″ high. These batteries are frequently interchangeable with Group 27 batteries in a range of marine, recreational vehicle, commercial truck, golf cart, and off-grid power systems because they are only somewhat longer and wider.
Some of the biggest 12-volt lead-acid batteries are found in Group 8D. Typically, they are 21″ L x 11″ W × 10″ H in size. These batteries are approximately twice as large as Group 24 batteries, weigh significantly more, and provide almost twice as much power, which makes them ideal for off-grid and marine applications.
Which Lithium Battery Size Am I in Need of?
Many lithium batteries have taken on the size characteristics of their lead acid equivalents, even though group sizes were first developed for lead acid batteries. These LiFePO4 batteries are 1/5 of the weight, have a 10x longer lifespan, and provide 2-3 times the power yet having the same physical footprint. Now that you know how much room your batteries will take up, let’s examine Maxworld Batteries’ measurements and group size comparisons.
12V 50Ah Group 24 Maxworld Battery: This battery’s dimensions are 10.49″ L x 7.11″ W x 8.93″ H, and it may be used as a drop-in replacement for lead acid Group 24 batteries. These batteries weigh under 22 pounds and provide 50Ah of useful power, giving them the most flexibility for compact applications.
Group 24 Maxworld 12V 75Ah Battery: These batteries are the ideal drop-in replacement for lead-acid Group 24 batteries since they measure 10.49″ L x 7.11″ W x 8.93″ H, which is the same as our 50Ah Group 24 battery. This battery, which weighs just a little more at 27 pounds, provides 75AH of useful power to increase your run duration.
The 12V 100AH Maxworld Battery is a superb drop-in replacement for Group 27 or Group 31 lead-acid batteries. Its dimensions are 12.76″ L x 6.86″ W x 8.95″ H. These batteries fit in the majority of battery boxes and compartments that hold Group 27 and Group 31 batteries, despite minor dimensions differences. These batteries will boost the power capacity and drastically reduce the weight of your power system, with a 100Ah useful power capacity and a weight of only 31 pounds.
12V 100AH Maxworld Battery: These batteries have the same 10.31″ L x 7.28″ W x 11.02″ H measurements as 6V GC2 lead-acid batteries. With a weight of only 31 pounds and a physical footprint equivalent to that of a 6V lead-acid battery, they are the ideal drop-in replacement that will quadruple the power of your system.
An excellent substitute for 8D lead-acid batteries is the GC3 12V 270AH Maxworld Battery, a special proprietary form factor. These are our most powerful batteries, weighing only 81 pounds and with dimensions of 22.83″ L x 7.09″ W x 13.25″ H. For high-power applications, they are a wonderful alternative because they are smaller and have the same power as 3-12V 100Ah batteries.
Additionally, the 24V 50Ah battery can be used as a drop-in replacement for Group 27 and Group 31 batteries. Like our regular 12V 100Ah battery, it has the same dimensions: 12.76″ L x 6.86″ W x 8.95″ H. These 31-pound batteries are ideal for systems that need higher voltage.
How Can I Pick the Proper Amp Hours and Voltage for My RV Batteries?
Making sure your system has the proper voltage and amp-hours is the final step before buying RV batteries.
The specifics of your RV will determine whether you require a 12V or 24V battery. The majority of RVs typically need 12V batteries, which provide 12V when the battery is nominally loaded. To fulfill the nominal load of 24V, some RV systems, on the other hand, demand more power, in which case a 24V battery would be required.
Additionally, by connecting batteries in series, you may design systems with higher voltages for RVs with high power needs. When batteries are connected in series, they share a single electrical channel that is equivalent to the total voltage of the system. Thus, your system is 24V if two 12V batteries are connected in series. Up to 48V power systems can be created by connecting up to four Maxworld Power Batteries in series.
Last but not least, you must ascertain how many amp hours your system needs based on what you wish to power. Based on your space limits and the type of battery you select, this will directly affect how many batteries you require. To do this, you can perform an electrical audit and use a battery monitor or manual calculations to find out how much energy your electronics are using. You can then use the calculator to find out how many amp-hours of batteries your system needs by simply entering this information.
Final Tips
It is highly advised that you DO NOT try to connect batteries of different sizes (amp-hours). There may be variations in battery charging and voltage because to variations in battery management systems and battery cell numbers.