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In this guide, we’ll look more closely at some of the various mounting styles a battery holder might come fitted with, as well as the many different cell sizes they’re designed to work with. We’ll also identify some of the more popular brands you might consider when looking to buy battery holders from a supplier.
What is a battery holder?
A battery holder is most commonly sold as an integral or removable compartment or cavity, designed to be inserted into - or attached onto - a suitable item of cell-powered equipment.
The primary function of a battery holder is to keep cells fixed in place safely and securely while conveying power from the batteries to the device in question. External connections on battery holders are most often made by contacts either with pins, surface mount feet, soldered lugs or via a set of wire leads.
Battery holders are often designed to be incorporated within the body of an electrical item, but they’re also frequently sold as external compartments or attachments. Either way, some of the most important factors to consider when choosing an appropriate battery holder for a given application will be:
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- Battery size
- Compatible cell types
- Contact/terminal style
- Battery mounting and insertion method
- Unit size and shape
- Battery holder cover and housing design
- Build quality and manufacturer reputation
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Over the following sections of this guide, we’ll examine each of these aspects in turn.
Holders and mounts for different battery sizes
Many different battery holder sizes and mounting types are available from manufacturers and suppliers all over the world. Most will be made to work with a particular sort of cell - or sometimes with a range of multiple battery sizes - and to be affixed to the electrical item in question in a specific way.
Bear in mind that, in addition to sorting through the wide variety of battery holder sizes and capacities on the market, you’ll also need to be mindful of the many options available in terms of actual battery chemistry.
While the vast majority of holders and mounts will be able to accommodate most battery chemistry types, each will have its own unique set of pros and cons in terms of performance, power drain, longevity, cost and environmental impact.
Common battery types sold by many suppliers might include:
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- Alkaline batteries
- Lithium batteries
- Rechargeable batteries (including li-ion)
- Nickel cadmium batteries
- Nickel metal hydride batteries
- NiZN batteries
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The above range of cell types is often available across a broad range of popular battery sizes and shapes, including both AA and AAA versions. Most, but not all, will be interchangeable in a wide range of devices, holders and mounts. However, it’s seldom advisable to combine mixed battery chemistries in a single electronic device.
Doing so can often impede device performance, as the item drawing power will only ever perform to the capabilities of the weakest battery in the holder. Of even greater concern is the fact that more powerful batteries can sometimes force weaker ones to work harder than they’re intended to, causing them to drain to very low voltage levels and possibly leading to potential leaking or rupture.
As such, it’s always wise to ensure you know which cell types you’re likely to be using in advance of making a purchase, as well as the correct sizing you’ll require.
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AA Battery Holders & Mounts AA battery pack holders can be manufactured to house any number of cells in theory, but in daily use it’s usually anywhere between 1-10 batteries, with 2-8 being by far the most popular options. AA single battery holders are also common. Relatively few cell-powered tools or other pieces of electrical equipment will be designed to require more than 8 AA batteries for achieving sufficient power supply. Items that demand a higher power draw than this will usually be built around a larger cell type, for improved practicality and less frequent need for battery replacement or recharging. |
Due to the increasing efficiency of many device types, AAA batteries are often found in more compact pieces of equipment that would typically have been expected to run off double-A cells in years gone by. Today, these will very often include low-drain portable or handheld electronic goods or tools, such as:
AAA battery holders are generally built to accommodate fewer individual cells than bigger units for housing AA and larger capacity batteries, as devices requiring more power will typically not run off triple-A cells. An AAAA battery holder is a somewhat less common configuration, given that the much smaller than average AAAA (‘quadruple-A’ or ‘four-A’) cell standard drains considerably faster than AA or AAA equivalents. |
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C size battery holders are designed around the fairly common C battery (sometimes known as an R14). This is a fairly wide diameter cylindrical cell, smaller than D batteries while being the same height - but significantly wider - than AA standard. C cell batteries, holders and mounts are less widely used than either AA or D versions, particularly since power efficiency is continually improving across most cell-powered devices. However, they can still often be found on a range of medium-drain electronic items, including:
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Battery holders for D cells are most commonly sold in configurations designed to house either 2 or 4 individual batteries. |
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The precise sort of 12V battery you might need for specific applications will dictate the appropriate form factor, which can be anything from a large heavy car battery type to one closely resembling a traditional AA cell. |
Battery holder mounts
Battery holder mounts usually refer to the way the battery holder itself is slotted, secured or attached onto or into the main body of the item being powered. Note, however, that the term ‘battery mount’ is also used to refer to the method by which individual cells are held in place within the overall holder unit.
Battery holder mounts and battery mounts are usually present as an integral part of a complete holder unit, but you can also buy battery mounts cheaply as swap-out or replacement parts. They can come in many different configurations and designs, with some of the more common types being:
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- Chassis mount
- Panel mount
- PCB mount
- Slide-in mount (usually refers to the battery insertion method)
- Snap-in mount (usually refers to the battery insertion method)
- Strap & lead mount (a battery connector, rather than a holder per se)
- Surface mount
- Through-hole mount
- Wire lead mount (refers to connection type)
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In this section, we’ll look at some of the most widely used battery mount types in everyday use
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Chassis mount battery holders can be either metal or plastic, open faced or enclosed (i.e. with or without a cover), and are commonly designed to accept a wide range of cell sizes including AA, AAA, C, D and 9V PP3 |
Panel mount battery holders are most commonly secured in place via one of two methods - either via a screw-in system for optimal stability or with a flange for easier removal and reinsertion. |
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As the name implies, a PCB mount battery holder is intended for applications where the battery holder needs to be installed directly onto a printed circuit board The most common design is for the PCB mount holder to include several small sharp pins around its perimeter - these are pushed directly through the surface of the PCB and then soldered on from the rear side Holders for PCB mounted batteries can be made from metal or plastic. While they’re frequently built to accommodate single coin cells, such as you might find on a typical computer motherboard, they can also be configured to allow for multiple cells and other battery types, including cylindrical AAA, AA, C, or D cells |
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Slide-in mounts are arguably the most common type of battery connection/terminal setup, requiring the user simply to ‘drop’ the cells into place either lengthways or side-on, at which point they’re either held in place by opposing forces from the two terminals, or secured with a cover or cap Slide-in battery mounts tend to be among the cheapest and most cost-effective choices to buy for quickly and simply inserting a cell into an appropriate holder. They work reliably well, and are most often seen in molded plastic or metal battery holders incorporating self-contained battery compartments. |
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This is usually achieved using tensioned metal clips, sometimes incorporating springs, through which the battery needs to be pushed with a small amount of force before it clicks into place ready for use. Snap-in battery mounts give the device greater protection against accidental cell power loss during movement, vibration and shock The term ‘snap-in’ or ‘snap-on’ is also widely used to refer to the standard contact types used on 9V cells (see Strap and lead battery holders, below). |
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They generally consist of a wire, which is designed to be hooked up to the circuitry of the device via tinned ends, combined with a flat plastic terminal pad that attaches to the contacts of a battery via two press studs The strap and lead battery holder type is most often used with 9V PP3 cells, allowing the cell to be lifted clear away from the main body of the item for removal, replacement or reattachment. |
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Holders of this type are most often seen as a mounting solution for coin-type batteries with button terminal contacts, in applications where the cell doesn’t need to be connected directly to a PCB. |
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Wire lead mount battery holders denote a particular type of external connection between the battery holder itself and the circuitry of the device being powered. A wire lead mount battery holder will be supplied with two leads attached to the holder at one end, with the other ends free to be hooked into the circuitry of the device as the holder is attached. This can offer greater flexibility in terms of battery holder mounting locations than certain pin or foot connection types, which must make immediate contact with the circuit wherever the holder is positioned. |
Types of battery holders
Once the correct size and mount style of battery holder has been chosen for your intended application and device, it’s also important to be aware of the different physical designs available for various battery holder types. In the section below, we’ll outline some of the more common versions.
Clip battery holders
A battery holder clip is a simple, economical choice for mounting batteries securely within a holder. They tend to consist of two metal arms, arranged in a loop with a small gap at the apex, through which the cells are pushed and subsequently held in place. Clip battery holders tend to be most often associated with common cylindrical batteries such as AA and AAA, but are also sold for securing C, D and 9V PP3 cells into position.
Contact battery holders
Contact battery holders refer to the simple tension-type terminal contact plates and accessories (including coil springs, button, top spring arm and leaf spring contact types) that hold a battery in place while allowing it to deliver power to the device drawing from it.
Summary
Although they’re generally seen as a relatively simple and cheap to buy component, battery holders and battery mounts perform an essential role in many varieties of modern day electronic devices, tools and other items of equipment.
When looking to buy battery holders from suppliers, knowing a little about which kinds are available, what sizes and types of cells they fit, and which sorts of mounting styles are best suited to the application you have in mind is important.
Feel free to contact a member of our expert support team for further advice if you’d like any additional information about battery holder mounts, or help with any other aspect of understanding and shopping for batteries, chargers and other related accessories.
Popular battery holder manufacturers
As with all products of this type, there’s a significant variance in quality among the many brands of battery holders and mounts made and sold worldwide. Some of the most widely available, consistently reliable and commonly used brands among customers and suppliers on the market include: