AA battery
An AA battery (IPA pronunciation: [eɪ eɪ] or [ˈdʌbl̩ eɪ]) is a dry cell-type battery commonly used in portable electronic devices. An AA battery measures 51mm in length (50.1mm without the button terminal), 13.5–14.5mm in diameter,[1] and generally weighs (depending upon materials) approximately 23g (1.97×0.56 inches and 0.81 ounces).
The AA battery type was standardized by ANSI in 1947 and is known internationally as LR6 (alkaline) or R6 (carbon-zinc) or Mignon.
As an AA battery is composed of a single chamber, it is more correctly referred to as a cell. Technically, a battery is a collection of cells working together, such as in a car battery. The more common term "battery" will be used throughout the rest of this article.
The nominal output voltage of single-use AA batteries is 1.5 volts, while NiCd (Nickel Cadmium) rechargeable batteries have a nominal voltage of 1.2 V. Specialty batteries based on more unusual chemistries can run at a voltage as high as 1.6 V under load.[2] The voltage of an AA battery is the same as an AAA battery, C cell or D cell. AA batteries, however, provide power for a longer period than AAA batteries, because their larger size allows them to store a greater mass of anode material which is consumed as it does electrical work. C and D cells, being larger, last longer still; as a rough guide, the capacity of a battery scales linearly with its mass.
Primary (non-rechargeable) zinc-carbon AA batteries of 400–900 milliamp-hours capacity are commonly made using Leclanché_cell technology. batteries of 1000 to 1500 mAh are often sold as "long life" or "heavy duty". Alkaline batteries from 1700 mAh to almost 3000 mAh cost a little more, but last proportionally longer.
Single-use lithium batteries are also available for high demand devices such as digital cameras, where their high cost is offset by longer running time between battery changes. As of 2007, the only 1.5 V lithium AA is manufactured by Energizer, although AA sized batteries with different nominal voltages are available from others. These should only be used in devices rated for the higher voltage.
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Rechargeable AA batteries
The capacity of rechargeable AA batteries varies with the technology used. Nickel-cadmium (NiCd or NiCad) AAs with a capacity of 650 to 800 mAh are commonly available, while 800 to 1000 mAh AA types are rarer and more expensive. Nickel metal hydride (NiMH) AAs are also available in various capacities ranging from 1400 to 2900 mAh.[citation needed]
The older NiCd battery chemistry can supply a higher current than typical NiMHs, so NiCds are commonly used to power model cars or other relatively high-current-draw devices. New NiMH AAs designed for high current applications are beginning to become available. These use different construction and have lower capacity (1400–1600 mAh) than the highest capacity NiMH batteries.
The newest generation of NiMH AAs (Eneloop) does have a very low self discharging rate and are sold therefore precharged and ready for use.
Recently, rechargeable AA-sized batteries have been introduced in rechargeable Li-ion chemistry. These batteries also do not supply voltage in the 1.2–1.5 V range and are thus not true AAs. Recent developments include AA Batteries with embedded functionality such as the September 2006 release of USBCELL with built-in charger and USB connector within the AA format, enabling the battery to charged by plugging into a USB port without a charger, and LSD - Low self discharge chemistries such as Hybrio, Recyko, Eneloop where cells are precharged.
The insides of a ZnC battery
The common zinc-carbon or zinc-chloride AA battery consists of a graphite rod in the center forming an electrode, an anode/electrolyte mix consisting mainly of manganese oxide, a zinc outer shell which serves as the cathode, and a paper, plastic or steel cover. See Zinc-carbon_battery. There is sometimes a pressure valve at the bottom to prevent explosions. However, the pressure valves generally will not prevent leakage or catastrophic failure of the shell if the battery is exposed to fire or extreme heat.
If a Zn-C or Zn-Cl battery is discharged too far, corrosion of the cathode, which is the zinc shell, can occur. If this becomes corroded enough, a breach in the shell can allow electrolyte to leak out. This is a common cause of damage to battery-powered appliances which are left unattended for long periods with batteries inside. The electrolyte can also cause minor skin damage, and should be kept away from eyes, and not ingested.
Inside an alkaline battery
More common today than the lower cost ZnC batteries are alkaline cells. Different variants exist, offering roughly double to three times the capacity of ZnC cells. Rather than zinc chloride as the electrolyte, potassium hydroxide is used.
References
- ^ http://people.msoe.edu/~tritt/trips/rabbitseason.html shows a copy of the page from the primary reference, IEC60086-2. Someone with access to the primary reference can replace this ref.
- ^ Datasheet for Duracell AA Power Pix