Aug. 19, 2024
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Pretty much everyone is familiar with the sizing for your typical alkaline batteries, like AA, AAA, D, and so on. But their more discrete cousins, the coin cell batteries, seem to be a little less easy to tell apart just by looking at them, and they all seem to have some strange cypher of numbers and letters on them. Worry not! This post will give you a quick rundown on how to translate all that balderdash.
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On coin cell batteries youll find a code that consists of two letters, followed by four (sometimes three) numbers. This particular naming convention conforms to the current International Electrotechnical Commission (IEC) standard, though there are coin cells that conform to an older standard and are named differently.
The first of the two letters is used to indicate what type of battery it is. The second letter, the R, is just an indicator of the shape (cylindrical). The various chemistries are listed below in cathode/anode (+/-) order. (The lithium batteries here are not rechargeable lithium-ion, they just contain lithium)
The numbers following the first two letters are an indication of the batterys dimensions. Diameter in millimeters is indicated by the first two, in a four digit code, or just the first in a three digit code. The last two numbers indicate the height of the battery in tenths of a millimeter.
As you can see (allowing for some manufacturing tolerances for the dimensions) the size indicated on the battery is pretty spot on 20mm wide and 1.6mm tall. Well, thats about it, folks. Now you can amaze your friends at parties by telling them what coin cell battery codes meanor not.
Standard battery nomenclature describes portable dry cell batteries that have physical dimensions and electrical characteristics interchangeable between manufacturers. The long history of disposable dry cells means that many manufacturer-specific and national standards were used to designate sizes, long before international standards were reached. Technical standards for battery sizes and types are set by standards organizations such as International Electrotechnical Commission (IEC) and American National Standards Institute (ANSI). Popular sizes are still referred to by old standard or manufacturer designations, and some non-systematic designations have been included in current international standards due to wide use.
The complete nomenclature for the battery will fully specify the size, chemistry, terminal arrangements, and special characteristics of a battery. The same physically interchangeable cell size may have widely different characteristics; physical interchangeability is not the sole factor in substitution of batteries.
National standards for dry cell batteries have been developed by ANSI, JIS, British national standards, and others. Civilian, commercial, government, and military standards all exist. Two of the most prevalent standards currently in use are the IEC series and the ANSI C18.1 series. Both standards give dimensions, standard performance characteristics, and safety information.
Modern standards contain both systematic names for cell types that give information on the composition and approximate size of the cells, as well as arbitrary numeric codes for cell size.
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The International Electrotechnical Commission (IEC) was established in France in and co-ordinates development of standards for a wide range of electrical products. The IEC maintains two committees, TC21 established in for rechargeable batteries, and TC35 established in for primary batteries, to develop standards.[1] The current designation system was adopted in . Battery types are designated with a letter/number sequence indicating number of cells, cell chemistry, cell shape, dimensions, and special characteristics. Certain cell designations from earlier revisions of the standard have been retained.[2]
The first IEC standards for battery sizes were issued in .[3] Since , International standard IEC defines an alphanumeric coding system for batteries.[2][4] British standard 397 for primary batteries was withdrawn and replaced by the IEC standard in .[5]
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Standardization of batteries in the United States started in , when the US National Bureau of Standards published recommended test procedures and standard dimensions of cells.[6] American standards were revised several times during the following decades, as new sizes of cells were introduced and new chemistry developed, including chloride, alkaline, mercury and rechargeable types.
The first American Standards Association (predecessor to ANSI) standard C18 appeared in . It listed cell sizes using a letter code, roughly in order of size from smallest (A) to larger types. The only numerical designation was the 6-inch tall "No. 6" cell. The older "No. 1" through "No. 5" batteries were discontinued, each being 1 to 5 inches high respectively, although the similarly sized Burgess No. 1 (C cell) and No. 2 (D cell) were still produced under that name through the s. Eventually, the No. 6 was phased out by the s and slowly replaced with the 6-volt four-cell battery. The edition of the C18 standard expanded the nomenclature system to include series and parallel arrays of cells. In , mercury batteries were included in the standard. The edition identified types suitable for use with transistor radios. In , NEMA took over responsibility for development from the National Bureau of Standards. The 12th edition of C18 began to be harmonized with the IEC standard. Rechargeable batteries were introduced in the C18 standard in , and lithium types were standardized in .
In the ANSI standards were extensively revised and separate safety standards provided. The current edition of the ANSI standards designates sizes with an arbitrary number, with a prefix letter to designate shape, and with a suffix letter or letters to identify different chemistry, terminals, or other features.
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Three different technical committees of IEC make standards on batteries: TC21 (lead-acid), SC21 (other secondary) and TC35 (primary). Each group has published standards relating to the nomenclature of batteries - IEC for lead-acid starter batteries, IEC -1 and -2 for Ni-Cd and Ni-MH batteries, IEC for Li-ion, and IEC -1 for primary batteries.
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Battery numbering[
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IEC battery type designation systemExamples of the IEC nomenclature are batteries coded R20, 4R25X, 4LR25-2, 6F22, 6P222/162, CR and LRJ. The letters and numbers in the code indicate the number of cells, cell chemistry, shape, dimensions, the number of parallel paths in the assembled battery and any modifying letters deemed necessary. A multi-section battery (two or more voltages from the same package) will have a multi-section designation.
Prior to October , round cells were designated with a sequential numeric size code ranging from R06 through to R70, for example R20 is the size of a "D" cell or ANSI"13" size. After October , round cells are systematically identified with a number derived from their diameter and height. Primary cells larger than 100 mm in diameter or height are designated with an oblique "/" between diameter and height.
Examples of IEC battery designations Designation Series Cells System Shape Standardized code or diameter code Diameter modifier Height code Height adjustment modifier Modifier(s) Parallel strings Remarks R20 R 20 A single zinc-carbon cell, "size 20" which is equivalent to D, or ANSI "13" size 4R25X 4 R 25 X A zinc-carbon lantern battery, consisting of 4 round "size 25" cells in series. Terminated with spring terminals. 4LR25-2 4 L R 25 2 An alkaline lantern battery, consisting of 2 parallel strings of 4 round "size 25" cells in series 6F22 6 F 22 A zinc-carbon rectangular battery, consisting of 6 flat "size 22" cells. Equivalent to a PP3 or transistor battery. 6P222/162 6 P 222 162 A zinc-carbon battery, maximum dimensions: length 192 mm, width 113 mm, and height 162 mm. Consisting of 6 cells in series. CR C R 17 345 A single-cell round lithium cell, 17 mm diameter, 34.5 mm height LRJ L R 26 16 J A single-cell round alkaline battery, 26.2 mm diameter, 1.67 mm height LR8D425 L R 8.5 D 425 A single-cell round alkaline battery, 8.8 mm diameter (8.5 +0.3 for modifier) and 42.5 mm long, AAAA or ANSI "25" size[
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The first letter identifies the chemical composition of the battery, which also implies a nominal voltage.
It is common to refer to the negative electrode first in IEC battery definitions.
Italics indicate a chemical system unlikely to be found in consumer or general-purpose batteries, or withdrawn from the current standard.
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LR44 alkaline cellShape codes are:
The F and S shape codes are still in use but are not to be used for new battery definitions.
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Certain sizes, given by one or two digit numbers, represent standard size codes from previous editions of the standard. Sizes given as 4 or more digits indicate the diameter of the battery and the overall height.
The numbers in the code correlate with the battery dimensions. For batteries with dimensions of < 100 mm the (truncated) diameter in millimetres, followed by the height in tenths of a millimetre; for batteries with a single dimension 100 mm the diameter in millimetres, then a slash (/) followed by the height in millimetres.
As well as the recommended size code definitions there are also ten modifying suffix letters that can be added to the end of the specific size code. These run from A to L (omitting F and I) and depending on the largest dimension of the battery can either signify 0.0 0.9 mm maximum dimensions or 0.00 0.09 mm maximum dimensions with A being 0.0 or 0.00 and L being 0.9 or 0.09.
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For flat cells the diameter code is given as the diameter of a circle circumscribed around the whole cell's area.
Standardized size codes for round batteries which do not follow the current nomenclature but have been retained for ease of use are given by a one or two digit number following the R. These include but are not limited to: [8]
IEC size codes for round batteries NumberRound button batteries also carry two-digit size codes such as R44, see the button battery table for typical dimensions. Other round, flat, and square sizes have been standardized but are used mostly for components of multi-cell batteries.
Assorted sizes of button and coin cells, including alkaline and silver oxide chemistries. Four rectangular 9 V batteries are also shown, for size comparison. Enlarge to see the button and coin cell size code markings.The following is a partial list of IEC standard recommended diameter and height codes for round cells:
IEC recommended round cell diameter and height codes Number[
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After the package size code(s), additional letters may optionally appear. Terminal styles and variants of the same battery can be designated with the letters X or Y. Performance levels may also be designated with a C, P, S, CF, HH, or HB or other letter suffixes. An appended letter "W" states that this battery complies with all the requirements of the IEC -3 standard for watch batteries, such as dimensional tolerance, chemical leakage, and test methods.
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IEC nomenclature classifies batteries according to their general shape and overall physical appearance. These categories, however, are not identified in the IEC battery nomenclature:[9][10]
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Nickel-cadmium and nickel-metal hydride batteries[
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Nickel-cadmium and Nickel-metal hydride batteries follow a similar rule as the system above;[11][12] especially cylindrical cells designed to be dimensionally interchangeable with primary batteries use the same designation as the primary batteries, the codes for electrochemical systems as below.
LetterAll other cells use the following system:
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IEC battery type designation systemLithium-ion batteries have a different rule for naming, which applies both to batteries of multiple cells and single cell. They will be designated as:[13]
N1A1A2A3N2/N3/N4-N5
where N1 denotes number of series connected cells and N5 denotes number of parallel connected cells (only when the number is greater than 1); these numbers only apply to batteries.
A1 indicates the basis of negative electrode phase, where I is for lithium ion and L is for lithium metal or alloy.
A2 indicates the basis of positive electrode phase, and could be C, N, M, V or T for cobalt, nickel, manganese, vanadium and titanium respectively.
A3 is for the shape of the cell; either R for cylinder or P for prism.
N2 is the maximum diameter (in case of cylindrical cells) or thickness (prismatic cells) in mm.
N3 is only used for prismatic cells to denote the maximum width in mm.
N4 is the maximum overall height in mm.
(For any of the lengths above, if the dimension is smaller than 1 mm it can be written as tN, where N is tenths of mm)
E.g. ICR19/66, ICP9/35/48, 2ICP20/34/70, 1ICP20/68/70-2
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Early editions of the ANSI standard used a letter code to identify the dimensions of the cell. Since at the time there were only carbon-zinc cells, no suffix letters or other notation were required. The letter system was introduced in the edition of the standard, with letters A through J assigned approximately in order of increasing cell volume, for cells typically manufactured at that time.[6] By , the system had been revised and extended to 17 sizes ranging from NS at 716 inch diameter by 34 inch height, through size J at 1+34 inches diameter by 5+78 inches high, to the largest standard cell which retained its old designation of No. 6 and which was 2+12 inches in diameter and 6 inches high.
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4.5-Volt, D, C, AA, AAA, AAAA, A23, 9-Volt, CR and LR44 cellsThe current edition of the standard uses a numerical code to show the cell size. Common round cell sizes are:
ANSI primary cell sizes and equivalent size designations NumberSince these IEC and ANSI battery standards have been harmonized, for example, an R20 cell will have the same dimensions as an ANSI 13 cell.
Flat cells, used as components of multi-cell batteries, have an F prefix and a series of numbers to identify sizes. Coin cells were assigned size codes in the range.
Secondary cells using systems H and K (nickel-metal hydride and nickel-iron sulfide) have a separate series of size codes, but the cells are dimensionally interchangeable with primary cells.
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The electrochemical system and performance information is given in suffix letters.
ANSI suffix letters[
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Letter Significance IEC system letter (none) carbon-zinc (none) A alkaline L AC alkaline industrial AP alkaline photographic C carbon-zinc industrial (none) CD carbon zinc industrial, heavy duty D carbon zinc, heavy duty F carbon zinc, general purpose H nickel metal hydride[
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