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{{Short description|Rechargeable battery for starting a car's combustion engine}}
[[Image:Photo-CarBattery.jpg|thumb|upright=1.35|A typical 12 V, 40 Ah lead-acid car battery]]
{{About|batteries that start engines and power accessories|batteries that power electric vehicles|Electric vehicle battery}}
An '''automotive battery''' is a type of [[rechargeable battery]] that supplies electric energy to an [[automobile]].<ref name=Bauer96>Horst Bauer ''Bosch Automotive Handbook 4th Edition'' Robert Bosch GmbH, Stuttgart 1996 ISBN 0-8376-0333-1, pages 803-807</ref> Usually this refers to an '''SLI battery''' (''starting, lighting, ignition'') to power the [[starter motor]], the lights, and the [[ignition system]] of a vehicle's [[internal combustion engine|engine]].
[[File:Photo-CarBattery.jpg|thumb|upright=1.35|A typical 12&nbsp;V, 40&nbsp;Ah [[lead–acid battery|lead-acid]] car battery]]


An '''automotive battery''', or '''car battery''', is a [[rechargeable battery]] that is used to start a [[motor vehicle]].
Automotive SLI batteries are usually [[lead–acid battery|lead-acid]] type, and are made of six [[galvanic cell]]s in [[Series circuits|series]] to provide a 12-[[volt]] system. Each cell provides 2.1 volts for a total of 12.6 volts at full charge. Heavy vehicles, such as highway trucks or tractors, often equipped with [[diesel engine]]s, may have two batteries in series for a 24-volt system or may have parallel strings of batteries.


Its main purpose is to provide an electric current to the [[Starter (engine)|electric-powered starting motor]], which in turn starts the chemically-powered [[internal combustion engine]] that actually propels the vehicle. Once the engine is running, power for the car's electrical systems is still supplied by the battery, with the [[alternator (automotive)|alternator]] charging the battery as demands increase or decrease.
Lead-acid batteries are made up of plates of [[lead]] and separate plates of [[lead dioxide]], which are submerged into an [[electrolyte]] solution of about 38% [[sulfuric acid]] and 62% [[water]].<ref name=Linden02>David Linden (ed), ''Handbook of Batteries Third Edition'',McGraw Hill, New York,2002 ISBN 0-07-135978-8, chapter 23</ref> This causes a [[chemical reaction]] that releases [[electrons]], allowing them to flow through [[Electrical conductor|conductor]]s to produce [[electricity]]. As the battery [[Battery capacity|discharges]], the acid of the electrolyte reacts with the materials of the plates, changing their surface to [[Lead(II) sulfate|lead sulfate]]. When the battery is [[Rechargeable battery#Charging|recharged]], the chemical reaction is reversed: the lead sulfate reforms into lead dioxide and lead. With the plates restored to their original condition, the process may now be repeated.


==Battery in modern cars==
[[Battery recycling]] of automotive batteries reduces the need for resources required for manufacture of new batteries, diverts toxic lead from landfills, and prevents risk of improper disposal.


===Gasoline and diesel engine===
==Types==<!-- This section is linked from [[Car audio]] -->
Typically, starting uses less than three percent of the battery capacity. For this reason, automotive batteries are designed to deliver maximum current for a short period of time. They are sometimes referred to as "SLI batteries" for this reason, for starting, lighting and ignition. SLI batteries are not designed for deep discharging, and a full discharge can reduce the battery's lifespan.<ref>{{cite web |last=Johnson |first=Larry |title=Battery Tutorial |url=https://www.chargingchargers.com/tutorials/batteries.html |website=chargingchargers.com |publisher=Charging Chargers |access-date=2016-02-15}}</ref><ref>{{Cite journal |last1=Pradhan |first1=S. K. |last2=Chakraborty |first2=B. |date=2022-07-01 |title=Battery management strategies: An essential review for battery state of health monitoring techniques |url=https://www.sciencedirect.com/science/article/pii/S2352152X22004509 |journal=Journal of Energy Storage |volume=51 |pages=104427 |doi=10.1016/j.est.2022.104427 |bibcode=2022JEnSt..5104427P |issn=2352-152X}}</ref>


As well as starting the engine, an SLI battery supplies the extra power necessary when the vehicle's electrical requirements exceed the supply from the charging system. It is also a stabilizer, evening out potentially damaging [[voltage spike]]s.<ref>{{cite web |title=What is a lead battery? |url=https://aboutbatteries.batterycouncil.org/What-is-a-lead-battery |website=batterycouncil.org |access-date=2016-02-17}}</ref> While the engine is running most of the power is provided by the alternator, which includes a [[voltage regulator]] to keep the output between 13.5 and 14.5&nbsp;V.<ref>{{cite web |title=Automotive Charging Systems – A Short Course on How They Work |url=https://www.carparts.com/blog/a-short-course-on-charging-systems/}}</ref> Modern SLI batteries are [[lead–acid battery|lead-acid]] type, using six series-connected cells to provide a nominal 12-volt system (in most passenger vehicles and light trucks), or twelve cells for a 24-volt system in heavy trucks or earth-moving equipment, for example.<ref>{{cite web |title=Q & A: Car Batteries |url=https://van.physics.illinois.edu/qa/listing.php?id=567 |website=van.physics.illinois.edu |access-date=2016-02-18}}</ref>
Stop removing the vtec ghee, that's ratshit <ref>www.yourmumsmelons.com</ref>


Gas explosions can occur at the negative electrode where hydrogen gas can build up due to blocked battery vents or a poorly ventilated setting, combined with an ignition source.<ref name="Vartabedian 1999">{{citation |last=Vartabedian |first=Ralph |title=How to Avoid Battery Explosions (Yes, They Really Happen) |url=https://www.latimes.com/archives/la-xpm-1999-aug-26-hw-3902-story.html |newspaper=[[Los Angeles Times]] |date=August 26, 1999}}</ref> Explosions during engine start-up are typically associated with corroded or dirty battery posts.<ref name="Vartabedian 1999"/> A 1993 study by the US [[National Highway Traffic Safety Administration]] said that 31% of vehicle battery explosion injuries occurred while charging the battery.<ref name="NHTSA 1993">{{citation |title=Injuries Associated With Hazards Involving Motor Vehicle Batteries |url=https://crashstats.nhtsa.dot.gov/enwiki/api/Public/ViewPublication/97840 |publisher=[[National Highway Traffic Safety Administration]] |date=July 1997}}</ref> The next-most common scenarios were while working on cable connections, while jump-starting, typically by failing to connect to the dead battery before the charging source and failing to connect to the vehicle chassis rather than directly to the grounded battery post, and while checking fluid levels.<ref name="Vartabedian 1999"/><ref name="NHTSA 1993"/> Close to two-thirds of those injured suffered chemical burns, and nearly three-fourths suffered eye injuries, among other possible injuries.<ref name="NHTSA 1993"/>
Lead-acid batteries for automotive use are made with slightly different construction techniques, depending on the application of the battery. The "flooded cell" type, indicating liquid electrolyte, is typically inexpensive and long-lasting, but requires more maintenance and can spill or leak. Some flooded batteries have removable caps that allow for the electrolyte to be tested and maintained.


===Electric and hybrid cars===
More costly alternatives to flooded batteries are [[VRLA battery|valve regulated lead acid]] (VRLA) batteries, also called "sealed" batteries. The absorbed glass mat (AGM) type uses a glass mat separator, and a "gel cell" uses fine powder to absorb and immobilize the sulfuric acid electrolyte. These batteries are not serviceable: the cells are sealed so the degree of charge cannot be measured by hydrometer and the electrolyte cannot be replenished. They are typically termed "maintenance-free" by proponents, or "unable to be maintained" by skeptics. In particular, they are not suitable for older (pre-alternator) vehicles with unsophisticated charging control systems.<ref>{{cite web|url=http://www.battcon.com/PapersFinal2009/ClarkPaper2009FINAL_12.pdf|title=Lead-Antimony, Lead-Calcium, Lead-Selenium, VRLA, NI-CD. What's In A Name? |author=Clark, M.S. (Steve)|year=2008 |work= |publisher=www.battcom.com |accessdate=1 February 2012}}(noting sealed batteries are unreliable, "susceptible to thermal runaway, open circuit failure which renders the battery inoperable, and typically have much shorter lifetimes than their flooded brothers.")</ref><ref>{{cite web |url= http://handybobsolar.wordpress.com/the-rv-battery-charging-puzzle-2/ |title=The RV Battery Charging Puzzle |author=HandyBob |date=2004 revised 2010 |work= |publisher= |accessdate=1 February 2012}} (saying that with sealed batteries, you can not check the electrolyte to monitor their condition or diagnose if they are being improperly charged, and they give you "less power in the same amount of space and weight.")</ref><ref>{{cite web |url=http://www.sterling-power.com/support-faq-2.htm |title=FAQ: What Is The Best Battery System to Use for an Auxiliary Charging System|author= Sterling, Charles |year=2009 |work= |publisher= |accessdate=2 February 2012}} (discussing excessive cost and poor performance of sealed gel or AGM batteries versus regular lead-acid flooded batteries.)</ref> Both types of sealed batteries may be used in vehicular applications where leakage or ventilation for vented gasses is a concern.
[[Electric vehicle]]s (EVs) are powered by a high-voltage [[electric vehicle battery]], but they usually have an automotive battery as well, so that they can use standard automotive accessories which are designed to run on 12&nbsp;V. They are often referred to as ''auxiliary batteries.''


Unlike conventional, [[internal combustion engine]]d vehicles, EVs don't charge the auxiliary battery with an alternator—instead, they use a [[DC-to-DC converter]] to step down the high voltage to the required float-charge voltage (typically around 14 V).<ref>{{cite web |last1=Herron |first1=David |title=Why is there a 12 volt lead-acid battery, and how is it charged in an electric car? |url=https://greentransportation.info/ev-charging/range-confidence/chap8-tech/charge-12v-battery.html |website=greentransportation.info |access-date=24 May 2020 |language=en}}</ref>
The '''starting''' (''cranking'') or ''shallow [[Charge cycle|cycle]]'' type is designed to deliver large bursts of power for a short time, as is needed to start an engine. Once the engine is started, the battery is recharged by the engine-driven charging system. Starting batteries are intended to have a low depth of discharge on each use. They are constructed of many thin plates with thin separators between the plates, and may have a higher specific gravity electrolyte to reduce internal resistance.<ref name=Bauer96/>


Further, an electric vehicle does not have a starter motor, thus needs only a limited amount of power and energy from its auxiliary battery. As such, [[Tesla, Inc.|Tesla]] introduced in 2021 a [[lithium-ion]] auxiliary battery storing only 99&nbsp;[[Watt-hour|Wh]] of energy.<ref>{{cite news|url= https://insideevs.com/news/546087/tesla-liion-12v-auxiliary-battery/ |title= Tesla's New 12V Li-Ion Auxiliary Battery Has CATL Cells Inside |website= insideevs.com |first= Mark |last= Kane |date= 2021-11-07 |access-date= 2023-12-07}}</ref>
The '''[[deep cycle car battery|deep cycle]]''' (or ''motive'') type is designed to continuously provide power for long periods of time (for example in a trolling motor for a small boat, auxiliary power for a [[recreational vehicle]], or traction power for a [[golf cart]] or other [[battery electric vehicle]]). They can also be used to store energy from a [[solar cell|photovoltaic]] array or a small [[wind turbine]]. Deep-cycle batteries have fewer, thicker plates and are intended to have a greater depth of discharge on each cycle, but will not provide as high a current on heavy loads. The thicker plates survive a higher number of charge/discharge cycles. The [[specific energy]] is in the range of 30-40 [[watt-hour]]s per kilogram.<ref name=Linden02/>


==History==
Some cars use more exotic starter batteries–the 2010 [[Porsche 911 GT3 RS]] offers a [[lithium-ion battery]] as an option to save weight over a conventional lead-acid battery.<ref>{{cite web|last=Wert |first=Ray |url=http://jalopnik.com/5340633/2010-porsche-911-gt3-rs-track+ready-street+legal-and-more-power/gallery/ |title=2010 Porsche 911 GT3 RS: Track-Ready, Street-Legal And More Power |publisher=Jalopnik.com |date=2009-08-19 |accessdate=2009-09-18| archiveurl= http://web.archive.org/web/20091021092447/http://jalopnik.com/5340633/2010-porsche-911-gt3-rs-track+ready-street+legal-and-more-power/gallery/| archivedate= 21 October 2009 <!--DASHBot-->| deadurl= no}}</ref>
Early cars did not have batteries, as their electrical systems were limited. Electric power for the ignition was provided by a [[Ignition magneto|magneto]], the engine was started with a [[crank (mechanism)|crank]], [[Headlamp|headlights]] were [[Carbide lamp|gas-powered]] and a bell or bulb-horn was used instead of an electric horn. Car batteries became widely used around 1920 as cars became equipped with [[starter (engine)|electric starter motors]].<ref name="RAC" />


The first starting and charging systems were designed to be 6-volt and positive-[[ground (electricity)|ground]] systems, with the vehicle's chassis directly connected to the positive battery terminal.<ref>{{cite web |title=Positive Vs. Negative Ground - Will charger work on positive ground vehicles? |url=http://www.batteryfloatchargers.com/battery_charging_safety.htm|archive-url=https://web.archive.org/web/20200727081706/http://www.batteryfloatchargers.com/battery_charging_safety.htm |archive-date=2020-07-27 }}</ref> Today, almost all road vehicles have a negative ground system.<ref>{{cite web |title=Why POSITIVE EARTH? |url=https://mgaguru.com/mgtech/electric/et098.htm |website=MGAguru.com |access-date=2019-04-20}}</ref> The negative battery terminal is connected to the car's [[chassis]].
==Use and maintenance==


[[Hudson Motor Car Company|The Hudson Motor Car Company]] was the first to use a standardized battery in 1918 when they started using [[Battery Council International]] batteries. BCI is the organization that sets the dimensional standards for batteries.<ref>{{cite web |title=6-Volt Batteries |url=https://www.hemmings.com/stories/article/6-volt-batteries |date=July 2006 |website=hemmings.com |access-date=2016-02-17}}</ref>
===Fluid level===
[[Image:BatteryWater2.jpg|thumb|Filling a (flooded lead-acid type) car battery with [[distilled water]]]]
Car batteries using lead-antimony plates require regular watering to replace water lost due to [[electrolysis]] on each charging cycle. By changing the alloying element to calcium, more recent designs have lower water loss, unless overcharged. Modern car batteries have reduced maintenance requirements, and may not provide caps for addition of water to the cells. Such batteries include extra electrolyte above the plates to allow for losses during the battery life. If the battery has easily detachable caps then a top-up with [[distilled water]] may be required from time to time. Prolonged overcharging or charging at excessively high voltage causes some of the water in the electrolyte to be broken up into hydrogen and oxygen gases, which escape from the cells; this is called gassing. If the electrolyte liquid level drops too low, the plates are exposed to air, lose capacity, and are damaged. The sulfuric acid in the battery normally does not require replacement since it is not consumed even on overcharging. Impurities or additives in the water will reduce the life and performance of the battery. Manufacturers usually recommend use of demineralized or distilled water, since even potable tap water can contain high levels of minerals.


Cars used 6&nbsp;V electrical systems and batteries until the mid-1950s. The changeover from 6 to 12&nbsp;V happened when bigger engines with higher [[compression ratio]]s required more electrical power to start.<ref>{{cite web |title=6 Volt to 12 Volt Changeover |url=https://www.fillingstation.com/articles/6volt.htm |website=fillingstation.com |access-date=2016-02-17 |archive-date=2016-03-02 |archive-url=https://web.archive.org/web/20160302050731/https://www.fillingstation.com/articles/6volt.htm |url-status=dead }}</ref> Smaller cars, which required less power to start stayed with 6&nbsp;V longer, for example the [[Volkswagen Beetle]] in the mid-1960s and the [[Citroën 2CV]] in 1970.
===Charge and discharge===
In normal automotive service the vehicle's charging system powers the vehicle's electrical systems and restores charge used from the battery during engine cranking. When installing a new battery or recharging a battery that has been accidentally discharged completely, one of several different methods can be used to charge it. The most gentle of these is called [[trickle charging]]. Other methods include slow-charging and quick-charging, the latter being the harshest.


The AGM [[sealed battery]] (for automobiles), which did not require refilling, was invented in 1971.<ref name="RAC">{{cite web |title=History of the car battery |website=racshop.co.uk |access-date=2016-02-17 |url=http://www.racshop.co.uk/car-battery/history-of-the-car-battery.html |url-status=dead |archive-url=https://web.archive.org/web/20161228032608/http://www.racshop.co.uk/car-battery/history-of-the-car-battery.html |archive-date=2016-12-28}}</ref>
The voltage regulator of the charge system does not measure the relative currents charging the battery and for powering the car's loads. The charge system essentially provides a fixed voltage of typically 13.8 to 14.4 V, adjusted to ambient temperature, unless the alternator is at its current limit. A discharged battery draws a high charge current of typically 20 to 40 A. As the battery becomes charged the charge current typically decreases to 2—5 amperes. A high load is when multiple high-power systems such as ignition, radiator fan, heater blowers, lights and entertainment system are running at the same time. In older (up to the 1980s) vehicles the battery may discharge unless the engine is running at a higher than idle rpm and the alternator/generator is delivering enough current to power the load. This is not an issue for modern vehicles where alternators provide enough current for all loads and a regulator keeps charging voltage in check. In such cars rpm has little influence on the battery voltage - tests show near normal voltage regardless of the AC / headlights / music / fan / defrosting / other electrical loads, even at idle.


In the 1990s a [[42-volt electrical system|42V electrical system]] standard was proposed. It was intended to allow more powerful electrically driven accessories, and lighter automobile wiring harnesses. However, the availability of higher-efficiency motors, new wiring techniques, and digital controls, and a focus on hybrid vehicle systems that use high-voltage starter/generators have largely eliminated the push for switching the main automotive voltages.<ref>{{cite web |title=Whatever Happened to the 42-Volt Car? |url=https://www.popularmechanics.com/cars/a2198/4226979/ |website=Popular Mechanics |date=2009-10-01 |access-date=2016-02-18}}</ref>
Some manufacturers include a built-in [[hydrometer]] to show the state of charge of the battery, a transparent tube with a float immersed in the electrolyte visible through a window. When the battery is charged, the specific gravity of the electrolyte increases (since all the sulfate ions are in the electrolyte, not combined with the plates), and the colored top of the float is visible in the window. When the battery is discharged, or the electrolyte level is too low, the float sinks and the window appears yellow (or black). The built-in hydrometer only checks the state of charge of one cell and will not show faults in the other cells. In a non-sealed battery each of the cells can be checked with a portable or hand-held hydrometer.
[[Image:CrocodileClamponBattery.jpg|thumb| A positive (red) jumper cable connected to battery post. An optional hydrometer window is visible by the single jumper clamp. (The black negative jumper clamp is not shown)]]


In 2023 [[Tesla, Inc.|Tesla]] started deliveries of their [[Tesla Cybertruck|Cybertruck]] that uses a [[48-volt electrical system]], reducing 70% of the wiring in the vehicle.<ref>{{cite news |url=https://thedriven.io/2023/12/01/whole-new-step-change-in-technology-cybertruck-starts-at-us61000/ |title="Whole new step-change in technology:" Cybertruck starts at $US61,000 |website=The Driven |location=Australia |first=Riz |last=Akhtar |date=December 1, 2023 |access-date=December 7, 2023}}</ref>
A vehicle can be [[jump start (internal combustion engine)|jump started]] by the battery of another vehicle or by a portable battery booster. It is possible to charge a battery fully using solely the alternator, either by raising the engine's RPM while parked or by regular driving. Recharging can be enhanced by turning off accessories so the greatest amount of power is available to recharge the battery, as well as by moderately revving the engine, or driving in lower gears as that leads to higher RPMs, and producing higher alternator output than at idle speed.<ref name=CarTalk>{{Citation |url= http://www.cartalk.com/content/revving-engine-good-idea-during-jump-start-find-out |title=Is revving the engine a good idea during a jump-start? Find out |first1= Tom |last1= Magliozzi |first2= Ray |last2= Magliozzi|authorlink= Tom and Ray Magliozzi |work= |date= Apr 1, 2007 |work= [[Car Talk]] |publisher= Tappet Brothers }}</ref> A 12 volt car battery fully charged should output around 12.6 volts.


==Design==
However, it is preferable to use a battery charger whenever possible because the above method will shorten the lifespan of the alternator and gasoline is much more expensive than wall outlet electricity. Simple chargers do not regulate the charge current, and the user needs to stop the process or lower the charge current to prevent excessive gassing of the battery. More elaborate chargers, in particular those implementing the ''3-step charge'' profile, also referred to as [[IUoU]], charge the battery fully and safely in a short time without requiring user intervention. [[Lead–acid battery#Sulfation and desulfation|Desulfating]] chargers are also commercially available for charging all types of lead-acid batteries.
An automobile battery is an example of a [[wet cell]] battery, with six cells. Each cell of a lead storage battery consists of alternate plates made of a lead alloy grid filled with sponge lead plates ([[cathode]])<ref name=":0" /> or coated with lead dioxide ([[anode]]).<ref name=":0">{{cite web
|url=https://hypertextbook.com/facts/2001/ThiMeaganLe.shtml
|title=Voltage of a car battery
|first=Thi Meagan
|last=Le
|year=2001
|website=The Physics Factbook
|editor-last=Elert
|editor-first=Glenn
|accessdate=2022-01-24
}}</ref> Each cell is filled with a [[sulfuric acid]] solution, which is the electrolyte. Initially, cells each had a filler cap, through which the electrolyte level could be viewed and which allowed water to be added to the cell. The filler cap had a small vent hole which allowed [[hydrogen]] gas generated during charging to escape from the cell.


The cells are connected by short heavy straps from the positive plates of one cell to the negative plates of the adjacent cell. A pair of heavy terminals, plated with lead to resist corrosion, are mounted at the top, sometimes the side, of the battery. Early auto batteries used hard rubber cases and wooden plate separators. Modern units use plastic cases and woven sheets to prevent the plates of a cell from touching and short-circuiting.
===Storage===
Unlike [[lithium polymer|lithium]] based batteries, automotive batteries last longer when stored in a charged state. Leaving an automotive battery discharged will shorten its life, or make it unusable if left for a long time (usually several years); [[Lead-acid battery#Sulfation|sulfation]] eventually becomes irreversible with normal charging. Batteries in storage may be monitored and periodically charged, or attached to a "float" charger to retain their capacity. One practical method is to use an inexpensive 24 hour timer that turns a charger on for 30 minutes per day. Batteries are prepared for storage by charging and cleaning deposits from the posts. Batteries are stored in a cool, dry environment for best results since high temperatures increase the self discharge rate and plate corrosion.


In the past, auto batteries required regular inspection and maintenance to replace water that was decomposed during the operation of the battery. "Low-maintenance" (sometimes called "zero-maintenance") batteries use a different alloy for the plate elements, reducing the amount of water decomposed on charging. A modern battery may not require additional water over its useful life; some types eliminate the individual filler caps for each cell. A weakness of these batteries is that they are very intolerant of deep discharge, such as when the car battery is completely drained by leaving the lights on. This coats the lead plate electrodes with lead sulfate deposits and can reduce the battery's lifespan by a third or more.
In the past, storing lead-acid batteries on the ground, or on [[concrete]] or [[cement]] floors, was believed to cause batteries to discharge or be otherwise damaged, but this is no longer a concern.<ref name=Snopes>{{Citation |url= http://www.snopes.com/autos/techno/battery.asp |title= Battery Parked |work= [[Snopes.com]] |date= February 8, 2011 |accessdate= June 2, 2013 }}</ref> In spite of this, the advice to never leave a battery on a concrete floor persists.<ref>{{Citation |title= Popular Mechanics Complete Car Care Manual; Popular Mechanics Series |publisher= Hearst Books |year= 2005 |ISBN= 9781588164391 |url= http://books.google.com/books?id=39xxTCsBjUAC&pg=PA289 |page= 289 |accessdate= June 2, 2013 }}</ref><ref>{{Citation |url= http://books.google.com/books?id=t5uTktdsu3AC&pg=PA30 |page= 30 |title= Advanced photovoltaic installations |first1= John |last1= Balfour |first2= Michael |last2= Shaw |first3= Nicole |last3= Bremer Nash |publisher= Jones & Bartlett Publishers |year= 2011 |ISBN= 9781449624712 |accessdate= June 2, 2013 }}</ref> Modern batteries use tough polycarbonate cases that do not conduct current or allow moisture to pass, and maintenance free batteries are the norm, so large amounts of leaking acid are rarely seen, providing no route for current to flow.<ref name=Cartalk>{{Citation |title= Ask Click and Clack: Answers from Car Talk |first1= Tom |last1= Magliozzi |author1link= Tom Magliozzi |first2= Ray |last2= Magliozzi |author2-link= Ray Magliozzi |url= http://books.google.com/books?id=Z1nntWoIBp4C&pg=PA68 |pages=68–69 |publisher= Chronicle Books |year= 2008 |ISBN= 9780811864770 |accessdate= June 2, 2013 }}</ref> One battery manufacturer even prefers storing new batteries on concrete in the summer to keep them cooler, decreasing the natural discharge rate.<ref name=Cartalk/> Early batteries had wooden cases, and could absorb moisture from wet concrete, giving current a route to discharge.<ref>{{citation |url=http://books.google.com/books?id=MxXlKb9wIe0C&pg=PA136 |title= Car Care Auto Clinic |magazine= [[Popular Mechanics]] |date= November 2000 |volume= 177 |issue= 11 |ISSN=0032-4558 |page=136 |accessdate= June 2, 2013 }}</ref> Another explanation for the admonition to avoid concrete is that wooden cases in the earliest batteries encased a glass jar, which could be broken by swelling wood if the wood casing became damp.<ref name=batteryterminal>{{citation |url= http://www.thebatteryterminal.com/TechTalk_Batteries_on_Concrete.htm |title= Storing Batteries on Concrete? |work= TheBatteryTerminal.com |publisher= Interstate Battery System of Detroit |accessdate= June 2, 2013 }}</ref> Later hard rubber cases were porous and had a high carbon content, leaving another route for current leakage, but modern plastic cases are five or more times better insulators than rubber, and the terminal seals do not leak as they once did.<ref name=batteryterminal/>


[[VRLA battery|VRLA]] batteries, also known as absorbed glass mat (AGM) batteries are more tolerant of deep discharge but are more expensive.<ref name="How to Get the Right Car Battery">{{cite web |title=How to Get the Right Car Battery |url=https://www.consumerreports.org/cars-how-to-get-the-right-car-battery/ |website=Consumer Reports |date=15 December 2015 |access-date=2016-02-17 |language=en-US}}</ref> VRLA batteries do not permit addition of water to the cell. The cells each have an automatic pressure release valve, to protect the case from rupture on severe overcharge or internal failure. A VRLA battery cannot spill its electrolyte which makes it particularly useful in vehicles such as motorcycles.
===Changing a battery===
When changing a battery, battery manufacturers recommend disconnecting the negative ground connection first to prevent accidental short-circuits between the battery terminal and the vehicle frame. Conversely the positive cable is connected first. Of course, this only applies to negative-earth vehicles - a better rule is to disconnect the earth or ground terminal first, this works whatever the polarity of the system. A study by the National Highway Traffic Safety Association estimated that in 1994 more than 2000 people were injured in the United States while working with automobile batteries. Another safety factor in the operation is to remove metal bracelets including watches.


Batteries are typically made of six [[galvanic cell]]s in a [[series circuit]]s. Each cell provides 2.1 volts for a total of 12.6 volts at full charge.<ref>{{cite web |title=Basic Battery Care |url=http://www.popularmechanics.com/cars/how-to/a265/1608582/?click=main_sr |website=Popular Mechanics |date=2006-03-29 |access-date=2016-02-17}}</ref> During discharge, at the negative (lead) terminal a [[chemical reaction]] releases [[electron]]s to the external circuit, and at the positive (lead oxide) terminal another chemical reaction absorbs electrons from the external circuit. This drives the electrons through the external circuit wire (an electrical [[electrical conductor|conductor]]) to produce an electric current ([[electricity]]). As the battery [[battery capacity|discharges]], the acid of the electrolyte reacts with the materials of the plates, changing their surface to [[lead(II) sulfate|lead sulfate]]. When the battery is [[rechargeable battery#Charging and discharging|recharged]], the chemical reaction is reversed: the lead sulfate reforms into lead dioxide. With the plates restored to their original condition, the process may be repeated.
The majority of automotive lead-acid batteries are filled with the appropriate electrolyte solution at the manufacturing plant, and shipped to the retailers ready to sell.<!-- Dubious?--> Decades ago, this was not the case. The retailer filled the battery, usually at the time of purchase, and charged the battery. This was a time-consuming and potentially dangerous process. Care had to be taken when filling the battery with [[acid]], as acids are highly corrosive and can damage eyes, [[skin]] and mucous membranes. Fortunately, this is less of a problem these days, and the need to fill a battery with acid usually only arises when purchasing a motorcycle or ATV battery.


Some vehicles use other starter batteries. For weight savings, the 2010 [[Porsche 911 GT3 RS]] has a [[lithium-ion battery]] as an option;<ref>{{cite web |last=Wert |first=Ray |url=https://jalopnik.com/2010-porsche-911-gt3-rs-track-ready-street-legal-and-5340633 |title=2010 Porsche 911 GT3 RS: Track-Ready, Street-Legal And More Power |publisher=Jalopnik.com |date=2009-08-19 |access-date=2009-09-18 |url-status=live |archive-url=https://web.archive.org/web/20091021092447/http://jalopnik.com/5340633/2010-porsche-911-gt3-rs-track%2Bready-street%2Blegal-and-more-power/gallery/ |archive-date=21 October 2009}}</ref> from 2018 onward, all [[Kia Niro]] conventional hybrids feature one as well.<ref>{{cite web |title=2017 Kia Niro: The Troublemaker - The Car Guide |url=https://amp.guideautoweb.com/en/articles/41669/2017-kia-niro-the-troublemaker/ |access-date=2022-03-09 |website=amp.guideautoweb.com}}</ref> Heavy vehicles may have two batteries in [[series and parallel circuits|series]] for a 24{{nbsp}}V system or may have series-parallel groups of batteries supplying 24{{nbsp}}V.<ref>{{cite web |title=Automotive/SLI Batteries - Batteries by Fisher |website=Batteries by Fisher |language=en-US |url=http://batteriesbyfisher.com/automotive-sli-batteries |access-date=2016-02-15 |url-status=dead |archive-date=2016-02-06 |archive-url=https://web.archive.org/web/20160206142610/http://batteriesbyfisher.com/automotive-sli-batteries}}</ref>
===Freshness===
Because of sulfation, lead-acid batteries stored with electrolyte slowly deteriorate. Car batteries are date coded to ensure installation within one year of manufacture. In the [[United States]], the manufacturing date is printed on a sticker. The date can be written in plain text or using an alphanumerical code. The first character is a letter that specifies the month (A for January, B for February and so on).<ref>{{cite web|author=From the Mopar Mailing List archives. |url=http://www.allpar.com/fix/batteries.html |title=Battery Date Codes |publisher=Allpar.com |date= |accessdate=2009-09-18}}</ref> The letter "I" is skipped due to its potential to be mistaken for the number 1. The second character is a single digit that indicates the year of manufacturing (for example, 6 for 2006). When first installing a newly purchased battery a [[Desulfation|"top up" charge]] at a low rate with an external battery charger (available at auto parts stores) may maximize battery life and minimize the load on the vehicle charging system.


==Failure==
==Specifications==
Common battery faults include:
* Shorted cell due to failure of the separator between the positive and negative plates
* Shorted cell or cells due to buildup of shed plate material below the plates of the cell
* Broken internal connections due to corrosion
* Broken plates due to vibration and corrosion
* Low electrolyte level
* Cracked or broken case
* Broken terminals
* [[Sulfation]] after prolonged disuse in a low or zero charged state
* Frequent and continuous overcharge


===Physical format===
Corrosion at the [[battery terminals]] can prevent a car from starting due to [[electrical resistance]]. The white powder sometimes found around the battery terminals is usually [[lead sulfate]] which is toxic by inhalation, ingestion and skin contact. The corrosion is caused by an imperfect seal between the plastic battery case and lead battery post allowing sulfuric acid to react with the lead battery posts. The corrosion process is also expedited by over charging. Corrosion can also be caused by factors such as salt water, dirt, heat, humidity, cracks in the battery casing or loose battery terminals. Inspection, cleaning and protection with a light coating of [[dielectric grease]] are measures used to prevent corrosion of battery terminals.
Batteries are grouped by physical size, type and placement of the terminals, and mounting style.<ref name="How to Get the Right Car Battery" />


===Amp hours (Ah)===
Sulfation occurs when a battery is not fully charged. The longer it remains in a discharged state the harder it is to overcome sulfation. This may be overcome with slow, low-current (trickle) charging. Sulfation is the formation of large, non-conductive [[lead sulfate]] crystals on the plates; lead sulfate formation is part of each cycle, but in the discharged condition the crystals become large and block passage of current through the electrolyte.<ref>{{cite web |url=http://www.amperis.com/en/resources/articles/desc-treatment-sulphated-batteries-using-charger-discharger-analyzer/ |title=Description and treatment of sulphated batteries}}</ref>
[[Ampere hour]]s (Ah or A·h) is a unit related to the energy storage capacity of the battery. This rating is required by law in Europe.


The ampere hour rating is generally defined as the product of (the current a battery can provide for 20 hours at a constant rate, at 80 degrees F (26.6&nbsp;°C), while the voltage drops to a cut-off of 10.5 volts) times 20 hours. In theory, at 80 degrees F, a 100&nbsp;Ah battery should be able to continuously provide 5 amps for 20 hours while maintaining a voltage of at least 10.5 volts. The relationship between the Ah capacity and the discharge rate is not linear; as the discharge rate is increased, the capacity decreases. A battery with a 100&nbsp;Ah rating generally will not be able to maintain a voltage above 10.5 volts for 10 hours while being discharged at constant rate of 10 amps. Capacity also decreases with temperature.
The primary wear-out mechanism is the shedding of active material from the battery plates, which accumulates at the bottom of the cells and which may eventually short-circuit the plates.


===Cranking amperages (CCA, CA, MCA, HCA)===
Early automotive batteries could sometimes be repaired by dismantling and replacing damaged separators, plates, intercell connectors and other repairs. Modern battery cases do not facilitate such repairs; an internal fault generally requires replacement of the entire unit.<ref name=Bauer96/>
* Cold cranking amperes (CCA): the amount of current a battery can provide at {{cvt|0|F}} for 30 seconds while maintaining a voltage of at least 7.2 volts. Modern cars with computer-controlled [[fuel injection|fuel-injected]] engines take no more than a few seconds to start and CCA figures are less important than they used to be.<ref name=ConsumerReports2015>{{cite web |title=From Our Experts: Car Battery Tips |magazine=[[Consumer Reports]] |language=en-US |date=December 2, 2015 |url=http://www.consumerreports.org/cars/expert-advice-on-car-batteries |access-date=2016-02-17 |url-status=dead |archive-url=https://web.archive.org/web/20151206005104/http://www.consumerreports.org/cars/expert-advice-on-car-batteries |archive-date=December 6, 2015}}</ref> It is important not to confuse CCA with CA/MCA or HCA numbers as the latter will always be higher due to warmer temperatures. For example, a 250 CCA battery will have more starting power than a 250 CA (or MCA) one, and likewise a 250 CA will have more than a 250 HCA one.<ref>{{cite web |url=https://www.bauerbuilt.com/about/blog/articleid/65/winter-is-coming-do-you-know-your-battery's-cca-rating.aspx |title=Winter Is Coming... Do You Know Your Battery's CCA Rating? |website=Bauer Built Inc. |access-date=2021-05-14 |archive-date=2019-03-02 |archive-url=https://web.archive.org/web/20190302025250/https://www.bauerbuilt.com/about/blog/articleid/65/winter-is-coming-do-you-know-your-battery%E2%80%99s-cca-rating.aspx |url-status=dead}}</ref>
* Cranking amperes (CA): the amount of current a battery can provide at {{Convert|32|°F|abbr=on}}, again for 30 seconds at a voltage equal to, or greater than, 7.2 volts.
* Marine cranking amperes (MCA): like CA, the amount of current a battery can provide at {{Convert|32|°F|abbr=on}}, and often found on batteries for boats (hence "marine") and lawn garden tractors which are less likely to be operated in conditions where ice can form.<ref>{{cite web |url=https://knowhow.napaonline.com/marine-battery-vs-car-battery-what-are-the-differences/ |title=Marine Battery vs. Car Battery: What Are the Differences? |date=October 4, 2018}}</ref>
* Hot cranking amperes (HCA) is the amount of current a battery can provide at {{cvt|80|F}}. The rating is defined as the current a lead-acid battery at that temperature can deliver for 30 seconds and maintain at least 1.2&nbsp;volts per cell (7.2&nbsp;volts for a 12-volt battery).


==Exploding batteries==
===Group size===
[[Battery Council International]] (BCI) group size specifies a battery's physical dimensions, such as length, width, and height. These groups are determined by the organization.<ref>{{cite web |url=https://batterycouncil.org/store/ViewProduct.aspx?ID=1298145 |title=BCI Battery Service Manual 14th Edition - Download - Battery Council International |website=batterycouncil.org |access-date=2019-03-01 |archive-date=2020-08-07 |archive-url=https://web.archive.org/web/20200807221040/https://batterycouncil.org/store/viewproduct.aspx?ID=1298145 |url-status=dead}}</ref><ref>{{cite web |url=https://www.yumpu.com/en/document/view/6612702/bci-battery-technical-manual |title=bci-battery-technical-manual |website=yumpu.com |access-date=2019-03-01 |archive-date=2019-03-02 |archive-url=https://web.archive.org/web/20190302025059/https://www.yumpu.com/en/document/view/6612702/bci-battery-technical-manual |url-status=dead }}</ref>
[[Image:ExplodedBattery.jpeg|thumb|Car battery after explosion]]
Any lead-acid battery system when overcharged (>14.34 V) will produce hydrogen gas (''gassing voltage'') by electrolysis of water. If the rate of overcharge is small, the vents of each cell allow the dissipation of the gas. However, on severe overcharge or if ventilation is inadequate, or the battery is faulty, a flammable concentration of hydrogen may remain in the cell or in the battery enclosure. An internal spark can cause a [[hydrogen]] and [[oxygen]] [[explosion]], which will damage the battery and its surroundings and which will disperse acid into the surroundings. Anyone close to the battery may be injured.


===Date codes===
Sometimes the ends of a battery will be severely swollen, and when accompanied by the case being too hot to touch, this usually indicates a malfunction in the charging system of the car. Reversing the positive and negative leads will damage the battery. When severely overcharged, a lead-acid battery produces high levels of hydrogen and the venting system built into the battery cannot handle the high level of gas, so the pressure builds inside the battery, resulting in the swollen ends. An unregulated alternator can quickly ruin a battery by excessive voltage. A swollen, hot battery is dangerous.
* In the United States there are codes on batteries that indicate when they were manufactured. When batteries are stored, they start losing their charge; this is due to non-current-producing chemical reactions of the electrodes with the battery acid. A battery made in October 2015 will have a numeric code of 10-5 or an alphanumeric code of K-5. "A" is for January, "B" is for February, and so on (the letter "I" is skipped).<ref name=ConsumerReports2015 />
* In South Africa the code on a battery to indicate production date is part of the casing and cast into the bottom left of the cover. The code is year and week number (YYWW), e.g. 1336 is for week 36 in the year 2013.


==Use and maintenance==
Another potential cause of explosion is when the battery terminals are short-circuited via a very low resistance path (like a wrench or other tool dropped or lying across the terminals). Apart from the sparks which usually occur in a short circuit, heating due to the internal resistance of the battery can cause the electrolyte to boil, also leading to explosion due to buildup of water vapor pressure (unrelated to electrolysis).
Excess heat is a main cause of battery failures, as when the electrolyte evaporates due to high temperatures, decreasing the effective surface area of the plates exposed to the electrolyte, and leading to sulfation. Grid corrosion rates increase with temperature.<ref>{{Citation |journal=[[Journal of Power Sources]] |volume=127 |issue=1–2 |date=March 10, 2004 |pages=33–44 |title=Aging mechanisms and service life of lead–acid batteries |first=Paul |last=Ruetschi |bibcode=2004JPS...127...33R |doi=10.1016/j.jpowsour.2003.09.052}}</ref><ref>{{Citation |url=https://www.consumerreports.org/cro/car-batteries/buying-guide/index.htm |magazine=[[Consumer Reports]] |title=Car batteries Buying Guide |date=August 2016}}</ref> Also low temperatures can lead to battery failure.<ref>{{Citation |url=https://www.12vmonster.com/blogs/product-questions/the-most-common-reasons-for-car-battery-drain |title=The Most Common Reasons for 12 Volt Car Battery Drain|date=23 May 2018 }}</ref>


If the battery is discharged to the point where it can't start the engine, the engine can be [[Jump start (internal combustion engine)|jump started]] via an external source of power. Once running, the engine can recharge the battery, if the alternator and charging system are undamaged.<ref>{{Citation |url=http://www.cartalk.com/content/revving-engine-good-idea-during-jump-start-find-out |title=Is revving the engine a good idea during a jump-start? Find out |first1=Tom |last1=Magliozzi |first2=Ray |last2=Magliozzi|author-link=Tom and Ray Magliozzi |date=April 1, 2007 |work=[[Car Talk]] |publisher=Tappet Brothers }}</ref>
Persons handling car batteries should wear [[personal protective equipment|protective equipment]] (goggles, overalls, gloves) to avoid injury by acid spills. Any open flame or electric spark including lit tobacco products like cigarettes, cigars, or pipes in the area also present a danger of igniting any hydrogen gas escaping from a battery. Also for this reason, the final connection (or disconnection) of a jumper cable should be to the car's frame rather than the grounded terminal of the battery; doing this keeps any potential sparks further from the battery.


Corrosion at the [[battery terminals]] can prevent a car from starting due to [[electrical resistance]], which can be prevented by the proper application of [[silicone grease#Dielectric grease|dielectric grease]].<ref name=Gear4Wheels>{{cite web |url=https://gear4wheels.com/why-do-car-batteries-corrode/ |title=Why do car batteries corrode? |last=Meyer |first=Alex |date=17 December 2017 |website=Gear4Wheels}}</ref><ref>{{cite web |title=How to Clean Corroded Car Battery Terminals |url=http://www.wikihow.com/Clean-Corroded-Car-Battery-Terminals |website=wikiHow}}</ref>
==Terms and ratings==
*''[[Ampere-hour]]s'' (A·h) is a measure of [[electrical charge]] that a battery can deliver. This quantity is one indicator of the total amount of charge that a battery is able to store and deliver at its rated voltage. Its value is the product of the discharge current (in amperes), multiplied by the duration (in hours) for which this discharge current can be sustained by the battery. Generally, this value (or rating) varies widely with the duration of the discharge period (see: [[Peukert's Law]]), therefore the value is typically only meaningful when the duration is specified. This rating is rarely stated for automotive batteries, except in Europe where it is required by law. Nominal capacity(A·h) by EN 60095-1 is rated at a fixed discharge current of I/20, within 20 hours until final discharge voltage of 10.5 V at 25&nbsp;°C is reached.
* ''Cranking amperes'' (CA), also sometimes referred to as ''marine cranking amperes'' (MCA), is the amount of current a battery can provide at {{Convert|32|°F|abbr=on}}. The rating is defined as the number of amperes a lead-acid battery at that temperature can deliver for 30 seconds and maintain at least 1.2 volts per cell (7.2 volts for a 12 volt battery).
* ''Cold cranking amperes'' (CCA) is the amount of current a battery can provide at 0&nbsp;°F (−18&nbsp;°C). The rating is defined as the current a lead-acid battery at that temperature can deliver for 30 seconds and maintain at least 1.2 volts per cell (7.2 volts for a 12-volt battery). It is a more demanding test than those at higher temperatures. This is the most widely used cranking measurement for comparison purposes.
* ''Hot cranking amperes'' (HCA) is the amount of current a battery can provide at 80&nbsp;°F (26.7&nbsp;°C). The rating is defined as the current a lead-acid battery at that temperature can deliver for 30 seconds and maintain at least 1.2 volts per cell (7.2 volts for a 12-volt battery).
* ''Reserve capacity minutes'' (RCM), also referred to as ''reserve capacity'' (RC), is a battery's ability to sustain a minimum stated electrical load; it is defined as the time (in minutes) that a lead-acid battery at 80&nbsp;°F (27&nbsp;°C) will continuously deliver 25 amperes before its voltage drops below 10.5 volts.
* ''Battery Council International group size'' (BCI) specifies a battery's physical dimensions, such as length, width, and height. These groups are determined by the [[Battery Council International]] organization.<ref>[[Battery Council International]] (1996), ''BCI Battery Replacement Data Book''</ref>
* [[Peukert's Law]] states that the capacity available from a battery varies according to how rapidly it is discharged. A battery discharged at high rate will give fewer ampere-hours than one discharged more slowly.
* The [[hydrometer]] measures the density, and therefore indirectly the amount of sulfuric acid in the electrolyte. A low reading means that [[sulfate]] is bound to the battery plates and that the battery is discharged. Upon recharge of the battery, the sulfate returns to the electrolyte.


Sulfation is when the electrodes become coated with a hard layer of lead sulfate, which weakens the battery. Sulfation can happen when battery is not fully charged and remains discharged.<ref>{{cite web |title=Description and treatment of sulphated batteries using the mmf charger and the discharger/analyzer |url=http://www.amperis.com/en/resources/articles/desc-treatment-sulphated-batteries-using-charger-discharger-analyzer/}}</ref> Sulfated batteries should be charged slowly to prevent damage.<ref>{{cite book |first=O.A. |last=Witte |title=The Automotive Storage Battery Its Care and Repair |url=http://www.gutenberg.org/ebooks/29718 |publisher=The American Bureau of Engineering |date=1922 |quote={{via |[[Project Gutenberg]]}}}}</ref>
==Terminal voltage==
The [[open-circuit voltage]] is measured when the engine is off and no loads are connected. It can be approximately related to the charge of the battery:


SLI batteries (starting, lighting, and ignition) are not designed for deep discharge, and their life is reduced when subjected to this.<ref>{{cite web |title=Battery Tutorial |url=https://www.chargingchargers.com/tutorials/batteries.html |website=chargingchargers.com |access-date=2016-02-15 |first=Larry |last=Johnson}}</ref>
{| class="wikitable" style="text-align:center;"
|-
! colspan="2" | Open-circuit voltage !! rowspan="2" | Approximate<br />charge !! rowspan="2" | Relative<br />acid density
|-
! 12&nbsp;V !! 6&nbsp;V
|-
|12.66&nbsp;V || 6.32&nbsp;V || 100% || 1.265&nbsp;g/cm<sup>3</sup>
|-
|12.35&nbsp;V || 6.22&nbsp;V || 75% || 1.225&nbsp;g/cm<sup>3</sup>
|-
|12.10&nbsp;V || 6.12&nbsp;V || 50% || 1.190&nbsp;g/cm<sup>3</sup>
|-
|11.95&nbsp;V || 6.03&nbsp;V || 25% || 1.155&nbsp;g/cm<sup>3</sup>
|-
|11.70&nbsp;V || 6.00&nbsp;V || 0% || 1.120&nbsp;g/cm<sup>3</sup>
|}
Open-circuit voltage is also affected by temperature and the [[specific gravity]] of the electrolyte at full charge.


Starting batteries have plates designed for increased surface area and thus high instant current capability, whereas marine (hybrid) and deep cycle types will have thicker plates and more room at the bottom of the plates for spent plate material to gather before shorting the cell.
The following is common for a six-cell automotive lead-acid battery at room temperature:

* Quiescent (open-circuit) voltage at full charge: 12.6&nbsp;V
Car batteries using lead-antimony plates require regular topping-up with pure water to replace water lost due to [[electrolysis]] and evaporation. By changing the alloying element to calcium, more recent designs have reduced the rate of water loss. Modern car batteries have reduced maintenance requirements, and may not provide caps for addition of water to the cells. Such batteries include extra electrolyte above the plates to allow for losses during the battery life.
* Fully discharged: 11.8&nbsp;V

* Charge with 13.2–14.4&nbsp;V
Some battery manufacturers include a built-in [[hydrometer]] to show the state of charge of the battery.{{dubious|date=November 2024}}{{clarify|date=November 2024}}
* Gassing voltage: 14.4&nbsp;V

* Continuous-preservation charge with max. 13.2&nbsp;V
[[File:CrocodileClamponBattery.jpg|thumb|A positive (red) jumper cable connected to battery post. An optional hydrometer window is visible by the single jumper clamp. The black negative jumper clamp is not shown.]]
* After full charge the terminal voltage will drop quickly to 13.2&nbsp;V and then slowly to 12.6&nbsp;V

* Open-circuit voltage is measured 12 hours after charging to allow [[surface charge]] to dissipate and enable a more accurate reading.
The primary wear-out mechanism is the shedding of active material from the battery plates, which accumulates at the bottom of the cells and which may eventually short-circuit the plates. This can be substantially reduced by enclosing one set of plates in plastic separator bags, made from a permeable material. This allows the electrolyte and ions to pass through but keeps the sludge build up from bridging the plates. The sludge largely consists of lead sulfate, which is produced at both electrodes.
* All voltages are at 20&nbsp;°C (68&nbsp;°F), and must be adjusted −0.022&nbsp;V/°C (−0.012&nbsp;V/°F) for temperature changes (negative temperature coefficient – lower voltage at higher temperature).

==Environmental impact==
[[Battery recycling]] of automotive batteries reduces the need for resources required for the manufacture of new batteries, diverts toxic lead from landfills, and prevents the risk of improper disposal. Once a lead–acid battery ceases to hold a charge, it is deemed a used lead-acid battery (ULAB), which is classified as [[hazardous waste]] under the [[Basel Convention]]. The 12-volt car battery is the most recycled product in the world, according to the [[United States Environmental Protection Agency]]. In the U.S. alone, about 100 million auto batteries a year are replaced, and 99 percent of them are turned in for recycling.<ref>{{cite web |title=Who Knew? A Car Battery Is the World's Most Recycled Product |url=http://www.greencarreports.com/news/1044372_who-knew-a-car-battery-is-the-worlds-most-recycled-product |website=Green Car Reports |date=31 March 2011 |access-date=2016-02-18}}</ref> However, the recycling may be done incorrectly in unregulated environments. As part of [[global waste trade]], ULABs are shipped from industrialized countries to developing countries for disassembly and recuperation of the contents. About 97 percent of the lead can be recovered. [[Pure Earth]] estimates that over 12 million people in [[Developing country|developing countries]] are affected by lead contamination from ULAB processing.<ref>{{cite web |title=Projects Reports |url=https://www.worstpolluted.org/projects_reports/display/65 |website=WorstPolluted.org |access-date=2016-02-18}}</ref>


==See also==
==See also==
* [[Anderson Powerpole]] connectors
* [[42-volt electrical system]]
* [[Automobile auxiliary power outlet]] ("cigarette lighter receptacle")
* [[AD-X2]]
* [[Battery charger]]
* [[Cigarette lighter receptacle|Car adapter]]
* [[Battery tester]]
* [[Load testing#Car charging system|Car charging system]]
* [[Vehicle-to-grid]]
* [[Deep-cycle battery]]
* [[Lead–acid battery]]
* [[List of auto parts]]
* [[VRLA battery]] (AGM and gel cell)
* [[Peukert's law]]
* [[48-volt electrical system]]


==References==
==References==
{{Reflist|30em}}
{{Reflist}}

==External links==
* [http://www.batterycouncil.org/ Battery Council International (BCI)] - [[not-for-profit]] [[trade association]] for the lead-acid battery industry
* {{dmoz|Business/Industrial_Goods_and_Services/Industrial_Supply/Batteries/|Batteries}}
* {{dmoz|Business/Electronics_and_Electrical/Power_Supplies/Batteries/|Battery manufacturers and distributors}}
* [http://www.popularmechanics.com/cars/how-to/maintenance/1608582?click=main_sr Car battery maintenance on Popular Mechanics]
* [http://www.batteryfaq.org/ Car battery FAQ]
* {{cite web|url=http://hypertextbook.com/facts/2001/ThiMeaganLe.shtml|title=Voltage of a Car Battery|work=The Physics Factbook|first=Thi Meagan|last=Le|year=2001}}
* [http://www.autobatteries.com/faq/index.asp Autobatteries.com Frequently Asked Questions]
* [http://www.familycar.com/Classroom/charging.htm Description of automotive charge systems]
* [[Project Gutenberg]] eBook ''The Automobile Storage Battery'' by Otto A. Witte, 1922: Here [http://www.gutenberg.org/ebooks/29718].


{{Galvanic cells}}
{{Galvanic cells}}
{{Automotive engine}}
{{Internal combustion engine}}
{{Authority control}}


[[Category:Auto parts]]
[[Category:Auto parts]]
[[Category:Battery applications]]
[[Category:Deep cycle automotive batteries]]
[[Category:Deep cycle automotive batteries]]
[[Category:Rechargeable batteries]]
[[Category:Rechargeable batteries]]

Latest revision as of 07:11, 1 December 2024

This article is about batteries that start engines and power accessories. For batteries that power electric vehicles, see Electric vehicle battery.
A typical 12 V, 40 Ah lead-acid car battery

An automotive battery, or car battery, is a rechargeable battery that is used to start a motor vehicle.

Its main purpose is to provide an electric current to the electric-powered starting motor, which in turn starts the chemically-powered internal combustion engine that actually propels the vehicle. Once the engine is running, power for the car's electrical systems is still supplied by the battery, with the alternator charging the battery as demands increase or decrease.

Battery in modern cars

[edit]

Gasoline and diesel engine

[edit]

Typically, starting uses less than three percent of the battery capacity. For this reason, automotive batteries are designed to deliver maximum current for a short period of time. They are sometimes referred to as "SLI batteries" for this reason, for starting, lighting and ignition. SLI batteries are not designed for deep discharging, and a full discharge can reduce the battery's lifespan.[1][2]

As well as starting the engine, an SLI battery supplies the extra power necessary when the vehicle's electrical requirements exceed the supply from the charging system. It is also a stabilizer, evening out potentially damaging voltage spikes.[3] While the engine is running most of the power is provided by the alternator, which includes a voltage regulator to keep the output between 13.5 and 14.5 V.[4] Modern SLI batteries are lead-acid type, using six series-connected cells to provide a nominal 12-volt system (in most passenger vehicles and light trucks), or twelve cells for a 24-volt system in heavy trucks or earth-moving equipment, for example.[5]

Gas explosions can occur at the negative electrode where hydrogen gas can build up due to blocked battery vents or a poorly ventilated setting, combined with an ignition source.[6] Explosions during engine start-up are typically associated with corroded or dirty battery posts.[6] A 1993 study by the US National Highway Traffic Safety Administration said that 31% of vehicle battery explosion injuries occurred while charging the battery.[7] The next-most common scenarios were while working on cable connections, while jump-starting, typically by failing to connect to the dead battery before the charging source and failing to connect to the vehicle chassis rather than directly to the grounded battery post, and while checking fluid levels.[6][7] Close to two-thirds of those injured suffered chemical burns, and nearly three-fourths suffered eye injuries, among other possible injuries.[7]

Electric and hybrid cars

[edit]

Electric vehicles (EVs) are powered by a high-voltage electric vehicle battery, but they usually have an automotive battery as well, so that they can use standard automotive accessories which are designed to run on 12 V. They are often referred to as auxiliary batteries.

Unlike conventional, internal combustion engined vehicles, EVs don't charge the auxiliary battery with an alternator—instead, they use a DC-to-DC converter to step down the high voltage to the required float-charge voltage (typically around 14 V).[8]

Further, an electric vehicle does not have a starter motor, thus needs only a limited amount of power and energy from its auxiliary battery. As such, Tesla introduced in 2021 a lithium-ion auxiliary battery storing only 99 Wh of energy.[9]

History

[edit]

Early cars did not have batteries, as their electrical systems were limited. Electric power for the ignition was provided by a magneto, the engine was started with a crank, headlights were gas-powered and a bell or bulb-horn was used instead of an electric horn. Car batteries became widely used around 1920 as cars became equipped with electric starter motors.[10]

The first starting and charging systems were designed to be 6-volt and positive-ground systems, with the vehicle's chassis directly connected to the positive battery terminal.[11] Today, almost all road vehicles have a negative ground system.[12] The negative battery terminal is connected to the car's chassis.

The Hudson Motor Car Company was the first to use a standardized battery in 1918 when they started using Battery Council International batteries. BCI is the organization that sets the dimensional standards for batteries.[13]

Cars used 6 V electrical systems and batteries until the mid-1950s. The changeover from 6 to 12 V happened when bigger engines with higher compression ratios required more electrical power to start.[14] Smaller cars, which required less power to start stayed with 6 V longer, for example the Volkswagen Beetle in the mid-1960s and the Citroën 2CV in 1970.

The AGM sealed battery (for automobiles), which did not require refilling, was invented in 1971.[10]

In the 1990s a 42V electrical system standard was proposed. It was intended to allow more powerful electrically driven accessories, and lighter automobile wiring harnesses. However, the availability of higher-efficiency motors, new wiring techniques, and digital controls, and a focus on hybrid vehicle systems that use high-voltage starter/generators have largely eliminated the push for switching the main automotive voltages.[15]

In 2023 Tesla started deliveries of their Cybertruck that uses a 48-volt electrical system, reducing 70% of the wiring in the vehicle.[16]

Design

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An automobile battery is an example of a wet cell battery, with six cells. Each cell of a lead storage battery consists of alternate plates made of a lead alloy grid filled with sponge lead plates (cathode)[17] or coated with lead dioxide (anode).[17] Each cell is filled with a sulfuric acid solution, which is the electrolyte. Initially, cells each had a filler cap, through which the electrolyte level could be viewed and which allowed water to be added to the cell. The filler cap had a small vent hole which allowed hydrogen gas generated during charging to escape from the cell.

The cells are connected by short heavy straps from the positive plates of one cell to the negative plates of the adjacent cell. A pair of heavy terminals, plated with lead to resist corrosion, are mounted at the top, sometimes the side, of the battery. Early auto batteries used hard rubber cases and wooden plate separators. Modern units use plastic cases and woven sheets to prevent the plates of a cell from touching and short-circuiting.

In the past, auto batteries required regular inspection and maintenance to replace water that was decomposed during the operation of the battery. "Low-maintenance" (sometimes called "zero-maintenance") batteries use a different alloy for the plate elements, reducing the amount of water decomposed on charging. A modern battery may not require additional water over its useful life; some types eliminate the individual filler caps for each cell. A weakness of these batteries is that they are very intolerant of deep discharge, such as when the car battery is completely drained by leaving the lights on. This coats the lead plate electrodes with lead sulfate deposits and can reduce the battery's lifespan by a third or more.

VRLA batteries, also known as absorbed glass mat (AGM) batteries are more tolerant of deep discharge but are more expensive.[18] VRLA batteries do not permit addition of water to the cell. The cells each have an automatic pressure release valve, to protect the case from rupture on severe overcharge or internal failure. A VRLA battery cannot spill its electrolyte which makes it particularly useful in vehicles such as motorcycles.

Batteries are typically made of six galvanic cells in a series circuits. Each cell provides 2.1 volts for a total of 12.6 volts at full charge.[19] During discharge, at the negative (lead) terminal a chemical reaction releases electrons to the external circuit, and at the positive (lead oxide) terminal another chemical reaction absorbs electrons from the external circuit. This drives the electrons through the external circuit wire (an electrical conductor) to produce an electric current (electricity). As the battery discharges, the acid of the electrolyte reacts with the materials of the plates, changing their surface to lead sulfate. When the battery is recharged, the chemical reaction is reversed: the lead sulfate reforms into lead dioxide. With the plates restored to their original condition, the process may be repeated.

Some vehicles use other starter batteries. For weight savings, the 2010 Porsche 911 GT3 RS has a lithium-ion battery as an option;[20] from 2018 onward, all Kia Niro conventional hybrids feature one as well.[21] Heavy vehicles may have two batteries in series for a 24 V system or may have series-parallel groups of batteries supplying 24 V.[22]

Specifications

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Physical format

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Batteries are grouped by physical size, type and placement of the terminals, and mounting style.[18]

Amp hours (Ah)

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Ampere hours (Ah or A·h) is a unit related to the energy storage capacity of the battery. This rating is required by law in Europe.

The ampere hour rating is generally defined as the product of (the current a battery can provide for 20 hours at a constant rate, at 80 degrees F (26.6 °C), while the voltage drops to a cut-off of 10.5 volts) times 20 hours. In theory, at 80 degrees F, a 100 Ah battery should be able to continuously provide 5 amps for 20 hours while maintaining a voltage of at least 10.5 volts. The relationship between the Ah capacity and the discharge rate is not linear; as the discharge rate is increased, the capacity decreases. A battery with a 100 Ah rating generally will not be able to maintain a voltage above 10.5 volts for 10 hours while being discharged at constant rate of 10 amps. Capacity also decreases with temperature.

Cranking amperages (CCA, CA, MCA, HCA)

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  • Cold cranking amperes (CCA): the amount of current a battery can provide at 0 °F (−18 °C) for 30 seconds while maintaining a voltage of at least 7.2 volts. Modern cars with computer-controlled fuel-injected engines take no more than a few seconds to start and CCA figures are less important than they used to be.[23] It is important not to confuse CCA with CA/MCA or HCA numbers as the latter will always be higher due to warmer temperatures. For example, a 250 CCA battery will have more starting power than a 250 CA (or MCA) one, and likewise a 250 CA will have more than a 250 HCA one.[24]
  • Cranking amperes (CA): the amount of current a battery can provide at 32 °F (0 °C), again for 30 seconds at a voltage equal to, or greater than, 7.2 volts.
  • Marine cranking amperes (MCA): like CA, the amount of current a battery can provide at 32 °F (0 °C), and often found on batteries for boats (hence "marine") and lawn garden tractors which are less likely to be operated in conditions where ice can form.[25]
  • Hot cranking amperes (HCA) is the amount of current a battery can provide at 80 °F (27 °C). The rating is defined as the current a lead-acid battery at that temperature can deliver for 30 seconds and maintain at least 1.2 volts per cell (7.2 volts for a 12-volt battery).

Group size

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Battery Council International (BCI) group size specifies a battery's physical dimensions, such as length, width, and height. These groups are determined by the organization.[26][27]

Date codes

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  • In the United States there are codes on batteries that indicate when they were manufactured. When batteries are stored, they start losing their charge; this is due to non-current-producing chemical reactions of the electrodes with the battery acid. A battery made in October 2015 will have a numeric code of 10-5 or an alphanumeric code of K-5. "A" is for January, "B" is for February, and so on (the letter "I" is skipped).[23]
  • In South Africa the code on a battery to indicate production date is part of the casing and cast into the bottom left of the cover. The code is year and week number (YYWW), e.g. 1336 is for week 36 in the year 2013.

Use and maintenance

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Excess heat is a main cause of battery failures, as when the electrolyte evaporates due to high temperatures, decreasing the effective surface area of the plates exposed to the electrolyte, and leading to sulfation. Grid corrosion rates increase with temperature.[28][29] Also low temperatures can lead to battery failure.[30]

If the battery is discharged to the point where it can't start the engine, the engine can be jump started via an external source of power. Once running, the engine can recharge the battery, if the alternator and charging system are undamaged.[31]

Corrosion at the battery terminals can prevent a car from starting due to electrical resistance, which can be prevented by the proper application of dielectric grease.[32][33]

Sulfation is when the electrodes become coated with a hard layer of lead sulfate, which weakens the battery. Sulfation can happen when battery is not fully charged and remains discharged.[34] Sulfated batteries should be charged slowly to prevent damage.[35]

SLI batteries (starting, lighting, and ignition) are not designed for deep discharge, and their life is reduced when subjected to this.[36]

Starting batteries have plates designed for increased surface area and thus high instant current capability, whereas marine (hybrid) and deep cycle types will have thicker plates and more room at the bottom of the plates for spent plate material to gather before shorting the cell.

Car batteries using lead-antimony plates require regular topping-up with pure water to replace water lost due to electrolysis and evaporation. By changing the alloying element to calcium, more recent designs have reduced the rate of water loss. Modern car batteries have reduced maintenance requirements, and may not provide caps for addition of water to the cells. Such batteries include extra electrolyte above the plates to allow for losses during the battery life.

Some battery manufacturers include a built-in hydrometer to show the state of charge of the battery.[dubiousdiscuss][clarification needed]

A positive (red) jumper cable connected to battery post. An optional hydrometer window is visible by the single jumper clamp. The black negative jumper clamp is not shown.

The primary wear-out mechanism is the shedding of active material from the battery plates, which accumulates at the bottom of the cells and which may eventually short-circuit the plates. This can be substantially reduced by enclosing one set of plates in plastic separator bags, made from a permeable material. This allows the electrolyte and ions to pass through but keeps the sludge build up from bridging the plates. The sludge largely consists of lead sulfate, which is produced at both electrodes.

Environmental impact

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Battery recycling of automotive batteries reduces the need for resources required for the manufacture of new batteries, diverts toxic lead from landfills, and prevents the risk of improper disposal. Once a lead–acid battery ceases to hold a charge, it is deemed a used lead-acid battery (ULAB), which is classified as hazardous waste under the Basel Convention. The 12-volt car battery is the most recycled product in the world, according to the United States Environmental Protection Agency. In the U.S. alone, about 100 million auto batteries a year are replaced, and 99 percent of them are turned in for recycling.[37] However, the recycling may be done incorrectly in unregulated environments. As part of global waste trade, ULABs are shipped from industrialized countries to developing countries for disassembly and recuperation of the contents. About 97 percent of the lead can be recovered. Pure Earth estimates that over 12 million people in developing countries are affected by lead contamination from ULAB processing.[38]

See also

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References

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  1. ^ Johnson, Larry. "Battery Tutorial". chargingchargers.com. Charging Chargers. Retrieved 2016-02-15.
  2. ^ Pradhan, S. K.; Chakraborty, B. (2022-07-01). "Battery management strategies: An essential review for battery state of health monitoring techniques". Journal of Energy Storage. 51: 104427. Bibcode:2022JEnSt..5104427P. doi:10.1016/j.est.2022.104427. ISSN 2352-152X.
  3. ^ "What is a lead battery?". batterycouncil.org. Retrieved 2016-02-17.
  4. ^ "Automotive Charging Systems – A Short Course on How They Work".
  5. ^ "Q & A: Car Batteries". van.physics.illinois.edu. Retrieved 2016-02-18.
  6. ^ a b c Vartabedian, Ralph (August 26, 1999), "How to Avoid Battery Explosions (Yes, They Really Happen)", Los Angeles Times
  7. ^ a b c Injuries Associated With Hazards Involving Motor Vehicle Batteries, National Highway Traffic Safety Administration, July 1997
  8. ^ Herron, David. "Why is there a 12 volt lead-acid battery, and how is it charged in an electric car?". greentransportation.info. Retrieved 24 May 2020.
  9. ^ Kane, Mark (2021-11-07). "Tesla's New 12V Li-Ion Auxiliary Battery Has CATL Cells Inside". insideevs.com. Retrieved 2023-12-07.
  10. ^ a b "History of the car battery". racshop.co.uk. Archived from the original on 2016-12-28. Retrieved 2016-02-17.
  11. ^ "Positive Vs. Negative Ground - Will charger work on positive ground vehicles?". Archived from the original on 2020-07-27.
  12. ^ "Why POSITIVE EARTH?". MGAguru.com. Retrieved 2019-04-20.
  13. ^ "6-Volt Batteries". hemmings.com. July 2006. Retrieved 2016-02-17.
  14. ^ "6 Volt to 12 Volt Changeover". fillingstation.com. Archived from the original on 2016-03-02. Retrieved 2016-02-17.
  15. ^ "Whatever Happened to the 42-Volt Car?". Popular Mechanics. 2009-10-01. Retrieved 2016-02-18.
  16. ^ Akhtar, Riz (December 1, 2023). ""Whole new step-change in technology:" Cybertruck starts at $US61,000". The Driven. Australia. Retrieved December 7, 2023.
  17. ^ a b Le, Thi Meagan (2001). Elert, Glenn (ed.). "Voltage of a car battery". The Physics Factbook. Retrieved 2022-01-24.
  18. ^ a b "How to Get the Right Car Battery". Consumer Reports. 15 December 2015. Retrieved 2016-02-17.
  19. ^ "Basic Battery Care". Popular Mechanics. 2006-03-29. Retrieved 2016-02-17.
  20. ^ Wert, Ray (2009-08-19). "2010 Porsche 911 GT3 RS: Track-Ready, Street-Legal And More Power". Jalopnik.com. Archived from the original on 21 October 2009. Retrieved 2009-09-18.
  21. ^ "2017 Kia Niro: The Troublemaker - The Car Guide". amp.guideautoweb.com. Retrieved 2022-03-09.
  22. ^ "Automotive/SLI Batteries - Batteries by Fisher". Batteries by Fisher. Archived from the original on 2016-02-06. Retrieved 2016-02-15.
  23. ^ a b "From Our Experts: Car Battery Tips". Consumer Reports. December 2, 2015. Archived from the original on December 6, 2015. Retrieved 2016-02-17.
  24. ^ "Winter Is Coming... Do You Know Your Battery's CCA Rating?". Bauer Built Inc. Archived from the original on 2019-03-02. Retrieved 2021-05-14.
  25. ^ "Marine Battery vs. Car Battery: What Are the Differences?". October 4, 2018.
  26. ^ "BCI Battery Service Manual 14th Edition - Download - Battery Council International". batterycouncil.org. Archived from the original on 2020-08-07. Retrieved 2019-03-01.
  27. ^ "bci-battery-technical-manual". yumpu.com. Archived from the original on 2019-03-02. Retrieved 2019-03-01.
  28. ^ Ruetschi, Paul (March 10, 2004), "Aging mechanisms and service life of lead–acid batteries", Journal of Power Sources, 127 (1–2): 33–44, Bibcode:2004JPS...127...33R, doi:10.1016/j.jpowsour.2003.09.052
  29. ^ "Car batteries Buying Guide", Consumer Reports, August 2016
  30. ^ The Most Common Reasons for 12 Volt Car Battery Drain, 23 May 2018
  31. ^ Magliozzi, Tom; Magliozzi, Ray (April 1, 2007), "Is revving the engine a good idea during a jump-start? Find out", Car Talk, Tappet Brothers
  32. ^ Meyer, Alex (17 December 2017). "Why do car batteries corrode?". Gear4Wheels.
  33. ^ "How to Clean Corroded Car Battery Terminals". wikiHow.
  34. ^ "Description and treatment of sulphated batteries using the mmf charger and the discharger/analyzer".
  35. ^ Witte, O.A. (1922). The Automotive Storage Battery Its Care and Repair. The American Bureau of Engineering. (Full text via Project Gutenberg.)
  36. ^ Johnson, Larry. "Battery Tutorial". chargingchargers.com. Retrieved 2016-02-15.
  37. ^ "Who Knew? A Car Battery Is the World's Most Recycled Product". Green Car Reports. 31 March 2011. Retrieved 2016-02-18.
  38. ^ "Projects Reports". WorstPolluted.org. Retrieved 2016-02-18.
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