Disclosure to Promote the Right To Information Whereas the Parliament of India has set out to provide a practical regime of right to information for citizens to secure access to information under the control of public authorities, in order to promote transparency and accountability in the working of every public authority, and whereas the attached publication of the Bureau of Indian Standards is of particular interest to the public, particularly disadvantaged communities and those engaged in the pursuit of education and knowledge, the attached public safety standard is made available to promote the timely dissemination of this information in an accurate manner to the public. इंटरनेट मानक “!ान $ एक न’ भारत का +नम-ण” Satyanarayan Gangaram Pitroda “Invent a New India Using Knowledge” “प0रा1 को छोड न’ 5 तरफ” Jawaharlal Nehru “Step Out From the Old to the New” “जान1 का अ+धकार, जी1 का अ+धकार” Mazdoor Kisan Shakti Sangathan “The Right to Information, The Right to Live” “!ान एक ऐसा खजाना > जो कभी च0राया नहB जा सकता ह ै” Bhartṛhari—Nītiśatakam “Knowledge is such a treasure which cannot be stolen” IS 1885-15 (2008): Electrotechnical Vocabulary, Part 15: Primary Cells and Batteries [Amalgamating IS 1885(Part 8) : 1996] [ETD 1: Basic Electrotechnical Standards]
85
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IS 1885-15 (2008): Electrotechnical Vocabulary, Part 15 ...elemento de Iitio y .J. * *,~& ogniwo litowe elemento de Iitio Iitium cell 482-01-07 pile a sel fondu, f pile comprenant
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Transcript
Disclosure to Promote the Right To Information
Whereas the Parliament of India has set out to provide a practical regime of right to information for citizens to secure access to information under the control of public authorities, in order to promote transparency and accountability in the working of every public authority, and whereas the attached publication of the Bureau of Indian Standards is of particular interest to the public, particularly disadvantaged communities and those engaged in the pursuit of education and knowledge, the attached public safety standard is made available to promote the timely dissemination of this information in an accurate manner to the public.
इंटरनेट मानक
“!ान $ एक न' भारत का +नम-ण”Satyanarayan Gangaram Pitroda
“Invent a New India Using Knowledge”
“प0रा1 को छोड न' 5 तरफ”Jawaharlal Nehru
“Step Out From the Old to the New”
“जान1 का अ+धकार, जी1 का अ+धकार”Mazdoor Kisan Shakti Sangathan
“The Right to Information, The Right to Live”
“!ान एक ऐसा खजाना > जो कभी च0राया नहB जा सकता है”Bhartṛhari—Nītiśatakam
“Knowledge is such a treasure which cannot be stolen”
“Invent a New India Using Knowledge”
है”ह”ह
IS 1885-15 (2008): Electrotechnical Vocabulary, Part 15:Primary Cells and Batteries [Amalgamating IS 1885(Part 8): 1996] [ETD 1: Basic Electrotechnical Standards]
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IS 1885 (Part 15) :2008
IEC 60050-482:2004[Amalgamating IS 1885 (Part 8) : 1986]
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Indian Standard
ELECTROTECHNICAL VOCABULARYPART 15 PRIMARY AND SECONDARY CELLS AND BATTERIES
( Second Revision )
ICS 01 .040.29; 29.220.10; 29.220.20
0 BIS 2008
BUREAU OF INDIAN STANDARDSMANAK BHAVAN, 9 BAHADUR SHAH ZAFAR MARG
This Indian Standard (Part 15) (Second Revision) which is identical with IEC 60050-482:2004‘International Electrotechnical Vocabulary — Part 482 : Primary and secondary cells and batteries’issued by the International Electrotechnical Commission (l EC) was adopted by the Bureau of IndianStandards on the recommendation of the Basic Electrotechnical Standards Sectional Committee andapproval of the Electrotechnical Division Council.
This standard was first published in 1967. The first revision was published in 1983 and the secondrevision has been undertaken after amalgamating IS 1885 (Part 8) :1986 ‘Electrotechnical vocabulary :Part 8 Secondary cells and batteries (first revision)’ in order to bring it in line with the latest IEC publication60050-482 :2004. After the publication of this standard IS 1885 (Part 8) : 1986 shall be treated aswithdrawn.
The text of IEC Standard has been approved as suitable for publication as an Indian Standard withoutdeviations, Certain conventions are, however, not identical to those used in Indian Standards. Attentionis particularly drawn to the following:
a) Wherever the words ‘International Standard’ appear referring to this standard, they shouldbe read as ‘Indian Standard’.
b) Comma (,) has been used as a decimal marker while in Indian Standards, the currentpractice is to use a point (.) as the decimal marker.
In this adopted standard, reference appears to certain International Standards for which Indian Standardsalso exist. The corresponding Indian Standards which are to be substituted in their respective placesare given below along with their degree of equivalence for the editions indicated:
International Sfandard Corresponding Indian Standard Degree ofEquivalence
IEC 60027-1 : 1992 Letter IS 3722 (Part 1) :1983 Letter symbols and Technicallysymbols to be used in electrical signs used in electrical technology: Part 1 Equivalenttechnology — Part 1: General General guidance on symbols and
subscripts (first revision)
IEC 60050-151 : 2001 IS 1885 (Part 74) :1993 Electrotechnical doInternational Electrotechnical Vocabulary: Part 74 Electrical and magneticVocabulary — Part 151: Electrical devicesand magnetic devices
The technical committee has reviewed the provisions of the following International Standard referred inthis adopted standard and has decided that it is acceptable for use in conjunction with this standard:
In fernafional Sfandard Tifle
IEC 60027-2:2005 Letter symbols to be used in electrical technology — Part 2: Telecommunicationsand electronics
For the purpose of deciding whether a particular requirement of this standard is complied with, the finalvalue, observed or calculated, expressing the result of a test or analysis, shall be rounded off in accordancewith IS 2 : 1960 ‘Rules for rounding off numerical values (revised)’. The number of significant places
retained in the rounded off value should be the same as that of the specified value in this standard.
IS 1885 (Part 15):2008
IEC 60050-482:2004
Indian Standard
ELECTROTECHNICAL VOCABULARY
PART 15 PRIMARY AND SECONDARY CELLS AND BATTERIES
( Second Revision )1 Scope
This part of IEC 60050 gives the general terminology used in the fields of primary andsecondary cells and batteries, and reflects the technology, design, construction, performanceand application employed,
This terminology is consistent with the terminology developed in the other specialised partsof the IEV.
2 Normative references
The following referenced documents are indispensable for the application of this document.For dated references, only the edition cited applies. For undated references, the latest editionof the referenced document (including any amendments) applies.
IEC 60027-1:1992, Letter symbols to be used in electrical technology – Part 1.” General+ Amendment 1:1997
IEC 60027-2:2000, Letter symbols to be used In e/ectrica/ technology – Part 2.”Telecommunications and electronics
unite fonctionnelle de base, consistent en un assemblage d’electrodes, d’electrolyte, deconteneur, de bornes et genera lement de separateurs, qui est une source d’energie electriqueobtenue par transformation directe d’energie chimique
NOTE Voir pile et accumulateur
cell
basic functional unit, consisting of an assembly of electrodes, electrolyte, container, terminalsand usually separators, that is a source of electric energy obtained by direct conversion ofchemical energy
eiement qui peut transformer I’energie chimique, provenant de produits reactifs renouvelescontinuellement, en energie electrique par un processus electrochimique
fuel cell
cell that can change chemical energy from continuously supplied reactants to electric energyby an electrochemical process
arCr!deesjapiptSv
Jg5J +
??$$+%%Brennstoffzelle, fpila de combustible
%%+s%ogniwo paliwowepilha de combustivebranslecell
3
. --- . ,,.—.. ,,___,.,.,._.. .. ... ..-”----.- _
IS 1885 (Part 15) :2008
IEC 60050-482:2004482-01-06
blement au lithium, m
Element contenant un electrolyte non aqueux et dent I’electrode negative est constitute delithium ou en contient
NOTE SeIon Ies caracteristiques de conception cho!sles, un element au lithium peut constituer unepile ou un accumulateur
lithium ceil
cell containing a non-aqueous electrolyte and a negative electrode of lithium or containinglithium
NOTE Depending on the design features chosen, a lithium cell may be primary or secondary.
arcndeesJaplptSv
pg$+ul ~
+’pi~J&LithiumzeJJe, felemento de Iitioy .J. * *,~&
ogniwo litoweelemento de IitioIitium cell
482-01-07
pile a sel fondu, f
pile comprenant un electrolyte constitue d’un ou plusieurs sels fondus anhydres
NOTE Le set fondu peut etre a I’etat solide (non active) et est active sous I’effet de la chaleur.
molten salt cell
cell with an electrolyte consisting of one or more anhydrous molten salts
NOTE The molten salt may be In a solid (inactivated) state and is activated by heat
arcndees)aplptSv
J.&.& @4+
‘J’Afi!l!%w’mZelle mit schmelzfliissigem Elektrolyt, felemento de sal fundida
%RMK’%tiogniwo ze stopionq solqpilha de sal fundidosalts maltecell
482-01-08
element alcaiin, m
element contenant un electrolyte alcalin
alkaline cell
cell containing an alkaline electrolyte
arcndeesjaplptSv
LJi +
~jf~ l~;yiJalkalische Zelle, felemento alcalino7-L’% y ‘@&
ogniwo alkaliczneelemento alcalinoaikalisk. cell
,,. . . , ., . . . .. .. . . .. . —.”..
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-01-09
element a electrolyte solide, m
element comprenant un electrolyte constitue d’un solide ioniquement conducteur
NOTE Cet electrolyte peut @tre par exemple de I’iodure d’argent ou un sel polymere.
solid electrolyte cell
cell with an ionically conducting solid as electrolyte
NOTE This electrolyte may be for example silver iodide or a polymer salt.
arcl-ldeesjapiptSv
+bLA &gJsJl J& Gli Q&
R’144w#m*$t!lZelle mit Feststoffelektrolyt, felemento de electrolito solido
F51WM?’B%MJogniwo z elektrolitem stalymelemento de electrolito solidocell med fast elektrolyt
482-01-10
element non aqueux, m
e16ment a electrolyte Iiquide qui ne contient ni eau ni autres sources de protons reactifs (H+)
non aqueous cell
cell with a liquid electrolyte containing neither water nor other sources of reactive protons (H+)
arcndeesjaplptSv
&aYJg.l&44*
IE*W7M%WZelle mit wasserfreiem Elektrolyt, felemento no acuoso
#*%Wt%’Wl!iogniwo z elektrolitem niewodnymelemento n~o aquosocell med vattenfri elektrolyt
482-01-11
element pilote, m
element choisi clans une batterie pour evaluer ou represented I’etat moyen des parametres dela batterie
pilot cell
selected cell of a battery which is used to assess or represent the average state ofparameters of the battery
batterie fournie a un fabricant de premier equipment pour I’utilisation exclusive avec ou clansce nouvel equipment
OEM battery
battery supplied to an original equipment manufacturer (OEM) for use only with or in newequipment
arcl-ldeesjapiptSv
&*oEM
OEM%~; ~?%i?&Ht!=rtitt!4Erstausrustungsbatterie, fbateria del equipo original
OEMEIWbateria do pierwszego wyposakeniabateria de equipamento de fabricate originalorginalbatteri
482-01-13
batterie de replacement, f
batterie destinee a remplacer une batterie existante ayant des caracteristiques de mise enceuvre et de performance identiques ou similaires
replacement battery
battery for use in place of an existing battery, giving the same or similar operating andperformance characteristics
arcndeesjaplptSv
a++Q&&~E&~Ersatzbatterie, fbateria de recambio~$r$)+j =~~
bateria zamiennabateria de substitui@oersattningsbatteri
482-01-14
61ement amor~able, m
element charge sec dent I’electrolyte necessaire est conserve separement et peut &re transfereclans I’element pour Inactivation, immediatement avant I’utilisation, par amorqage ou autresmoyens
reserve cell
cell stored in a dry state in which the necessary electrolyte is held separately and which maybe transferred for activation to the cell, immediately prior to use, by priming or other means
arcndeesJaplptSv
&lal+hl *
Mi%rllwReservezelle, felemento de reserva
NIHA’*’Wogniwo rezerwoweelemento escorvavel; elemento de reservaaktiverbar cell
6
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-01-15
batterie de secours, f
batterie qui fournit I’energie electrique necessaire a un circuit electrique Iorsque I’alimentationelectrique normale de celui-ci est hors service
NOTE Une batterie de secours peut aussi etre appelee batterie de reserve
emergency battery
battery which supplies electric energy to an electric circuit when the normal power supply ofthis electric circuit is interrupted
NOTE An emergency battery may also be called a back-up battery
arcndees
japlptSv
&Ji#\ ~Jb+
)tlZ$jqjwBatterie fur Sicherheitsstromversorgung, fbateria de emergencia
*’%M’IWI!!
bateria awaryjnabateria de emerg~nciareservkraftsbatteri
482-01-16
batterie tampon, f
batterie placee en derivation d’une source de courant continu afin de reduire Ies effets defluctuation de puissance de la source
buffer batteryback-up battery
battery connected across a direct current supply in order to reduce the effects of powervariations of the source
arcndeesjaplptSv
@@ iw! %J@; @@ a %@g’+rLrytjPufferbatterie, fbateria de compensationz~Y77–)+’*M ; /<7?7y7’J+l’%’M
bateria buforowabateria tamp~obuffertbatteri
482-01-17
element de reference de tension, m
element ayant, a une temperature specifiee, une tension en circuit ouvert determine etInvariable, utilisee comme tension de reference
standard voltage cell
cell having, at a specified temperature, an invariant and specific open-circuit voltage, used asa reference voltage
arcndeesJaplptsv
/jdi+ill J+.@!@i
lli}kKwlEYiiNorma lelement, nelemento de referencia de tensiong:& ’igj?Ll
ogniwo wzorcowe
elemento de tens~o de refer6nciareferenscell
7
. ________ .. . . - .—-. —
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-01 -d 8
pile etalon Weston, f
pile de reference de tension comprenant un electrolyte salin compose d’une solution satureede sulfate de cadmium, une electrode positive de mercure et de sulfate mercureux a I’etatsolide, et une electrode negative en amalgame de cadmium et de sulfate de cadmium a I’etatsolide
Weston standard voltage cell
standard voltage cell with a saline electrolyte saturated with cadmium sulphate, a positiveelectrode of mercury and solid mercurous sulphate, and a negative electrode of amalgamatedcadmium and solid cadmium sulphate
arcndeesjaplptSv
&QM #l &iwJ ~
=BRimmii!x?tk%wWeston-hlormalelement, nelemento de referencia de tension Weston
processus final par Iequel des composants actifs electrochimiques d’un element sent portes aI’etat de fonctionnement afin de fournir une energie electrique
NOTE L’activation peut consister, par exemple, en I’introduction d’electrolyte ou de materiaux actifs!iquicles ou gazeux par des moyens pyrotechniques W autres.
activation
final process by which electrochemical active components of a cell are brought to functionalcompletion in order to deliver electrical energy
NOTE Activation can consist, for example, of the introduction of electrolyte or liquid or gaseous activematerials by pyrotechnic or other means.
arcndeesjaplptSv
Ja+Aii
ifiii$Aktivierung (einer Zelle), factivation
%Hitakt ywacjaactiva~50aktivering
8
..-. —., .,.”-.. —... . .
IS 1885 (Part 15):2008
IEC 60050-482:2004482-01-20
inactive, adj
etat d’un element ou d’une batterie dent Ies composants electrochimiques ne sent pas encoreportes a I’etat de fonctionnernent et qui nest pas capable de delivrer une energie electrique
inactivated
state of a cell or battery in which the electrochemical components are not yet brought tofunctional completion and which is incapable of delivering electrical energy
arCr?deesjaplptSW
J+
2+%%(FI
inaktiviert, Adjektivinactivado
+ i?%!nieaktywowanyinactivadoinaktiverad
9
IS 1885 (Part 15):2008
IEC 60050-482:2004
Section 482-02 – Parties, composants, accessoires, forme
@lement etanche scene de fagon permanente saris dispositif d’echappement des gaz
hermetically sealed cell
permanently sealed gas tight cell without pressure release device
arcndeesJaplptSv
JMIL.A4QJA
* ‘%?34M’Mhermetisch dichte Zelle, felemento sellado hermeticamente/\—j y .7 p ->—/b*F~
ogniwo hermetyczne
elemento hermeticogastat cell
482-02-02
plaque f
electrode d’un element, comprenant un collecteur de courant et de la matiere active
NOTE Le collecteur de courant peut avoir la forme d’une bande, d’une grille, d’une maille, d’unebaguette, de fibre ou d’un metal poreux fritte, etc.
plate
cell electrode consisting of a current collector and active material
NOTE The current collector of the plate may be In the form of strip, grid, mesh, rod, fibre or sinteredporous metal, etc
arcndeesjaplptSv
cd&i&iPlatte, fplaca
i%~plytaplaca(elektrod)platta
482-02-03
plaque emp%ee, f
plaque clans Iaquelle la matiere active est appliquee sous forme de pate a un collecteurconducteur de courant
pasted plate
plate in which the active material is applied as a paste to a conductive current collector
arcndeesjaplptSv
Wk @*@EtIi@
Gitterplatte, fplaca empastadad—~ ~&&@
plyta pastowanaplaca empastadapasterad platta
10
- ...——— ..
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-02-04
faisceaude plaques, m
assemblage de plaques de meme polarite electriquement reliees entre elles
plate group
assembly of plates of the same polarity electrically connected together
arcl-ldeesjaplptSv
~l~i k-
B%Plattensatz, mgrupo de placas
R&Hifi&@Yzespol ptytfeixe de placasplattgrupp
482-02-05
plaque negative, f
composant d’element contenant de la matiere active sur Iaquelle, par convention, unereaction d’oxydation se produit pendant la decharge
negative plate
cell component containing active material at which, by convention, an oxidation reactionoccurs during discharge
arcndeesjaplptSv
+- cdg@&negative Platte, fpiaca negativa
B+%&plyta ujemnaplaca negativanegativ platta
482-02-06
plaque positive, f
composant d’element contenant de la matiere active sur Iaquelle, par convention, unereaction de reduction se produit pendant la decharge
positive plate
celi component containing active material at which, by convention, a reduction reaction occursduring discharge
arcndeesjaplptSW
++9 cd
l~ailipositive Platte, fplaca positiva
k$litipiyta dodatniaplaca positivapositiv platta
11
1S 1885 (Part 15) :2008
IEC 60050-482:2004
482-02-07
plaque tubulaire, f
plaque positive qui comporte soit un assemblage de tubes poreux en metal perfore ou entissu soit une gaine avec ou saris passage central pour Ie collecteur de courant, la matiereactive etant placee a I’interieur des tubes
tubular plate
positive plate which is either composed of an assembly of porous tube of perforated metal ortissue either a gauntlet with or without a central current collector spine, the active materialbeing placed within the tubes
arcndeesjaplptSv
4A Cd@iR%lti
Rohrchenplatte, fplaca tubular
?7 Y F&@ti ; Y=– Y&t’@@ptyta pancernaplaca tubular
rorplatta
482-02-08
bloc de plaques, m
ensemblage fini de faisceaux de plaques positives et negatives avec des separateursintercales et des bornes ou des connexions interelements
plate pack
finished assembly of the positive and negative plate groups with interleaved separators andterminals or intercell connectors
arcndeesjaplptSv
&u L*@i!%@Plattenblock, mbloque de placas
%%szestaw ptytbloco de placasplattpaket
482-02-09
jeu de plaques, m
ensemblage constitue d’une plaque positive, d’une plaque negative et du separateur associes’il est prevu
plate pair
assembly of one positive pIate, one negative plate and the associated separator if any
arcndeesjaplptSv
zlgNl & ~jj
tE&iw
Plattenpaar, npar de placas
&+EN’komplet ptytpar de placasplattpar
12
IS 1885( Part 15):2008
IEC 60050-482:2004482-02-10
espaceur, m
piece d’un element, constitute en materiau isolant, destineea maintenir un ecartement entreIes plaques de polarite opposee ou entre Ie bloc de plaques et Ie bac
spacer
component of a cell made of insulating material intended to maintain the spacing betweenplates of opposite polarity or between the plate pack and the case
arendeesjaplptSv
+ma!%
Abstandhalter, mespaciadorx4—$-
przekladkaespa~adordistanselement
482-02-11
separateur, m
composant d’un element, constitue d’un materiau permeable aux ions, qui previent toutcontact 61ectrique entre Ies plaques de polarite opposee clans un element
(plate) separator
component of a cell, made up of material permeable for ions, which prevents electric contactbetween cell plates of opposite polarity within a cell
arcndees
japlptSv
~1$11 J&A
Rx)%: R?iifi: FARSeparator, m; Scheider, mseparador-k?/< P-y
separator (plyt)separadorseparator
482-02-12
soupape, f
piece d’un element qui n’autorise I’ecoulement de gaz que clans une seule direction
NOTE Une soupape a une caracteristique d’echappement ou de pression d’ouverture et fermeture,
valve
component of a cell which permits the flow of gas in one direction only
NOTE A valve has a characteristic venting or opening and closing pressure
arendeesJaplptSv
+44
IQ
Zellenventil, nvalvula
nzaworvalvulaventil
13
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-02-13
godet d’un element, m
conteneur d’element qui est generalement metal lique et typiquement, mais non exclusive-ment, cylindrique
NOTE Dans Ies piles cylindriques au carbone zinc, Ie zinc peut servir d’enveloppe d’un element
cell can
cell container which is usually metallic and typically, but not exclusively, cylindrical
NOTE In carbon zinc round cells, the zinc can serve as cell can
arcndeesjaplptSv
i+ldl ?&j1~’m.jl.=Zellenbecher, mvaso de un elemento~~j+j~
naczynie ogniwainvolucro de elemento
bagare; karl
482-02-14
bat, m
conteneur en matiere inattaquable par I’electrolyte et contenant Ie ou Ies blocs de plaques etI’electrolyte d’un ou des element
case
container for the plate pack or packs and electrolyte of a cell or cells made of a materialimpervious to the electrolyte
arCndeesJaplptSv
&Ja+ll @L.4F~.&~”: y~fi
Zellengefa13, ncontenedor,&
pojemnikcaixacellkari
482-02-15
couvercle d’element, m
piece utilisee pour fermer Ie bac et comportant normalement des evidements pour Ie rem-plissage, I’echappement des gaz et Ie passage des bornes, etc.
NOTE Un couvercle d’element peut egalement fermer Ies compartments d’un bac monobloc
cell lid
part used to close the case normally having holes for filling, topping-up, gas escape,terminals, etc.
NOTE A cell lid may also close the compartments of a monobloc container
a I-cndeesjaplptSv
@d &JIA *ul,i
HLwiixZellendeckel, mtapa de elemento&7:pokrywa ogniwa (Iub bater[i)tampa de elemento!ock
14
IS 1885 (Part 15):2008
IEC 60050-482:2004482-02-16
rmateriau d’etancheite, m
materiau utilise pour sceiler Ie couvercle d’element au bac ou aux bornes d’un element
lid sealing compound
material used to seal the cell lid to the case or to the terminals of a cell
arcndeesjapiptSv
Puaal @ iJL4
%Ytt&umZellendeckei-Dichtungsmasse, fcompuesto de sellado~~zy,<p>~
masa uszczelniajqca (pokrywq)material de estanquidadeforseglingsmassa
482-02-17
batterie monobloc, f
batterie comportant plusieurs compartments d’elements separes mais relies electriquement,dent chacun est conqu pour renfermer un assemblage d’electrodes, d’electrolyte, de bornesou d’interconnexions et eventuellement de separateurs
NOTE Les elements clans une batterie monobloc peuvent @tre connectes en serie ou en parallele.
monobloc battery
battery with multiple separate but electrically connected cell compartments each of which isdesigned to house an assembly of electrodes, electrolyte, terminals or interconnections andpossible separators
NOTE The cells in a monobloc battery can be connected in series or in parallel,
enveloppe exterieure partielle ou complete d’un element
NOTE Une gaine peut etre faite de metal (Isole cles bornes de I’element), de matiere plastique,de papier ou d’autres materiaux appropr~es.
jacket
partial or complete external covering of a ceil
NOTE A jacket may be made of metal (insulated from the cell terminals), plastic, paper or othersuitable material.
arendeesjaplptSv
~h~
m%Ummantelung, ffunda~g
obudowa zewnqtrznacamisaholje
16
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-02-21
electrode (d’un element), f
electrode, reliee electriquement a une borne d’un element, en contact electrique avecI’electrolyte de cet element et sur Iaquelle la reaction a I’electrode se produit
NOTE 1 Pour “electrode”, voir 151-13-01.
NOTE 2 La matiere active peut faire partie de I’electrode
(cell) electrode
electrode, electrically connected to one terminal of a cell, in electric contact with theelectrolyte of that cell and on which the electrode reaction occurs
NOTE 1 For “electrode”, see 151-13-01.
NOTE 2 The active material may be part of the electrode.
arcndeesjaplptSv
(qlM)@J
(#’#d3w millZellenelektrode, f
electrodo (de un elemento)
(EMJo) %%Eelektroda (ogniwa)electrodo (de urn elemento)elektrod
482-02-22
borne, f
partie conductrice d’un dispositif, d’un circuit electrique ou d’un reseau electrique, destinee aIe connecter a un ou plusieurs conducteurs exterieurs
[151-12-12]
terminal
conductive part of a device, electric circuit or electric network, provided for connecting thatdevice, electric circuit or electric network to one or more external conductors
[151-12-12]
arcndeesjaf)lptSv
ilq~
%7: w%Anschluss, m; Anschlusspunkt, m; Klemme, f; Pol, mborne; terminal
M! 7-koncowkaterminalpol
17
( -.-... —,. -.,..J ----..- —
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-02-23
cache-bornes, m
couvercle en matiere isolante utilise pour eviter un contact electrique avec Ies bornes etconnexions d’un element
terminal protectorterminal cover
cover of insulating material used to avoid electric contact with the cell or battery terminal
arcndeesjaplptSv
&Q@ll PM; +L@ JIIJ
%?+WeAnschlussschutz, m; Polabdeckung, fprotector de borne; protector de terminal~+.&,i–
oslona koncowkitampa de terminaispolskydd
482-02-24
borne negative, f
partie conducti ice accessible fournie pour Ie raccordement d’un circuit electrique exterieur aI’@lectrode negative de I’element
negative terminal
accessible conductive part provided for the connection of an external electric circuit to thenegative electrode of the cell
ability of a cell or battery to contain its electrolyte under specified mechanical andenvironmental conditions
arcndeesjapiptSv
a~~y~ J@ I j+l
f~##jfj#&+ffi:jJ
Elektrolytdichtheit, fretention de electrolito
%%%B%Azdolnosc zachowania eiektrolituretenq~o de eiectrolitoelektrolyth~ll ningsform~ga
482-02-32
fuite, f
perte imprevue d’electrolyte, de gaz ou d’autres substances provenant d’un element ou d’unebatterie
leakage
unplanned escape of electrolyte, gas or other material from a cell or battery
arcndeesjaplptSv
*9%%Auslaufen (einer Zelle oder Batterie), nfugay-p
wyciekfugaIackage
482-02-33
matiere active, f
matiere qui reagit chimiquement pour produire de I’energie electrique Iorsque I’element sedecharge
NOTE Pour Ies accumulateurs, la matiere active est ramenee a son etat initial pendant la charge
active material
material which reacts chemically to produce electric energy when the cell discharges
NOTE In secondary cells, the active material is restored to its original state during charge.
arcl-ldeesjaplptSv
ad iLl
%%i%wlHi
aktive Masse, fmateria activa
?i!##!lRmateriat aktywnymateria activaaktivt material
21
IS 1885 (Part 15) :2008
IEC 60050-482:2004
482-02-34
melange de matiere active, m
melange contenant une matiere qui reagit chimiquement pour produire de I’energie electriqueavec d’autres constituents et additifs
active material mix
blend containing a material which reacts chemically to produce electrical energy with otherconstituents and additives
arendeeslaplptSv
Qkill iJLdl L*
talf+wlJm%ewJ
Gemisch von aktiver Masse, nmezcla de materia activa
&$Jmieszanina materiatow aktywnychmistura de materia activaaktiv material blandning
482-02-35
caisse de groupement, fcoffre de groupement, m
conteneur muni d’une plaque de fond et de parois destine a contenir plusieurs elements oubatteries
battery tray
container with a base and walls for holding several cells or batteries
arcndeesJaplptSv
+J+!! &ki
t!$’t!iaam
Batterietrog, mcubeta de bateria
‘i&W b L’<
obudowa zestawu bateriicaixa de agrupamentobatteritrag
482-02-36
cable de sortie, m
cable assurant la liaison electrique entre Ies bornes de la batterie et I’utilisation ou Iechargeur
output cable
cable used for the electrical connection of the battery terminals and the load and/or thecharger
arcndeesjaplptSv
@JEJl J+4@Jl J+s
%iWlt!%Anschlusskabel, ncable de salida
$Itk%!przewody zewnqtrznecabo de saidapolkabel
22
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-02-37
ccmnexion, f
conducteur electrique utilise pour Ie transport du courant entre des composants clans uncircuit electrique
NOTE Par exemple, uric connexion relie electriquement deux elements, ou une borne d’un element aunt? borne de la batterie, ou encore une borne de la batterie a un circuit exterieur et a des dispositifsauxiliaires.
connector
conductor of electricity used for carrying current between components in an electric circuit
NOTE For example, a connector electrically joins two cells, or a terminal of a cell to a terminal of thebattery, or a terminal of the battery to an exterior circuit and also to auxiliary devices.
wcndeesjap}ptSv
a+?SW*Verbinder, mconector
~~+’~
#qcznik przewodzqcyconectorforbindning
482-02-38
parali61epipr5dique, adj
qualifie un element ou une batterie ayant la forme d’un parallelepipeds dent Ies faces sentrecta ngulaires
prismatic
qualifies a cell or a battery having the shape of a parallelepipeds whose faces are rectangular
Sect!on 482.4$3- Propriit6s @[ectriques et fonctionnernent
Section 482-03- Electrical properties and operation
r&+ction e!ectrochirnique, f
rr%cticm chimique irnpliquant une oxydation ou une r%duction de composants chimiques avecW? transfert d’electrons vers Ie ou en provenance de la matiere active
NOTE La reaction 5 I’electrode peut aussi cornprendre d’autres reactions chimiques incluant dessous-r6actions sur une electrode d’un ~l~ment.
ekmtrochemical reaction
chemical reaction involving oxidation or reduction of chemical components with a transfer ofelectrons to or from the active material
NOTE The electrode reaction can also invo!ve Other chemical reactions includingSubreactionson acdl electrode.
polarisationd’~k?ctrode, f
difference entre Ie patentiel d’kdectrode avec circulation de courant, et Ie potentiel d’electrodesaris circulation de courant, c’est-a-dire Ie potentiel d’t%quilibre
e!ectrode polarization
difference between the electrode potential with current flow, and the electrode potentialwithout current flow, i.e. the equilibrium potential
2?%%poiaryzacja elektrodypolariza~~o de e16ctrodoelektrodpolarisation
25
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-03
inversion de polarite, f
inversion des polarites des electrodes d’un element, generalement due a une dechargeprofonde d’un element de faible capacite clans un assemblage d’elements en serie
polarity reversalcell reversal
reversing of the polarities of the electrodes of a cell, generally due to over-discharge of a low-capacity cell in a series arrangement
arCndees
japlptSv
+11 &lMl; Q&J &l&l
Eii)zUmpolung, finversion de polaridad
E&oclwrocenie polaryzacjiinvers~o de polaridadepolvandning
482-03-04
polarisation de cristallisation, f
partie de la polarisation d’electrode provenant de la formation et de la croissance de germesde cristaux
crystallization polarization
part of the electrode polarization arising from crystal nucleation and growth phenomena
arcndeesJaplptSv
@J34 4=-J%fiRlt?i&Kristallisationspolarisation, fpolarization de cristalizacion
%%{L5)%polaryzacja krystalizacyjnapolarizaqiio de cristalizaqiiokristallisationspolarisation
482-03-05
polarisation de transfert de charge, f
partie de la polarisation d’electrode provenant de I’etape de transfert de charge de la reactiona I’electrode
activation polarization
part of the electrode polarization arising from a charge-transfer step of the electrode reaction
arcndeesJaplptSv
L@ UIJaLl
%tk@+kAktivierungspolarisation, fpolarization de activation
%’&E{Lj}&polaryzacja aktywacyjnapolarizag50 de transfer6ncia de cargaaktiveringpola risation
26
IS 1885( Part 15):2008
IEC 60050-482:2004
482-03-06
polarisation anodique, f
polarisation d’electrode associ6e a une reaction electrochimique d’oxydation
anodic polarization
electrode polarization associated with an electrochemical oxidation reaction
polarisation de concentration, fpolarisation de transfert de masse, f
partie de la polarisation d’electrode provenant du gradient de concentration de produits et dereactifs a I’electrode
concentration polarizationmass transfer polarization
part of the electrode polarization arising from concentration gradients of electrode reactantsand products
arCrldeesjaplptSv
&sJ\ Juul *WI; >> UIA&ul
ttiE@tiKonzentrationspolarisation, fpolarization de concentracibn; polarization de transferencia de masa
%%E%5)Bpolaryzacja st~ieniowa; polaryzacja przenoszenia masypolarizag~o de concentraq~o; poiariza+io de transfer6ncia de massakoncentrationspolarisation
27
IS 1885 (Part 15) :2008
IEC 60050-482:2004
482-03-09
polarisation ohmique, f
partie de la polarisation d’electrode, provenant du passage du courant a travers uneresistance pure a I’interieur de I’electrode ou de I’electrolyte
ohmic polarization
part of the electrode polarization arising from an electric current through an ohmic resistancewithin the electrode or the electrolyte
reaction parall~le, freaction secondaire, fr~action parasite, f
reaction addition nelle et non souhaitee se produisant clans un element qui entralne desdeficiencies de charge et des pertes de capacite, de duree de vie ou de performance
side reactionsecondary reactionparasitic reaction
additional and unwanted reaction in a cell that causes charging inefficiencies and loss ofcapacity, service life or performance
charge electrique qu’un element ou une batterie peut fournir clans des conditions de decharge
specifiers
NOTE Dans Ie systeme international S1, I’unite de charge electrique, ou quantite d’electricity, est Iecoulomb (1 C = 1 A s) mais en pratique, la capacite est general ement exprimee en amperes heures(Ah)
capacity (for cells or batteries)
electric charge which a cell or battery can deliver under specified discharge conditions
NOTE The S1 unit for electric charge, or quantity of electricity, is the coulomb (1 C = 1 As) but inpractice, capacity is usually expressed in ampere hours (Ah).
ar (LJ+i.1+11 ~i Q14.1) @Q#ll WI
cn ~& (Iujti(lj)de Kapazitat (von Zellen oder Batteries),es capacidad (de elementos o baterias)j~ ~~ (~~fl))
pl pojemnosc (ogniw Iub baterii)
f
pt capacidade (de elementos oubaterias)sv kapacitet
482-03-15
capacite assignee, f
valeur de la capacite d’une batterie determine clans des conditions specifiers et declaree parIe fabricant
rated capacity
capacity value of a battery determined under specified conditions and declared by themanufacturer
energie electrique qu’une batterie fournit clans des conditions specifiers
NOTE Dans Ie systeme international S1, l’unit6 d’6nergie est Ie joule (1 J = 1 W s), mais en pratique,!’energie d’une batterie est general ement exprim~e en wattheures (Wh) (1 Wh = 3600 J).
battery energy
electric energy which a battery delivers under specified conditions
NOTE The S1 unit for energy is joule (1 J = 1 W s), but in practice, battery energy is usuallyexpressed in watthours (Wh) (1 Wh = 3600 J).
arcndeesjaplptSv
‘iAJ~\ ~ti
*i’t!?!flE=
Energie einer Batterie, fenergia de una bateria
aM=*/l-’%–
energia uiyteczna baterii
energia de uma bateriaenergiinnehall
32
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-22
energie volumique (d’une batterie), f
quotient de I’energie d’une batterie par son volume
NOTE L’energie volumique est habituellement exprimee en wattheures par Iitre (Wh/1).
volumic energy (for batteries)
quotient of the battery energy by its volume
NOTE The volumic energy is usually expressed in watthours per Iitre (Wh/1).
arcndeesjaplptSv
(&ql) +1 W2
(*MI) +fm(Et) maEnergiedichte (einer Batterie), fenergia volurnica (de una bateria)
(8H!J@) **k=*)b%––energia obj@osciowa (baterii)energia volumica (de uma bateria)energi per volymenhet
482-03.23
decharge (d’une batterie), f
operation par Iaquelle une batterie fournit, a un circuit exterieur et clans des conditionsspecifiers, I’energie electrique produite clans Ies elements
discharge (of a battery)
operation by which a battery delivers, to an external electric circuit and under specifiedconditions, electric energy produced in the cells
ar (&JJ+l.l)&4
cn (mm) m%de Entladung (einer Batterie), fes descarga (de una bateria)
ja (RHi!lO) M%pl wyladowanie (baterii)pt descarga (de uma bateria)Sv urladdning
482-03-24
courant de decharge, m
courant electrique fourni par une batterie au tours de sa decharge
discharge current
electric current delivered by a battery during its discharge
arcndeesjaplptSv
&&Y Jtgl
J&l+if%iiiEntladestrom, mcorriente de descarga
li!l%afiprqd wyladowaniacorrente de descargaurladdningsstrom
33
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-25
regime de decharge, m
courant electrique auquel est decharge une batterie
NOTE Le regime de decharge est calcule en divisant la capaclte assignee par Ie temps de decharge,ce qul conduit a un courant electrique.
discharge rate
electric current at which a battery is discharged
NOTE The discharge rate is calculated as the rated capacity divided by the corresponding dischargetime which results in an electric current.
arendeesjaplptSv
&zLll J&a
iikqaxEntladestromstarke, fregimen de descarga;
m%*prqd znamionowy wyladowaniaregime de descarga
udaddningsstrom
482-03-26
courant de court-circuit (d’un element ou d’une batterie), m
courant maximal que pourrait fournir un element ou une batterie clans un circuit exterieur deresistance elect rique nulle, ou un circuit exterieur qui abaisse la tension aux bornes deI’element ou de la batterie approximativement a zero volt
NOTE Une resistance electrique nulle est hypothetique et en pratique, Ie courant de court-circuit estIe courant de crete circulant a travers un circuit de resistance tres faible par rapport a la resistanceinterne de la batterie.
short-circuit current (related to cells or batteries)
maximum current which should be delivered by a cell or battery into an external circuit withzero electric resistance, or an external circuit which depresses the cell or battery voltage toapproximately zero volt
NOTE Zero electric resistance is a hypothetical condition and In practice the short-circuit current isthe peak current flowlng In a circuit of very low resistance compared to the internal resistance of thebattery
arcn “dees~aplptSv
(u+J@l J I#iU ) (~J3J) ~>~JJ # .~l M$il. ik$llliii ( llL;[hfl’JJKurzschlussstrom (elner Zelle oder Battene), mcorriente de cortocircuito (de un elemento o de una bateria)%w’~fi [,L{+J,-.lYj i:, )
prqd zwarciowy (ognlwa Iub baterir)corrente de curtocircuito (de urn elemento ou de uma bateria)kortslutningsstrom
34
II,1 .. . .. —.
-
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-27
auto-dechat’ge, f
phenomena par Iequel un element ou une batterie perd de I’energie autrement que par laC!@charge clans un circuit exterieur
NOTE Voir egalement conservation de la charge.
self-discharge
phenomenon by which a cell or battery loses energy in other ways than by discharge into anexternal circuit
tension de decharge (d’un element ou d’une batterie), f
tension electrique entre Ies bornes d’un element ou d’une batterie pendant la decharge
discharge voltage (related to cells or batteries)closed circuit voltagecm load voltage (deprecated)
voltage between the terminals of a cell or battery when being discharged
arcmdeesjaplptSv
WI ;jIdI +; (&JI+I ~i q~) ~iall ~
M%*J% (IILMUJJ ; Hll%@JE: $’!iklllJk $!ill])Entladespannung (einer Zelle oder Batterie), ftension de descarga (de un elemento o de una bateria); tension en circuito cerrado
(?EXhm) M%a)z ; i%l?f$?EIEnapi~cie pod obciqzeniem (ogniw Iub baterii); napiqcie obwodu zamkniqtego (ogniw Iub baterii)tens50 de descarga (relativa a elementos ou baterias)urladdningsspan ning
482-03-29
tension initiale en circuit ferme, f
tension de decharge d’un element ou d’une batterie au commencement de la dechargeimmedi~tement apres disparition des transitoires
initial discharge voltageinitial closed circuit voltageinitial on load voltage (deprecated)
discharge voltage of a cell or battery at the beginning of the discharge immediately after anytransients have subsided
arCrldeesjaplptSv
JJYI J-ad ++; ~j% WI 6JJIJJI +; #1 &jal ++
%l?km%iw%; +71Mwilfimr%: NJ?tifiiNllJJl (Wftl)Entladeanfangsspannung, ftension initial de descarga; tension initial en circuito cerrado
@lBIEG%%E ; 3JJNIM!%?EEnapi~cie poczqtkowe pod obciqteniem; napiqcie poczqtkowe obwodu zamkniqtegotens~o initial de descargainitial urladdningsspan ning
35
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-30
tension finale, ftension d’arri%, f
tension specifiee pour Iaquelle la decharge de la batterie est terminee
end-of-discharge voltagefinal voltagecut-off voltageend-point voltage
specified voltage of a battery at which the battery discharge is terminated
arCndeesjaplptSv
@Jll W +; Jgill +5 *; &qJl\ #l; &~l &ial *qc~~~Entladeschlussspannung, ftension final
&?i3#f$lE’EaEnapiqcie koncowe; napi~cie wytqczeniatens~o final de descarga
slutspanning
482-03-31
tension nominaie, f
valeur approchee appropriee d’une tension, utilisee pour designer ou identifier un element,une batterie, ou un systeme electrochimique
nominal voltage
suitable approximate value of the voltage used to designate or identify a cell, a battery or anelectrochemical system
tension en circuit ouvert (d’un element ou d’une batterie), f
tension electrique aux bornes d’un element ou d’une batterie quand Ie courant de dechargeest nul
open-circuit voltage (related to cells or batteries)
voltage of a cell or battery when the discharge current is zero
arcndeesjaplptSv
(G~JQ@I ~i qW) G* I 6YIAH +
fi~r~~i ( Ip,lll, (lfj )
Leerlaufspannung (einer Zelle oder Batterie), ftension en circuito abierto (de un elemento o de una bateria)MM’$%JE ~’,!iii!::.11’”~”mnapiqcie bez obciqienia (ogniw Iub bateni); napi~cie obwodu otwartego (ogniw Iub baterii)tens~o em circuito aberto (de urn elemento ou de uma bateria)vilospanning
36
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-33
coefficient de temperature de la tension en circuit ouvert, m
quotient de la variation de tension en circuit ouvert d’un element ou d’une batterie par lavariation correspondante de la temperature
temperature coefficient of the open-circuit voltage
quotient of change in open-circuit voltage of a cell or battery by the corresponding change intemperature
arcndees
japlptSv
L*I 3J.iMl J@ 3J\JA\ LSJJ J.&4
%E$fmiiiwm?fiTemperaturkoeff izient der Leerlaufspannung, mcoeficiente de temperature de la tension en circuito abierto
MH$$%EOWER3Xwspolczynnik temperaturowy napiqcia obwodu otwartegocoeficiente de temperature da tens~o em circuito abertotemperaturkoeff icient for vilospanning
482-03-34
caracteristique specifique (d’un element ou d’une batterie), f
quotient d’une grandeur electrique donnee d’un element ou d’une batterie par sa masse, sonvolume ou I’sire de sa projection sur un plan
NOTE Les caracteristiques specifiques peuvent etre exprimees en amperes heures par decimetrecube (Ah/dm3) , wattheures par kilogramme (Wh/kg), etc.
specific characteristic (related to cells or batteries)
quotient of a given electric quantity of a cell or battery by its mass, volume or plane area
NOTE Spec)fic characteristics can be expressed e.g. in ampere hours per cubic decimetre(Ah/dm3),watthours per kilogram (Wh/kg), etc.
arcndeesjaplptSv
(WJ~I ~i QxM) Q41 ~W~lk~~~. ~ii!;fl~fi~ )bezogene Kenngro13e (einer Zelle oder Batterie), fcaracteristica especifica (de un elemento o de una bateria)Lt%w. (’rh&::t’Jj”l-<)~parametr charakterystyczny (ogniw Iub baterii)caracteristica especifica (de urn elemento ou de uma bateria)specifik karakteristik
37
IS 1885 (Part 15) :2008
IEC 60050-482:2004
482-03-35
conservation de la charge, fconservation de la capacite, f
aptitude d’un element ou d’une batterie a conserver sa capacite en circuit ouvert clans desconditions specifiers
NOTE Voir aussi auto-decharge,
charge retentioncapacity retention
ability of a cell or battery to retain capacity on open circuit under specified conditions
NOTE See also self-discharge
arcndeesJaplptSv
@+gJl LA+ H&w; UQ J5LLSI
?3*RRWJ: ?YW%+$whLadungshaltung, fconservation de la carga; conservation de la capacidad
2$&t%?#%E
zdolno~t zachowania Iadunkuconserva@io da carga; conserva@io da capacidadeladdningsh511ning
482-03-36
resistance interne apparente, f
quotient de la variation de tension d’une batterie par la variation de courant de dechargecorrespondent, clans des conditions specifiers
NOTE La resistance interne apparente s’exprime en ohms
internal apparent resistance
quotient of change of voltage of a battery by the corresponding change in discharge currentLlnder specified conditions
NOTE Internal apparent resistance is expressed in ohms
&fil%?i+?2E@masa czynna szczqtkowamassa activa residualoutnyttjbart aktivt material
482-03-38
masse en service, f
masse totale d’une batterie en etat de fonctionnement
service mass
total mass of a battery in its operational condition
arcndeesjapiptSv
ZA&u.dl Us.H
RmimBetriebsmasse (einer Batterie), fmasa en servicio
@m%Eamasa catkowitamassa em serviqobatterivikt
482-03-39
montage en parallele (d>un element ou d’une batterie), m
assemblage d’elements ou de batteries clans Iequel toutes Ies bornes positives et toutes Iesbornes negatives sent respectivement rellees entre elles
parallel connection (related to cells or batteries)
arrangement of cells or batteries wherein all the positive terminals and all the negativeterminals, respectively, are connected together
arcndeesjapiptSv
(dJJLa+J ~i QY&U) @j\@l + *J
%@
Parallelschaltung (von Zellen oder Batteries), fconexion en paralelo (de un elemento o de una bateria)%7’1$%% (’%’/tJl:Nj*L)polqczenie rownolegte (ogniw Iub baterii)montagem em paralelo (de elementos ou de baterias)parallellkoppling
39
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-40
montage en parallele-serie (d’un element ou d’une batterie), m
assemblage d’elements ou de batteries clans Iequel des montages en parallele d’elements oubatteries sent connectes en serie
parallel series connection (related to cells or batteries)
arrangement of cells or batteries wherein parallel connected ceils or batteries are connectedin series
arcndeesjaplptSv
&l@ j @jl@ & *F
%+%Parallel-Reihenschaltung (von Zellen oder Batteries), fconexion paralelo-serie (de un elemento o de una bateria)wiHzuRm (’l%rt!!::t%tz)polqczenie rownoleglo-szeregowe (ogniw Iub baterii)montagem em paralelo-serie (de elementos ou de baterias)parallel i-seriekoppling
482-03-41
montage en serie (d’un element ou d’une batterie), m
assemblage d’elements ou de batteries clans Iequel la borne positive de chaque element oubatterie est connectee a la borne negative de I’element suivant ou de la batterie suivante
series connection (related to cells or batteries)
arrangement of cells or batteries wherein the positive terminal of each cell or battery isconnected to the negative terminal of the next cell or battery in sequence
arendeesjaplptSv
JIJ.QI + &a@
$%Reihenschaltung (von Zellen oder Batteries), f; Serienschaltung (von Zellen oder Batteries), fconexion en serie (de un elemento o de una bateria)
E7UR%? CA’,+!:=M+Z )potqczenie szeregowe (ogniw Iub baterii)montagem em serie (de elementos ou de baterias)seriekoppling
482-03-42
montage en serie-parallele (d’un element ou d’une batterie), m
assemblage d’elements ou de batteries clans Iequel des montages en serie d’elements oubatteries sent connectes en parallele
series parallel connection (related to cells or batteries)
arrangement of cells or batteries wherein in series connected cells or batteries are connectedin parallel
arcndeesjaplptSv
+-JIJJJ @A & *J
*%NReihen-Parallelscha ltung (von Zellen oder Batteries), fconexion serie-paralelo (de un elemento o de una bateria)HW71JRE i’&d!l::r!#*Zl)polqczenie szeregowo-rownolegle (ogniw Iub baterii)montagem em serie-paralelo (de elementos ou de baterias)serie-para llellkoppling
4(I
IS 1885 (Part 15):2008
IEC 60050-482:2004
iii... .
482-03-43
valeurnominale, fvaleur de denomination, f
valeur d’une grandeur, utilisee pour denommer et identifier un composant, un dispositif, unmateriel ou un systeme
[151-16-09]
NOTE La valeur nominale est generalement une valeur arrondie.
nominal value
value of a quantity used to designate and identify a component, device, equipment, or system
[151-16-09]
NOTE The nominal value is generally a rounded value
ar
cn
de
es
ja
plptSv
&A q$X%(KE
Nennwert, m
valor nominal/.J$r$@
wartosc nominalnavalor nominalnominellt varde
482-03-44
endurance de batterie, f
comportment d’une batterie evalue numeriquement Iors d’un essai simulant des conditionsde service specifiers
battery endurance
numerically defined performance of a battery during a given test simulating specifiedconditions of service
ar
cn
dees
ja
plptSv
i@+.l\ J&
E~jtj@~&Haltbarkeit einer Batterie, fendurancia de bateria
WA%*wlasciwosci eksploatacyjne bateriiendur%ncia de uma bateriadrifttid
41
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-03-45
essai de conservation, m
essai conduit pour mesurer la perte de capacite, la tension en circuit ouvert, Ie courant decourt-circuit ou d’autres grandeurs apres stockage clans des conditions specifiers
storage test
test carried out to measure the loss of capacity, open-circuit voltage, short-circuit current orother quantities after storage under specified conditions
ar
cn
dees
japl
ptSv
&@l Jq.ilJp@i#@
Lagerungsprufung, fensayo de conservationJ17E@J%?; ERW$xl$2proba przechowywaniaensaio de armazenagemIagringsprov
482-03-46
duree de vie en service, f
duree totale de la vie active d’un element ou d’une batterie en fonctionnement
NOTE 1 Pour Ies piles, la duree de vie en service correspond au temps total ou a la capacite totale dedecharge clans des conditions specifiers.
NOTE 2 Pour Ies accumulateurs et batteries d’accumulateurs, la duree de vie en service peut &treexprimee en temps, nombre de cycles charge/decharge ou capacite en amperes heures (Ah).
service life
total period of useful life of a cell or a battery in operation
NOTE 1 For primary batteries, service life relates to the total discharge time or capacity under specificconditions.
NOTE 2 For secondary cells and batteries, the service life may be expressed in time, number ofcharge/discharge cycles, or capacity in ampere hours (Ah).
arcndeesjaplptSv
(LMI) qJ~l JAG
@vH%fEr: M%m-rmLebensdauer, fviola Gtil
%R!J%+rczas ukytkowania; ukyteczny czas zyciaduraqiio de viola em servi~olivslangd
duree, clans des conditions specifiers, a la fin de Iaquelle une batterie a conserve sonaptitude a accomplir une fonction .s+ecifiee
storage lifeshelf life
duration, under specific conditions, at the end of which a battery has retained the ability toperform a specified function
arcndeesjaplptSv
dds~ +; l&J-=J~.x=!Pi%wil
Lagerfiihigkeit, ftiempo de aimacenamiento; tiempo de conservation
%?%**dopuszcza!ny czas przechowywania
duraq~o de armaz@nagemIagringstid
482-03-48
essai continu, m
essai avec decharge ininterrornpue
continuous service test
service test with an uninterrupted discharge
arcndeesjaplptSv
iJ..&AAll A..&.HJl+l.5a\
iz*.14’Fia%$
Dauerentladeprtif ung, fensayo de servicio continuo
i!##+%!?’&3R4!2proba pracy ciqglejensaio de serviqo continuokontinuerligt urladdningsprov
iS 1885 (Part 15) :2008
IEC 60050-482:2004
Section 482-04- Terrnes specifiques aux piles
Section 482-04 – Terms typically used for primary cells and batteries
482-04-01
pile air-metal, f
pile clans Iaquelle I’oxygene de I’air sert de matiere active a I’eiectrode positive et un metalsert de mati&e active a I’electrode negative
air metal battery
primary battery with an alkaline or saline electrolyte in which atmospheric oxygen serves asthe active material at the positive electrode and a metal as the active material of the negativeelectrode
pile comprenant un electrolyte alcalin, une electrode positive contenant du bioxyde de manga-nese et une electrode negative en zinc
alkaline zinc manganese dioxide battery
primary battery with an, alkaline electrolyte, a positive electrode containing manganesedioxide and a negative electrode of zinc
arcndeeslaplptSv
~+i &j .~\ @\ & &J&
Mi’i.m---:$+ttiH it? fh?fh
alkalische Zink-Manga ndioxid-Batterie, fpila alcalina de dioxido de manganeso-cinc
7- fbti !JV>ti>’am
bateria alkaliczna dwutlenek manganu – cynkpilha alcalina de dioxido de manganesio-zincoalkaliskt torrbatteri
44
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-04-04
pile aoxyded’argent et zinc, f
pile cornprenant un electrolyte alcalin, une electrode positive contenant de I’oxyde d’argent etune ~lectrode negative en zinc
zinc silver oxide battery
primary battery with an alkaline electrolyte, a positive electrode containing silver oxide and anegative electrode of zinc
arendees
japlptSv
&Jdl &j.&i.11 xi +Jll+
@-%.ti@Q$’thZink-Silberoxid-Batterie, f
pila de oxido de plata-cinc
!%{E$?%?I!!bateria tlenek srebra – cynkpilha de oxido de prata-zincosilveroxidbatteri
482-04-05
pile air-zinc a electrolyte neutre, f
pile air-metal comprenant un electrolyte salin et une electrode negative en zinc
neutral electrolyte zinc air battery
metal air battery with a saline electrolyte and a negative electrode of zinc
arcndeesjaplptSv
JJti ~+ ~lj &j -@\@ &JI&
+t’+%%=’n~h$!?,
Luft-Zink-Batterie mit neutralem Elektrolyt, fpila de sire-cinc con electrolito neutrog~~=~~
bateria powietrze-cynk z elektrolitem obojqtnympilha ar-zinco com electrolito neutrozink-luftbatteri med neutral elektrolyt
482-04-06
pile au chlorure de zinc, f
pile comprenant un electrolyte salin a base de chlorure de zinc, une electrode positivecontenant du bioxyde de manganese et une electrode negative en zinc
zinc chloride battery
primary battery with a saline electrolyte based on zinc chloride, a positive electrodecontaining manganese dioxide and a negative electrode of zinc
arcndeesjaplptSv
&jN +J,j.ls iJJ&~fiqf~~Zinkchloridbatterie, fpila de cloruro de cinc
&4 L!lE!f&Ewbateria z chlorkiem cynkupilha de cloreto de zincozinkkloridbatteri
45
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-04-07
pile saline, f
pile telle que Ies piles Leclanche ou Ies piles au chlorure de zinc
zinc carbon battery
primary battery such as Leclanche or zinc chloride batteries
a rcndeesJaplpiSv
&j -~~$ &JJS+
R-M*i’11Zink-KohIe-Batterie, fpila salina
-i’ Yif>i+i’zti
bateria w~giel-cynkpilha salinabrunstensbatteri
482-04-08
pile Leclanche, f
pile comprenant un electrolyte salin, a base de chlorure ct’amrnonium et de chiorwre de zinc,une electrode positive contenant du bioxyde de rnangandse et une electrode negative en zinc
Leclanche battery
primary battery with a saline electrolyte based on ammonium chloride and zinc chloride,a positive electrode containing manganese dioxide and a negative electrode of zinc
pile comprenant un electrolyte non aqueux, une electrode positive contenant du monofluorurede carbone et une electrode negative en lithium
lithium carbon monofluoride battery
primary battery with a non-aqueous electrolyte, a positive electrode containing carbonmonofluoride and a negative electrode of lithium
ar
cn
dees
japl
pt
Sv
?# “&@l +J& LbiqJ@++- –~~~~.~Lithium-Kohlenstoff monofluorid-Batterie, fpila de Iitio-monofluoruro de carbono
&94 L%.%’!J F?J–h-l?k’i=Etibateria monofluorek w~gla - litpilha de Iitio-monofluoreto de carbonoIitium-koimonof luoridbatteri
46
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-04-10
pile au bioxyde de manganese et lithium, f
pile comprenant un electrolyte non aqueux, une electrode positive contenant du bioxyde demangan&e et une electrode negative en lithium
lithium manganese dioxide battery
primary battery with a non-aqueous electrolyte, a positive electrode containing manganesedioxide and a negative electrode of lithium
arcndeesjaplptSv
?.944-M+ +!J~J~ w+?I!--:%+k$$idjjmLithium-Mangandioxid-Batterie, fpila alcalina de dioxido de manganeso-litio
::E!24L-7YY32 Y Y’!7A-R@3@
bateria dwutlenek manganu – litpilha de dioxido de manganesio-litioIitium-mangandioxidbatteri
482-04-11
pile a I’oxyde de cuivre-lithium, f
pile comprenant un electrolyte non aqueux, une electrode positive contenant de I’oxyde decuivre et une electrode negative en lithium
iithium copper oxide battery
primary battery with a non-aqueous electrolyte, a positive electrode containing copper oxideand a negative electrode of lithium
arcndeesjaplptSv
?94+VW xi &J&M-Mk%iMmLithium-Kupferoxid-Batterie, fpila de oxido de cobre-litio
?%{L$%!J5-!2A-UCIWLIbateria tlenek miedzi - litpilha de oxido de cobre-litioIitium-kopparoxidbatteri
482-04-12
pile au disulfure de fer et lithium, f
pile comprenant un electrolyte non aqueux, une electrode positive contenant du disulfure defer et une electrode negative en lithium
lithium iron disulphide battery
primary battery with a non-aqueous electrolyte, a positive electrode containing iron disulphideand a negative electrode of lithium
arcndeesjaplptSv
?944- +s) &+# &G Z@+
@l”=Ri’k%k*M -Lithium-Eisendisulf id-Batterie, fpila de disulfuro hierro-litio
=m41XkY ? 9A–&%!fhbateria dwusiarczek zelaza – litpilha de dissulfureto de ferro-litioIitium-jarndisulf idbatteri
47
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-04-13
pile au dichlorure de thionyle et lithium, f
pile comprenant un electrolyte non organique et non aqueux, une electrode positive contenantdu dichlorure de thionyle et une electrode negative en lithium
lithium thionyl chloride battery
primary battery with a non-aqueous inorganic electrolyte, a positive electrode containingthionyl chloride and a negative electrode of lithium
arCndeesjaplptSv
?944-L&a +J+ w+a-m?iiif%%t%?l.!lLithium-Thionylchlorid-Batterie, fpila de dicloruro de tionilo-litio
%4k?$=– /b!) ?9A-&sg$jJbateria chlorek tionylu – litpilha de dicloreto de tionil-litioIitium-tionylkloridbatteri
482-04-14
pile seche, f
pile dent I’electrolyte est immobilise
dry cell
primary battery containing an immobilized electrolyte
arcndeesjaplptSv
d#l J&&d
7%!a!4Trockenzelle, fpila seca
E%%ogniwo suchepilha secatorrcell
482-04-15
pile au papier, f
pile clans Iequel Ie separateur est en papier impregne d’electrolyte
paper-lined cell
primary cell wherein the separator is paper impregnated with electrolyte
arcndeesjaplptSv
>JJ 4 J9--mfidiwpapiergefutterte Zelle, fpila con papel separadorA—)<— y/f ~ p-*~&
ogniwo z papierowym separatorempilha de papelcell med absorberad elektrolyt
48
IS 1885 (l%t15) :2008
IEC 60050-482:2004
482-04-16
pile a gel, f
pile clans Iequel Ie separateur comprend un gel d’amidon humide avec I’electrolyte
paste-lined celi
primary cell wherein the separator is a starch gel wet with electrolyte
arcndeesjaplQts“v
(jgyu LA+ J+
*~fLr$iJ
Pastenzeile, fpila con separador gelificado
690 &’%t!!!ocjniwo ze z~eiowanym elektrolitem; ogniwo pastowane (termin niezalecany)pi!ha de gelcell med gelatineract elektrcdyt
4$2-04-77
pile ronde, f
pile de form? cylindrique clans Iaqueile la hauteur totale est superieure ou egale au diametre
round ceil
primary cell with a cylindrical shape in which the overall height is equal to or greater than thediameter
Section 482-05- Termes specifiques aux accumulateurs
Section 482-05- Terms typically used for secondary cells and batteries
482-05-01
batterie au plomb-bioxyde de plomb, fbatterie au plomb, f
batterie d’accumulateurs comprenant un electrolyte aqueux a base d’acide sulfurique dilu6,une electrode positive en bioxyde de plomb et une electrode negative en plomb
NOTE Les batteries au plomb-bioxyde de plomb sent souvent appelees accumulateurs (deconseille)
lead dioxide lead batterylead acid battery
secondary battery with an aqueous electrolyte based on dilute sulphuric acid, a positiveelectrode of lead dioxide and a negative electrode of lead
NOTE Lead dioxide lead batteries are often called accumulators (deprecated).
arcndeesjaplptSv
#LAJL &LAJJl xi # qu+%iZ!’2ii?diw
Bleibatterie, f; Bleiakkumulator, mbateria de piomo-dioxido de plomo; bateria de plomo acido
$4%s%bateria dwutlenek olowiu - olow; bateria kwasowo-otowiowabateria de chum bo-dioxido de chumbo; bateria de chumboblybatteri
482-05-02
batterie au cadmium-oxyde de nickel, fbatterie nickel-cadmium, f
batterie d’accumulateurs comprenant un electrolyte alcalin, une electrode positive contenantde I’oxyde de nickel et une electrode negative en cadmium
secondary battery with an alkaline electrolyte, a positive electrode containing nickel oxide anda negative electrode of cadmium
arcndeesjaplptSv
&4~&& +i +J@
%iE4%%w
Nickel-Kadmium-Batterie, fbateria de cadmio-oxido de niquel; bateria de niquel-cadmio=y+lb.hF59A%aw
bateria tlenek niklu - kadm; bateria niklowo-kadmowabateria de cadmio-oxido de niquel; bateria niquel-cadmionickel-kadm iumbatteri
50
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-05-03
batterie 5 I’oxyde de nickel-fer, fbatterie nickel-fer, f
batterie d’accumulateurs comprenant urr c+lectrolyte alcalin, une electrode positive contenantde I’oxyde de nickel et une electrode nk+gative err fer
nickel oxide iron batterynickel iron battery
secondary battery with an alkaline electrolyte, a positive electrode containing nickel oxide anda negative electrode of iron
arcndeesjaplptSv
J+- & xi ~J@~&#t+JwNickel-Eisen-Batterie, fbateria de oxido de niquel-hierro; bateria de niquel-hierro
== y??-[b . @%#’a)&
bateria tlenek niklu – ielazo; bateria niklowo-iwbazowabateria de oxido de niquel-ferro; bateria niquei-ferro
nickel-jarnbatteri
482-05-04
batterie a I’oxyde de nickel-zinc, fbatterie nickel-zinc, f
batterie d’accumulateurs comprenant un r51ectrolyte alcalin, une +Iectrode positive contenantde I’oxyde de nickel et une @lectrode negative en zinc
nickel oxide zinc batterynickel zinc battery
secondary battery with an alkaline electrolyte, a positive electrode containing nickel oxide anda negative electrode of zinc
arCndeesjaplptSv
&j. &i .+&.i L@+~~~lg$jNickel-Zink-Batterie, f
bateria de oxido de niquel-cinc; bateria de niquel-cinc-= y */b . mk’~”?m
bateria tlenek niklu – cynk; bateria niklowo-cynkowabateria de oxido de niquel-zinco; bateria niquel-zinconickel-zinkbatteri
482-05-05
batterie a I’oxyde d’argent-cadmium, f
batterie d’accumulateurs comprenant un electrolyte alcalin, une electrode positive contenantde I’oxyde d’argent et une electrode negatwe en cadmium
silver oxide cadmium battery
secondary battery with an alkaline electrolyte, a positive electrode containing silver oxide anda negative electrode of cadmium
arcndeesjaplptSu
~HJU-. LA *i &U+
%4Ra%$’tlSilber-Kadmium-Batterie, fbateria de oxido de plata-cadrnio
E24t2&! “ * F: 9AB’SMJbateria tlenek srebra – kadmbateria de oxido de prata-cadmiosilver-kadmi umbatteri
51
. . .—.—.,-—_. A_.._ ...—.. ____,_... ._ .,. ,.
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-05-06
accumulateur argent-zinc, m
batterie d’accumulateurs comprenant un electrolyte alcalin, une electrode positive contenantde I’argent et une electrode negative en zinc
silver zinc battery
secondary battery with an alkaline electrolyte, a positive electrode containing silver and anegative electrode of zinc
<31’
cndeesjapl
ptSv
&j- L& &ua+
$$ff/*Ffij!jSilber-Zink-Batterie, fbateria de plata-cinc
Fii?tL* “ !lE&’%?t%?l!lbateria srebrowo-cynkowaacumulador de prata-zincosilver-zinkbatteri
482-05-07
batterie ion-lithium, f
batterie d’accumulateurs comprenant un electrolyte au solvant organique et des electrodespositive et n6gative clans Iesquelles est intercale un compose clans Iequel Ie lithium est stocke
NOTE Une batterie ion-lithium ne contient pas de lithium metallique.
lithium ion battery
secondary battery with an organic solvent electrolyte and positive and negative electrodeswhich utilize an intercalation compound in which lithium is stored
NOTE A lithium ion battery does not contain lithium metal
arCrldeesjaplptSv
?AI b+i M&R!l%Tli%f?4?t!lLithiumionenbatterie, fbateria de ion-litio
batterie au sodium-chlorure de nickel, fbatterie nickel-hydrure metallique, f
batterie d’accumulateurs comprenant un dectrolyte a I’hydroxyde de potassium aqueux, uneelectrode positive contenant du nickel a I’etat d’hydroxyde de nickel et une electrode negativecontenant de I’hydrogen.e sous forme d’hydrure metallique
nickel-metal hydride battery
secondary battery with an electrolyte of aqueous potassium hydroxide, a positive electrodecontaining nickel as nickel hydroxide and a negative electrode of hydrogen in the form of ametal hydride
ar
Crl~~
esjaplptSv
~l$u–.–IJs+i +* ~J&+
wi=4aikv!l+RisfJ 3i’tliNickel-Metallhy drid-Batterie, fbateria de niquel-hidruro metalicoz. ~&/r/ . **~~~
bateria niklowo-wodorkowa
bateria de sodio-cloreto de niquel; ttateria de niquel-hidreto metaliconickel-metal lhydridbatteri
482”05-09
chantier de batterie, m
support en materiau generalement isolant pour des accumulateurs stationnaires et des batsou batteries monoblocs
battery base
support base, generally of insulating material for stationary secondary cells, batteries ormonobloc batteries
arcndeesJaplptSv
iJJa+N 6ACG
%wh%@.Eiatteriestander, mbase de bateria
‘=E:lt!13Repodstawa bateriibase de bateriabatterifundament
482-05-10
chassis, m
conteneur a parois evidees destine a grouper plusieurs elements ou batteries
battery crate
container with frame walls for holding several cells or batteries
arcndeesjaplptSv
L&a+ll L4J!AOLwillati
Batterietrager, mchasis de bateria‘~~~j ~
blok bateriicesto de bateriasbatterilada
53
IS 1885 (Part 15):2008
[EC 60050-482:2004
482-05-11
ferrneture anti-defiagrante, f
fermeture conque specialement afin cf’assurer la protection contre la propagation d’un front deflamme venant de ou allant vers I’interieur d’un accumulateur
NOTE Ces flammes peuvent provenir d’une ~tincelie ou cf’une flamme nue exterieure qui met Ie feu aun gaz d’electroiyse combustible.
flame arrestor ventflame arrester vent
vent of special design which provides protection against the propagation of a flame front fromor into the interior of a secondary cell
NOTE This flame front may originate from a spark or an external naked flame igniting combustibleelectrolysis gas.
ouverture de conception particuliere qui permet de Iaisser passer Ies gaz d’un accumulateurafin d’eviter une pression interne excessive et ainsi d’emp~cher la rupture du bac de I’element
safety vent
vent of special design which allows to release gas from a secondary cell in order to avoidexcessive internal pressure and thereby to prc!clude rupture of the cell container
arcndeesjaplptSv
(J-41 &&4
wk?il
Uberdruckventil, nventeo de seguridad
32+. 1?zaw6r bezpieczetistwaexutor de seguranqas~kerhetsventil
...-- ..—.-,-,..—-. .... -
IS 1885 (Part 15) :2008
IEC 60050-482:2004
482-05-13
cleflecteur d’element, m
composant interne utilise pour reduire Ies pertes d’electrolyte dues aux gouttelettesd’electrolyte transporters par Ie mouvement des gaz et/ou de I’electrolyte
NOTE Un cfeflecteur d’e16ment a une fonction secondaire qui est de proteger Ie bloc de plaquescontre Ies dommages provoques par des objets passant par I’orifice de remplissage.
cell baffle
internal component used to reduce the amount of electrolyte loss due to electrolyte spraybeing carried in the gas and/or by electrolyte movement
NCJTE A cell baffle has a second function in protecting the plate pack from damage by objectsinserted through the filling hole.
arcndeesjaplptSv
i+.$al +@ tiJk
fhMtRiPE
Schwappschutz, mdeflector de elemento
B@&przegroda ogniwa
deflector de elementospillskycid
482-05-14
element ouvert, m
accumulateur ayant un couvercle muni d’une ouverture au travers de Iaquelle Ies produits deI’electrolyte et de I’evaporation peuvent s’echapper Iibrement de I’element vers I’atmosphere
vented cell
secondary cell having a cover provided with an opening through which products of electrolysisand evaporation are allowed to escape freely from the cell to the atmosphere
arcndeesjaplptSv
*I QN3 @
HKR%MIgeschlossene Zelle, felemento abierto
‘-+:> F 7f%alf!l
ogniwo wentylowaneelemento abertoventilerad cell
55
IS 1885 (Part 15):2008
iEC 60050-482:2004
482-05-15
batterie etanche a soupapes, fVRLA (abbreviation)
batterie d’accumulateurs clans Iaquelle Ies ~lements sent fermes mais munis d’une soupapequi permet I’echappement des gaz Iorsque la pression interne excede une valeurpr%determinee
NOTE L’@16ment ou la batterie ne peuvent norrnalement pas recevoir d’addition a Ieur electrolyte.
valve regulated lead acid batteryVRLA (abbreviation)
secondary battery in which cells are closed but have a valve which allows the escape of gas ifthe internal pressure exceeds a predetermined value
NOTE The cell or battery cannot normally receive additions to the electrolyte
element ferme ne Iaissant echapper ni gaz ni Iiquide Iorsqu’il fonctionne clans Ies Iimitesspecifiers par Ie fabricant
NOTE Un element etanche peut 6tre muni d’un dispositif de securite destine a eviter toute pressioninterne dangereusement elevee et est conqu pour fonctionner toute sa vie clans ses conditionsd’etancheite initiales.
sealed cell
cell which remains closed and does not release either gas or liquid when operated within thelimits specified by the manufacturer
NOTE A sealed cell may be equipped with a safety device to prevent a dangerously high internalpressure and is designed to operate during its life in its original sealed state.
nervures du fond du bac qui supportent le bloc de plaques creant ainsi un espace qui permeta la matiere active detachee des plaques de se deposer saris causer de court-circuit entre Iesplaques
NOTE Les tasseaux n’existent que clans Ies accumulateurs au plomb-bioxyde de plomb.
mudribs
ridges in the bottom of the case which support the plate pack and thus create a space whichallows the active material detached from the plates to settie without causing a short-circuitbetween the plates
NOTE Mudribs can be found only in lead acid cells and batteries
plaque plate empatee avec un collecteur de courant en forme de grille, utilisee clans Iesaccumulateurs au plomb-bioxyde de plomb
Faure plate
pasted flat plate with a grid current collector used in a lead acid battery
arcndeesjaplptSv
~jti CIJi
B%atiFaure-Platte, fplaca Faure
7 d- -MHIH-Jiptyta Faure’aplaca FaureFaure-platta
482-05-20
plaque Plante, f
plaque en plomb pur de tres grande surface developpee, utilisee clans Ies accumulateurs auplomb-bioxyde de plomb
NOTE La matiere active est formee par I’oxydation electrochimique du plomb en couches minces
Piante plate
plate, made of pure lead, of very large effective surface used in lead acid cells
NOTE The active material is formed by electrochemical oxidation of the lead in thin layers.
ar
cndeesjaplptSv
g% C\Ji
WM*MK; Yf#l*wKPlante-Platte, fplaca Plante
Y7Y7&%&ptyta Pla nte’aplaca PlantePlante-platta
482-05-21
plaque a pochettes, f
plaque d’un element au nickel-cadmium ou au nickel-fer consistent en un assemblagede pochettes d’acier perforees qui peuvent .Stre nickelees, et qui contiennent la matiere active
pocket plate
plate of a nickel-cadmium or nickel-iron cell consisting of an assembly of perforated steelpockets, which may be nickel plated, and which contain the active material
arcndeesjapiptSv
diA *IJ ~l~i
%SatfiTaschenplatte, fplaca con cavidad
83-Y l’x~tiplyta kieszonkowapiaca de bolsosfickplatta
58
—... =. ._
IS 1885 (Part 15) :2008
IEC 60050-482:2004
482-95-22
plaque d’accumulateur de batterie ak:alirw dent Ie support est obtenu par frittage de poudrem6tal!ique et ctans Iequel la matiere active est introduite
olatn of an alkaline secondary cell the support of which is made by sintering metal powderand into whici~ the active material is introduced
ar
dees
482-05-23
bouchon, m
composant place clans I’orifice de rempiissage d’un &lement en vue de perrnettre Ie degage-rnent des gaz d’electrolyte proven ant de I’@l@rnent
vent cap
component fitted into the filling hole of a cell with a provision of allowing the venting ofelectrolysis gas from the cell
arcl-ldeesjaplptSv
482-05-24
etag~re pour batterie, f
support, pupitre ou grille a un ou plusieurs niveaux ou &ageres pour I’installation d’elementsou bats rnormblocs clans urw batterie Mationnaire
battery rack
support, stand or grating with one or more levels or tiers for the installation of cells or mono-bloc containers in a stationary battery
arcmdeesjaplptSv
i++d~ hdJ
*$’l!Ml%!
Batteriegestell, nestante de baterias
%58stojak bateriiestante para bateriabatteristiillning
59
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-05-25
batterie saris entretien, f
batterie d’accumulateurs qui, durant sa duree en service, n’exige aucune maintenance,pourvu que Ies conditions de mise en ceuvre specifiers soient respecters
maintenance-free battery
secondary battery which, during the service life, requires no maintenance provided specifiedoperating conditions are fulfilled
arCndeesjaplptSv
i&b4a ~lhi y i+Ju+$&g~~ *M
wartungsfreie Batterie, fbateria Iibre de mantenimiento
$>??- Yz79-%f+%%.lbateria bezobslugowabateria sem manuten@ounderhhllsfritt batteri
482-05-26
pouvoir de demarrage, m
aptitude d’une batterie a fournir la puissance necessaire au demarrage d’un moteur thermiqueclans des conditions specifiques
starting capability
ability of a battery to supply power to an engine starter motor under specified conditions
arcndeesjaplptSv
ti~l $i+ # ~J@\
fidlfkfi
Startleistung, fcapacidad de arranqueMIi9JM&zdolnosc rozruchowapoder de arranquestartformaga
482-05-27
charge d’une batterie, f
operation pendant Iaquelle un accumulateur ou une batterie d’accumulateurs reqoit deI’energie electrique d’un circuit exterieur, qui conduit a des modifications chimiques a l’inte-rieur de I’element et ainsi au stockage de I’energie sous forme d’energie chimique
charging of a battery
operation during which a secondary cell or battery is supplied with electric energy from anexternal circuit which results in chemical changes within the cell and thus the storage ofenergy as chemical energy
arcndeesjaplptSv
~J&@~ @
tiiwfi%
Laden einer Batterie, ncarga de una bateria35%Iadowanie bateriicarregamento de uma bateria; carga de uma bateria (desaconselhado)batteriladdning
60
I i ..—— -—.- ---..- .-.-” .----. — .— -- —
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-05-28
cycle (d’un element ou d’une batterie), m
ensemble d’operations qui est conduit sur un accumulateur ou une batterie d’accumulateurset est repete regulierement selon la m~me sequence
NOTE Pour une batterie d’accumulateurs, ces operations consistent en un ensemble d’une dechargesuiwe d’une charge ou d’une charge suivie d’une decharge clans des conditions specifiers. Cettesequence peut comprendre des periodes de repos.
cycling (of a cell or battery)
set of operations that is carried out on a secondary cell or battery and is repeated regularly inthe same sequence
NOTE In a secondary battery these operations may consist of a sequence of a discharge followed bya charge or a charge followed by a discharge under specified conditions. This sequence may includerest periods.
arcndeesjaplptSv
(&J~I ~i @u) ~iij & QIJ3Jfizf ( l~;llJmJ)
Zyklisieren (einer Zelle oder Batterie), nciclo (de un elemento o de una bateria)
%23%-?-< ~~~ (’tli’m~~)cykl pracy (ogniwa lub baterii)ciclagem (de urn elemento ou de uma bateria)cykling
482-05-29
batterie chargee videe, f
batterie d’accumulateurs charges clans Iaquelle Ies elements contiennent une petite quantited’electrolyte absorbee par Ies plaques des elements et Ies separateurs
drained charged battery
charged secondary battery where the cells contain a small quantity of electrolyte absorbed inthe cell plates and in the plate separators
ri?taf a la Iivraison de certains types de batterie d’accumulateurs dams Iaquelle les el~ments necontiennent pas d’electrolyte et dent Ies plaques sent stkines et a I’&tat Charg@ dectriquement
dry charged battery
state of delivery of some types of secondary battery where the cells contain no electrolyte andthe plates are dry and in a charged state
Lmtterie d’accumulateurs clans Iesquels Ies eliwnents ne contiennent pas d’electrolyte ou dentl’rNectrolyte a et@ vide et Ies e16ments rendus erwuite @tanches pour emp~cher I’entreed’oxygene
discharged secondary battery, where the cells contain no electrolyte or one in which theelectrolyte has been drained from the cells which are Nw+rr sealed to keep out oxygen
arcndees~aplptSv
b+ &J G& & &JL& Ji ~
T?&%: FFf%%d3?lkungefullte entladene Zelle oder Batterie, fbateria descargada vacia
~tat a la Iivraison de certains types de batterie d’accwmulateurs clans Iaquelle Ies elementscontienrrent de I’electrolyte et dent Ies plaques sent ~ l’6tat charge
filled charged battery
state of delivery of some types of secondary battery where the cells contain electrolyte andwhose plates are in a charged state
Xkl\%%fi#%%X.!Jbateria (akumulatorowa) rmpetniona aa!adcwanabateria pronta a usarfyllt och Iaddat batteri
62
IS 1885( Part 15):2008
IEC 60050-482:2004
482-05-33
batterie dechargbe remplie, f
~tat .5 la Iivraison de certains types de batterie d’accumulateurs clans Iaquelle Ies elementscontiennent de I’electrolyte et dent Ies plaques sent a I’etat decharge
filled discharged battery
state cf delivery of some types of secondary battery where the cells contain electrolyte andwhose plates are in a discharged state
arCrl
dees
japlptSv
i9+.4 G Gg+ Q-&w’wil~~jtilgr+imgeftillte eritladene Batterie, fbateria descargada rellena
etat de certains types de batteries d’accumulateur non encore rempli d’electrolyte et clanslequel la rnati~re active n’a pas encore ete soumise au processus de ((formation)>
unformed dry cell
state of some types of secondary cell not yet filled with electrolyte and where the activematerial has not yet been submitted to a so called “formation” process
arcndeesjaplptSv
Lg&l.4J@G~*
%4’LWFA%4JWunforrnierte Trockenzeiie, feiemento seco no formado
batterie d’accumulateurs dent Ies bornes sent connecters en permanence a une source detension constante suffisante pour maintenir la batterie approximativement a charge complete,et qui est destinee a fournir de I’energie a un circuit electrique Iorsque I’alimentation normaleest interrompue
battery on float (charge)floating battery (deprecated)
secondary battery whose terminais are permanently connected to a source of constantvoltage sufficient to maintain the battery approximately fully charged, and which is intended tosupply power to an electric circuit, if the normal supply is temporarily interrupted
ar
cn
deesjaplptSv
iJJ+ JIM xl; JIM @All* Q&
)7-fiAi%t/17tk
Batterie im Erhaitungsiadebetrieb, fbateria fiotante
% ~J?15’%bateria (akumuiatorowa) doladowywanabateria de carga fiutuantebatteri i fiytiaddningsdrift
63
IS 1885 (Part 15):2008IEC 60050-482:2004
482-05-36
aptitudea la charge, facceptance recharge, f
aptitude d’une batterie d’accumulateurs a recevoir une charge clans des conditions specifiers
charge acceptance
ability of a secondary battery to increase its state of charge under specified conditions
arendeesjaplptSv
&kal Qti
35 QW2W3
Ladungsaufnahme, faceptacion de carga~gg~.&
zdolnosc przyjmowania ladunkuaceitag~o de cargaIaddningsmottaglighet
482-05-37
charge rapide, fbiberonnage
charge effectuee, clans un but particulier, a des courants ou tensions electriques superieurs ala normate pendant un court intervalle de temps
boost charge
accelerated charge applied at greater than normal values of electric currents or of voltages(for a particular design) during a short time interval
arcndeesjaplptSv
&J.uJl*I
SE%Starkladung, fcarga rapida
Y–.X by-p-v
tadowanie przyspieszonecarga rapidasnabbladdning
. 482-05-38
charge a courant constant, f
charge pendant Iaquelle Ie courant electriques est maintenu a une valeur constanteindependamment de la tension ou de la temperature de la batterie
constant current charge
charge during which the electric current is maintained at a constant value regardless of thebattery voltage or temperature
arcndeesjaplptSv
+IL J% &l
‘E (%) #m$a
Konstantstromladung, fcarga a corriente constante
R%%%%Iadowanie prqdem o stalej wartoscicarga a corrente constantekonstantstromsladdning
64
.—..—.,. -.——-——— . . ‘. .
IS 1885 (Part 15) :2008
IEC 60050-482:2004
482-05-39
rendement de charge, m
rapport de la charge electrique dechargee d’une batterie d’accumulateurs a la chargeelectrique fournie pendant la charge prec~dente
charge efficiency
ratio of the electric charge discharged from a secondary battery to the electric chargeprovided during the preceding charge
arcn
deesjaplptSv
(-pal 6*LU
R% Et*Wirkungsgrad der Ladung, mrendimiento de carga
%%?dJ+sprawnosc pojemnosciowaefici~ncia de cargaIaddningsverkningsgrad
482-05-40
charge d’egalisation, f
charge prolongee afin d’assurer un etat de charge egal pour tous Ies elements d’une batterie
equalization charge
extended charge to ensure an equal state of charge of all cells in a battery
arendeesjaplptSv
~~, ~,
BJ%$!iYE@
Ausgleichsiadung, fcarga de compensation
%355%Iadowanie wyrownawczecarga de igualizaq~outjamningsladdning
482-05-41
facteur de charge, m
facteur par Iequel la quantite d’electricity a la decharge doit &re multiplied pour determiner laquantite d’electricity a la charge requise par la batterieprecedent
NOTE Le facteur de charge est I’inverse du rendement de charge.
charge factor
pour retablir I’etat de charge
factor by which the quantity of electricity on discharge has to be multiplied to determine thequantity of electricity on charge required for the battery to recover its original state of charge
NOTE The charge factor is the reciprocal of the charge efficiency.
~r @l &b
cn E%MMde Ladefaktor, mes factor de cargaja %%%3%pl wspotczynnik tadowaniapt factor de cargasv Iaddningsfaktor
65
IS 1885 (Part 15) :2008
IEC 60050-482:2004
482-05-42
charge complete, f
etat de charge clans Iequel toute la matiere active disponible se trouve clans un etat tel que lacharge effectuee selon Ies conditions choisies ne produise aucune augmentation significativede la capacite
full charge
state of charge wherein all available active material is in a state such that the charging underthe selected conditions produces no significant increase of capacity
arCrldeesjaplptSv
(J.U#
5%*E%
Vollladung, fcarga completa
Wfi’%natadowaniecarga completafulladdat
482-05-43
charge initiale, f
premiere charge administree a une nouvelle batterie d’accumulateurs au debut de sa vieactive
initial charge
first charge given to a new secondary battery at beginning of its service life
charge d’un accumulateur ou d’une batterie d’accumulateurs poursuivie au-dela de la chargecomplete
NOTE La surcharge est egalement I’action de charger au dela d’une certaine Iimite specifiee par Ieconstructeur
overcharge
continued charging of a fully charged secondary cell or battery
NOTE Overcharge is also the act of charging beyond a certain limit specified by the manufacturer
arcn
deesjaplptSv
JJljll JJJl~fir~Uberladung, fsobrecarga
M7i5%przetadowaniesobrecargaoverladdning
66
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-05-45
regime de charge (relatif aux accumulateurs et batteries d’accumulateurs), m
courant electrique auquel on charge un accumulateur ou une batterie d’accumulateurs
NOTE Le regime de charge est Ie courant de reference It= Cr/H ou C, la capacite assigneedeclaree par Ie fabricant et }? A Ie temps de base en heures pour Iequel la capacite assignee estdeclaree.
charge rate (relating to secondary cells and batteries)
electric current at which a secondary cell or battery is charged
NOTE The charge rate is expressed as the reference current 1, = cr/n where c’, is the ratedcapacity declared by the manufacturer and n is the time base in hours for which the rated capacity isdeclared.
arcndeesjaplp!Sv
(QJGJ GqJ~I ~i q~YiJ_t)-i J-
fitfi.% (:+lk;ll; +ll$;ilhi~?ll(fil)Ladestrom (einer Sekundarzelle oder -batterie), mregimen de carga (de elementos secundarios y baterias)
%*=? ( ‘.iJ(’ILi+h::llJ -~-fi)pr~d Iadowania (ogniw Iub baterii wtornych)regime de carga (relativa a acumuladores e baterias de acumuladores)Iaddningsstrom
482-05-46
regime de fin de charge, m
courant electrique auquel on charge une batterie d’accumulateurs vers la fin de la charge
finishing charge rate
electric current at which a battery is charged towards the end of charge
arcndeesjaplptSv
&L@ -l Lb
gg~fi@.*.
Ladeschlussstrom, mregimen de final de carga
KIE%$Ei*prqd Iadowania koncowyregime de fim de cargaslutladdningsstrom
67
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-05-47
charge d’entretien, f
methode de charge d’une batterie d’accumulateurs clans Iaquelle I’etat de charge estmaintenu par un faible courant electrique constant regule a long terme
NOTE 1 La charge d’entretien compense Ies effets d’auto-decharge et maintient la batterleapproximahvement a l’etat de charge complete.
NOTE 2 Cette methode de charge n’est pas adaptee pour certaines batteries d’accumulateurs, parexemple au lithium.
trickle charge
method of charge applied to a battery wherein the state of charge is maintained by acontinuous, long term, regulated small electric current
NOTE 1 The trickle charge compensates self-discharge effects and maintains the battery in anapproximately fully charged state.
NOTE 2 The trickle charge is not suitable for some secondary battery types, for example lithium cellsand batteries.
arcndeesja
p)ptSv
G=- JW+L+;FJW35*Daueriadung, fcarga de mantenimiento~ g ~ ,bfi~
doladowywanie; }adowanie ciqgle malym prqdem (termin niezalecany)carga de manutenqtiounderhallsladdning
482-05-48
charge a deux courants, f
methode de charge d’une batterie d’accumulateurs en utilisant deux niveaux de regime decharge avec une retraction pour declencher Ie passage entre un regime haut et un regimebas
two step charge
charging method applied to a secondary battery using two levels of charge rate with feedbackcontrol to initiate the changeover from a high to a low charge rate
arcndeesjaplptSv
.&* &,
i%wrfafi%Zweistufenladung, f; abgesetzte Ladung, fcarga de dos pasos
1.%%%Iadowanie dwustopniowecarga a duas correntestvastegsladdning
68
--- —. — -... ... . ..,. —
IS 1885 (Part 15):2008
IEC 60050-482:2004482-05-49
charge a tension constante, f
charge au tours de Iaquelle la tension est maintenue a une valeur constanteindependamment du courant de charge ou de la temperature
constant voltage charge
charge during which the voltage is maintained at a constant value regardless of chargecurrent or temperature
arcndeeslaplptSv
+t2J,,g.sJ~‘F.E([E) fi+fi tfiKonstantspannungsladung, fcarga a tension constante
R’#&J+fi’itadowanie przy stalej wartosci napiqciacarga a tensiio constantekonstantspanningsladdning
482-05-50
charge a tension constante modifiee, f
charge a tension constante pour Iaquelle Ie courant electrique est Iimite a une valeurpredetermine
modified constant voltage charge
constant voltage charge where the electric current is limited to a predetermined value
arcndeesjaplptSv
G+G*JAL4JA
?!’tLf2m ([u) fkfi%modifizierte Konstantspannungsladu ng, fcarga a tension constante modificada
&z’r%J+fi’*tadowanie zmodyfikowane przy stalej wartosci napiqciacarga a tens%o constante modificadastrombegransad konstantspanningsladd ning
482-05-51
bouillon nement d’un element, m
degagement gazeux resultant de I’electrolyte de I’eau clans I’electrolyte d’un element
gassing of a cell
evolution of gas resulting from electrolysis of the water in the electrolyte of a cell
arcndeesjap!ptSv
@Sbll & iACbi.4 G\jLL
m$t!lwlGasen (einer Zelle), ndesprendimiento de gas de un elementoXfY>>Ygazowanie ogniwaefervesc~ncia de urn elementogasning
69
IS 1885 (Part 15):2008
IEC 60050-482:2004
482-05-52
indicateur de niveau, m
dis+ositif utilis~ pour la mesure du niveau d’&ectrolyte d’un element
electrolyte level indicator
device used to assist in the measurement of the level of electrolyte in a cell
arcndeesjaplptSv
&w3AJY~ LMJl @@+J wjflfkll+%%gElektrolytstandanzeiger, mindicador de nivel de electrolito
WW%-T+%Ewskainik poziomu elektrolituindicador de nivelelektrolytnivai ndikator
482-05-53
rendement en energie, m
rapport de I’energie electrique obtenue d’une batterie d’accumulateurs pendant la decharge aI’energie electrique fournie a la batterie d’accumulateurs durant la charge precedence
energy efficiency
ratio of the electric energy provided from a secondary battery during discharge to the electricenergy supplied to the battery during the preceding charge
arcndeesjaplptSv
Wall 6PIJ.S
flEEzk*
Wirkungsgrad der Energie, mrendimiento de energia
x*) b%–2JJ=$
sprawno$c energetycznaefici~ncia energeticenergiverknings grad
482-05-54
em ballement therm ique, m
etat instable qui se produit pendant une charge a tension constante, clans Iequel la rapidite deproduction de chaleur clans une batterie d’accumulateurs depasse la capacite de dissipationthermique, entrainant une augmentation continue de temperature qui conduit a un nouvelaccroissement du courant, ce qui peut conduire a la destruction de la batterie
NOTE Dans Ies batteries au lithium I’emballement thermique peut mener a la fusion du lithium.
thermal runawayunstable condition arising during constant voltage charge in which the rate of heat dissipationcapability, causing a continuous temperature increase with resulting further charge currentincrease, which can lead to the destruction of the battery
NOTE In lithium batteries thermal runaway may cause melting of lithium.
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