Secondary Cells and Batteries For Solar Photovoltaic Application - General Requirements and Methods of Test
Secondary Cells and Batteries For Solar Photovoltaic Application - General Requirements and Methods of Test
Bhubaneswar(bikashmohapatra8@gmail.com) 49.37.117.129.
Indian Standard
 BIS 2023
FOREWORD
This Indian Standard (First Revision) was adopted by the Bureau of Indian Standards, after the draft finalized by
the Secondary Cells and Batteries Sectional Committee had been approved by the Electrotechnical Division
Council.
This standard gives general information relating to the requirements of secondary cells and batteries used in
photovoltaic energy systems (PVES) and to the typical methods of test used for the verification of the cell and
battery performances. This standard does not include specific information relating to battery sizing, method of
charge or PVES design.
This standard is applicable to all types of secondary cells and batteries presently being used in solar photovoltaic
application.
This standard was first published in the year 2014. This revision has been taken up to incorporate new battery
chemistries now being used in solar photovoltaic application as well as to incorporate experience gained during
implementation of the previous version. The major changes from previous version are as below:
    a)   Maximum charge current: I10 (A) in 4.3.3 a);
    b)   Inclusion of lithium battery type and other electro chemistries in Table 1 and Table 2;
    c)   Inclusion of standards for lithium cells and batteries in 7.2;
    d)   Inclusion of long duration capacity C120 in 8.1; and
    e)   Inclusion of capacity requirement of the rated capacity in 8.1.1.
Technical assistance has been taken from IEC 61427-1 : 2013 in the preparation of this standard.
For the purpose of deciding whether a particular requirement of this standard is complied with, the final value,
observed or calculated, expressing the result of a test or analysis shallbe rounded off in accordance with
IS 2 : 2022 ‘Rules for rounding off numerical values (second revision)’. The number of significant places retained
in the rounded off value should be the same as that of the specified value in this standard.
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IS 16270 : 2023
                                                Indian Standard
          SECONDARY CELLS AND BATTERIES FOR SOLAR
            PHOTOVOLTAIC APPLICATION — GENERAL
             REQUIREMENTS AND METHODS OF TEST
                                                 ( First Revision )
1 SCOPE
                                                               photovoltaic energy systems are of the following
This standard specifies the requirements and tests             types:
for secondary cells and batteries for use in                       a) vented (flooded);
photovoltaic energy systems (PVES).
                                                                   b) valve-regulated, including those           with
                                                                      partial gas recombination; and
This standard does not include specific information
relating to battery sizing, method of charge or PVES               c) gastight sealed.
design.
                                                               The cells and batteries are normally delivered in the
This standard is applicable to all types of secondary          following state of charge:
cells and batteries used in solar photovoltaic                     a) discharged and drained (vented nickel-
applications.                                                         cadmium batteries only);
                                                                   b) charged and filled;
2 REFERENCES
                                                                   c) dry charged and unfilled (vented lead-acid
The standards listed in Annex A contain provisions                    batteries only); and
which, through reference in this text, constitute                  d) discharged and filled (nickel-cadmium
provisions of this standard. At the time of                           batteries only).
publication, the editions indicated were valid. All
standards are subject to revision, and parties to              For optimum service life, the battery manufacturer’s
agreements based on this standard are encouraged to            instructions for initial charge of the battery shall be
investigate the possibility of applying the most               followed.
recent editions of these standards.
                                                               Other secondary cells and batteries such as based on
3 TERMS AND DEFINITIONS                                        sodium or vanadium electrochemical systems can be
                                                               potentially used for such an application. Due to the
For the purpose of this standard, the terms and                fact that they are in a phase of adaptation for a
definitions given in IS 1885 (Part 15) concerning              possible use in PV systems, it is recommended that
secondary cells and batteries, and those given in              their respective supplier be contacted for the
IS 12834 concerning photovoltaic generator                     necessary planning, test and operation details.
systems apply.
                                                               4.2.1 Material and Construction
4 CONDITIONS OF USE                                            All the materials used in the manufacture of
                                                               secondary cells and batteries for photovoltaic
This clause specifies the particular operating                 system shall conform to the relevant Indian
conditions experienced by secondary cells and                  standard, if any.
batteries in photovoltaic applications during their use.
                                                               4.3 General Operating Conditions
4.1 Photovoltaic Energy System
                                                               Batteries in a typical PV system operating under
The photovoltaic energy system with secondary                  average site weather conditions may be subjected to
batteries referred to in this standard can supply a            the following conditions:
constant, variable or intermittent energy to the
connected equipment (pumps, refrigerators, lighting            4.3.1 Autonomy Time
systems, communication systems etc).
                                                               The battery is designed to supply energy under
4.2 Secondary Cells and Batteries                              specified conditions for a period of time, typically
                                                               from 3 days to 15 days, with or without solar
Secondary cells and batteries mainly used in                   radiation.
                                                           1
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IS 16270 : 2023
When calculating the required battery capacity, the                              20 percent of the rated capacity or less; and
following items should be considered, for example:                            b) Periods with high solar irradiation, for
    a) Required daily/seasonal cycle (there may                                  example in summer, which will bring the
       be restrictions on the maximum depth of                                   battery up to the fully charged condition,
       discharge, DOD shall be limited to                                        with the possibility that the battery could be
       80 percent at the end of autonomy);                                       overcharged.
    b) Time required to access the site;
                                                                          4.3.5 Period of High State of Charge
    c) Aging;
    d) Operating temperature; and                                         During summer for example, the battery will be
    e) Future expansion of the load.                                      operated at a high state of charge (SOC), typically
                                                                          between 80 percent and 100 percent of rated
4.3.2 Typical Charge and Discharge Currents                               capacity.
The typical charge and discharge currents are the                         A voltage regulator system normally limits the
following:                                                                maximum battery voltage during the recharge
                                                                          period. When generation voltage exceeds beyond
    a)    maximum charge current: I10 (A);                                the limits, the controller should trip-off and
    b) average charge current: I50 (A); and                               reconnect back as soon as the generation voltage
                                                                          comes to normal range to avoid any delay in charge
    c) average discharge current as determined by                         cycle. Charge and controller should be sized
       the load: I120 (A).
                                                                          accordingly to keep the battery and load always safe
                                                                          and getting charged.
Depending on the system design, the charge and the
discharge current may vary in a wider range.                                  NOTE — In a "self-regulated" PV system, the battery
                                                                              voltage is not limited by a charge controller but by the
                                                                              characteristics of the PV generator.
In some systems the load current must be supplied
at the same time as the battery charging current.
                                                                          The system designer normally chooses the
    NOTE — The following abbreviations are used:                          maximum charge voltage of the battery as a
                                                                          compromise allowing to recover to a maximum state
    a) Crt is the rated capacity declared by the manufacturer in          of charge (SOC) as early as possible in the summer
       ampere-hours (Ah);
                                                                          season but without substantially overcharging the
    b) t is the time base in hours (h) for which the rated capacity
       is declared;
                                                                          battery.
    c) Irt = Crt/t; and
                                                                          The overcharge increases the gas production
    d) for nickel-cadmium, nickel-metal hydride and lithium
                                                                          resulting in water consumption in vented cells. In
       battery systems Irt = Crt/ 1 h in this document corresponds
       to It = C5/1 h.
                                                                          valve-regulated lead-acid cells, the overcharge will
                                                                          cause less water consumption and gas emission but
4.3.3 Daily Cycle                                                         more heat generation.
The battery is normally exposed to a daily cycle as                       Typically, the maximum charge voltage is 2.4 V per
follows:                                                                  cell for lead-acid batteries and 1.55 V per cell for
                                                                          vented nickel-cadmium batteries at the reference
    a) Charging during daylight hours; and                                temperature specified by the manufacturer. Some
    b) Discharging during night-time hours.                               regulators allow the battery voltage to exceed these
                                                                          values for a short period as an equalizing or boost
A typical daily usage results in a discharge between                      charge. For the other batteries, the battery
2 percent and 20 percent of the battery capacity.                         manufacturers shall give the most adapted charge
                                                                          voltage values. Charge voltage compensation shall
4.3.4 Seasonal Cycle                                                      be used according to the battery manufacturer
                                                                          instructions if the battery operating temperature
The battery may be exposed to a seasonal cycle of                         deviates significantly from the reference
state of charge. This arises from varying average-                        temperature.
charging conditions as follows:
                                                                          The expected lifetime of a battery in a PV system,
    a) Periods with low solar irradiation, for                            even kept regularly at a high state of charge, may be
       instance during rainy season/monsoon                               considerably less than the published life of the
       season/winter     causing     low    energy                        battery used under continuous float charge
       production. The state of charge of the                             conditions.
       battery (available capacity) can go down to
                                                                      2
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IS 16270 : 2023
         During periods of low solar radiation, the energy                 Manufacturer’s recommendations for storage shall
         produced by the photovoltaic array may not be                     be observed. In the absence of such information, the
         sufficient to fully recharge the battery. The state of            storage period may be estimated according to the
         charge will then decrease and cycling will take place             climatic conditions as shown in the Table 1.
         at a low state of charge. The low solar irradiation on            The exact limits of storage conditions are to be
         the PV array may be a result of the geographical                  verified with the manufacturer.
         location combined with the monsoon, snow periods,
         heavy clouds, rains or accumulation of dust on                    Lead-acid or nickel-cadmium batteries with
         photovoltaic array.                                               electrolyte shall be stored starting from a state at full
                                                                           charge.
         4.3.7 Electrolyte Stratification
                                                                           A loss of capacity may result from exposure of a
         Electrolyte stratification may occur in lead-acid                 battery to high temperature and humidity during
         batteries. In vented lead acid batteries, electrolyte             storage.
         stratification can be avoided by electrolyte agitation/
                                                                           The temperature of a battery stored in a shipping
         recirculation or periodic overcharge whilst in
                                                                           container in direct sunlight, can rise to + 60 °C or
         service. In valve regulated lead-acid (VRLA)
                                                                           more in daytime. Choice of a shaded location or
         batteries, electrolyte stratification can be avoided by
                                                                           cooling should avoid this risk.
         design or by operating them according to the
         manufacturer’s instructions.                                      4.3.9 Operating Temperature
                    Table 1 Limit Values for Storage Conditions of Batteries for Photovoltaic Applications
                                                                (Clause 4.3.8)
Sl No.       Battery Type                   Temperature Range                    Humidity           Storage Period for Batteries
                                                   °C                             Percent
                                                                                              With Electrolyte       Without Electrolyte
 (1)               (2)                                (3)                          (4)               (5)                       (6)
  i)           Lead-acid                        − 20 to + 50                       < 95       Up to 12 months         1 year to 2 years (dry
                                                                                             (depending of the              charged)
                                                                                                  design)
 ii)       Nickel- cadmiuma)          − 20 to + 50 (standard electrolyte)          < 95       Up to 6 months         1 year to 3 years (fully
                            b)      − 40 to + 50 (high density electrolyte)                                           discharged, drained
                                                                                                                           and sealed)
 iii)    Nickel-metal hydride                    − 40 to + 50                      < 95       Up to 6 months                   N/A
 iv)          Lithium-ion                        − 20 to + 50                      < 95       Up to 12 months                  N/A
                                                                      3
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IS 16270 : 2023
             Table 2 Limit Values for Operating Conditions of Batteries for Photovoltaic Applications
                                                 (Clause 4.3.9)
      i)        Lead-acid                                                        − 15 to + 50                          < 95
      ii)       Nickel-cadmium (standard electrolyte)                            − 20 to + 50                          < 95
      iii)      Nickel-cadmium (high density electrolyte)                        − 40 to + 50                          < 95
      iv)       Nickel-metal hydride                                             − 20 to + 50                          < 95
      v)        Lithium-ion and other electro chemistries                 To be verified with the          To be verified with the
                                                                           battery manufacturer             battery manufacturer
       NOTES
 1     1 The manufacturer should be consulted for operation at temperatures outside this range. Typically, the life expectancy of batteries
       will decrease with increasing operating temperature.
 2     2 Low temperature will reduce the discharge performance and the capacity of the batteries. For details, the manufacturer should
       be consulted.
Excessive overcharge does not increase the energy                          Physical protection shall be provided against
stored in the battery. Instead, overcharge affects the                     consequences of adverse site conditions, for
water consumption in vented batteries and                                  example, against the effects of:
consequently the service interval. In addition, valve-
regulated lead-acid batteries may dry out resulting                              a)    uneven distribution and extremes of
in a loss of capacity and/or overheating.                                              temperature;
                                                                                 b) exposure to direct sunlight (UV radiation);
Overcharge can be controlled by the use of proper                                c)    air-borne dust or sand;
charge controllers. Most non-aqueous systems, such
as lithium-ion batteries and similar, will not accept                            d) explosive atmospheres;
any overcharge without damage or safety problems.                                e)    flooding, water vapour condensation and
Such batteries are normally supplied with a BMS                                        sea water spray;
(battery management system) that prevents,
                                                                                 f)    earthquakes; and
independently from its charge controller that such
overcharge happens.                                                              g) shock and vibration (particularly during
                                                                                    transportation).
The parameters of the regulator shall take into
account the effects of the PV generator design, the                        5 GENERALREQUIREMENTS
load, the temperature and the limiting values for the
battery as recommended by the manufacturer.                                5.1 Mechanical Endurance
                                                                     4
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IS 16270 : 2023
In case of specific requirements regarding                      5.4.3 The cells and batteries conforming to the
mechanical stresses, such as earthquakes, shock and             requirements of this standard may be certified as per
vibration, these shall be individually specified or             the conformity assessment schemes under the
referred to in a relevant standard.                             provisions of the Bureau of Indian Standards Act,
                                                                2016 and the Rules and Regulations framed
5.2 Charge Efficiency                                           thereunder, and the cells and batteries may be
                                                                marked with the Standard Mark.
The charge efficiency is the ratio between the
quantity of electricity delivered during the discharge          5.5 Safety
of a cell or battery and the quantity of electricity
necessary to restore the initial state of charge under          Applicable local regulations and the manufacturer’s
specified conditions.                                           instructions for procedure to be observed during
                                                                installation, commissioning, operation, taking out of
Where no data is available from the battery                     service, and disposal shall be followed.
manufacturer, the following efficiencies as given in
Table 3 may be assumed.                                         5.6 Documentation
    NOTE — The quantity of electricity is expressed in
    Ampere- hour (Ah).                                          The manufacturer shall provide documentation for
                                                                transport, installation, commissioning, operation,
5.3 Deep Discharge Protection                                   maintenance, decommissioning and disposal of such
                                                                cells and batteries for photovoltaic applications.
Lead-acid batteries shall be protected against deep
discharge so to avoid capacity loss due to                      The manufacturer shall advise if there are special
irreversible sulphation or passivation effect. This             considerations to be observed for the initial charging
could be achieved by using a system that monitors               of batteries when only the photovoltaic array is
the battery voltage and automatically disconnects               available as the power source.
the battery before it reaches its maximum depth of
discharge (see manufacturer’s recommendations).                 6 FUNCTIONAL CHARACTERISTICS
Vented and partial gas recombination nickel-                    The following parameters need to be tested for
cadmium batteries do not normally require this type             qualification of a cell/battery according to this
of protection.                                                  standard:
                                                                     a)     Rated capacity (see 8.1);
For the other types of batteries, the manufacturer’s
recommendations shall be followed.                                   b) Endurance (see 8.2);
                                                                     c)     Charge retention (see 8.3);
5.4 Marking
                                                                     d) Cycling endurance in photovoltaic
5.4.1 Cells or monobloc batteries shall follow the                      application (extreme conditions) (see 8.4);
instructions of the applicable standards defined in 7.2.             e)     Recovery from sulphation test (see 8.5);
                                                                            and
5.4.2 For clear identification of secondary cells and
batteries as per their chemistry (electrochemical                    f)     Water loss on float charge (see 8.6).
storage technology), marking of symbols shall be in
accordance with IEC 62902.
  Table 3 Battery Ah Efficiency at Different State of Charge at the Reference Temperature and a Daily
                   Depth of Discharge of less than 20 Percent of the Rated Capacity
                                                      (Clause 5.2)
 Sl No.    State of Charge       Efficiency Lead-          Efficiency Nickel-Cadmium           Efficiency Li-Ion Cells
                (SOC)               Acid Cells                   and Ni-MH Cells
                                                            5
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IS 16270 : 2023
7 GENERAL TESTCONDITIONS                                      1.00 V/cell (for Ni-Cd and Ni-MH batteries). In case
                                                              of long duration capacity test, the discharge duration
7.1 Accuracy of Measuring Instruments                         shall not be less than 120 h. For other batteries the
                                                              test shall be performed considering the
The accuracy of the measuring instruments shall be            recommendation of manufacturer for C120 rated
in compliance with the relevant requirements of the           capacity and the corresponding end voltage.
applicable standards listed in 7.2.
                                                              8.1.1 Requirement
The parameters and accuracy values shall be in
accordance with relevant clauses of the applicable            For batteries and cells, the capacity (excluding long
standards listed in 7.2.                                      duration capacity) shall not exceed 120 percent of
                                                              the rated capacity.
7.2 Standards to be Referred for Testing
                                                              8.2 Endurance Test
The test batteries shall be prepared according to the
                                                              The test samples shall be tested according to the
procedures defined in the following standards or, in
                                                              clauses, if any, of the applicable standards listed in 7.2.
their absence, according to the manufacturer’s
instructions:                                                 8.2.1 As per the standards mentioned in 7.2.
    a)   IS 1651 and IS 13369 for stationary lead-
         acid batteries (vented types);                       8.3 Charge Retention Test
    b)   IS 15549 for stationary lead-acid batteries          The test samples shall be tested according to the
         (valve-regulated types);                             clauses, if any, of the applicable standards listed in 7.2.
    c)   IS 16220 (Part 1) for portable lead-acid
         batteries (valve-regulated types);                   8.3.1 As per the standards mentioned in 7.2.
    d)   IS 16049 sealed nickel-cadmium batteries;
                                                              8.4 Cycle     Endurance     in   Photovoltaic
    e)   IS 10893 and IS 10918 for vented nickel-             Application (Extreme Conditions)
         cadmium batteries;
    f)   IS 15767 for nickel-cadmium prismatic                8.4.1 General
         rechargeable single cells with partial gas
         recombination;                                       In photovoltaic applications the battery will be
                                                              exposed to a large number of shallow cycles but at
    g)   IS16048 (Part 1) for portable nickel-
                                                              different states of charge. The test below is designed
         cadmium batteries;
                                                              to simulate such service under extreme conditions
    h)   IS 16048 (Part 2) for portable nickel-metal          by submitting the batteries at + 40 °C, to several
         hydride batteries;                                   aggregates of discharge/charge cycles each
    j)   IS 16822 for lithium cells and batteries for         comprising 50 cycles at low state of charge
         use in industrial applications; and                  (phase A) and 100 cycles at high state of charge
    k)   IS 16047 (Part 3) for portable lithium               (phase B).
         batteries                                                 NOTE — One set of 150 aggregate cycles is approximately
                                                                   equivalent to 1 year service in a PV energy storage
                                                                   application.
8 TEST METHOD
8.1 Capacity Test                                             The cells or batteries shall therefore comply with the
                                                              requirements of the test below, which is a simulation
Test batteries shall be selected, prepared, installed         of the photovoltaic energy system operation:
and tested according to the applicable standards                   a) the test battery shall be selected, prepared
listed in 7.2.                                                        and installed according to the applicable
                                                                      standards listed in 7.2;
The verification of the rated capacity shall be
                                                                   b) the test shall be carried out with a battery
performed by using a current of I10 (A) for lead-
                                                                      composed of such a number of cells that its
acid batteries, It /5 (A) for nickel-cadmium, Ni-MH
                                                                      open circuit voltage is ≥ 12 V;
and lithium batteries and I10 (A) for other batteries
according relevant clauses in the Indian standards                 c) the test battery shall meet or exceed the rated
listed in 7.2.                                                        capacity value when tested for capacity
                                                                      according to 8.1;
The verification of long duration capacity shall be                d) the test shall be started with the battery fully
performed by using a current of I120 (A) up to an                     charged;
end voltage of 1.85 V/cell (for lead acid batteries) or            e) the test battery shall be brought to a
                                                          6
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IS 16270 : 2023
                        h                     h                    Current A                             Current A
     (1)               (2)                   (3)                       (4)                                   (5)
     i)         a
                        9                    —                         I10                                 0.1 It
                )
     ii)        b
                       —                      3                      1.03 I10                             0.103 It
                )
    iii)        c
                        3                    —                         I10                                 0.1 It
                )
           Repeat ii) to iii) 49 times and continue to phase B
                                                                       7
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IS 16270 : 2023
 Sl No.      Discharging       Charging     Lead-Acid and Other Batteries Nickel-Cadmium, Ni-MH and Lithium
                Time            Time                  Current                          Batteries
                    h              h                           A                                       Current A
  (1)              (2)            (3)                         (4)                                         (5)
   i)               2             —                         1.25 I10                                    0.125 It
   ii)      —                      6                         I10                                         0.1 It
                                             (For lead-acid batteries charge            (For vented nickel-cadmium batteries
                                           voltage limited to 2.40 V/cell unless         charge voltage limited to 1.55 V/cell
                                                otherwise specified by the                 unless otherwise specified by the
                                                      manufacturer)                                 manufacturer)
   Repeat i) to ii) 99 times
                                                              8
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IS 16270 : 2023
As per the standards mentioned in 7.2.                                The acceptance test shall be agreed between the
                                                                      customer and the supplier. Compliance to marking,
9 TESTS                                                               labeling rated capacity may be verified.
9.1 Type Tests                                                        9.2.2 Commissioning Test
The following shall constitute the type tests:                        A commissioning test is recommended to prove the
    a)         Verification of marking and dimensions                 integrity of the installed battery system bymeans of a
               (5.4 and 7.2);                                         capacity test at 10 hour rate for lead-acid batteries or
    b)         Rated capacity test (8.1);                             5 hour rate for Ni-Cd/Ni-MH and Li-ion batteries.
                                                          1       2            3         4       5       6      7      8
         (1)                      (2)                   (3)       (4)          (5)      (6)      (7)    (8)    (9)    (10)
         i)              Physical verification
                     (verification of marking and               
                      dimensions) (5.4 and 7.2)                             
         v)              Cyclic endurance in
                     photovoltaic application (8.4)                                                        
                                                              9
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IS 16270 : 2023
                                                       ANNEX A
                                                       (Clause 2)
                                        LIST OF REFERRED STANDARDS
IS 1651 : 2013        Stationary cells and batteries, lead-                               Prismatic and cylindrical lithium
                      acid type [with tubular positive                                    secondary cells, and batteries made
                      plates]                                                             from them.
IS 1885 (Part 15) :   Electrotechnical vocabulary: Part            IS 16048               Secondary cells and batteries
    2008/IEC-482 :    15 Primary and secondary cells and                                  containing alkaline or other non-
    2004              batteries (second revision)                                         acid electrolytes — Portable sealed
                                                                                          rechargeable single cells
IS 10893 : 1984       Specification for sealed nickel-
                      cadmium button type rechargeable                (Part 1) : 2021/    Nickel-cadmium (first revision)
                      single cells                                       IEC 61951-1 :
                                                                         2017
IS 10918 : 1984       Vented types       nickel-cadmium
                      batteries                                       (Part 2) : 2021/    Nickel-metal       hydride      (first
                                                                         IEC 61951-2 :    revision)
IS 12834 : 2013/      Solar photovoltaic energy systems
                                                                         2017
  IEC/TS 61836 :      — Terms, definitions and symbols
  206                 (second revision)                            IS 16049 : 2013/ IEC   Secondary cells and batteries
                                                                      60622 : 2022        containing alkaline or other non-
IS 13369 : 1992       Stationary lead-acid batteries [with
                                                                                          acid electrolytes-sealed nickel-
                      tubular    positive    plates]    in
                                                                                          cadmium prismatic rechargeable
                      monobloc containers
                                                                                          single cells
IS 15549 : 2005       Stationary valve regulated    lead-
                                                                   IS 16220 (Part 1) :    General purpose lead-acid batteries
                      acid batteries — Specification
                                                                      2015/IEC 61056-     (Valve — Regulated Types): Part 1
IS 15767 : 2008/IEC   Secondary cells and batteries                   1 : 2012            General requirements, functional
  62259 : 2003        containing alkaline or other non-                                   characteristics — Methods of test
                      acid electrolytes — Nickel-
                                                                   IS 16822 : 2019/ IEC   Secondary cells and batteries
                      cadmium prismatic secondary
                                                                      62620 : 2014        containing alkaline or other non-
                      single cells with partial gas
                                                                                          acid electrolytes — Secondary
                      recombination
                                                                                          lithium cells and batteries for use in
IS 16047 (Part 3) :   Secondary cells and batteries                                       industrial applications
   2018/IEC 61960 -   containing alkaline or other
                                                                   IEC 62902              Secondary cells and batteries —
   3 : 2017           non-acid electrolytes- secondary
                                                                                          Marking symbols for identification
                      lithium cells and batteries for
                                                                                          of their chemistry
                      portable applications: Part 3
                                                              10
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should ascertain that they are in possession of the latest amendments or edition by referring to the website-
www.bis.gov.in or www.standardsbis.in.
This Indian Standard has been developed from Doc No.: ETD 11 (15802).