电池IEC62133测试

镍系电池申请CB认证所要的测试项目、样品数量：

标准：IEC62133:2012 or EN62133:2013 

测试项目：

样品总数：

圆柱形：至少电芯76个和36个电池（组）

棱柱形：至少电芯81个和36个电池（组）

认证周期：5-6周

锂系电池申请CB认证所要的测试项目、样品数量：

标准：IEC62133:2012 or EN62133:2013 

测试项目：

样品总数：

电芯至少38个，电池至少21个；如没有UN38.3证书则需另外提供样品进行UN38.3测试；如产品需到日本、法国、韩国、瑞士则需再提供至少十个电芯进行内部短路测试。

认证周期：3-4周

所需资料：

一.电池和电芯规格书

 电芯或电池的规格书应包括：

1.电池标识的内容：额定值（电压和容量等）；型号；制造商或商标；制造日期；指示名称等

2.化学系统

3.推荐的充放电方法（充电电流，充电电压，充电方式，截止电压等）

4.最大充电/放电率，最大电压限制等

5.使用，贮藏和运输环境条件（最大和最小使用温度，湿度等）

6.标明电芯泄气装置/电池泄气装置，包括泄气位置和泄气压力

7.电芯和电池的结构图和尺寸图

8.电池的详细原理图和PCB布局图（双面，带有电子元器件的标识）

9.根据IEC62133附录B和c提供给设备制造商或最终用户的安全信息，需要按照预定用途来确定需要添加的安全信息，如电池将销售给设备制造商而不直接销售给用户，则在规格书中添加Annex B的信息，如电池将直接销售给用户,则在规格书中添加Annex C的信息，附录如下：

Annex B 

(informative) 

Recommendations to equipment manufacturers and battery assemblers 

The following represents a typical, but non-exhaustive, list of good advice to be provided by the manufacturer of secondary cells and batteries to equipment manufacturers and battery assemblers. 

a) Do not dismantle, open or shred cells. Batteries should be dismantled only by trained personnel. Multi-cell battery cases should be designed so that they can be opened only with the aid of a tool. 

b) Do not short-circuit a cell or battery. Do not store cells or batteries haphazardly in a box or drawer where they may short-circuit each other or be short-circuited by conductive materials. 

c) Do not remove a cell or battery from its original packaging until required for use. 

d) Do not expose cells or batteries to heat or fire. Avoid storage in direct sunlight. 

e) Do not subject cells or batteries to mechanical shock. 

f) In the event of a cell leaking, do not allow the liquid to come into contact with the skin or eyes. If contact has been made, wash the affected area with copious amounts of water and seek medical advice. 

g) Equipment should be designed to prohibit the incorrect insertion of cells or batteries and should have clear polarity marks. Always observe the polarity marks on the cell, battery and equipment and ensure correct use. 

h) Do not mix cells of different manufacture, capacity, size or type within a battery. 

i) Seek medical advice immediately if a cell or battery has been swallowed. 

j) Consult the cell/battery manufacturer on the maximum number of cells, which may be assembled in a battery and on the safest way in which cells may be connected. 

k) A dedicated charger should be provided for each equipment. Complete charging instructions should be provided for all secondary cells and batteries offered for sale. 

l) Keep cells and batteries clean and dry. 

m) Wipe the cell or battery terminals with a clean dry cloth if they become dirty. 

n) Secondary cells and batteries need to be charged before use. Always refer to the cell or battery manufacturer’s instructions and use the correct charging procedure. 

o) Do not maintain secondary cells and batteries on charge when not in use. 

p) After extended periods of storage, it may be necessary to charge and discharge the cells or batteries several times to obtain maximum performance. 

q) Retain the original cell and battery literature for future reference. 

r) When disposing of secondary cells or batteries, keep cells or batteries of different electrochemical systems separate from each other. 

s) Drop a device containing the battery once from a height of one meter onto a concrete floor. 

Test three sets of fully charged batteries. For dropping, select the direction in which the free fall is likely to have the greatest impact on the safety of the battery. Instead of dropping a host device, a shock equivalent to dropping may be given to the battery for simulation.

Annex C 

(informative) 

Recommendations to the end-users 

The following represents a typical, but not exhaustive list of good advice to be provided by the equipment manufacturer to the end-user. 

a) Do not dismantle, open or shred secondary cells or batteries. 

b) Do not expose cells or batteries to heat or fire. Avoid storage in direct sunlight. 

c) Do not short-circuit a cell or a battery. Do not store cells or batteries haphazardly in a box or drawer where they may short-circuit each other or be short-circuited by other metal objects. 

d) Do not remove a cell or battery from its original packaging until required for use. 

e) Do not subject cells or batteries to mechanical shock. 

f) In the event of a cell leaking, do not allow the liquid to come in contact with the skin or eyes. If contact has been made, wash the affected area with copious amounts of water and seek medical advice. 

g) Do not use any charger other than that specifically provided for use with the equipment. 

h) Observe the plus (+) and minus (–) marks on the cell, battery and equipment and ensure correct use. 

i) Do not use any cell or battery which is not designed for use with the equipment. 

j) Do not mix cells of different manufacture, capacity, size or type within a device. 

k) Battery usage by children should be supervised. 

l) Seek medical advice immediately if a cell or a battery has been swallowed. 

m) Always purchase the battery recommended by the device manufacturer for the equipment. 

n) Keep cells and batteries clean and dry. 

o) Wipe the cell or battery terminals with a clean dry cloth if they become dirty. 

p) Secondary cells and batteries need to be charged before use. Always use the correct charger and refer to the manufacturer’s instructions or equipment manual for proper charging instructions. 

q) Do not leave a battery on prolonged charge when not in use. 

r) After extended periods of storage, it may be necessary to charge and discharge the cells or batteries several times to obtain maximum performance. 

s) Retain the original product literature for future reference. 

t) Use only the cell or battery in the application for which it was intended. 

u) When possible, remove the battery from the equipment when not in use. 

v) Dispose of properly.

二.关键元件清单，关键元件如PCM,IC,MOSFET,保护装置，PCB,内部线和绝缘材料，塑胶外壳材料，外部端子等。(需填写CDF) 

三.产品电子档标签 （针对锂二次电池的标签设计）

5.1 Cell and battery designation

Batteries shall be designated with following form:

N1 A1 A2 A3 N2 / N3 / N4 – N5

Cells shall be designated with following form:

A1 A2 A3 N2 / N3 / N4

where

N1 is the number of series connected cells in the battery;

A1 designates the negative electrode system in which

I is lithium ion;

L is lithium metal or lithium alloy;

A2 designates the positive electrode basis in which

C is cobalt;

N is nickel;

M is manganese;

V is vanadium;

T is titanium;

A3 designates the shape of the cell in which

R is cylindrical;

P is prismatic;

N2 is the maximum diameter (if R) or the maximum thickness (if P) in mm rounded up to the next whole number;

N3 is the maximum width (if P) in mm rounded up to the next whole number (N3 not shown if R);

N4 is the maximum overall height in mm rounded up to the next whole number;

NOTE If any dimension is less than 1 mm, the units used are tenths of millimetres and the single number is written tN.

N5 is the number of parallel connected cells if 2 or greater (not shown if value is 1).

EXAMPLE 1 ICR19/66 would designate a cylindrical Li-ion secondary cell, with a cobalt-based positive electrode, a maximum diameter between 18 mm and 19 mm, and a maximum overall height between 65 mm and 66 mm.

EXAMPLE 2 ICP9/35/150 would designate a prismatic Li-ion secondary lithium cell, with a cobalt-based positive electrode, a maximum thickness between 8 mm and 9 mm, a maximum width between 34 mm and 35 mm, and a maximum overall height between 149 mm and 150 mm.

EXAMPLE 3 ICPt9/35/48 would designate a prismatic Li-ion secondary lithium cell, with a cobalt-based positive electrode, a maximum thickness between 0,8 mm and 0,9 mm, a maximum width between 34 mm and 35 mm, and a maximum overall height between 47 mm and 48 mm.

EXAMPLE 4 1ICR20/70 would designate a cylindrical Li-ion secondary battery with one single cell, a cobalt-based positive electrode, a maximum diameter between 19 mm and 20 mm, and a maximum overall height between 69 mm and 70 mm.

EXAMPLE 5 2ICP20/34/70 would designate a prismatic Li-ion secondary battery with two series connected cells, a cobalt-based positive electrode, a maximum thickness between 19 mm and 20 mm, a maximum width between 33 mm and 34 mm, and a maximum overall height between 69 mm and 70 mm.

EXAMPLE 6 1ICP20/68/70-2 would designate a prismatic Li-ion secondary battery with two parallel connected cells, a cobalt-based positive electrode, a maximum thickness between 19 mm and 20 mm, a maximum width between 67 mm and 68 mm, and a maximum overall height between 69 mm and 70 mm.

四.制造商ISO体系证书 

五.其他需要填写并回签的表格，如确认表、General Agreement、原型声明、商标声明等。 

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