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GB/T 18287-2013 English PDF (GB/T 18287-2000)

GB/T 18287-2013_English: PDF (GB/T18287-2013)
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GB/T 18287-2013English150 Add to Cart 0--9 seconds. Auto-delivery General specification of lithium-ion cells and batteries for mobile phone Valid GB/T 18287-2013
GB/T 18287-2000English105 Add to Cart 0--9 seconds. Auto-delivery Cellular phone with a lithium-ion battery specification Obsolete GB/T 18287-2000


BASIC DATA
Standard ID GB/T 18287-2013 (GB/T18287-2013)
Description (Translated English) General specification of lithium-ion cells and batteries for mobile phone
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K82
Classification of International Standard 29.220.01
Word Count Estimation 20,291
Older Standard (superseded by this standard) GB/T 18287-2000
Quoted Standard GB/T 191-2008; GB/T 2828.1; GB/T 2829; GB/T 2900.41-2008; GB/T 17626.2; ISO/IEC GUIDE 51
Drafting Organization Tianjin Lishen Battery Co., Ltd.
Administrative Organization National Standardization Technical Committee alkaline batteries
Regulation (derived from) National Standards Bulletin 2013 No. 10
Proposing organization Ministry of Industry and Information Technology of the People's Republic of China
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary This standard specifies the mobile phone lithium-ion batteries and battery terminology and definitions, requirements, test methods, quality assessment and signs, packaging, transport and storage. This standard applies to mobile phones use lithium -ion bat

BASIC DATA
Standard ID GB/T 18287-2000 (GB/T18287-2000)
Description (Translated English) Cellular phone with a lithium-ion battery specification
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K82
Classification of International Standard 29.220.01
Word Count Estimation 12,153
Date of Issue 2000-12-28
Date of Implementation 2001-07-01
Quoted Standard GB 191-1990; GB/T 2828-1987; GB/T 2829-1987; GB/T 2900.11-1988
Adopted Standard IEC 61960, NEQ
Drafting Organization Tianjin Lishen Battery Co., Ltd.
Administrative Organization China Electronics Standardization Institute
Regulation (derived from) National Standards Bulletin 2013 No. 10
Proposing organization Ministry of Information Industry of the People Republic of China
Issuing agency(ies) State Quality and Technical Supervision
Summary This standard specifies lithium-ion batteries for cellular phone definitions, requirements, test methods and quality assessment procedures and signs, packaging, transportation and storage. This instruction applies to lithium-ion batteries for cellular phone (hereinafter referred to as the battery).


GB/T 18287-2013 GB ICS 29.220.01 K 82 National Standard of the People’s Republic of China Replacing GB/T 18287-2000 General specification of lithium-ion cells and batteries for mobile phone ISSUED ON. JULY 19, 2013 IMPLEMENTED ON. SEPTEMBER 15, 2013 Issued by. State Administration for Quality Supervision, Inspection and Quarantine of the People's Republic of China; Standardization Administration of China. Table of Contents Foreword ... 4  1  Scope ... 6  2  Normative references ... 6  3  Terms and definitions ... 7  4  Requirements ... 8  4.1  Appearance and Dimensions ... 8  4.1.1  Cell ... 8  4.1.2  Battery ... 9  4.2  Electrical performance ... 9  4.2.1  0.2 ItA discharge ... 9  4.2.2  Rated discharge ... 9  4.2.3  High temperature discharge ... 9  4.2.4  Low temperature discharge ... 9  4.2.5  Charge retention capability and recovery capacity ... 10  4.2.6  Storage Performance ... 10  4.2.7  Cycle life ... 10  4.2.8  Internal resistance ... 10  4.3  Environmental adaptability ... 10  4.3.1  ESD (Electro static discharge) ... 10  4.3.2  Steady damp‐heat ... 10  4.3.3  Vibration ... 10  4.3.4  Free fall ... 11  4.3.5  Low‐pressure ... 11  4.3.6  Molded shell stress under high temperature ... 11  4.4  Safety protection performance ... 11  4.4.1  Overcharge protection ... 11  4.4.2  Overdischarge protection ... 11  4.4.3  Short‐circuit protection ... 12  4.5  Safety performance ... 12  4.5.1  Weight impact ... 12  4.5.2  Thermal abuse ... 12  4.5.3  Overcharge ... 12  4.5.4  Forced discharge ... 12  4.5.5  Short circuit ... 12  4.5.6  Mechanical shock ... 12  4.5.7  Temperature Cycling ... 13  5  Test Methods ... 13  5.1  Test conditions... 13  5.2  Measuring instruments and equipment requirements ... 13  5.3  Test Methods ... 13  5.3.1  Appearance and Dimensions ... 13  5.3.2  Electrical performance ... 14  5.3.3  Environmental adaptability ... 17  5.3.4  Safety protection performance ... 18  5.3.5  Safety performance ... 19  6  Quality assessment procedures ... 21  6.1  Inspection classification ... 21  6.2  Type inspection ... 21  6.2.1  Inspection time ... 21  6.2.2  Sampling plan ... 22  6.2.3  Inspection procedures ... 23  6.2.4  Decision rules ... 23  6.3  Acceptance inspection ... 23  6.3.1  Provisions on acceptance inspection ... 23  6.3.2  Disposal of acceptance inspection ... 24  6.4  Routine inspection ... 24  6.4.1  Provisions on routine inspection ... 24  6.4.2  Disposal of routine inspection ... 25  7  Marking, packaging, transportation and storage ... 26  7.1  Marking ... 26  7.2  Packaging ... 26  7.3  Transportation ... 27  7.4  Storage ... 27  Annex A ... 28  Foreword This Standard is drafted according to the rules specified in GB/T 1.1-2009. This Standard replaces GB/T 18287-2000 General Specification of Lithium-ion Battery for Cellular Phone and has the following major changes in comparison with GB/T 18287-2000. — It has a structural improvement, which makes a clear distinction between lithium-ion cells and batteries; — In terms of definitions, definitions of reference test current (3.5), recovery capacity (3.6), leakage (3.9), venting (3.10), rupture (3.11), fire (3.12) and explosion (3.13) are added; — Modifications are made to low temperature discharge (4.2.4 and 5.3.2.5; 4.4 and 5.3.4 “low temperature performance” of GB/T 18287-2000), free fall (4.3.4 and 5.3.3.4; 4.7.4 and 5.3.7.4 of GB/T 18287-2000), cycle life (4.2.7 and 5.3.2.8; 4.6 and 5.3.6 of GB/T 18287-2000), over-charge protection (4.4.1 and 5.3.4.2; 4.8.1 and 5.3.8.1 of GB/T 18287-2000), weight impact (4.5.1 and 5.3.5.2; 4.9.1 and 5.3.9.1 of GB/T 18287-2000), thermal abuse (4.5.2 and 5.3.5.3; 4.9.2 and 5.3.9.2 “heat impact” of GB/T 18287-2000), overcharge (4.5.3 and 5.3.5.4; 4.9.3 and 5.3.9,3 of GB/T 18287-2000), short circuit (4.5.5 and 5.3.5.6; 4.9.4 and 5.3.9.4 of GB/T 18287-2000) and other inspection items; — Impact (4.7.3 and 5.3.7.3 of GB/T 18287-2000) is deleted; — ESD (Electro-stati... ......


GB/T 18287-2000 GB/T18287-2013) ICS 29.220.01 K 82 GB National Standard of The People’s Republic of China GB/T 18287-2000 (replaced by. GB/T18287-2013) General specification of lithium-ion battery for cellular phone ISSUED ON. DECEMBER 18, 2000 IMPLEMENTED ON. JULY 1, 2001 Issued by. State Bureau of Quality and Technical Supervision Table of Contents Preface ... 3 1 Scope ... 5 2. Quoted Standards ... 5 3 Definition ... 5 4 Requirements ... 6 5 Test Method ... 9 6 Quality Evaluation Procedure ... 17 7 Mark, Packaging, Transportation, and Storage ... 20 Preface This specification refers to GB/T 15844.2-1995 Environmental Requirements and Test Methods for Radio Transceiver Employing F3E Emission Used in the Mobile Services for the compilation of some terms. It incorporates related requirements in IEC 61960 (draft), which is adapted for international trade. This Standard also addresses the requirements for the technical properties and application scenarios of Lithium-ion battery for cellular phone, which will further facilitate the development of Lithium-ion battery for cellular phone. This Standard is proposed by PRC MII. This Standard is managed by China Electronics Standardization Institute. This Standard is developed by Tianjin Lishen Battery Co., Ltd., Motorola (China) Electronics Co., Ltd., Universe Holdings Ltd., Speed Creative Utmost Decent (SCUD), and Guangzhou Triple Electronics Mobile Communications Development Center. Organizations participating in the development of this Standard are. CIC (Group) Co., Ltd., Shenzhen Jegaxunlian Communication Co., Ltd., Henxun Electronics Co., Ltd., Reminda Communication Technology Development Co., Ltd., BSE Electronics Co., Ltd. Beijing, Guangzhou Yiben Electronics Development Co., Ltd., Guangzhou Moden Electronics Ltd., Raychem Electronics (Shanghai) Co., Ltd., Huizhou Super Trading Co., Ltd., Lixin Electronics Co., Ltd., ZTE Inc., National High Technology Enegy-Storage Materials Engineering Development Center, Grangdong Jiali Group, TCL Hyperpower Batteries INC., Weifang Beida Jade Bird Huanguang Technology Co., Ltd., Friends of Shanghai Electric Shanghai Co., Ltd., Guangzhou Testing & Inspection Institute for Household Electrical Appliances, Shanghai Aeneas Electronics Co., Ltd., Kinte Industrial Co., Ltd. Electrical Branch, Zhuhai Lee Chance Communications Equipment Co., Ltd., Harbin Guangyu Group Co., Ltd., VoiceCodes Communication Equipment Limited, GuoMai Green Battery Co., Ltd., Wuhan Lixun Power Corp. Ltd., Guangzhou Quality Supervision and Testing Center for Mobile Communication Products of MII of PRC, Shanghai Telephone Quality Supervision and Testing Center, Beijing Electronic Products Quality Testing Center, Guangdong Nailibao Appliance Co., Ltd., Communication Office of National Light Industry Ministry, Xiamen Powerlong Industry Co., Ltd. This Standard is written by. Su Jinran, Qin Xingcai, Wang Bo, Liu Guixian, Liu Rongchi, Chen Guoping, Chen Ruofeng, Lu Zhenjun. General Specification of Lithium-ion Battery for Cellular Phone 1 Scope This Standard specifies the definition, requirements, test method, quality evaluation procedure and mark, packaging, transportation, and storage of Lithium-ion battery for cellular phone. This Standard is applied for Lithium-ion battery for cellular phone (hereinafter referred to as the “battery”). 2. Quoted Standards The following standards contribute the stipulations of the specification after being quoted. At the release of this specification, the illustrated versions are valid. All standards will be revised. Users are encouraged to explore the possibility to use the latest version of the specifications. GB191-1990 Packaging – Pictorial Markings for Handling of Goods; GB/T 2828-1987 Sampling Procedures and Tables for Lot-by-Lot Inspection by Attributes (Apply to Inspection of Successive Lots of Batches); GB/T 2829-1987 Sampling Procedures and Tables for Periodic Inspection by Attributes (Apply to Inspection of Stability for Productive Process); GB/T 2900.11-1988 Terminology of (Secondary) Cell or Battery (eqv IEC 60486.1986) 3 Definition This Standard uses the terms defined in GB/T 2900.11 and the following definitions. 3.1 Lithium-ion Battery for Cellular Phone It refers to the battery composed of one or more lithium-ion single battery and accessories, which is used for cellular phone. After completing battery charging as defined in section 5.3.2.2, put the battery into low-temperature box of -20ºC±2ºC, and keep constant temperature for 16hs - 24hs. Then discharge it to cut-off voltage at 0.2C5A, and the discharging time shall comply with the specification in section 4.4.After concluding the test, take out the battery and keep it at an ambient temperature of 20ºC±5ºC for 2hs, then visually inspect battery appearance. It shall comply with the definition in section 4.4 For polymer lithium-ion battery, after the battery is charged as defined in section 5.3.2.2, put the battery into low-temperature box of -10ºC±2ºC, and keep constant temperature for 16hs - 24hs. Then discharge it to cut-off voltage at 0.2C5A, and the discharging time shall comply with the definition in section 4.4.After concluding the test, take out the battery and keep it at an ambient temperature of 20ºC±5ºC for 2hs, then visually inspect battery appearance. It shall comply with the definition in section 4.4 5.3.5 Charge retention capacity After the battery completes charging as defined in section 5.3.2.2, it is placed at 28d power source in open loop mode at an ambient temperature of 20ºC±5ºC.Then the battery is discharged to the cut-off voltage at 0.2C5A, and the discharging time shall comply with the specification in section 4.5. 5.3.6 Cycle life 5.3.6.1 The battery cycle life test shall be performed at an ambient temperature of 20ºC±5ºC. 5.3.6.2 Charge the battery at 1C5A at an ambient temperature of 20ºC±5ºC, and switch to constant voltage charging when the voltage at battery side reaches limited charge voltage until charging current is less than or equal to 20mA. Stop charging, and lay it aside for 0.5h – 1h, then discharge it to cut-off voltage at 1C5A. After completing discharging, lay it aside for 0.5h – 1h, and perform the next charge/discharge cycle until the duration of 2 successive discharges is less than 36min. it is assumed that the battery life ends. Lifecycle of the battery shall comply with the specification in section 4.6. 7.2 Packaging Each battery shall have external packing, and instruction manual of the product shall be attached in the packaging. The packaged products shall be placed in dry, dust-proof and moisture-proof packing boxes. Product name, model, quantity, gross weight, manufacturer, date of production shall be indicated at the outside of the packing box. There shall be necessary marks like “Handle with care”, “Keep dry”, and “Keep upward”, and its pictorial markings for packaging storage shall be compliant with the definition in GB 191. 7.3 Transportation Batteries shall be packed into boxes for transportation. Batteries shall be prevented from severe vibration, shock or extrusion, and sun and rain during transportation, and truck, railway, ship and airplane can be used for transportation. 7.4 Storage Battery shall be stored in clean, dry and ventilated room with an ambient temperature of -5ºC~35ºC, and relative humidity of no more than 75%, prevented from contact with corrosive substances, and kept away from fire or heat. ......

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