BS EN 61960-3:2017 – TC:2020 Edition
$186.33
Tracked Changes. Secondary cells and batteries containing alkaline or other non-acid electrolytes. Secondary lithium cells and batteries for portable applications – Prismatic and cylindrical lithium secondary cells, and batteries made from them
| Published By | Publication Date | Number of Pages |
| BSI | 2020 | 60 |
IEC 61960-3:2017 specifies performance tests, designations, markings, dimensions and other requirements for secondary lithium single cells and batteries for portable applications. The objective of this document is to provide the purchasers and users of secondary lithium cells and batteries with a set of criteria with which they can judge the performance of secondary lithium cells and batteries offered by various manufacturers. Portable applications comprise hand-held equipment, transportable equipment and movable equipment. This first edition cancels and replaces the second edition of IEC 61960 published in 2011. It is a technical revision. This edition includes the following significant technical changes with respect to the previous edition: – adding definition of portable applications (Scope), – update of examples of cells (Table 1 and 2), – adding “Dimensions of the cell with a laminate film case” (Annex A), – adding “Capacity after storage” (from the date of manufacture) (Annex B).
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 32 | National foreword |
| 35 | Annex ZA(normative)Normative references to international publicationswith their corresponding European publications |
| 37 | English CONTENTS |
| 39 | FOREWORD |
| 41 | 1 Scope |
| 42 | 2 Normative references 3 Terms and definitions |
| 43 | 4 Parameter measurement tolerances 5 Cell designation and marking 5.1 Cell and battery designation |
| 45 | 5.2 Marking 5.3 Providing the design and produce requirement of batteries 6 Examples of cells |
| 46 | 7 Electrical tests 7.1 General Tables Table 1 – Specification examples of secondarylithium cells for portable applications Table 2 – Examples of secondary lithium cellsfor portable applications |
| 47 | 7.2 Charging procedure for test purposes 7.3 Discharge performance 7.3.1 Discharge performance at 20 °C (rated capacity) 7.3.2 Discharge performance at –20 °C 7.3.3 High rate discharge performance at 20 °C |
| 48 | 7.4 Charge (capacity) retention and recovery 7.5 Charge (capacity) recovery after long term storage |
| 49 | 7.6 Endurance in cycles 7.6.1 General 7.6.2 Endurance in cycles at a rate of 0,2 It A 7.6.3 Endurance in cycles at a rate of 0,5 It A (accelerated test procedure) 7.7 Battery internal resistance 7.7.1 General Table 3 – Endurance in cycles at a rate of 0,2 It A Table 4 – Endurance in cycles at a rate of 0,5 It A |
| 50 | 7.7.2 Measurement of the internal AC resistance 7.7.3 Measurement of the internal DC resistance |
| 51 | 7.8 Electrostatic discharge (ESD) 7.8.1 General 7.8.2 Test procedure 7.8.3 Acceptance criterion 8 Test protocol and conditions for type approval 8.1 Test protocol 8.2 Conditions for type approval 8.2.1 Dimensions 8.2.2 Electrical tests 8.2.3 Conditional type approval |
| 52 | Figures Figure 1 – Sample sizes and sequence of tests |
| 53 | Table 5 – Minimum requirements for each type ofsecondary lithium cells and batteries |
| 54 | Annex A (informative)Dimensions of the cell with a laminate film case A.1 General A.2 Measuring method of cell thickness A.3 Measuring method of cell width |
| 55 | Figure A.1 – Thickness measuring method Figure A.2 – Width measuring method |
| 56 | Annex B (informative)Capacity after storage Table B.1 – Capacity after storage |
| 57 | Bibliography |
