K84 蓄电能装置 标准查询与下载

BS EN 50272-4:2007 二次电池和电池装置的安全性要求.便携式仪表用电池

This standard applies to the safety aspects associated with the accommodation, the arrangements of circuits and the operation of secondary cells and batteries in portable appliances. Requirements are specified which oblige the manufacturers of appliances and secondary batteries to prevent the misuse of batteries in the course of operation to provide protective measures avoiding injury to persons in case of battery failure and to provide sufficient information to users.

Safety requirements for secondary batteries and battery installations - Batteries for use in portable appliances

JIS C 8708:2007 密封型镍、氢蓄电池

この規格は，小形角形，円筒形及びボタン形の密閉形ニッケル?水素蓄電池(以下，電池という。)の試験方法及び要求事項について規定する。

Sealed nickel-metal hydride rechargeable single cells

JIS C 8704-2-2 ERRATUM 1:2007 勘误表

ERRATUM

DIN EN 60896-21 Berichtigung 1:2007 固定式铅酸蓄电池组.第21部分:调节阀型.试验方法

Corrigenda to DIN EN 60896-21:2004-12

Stationary lead-acid batteries - Part 21: Valve regulated types - Methods of test (IEC 60896-21:2004); German version EN 60896-21:2004, Corrigenda to DIN EN 60896-21:2004-12

BS EN 61982-1:2006 电动道路车辆推进用蓄电池.第1部分:试验参数

This standard specifies the values of the various parameters such as voltage, current, power and temperature to be used in the testing of battery cells, monoblocs and modules used for the propulsion of electric road vehicles. The standard also defines certain test conditions and procedures. In its present form, the standard does not apply to high temperature batteries such as sodium/sulphur types.

Secondary batteries for the propulsion of electric road vehicles - Part 1: Test parameters

JB/T 4282-2007 摩托车用铅酸蓄电池

本标准规定了摩托车用铅酸蓄电池的术语、型号、结构、产品分类、技术要求、试验方法、检验规则以及包装、运输和贮存。 本标准适用于摩托车起动、点火、照明用的铅酸蓄电池（以下简称蓄电池）。

Lead-acid batteries for motorcycles

NF C58-982-1:2007 电动道路车辆推进用蓄电池.第1部分:试验参数

Secondary batteries for the propulsion of electric road vehicles - Part 1 : test parameters.

IEEE 1115a-2007 固定装置用镍镉蓄电池规格的推荐实施规程.修改件1:附加规格极限的讨论

The sizing of nickel-cadmium batteries used in full float operation for stationary applications is covered.

Recommended practice for sizing nickel-cadmium batteries for stationary applications; Amendment 1: Additional discussion on sizing margins

ANSI C18.2M Part 2-2007 便携式可再充电电池.安全标准

This Standard specifies performance requirements for standardized portable lithium-ion, nickel cadmium, and nickel metal hydride rechargeable cells and batteries to ensure their safe operation under normal use and reasonably foreseeable misuse, and inclu

Portable Rechargeble Cells and Batteries - Safety Standard

ASTM D7148-07(2011) 电解槽测量系统中使用碳极测定碱性蓄电池隔板的离子电阻系数(ER)用标准试验方法

The ER of a battery separator is a standard measurement used by separator and battery manufacturers for quality control purposes and separator selection. Separator ER and the separator''s interaction with the electrolyte, that is resistance to wetting or flow, will contribute to the internal resistance of the battery and this can potentially limit the electrical output of a battery. The ER determination is a tool for battery manufacturers to use in design, material selection, and performance specifications. The change in the bath electrical resistance imparted by a separator is affected by the porosity, thickness, and tortuousity of the pore structure of the separator, the wettability of the separator to the electrolyte, and the temperature and concentration of the electrolyte. Incomplete wetting or saturation of the pore structure limits the lowest ER value obtainable from a separator structure. Separators are pretreated to assure that the specimen being tested has been adequately wetted out. A separator that is not fully wetted out (saturated) will give a higher ER. This test method is intended to give a rapid and repeatable measurement that approximates the change in ER that could happen when the separator is used in a battery.1.1 This test method covers the pretreatment, test conditions, apparatus, and procedure to determine the ionic resistivity, commonly referred to in the battery industry as electrical resistance (ER) of an alkaline battery separator immersed in an electrolyte of 40 % potassium hydroxide (KOH). 1.2 The values stated in SI units are to be regarded as the standard. 1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Determining the Ionic Resistivity (ER) of Alkaline Battery Separator Using a Carbon Electrode in an Electrolyte Bath Measuring System

ANSI/IEEE 1562:2007 单机光电(PV)设备中串联电池及电池尺寸用指南

This guide provides information to assist in sizing the array and battery of a stand-alone photovoltaic system. Systems considered in this guide consist of PV as the only power source and a battery for energy storage. These systems also commonly employ controls to protect the battery from being over- or under-charged, and may employ a power conversion subsystem (inverter or converter). This guide is applicable to all stand-alone PV systems where PV is the only charging source, and it covers lead-acid batteries only.

Guide for Array and Battery Sizing in Stand-Alone Photovoltaic (PV) Systems

UL 2054 BULLETIN-2007 家用和商用电池组UL安全性标准.评议提交截止日期:2007年11月9日

These requirements cover portable primary (nonrechargeable) and secondary (rechargeable) batteries for use as power sources in products. These batteries consist of either a single electrochemical cell or two or more cells connected in series, parallel, or both, that convert chemical energy into electrical energy by chemical reaction. These requirements are intended to reduce the risk of fire or explosion when batteries are used in a product. The proper use of these batteries in a particular application is dependent on their use in a complete product that complies with the requirements applicable to such a product. These requirements are intended to cover batteries for general use and do not include the combination of the battery and the host product which are covered by requirements in the host product standard. These requirements are also intended to reduce the risk of injury to persons due to fire or explosion when batteries are removed from a product to be transported, stored, or discarded. These requirements do not cover the toxicity risk that results from the ingestion of a battery or its contents, nor the risk of injury to persons that occurs if a battery is cut open to provide access to its contents

UL Standard for Safety Household and Commercial Batteries COMMENTS DUE: November 9, 2007

ASTM D7148-07 电解槽测量系统中使用碳极测定碱性蓄电池隔板的离子电阻系数(ER)用标准试验方法

The ER of a battery separator is a standard measurement used by separator and battery manufacturers for quality control purposes and separator selection. Separator ER and the separatorrsquo;interaction with the electrolyte, that is resistance to wetting or flow, will contribute to the internal resistance of the battery and this can potentially limit the electrical output of a battery. The ER determination is a tool for battery manufacturers to use in design, material selection, and performance specifications. The change in the bath electrical resistance imparted by a separator is affected by the porosity, thickness, and tortuousity of the pore structure of the separator, the wettability of the separator to the electrolyte, and the temperature and concentration of the electrolyte. Incomplete wetting or saturation of the pore structure limits the lowest ER value obtainable from a separator structure. Separators are pretreated to assure that the specimen being tested has been adequately wetted out. A separator that is not fully wetted out (saturated) will give a higher ER. This test method is intended to give a rapid and repeatable measurement that approximates the change in ER that could happen when the separator is used in a battery.1.1 This test method covers the pretreatment, test conditions, apparatus, and procedure to determine the ionic resistivity, commonly referred to in the battery industry as electrical resistance (ER) of an alkaline battery separator immersed in an electrolyte of 40 % potassium hydroxide (KOH).1.2 The values stated in SI units are to be regarded as the standard.1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Determining the Ionic Resistivity (ER) of Alkaline Battery Separator Using a Carbon Electrode in an Electrolyte Bath Measuring System

EN 50342-2:2007 铅酸起动电池组.第2部分:电池尺寸和标记端子［替代:CENELEC EN 60095-2］

This European Standard is applicable to lead-acid batteries used for starting, lighting and ignition of passenger automobiles and light commercial vehicles with a nominal voltage of 12 V. All batteries in accordance with this European Standard can be fastened to the vehicle either by means of the ledges around the case or by means of a hold-down device engaging with the lid.

Lead-acid starter batteries - Part 2: Dimensions of batteries and marking of terminals (Incorporates Amendment A1: 2014)

IEEE 1561-2007 微型混合电力系统中酸性铅蓄电池的性能和寿命的优化用指南

Guide for Optimizing the Performance and Life of Lead-Acid Batteries in Remote Hybrid Power Systems / Note: Approved 2008-04-15.

Guide for Optimizing the Performance and Life of Lead-Acid Batteries in Remote Hybrid Power Systems

UL 1642 BULLETIN-2007 锂电池组UL安全性标准.评议提交截止日期:2007年11月9日

1.1 These requirements cover primary (nonrechargeable) and secondary (rechargeable) lithium batteries for use as power sources in products. These batteries contain metallic lithium, or a lithium alloy, or a lithium ion, and may consist of a single electrochemical cell or two or more cells connected in series, parallel, or both, that convert chemical energy into electrical energy by an irreversible or reversible chemical reaction. 1.2 These requirements cover lithium batteries intended for use in technician-replaceable or user-replaceable applications. 1.3 These requirements are intended to reduce the risk of fire or explosion when lithium batteries are used in a product. The final acceptability of these batteries is dependent on their use in a complete product that complies with the requirements applicable to such product. 1.4 These requirements are also intended to reduce the risk of injury to persons due to fire or explosion when user-replaceable lithium batteries are removed from a product and discarded. 1.5 These requirements cover technician-replaceable lithium batteries that contain 5.0 g (0.18 ounce) or less of metallic lithium. A battery containing more than 5.0 g of lithium is judged on the basis of compliance with the requirements in this standard, insofar as they are applicable, and further examination and test to determine whether the battery is acceptable for its intended uses. 1.6 These requirements cover user-replaceable lithium batteries that contain 4.0 g (0.13 ounce) or less of metallic lithium with not more than 1.0 g (0.04 ounce) of metallic lithium in each electrochemical cell. A battery containing more than 4.0 g or a cell containing more than 1.0 g lithium may require further examination and test to determine whether the cells or batteries are acceptable for their intended uses. 1.7 These requirements do not cover the toxicity risk that may result from the ingestion of a lithium battery or its contents, nor the risk of injury to persons that may occur if a battery is cut open to provide access to the metallic lithium.

UL Standard for Safety Lithium Batteries COMMENTS DUE: November 9, 2007

JB/T 10679-2006 铅酸蓄电池用极板

本标准规定铅酸蓄电池用极板的产品分类、技术要求、试验方法、检验规则、标志、包装、运输和贮存。 本标准适用于涂膏式负极板、涂膏式正极板、管式正极板。

Plate for lead-acid battery

KS C IEC 60094-4:2006 磁带录音和重放系统.第4部分:磁带的机械特性

이 규격은 업무용 및 가정용 아날로그 음성의 녹음 재생에 사용하는 자기 테이프에 적용한다

Magnetic tape sound recording and reproducing systems－Part 4：Mechanical magnetic tape properties

UL 1989-2006 备用蓄电池

These requirements cover instrument batteries, enclosed batteries, emergency lighting and power batteries and uninterruptible power supply batteries. These requirements only address potential risks unique to the utilization of a battery supply in a product. Products employing a battery supply shall comply with the basic requirements contained in this standard applicable to the type of product and its intended use. These requirements do not cover risks that may be unique to certain cell chemistries, such as the fire and explosion risks of lithium batteries. Additional investigations are required to evaluate such risks. The investigation of a family or group of batteries may be based on the investigation of batteries representative of the family or group. A product that contains features, characteristics, components, materials, or systems new or different from those covered by the requirements in this standard, and that involves a risk of fire, electric shock, or injury to persons shall be evaluated using the appropriate additional component and end-product requirements as determined necessary to maintain the acceptable level of safety as originally anticipated by the intent of this standard. A product whose features, characteristics, components, materials, or systems conflict with specific requirements or provisions of this standard cannot be judged to comply with this standard. Where considered appropriate, revision of requirements shall be proposed and adopted in conformance with methods employed for development, revision, and implementation of this standard.

Standby batteries

GJB 516B-2006 军用汽车铅酸蓄电池规范

本规范规定了军用汽车用铅酸蓄电池的要求、质量保证规定、交货准备以及说明事项等。 本规范适用于军用汽车铅酸蓄电池（以下简称蓄电池）的设计、生产和验收。

Specification for lead-acid storage batteries for military automotives