K84 蓄电能装置 标准查询与下载

JB/T 12345-2015 铅酸蓄电池单位产品能源消耗限额

本标准规定了铅酸蓄电池单位产品能源消耗(以下简称能耗)限额的术语和定义、产品分类、技术要求、能耗、统计范围、统计方法及计算方法。 本标准适用于以铅、铅合金及硫酸为主要原料生产铅酸蓄电池产品(以下简称产品)的企业能耗的计算、考核，以及新建项目的能耗控制。产品可以是铅酸蓄电池(以下简称蓄电池)、铅酸蓄电池生极板(以下简称生极板)或铅酸蓄电池极板(以下简称极板)。

Product energy consumption quota for lead-acid battery factory

DIN EN 50342-2:2015 铅酸起动器电池.第2部分:电池尺寸和终端标记;德文版本EN 50342-2-2007+A1-2014

Lead-acid starter batteries - Part 2: Dimensions of batteries and marking of terminals; German version EN 50342-2:2007 + A1:2014

SN/T 1414.3-2015 进出口蓄电池安全检验方法 第3部分:锂离子蓄电池

SN/T 1414的本部分规定了便携式锂离子蓄电池安全检测要求和相应的测试方法。 本部分适用于便携式锂离子蓄电池的安全检测。 本部分不适用于锂蓄电池组及锂离子动力电池的检测。

Safety inspection method of secondary cells and batteries for import and export.Part 3:Secondary lithium cells

DIN 40744:2015 铅酸蓄电池.带管形正极板的固定稳定蓄电池和固定电解质

Lead acid batteries - Stationary valve regulated batteries with positive tubular plates and immobilized electrolyte (gel)

DIN 40742:2015-09 铅酸蓄电池.带管形正极板的固定稳定蓄电池和固定电解质

Lead acid batteries - Stationary valve regulated cells with positive tubular plates and immobilized electrolyte (gel)

DIN EN 60086-4:2015 原电池.第4部分:锂电池的安全(IEC 60086-4-2014);德文版本EN 60086-4-2015

Primary batteries - Part 4: Safety of lithium batteries (IEC 60086-4:2014); German version EN 60086-4:2015

DIN 40736-1:2015 铅酸蓄电池. 第1部分: 带有塑料容器中正极板的固定通风组件

Lead acid batteries - Part 1: Stationary vented cells with positive tubular plates in plastic-containers

DIN 40737-3:2015 铅酸蓄电池.带圆管形阳极的固定通风蓄电池

Lead acid batteries - Part 3: Stationary vented batteries with positive tubular plates

BS EN 50342-7:2015 铅酸起动蓄电池. 摩托车电池的通用要求和试验方法

Lead acid starter batteries. General requirements and methods of tests for motorcycle batteries

KS C IEC 62770:2015 电工流体.变压器及类似电气设备未使用的天然酯

Fluids for electrotechnical applications — Unused natural esters for transformers and similar electrical equipment

KS C IEC 62620:2015 蓄电池和含碱或其他非酸性电解质电池组. 工业应用中使用的二次锂电池和蓄电池组

Secondary cells and batteries containing alkaline or other non-acid electrolytes — Secondary lithium cells and batteries for use in industrial applications

KS C IEC 60623:2015 含碱性或其他非酸性电解质的蓄电池和蓄电池组.开口镉镍方形可充电单体电池

Secondary cells and batteries containing alkaline or other non-acid electrolytes — Vented nickel-cadmium prismatic rechargeable single cells

BS EN 62620:2015 蓄电池和含碱或其他非酸性电解质电池组. 工业应用中使用的二次锂电池和电池组

Secondary cells and batteries containing alkaline or other non-acid electrolytes. Secondary lithium cells and batteries for use in industrial applications

JIS C 8712:2015 便携设备用便携式密封二次电池及由其制成的蓄电池的安全要求

Safety requirements for portable sealed secondary cells, and for batteries made from them, for use in portable applications

ANSI/UL 1236-2015 装载发电机启动器蓄电池用蓄电池充电器的安全性UL标准

UL Standard for Safety Battery Chargers for Charging Engine-Starter Batteries (Eighth Edition; Reprint with revisions through and including October 7, 2015)

JIS C 8513:2015 锂电池的安全性

Safety of primary lithium batteries

IEEE 1823-2015 移动设备用通用电源适配器(IEEE计算机协会)

Universal Power Adapter for Mobile Devices (IEEE Computer Society)

GOST R IEC 60896-11-2015 固定型铅酸蓄电池. 第11部分. 通风类型. 通用要求和试验方法

Stationary lead-acid batteries. Part 11. Vented types. General requirements and methods of tests

GOST R IEC 60896-22-2015 固定型铅酸蓄电池. 第22部分. 阀门调节型. 要求

Stationary lead-acid batteries. Part 22. Valve regulated types. Requirements

ASTM E1036-15 使用参比电池的非聚能地面光电模组和陈列电性能的标准试验方法

5.1 It is the intent of these procedures to provide recognized methods for testing and reporting the electrical performance of photovoltaic modules and arrays. 5.2 The test results may be used for comparison of different modules or arrays among a group of similar items that might be encountered in testing a group of modules or arrays from a single source. They also may be used to compare diverse designs, such as products from different manufacturers. Repeated measurements of the same module or array may be used for the study of changes in device performance. 5.3 Measurements may be made over a range of test conditions. The measurement data are numerically translated from the test conditions to standard RC, to nominal operating conditions, or to optional user-specified reporting conditions. Recommended RC are defined in Table 1. 5.3.1 If the test conditions are such that the device temperature is within ±2°C of the RC temperature and the total irradiance is within ±5 % of the RC irradiance, the numerical translation consists of a correction to the measured device current based on the total irradiance during the I-V measurement. 5.3.2 If the provision in 5.3.1 is not met, performance at RC is obtained from four separate I-V measurements at temperature and irradiance conditions that bracket the desired RC using a bilinear interpolation method.4 5.3.2.1 There are a variety of methods that may be used to bracket the temperature and irradiance. One method involves cooling the module under test below the reference temperature and making repeated measurements of the I-V characteristics as the module warms up. The irradiance of pulsed light sources may be adjusted by using neutral density mesh filters of varying transmittance. If the distance between the simulator and the test plane can be varied then this adjustment can be used to change the irradiance. In natural sunlight, the irradiance will change with the time of day or if the solar incidence angle is adjusted. 5.4 These test methods are based on two requirements. 5.4.1 First, the reference cell (or module, see 1.1.1 and 4.3.4) is selected so that its spectral response is considered to be close to the module or array to be tested. 5.4.2 Second, the spectral response of a representative cell and the spectral distribution of the irradiance source must be known. The calibration constant of the reference cell is then corrected to account for the difference between the actual and the reference spectral irradiance distributions using the spectral misma......

Standard Test Methods for Electrical Performance of Nonconcentrator Terrestrial Photovoltaic Modules and Arrays Using Reference Cells