一种可集成于电池组检测芯片的Sigma-Delta A/D转换器

为提高电池组电压检测芯片的检测精度,采用BCD高低压兼容工艺,设计、实现了一种可集成于高压电池组检测芯片的Sigma-Delta ADC.该ADC的调制器为单环三阶反馈结构和过采样率256,数字滤波器的通带纹波小于0.001dB,阻带衰减能够达到-100dB.在5V的电源电压下,ADC的整体功耗为4.67mW,版图尺寸为2.56mm×0.51mm.在1kHz的信号带宽内,该ADC能达到88dB的信噪失真比、99.2dB的动态范围和0.01%的测量精度.

锂离子动力电池组智能检测系统设计与实现

针对目前电池组检测设备存在着精度低、能耗高和电池组内电池不能单独检测等问题,基于单片机技术开发出一套具有三级分布式结构的电池组智能检测系统。该系统可对锂离子动力电池组内单体电池的充放电性能进行检测,具有能耗低、精度高和操作简单等特点。经验证,该系统能够显著提高电池组检验生产的效率。

智能变电站中蓄电池组多路电压电流采集设计与实现

介绍了智能变电站蓄电池组检测系统中的多路电压电流采集部分,实现了一种蓄电池组实时在线集中监测系统中关于多路电压电流采集的设计。该系统针对变电站的蓄电池组,成功实现了对255路单电压、一路充电电流一路放电电流的采集等功能,大大提高了变电站维护人员的工作效率,消除了监测盲点。

一种通信机房蓄电池组智能采集系统

如何借助降本增效提升企业的资源效率,增强内生动力和外部竞争力,通信运营商积极开展各种降本增效措施的研究及应用,面对单体数量急剧增加的蓄电池组,日常维护存在诸多困难,进而导致维护效率下降。通信机房蓄电池组智能采集系统是基于动环监控系统基础上的创新设计,智能采集系统对动环监控FSU与蓄电池组单体监测仪通信内容进行监听,监听数据再通过Wifi传至手机App呈现,便于现场作业人员实时查阅,该设计依托现有的通信网络运资源,以最低运营成本,提升安全管理水平、提高企业的经济效益为目的,该系统具有良好的市场应用前景。

Voltage-Based Hot-Spot Detection Method for Defective Cell in Photovoltaic Module Using Projector

This paper proposes a voltage-based hot-spot detection method for defective cells in PV module using projector. The presence of internal crystal defects is one of the main causes of hot-spot phenomenon in PV modules. Authors previously investigated the physical characteristics of hot-spot phenomenon referring to internal crystal defect. Based on it, a hot-spot detection method named as current-based SRC （self reverse current） detection method is developed. However, it becomes extraordinarily complicated to determine the defective cells under low illumination. In order to avoid this disadvantage, authors improve the SRC detection method by applying voltage. From the feasibility experiment results, it is confirmed that by calculating cell HSI （hotspots index） with voltage, the PV modules with defective cells can be prospectively excluded even under low illumination.