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MicroCell
- 12V供电 铅蓄电池充电模块(充电电流200-400mA)原理图及PCB图,附带指示灯,充满保护,器件清单。-12V rechargeable lead-acid battery power supply module (charge current 200-400mA) and PCB schematic diagram, with light, full protection, the device list.
GM6802
- 低成本串联镍氢镍镉充电器电路图 用于镍氢电池或镍氢电池组的快速充电专用集成电路,具备镍氢电池充电需要的所有功能,使充电过程完全自动化,充电时间短,充电效率高,安全可靠,应用设计简单。-Series of low-cost nickel-metal hydride nickel-cadmium battery charger circuit for nickel-hydrogen batteries or Ni-MH rechargeable battery pack rapid ASIC,
51_single-chip_based_on_th_realization_of_lead-aci
- 在蓄电池应用领域, 铅酸蓄电池以可靠、电容量大、维护简单等特点占有很大的市场。本文太阳能铅酸蓄电 池的充电方案采用了在单片机领域应用最广的51 单片机, 依靠adc 进行模拟量数据采集并在51 上采用软件实现pwm 算法 对12v 铅酸蓄电池进行( 三段精细) 充电控制, 得到良好的控制效果。基于51 单片机的铅酸蓄电池充电器的实现-Applications in batteries, lead-acid battery to a reliable, large capacity, si
solaor
- 太阳能电池充放电控制器电路图,LM317,过压比较-Solar battery charge and discharge control circuit
EV
- 介绍了当前电动汽车充电站建设的3 种典型模式,在此基础之上设计了一种电动汽车充电站监控系统。该系统主要包括软件统一支撑平台、充电监控、配电监控、烟雾报警监视、电池维护监控、快速更换设备监控、数据交换和转发等功能。并介绍了该系统的应用情况,指出了该系统的发展方向。-Describes the current electric vehicle charging station building three kinds of typical patterns, in this based on the
bi-directional-DCDC-converter
- 详细介绍了双向直流变化器的结构及控制技术,为电动汽车电池充放电系统的设计提供了一个很好的平台。-Details of the bi-directional changes of the structure and the DC control technology for electric vehicle battery charge and discharge system is designed to provide a good platform.
Sample
- 基于ATT7022的的三相电压监测原理图,支持蓄电池充放电、过放电保护、蓄电池直流切换、三相电压测量、直流电压测、过流、过压保护等功能-Based on the three-phase voltage monitoring ATT7022 schematic in support of battery charge and discharge, over-discharge protection, battery dc switch, three-phase voltage measuremen
MM30773v
- 锂电池保护芯片资料,芯片介绍的非常详细,适合单节电池的充电电路设计。-Lithium battery protection chip data, the chip is described in great detail, suitable for a single battery charge circuit design.
1-s2.0-S0378775396025189-main
- 本文较详细介绍了铅酸电池电化学模型,考虑了电池充放电过程中的极化反应,析气反应。与实际电池的充放电特性符合-This paper has detailed electrochemical model of lead-acid batteries, consider the polarization response in the battery charge and discharge process, the gas evolution reaction. Accordance with th
Battery-Charge-LCD
- Mach nap Accu tu dong. su dung 89C2051. Man hinh hien thi LCD 16x2.
0
- 蓄电池的工作原理及特性常见的蓄电池充电算法.蓄电池充电算法的设计与实现蓄电池充放电算法的仿真研究-Battery working principle and characteristics of common battery charging algorithm battery charging algorithm design and implementation of battery charge and discharge algorithm simulation study
0
- 蓄电池的工作原理及特性常见的蓄电池充电算法.蓄电池充电算法的设计与实现蓄电池充放电算法的仿真研究-Battery working principle and characteristics of common battery charging algorithm battery charging algorithm design and implementation of battery charge and discharge algorithm simulation study
0
- 蓄电池的工作原理及特性常见的蓄电池充电算法.蓄电池充电算法的设计与实现蓄电池充放电算法的仿真研究-Battery working principle and characteristics of common battery charging algorithm battery charging algorithm design and implementation of battery charge and discharge algorithm simulation study
Battaries
- Standalone Photovoltaic (PV) system requires a proper battery charge controller. In this paper an efficient battery charge controller using Buck-Boost regulator with Maximum Power Point Tracking (MPPT) is presented. The voltage command is det
batterymodel
- 一个电池组充放电简易的MATLAB模型。- A simple battery charge and discharge MATLAB models.
Micro-grid-PV
- 光伏微网系统中蓄电池的充放电控制器的研究。-Photovoltaic micro-grid system battery charge and discharge controller.
pv11
- A complete Matlab Simulink model of a stand-alone PV system including PV arrays, battery, load and ON/OFF switch control and charge controller
222009322072112
- 由于太阳能充电系统多在户外,为了方便研究太阳能充电控制系统对蓄电池的充电情况,本文使用GPRS无线传输技术,设计了一套太阳能充电系统蓄电池的充电电压电流远程实时监测系统。系统的硬件部分由电压电流检测电路、单片机STC89C52RC、GPRS模块SIM300以及相应的外围电路构成,下位机软件由C语言编写并与硬件部分构成系统下位机部份,实现了对充电电压电流的信息采集以及数据的无线数传。上位机在LabVIEW2010环境下编写,具备友好的人机交互界面,实现了数据的远程接收、实时显示、数据库管理、报表生
ETA6002
- ETA6002电池快速充管理IC.通过调试电流可以到2A-ETA6002 battery charge management IC. By debugging the current can be 2A.
电池SOC估算
- 电池荷电状态的估算是电池管理系统的核心内容估算准确与否,将直接影响到电池管理系统的决策和控制。在结合开路电压法、安时法的基础上。充分利用扩展卡尔曼滤波法的修正功能综合考虑电池充放电倍率、温度和充放电循环次数等因素对电池的影晌,提出了卡尔曼滤波修正算法,并将其应用在插电式混合动力汽车电池管理系统中。(The estimation of battery charge state is the core content of battery management system. Whether th