|本期目录/Table of Contents|

[1]赖忠喜,张占军.基于LTC6804的铝空气电池监控系统设计[J].电子设计工程,2020,28(01):149-153.[doi:10.14022/j.issn1674-6236.2020.01.032]
 LAI Zhongxi,ZHANG Zhanjun.Design of monitoring system for Aluminum air battery based on LTC6804[J].Electronic Design Engineering,2020,28(01):149-153.[doi:10.14022/j.issn1674-6236.2020.01.032]
点击复制

基于LTC6804的铝空气电池监控系统设计(PDF)
分享到:

《电子设计工程》[ISSN:1674-6236/CN:61-1477/TN]

卷:
28
期数:
2020年01期
页码:
149-153
栏目:
嵌入式系统
出版日期:
2020-01-05

文章信息/Info

Title:
Design of monitoring system for Aluminum air battery based on LTC6804
文章编号:
1674-6236(2020)01-0149-05
作者:
赖忠喜张占军
(台州职业技术学院 机电研究所,浙江 台州 318000)
Author(s):
LAI Zhong?xi ZHANG Zhan?jun
(Electromechanical Institute of Taizhou Vocational &Technical College, Taizhou 318000, China)
关键词:
铝空气电池 监控系统 LTC6804 STM32微控制器
Keywords:
Aluminum air battery monitoring system LTC6804 STM32 microcontroller
分类号:
TN710
DOI:
10.14022/j.issn1674-6236.2020.01.032
文献标志码:
A
摘要:
针对现有铝空气电池监控系统存在的监测参数不全和监测精度低等问题,设计了一款铝空气电池监控系统,该系统以STM32F103ZET6为主控芯片,以UCOS操作系统为软件平台,采用LTC6804采集铝空气电池的运行参数,配合氢气采集模块、放电保护模块和电池控制模块等实现了对12串铝空气电池组的实时监控,智能保护和故障报警等功能。采用VC++6.0设计了上位机监控界面,实时显示电池信息。测试结果表明,该系统具有良好的稳定性和测量精度,能满足电池监控的需求。
Abstract:
Aiming at the problems of incomplete monitor parameters and low monitoring precision existing in the monitoring system for Aluminum air battery. An Aluminum air battery monitoring system was designed. The system adopted STM32F103ZET6 microprocessor as the main control chip, and the UCOS operating system as the software platform. It used LTC6804 to collect the operating parameters of Aluminum air battery. Cooperating with hydrogen acquisition module、discharge protection module and battery control module, etc, to realize the functions of real-time monitoring, intelligent protection and failure alarm for 12 string of Aluminum air battery pack, The upper computer monitoring interface was designed with VC++6.0, which can display the battery information in real time. The test results show that the system has good stability and measurement accuracy. It can meet the demand of the battery monitoring system.

参考文献/References:

[1] Wang H, Leung D Y C, Leung M K H. Energy analysis of hydrogen and electricity production from aluminum-based processes[J]. Applied Energy, 2012,90(1):100-105.[2] 柯浪,胡广来,冯育俊,等. 铝空气电池系统设计及放电特性研究[J]. 电源技术, 2019,43(2):263-265.[3] 孙丁武,林维捐,谢银斯, 等. 高比能铝空气电池研究进展[J]. 电源技术, 2019,43(1):174-176.[4] 朱明华. 铝空气电池电解液和循环系统的研究[D]. 哈尔滨:哈尔滨工业大学, 2017.[5] Ma Jing-ling, Xu Kuai-hui, Wen Jiu-ba, et al. The research progress of aluminum-air battery [J]. Power technology, 2012,4(1):139-141.[6] 孟林,马振波,王祝堂. 铝燃料电池的进展[J]. 轻合金加工技术, 2018,46(3):1-14.[7] 赵少宁,李艾华. 铝空气电池的研究现状和应用前景[J]. 电源技术, 2014,38(10):1969-1971. [8] 陈栋. 铝空气动力电池在线监测系统的研究与设计[D]. 成都:电子科技大学, 2016.[9] 刘岳滨,赵军红,胡东杰. 新型铝—空气电池管理系统设计[J]. 兵器装备工程学报, 2013,34(7):116-119.[10]Zhou Y J, Lu C B, Zheng F, et al. The Core System Design for New Kilowatt Aluminum-Air Battery[J]. Applied Mechanics and Materials, 2014:704-707.[11]Linear Technology. LTC6804-1/LTC6804-2 Multicell Battery Monitors (680412fc) [EB/OL], [2016-06-08]. https://www.analog.com/en/products/ltc6804-1.html.[12]蔡艳平,李艾华,徐斌,等. 铝-空气新能源电池技术及其放电特性[J]. 电源技术, 2015,39(6):1232-1234.[13]谢冬雪,唐祯安,蔡泓,等. 基于STM32和LTC6804的电池管理系统设计[J]. 仪表技术与传感器, 2018,429(10):67-71.[14]王越,杨玉新,李立伟. 基于LTC6804的电池监控测单元设计[J].青岛大学学报(工程技术版), 2019,34(1):70-74.[15]张占军,赖忠喜. 一种小型铝空气电池管理系统的设计[J]. 电子设计工程, 2018,26(2):135-139.[16]伍翔. 阴极开放式自增湿型PEMFC测控系统设计与实验研究[D]. 成都:西南交通大学,2015.

相似文献/References:

[1]张 芬.基于MCGS组态技术的PLC实践教学改革[J].电子设计工程,2012,(10):162.
 ZHANG Fen.Research into teaching innovation of PLC practice based on configuration software MCGS[J].Electronic Design Engineering,2012,(01):162.
[2]李晓辉,郑 晟,孙彦鹏.基于PLC的污水处理中心自控及监控系统[J].电子设计工程,2011,(23):109.
 LI Xiao-hui,ZHENG Sheng,SUN Yan-peng.Application of PLC in sewage disposal control and monitor system[J].Electronic Design Engineering,2011,(01):109.
[3]阴国富.基于博弈论的井下监测网QoS路由算法研究[J].电子设计工程,2011,(21):87.
 YIN Guo-fu.Based on the game theory of coal mine monitoring network QoS routing algorithms[J].Electronic Design Engineering,2011,(01):87.
[4]马跃强,金太东,刘 微,等.基于GPRS的城市供水报警监控系统的设计[J].电子设计工程,2011,(11):65.
 MA Yue-qiang,JIN Tai-dong,LIU Wei,et al.Alarm monitoring system of urban water supply design based on GPRS[J].Electronic Design Engineering,2011,(01):65.
[5]宋军华,徐晓辉,谭 涛,等.嵌入式Web技术在智能温室监控系统中的应用[J].电子设计工程,2011,(04):32.
 SONG Jun-hua,XU Xiao-hui,TAN Tao,et al.Embedded Web technology in intelligent greenhouse monitoring system[J].Electronic Design Engineering,2011,(01):32.
[6]王汉华.GPRS技术在小电厂远程监控系统中的应用[J].电子设计工程,2011,(03):28.
 WANG Han-hua.Application of GPRS technology in the remote monitoring system of small power plants[J].Electronic Design Engineering,2011,(01):28.
[7]王 鹏,兀 伟,敬 伟,等.列车运行前方动态监控系统设计[J].电子设计工程,2010,(12):41.
 WANG Peng,WU Wei,JING Wei,et al.Design of dynamic train monitoring system[J].Electronic Design Engineering,2010,(01):41.
[8]柳春青,张艳兵,马铁华.基于EV3000的变频调速监控系统设计[J].电子设计工程,2010,(04):142.
 LIU Chun-qing,ZHANG Yan-bing,MA Tie-hua.Design of monitor and speed control system of motor based on EV3000[J].Electronic Design Engineering,2010,(01):142.
[9]刘波,卢兴顺.基于自适应均衡器MAX7474的安全监控系统视频信号补偿方案[J].电子设计工程,2008,(10):69.
 LIU Bo,LU Xing-shun.Video signal compensating scheme based on adaptive equalizer MAX7474 in safety monitor and control system[J].Electronic Design Engineering,2008,(01):69.
[10]胡亚军,王延年,陶祎明.基于PLC的物料包装输送监控系统[J].电子设计工程,2006,(12):11.
 HU Ya-jun,?WANG Yan-nian,TAO Yi-ming.Survey system of materiel transportation based on PLC[J].Electronic Design Engineering,2006,(01):11.

备注/Memo

备注/Memo:
收稿日期:2019-05-28 稿件编号:201905158基金项目:浙江省教育厅科研项目资助(Y201840372);2018年浙江省高校国内访问工程师校企合作项目资助(FG2018162);台州职业技术学院重点课题资助(2016ZD01);台州市科技计划项目(1902gy25)作者简介:赖忠喜(1984—),男,浙江台州人,硕士,讲师。研究方向:智能控制技术。
更新日期/Last Update: 2019-12-31