基于PSoC4的浮标电池内阻监测系统设计
|
摘要
航空声纳浮标对于反潜作战具有重大意义,蓄电池作为声纳浮标不可或缺的能量来源,可以得到具有稳定电压,稳定电流,长时间稳定供电,受外界影响很小的电流,并且蓄电池结构简单,不受外界气候和温度的影响,性能稳定可靠,在各类反潜浮标设计上运用广泛。为了时刻了解蓄电池工作状态,对其标称电压及其内阻的监测极为重要。基于四端子测量方式测量浮标蓄电池内阻,在注入频率和幅度特定电流的情况下,通过采集蓄电池两端上的电压响应信号,运用锁相放大技术,对有用信号进行放大提取,详述了基于PSoC4的蓄电池内阻监测系统的设计思路和实现内阻的高精度测量过程。所测量的数据在Modbus协议下传输至上位机。
Anti-submarine buoy has important significance for anti-submarine warfare, storage battery, as an essential part of the sea buoy energy source, can get a stable voltage, stable current, stable power supply for a long time, influenced by the outside world is very small, the current and battery has simple structure, is not affected by the outside world the influence of climate and temperature, stable and reliable performance, widely used in all kinds of anti-submarine buoy design. In order to understand the working state of the battery, it is very important to monitor its nominal voltage and its internal resistance. It based on four terminal measuring way of measuring buoy battery internal resistance, in the case of certain current injection frequency and amplitude, by means of the voltage response signal acquisition on both ends of the battery, using the phase-locked amplifier technology, to extract useful signal amplification. Details the battery internal resistance monitoring system based on PSoC4 the design ideas and implementation of internal resistance of the high precision measurement process. The measured data in the Modbus protocol under the first machine.
Anti-submarine buoy has important significance for anti-submarine warfare, storage battery, as an essential part of the sea buoy energy source, can get a stable voltage, stable current, stable power supply for a long time, influenced by the outside world is very small, the current and battery has simple structure, is not affected by the outside world the influence of climate and temperature, stable and reliable performance, widely used in all kinds of anti-submarine buoy design. In order to understand the working state of the battery, it is very important to monitor its nominal voltage and its internal resistance. It based on four terminal measuring way of measuring buoy battery internal resistance, in the case of certain current injection frequency and amplitude, by means of the voltage response signal acquisition on both ends of the battery, using the phase-locked amplifier technology, to extract useful signal amplification. Details the battery internal resistance monitoring system based on PSoC4 the design ideas and implementation of internal resistance of the high precision measurement process. The measured data in the Modbus protocol under the first machine.
引文
[1] 夏勇.锁相放大技术在蓄电池内阻检测中的应用[J].电子应用技术,2004(3):65-69.
[2] 吴东艳,韩喜春,高旭东.PSoC在高精度温度测量中的应用[J].黑龙江工程学院学报,2013,27(2):45-49.
[3] 李运涛,曹建刚,董志强,等.蓄电池内阻检测方法研究与实现[J].火炮发射与控制学报,2012(4):59-62.
[4] 何宾.PSoC模拟与数字电路设计指南[M].北京:化学工业出版社,2012.
[5] 何宾.Cortex-M3可编程片上系统原理及应用[M].北京:化学工业出版社,2012.
[6] 马广伟,景有泉,甘林川.蓄电池内阻测量及其应用[M].通信电源技术,2007,24(2):63-67.
[7] 包小林, 谢灵珠, 翟丽雪. 航空声纳浮标在反潜作战中的使用[J]. 中国高新技术企业, 2009(12):46-47.
[8] 朱小襄. ModBus通信协议及编程[J].电子工程师,2005,31(7):42-44.
[9] 樊利军, 朱恭生, 胡亦. 基于Psoc3核辐射探测分析仪的研制[J]. 制造业自动化, 2014(1): 150-152.
[10] 朱扬清. VB6.0应用程序HTML帮助系统的实现[J]. 微型电脑应用, 2002, 18(7):51-54.
[11] 胡为民, 张河宜, 高安亮. 铅酸蓄电池内阻在线监测系统设计[J]. 电源世界, 2013(12):43-47.
[12] 张彦琴.铅酸蓄电池技术的发展[J].汽车电器,2014(10):1-3.
[13] 张亮,王福生,刘俊.变电站蓄电池在线监测系统的设计与研究[J].科技创新与应用,2016(4):9-9.
[14] 李艳,李焱,倪敏娜.铅酸蓄电池内阻检测仪设计[M].仪表技术与传感器,2015(8):50-53.
[15] 刘之奇.基于蓄电池内阻在线监测系统对蓄电池性能诊断研究[J].贵州电力技术,2017,20(7):19-23.
[16] 方小斌.电池内阻监测方法的研究[J].日用电器,2013(10):23-25.
[2] 吴东艳,韩喜春,高旭东.PSoC在高精度温度测量中的应用[J].黑龙江工程学院学报,2013,27(2):45-49.
[3] 李运涛,曹建刚,董志强,等.蓄电池内阻检测方法研究与实现[J].火炮发射与控制学报,2012(4):59-62.
[4] 何宾.PSoC模拟与数字电路设计指南[M].北京:化学工业出版社,2012.
[5] 何宾.Cortex-M3可编程片上系统原理及应用[M].北京:化学工业出版社,2012.
[6] 马广伟,景有泉,甘林川.蓄电池内阻测量及其应用[M].通信电源技术,2007,24(2):63-67.
[7] 包小林, 谢灵珠, 翟丽雪. 航空声纳浮标在反潜作战中的使用[J]. 中国高新技术企业, 2009(12):46-47.
[8] 朱小襄. ModBus通信协议及编程[J].电子工程师,2005,31(7):42-44.
[9] 樊利军, 朱恭生, 胡亦. 基于Psoc3核辐射探测分析仪的研制[J]. 制造业自动化, 2014(1): 150-152.
[10] 朱扬清. VB6.0应用程序HTML帮助系统的实现[J]. 微型电脑应用, 2002, 18(7):51-54.
[11] 胡为民, 张河宜, 高安亮. 铅酸蓄电池内阻在线监测系统设计[J]. 电源世界, 2013(12):43-47.
[12] 张彦琴.铅酸蓄电池技术的发展[J].汽车电器,2014(10):1-3.
[13] 张亮,王福生,刘俊.变电站蓄电池在线监测系统的设计与研究[J].科技创新与应用,2016(4):9-9.
[14] 李艳,李焱,倪敏娜.铅酸蓄电池内阻检测仪设计[M].仪表技术与传感器,2015(8):50-53.
[15] 刘之奇.基于蓄电池内阻在线监测系统对蓄电池性能诊断研究[J].贵州电力技术,2017,20(7):19-23.
[16] 方小斌.电池内阻监测方法的研究[J].日用电器,2013(10):23-25.