基于STM32的低功耗无线电池监测系统设计

王鹏程; 朱长青

王鹏程,朱长青.基于STM32的低功耗无线电池监测系统设计[J].电测与仪表,2020,57(6):114-119.
wangpengcheng,zhuchangqing.Design of Low Power Wireless Battery Monitoring System Based on STM32[J].Electrical Measurement & Instrumentation,2020,57(6):114-119.

基于STM32的低功耗无线电池监测系统设计

Design of Low Power Wireless Battery Monitoring System Based on STM32

DOI：10.19753/j.issn1001-1390.2020.06.018

中文关键词: 电池监测系统低功耗 RFID技术低频唤醒 PKE无钥匙系统标签防碰撞

英文关键词:Battery monitoring system, Low power consumption, RFID technology, Low frequency wake up, PKE keyless system, Label anti-collision

基金项目:

作者中文名	作者英文名	单位
王鹏程	wangpengcheng	陆军工程大学石家庄校区车辆与电气工程系电气与电力工程教研室
朱长青	zhuchangqing	陆军工程大学石家庄校区车辆与电气工程系电气与电力工程教研室

摘要点击次数: 1690

中文摘要:

为了适应电池监测系统无线化、智能化趋势,解决起动电池、小型设备的电池及其他使用较为零散的电池的实时监测问题,文中将集成了低功耗单片机、A/D采集模块、RFID通信模块及低频唤醒模块的监测电路板封装到电池上,借鉴汽车PKE无钥匙系统的理念,设计了一款基于STM32单片机的低功耗无线电池监测系统。该系统利用RFID技术免接触、远距离、批量读取电池状态信息,并借鉴汽车PKE无钥匙系统优势,依托STM32L151低功耗单片机,实现了零散分布的蓄电池管理的智能化、高效化。

英文摘要:

In order to adapt to the wireless and intelligent trend of battery monitoring system, and solve the real-time monitoring problem of starting batteries, small equipment batteries and other relatively scattered batteries, the paper will integrate low-power single-chip microcomputer, A/D acquisition module and RFID communication module. The monitoring circuit board of the low-frequency wake-up module is packaged on the battery. Based on the concept of the car PKE keyless system, a low-power wireless battery monitoring system based on STM32 single-chip microcomputer is designed. The system utilizes RFID technology to avoid contact, remote and batch read battery status information, and draws on the advantages of the car PKE keyless system, relying on the STM32L151 low-power single-chip microcomputer to realize the intelligent and efficient management of the scattered distribution battery.

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