Design And Implementation Of Online Monitoring System For Lead-acid Battery Based On Micro-service Architecture

Lead-acid batteries are widely used as DC power sources.In order to ensure sufficient power supply,the number of lead-acid batteries has been increasing.The monitoring of large-scale battery operating parameters places higher requirements on the background data analysis end of the monitoring system.The original battery monitoring management system has problems such as a single architecture,single function,difficult expansion,and low storage query efficiency,which are increasingly unable to meet today's requirements for operational data monitoring.Therefore,the back-end data terminal needs a more advanced technology architecture to solve this problem.The combination of the microservice architecture and the battery monitoring system provides a stronger guarantee for background data storage and analysis performance.Microservice technology is widely used in enterprises because of its scalability,availability,and other advantages.Most enterprises restructure their original systems to meet the needs of the business.The introduction of microservice technology into the battery monitoring system can solve the problems generated by the original system.In this paper,the battery monitoring system is divided into different microservices to store and analyze different working parameters.In this way,each of the divided microservice subsystems processes a kind of working data.According to the system business functions and microservice division rules,the system is divided into:personnel management services,front-end display services,battery information management services,voltage and current monitoring services,capacity monitoring services,and temperature monitoring services.The working voltage,current,temperature and other data are transferred to the corresponding monitoring service for separate data analysis,which effectively improves the system's data processing capacity.This article uses the Spring Cloud framework to build the background microservices architecture of the monitoring system.Each single service is completed using the Spring Boot integrated Mybatis framework.The adoption of these technologies ensures the simplicity of system development and the stability and availability of system operation.