摘要
传统船舶电力维修信息系统存在数据采集额度有限、信号调理频率过低等弊端。为解决上述问题,设计嵌入式技术下的新型便携辅助式船舶电力维修信息系统。通过辅助式微处理器选择、维修测量电桥设计2个步骤,完成新型系统的硬件运行环境搭建。在此基础上,通过嵌入式电力内核移植、便携信息根文件生成、船舶电力维修驱动程序设计3个步骤,完成新型系统的软件运行环境搭建。模拟系统运行环境,设计对比实验结果表明,与传统系统相比,应用嵌入式技术下便携辅助式船舶电力维修信息系统后,数据采集额度、信号调理频率均得到一定程度的提升。
The traditional ship power maintenance information system has the disadvantages of limited data collection limit and too low signal conditioning frequency. To solve the above problems, a new portable assistance y ship power maintenance information system based on embedded technology is designed. The hardware operation environment of the new system is constructed by selecting auxiliary microprocessor and designing the measuring bridge. On this basis, through the embedded power kernel transplantation, portable assistance information files are generated, Marine electrical maintenance driver design three steps, complete software running environment of the new system. Simulation system running environment, the design is compared the experimental results show that compared with the traditional system, the application of embedded technology of portable assistance type of ship electric power maintenance information system, data acquisition lines,frequency of signal disposal is a certain degree of ascension.
出处
《舰船科学技术》
北大核心
2018年第10X期85-87,共3页
Ship Science and Technology
基金
河南省高等学校重点科研项目(18A460008)
关键词
嵌入式技术
便携辅助
电力维修
微处理器
embedded technology
portable assistance
Electrical maintenance
Microprocessor
