摘要
改革传统的单片机教育思想,首先以人才培养为核心,充分考虑到本科生不同专业发展需求,精心设置满足控制和信息等专业教学要求的实验课程,确定实践项目设计和开发方向;其次运用强大的单片机仿真软件Proteus,执行接近于实际物理硬件的仿真,并对照AVR单片机硬件实验开发平台进行验证,还可进一步了解AVR单片机和外部各接口芯片的资源配置情况,起到事半功倍的效果,同时节约成本和缩短开发周期;最后根据本学院各配套实验系统的落实情况,阐明了AVR单片机实验教学的合理运行方式,开发一批适合本学院本科生就业和读研要求的实验教学项目案例。
To reform the traditional MCU education ideas,an emphasis on talent training and development needs should be adequately considered in different majors for undergraduate students. The experiment courses should be designed carefully for students in majors of automation control and communications,and the designing and developing orientation for practical projects should be given out. Secondly by using powerful software Proteus,the actual physical hardware simulation for MCU was performed,and the program correctness could be validated through hardware experiment platform. Furthermore the resources allocation for AVR MCU and the external interface chips also could be examined.These can yield twice results with half the effort and have the advantage of low cost and short develop circle. Finally according to the related experiment system implementation in my college,the reasonable mode of operation has be proposed for AVR MCU teaching,the projects for experiment teaching have also be developed. These projects can meet the requirement that the undergraduates can work out and the master students can complete degree researches.
出处
《实验室研究与探索》
CAS
北大核心
2015年第9期216-218,276,共4页
Research and Exploration In Laboratory
基金
中央高校基本科研业务费专项资金资助(NS2012131)
南京航空航天大学教育教学改革项目(1302JG1502k)
关键词
硬件仿真
单片机
综合实验
hardware simulation
MCU
integrative experiments
