1) communication experiment based on CAN
CAN总线通讯实验
4) CAN-Bus communication in electrical differential
电子差速CAN总线通讯
5) CAN bus communication
CAN总线通信
1.
In order to overcome the inherent defects of MCU and satisfy the demands of astronautic control,the paper puts forward how to realize CAN bus communication by utilizing FPGA to control the CAN controller SJA1000 which works in the inquiry mode.
为了克服单片机固有的缺陷,满足航天控制的需求,文章提出了如何利用FPGA采用查询的方式控制CAN控制器SJA1000,从而实现CAN总线数据通信的方法;介绍了该系统的硬件构成、芯片选择和组成原理,对FPGA的控制程序进行了分析和设计;实验结果表明,系统完全满足CAN总线通信要求,与以往基于单片机的CAN总线通信系统相比较,降低了体积、重量和功耗,具有优越性;该设计已成功应用于星载电场仪的地面检测设备中。
6) CAN-Bus Communication
CAN总线通信
1.
CAN-Bus Communication With C167CR Microcontroller;
用C167CR实现CAN总线通信
2.
This paper presents the principle and construction of CAN controller based on Infineon C167 series 16 bit microcontroller and constructs the CAN-bus communication programming with Keil C166 and C167CS Starter Kits.
采用InfineonC167CS LM单片机实现CAN总线通信。
补充资料:保险商实验室安全标准(见保险商实验室)
保险商实验室安全标准(见保险商实验室)
safety standards of UL: see Underwriters Laboratories; UL
Baoxianshang Sh啊nshi anquan bicozhun保险商实验室安全标准(saJ七ty stand助dsofUL)见保险商实脸室。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条