The design of CAN bus hardware interface circuit based on SJA1000, the selection of chips, the design of software and the realization of CAN communication are expatiated.
论述了基于SJA1000的CAN总线的硬件接口电路的设计、芯片的选择、软件设计及CAN通信的实现。
Thirdly, combining MCU clip AT89C51 with bus controller SJA1000, an intelligent control CAN node for the experimental platform is designed.
然后将MCU芯片at89c51和SJA1000总线控制器结合,为实验平台设计了实时可靠的智能控制CAN节点。
It expounds the software and hardware designing schemes and main points as well as explains the application of the CAN bus controller-SJA1000.
阐述该系统软、硬件的设计方案和设计重点;讲解CAN总线控制器SJA1000的应用。
This paper discusses the designing method of CAN bus juncture circuit based on SJA1000 and presents the CAN bus juncture circuit, the SJA1000 initialization programme and the flow charts.
介绍了基于SJA1000的CAN总线接口电路的软硬件设计方法,给出了CAN总线接口电路、SJA1000初始化程序、接收及发送数据程序的框图。
This paper presents a data acquisition and display system of HEV based on CAN BUS using microcontroller AT89C52 and stand-alone CAN controller SJA1000.
文章采用AT 89 C 52单片机与CAN控制器sJA 1000设计了基于CAN总线的电动汽车数据采集显示与控制系统。
Under the detailed analysis of SJA1000, the Transformer Test Unit use CAN bus to perform the communication with others.
通过对SJA1000的详细分析,实现了利用CAN总线来进行变压器终端的通讯。
CAN-BUS interface adopts protocol control chip SJA1000 plus receiving and sending chip 82c250. Ethernet interface adopts Ethernet controller RTL8019AS as physical transmission media.
CAN总线接口采用协议控制芯片SJA1000,配以收发器82c250。以太网接口采用以太网控制器rtl 8019as作为物理层传输媒介。
The scene CAN bus communication and its application to excitation system of synchronous generator was introduced, and the use of SBC AT89C52 and controller SJA1000 to realize junction communication.
介绍了现场CAN总线通讯以及在同步发电机励磁控制系统中的运用,并具体给出了利用AT 89 C52单片机和CAN控制器sJA 1000实现CAN接点通信的方法。
The basic function of the SJA1000 CAN bus is introduced.
介绍了专门针对CAN控制器s JA 1000的基本函数。
The connection between the host and the slave intellectual meters is the CAN field bus net communication block SJA1000, and the meters as slave are placed on the industry spot.
采用CAN总线网络通信模块SJA1000实现监控主站与底层智能仪表的连接,而仪表作为从站放置在现场。
The forth part is about CAN bus network application layer protocol, which was invented independently, with the support of the SJA1000 bus controller.
第四部分主要介绍在SJA1000总线控制器支持下的,独立自主开发的CAN总线应用层协议。
This paper realizes a communication system scheme for auto-winder based on CAN-bus controller SJA1000. The communication protocols of CAN-bus, and the principle and functions of SJA1000 are described.
本文实现了一种基于CAN 总线控制器SJA1000的自动络筒机通信系统方案,并对CAN总线通信协议及SJA1000的基本原理结构、功能特点进行了描述。
Lower machine realizes the collection, control output of power parameter and communication protocol conversion by using the 16-bit MCU named SPCE061A of Sunplus Company and CAN bus controller SJA1000.
下位机利用凌阳十六位单片机SPCE061A和CAN总线控制器SJA1000实现电力参数的采集、控制输出,及通信协议转换。
Lower machine realizes the collection, control output of power parameter and communication protocol conversion by using the 16-bit MCU named SPCE061A of Sunplus Company and CAN bus controller SJA1000.
下位机利用凌阳十六位单片机SPCE061A和CAN总线控制器SJA1000实现电力参数的采集、控制输出,及通信协议转换。
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