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。
In the section of hardware design, selection of the CAN bus communication interface card, design of CAN nodes and the signal acquisition system are introduced.
在其硬件设计中,着重介绍了CAN总线通讯接口卡的选择、CAN节点设计与信号采集系统设计。
This type of bus interface can be accessed by memory mode and be applied to the exchange of data between two hosts, which can overcome the lack of communication interface in some types of CPU.
本接口采用存储器访问模式,克服了某些CPU外围通信接口少的缺点,易于实现双CPU间的总线对接,且无需考虑复杂的总线仲裁机制。
The ARINC429, MIL-STD-1553B and CAN avionics bus interface communication system based on Field Programmable Gate Array (FPGA) are designed, which links different bus instruments.
采用现场可编程门列阵设计arinc 429,MIL-STD - 1553B航空总线接口通信系统,实现总线设备之间的互联。
Charper Four introduces the popular communication interface: CAN Bus and USB. It includes the software and hardware's designing of the communication interface, and the preliminary debugging.
第四章对CAN总线和USB通信接口进行了探讨,设计了通信接口的软件和硬件,并进行了初步的软硬件调试。
Product Mechanical Dimensions, external electrical signal, communication bus protocol and the standard memory card line, and currently on the market with memory card interface device is compatible.
产品机械尺寸、外部电气信号、通讯总线协议与标准的存储卡保持一致,与目前市场上的带有存储卡接口的终端设备兼容。
We choose USB (Universal Serial Bus) as the communication interface of DSP and the computer which can fulfill up data transfer and the control to DSP.
系统选用USB(通用串行接口)作为和上位机通信的接口,实现处理数据的上传以及上位机对DSP的控制。
For the software design, it's composed of three modules: CAN bus equipment interface communication module, purify gateway protocol transform module and Ethernet application module.
软件设计分为三个模块:CAN总线设备接口通信模块、透明网关协议转换模块和以太网层应用模块。
The VHDL program embedded in the FPGA chip includes: interface combine ISA bus and FPGA, serial asynchronous communication module for transmitting and receiving.
该接口卡FPGA芯片内部VHDL程序含:ISA总线与FPGA接口、串行异步通信发送及接收模块。
USB is a kind of novel PC bus criterion. With the quality of fast speed, convenience and low interference, USB is the most available communication interface of modern intelligence instrument.
通用串行总线(usb)作为一种新型微机总线规范,具有便捷易用、传输速率快、低干扰等特点,非常适合作为现代智能仪器的通信接口。
This paper presents CH375 bus interface chips, the USB communication between PC and embedded medical equipment, and the relative procedure code.
介绍了USB总线接口芯片CH375,并在此基础上实现了PC与嵌入式医疗设备的USB通讯,给出了相关的程序代码。
For the purpose of data communication, the paper lodges the CAN interface circuit, and expatiates the programs of bus initialization, bus interrupt service routing, receiving and sending bus data.
在数据通信方面,提出了由总线控制器与报文收发器构成的CAN总线接口电路,并详细论述了与总线接口初始化、总线中断处理、总线数据收发相关的设计实现过程。
Secondly introduced the CAN bus communication interface design principles and methods.
其次介绍了CAN总线通信原理和CAN接口设计方法。
Based on the USB bus interface chip CH375, we design the locomotive signals data recording system, and detail the design of communication interface of CH375 and TMS320F2812.
基于USB总线接口芯片CH375,设计了机车信号记录仪数据记录系统,并详细阐述了CH375与TMS320F 2812之间的接口设计。
Controller has RS-485, MODBUS standard field bus-bar communication interface and facilitate connect to switch board system.
控制器具有RS- 485,MODBUS标准现场总线通讯接口,方便接入只能开关柜系统。
As a network bridge, communication controller is the interface device which realize the function of communication between supervise PC and field bus.
总线控制器作为管理计算机与现场总线的接口装置,起到了管理计算机与智能仪表数据双向传输的网桥作用。
From bottom to top, the system is plotted out bus driver layer, device function driver layer, communication layer and user-interface. Each layer provides service to the layer above by interface style.
由下往上将整个驱动软件系统分为总线驱动层、设备功能驱动层、通信层和用户界面等层次,每一层都以接口的形式为上层提供服务。
And then it puts forward study on the high speed switch valve, using GMM as valve's core, adopting DSP as controller and designing bus communication interface.
在此基础上提出了以超磁致伸缩材料为阀芯,以DSP为控制器,带有总线型接口的高速开关阀的研究课题。
CAN bus is introduced as the communication interface for different modules and it supports the multi joints 'real-time control effectively.
采用CAN总线作为模块间的通信接口,有效地支持了多关节实时控制。
To be more specific, the detailed data transfer agreement and the interface software plan for CAN bus communication are discussed on the basis of aluminum reduction requirements.
根据铝电解生产的特点详细讨论了传输的数据约定协议,给出了CAN总线通信接口软件设计方案。
This paper introduces a kind of industrial robot based on CAN and implements the interface between the communication bus and the system's modules. It also brings forward communication protocol.
介绍了一种基于CAN总线的分布式工业机器人控制器的研究开发情况,实现了总线与各模块的接口设计,并制定出相应的机器人控制器内部通信协议。
First, an interface convert card is designed, which can convert can field bus and RS-485 bus to Ethernet. This card will build up the hardware platform of the seamless communication system.
本文首先设计了用于CAN总线和RS- 485总线向以太网转换的接口转换卡,构建了无缝通信系统的硬件平台。
Singlechip was used in CAN bus and serial communication interface, whose valid transition speed is very low and can't satisfy rigorous demands.
当前CAN总线与串口通信接口转换均采用单片机,有效转换速率很低,不能满足条件苛刻的场合;
Due to lack of data and address parallel bus on TMS320F2808, the two DSPexchange data by means of communication through SPI interface.
由于采用的TMS320F 2808不具备数据总线与地址总线,两个DSP之间采用SPI串行通讯的方式实现数据交换。
The design of the bus interface and bus protocol of the communication architecture was detailed then.
论文随后具体地介绍了总线接口的软硬件设计方法及总线协议的设计。
The design of the bus interface and bus protocol of the communication architecture was detailed then.
论文随后具体地介绍了总线接口的软硬件设计方法及总线协议的设计。
应用推荐