数字输出可由前面板或总线控制器控制。
Digital outputs can be controlled from the front panel or from the bus controller.
可编程判优器用于管理总线控制器间的优先级。
A programmable arbiter manages the priorities between the bus masters.
把FPGA用作D MA控制器、采集控制器和总线控制器。
FPGA is regarded as DMA controller, acquisition controller and BUS controller.
采用自上而下的设计方法,实现了较困难的PCI总线控制器。
The top-down design methodology is used to realize the PCI bus controller.
同时介绍了基于HART协议的智能仪表和总线控制器的设计。
The designs of intelligent instrument and the communication controller are introduced.
实现了1553B终端RT与总线控制器BC之间高可靠的数据通信。
The data communication between 1553b RT and BC is realized effectively and credibly.
现有的PCI总线控制器的实现方法有:采用专用芯片和可编程逻辑芯片。
Now there are two methods to realize the PCI Controller circuit, which are the special chip and the programming logic chip.
论文的重点是在FPGA芯片上实现各个总线控制器以及相互之间的数据转换。
The paper focuses on realizing each field bus controller and the mutual data conversion on FPGA chips.
VME总线控制器是VME总线系统的关键设备,具有完整的VME总线数据传输能力。
VMEbus Controller, which has the complete data transfer capability, is the key device of the VMEbus system.
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。
It expounds the software and hardware designing schemes and main points as well as explains the application of the CAN bus controller-SJA1000.
该文介绍的PCI目标设备总线控制器的IP设计就是航空微电子中心建库工作的组成部分。
The PCI Bus Controller IP is part of the IP library of Aviation Microelectronic Center.
以1553B总线控制器为例,采用SOC设计方法,研究了航天器系统总线的设计和实现。
The SOC design and implementation of the spacecraft system bus was studied, for example of the 1553b bus controller.
介绍了CAN总线控制器在铣刨机系统中的应用,同时介绍了其行走控制系统的硬件、软件设计。
The application of CAN BUS controller in milling machine was described, the design of hardware and software in driving control system was introduced.
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。
The forth part is about CAN bus network application layer protocol, which was invented independently, with the support of the SJA1000 bus controller.
文章介绍了该平台的设计思想、硬件和软件组成及原理,给出了基于计算机的仿真总线控制器的设计方法。
The article introduces the platform design thinking, the hardware and software composition and operating principle. The design method of emulating bus controller based on computer is emphasized.
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。
As a network bridge, communication controller is the interface device which realize the function of communication between supervise PC and field bus.
本论文所设汁的PCI总线控制器以LCD显示器为后端设备,完成PCI主设备与LCD显示器之间的通信。
The designed PCI controller in this-subject, using a LCD display as backend device, performs the communication between PCI master and LCD display.
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。
Thirdly, combining MCU clip AT89C51 with bus controller SJA1000, an intelligent control CAN node for the experimental platform is designed.
因此本文提出一种基于FPGA的CAN总线控制器的实现方案,给出其结构框图,并对内部各模块进行较为详细的介绍。
Therefore, this paper presents an FPGA-based implementation scheme of CAN bus controller, gives the structure diagram, and detailedly describes the internal modules.
本文对TCN(列车通讯网络)与MVB进行了简要的介绍,在此基础上分析了MVBC(多功能车辆总线控制器)的功能及优点;
This paper introduces TCN(Train Communication Network) and MVB in brief, on the basis of which it analyses the function and benefit of MVBC;
以C8051F 023处理器和CAN总线控制器SJA1000为核心,设计了一种通用的基于CAN总线的数据采集通信系统。
A kind of current data acquisition system based on CAN is designed, its core design is C8051F023 microprocessor and CAN 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.
整个系统以管理计算机为核心,管理计算机通过总线控制器连接到总线,各智能仪表直接连接在现场总线上,作为现场总线的一个节点。
The whole system regards supervise PC as the center, which joins the Field Bus by communication Controller. Every of the intelligent instruments directly connected with Field Bus as a node.
在总线控制器的模块化设计方案中,这三个方面构成了总线控制器的核心模块枣存储管理单元,应用该方案可实现具有多消息自动处理功能的总线控制器。
These three aspects can be summed up into the design of the memory management unit, a core block of the bus controllers blocking design.
在仪表组网部分,采用RS485总线实现多台仪表之间的互联,采用RS232实现上位机与485总线控制器之间的连接,最终实现整个系统的组网。
In the part of net working building, RS485 bus is used to connect several instruments, and RS232 is used to connect the computer to 485 bus, then the whole system connection is realized.
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。
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.
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。
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.
论文介绍了多功能总线控制器编码器的设计,编码器有六个模块组成,分别为位控制单元、FIFO单元、帧分界符单元、数据转换单元、CRC校验单元和曼彻斯特编码单元。
The paper describes the design of encoder which is divided into seven modules: bit control unit, FIFO unit, frame delimiter unit, data conversion unit, CRC unit, Manchester encoding unit.
介绍了总线控制器pci9054的桥式作用、用可编程逻辑器件模拟LOCAL总线侧cpu的设计、EEPROM的配置以及总线的数据传输操作过程,然后在此基础上给出了数据采集系统的设计。
It includes that the bus controller PCI9054 action, the simulation of the CPU design with CPLD on the LOCAL bus side, configuration of EEPROM and the bus operation of the data transmission.
例如,规范说明为 02:01.0 的以太网控制器,告诉您这个插件是在 #02总线的 #01插槽中,其功能是 #0 。
For instance, the Ethernet controller with specification 02:01.0 tells you that the card is in bus #02, slot #01, with function #0.
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