系统集成总线 (SIBus)使用服务数据对象(Service Data Objects,SDO)的动态接口。
The system integration bus (SIBus) uses the dynamic interface for Service Data Objects (SDO).
这种接口采用点对点架构,外周设备协商解决总线冲突问题,以确定哪个设备控制数据传输最佳。
This interface uses a peer-to-peer architecture in which peripherals negotiate bus conflicts to determine which device can best control a data transfer.
通用串行总线作为一种崭新的微机总线接口规范,其特点使其非常适合高速数据采集系统。
As a new computer bus interface criterion, USB ap-plies to the high-speed data collecting system.
该系统从功能上可以分为数据采集模块、无线数据传输模块、通用串行总线接口传输模块。
The system can be divided into three modular by function, sensing data acquisition part, wireless data transmitting part, and universal serial interface part.
在此基础上,本文给出了以上述引擎为核心的模式匹配系统,介绍了系统框架、总线结构和数据接口等内容。
The essay proposed, in the following section, a pattern-matching system based on these PMEs, and introduced the system architecture, bus structure, data interface, and etc.
并通过设计和编写接口应用驱动程序,实现了基于PCI总线方式下数据传输的中断和查询两种方案。
By designing and compiling interface application driving program, the interrupt and query schemes of data transmission based on PCI bus are realized.
文中论述4位数据总线点阵式液晶显示器LCD与低功耗单片微处理器80c31的硬件、软件接口方法和应用实例。
The hardware and software interface between 4-bit data bus dot matrix LCD and 80c31 microprocessor is described in this paper.
本文以应用于工业测试系统的在线状态检测数据采集系统的设计为例,讨论了基于DSP数字信号处理器和USB通用串行总线接口数据采集系统的软硬件设计的主要步骤和过程。
Taking the design of the industry on-line state detection Data Acquisition System as example, the paper discusses the main processes on the software and hardware design based on DSP and USB.
另一个是PCI总线接口电路,本设计中采用PERICOM公司的PCI桥接芯片PI7C8150B实现图像数据的传输。
The other module is PCI bus interface circuit. PI7C8150B chip of PERICOM Corporation is used to finish transmission of the image data.
文中着重介绍了工业控制机isa总线及其与高速数据采集卡的接口技术。
The interface between ISA bus and high-speed data sampling card is the emphasis of this paper.
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。
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.
为此,本文设计了一款基于PCI总线且具备可扩展大容量存储设备接口的高速模拟信号采集卡,将高速数据采集和大容量实时存储结合在一起。
This high-speed data acquisition card designed is based on PCI bus and have high capacity memory interface. It combines high-speed date acquisition and high capacity real-time memory.
主要介绍SERCOS总线的通信模型、接口、协议、数据报结构和工作原理及其在数控系统中的应用。
The communication model, interface, protocol, message structure and work principle of SERCOSBus are presented and also its application to the numerical control systems is introduced.
其中USB总线接口芯片CH375是这一部分的核心,选择并控制USB总线的数据传输方式使之适合是本课题的关键部分。
The core of this part is the USB interface chip-CH375. Choosing and controlling the working style of the chip is the emphasis of the thesis.
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。
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.
其设计包括不同数据节点的CAN控制器,及单片机控制的CAN接口模块和基于DSPTMS320 LF 2407a的CAN总线接口等。
The design includes designs of different can controllers for different data nodes, the can module controlled by single chip computer and can bus interface based on DSP TMS320LF2407A, etc.
系统硬件采用了嵌入式PC、通讯接口卡和现场总线数据采集模块。
The hardware is constructed with embedded PC, communication card and field bus data acquisition module.
该系统采用CPLD实现了DSP与多通道adc的逻辑和时序控制,通过DSP的HPI与PCI总线接口设计实现了采集数据的高速传输。
The system utilizes CPLD to realize logical and timing control between DSP and multi-channel ADC. The interface between DSP's HPI and PCI bus is employed to achieve high-speed data transmission.
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.
提出一种基于TMS320C 6711的具有USB(通用串行总线)接口的高速数据传输的设计方案,对TMS320C 6711和USB处理器an2131 Q的软硬件设计作了详细介绍。
A design scheme of high-speed data transmission with the interface of USB based on TMS320C6711 is presented. And the hardware and software design of TMS320C6711 and AN2131Q are described in detail.
前端数据采集装置和后台上位机之间数据通信采用RS485总线,设计了RS485通信接口电路和通信协议。
The data communicating between the data sampling unit and the computer adopts RS485 fieldbus. At the same time, the communication protocols and RS485 communication interface are designed.
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 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.
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.
在常用的数据采集系统中,通常使用插在计算机总线扩展槽上的接口卡,但它无法在笔记本电脑上使用。
A interface card that usually inserted in bus expansion slot of computer is often used in the data collecting system, but this method cannot be used in a note computer.
通用串行总线USB已成为PC的标准接口,它可以实现高速的数据传递。
USB has been a PC standard interface which can transfer data in high speed.
可扩展的一致性接口协议是一种应用于计算机集群互联的总线协议,为新一代战机航空机载光纤数据总线重点的备选考虑之一。
SCI (Scalable Coherent Interface) standard is a kind of cluster interconnection bus standard. It has been select as an important candidate for the new generation avionics data bus.
文章介绍了如何通过PCI局部总线实现高速的数据传送,即介绍了对PC I接口板的开发介绍,其中包括它的硬件协议和软件协议的讨论。
It introduces how to design a PCB board of high speed data transmitting system based on PCI part bus, including the discussing of hardware agreement and software agreement.
数据采集卡采用PC I局部总线接口,通过双端口ram进行数据传输。
Through PCI interface and dual port SRAM, host accessed data from the card.
本文的主要工作是实现了系统基于PCI总线的高速数据传输接口,对实现系统的实时性具有重要的意义。
The main work of this paper lies in the realization of high-performance interface based on PCI bus, which is significant in achieving real-time performance.
本文的主要工作是实现了系统基于PCI总线的高速数据传输接口,对实现系统的实时性具有重要的意义。
The main work of this paper lies in the realization of high-performance interface based on PCI bus, which is significant in achieving real-time performance.
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