本文介绍了一种使用USB通用总线接口芯片CH371实现USB接口的硬件设计和软件实现方法。
This thesis introduces a hardware design and software implement method of USB port using CH371 which is a USB general interface chip.
分析了总线接口芯片选择原则和总线冲突解决方案,给出了系统实现的硬件接口电路和软件实现详细框图。
The selection principle of bus interface chip and solution of bus conflict are introduced, together with its concrete hardware circuits and software block chart are given.
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。
This paper presents CH375 bus interface chips, the USB communication between PC and embedded medical equipment, and the relative procedure code.
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.
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。
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.
SPC 3是一种用于PROFIBUS - DP开放式工业现场总线智能化接口芯片。
SPC3 is a intelligence interface chip which is used in the open field bus PROFIBUS-DP.
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.
因此研究开发基于PCI总线接口和通信协议的超大规模集成电路芯片是具有应用前景和市场价值的。
Therefore, it will have a bright future to develop VLSI chip based on a PCI bus and related a communication protocol.
研究usb总线技术在电脑外设接口中的应用以及实现USB总线接口的芯片控制器。
The application of USB technology for the device connected to PC and the USB controller.
PDIUSBD 12芯片能够实现微控制器的并行总线到总线的接口功能,使用芯片可以实现多种类型的外设。
PDIUSBD12 may be used for implementing the interface between the parallel bus of the micro-controller and USB. With PDIUSBD12, users can implement multiple classes of USB functions.
本文详细介绍如何通过FPGA和桥接芯片pci9656实现多dsp与CPCI总线的接口设计。
Thus, the interface design of multi-DSP and CPCI bus with FPGA and bridge chip PCI9656 is described in detail.
采集卡利用一种高集成度的USB转UART桥接器CP2101芯片实现了通用串行总线(USB)接口方式,可实现计算机外设的即插即用特性。
The board communicate with computer through the Universal Serial Bus(USB) by using CP2101, a highly-integrated USB-to-UART Bridfe Controller, which can realize Pcperpheral's plug & play.
选择的通信接口芯片允许多达128个同样的接口芯片接在同一总线上,为多机通信的实现提供了极大的方便。
It allows 128 interface ICs to connect with each other on one bus, which makes it easy to use the card in multi-computer system.
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。
The VHDL program embedded in the FPGA chip includes: interface combine ISA bus and FPGA, serial asynchronous communication module for transmitting and receiving.
文章介绍了一种采用PCI专用接口芯片pci9052作为PCI总线与DSP (TMS320 LF 2407)的接口桥接器,实现6轴运动控制卡的硬件设计方法。
In this article, to carry the 6-axis motion controller out, a method of using PCI special interface chip PCI9052 to be a interface bridge of PCI bus and DSP (TMS320LF2407), was introduced.
介绍了一种基于新型USB接口芯片CH372的CAN总线网络适配器系统的设计,提出了一种使用USB接口实现CAN总线网络与计算机连接的方案。
This paper introduces a design of a CAN bus adapter system based on a new type of USB chip CH372 for the communication of the CAN bus and the computer.
介绍DSP芯片如何桥接到PCI总线,并选择利用专用接口芯片的方法来实现。
Introduces how to connect the DSP to PCI Bus in brief and choose the means of using special PCI Bus interface chip to achieve it.
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。
CAN-BUS interface adopts protocol control chip SJA1000 plus receiving and sending chip 82c250. Ethernet interface adopts Ethernet controller RTL8019AS as physical transmission media.
然后分别以内嵌CAN控制器的DSP芯片TMS320 LF 2407和CAN 232智能CAN接口卡为例说明了它们与CAN总线通信的工程实现方法。
Then taking DSP chip TMS320LF2407 embedded in CAN controller and CAN232 intelligent CAN adapter card as examples, it illustrates the engineering method of their communicating with CAN bus.
利用CPLD芯片实现单片机与ISA总线接口之间的高速并行通信,给出系统的总体设计方法及程序框图。
The solution of high speed communication between MCU and ISA bus is designed based on Altera CPLD.
介绍了几种典型的PCI总线的接口芯片,包括它们的结构、功能、编程及其应用,并对其进行了比较。
Several typical PCI controllers are discussed, including their construction, functions, programming and applications. They are also compared in this paper.
使用PLX9054作为与PCI总线的接口芯片。
采集卡利用一种高度集成的USB转UART桥接器CP2101芯片实现了通用串行总线(USB)接口方式,可实现计算机外设的即插即用特性。
The board communicates with computer through the Universal Serial Bus(USB) by using CP2101, a highly-integrated USB-to-UART bridge chip, which can realize PC peripherals plug&play.
在PCI总线接口控制上选用了专用的接口芯片pci9054,分析了PCI9054的工作模式,数据传输模式等。
The PCI9054 is a special interface chip to complete the interface of PCI, and discussed such as working pattern, transfer mode.
对PCI总线协议进行了分析和研究,采用PCI9050接口芯片设计了PCI总线接口卡,编写了接口卡的驱动程序。
We study and analyze PCI bus protocol and apply PCI9050's interface chip to design the interface card of PCI bus and compile drive software of its interface card.
论文中讨论了PCI总线的基本结构,详细介绍了基于PCI总线控制卡的核心器件—PCI接口控制芯片pci9052。
The basic configuration of PCI bus is introduced, as well as PCI9052, the core component in the card, which performs the control of PCI interface.
论文中讨论了PCI总线的基本结构,详细介绍了基于PCI总线控制卡的核心器件—PCI接口控制芯片pci9052。
The basic configuration of PCI bus is introduced, as well as PCI9052, the core component in the card, which performs the control of PCI interface.
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