To the bottleneck problems of bus bandwidth and transmission speed in traditional data acquiring systems, this paper presents and implements a 200m data acquiring system based on PCI bus.
本文针对传统的数据采集系统中存在的总线带宽、传输速度等瓶颈问题,提出了并实现了一个基于PCI总线的200m数据采集系统。
As a new computer bus interface criterion, USB ap-plies to the high-speed data collecting system.
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。
In fact, in order to realize image data real-time collecting and rapid storage, uniting PCI bus and SCSI bus which make system hold high speed data throughput provides sufficiency observation data.
在实际的工作中,把PC I局部总线和SCSI系统总线结合起来,使整个系统拥有高速的数据吞吐量,以期实现图象数据的实时采集和快速存储,为实时处理和事后分析工作提供充分的观测数据。
The CLB bus is a kind of on-chip system bus which is usually used to connect IPs with high speed and high data width.
CLB总线是一种片上系统总线,一般用来连接高速度、高数据宽度的IP。
This ECS employs modular design, and achieves real-time communication of data with CAN bus, and thus is able to control the speed of engine and monitor the system.
该ECS采用模块化设计思想,利用CAN总线进行数据信息的实时通讯,以实现电子调速和系统监控等功能。
This paper gives a serial transmission method which bases on the I2C BUS and its division. Wehave effectively solved the data delay in high speed serial data transmission system.
本文提出了一种基于I2C总线及其分割技术的串行传输方法,可有效解决高速串行传输系统中的数据延迟问题。
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.
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。
The controller area network(CAN) is a high-speed serial bus system with real-time capabilities, widely used in several control systems.
CAN总线是一个具有实时性的高速串行总线系统,它被广泛应用于各种控制系统中。
This paper is based on developing the high-speed intelligent control cardabout CAN bus of MSCIS interface system and analog output card.
论文是在研制MSCIS接口系统的基于CAN总线的高速智能控制卡和模拟量输出接口卡的基础上完成的。
High speed data bus technology is one of the key technologies in avionics integration, which has direct influence on the performance of the avionics system of tactical aircraft.
高速数据总线技术是航空电子综合化最重要的支撑技术之一,直接决定整机航电系统综合化程度的高低。
It is proved by practical application that DSP control circuit based on PCI bus can not only increase the speed of data communication, but also the reliability of the system.
实践表明基于PCI总线的DSP控制电路不仅提高了数据通讯的速度,而且提高了系统控制板卡的可靠性。
Aim To study the design and realization of ultra high speed data acquisition and DSP system based on VME computer bus expended for instruments (VXI) bus.
目的研究VME计算机总线扩展的仪器标准总线(VXI)超高速数据采集与DSP系统的设计与实现。
Hardware circuit design of the high speed multi-channel signal acquisition processing system based on VME and the PCI two kind of computers bus is the main part of this thesis.
基于VME和PCI两种计算机总线的高速多通道信号采集处理系统的硬件电路设计是本论文的主要部分。
The all-digital ac frequency conversion control system based on the common DC bus can meet the requirements of high speed and high reliable control performance of the high-speed paper machine.
这种基于公共直流母线的全数字交流变频控制系统适用于高速纸机的高速度、高可靠性控制性能的需要。
This system with the control core of 80c552 single chip processor adopts bus isolation technique, realizing the time-sharing processing of high-speed data collecting and data processing.
该系统以80c552单片机为控制核心,采用总线隔离技术,实现高速数据采集与数据处理分时进行。
The paper states the design method of high speed data acquiring system based on PCI bus.
研究了基于PCI总线的高速数据采集系统的设计方法;
This thesis presents a system architecture of six channel high speed data acquisition on PCI bus and implement it.
提出并实现了一种基于PCI总线六通道高速采集系统的结构。
In the paper, a design example of the high speed data acquisition system based on PCI bus of computer with CPLD as a control kernel is introduced.
给出了一个以CPLD为控制核心的基于计算机PCI总线高速数据采集系统的设计实例。
The paper presents a two-channel high speed data acquisition system based on TS101 with PCI bus interface.
给出了基于TS101和PCI的双通道数据采集处理系统的设计方案。
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.
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 design on high speed data acquisition and storage measurement system based on USB bus;
本文介绍了一种基于超高速数据采集技术的高精度时间间隔测量系统的设计。
In this dissertation, the detail methods of implementing high-speed data bus system which is based on OFDM technique are researched.
本文主要对以OF DM技术为核心的高速数据通信总线的若干关键技术和具体实现进行了研究。
Advanced Design, Perfect Bus Structure, Optimizing Algorithms and Signal Process System with High speed and stability.
先进的设计理念,独特的总线结构,优化的算法和高速稳定的信号处理系统。
To process datum real time, the interface between computer and high-speed data acquisition system is a challenge. The PCI local Bus is superior in fast transmission and better compatibility.
为了将数据实时的读进计算机做处理,高速数据采集系统也对采集板和计算机之间的接口提出了新的要求。
This paper discusses the design and implementation methods of a high-speed data acquisition and storage system based on 64-bit PCI bus.
本文探讨了一种基于64位PCI总线的高速数据采集与存储系统的设计与实现方法。
The communication between host computer and subsystems USES USB (Universal Serial Bus) that insures real-time, high speed and convenient connection of the system devices.
各系统和主机之间采用USB总线连接的方式进行通讯,既可以保证通讯的实时性、高速性,又使得主机和设备之间的连接更加方便。
The advanced servo control system used by now was usually consisted by special motion control unit, special high speed communication bus, and special servo drive system.
目前生产中用到的较先进的伺服控制系统通常采用专用的运动控制模块,加上专用的高速通讯总线,再加上专用的伺服驱动系统组成。
The high-speed bus transfer device is mainly used in power plant auxiliary system, which has been improved to fit the industrial substations.
传统电源快速切换装置主要应用于火电厂厂用电系统。
The high-speed bus transfer device is mainly used in power plant auxiliary system, which has been improved to fit the industrial substations.
传统电源快速切换装置主要应用于火电厂厂用电系统。
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