GPIB interface for use in automatic test systems.
GPIB接口用于自动测试系统。
The Application of GPIB Interface on the EMC Automated Measurement System.
GPIB接口在电磁兼容自动测量系统中的应用。
This paper introduces the function and characters of GPIB interface system.
介绍了GPIB接口系统的功能及特点。
Programmable instruments with GPIB interface are used widely in computer automation test system.
基于GPIB总线的程控仪器是计算机自动测试系统中广泛使用的一种仪器。
Not only a GPIB interface but also a USB interface is mounted as standard, allowing easy system configuration.
不仅是一个GPIB接口,而且USB接口安装标准,使之易于系统配置。
The GPIB interface of IEEE-488 standard can connect all kinds of instruments to make up an automation testing system.
具有IEEE- 488标准的GPIB接口可以连接各个装置,组成一个测试系统。
The topic—the Design of GPIB Interface Chip and application In Logic analyzer has two main parts: The first part is the design of GPIB interface board based on CPLD;
本课题—GPIB接口芯片的设计及在逻辑分析仪中的应用研究主要有两个部分:第一部分是基于CPLD的GPIB接口板设计;
Until recently, PC I/O couldn't outperform the general-purpose interface bus (GPIB) we've been using for decades.
直到最近,PC的输入输出设备做得最好的还是通用接口总线(GPIB),而它已经用了几十年了。
Every device, including the computer interface board, must have a unique GPIB address between 0 and 30, so that the data source and destinations can be specified by this number.
每一个设备,包括电脑接口板,必须有一个唯一的GPIB地址(0到30之间),这样数据源和目的地址就可以用这个数字来识别了。
If the instruments have a GPIB or serial interface, you can control them with a computer equipped with a similar interface.
如果设备具有通用接口总线或串行接口,你可以通过一个带有相似界面的计算机来控制。
Chapter three introduces the GPIB controller interface function, especially the designing of state machine according to IEEE-488. Chapter four introduces the designing of data channel.
第三章详细阐述了GPIB控制器的十种接口功能及其状态机实现,完全遵循ieee- 488协议规范。第四章对数据通路进行了较为细致的说明。
This device can help intelligent instruments with GPIB or USB interface directly communicate with the Internet, and construct remote control and measurement system based on Internet.
该装置能使带GPIB接口或usb接口的智能仪器直接与因特网连接,参与构建基于因特网的远程测控系统。
GPIB bus interface is at present more and more widely used to information interchange between various intelligent instruments.
GPIB总线接口目前越来越广泛地应用于各种智能化仪器之间的信息交换。
In order to realize the task of automatic test, the intellective interface of rack-and-stuck instrument still adopts GPIB in large quantity.
为了在集成的平台下实现自动测试任务,台式仪器的智能化接口仍大量应用GPIB总线来完成。
It has a significance for independence of interface chips to achieve the GPIB controller by FPGA in the field of testing and controlling.
利用FPGA实现GPIB控制芯片对实现测控领域接口芯片的自主化具有一定的意义和价值。
Chapter three introduces the GPIB controller interface function, especially the designing of state machine according to IEEE-488.
第三章详细阐述了GPIB控制器的十种接口功能及其状态机实现,完全遵循ieee - 488协议规范。
This text presents a Virtual instrument's GPIB bus interface technology.
本文介绍了虚拟仪器的GPIB总线接口技术。
The principle of telemeter and telecontrol system of UAV and ATS is explained for the first point, and meanwhile the general purpose interface bus (GPIB) is discussed in detail.
文章首先对无人机测控系统及自动测试系统做了简要的说明,并重点介绍了GPIB标准总线接口模式。
This work is part of the design of 500M sampling Digital Storage Oscillograph and the assignment is to develop the GPIB(General Purpose Interface Bus)instrument driver.
由于示波器是自主研发的,要开发示波器仪器驱动器,首要的任务就是实现仪器和测控机的接口通信。 我们在总体设计上采用GPIB通信协议。
This work is part of the design of 500M sampling Digital Storage Oscillograph and the assignment is to develop the GPIB(General Purpose Interface Bus)instrument driver.
由于示波器是自主研发的,要开发示波器仪器驱动器,首要的任务就是实现仪器和测控机的接口通信。 我们在总体设计上采用GPIB通信协议。
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