Each unit has built-in GPIB connectivity.
每一个单元用一个GPIB连接。
Chapter two introduces central idea of the GPIB controller.
第二章介绍了GPIB控制器芯片实现的设计思想。
GPIB Function Description and the detailed introduction and use.
说明:GPIB函数说明及其详细介绍和使用方法。
The real time control of the tunable laser is realized with GPIB bus.
通过GPIB总线实现了对可调谐激光器的控制。
The following illustration shows a typical GPIB system (see Figure 2.4).
下图展示了一个典型的GPIB系统(图2.4)。
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。
You can have many instruments and computers connected to the same GPIB bus.
你可以将许多仪器和电脑连接到同一个GPIB总线上。
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。
This paper introduces the design of GPIB communication card based on PCI bus.
介绍了一种基于PCI总线的GPIB总线通讯卡的设计方法。
GPIB is applied widely in modern instrument, while it's control card is expensive.
GPIB接口作为现代仪器的标准接口,已广泛应用,但通常的控制卡较为昂贵。
In this paper, the hardware and firmware of the USB-GPIB controller are mainly studied.
本论文从硬件和固件两个方面详细介绍了基于USB技术的GPIB控制器的实现方案。
By use of the GPIB, it can make many test instruments connected with automatic test system.
运用GPIB通用标准接口总线,可以使多台测试仪器仪表同时接入计算机自动测试系统。
The GPIB has one Controller, usually your computer, that controls the bus management functions.
GPIB有一个控制器,通常是你的电脑,用来控制总线管理功能。
Data acquisition section is implemented by digital oscilloscope TDS2012 controlled by GPIB bus.
数据采集部分由GPIB总线控制数字示波器TDS2012实现。
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。
The third chapter illustrates the significance of realization of GPIB controller with FPGA chip.
在第三章,详细阐述了用FPGA芯片实现GPIB接口的意义。
The key point of the project is software and hardware design of GPIB controller and channel controller.
本课题的关键是GPIB控制器和通道控制卡的软硬件设计。
The function of the VI system based on GPIB in Test Bench of Receiver is fault diagnosis in analog circuit.
在接收机测试台中,采用GPIB接口的虚拟仪器系统,主要实现的功能是对模拟电路进行故障诊断。
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。
GPIB controller is widely used in automatic test field, for it's the core chip in making up the test system.
GPIB控制器芯片是组建自动测试系统的核心,在测试领域应用广泛。
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。
This paper presents an automatic test scheme for mixed PCB, which is based on standard test bus (VXI and GPIB).
提出了一种基于标准测试总线(VXI和GPIB)的混合电路板的自动测试方案。
Software design was based on VB6.0. The program technology on GPIB program technique was introduced especially.
设计了基于VB6.0的计量软件,重点介绍了GPIB通信技术的编程。
The paper introduced design and functions of interactive debug based on the VISA function for USB-GPIB controller.
介绍了USB—GPIB控制器VISA函数的交互式调试工具的设计思想及实现的功能。
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。
Realized the integration of the frame grabber card and GPIB instruments, completed the test system host controls software.
实现了图像采集卡与GPIB仪器集成,完成了测试系统的主控软件。
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。
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。
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。
The test platform consists of automatic test software, industrial PC (IPC), GPIB controller, test environment, and testing instruments.
该平台由自动测试软件,工控机,GPIB控制卡,测试环境和测试仪表组成。
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