The PCIe-GPIB features a PCI Express Bus Connector and a Maximum IEEE 488 Bus Transfer Rate (interlocked handshake) of 1.5 MBsec.The PCIe GPIB device is manufactured by National Instruments with the part number 779779-01.To deliver maximum performance, this device is equipped with NI TNT ASIC.
Your browser may include features that can help translate the text. This solution might also apply to other similar products or applications. The PCI-GPIB will have a part number of 183617X- 01, where as the PCI-GPIB will have a part number of 183617X- 02. There should also be a sticker on the front side (near the GPIB connector) indicating the device type. The same circuit board was used for both PCI-GPIB and PCI-GPIB devices, which is the reason why PCI-GPIB is on the printed circuit board. However, there are many parts that are not actually soldered onto the PCI-GPIB version, so it cannot be used in the same applications as the PCI-GPIB. Unfortunately, engineers sometimes forget to reconnect all the cables and power up all the instruments. You can request repair, schedule calibration, or get technical support. To avoid this when handling your board, touch the antistatic plastic package to a metal part of your computer chassis before removing the board from the package. National Instruments Pcie Gpib Install The GPIBKeep the computer plugged in so that it remains grounded while you install the GPIB hardware. You can plug your PCI board into either a 3.3 V or 5 V, 32- or 64-bit PCI slot. You can plug your PCI Express board into a x1, x4, x8, or x16 PCI Express slot. It might be a tight fit, but do not force the board into place. MAX makes GPIB instrument detection and control easy by providing tools to help you search for connecting instruments, and send and receive communication with your device. Also refer to KnowledgeBase 1UO68A5P: Scan for Instruments Fails in Measurement Automation Explorer. By double-clicking on the identified instrument (in the lower main window of Figure 4), you can access the instrument VISA Properties to change the VISA Resource Name of the device and communicate with it by clicking on Communicate with Instrument (SCPI commands), or Open VISA Test Panel (non-SCPI commands). It is important to choose an alias that you can immediately identify with the intended instrument. This is especially important for large systems featuring many instruments. National Instruments Pcie Gpib How To Automate MeasurementsWith the VISAIC utility, you can speed up application development by learning how to automate measurements with your instruments, uncover GPIB problems, and avoid headaches by identifying malfunctioning instruments. For Windows platforms, the VISAIC utility comes with online help that describes the applicable NI-488 functions and NI-488.2 routines, syntax, error codes, and status variables that offer the debugging information you need to solve problems. The following sections assume a basic knowledge of the VISAIC utility and GPIB. If you have two or more instruments on the bus, you can disconnect all instruments except one to determine its address. By isolating each instrument on the bus and repeatedly refreshing (ViewRefresh), you can quickly determine the address of each instrument. You also can use the Resource to Find field to query each instrument for an identification (ID) string. Because most instruments are compliant with 488.2, you can query the instrument for its identification by sending it the IDN command. Instruments typically respond with the manufacturers name, model name, and various alphanumeric characters that the manufacturer uses to track firmware revisions. To communicate with your instrument at Address 4, follow these instructions. With this test panel, you can set properties for your instrument communication as well as read and write to the instrument. You can repeat this process to confirm communication with all of your connected instruments.
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