Description
NI GPIB-140A 186135G-01 is a high-performance data acquisition module produced by National Instruments. It is designed to communicate with various instruments and devices using the GPIB (General Purpose Interface Bus) interface, enabling data acquisition and control tasks in a wide range of applications. Here’s a breakdown of its parameters, specifications, dimensions, weight, series, features, and functions in English:
Parameters and Specifications:
Interface: The module uses the GPIB interface for communication with instruments and devices.
Data Transmission Rate: It supports high-speed data transmission, exceeding 1.1 Mbytes/s (IEEE 488.1) or 2.8 Mbyte/s (HS488), suitable for real-time data acquisition and control applications.
Device Connectivity: The module allows connection of up to 26 GPIB devices, significantly expanding the system’s capacity.
Dimensions and Weight:
Exact dimensions are not provided in the available information, but it is typically designed to fit standard rack mount systems.
Weight: The approximate weight is not specifically mentioned, but it should be within a reasonable range for a module of its type.
Series:
NI GPIB-140A 186135G-01 belongs to the series of data acquisition modules designed and manufactured by National Instruments.
Features:
High-Speed Data Transmission: The module’s high-speed serial fiber optic transmission capability ensures efficient and reliable data exchange.
Multiple Applications: It is suitable for a wide range of applications, including laboratory measurements, testing and control systems, and industrial automation applications.
Error Checking: Each module includes an error checking scheme to ensure a seamless and error-free link.
Software Support: National Instruments provides software drivers and development tools for the module, facilitating programming and customization of applications.
Functions/Applications:
Data Acquisition: Used to collect data from various instruments and sensors, such as voltage, current, and frequency measurements.
Automation and Control: It can be integrated into automation systems to monitor and control industrial processes, equipment, and systems.
Laboratory Research: Ideal for use in laboratory settings for experiments, measurements, and data analysis.
Communication Testing: Can be used in communication systems for testing and analyzing signal integrity and performance.
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