The National Instruments PXI-2501 is a FET based PXI Multiplexer Switch Module that can be configured as 1-, 2-, or 4-wire with 48 channels, supporting a maximum scan rate of 15,000
The National Instruments PXI-2501 is a highly versatile PXI Multiplexer Switch Module that supports 1-, 2-, or 4-wire configurations across 48 channels, utilizing FET-based technology for efficient performance. With part numbers 777696-01 and 185101G-01L, this module boasts an impressive maximum scan rate of 15,000 channels per second, making it suitable for high-speed applications.
Designed for seamless integration into PXI systems, it features a 68-pin male SCSI connector for robust connectivity. The module’s physical dimensions are compact, measuring 21.6 cm x 2.0 cm x 13.0 cm, and it weighs only 6.1 oz, ensuring that it does not demand excessive space in a system rack.
For synchronization and timing, the PXI-2501 is equipped with PXI trigger lines that operate at 70 ns, and front panel trigger lines with a 500 ns response time. It also features an output trigger pulse width of 1 µs, which is essential for various testing and measurement scenarios.
By default, the module is set to a two-wire configuration mode, but it can also be configured for one-wire, three-wire, or four-wire applications, as well as a 2-wire 6×4 crosspoint matrix, providing flexibility for diverse testing requirements. For those opting for matrix mode, the TB-2606 terminal block is recommended for quick and efficient setup.
Question 1: What performance characteristics and physical features make the National Instruments PXI-2501 a suitable choice for high-speed applications in PXI systems? Answer 1: The National Instruments PXI-2501 is suitable for high-speed applications in PXI systems due to its FET-based technology enabling a maximum scan rate of 15,000 channels per second, compact physical dimensions of 21.6 cm x 2.0 cm x 13.0 cm, and light weight of 6.1 oz, along with robust connectivity through a 68-pin male SCSI connector and efficient synchronization with PXI and front panel trigger lines operating at 70 ns and
Question 2: What is the maximum scan rate of the National Instruments PXI-2501 PXI Multiplexer Switch Module and in which applications is this performance most suitable? Answer 2: The National Instruments PXI-2501 PXI Multiplexer Switch Module is a versatile unit that supports 1-, 2-, or 4-wire configurations across 48 channels, utilizes FET-based technology, and has a high scan rate of 15,000 channels per second, ideal for high-speed applications; it features a 68-pin male SCSI connector for robust connectivity, has compact dimensions of 21.6 cm x 2.0 cm x 13.0 cm, weighs
Question 3: What are the capabilities and specifications of the National Instruments PXI-2501 PXI Multiplexer Switch Module, including its wiring configurations, scan rate, and features for connectivity and synchronization? Answer 3: The maximum scan rate of the National Instruments PXI-2501 PXI Multiplexer Switch Module is 15,000 channels per second, which is most suitable for high-speed applications that require rapid switching and data acquisition.
Question 4: What is the maximum scan rate of the National Instruments PXI-2501 PXI Multiplexer Switch Module, and how does its FET-based technology contribute to its performance in high-speed applications? Answer 4: The National Instruments PXI-2501 PXI Multiplexer Switch Module is capable of 1-, 2-, or 4-wire configurations across 48 channels and offers a high maximum scan rate of 15,000 channels per second, utilizing FET-based technology. It features a 68-pin male SCSI connector for robust connectivity, PXI and front panel trigger lines for synchronization with 70 ns and 500 ns response times respectively, and an output trigger pulse width of 1 µs
Question 5: What are the main features and capabilities of the National Instruments PXI-2501 PXI Multiplexer Switch Module, including its configuration options, connectivity, and performance specifications? Answer 5: The maximum scan rate of the National Instruments PXI-2501 PXI Multiplexer Switch Module is 15,000 channels per second, and its FET-based technology contributes to its performance in high-speed applications by enabling efficient switching with minimal charge injection and on-resistance, which is critical for achieving high-speed scanning and accurate measurements.
