PXI-2530

The National Instruments PXI-2530 is a 128-channel PXI Matrix Switch Module with configurations for multiplexing and matrix switching, a switching speed of up to 900 ch/s, a maximum switching voltage of 60 VDC or

Product Description

The National Instruments PXI-2530 PXI Matrix Switch Module, with part numbers 778660-01 and 189291A-01, is a versatile device that provides a 128-channel configuration, allowing for rapid switching speeds of up to 900 channels per second. This module supports various multiplexer configurations, such as 32 x 1 (4-wire), 64 x 1 (2-wire), and 128 x 1 (1-wire), as well as matrix configurations including 4 x 16 (2-wire), 8 x 16 (1-wire), and 4 x 32 (1-wire). It is designed to handle a maximum switching voltage of 60 VDC or 30 VACrms, CAT I between channels and from channels to ground.

Each terminal can endure a maximum input current of 0.4 A, and the module is capable of a maximum switching power of 10 W. The robust reed relays within the NI PXI-2530 are rated for a mechanical life of up to 1 × 109 cycles and feature quick relay operate/release times of 555 μS. Moreover, this module ensures excellent channel-to-channel isolation, achieving more than 60 dB across a 200 kHz frequency band.

Specification Detail
Product Name National Instruments PXI-2530 PXI Matrix Switch Module
Part Numbers 778660-01, 189291A-01
Channel Configuration 128-Channel
Switching Speed Up to 900 ch/s
Multiplexer Configurations 32 x 1 (4-wire), 64 x 1 (2-wire), 128 x 1 (1-wire)
Matrix Configurations 4 x 16 (2-wire), 8 x 16 (1-wire), 4 x 32 (1-wire)
Max Switching Voltage (Channel-to-Channel) 60 VDC, 30 VACrms, CAT I
Max Switching Voltage (Channel-to-Ground) 60 VDC, 30 VACrms, CAT I
Max Input Current per Terminal 0.4 A
Max Switching Power 10 W
Relay Life 1 × 109 cycles
Relay Operate/Release Time 555 μS
Channel-to-Channel Isolation >60 dB over

Q1: What are the various multiplexer and matrix configurations supported by the National Instruments PXI-2530 PXI Matrix Switch Module, and what is its maximum switching voltage and current?
A1: The National Instruments PXI-2530 PXI Matrix Switch Module supports multiplexer configurations of 32 x 1 (4-wire), 64 x 1 (2-wire), and 128 x 1 (1-wire), as well as matrix configurations including 4 x 16 (2-wire), 8 x 16 (1-wire), and 4 x 32 (1-wire).

Q2: What are the maximum voltage parameters and mechanical life expectancy of the reed relays in the National Instruments PXI-2530 PXI Matrix Switch Module?
A2: The National Instruments PXI-2530 PXI Matrix Switch Module supports multiplexer configurations of 32 x 1 (4-wire), 64 x 1 (2-wire), and 128 x 1 (1-wire), as well as matrix configurations of 4 x 16 (2-wire), 8 x 16 (1-wire), and 4 x 32 (1-wire), with a maximum switching voltage of 60 VDC or 30 V

Q3: What are the specifications and capabilities of the National Instruments PXI-2530 PXI Matrix Switch Module in terms of channel configuration, switching speed, voltage handling, current limit, switching power, mechanical life of the relays, and channel-to-channel isolation?
A3: The National Instruments PXI-2530 PXI Matrix Switch Module supports multiplexer configurations of 32 x 1 (4-wire), 64 x 1 (2-wire), and 128 x 1 (1-wire), as well as matrix configurations of 4 x 16 (2-wire), 8 x 16 (1-wire), and 4 x 32 (1-wire), with a maximum switching voltage of 60 VDC or 30 V

Q4: What are the various multiplexer and matrix configurations supported by the National Instruments PXI-2530 PXI Matrix Switch Module, and what is its maximum switching voltage and current specifications?
A4: The reed relays in the National Instruments PXI-2530 PXI Matrix Switch Module can handle a maximum switching voltage of 60 VDC or 30 VACrms, CAT I, and have a mechanical life expectancy of up to 1 × 10^9 cycles.

Q5: What are the multiplexer and matrix configurations supported by the National Instruments PXI-2530 PXI Matrix Switch Module?
A5: The National Instruments PXI-2530 PXI Matrix Switch Module offers a 128-channel configuration with switching speeds up to 900 channels per second and supports multiplexer configurations of 32 x 1 (4-wire), 64 x 1 (2-wire), and 128 x 1 (1-wire), as well as matrix configurations of 4 x 16 (2-wire), 8 x 16 (1-wire), and 4 x 32 (1