Description
The National Instruments SWB-2834 Matrix Module for SwitchBlock, manufactured by National Instruments, is a sophisticated component designed for versatile switching solutions, featuring part numbers 781420-34 and 781421-34. This module is equipped with latching electromechanical relays that provide an impressive expected life of 1×108 cycles at no load, ensuring long-term reliability and performance.
It offers 2 slots for integration into SwitchBlock systems and boasts a standard size configuration of 8×34. However, users can benefit from its scalability as it is expandable up to 8×102 in a single carrier and further up to 8×408 in a PXI chassis, providing extensive customization options for various testing and measurement applications.
The module supports a 10 MHz bandwidth, enabling it to handle high-frequency signals with ease. It is also capable of a maximum switching current of 2 A, which can be applied across 8 channels simultaneously, and a carry current of 2 A. The maximum switching voltage that can be handled by the SWB-2834 is 100 V between row and column, and each channel and cross point can manage a switching power of 60 W.
Overall, the National Instruments SWB-2834 Matrix Module is an ideal choice for engineers looking for a robust, expandable, and high-performance switching solution for their SwitchBlock systems.
| Specification | Detail |
|---|---|
| Product Name | National Instruments SWB-2834 Matrix Module for SwitchBlock |
| Manufacturer | National Instruments |
| Part Numbers | 781420-34, 781421-34 |
| Relay Type | Latching Electromechanical Relays |
| Expected Relay Life | 1×108 cycles at no load |
| Slots for SwitchBlock Systems | 2 slots |
| Size Configuration | 8×34 (expandable up to 8×102 in a single carrier, 8×408 in a PXI chassis) |
| Bandwidth | 10 MHz |
| Switching Current (Maximum) | 2 A (applicable to 8 channels simultaneously) |
| Carry Current (Maximum) | 2 A |
| Switching Voltage (Maximum) | 100 V (between row and column) |
| Switching Power (per channel and cross point) | 60 W |
Q1: What are the key features and specifications of the National Instruments SWB-2834 Matrix Module for SwitchBlock, including its expected life cycle, expandability options, and maximum switching capabilities?
A1: The latching electromechanical relays in the National Instruments SWB-2834 Matrix Module have an expected life cycle of 1×10^8 cycles at no load, and its scalability, which allows expansion up to 8×102 in a single carrier and further up to 8×408 in a PXI chassis, provides extensive customization options that can accommodate a wide range of testing and measurement applications.
Q2: What are the main features and capacities of the National Instruments SWB-2834 Matrix Module for SwitchBlock, including its scalability, expected relay life, and electrical specifications?
A2: The National Instruments SWB-2834 Matrix Module for SwitchBlock is equipped with latching electromechanical relays boasting an expected life of 1×10^8 cycles at no load, offers 2 slots expandable to 8×102 in a single carrier and further to 8×408 in a PXI chassis, supports a 10 MHz bandwidth, handles a maximum switching current of 2 A across 8 channels, a carry current of 2 A, and a maximum switching
Q3: What is the maximum switching voltage between row and column for the National Instruments SWB-2834 Matrix Module, and how does it contribute to its suitability for high-frequency signal applications?
A3: The National Instruments SWB-2834 Matrix Module for SwitchBlock features latching electromechanical relays with an expected life cycle of 1×10^8 cycles at no load, offers 2 slots expandable up to 8×102 in a single carrier and further up to 8×408 in a PXI chassis, supports a 10 MHz bandwidth, can handle a maximum switching current of 2 A across 8 channels, a carry current of 2 A, and a
Q4: What is the expected life cycle of the latching electromechanical relays in the National Instruments SWB-2834 Matrix Module, and how does its scalability affect potential applications?
A4: The maximum switching voltage between row and column for the National Instruments SWB-2834 Matrix Module is 100 V, which, along with its 10 MHz bandwidth, contributes to its suitability for high-frequency signal applications by allowing it to handle a wide range of signal levels without compromising signal integrity.
Q5: What is the expected lifecycle of the latching electromechanical relays in the National Instruments SWB-2834 Matrix Module, and how does its scalability enhance versatility for testing and measurement applications?
A5: The expected lifecycle of the latching electromechanical relays in the National Instruments SWB-2834 Matrix Module is 1×10^8 cycles at no load, and its scalability enhances versatility for testing and measurement applications by allowing expansion from a standard 8×34 configuration up to 8×102 in a single carrier and further up to 8×408 in a PXI chassis, offering extensive customization options to meet various system requirements.
