NI PXI-1002 PXI chassis module

NI PXI-1002 PXI chassis module

Appearance and Structure
Dimensions: 3U in height, with a compact 18-slot design, it can effectively save space and is suitable for installation on a standard 19-inch rack, facilitating system integration and management.
Material: Made of sturdy metal, it features excellent stability and anti-interference capability, and can adapt to various industrial environments and laboratory conditions.
Layout: The front panel provides a power switch, system status indicator lights, etc., facilitating users to monitor and operate the operating status of the chassis. The rear panel contains various interfaces, such as power interfaces, fan interfaces, and interfaces for system expansion, etc.

Performance characteristics
Bus standard: Adhering to the PXI (PCI eXtensions for Instrumentation) standard, it combines high-speed PCI bus technology with the mechanical specifications of CompactPCI, providing a high-speed and reliable data transmission channel for instrument modules.
Power supply: Equipped with a high-performance power module, it can provide stable power supply for each module inside the chassis. It supports hot-swappable function, making it convenient to replace the power module during system operation without affecting the normal operation of the entire system.
Heat dissipation design: Equipped with an efficient heat dissipation system, it uses multiple fans for forced air cooling to ensure that the temperature inside the case remains within an appropriate range, guaranteeing the stable operation of each module. The fan speed can be automatically adjusted according to the temperature inside the case, which can not only meet the heat dissipation requirements but also reduce noise.
Timing and Synchronization: It offers high-precision timing and synchronization functions, with an inbuilt 10MHz system reference clock to ensure precise synchronization among various modules. Meanwhile, it also features multiple trigger lines and star-shaped trigger buses, facilitating users to flexibly configure triggers based on different testing requirements and enabling collaborative operation among multiple modules.

Application field
Automated testing system: It is widely used in the field of automated testing in industrial production and can integrate various testing modules, such as digital multimeters, oscilloscopes, function generators, etc., to conduct comprehensive performance tests and quality inspections on various products. For instance, on the production line of electronic products, it can be used to conduct functional tests and electrical performance tests on circuit boards, etc.
Data collection and monitoring: It is applicable to scenarios that require extensive data collection and real-time monitoring, such as environmental monitoring and power system monitoring. By inserting multiple data acquisition modules, analog signals, digital signals, etc. from multiple channels can be collected simultaneously, and the data can be transmitted to the computer for analysis and processing, achieving real-time status monitoring and fault early warning of the monitored object.
Scientific research and experiments: In the field of scientific research, such as experiments in physics, chemistry, biology, etc., it can be used as a platform for building experimental instrument systems. Researchers can select different modules based on experimental requirements to build experimental devices with specific functions, conduct data collection, analysis and experimental control, and provide strong support for scientific research.