About the parameters, specifications, size, weight, series, features and functions of NI PXIE-8840QC, the following is a detailed introduction:
Parameters and specifications:
Processor: The 2.7GHz dual-core or 2.6GHz quad-core processor provides users with powerful computing power.
System environment: normal temperature.
System capability: Stable.
Operating system: PLC system, support real-time operating system, to ensure real-time control and data acquisition capabilities.
System function: programmable, normal.
Size and weight:
Size: 6275mm (one saying) or 4545*45mm (another saying). Please note that there are different size descriptions here, may be due to different sources or different versions, the actual size please refer to the official data.
Weight: 2.5kg (one way) or 0.25kg (the other way). Again, there are different weight descriptions, may be due to different sources or different versions, the actual weight please refer to the official data.
Series:
The NI PXIE-8840QC is part of the PXIe (PCI Express Extended Interface) family of embedded controllers from National Instruments (NI).
Features:
Modular design: Support a variety of modules and I/O cards, users can flexibly configure and expand according to their own needs.
Scalability: Support multi-controller parallel processing, can be extended to distributed systems, improve the scale and performance of testing and control.
Storage and interface: With an integrated hard drive to provide stable storage space. It also has gigabit Ethernet ports, USB 3.0 and USB 2.0 ports for easy data transfer and device connectivity.
Software support: Compatible with NI’s hardware and software for easy integration and extension of existing systems. It provides easy-to-use software and graphical interface for users to quickly develop and debug applications.
Functions:
High Performance measurement and automation systems: NI PXIE-8840QC is suitable for a variety of high performance measurement and automation systems, such as aerospace, automotive, energy, manufacturing and other fields.
Processor-intensive applications: For modular instrumentation and data acquisition applications, solving problems in semiconductor, transportation, aerospace, electronic energy, industrial machinery, heavy equipment and other fields.