Technical Specifications

1. Processor:
   • Type: Intel Core i7-6820EQ
   • Cores/Threads: 4 cores, 8 threads
   • Base Frequency: 2.8 GHz
   • Max Turbo Frequency: 3.7 GHz
   • Cache: 8 MB Intel Smart Cache
2. Memory:
   • RAM: 16 GB DDR4 (upgradable)
   • Type: DDR4 2133 MHz
3. Storage:
   • Internal Storage: 256 GB SSD (Solid State Drive)
   • Additional Storage: SATA interface available for additional storage options
4. I/O Interfaces:
   • USB Ports: 4x USB 3.0, 2x USB 2.0
   • Ethernet Ports: 2x Gigabit Ethernet (RJ-45)
   • Serial Ports: 1x RS-232
   • Digital I/O: Available through PXI Express backplane
5. PXI Express Interface:
   • Slots: 1x PXI Express system slot
   • Bus: PXI Express (PXIe)
6. Graphics:
   • Type: Integrated Intel HD Graphics 530
   • Resolution: Supports up to 4096×2304 at 60 Hz
7. Operating System:
   • Pre-installed OS: Windows 10 IoT Enterprise (or other Windows versions depending on configuration)
8. Power Supply:
   • Power Requirements: Supplied through the PXI Express chassis
9. Physical Dimensions:
   • Form Factor: 3U PXI Express
   • Dimensions: 128.4 mm x 40.6 mm x 160.0 mm (W x H x D)
10. Temperature Range:
    • Operating Temperature: 0°C to 55°C
    • Storage Temperature: -20°C to 70°C

Key Features

1. High Performance: The Intel Core i7-6820EQ processor provides strong processing capabilities, suitable for intensive applications and high-speed data processing.
2. Enhanced Memory and Storage: With 16 GB of DDR4 RAM and a 256 GB SSD, the PXIe-8862 offers ample memory and storage for complex tasks and large datasets.
3. Flexible I/O Options: Includes multiple USB ports, Ethernet connections, and a serial port for versatile connectivity with external devices and networks.
4. Compact and Robust Design: Its 3U PXI Express form factor ensures it integrates seamlessly into PXI Express chassis while providing durability and reliability in various environments.
5. Advanced Graphics: Integrated Intel HD Graphics 530 supports high-resolution displays, making it suitable for detailed visualizations and user interfaces.

Applications

1. Automated Test Systems: Ideal for high-performance automated testing setups that require robust processing and fast data handling.
2. Data Acquisition and Analysis: Useful in scenarios where high-speed data acquisition and real-time analysis are needed.
3. Simulation and Control Systems: Effective for applications requiring real-time simulation and control due to its high processing power.
4. Industrial Automation: Suitable for use in industrial environments where ruggedness and reliability are critical for monitoring and control applications.
5. Research and Development: Provides a powerful platform for R&D projects, particularly those involving complex data processing and system control.