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XCZU2CG-2SBVA484E

XCZU2CG-2SBVA484E Description

The XCZU2CG-2SBVA484E is a high-performance System on Chip (SoC) from AMD's Zynq® UltraScale+™ MPSoC CG series, combining a dual-core ARM® Cortex®-A53 processor (operating at 1.3GHz) with UltraScale+™ FPGA fabric (103K+ logic cells). Designed for embedded applications requiring real-time processing and flexibility, it integrates 256KB RAM, 82 I/O pins, and advanced peripherals like CANbus, Ethernet, USB OTG, and multiple serial interfaces. Its 0°C to 100°C (TJ) operating range and ROHS3/REACH compliance make it suitable for industrial environments. Packaged in a 484-ball FCBGA, it balances power efficiency with high compute density.

XCZU2CG-2SBVA484E Features

• Heterogeneous Architecture: Combines MCU (Cortex-A53) and FPGA for parallel processing and hardware acceleration.
• High-Speed Connectivity: Supports Ethernet, USB OTG, SPI, I2C, UART, and CANbus for versatile interfacing.
• Robust Performance: Dual-core CPU at 1.3GHz (burst) and FPGA logic for low-latency tasks.
• Industrial Durability: Extended temperature range and MSL4 (72-hour moisture resistance).
• Low Power, High Integration: 533MHz base clock for power-sensitive applications, with DMA and WDT for reliability.
• Compact Footprint: 82 I/Os in a space-efficient 484-FCBGA package.

XCZU2CG-2SBVA484E Applications

• Industrial Automation: Real-time control systems with Ethernet/CANbus communication.
• Embedded Vision: FPGA-accelerated image processing for robotics or surveillance.
• Aerospace/Defense: Ruggedized processing for avionics (ECCN 5A002A4 compliant).
• IoT Edge Devices: Low-power hubs with USB OTG and wireless module interfacing.
• Automotive: ADAS (Advanced Driver Assistance Systems) leveraging hardware-programmable logic.

Conclusion of XCZU2CG-2SBVA484E

The XCZU2CG-2SBVA484E stands out for its dual-core CPU + FPGA synergy, making it ideal for applications demanding real-time processing, hardware customization, and industrial reliability. Its rich connectivity, wide temperature tolerance, and compact form factor offer a competitive edge over simpler MCUs or standalone FPGAs. Perfect for high-performance embedded systems where flexibility and speed are critical.