AMD Tariff Inquiry

XC7Z045-1FBG676I

XC7Z045-1FBG676I Description

The XC7Z045-1FBG676I from AMD is a high-performance System on Chip (SoC) integrating a dual-core ARM Cortex-A9 MPCore processor running at 667MHz with a 28nm Artix-7 FPGA fabric. This device combines the flexibility of programmable logic with the processing power of an embedded CPU, making it ideal for complex, real-time applications. Packaged in a 676-pin FCBGA, it features 256KB of RAM, 130 I/O pins, and advanced peripherals, ensuring robust connectivity and high-speed data processing. Compliant with ROHS3 and REACH Unaffected standards, it is designed for industrial, automotive, and communications applications requiring reliability and scalability.

XC7Z045-1FBG676I Features

• Dual-Core Cortex-A9 CPU: Delivers 667MHz processing power for demanding embedded applications.
• FPGA Integration: Artix-7 FPGA fabric provides reconfigurable logic for custom hardware acceleration.
• Rich Connectivity: Supports CANbus, Ethernet, USB OTG, I2C, SPI, UART/USART, and EBI/EMI interfaces.
• High I/O Density: 130 programmable I/Os enable versatile system interfacing.
• On-Chip Memory: 256KB RAM enhances data throughput and reduces latency.
• Industrial Compliance: ECCN 3A991D, ROHS3, and MSL 3 (168 Hours) rated for harsh environments.
• Peripheral Support: Includes DMA controllers and MMC/SD/SDIO for efficient data transfer.

XC7Z045-1FBG676I Applications

• Industrial Automation: Real-time control systems leveraging FPGA flexibility and CPU performance.
• Automotive Electronics: Advanced driver-assistance systems (ADAS) and in-vehicle networking.
• Communications Infrastructure: High-speed data processing in routers, switches, and base stations.
• Embedded Vision: FPGA-accelerated image processing for machine vision and surveillance.
• Medical Devices: Reliable processing for diagnostic equipment and patient monitoring systems.

Conclusion of XC7Z045-1FBG676I

The XC7Z045-1FBG676I stands out as a versatile SoC solution, merging FPGA programmability with ARM processing efficiency. Its high-speed interfaces, low-latency memory, and industrial-grade reliability make it a top choice for developers needing scalable, high-performance embedded systems. Whether in automotive, industrial, or communications, this device delivers the computational power and adaptability required for next-generation designs.