Overview
The XC7A75T-2FGG484I is a Field-Programmable Gate Array (FPGA) from the Xilinx Artix-7 family, now part of AMD Xilinx. This FPGA is designed to offer high-performance processing capabilities, low power consumption, and cost-effectiveness. Built using 28nm process technology, it provides a compact, faster, and more power-efficient solution compared to its predecessors. The XC7A75T-2FGG484I is highly adaptable and can be programmed or reprogrammed to perform a wide range of specific functions, making it a versatile component in the digital industry.
Key Specifications
| Specification | Value |
|---|---|
| Logic Cells | 52,160 |
| Digital Signal Processing (DSP) Slices | 180 |
| General Purpose Input/Output Pins | 34 |
| Clock Outputs | 4 |
| Differential Pairs | 4 |
| High-Speed Transceivers | 16 |
| Process Technology | 28nm |
Key Features
- High-Performance Processing: The XC7A75T-2FGG484I offers high-performance processing capabilities, making it suitable for complex digital circuits and signal processing tasks.
- Low Power Consumption: It features advanced power management capabilities, including dynamic voltage and frequency scaling, which helps in reducing power consumption without compromising performance.
- Adaptable Input/Output Interfaces: The device includes a wide range of input and output interfaces, such as 34 general-purpose I/O pins, 4 clock outputs, and 4 differential pairs, along with 16 high-speed transceivers that support various protocols like PCIe, SATA, and Ethernet.
- DSP Slices: With 180 DSP slices, the XC7A75T-2FGG484I can perform complex mathematical operations like filtering, FFT, and multiplication efficiently.
Applications
The XC7A75T-2FGG484I is versatile and can be applied in various fields, including:
- Embedded Systems: Due to its low power consumption and high performance, it is ideal for battery-operated devices and other embedded systems.
- Communication Systems: It supports protocols like PCIe, SATA, and Ethernet, making it suitable for communication and networking applications.
- Industrial Automation: The FPGA can be used in industrial automation for tasks that require real-time processing and adaptability.
- Aerospace and Defense: Its high reliability and performance make it a candidate for use in aerospace and defense applications.
Q & A
- What is the XC7A75T-2FGG484I?
The XC7A75T-2FGG484I is a Field-Programmable Gate Array (FPGA) from the Xilinx Artix-7 family, now part of AMD Xilinx.
- How many logic cells does the XC7A75T-2FGG484I have?
The XC7A75T-2FGG484I has 52,160 logic cells.
- What is the process technology used in the XC7A75T-2FGG484I?
The XC7A75T-2FGG484I is built using 28nm process technology.
- How many DSP slices does the XC7A75T-2FGG484I have?
The XC7A75T-2FGG484I has 180 DSP slices.
- What are the key features of the XC7A75T-2FGG484I's power management?
The XC7A75T-2FGG484I features advanced power management capabilities, including dynamic voltage and frequency scaling, which helps in reducing power consumption without compromising performance.
- What types of interfaces does the XC7A75T-2FGG484I support?
The XC7A75T-2FGG484I supports various interfaces such as 34 general-purpose I/O pins, 4 clock outputs, 4 differential pairs, and 16 high-speed transceivers that support protocols like PCIe, SATA, and Ethernet.
- What are some common applications of the XC7A75T-2FGG484I?
The XC7A75T-2FGG484I is used in embedded systems, communication systems, industrial automation, and aerospace and defense applications.
- Why is the XC7A75T-2FGG484I suitable for battery-operated devices?
The XC7A75T-2FGG484I is suitable for battery-operated devices due to its low power consumption and advanced power management capabilities.
- Can the XC7A75T-2FGG484I be reprogrammed?
Yes, the XC7A75T-2FGG484I can be programmed or reprogrammed to perform specific functions.
- What makes the XC7A75T-2FGG484I efficient for signal processing tasks?
The XC7A75T-2FGG484I is efficient for signal processing tasks due to its 180 DSP slices, which are optimized for complex mathematical operations like filtering, FFT, and multiplication.
