XCKU3P-1SFVB784I

Product Overview

Category

The XCKU3P-1SFVB784I belongs to the category of Field Programmable Gate Arrays (FPGAs).

Use

FPGAs are integrated circuits that can be programmed and reprogrammed to perform various digital functions. The XCKU3P-1SFVB784I is specifically designed for high-performance applications that require complex processing and high-speed data transfer.

Characteristics

• High-performance FPGA with advanced processing capabilities
• Supports high-speed data transfer and complex algorithms
• Flexible and reprogrammable design
• Offers a wide range of I/O interfaces for connectivity
• Suitable for applications requiring real-time processing and low latency

Package

The XCKU3P-1SFVB784I comes in a compact package, which ensures easy integration into electronic systems. The package is designed to provide efficient heat dissipation and protection against external factors such as moisture and dust.

Essence

The essence of the XCKU3P-1SFVB784I lies in its ability to provide a versatile and powerful platform for implementing complex digital designs. It offers a high level of customization and adaptability, making it suitable for a wide range of applications.

Packaging/Quantity

The XCKU3P-1SFVB784I is typically packaged individually and is available in various quantities depending on the requirements of the customer or project.

Specifications

• FPGA Family: Kintex UltraScale+
• Logic Cells: 1,143,000
• DSP Slices: 4,272
• Block RAM: 68 Mb
• Maximum I/O Pins: 784
• Operating Voltage: 0.95V - 1.05V
• Operating Temperature: -40°C to 100°C
• Package Type: Flip-Chip Ball Grid Array (FBGA)

Detailed Pin Configuration

The XCKU3P-1SFVB784I has a total of 784 I/O pins, which are configurable based on the specific requirements of the application. The pin configuration allows for easy interfacing with external devices and peripherals.

For a detailed pin configuration diagram, please refer to the official product datasheet.

Functional Features

High-Speed Processing

The XCKU3P-1SFVB784I is equipped with advanced processing capabilities, allowing it to handle complex algorithms and high-speed data transfer. This makes it suitable for applications that require real-time processing and low latency.

Versatility and Customization

With its reprogrammable design, the XCKU3P-1SFVB784I offers a high level of versatility and customization. It can be programmed to perform a wide range of functions, making it adaptable to various application requirements.

Connectivity Options

The FPGA provides a comprehensive set of I/O interfaces, including high-speed serial transceivers, Ethernet, USB, and PCIe. This enables seamless connectivity with external devices and systems.

Advantages and Disadvantages

Advantages

• High-performance processing capabilities
• Flexible and reprogrammable design
• Wide range of I/O interfaces for connectivity
• Suitable for real-time processing applications

Disadvantages

• Higher cost compared to other programmable logic devices
• Steeper learning curve for programming and design implementation

Working Principles

The XCKU3P-1SFVB784I operates based on the principles of digital logic. It consists of a large number of configurable logic blocks interconnected through programmable routing resources. These logic blocks can be programmed to implement desired digital functions using hardware description languages (HDL) or graphical tools.

Once programmed, the FPGA executes the desired functions by routing signals through the configured logic blocks and interconnections. This allows for the implementation of complex algorithms and processing tasks.

Detailed Application Field Plans

The XCKU3P-1SFVB784I finds applications in various fields that require high-performance digital processing. Some of the key application areas include:

1. Communications: The FPGA can be used in telecommunications systems, networking equipment, and wireless communication devices to handle data processing, encryption, and signal modulation/demodulation.

2. Aerospace and Defense: The XCKU3P-1SFVB784I is suitable for radar systems, satellite communication, avionics, and military-grade applications that demand real-time processing, high-speed data transfer, and reliability.

3. High-Performance Computing: It can be utilized in supercomputers, data centers, and scientific research facilities to accelerate complex computations, simulations, and data analysis tasks.

4. Industrial Automation: The FPGA can be integrated into industrial control systems, robotics, and machine vision applications to enable real-time monitoring, control, and image processing.

5. Medical Imaging: It can be employed in medical imaging devices such as ultrasound machines, MRI scanners, and CT scanners to process and analyze medical images