XCV400-4FG676C

Product Overview

Category

XCV400-4FG676C belongs to the category of Field Programmable Gate Arrays (FPGAs).

Use

This product is primarily used in digital logic circuits for various applications such as telecommunications, automotive, aerospace, and consumer electronics.

Characteristics

• High-performance programmable logic device
• Offers flexibility and reconfigurability
• Provides high-speed data processing capabilities
• Supports complex algorithms and computations
• Low power consumption
• Reliable and durable

Package

XCV400-4FG676C comes in a compact 676-pin Fine-Pitch Ball Grid Array (FBGA) package.

Essence

The essence of XCV400-4FG676C lies in its ability to provide a customizable hardware solution for implementing complex digital systems.

Packaging/Quantity

This product is typically packaged individually and is available in various quantities depending on the customer's requirements.

Specifications

• Logic Cells: 400,000
• Maximum Frequency: 500 MHz
• Embedded Memory: Up to 18 Mb
• I/O Pins: 676
• Operating Voltage: 1.2V
• Operating Temperature Range: -40°C to +100°C
• Package Dimensions: 27mm x 27mm

Detailed Pin Configuration

Please refer to the datasheet or technical documentation provided by the manufacturer for a detailed pin configuration diagram of XCV400-4FG676C.

Functional Features

• Configurable logic blocks for implementing custom logic functions
• Dedicated DSP slices for efficient signal processing
• High-speed serial transceivers for data communication
• On-chip memory resources for storing data and instructions
• Clock management circuitry for precise timing control
• Built-in configuration interface for easy programming

Advantages and Disadvantages

Advantages

• Flexibility to adapt to changing design requirements
• Faster time-to-market compared to custom ASIC designs
• Lower development costs compared to traditional hardware solutions
• Reconfigurability allows for easy updates and modifications
• High-performance capabilities for demanding applications

Disadvantages

• Higher power consumption compared to dedicated application-specific integrated circuits (ASICs)
• Limited resources may restrict the complexity of designs
• Steeper learning curve for designers unfamiliar with FPGA programming

Working Principles

XCV400-4FG676C operates based on the principles of reconfigurable computing. It consists of an array of configurable logic blocks interconnected through programmable routing resources. These logic blocks can be programmed to implement various digital functions, allowing for the creation of complex systems on a single chip.

The device is programmed using a Hardware Description Language (HDL) such as VHDL or Verilog. The HDL code describes the desired functionality, which is then synthesized and mapped onto the FPGA. Once programmed, the FPGA can execute the desired logic functions by configuring its internal resources accordingly.

Detailed Application Field Plans

XCV400-4FG676C finds extensive use in a wide range of applications, including:

1. Telecommunications: Used in base stations, network switches, and routers for high-speed data processing and signal routing.
2. Automotive: Employed in advanced driver-assistance systems (ADAS), engine control units (ECUs), and infotainment systems for efficient data processing and control.
3. Aerospace: Utilized in avionics systems, satellite communication, and radar systems for reliable and high-performance signal processing.
4. Consumer Electronics: Integrated into smart TVs, gaming consoles, and mobile devices for multimedia processing, image recognition, and artificial intelligence applications.

Detailed and Complete Alternative Models

1. XCV2000E-6FG1156I
2. XCV600E-7FG680C
3. XCV800E-6FG680I
4. XCV1000E-7FG1156C

These alternative models offer similar functionality and performance characteristics to XCV400-4FG676C, catering to different design requirements and project scales.

In conclusion, XCV400-4FG676C is a high-performance FPGA that provides flexibility, reconfigurability, and efficient data processing capabilities. Its compact package, extensive application field plans, and availability of alternative models make it a versatile choice for various digital logic circuit designs.

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