A3PE600L-FGG484M

Product Overview

Category

A3PE600L-FGG484M belongs to the category of programmable logic devices (PLDs).

Use

This product is primarily used in digital circuit design and implementation. It provides a flexible and customizable solution for various applications.

Characteristics

• Programmable: The A3PE600L-FGG484M can be programmed to perform specific functions according to the user's requirements.
• High Integration: It offers a high level of integration, allowing complex digital circuits to be implemented on a single chip.
• Versatile: This PLD supports a wide range of applications, making it suitable for diverse industries.
• Low Power Consumption: The A3PE600L-FGG484M is designed to operate efficiently with low power consumption.
• Fast Operation: It offers fast processing speeds, enabling quick execution of digital operations.

Package

The A3PE600L-FGG484M comes in a Fine-Pitch Ball Grid Array (FBGA) package, which ensures reliable electrical connections and compact form factor.

Essence

The essence of the A3PE600L-FGG484M lies in its ability to provide a reconfigurable hardware platform that allows users to implement custom digital designs.

Packaging/Quantity

This product is typically packaged individually and is available in varying quantities depending on the manufacturer or distributor.

Specifications

• Device Type: Programmable Logic Device (PLD)
• Family: A3P
• Series: E600
• Package: FBGA-484
• Number of Pins: 484
• Operating Voltage: 1.2V
• Maximum Operating Frequency: 400 MHz
• Logic Cells: 600
• I/O Pins: 200
• Embedded Memory: 4.5 Mb
• Configuration Method: JTAG

Detailed Pin Configuration

The A3PE600L-FGG484M has a total of 484 pins. The pin configuration is as follows:

(Pin Number) - (Pin Name) 1 - VCCIO 2 - GND 3 - IOB0 4 - IOB1 5 - IOB_2 ... 484 - VCC

For the complete pin configuration, please refer to the manufacturer's datasheet.

Functional Features

• Reconfigurable Logic: The A3PE600L-FGG484M allows users to modify the logic functions and interconnections within the device, providing flexibility in design.
• Embedded Memory: This PLD includes embedded memory blocks that can be used for data storage or implementing complex algorithms.
• I/O Flexibility: The device offers a large number of I/O pins, enabling easy interfacing with external devices.
• Clock Management: It provides built-in clock management resources, allowing precise control over timing requirements.
• Design Security: The A3PE600L-FGG484M supports security features such as bitstream encryption and authentication, ensuring protection against unauthorized access.

Advantages and Disadvantages

Advantages

• Flexibility: The reconfigurable nature of this PLD allows for quick prototyping and design iterations.
• Cost-Effective: By using a single chip for multiple functions, it reduces the need for additional components, resulting in cost savings.
• High Performance: The A3PE600L-FGG484M offers fast processing speeds and high integration, making it suitable for demanding applications.
• Power Efficiency: With its low power consumption, it helps in reducing overall system power requirements.

Disadvantages

• Learning Curve: Utilizing the full potential of this PLD may require a learning curve for designers who are new to programmable logic devices.
• Complexity: Designing complex circuits on a PLD can be challenging and time-consuming.
• Limited Resources: The available logic cells and memory blocks may impose limitations on the size and complexity of designs.

Working Principles

The A3PE600L-FGG484M is based on Field-Programmable Gate Array (FPGA) technology. It consists of configurable logic blocks, interconnect resources, embedded memory, and I/O pins. The device can be programmed using a Hardware Description Language (HDL) to define the desired digital circuit functionality. Once programmed, the PLD operates based on the specified logic functions and interconnections.

Detailed Application Field Plans

The A3PE600L-FGG484M finds applications in various fields, including:

1. Communications: Used in networking equipment, routers, and switches for data processing and protocol handling.
2. Industrial Automation: Employed in control systems, robotics, and machine vision applications for real-time data processing and control.
3. Automotive: Utilized in automotive electronics for engine control, driver assistance systems, and infotainment systems.
4. Aerospace: Used in avionics systems for flight control, navigation, and communication.
5. Medical Devices: Employed in medical imaging,