LCMXO3L-6900E-5MG324I

Product Overview

Category

The LCMXO3L-6900E-5MG324I 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 LCMXO3L-6900E-5MG324I is specifically designed for applications requiring high-performance and low-power consumption.

Characteristics

• High performance: The LCMXO3L-6900E-5MG324I offers a high logic density and fast processing capabilities, making it suitable for complex digital designs.
• Low power consumption: This FPGA is designed to minimize power usage, making it energy-efficient and suitable for battery-powered devices.
• Small package size: The LCMXO3L-6900E-5MG324I comes in a compact package, allowing for space-saving integration into electronic systems.
• Versatile functionality: It supports a wide range of digital functions, including data processing, signal generation, and control logic implementation.

Package and Quantity

The LCMXO3L-6900E-5MG324I is available in a 324-pin Micro FineLine BGA (Ball Grid Array) package. Each package contains one unit of the FPGA.

Specifications

• Logic Elements: 6,900
• Look-Up Tables (LUTs): 4,800
• Flip-Flops: 9,600
• Block RAM: 270 Kbits
• Maximum User I/Os: 202
• Operating Voltage: 1.2V
• Operating Temperature Range: -40°C to 85°C

Detailed Pin Configuration

The LCMXO3L-6900E-5MG324I has a total of 324 pins. The pin configuration is as follows:

• Pin 1: VCCIO
• Pin 2: GND
• Pin 3: IO_0
• Pin 4: IO_1
• ...
• Pin 323: IO_201
• Pin 324: IO_202

Functional Features

• High-speed performance: The LCMXO3L-6900E-5MG324I operates at high clock frequencies, enabling rapid data processing and real-time applications.
• Flexible reprogrammability: It can be easily reconfigured to adapt to changing design requirements, allowing for quick prototyping and iterative development.
• Low power consumption: The FPGA incorporates power-saving techniques, such as dynamic power management and clock gating, to minimize energy usage.
• On-chip resources: It provides a range of on-chip resources, including block RAM, digital signal processing (DSP) slices, and phase-locked loops (PLLs), enhancing design flexibility.

Advantages and Disadvantages

Advantages

• High logic density enables complex designs.
• Low power consumption makes it suitable for battery-powered devices.
• Versatile functionality supports various digital functions.
• Reprogrammability allows for flexibility in design iterations.

Disadvantages

• Limited I/O count compared to larger FPGAs.
• Higher cost per logic element compared to lower-density FPGAs.
• Steeper learning curve for beginners due to complexity.

Working Principles

The LCMXO3L-6900E-5MG324I utilizes programmable logic blocks and interconnects to implement digital circuits. These logic blocks consist of Look-Up Tables (LUTs) and flip-flops that can be configured to perform specific functions. The interconnects allow for the routing of signals between different logic blocks, enabling the desired circuit connections.

By programming the LCMXO3L-6900E-5MG324I, designers can define the behavior of the FPGA and create custom digital circuits. The programming process involves specifying the desired logic functions, interconnections, and input/output configurations using a Hardware Description Language (HDL) or a graphical design tool.

Detailed Application Field Plans

The LCMXO3L-6900E-5MG324I finds applications in various fields, including:

1. Communications: It can be used for implementing high-speed data processing, encryption/decryption algorithms, and network protocol handling.
2. Industrial Automation: The FPGA's flexibility allows for the implementation of control systems, sensor interfacing, and real-time monitoring in industrial automation applications.
3. Medical Devices: It can be utilized in medical imaging systems, patient monitoring devices, and diagnostic equipment due to its high-performance capabilities.
4. Aerospace and Defense: The FPGA's reliability, reprogrammability, and low power consumption make it suitable for aerospace and defense applications, such as radar systems, avionics, and secure communication systems.

Alternative Models

In addition to the LCMXO3