5SGXMA7N3F45C2N

Product Overview

Category

The 5SGXMA7N3F45C2N 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 5SGXMA7N3F45C2N is specifically designed for high-performance applications that require complex logic functions.

Characteristics

• High-performance FPGA with advanced features
• Large capacity for complex designs
• Flexible and reprogrammable
• Low power consumption
• High-speed data processing capabilities

Package

The 5SGXMA7N3F45C2N comes in a compact package suitable for surface mount technology (SMT) assembly. It is available in a variety of package options, including ball grid array (BGA) and quad flat no-leads (QFN).

Essence

The essence of the 5SGXMA7N3F45C2N lies in its ability to provide a highly configurable and customizable solution for digital design requirements. It offers designers the flexibility to implement complex logic functions without the need for custom-designed integrated circuits.

Packaging/Quantity

The 5SGXMA7N3F45C2N is typically sold in reels or trays, depending on the package type. The quantity per reel or tray may vary depending on the supplier and customer requirements.

Specifications

• Logic Elements: 220,000
• Embedded Memory: 9,840 Kbits
• DSP Blocks: 1,536
• Maximum User I/Os: 1,040
• Transceivers: 96
• Operating Voltage: 1.2V
• Operating Temperature Range: -40°C to +100°C
• Package Options: BGA, QFN

Detailed Pin Configuration

The 5SGXMA7N3F45C2N has a complex pin configuration with multiple I/O banks and dedicated pins for various functions. For detailed pin configuration information, please refer to the manufacturer's datasheet.

Functional Features

• High-speed data processing capabilities
• Configurable logic elements for custom designs
• Embedded memory for data storage
• Digital signal processing (DSP) blocks for advanced signal processing
• Transceivers for high-speed data communication
• Support for various communication protocols and interfaces
• Built-in security features for protecting intellectual property

Advantages and Disadvantages

Advantages

• Flexibility and reprogrammability
• High-performance capabilities
• Lower development time compared to custom ASICs
• Cost-effective for low to medium volume production
• Ability to adapt to changing design requirements

Disadvantages

• Higher power consumption compared to application-specific integrated circuits (ASICs)
• Limited performance compared to specialized hardware solutions
• Steeper learning curve for designers unfamiliar with FPGA programming

Working Principles

FPGAs like the 5SGXMA7N3F45C2N consist of an array of configurable logic elements interconnected through programmable routing resources. These logic elements can be programmed to implement various digital functions, such as arithmetic operations, data processing, and control logic. The configuration of the FPGA is stored in non-volatile memory and can be modified by the user as needed.

When powered on, the FPGA loads its configuration from the non-volatile memory and starts executing the programmed logic. Input signals are processed through the configurable logic elements, and the output signals are routed to the desired destinations based on the programmed connections.

Detailed Application Field Plans

The 5SGXMA7N3F45C2N finds applications in various fields that require high-performance digital processing capabilities. Some of the potential application areas include:

1. Telecommunications: FPGAs are used in base stations, network switches, and routers to handle high-speed data processing and protocol conversion.
2. Aerospace and Defense: FPGAs are utilized in radar systems, avionics, and military communication equipment for their flexibility and ability to handle complex algorithms.
3. Industrial Automation: FPGAs are employed in control systems, robotics, and machine vision applications for real-time data processing and control.
4. Medical Devices: FPGAs are integrated into medical imaging systems, patient monitoring devices, and diagnostic equipment for their high-performance computing capabilities.
5. Automotive: FPGAs are used in advanced driver-assistance systems (ADAS), infotainment systems, and engine control units (ECUs) for their ability to handle complex algorithms and sensor fusion.

Detailed and Complete Alternative Models

• 5SGXEA7N3F45C2N
• 5SGXEB7N3F45C2N
• 5SGXEC7N3F45C2N
• 5SGXED7N3