EP4CE6F17C8LN

Product Overview

Category

EP4CE6F17C8LN belongs to the category of Field-Programmable Gate Arrays (FPGAs).

Use

FPGAs are integrated circuits that can be programmed after manufacturing. They are widely used in various electronic applications, including telecommunications, automotive, aerospace, and consumer electronics.

Characteristics

EP4CE6F17C8LN is known for its high performance, flexibility, and reconfigurability. It offers a large number of programmable logic blocks, memory elements, and I/O pins, allowing designers to implement complex digital systems.

Package

EP4CE6F17C8LN is available in a compact and durable package, ensuring easy integration into electronic devices. The package type is Land Grid Array (LGA), which provides reliable electrical connections.

Essence

The essence of EP4CE6F17C8LN lies in its ability to provide a customizable hardware platform. Designers can program the FPGA to perform specific functions, making it suitable for a wide range of applications.

Packaging/Quantity

EP4CE6F17C8LN is typically sold in reels or trays, depending on the manufacturer's packaging standards. The quantity per package may vary, but it is commonly available in quantities of 100 or more.

Specifications

• FPGA Family: Cyclone IV E
• Logic Elements: 6,016
• Total RAM Bits: 414,720
• Maximum User I/O Pins: 179
• Operating Voltage: 1.2V
• Maximum Operating Frequency: 300 MHz
• Package Type: LGA
• Package Dimensions: 17mm x 17mm

Detailed Pin Configuration

The EP4CE6F17C8LN FPGA has a comprehensive pin configuration, enabling connectivity with external components. The pinout diagram and detailed pin descriptions can be found in the manufacturer's datasheet.

Functional Features

EP4CE6F17C8LN offers several functional features that enhance its usability:

1. High Logic Density: With 6,016 logic elements, it provides ample resources for implementing complex digital designs.
2. Flexible I/O Options: The FPGA supports a wide range of I/O standards, allowing seamless integration with various external devices.
3. Embedded Memory: The large amount of embedded RAM enables efficient data storage and processing within the FPGA itself.
4. Reconfigurability: EP4CE6F17C8LN can be reprogrammed multiple times, enabling iterative design improvements and adaptability to changing requirements.

Advantages and Disadvantages

Advantages

• Versatility: EP4CE6F17C8LN can be used in diverse applications due to its programmable nature.
• Cost-Effective: FPGAs eliminate the need for custom ASICs, reducing development costs.
• Time-to-Market: The reprogrammability of FPGAs allows for faster prototyping and shorter development cycles.

Disadvantages

• Power Consumption: FPGAs tend to consume more power compared to dedicated application-specific integrated circuits (ASICs).
• Complexity: Designing for FPGAs requires specialized knowledge and expertise, making it challenging for beginners.

Working Principles

EP4CE6F17C8LN operates based on the principles of configurable logic blocks (CLBs) and interconnect resources. CLBs consist of look-up tables, flip-flops, and multiplexers, which can be configured to implement desired logic functions. Interconnect resources facilitate the routing of signals between different CLBs and I/O pins.

Detailed Application Field Plans

EP4CE6F17C8LN finds applications in various fields, including:

1. Telecommunications: Used in base stations, routers, and network switches for signal processing and protocol handling.
2. Automotive: Employed in automotive electronics for functions like engine control, advanced driver-assistance systems (ADAS), and infotainment systems.
3. Aerospace: Utilized in avionics systems for flight control, data acquisition, and communication.
4. Consumer Electronics: Integrated into devices such as high-definition televisions, gaming consoles, and digital cameras for enhanced functionality.

Detailed and Complete Alternative Models

• EP4CE10F17C8LN
• EP4CE15F17C8LN
• EP4CE30F17C8LN
• EP4CE40F17C8LN

These alternative models offer varying logic capacity and I/O pin counts, allowing designers to choose the most suitable FPGA for their specific requirements.

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