EP3C16F256C7N - Intel

Manufacturer Part Number

EP3C16F256C7N

Manufacturer

Intel

Introduction

Intel's Cyclone III FPGA EP3C16F256C7N is designed for cost-sensitive applications requiring low power and high functionality in a small form factor.

Product Features and Performance

15408 Logic Elements/Cells for complex logic operations

963 Logic Array Blocks for efficient logic processing

516096 Total RAM Bits for ample data storage

168 I/O Pins for versatile interfacing with other components

Cyclone III Series offering a balance of power and performance

Product Advantages

Low power consumption suitable for portable and power-sensitive applications

High integration to minimize external components and board space

Supports various design functionalities reducing time to market

High performance at a competitive price point

Key Technical Parameters

Number of LABs/CLBs: 963

Number of Logic Elements/Cells: 15408

Total RAM Bits: 516096

Number of I/O: 168

Voltage - Supply: Between 1.15V and 1.25V

Operating Temperature: 0°C to 85°C (TJ)

Quality and Safety Features

Complies with industry standards for safety and reliability

Strict quality control in the manufacturing process ensures product robustness

Thermal management for safe operation within specified temperature ranges

Compatibility

Compatible with standard surface mount technology and processes

Interfacing support for various peripherals and components

Application Areas

Consumer electronics

Automotive

Industrial automation

Communication infrastructure

Medical devices

Product Lifecycle

Active status, indicating ongoing production and support

Not currently nearing discontinuation

Availability of replacements or upgrades for future needs

Several Key Reasons to Choose This Product

Intel's trusted reliability and support

Energy-efficient design enabling longer battery life for portable solutions

High-density integration allows for smaller system footprints

Flexible I/O and logic resources cater to a wide range of applications

Proven Cyclone III architecture with an optimal balance of cost and functionality