EP1C3T100C8 - Intel

Manufacturer Part Number

EP1C3T100C8

Manufacturer

Intel

Introduction

EP1C3T100C8 is part of Intel's Cyclone® series, a family of Embedded FPGAs designed for flexibility and programmability.

Product Features and Performance

Belongs to the Cyclone® FPGA series, known for low cost and high performance.

Contains 291 Logic Array Blocks (LABs) and 2910 Logic Elements/Cells.

Provides 59904 Total RAM Bits for versatile programming capabilities.

Supports 65 I/O pins for broad connectivity options.

With a power supply voltage range of 1.425V ~ 1.575V, it is designed for low-power applications.

Surface mount FPGA suited for compact and integrated designs.

Operates within a temperature range of 0°C ~ 85°C, suitable for standard environmental conditions.

Product Advantages

Due to its obsolescence, it may be available at reduced prices.

Adequate logic elements for a variety of intermediate complexity applications.

Low power consumption enhances the lifespan of battery-powered devices.

Cyclone® series FPGAs are well-documented and supported by extensive Intel development resources.

Key Technical Parameters

Number of LABs/CLBs: 291

Number of Logic Elements/Cells: 2910

Total RAM Bits: 59904

Number of I/O: 65

Voltage Supply: 1.425V ~ 1.575V

Operating Temperature: 0°C ~ 85°C

Quality and Safety Features

Built to meet Intel's stringent quality and reliability standards.

Surface mount technology offers robust mechanical resilience.

Compatibility

Compatible with various development tools and software from Intel.

Supports standard surface mount technology for PCB integration.

Application Areas

Ideal for educational purposes, prototype development, and small-scale production.

Suitable for low-power applications in consumer electronics, automotive, and IoT devices.

Product Lifecycle

Classified as Obsolete, suggesting limited future availability.

Users should consider future-proof alternatives or secure sufficient stock.

Several Key Reasons to Choose This Product

Intel's reputation for reliability and quality in FPGA design.

Low power requirement extends the application range to power-sensitive devices.

Obsolescence may lead to cost advantages for bulk purchases.

Despite its status, extensive documentation and community resources remain available.

Offers a practical balance between performance and cost, particularly for intermediate complexity projects.