5CEBA4F17C8N - Intel

Manufacturer Part Number

5CEBA4F17C8N

Manufacturer

Intel

Introduction

The Intel 5CEBA4F17C8N is a high-performance embedded FPGA of the Cyclone V E series, designed for power-sensitive applications.

Product Features and Performance

Embedded FPGA from Series Cyclone V E

Offers 18480 LABs/CLBs

Contains 49000 Logic Elements/Cells

Provides a total of 3464192 RAM bits

Includes 128 flexible user I/O pins

Supports a voltage supply range from 1.07V to 1.13V

Suitable for surface mount technology

Functional in operating temperatures ranging from 0°C to 85°C

Packaged in a 256-LBGA format

Utilizes a 256-FBGA (17x17) device package

Product Advantages

High logic element density for complex designs

Abundant memory resources

Low voltage operation for energy efficiency

Wide range of I/O for versatile connectivity

Robust temperature range for enhanced reliability in varying environments

Compact packaging for space-constrained applications

Key Technical Parameters

Number of LABs/CLBs: 18480

Number of Logic Elements/Cells: 49000

Total RAM Bits: 3464192

Number of I/O: 128

Voltage Supply: 1.07V ~ 1.13V

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

Package / Case: 256-LBGA

Supplier Device Package: 256-FBGA (17x17)

Quality and Safety Features

Reliability and quality ensured by Intel's rigorous engineering and manufacturing standards

Operating temperature range ensures performance in a variety of environmental conditions

Compatibility

Compatible with various surface mount PCB assembly techniques

Interoperable with a wide range of digital and mixed-signal components

Application Areas

Industrial automation

Automotive systems

Telecommunications

Consumer electronics

Internet of Things (IoT) devices

Product Lifecycle

Currently active and not nearing discontinuation

Availability of replacements or upgrades to be determined by the manufacturer's future product roadmap

Several Key Reasons to Choose This Product

Reliability of the Intel brand and proven track record in FPGA technology

High processing power suitable for complex digital designs

Efficiency for power-sensitive applications

Versatility in a range of end-use scenarios

Strong support cycle with active product status and potential future updates