Manufacturer Part Number
5CEFA4F23C7N
Manufacturer
Intel
Introduction
Intel's 5CEFA4F23C7N is a high-performance embedded FPGA from the Cyclone V E series, catering to a wide array of applications requiring custom logic solutions.
Product Features and Performance
Field Programmable Gate Array (FPGA) from Cyclone V E series
49,000 logic elements and cells for flexible logic implementation
18,480 Logic Array Blocks (LABs)
3,464,192 total RAM bits for data storage
Support for 224 I/O pins for interfacing with other components
Operating voltage range of 1.07V to 1.13V for power-sensitive applications
Surface Mount Technology (SMT) for secure and compact placement on PCBs
Operating temperature range from 0°C to 85°C suited for industrial environments
Product Advantages
High logic capacity for complex digital systems
Extensive memory resources for efficient data handling
Adequate user I/Os for versatile connectivity solutions
Low power consumption compared to other FPGAs
Robust package suitable for demanding physical conditions
Key Technical Parameters
Number of LABs/CLBs: 18480
Number of Logic Elements/Cells: 49000
Total RAM Bits: 3464192
Number of I/O: 224
Voltage Supply Range: 1.07V ~ 1.13V
Mounting Type: Surface Mount
Operating Temperature: 0°C ~ 85°C (TJ)
Quality and Safety Features
Manufactured by Intel, a leader in semiconductor safety standards
BGA packaging for reliability in electrical connections
Complies with standard industrial temperature requirements
Compatibility
Compatible with standard 484-BGA (23x23) footprint
Adaptable to various voltage inputs within specified range
Compatible with other devices in the Intel Cyclone V E series
Application Areas
Telecommunications
Industrial automation
Medical devices
Consumer electronics
Automotive systems
Product Lifecycle
Active product status, not near discontinuation
Supported by Intel, with potential for future updates and replacements
Several Key Reasons to Choose This Product
Intel brand reliability and technical support
High capacity and performance to handle complex digital designs
Power efficiency for energy-sensitive applications
Robust I/O capabilities allowing diverse peripheral connectivity
Broad operating temperature makes it suitable for various environments
Active lifecycle status ensuring long-term availability and support