Manufacturer Part Number
5CEFA2F23C7N
Manufacturer
Intel
Introduction
The 5CEFA2F23C7N is a high-performance Embedded FPGA from Intel's Cyclone® V E series, designed for power and cost-sensitive applications.
Product Features and Performance
Offers 25,000 Logic Elements/Cells for flexible and efficient processing
Contains 9,434 Logic Array Blocks (LABs) for complex digital computations
Provides a total of 2,002,944 RAM bits for high-volume data storage
Supports up to 224 Input/Output (I/O) ports for extensive peripheral connectivity
Operates within a voltage supply range of 1.07V ~ 1.13V for low-power consumption
Designed with Surface Mount Technology for compact and reliable integration
Product Advantages
Lower power consumption enhances energy efficiency
High logic and memory capacity enable complex application development
Extensive I/O supports diverse external connections
Designed with advanced safety features for robust operation
Key Technical Parameters
Number of Logic Elements/Cells: 25,000
Number of LABs/CLBs: 9,434
Total RAM Bits: 2,002,944
Number of I/O: 224
Voltage Supply Range: 1.07V ~ 1.13V
Operating Temperature: 0°C ~ 85°C (TJ)
Quality and Safety Features
Built with Intel's rigorous quality standards for high reliability
Operating temperature range ensures stable performance under varying conditions
Compatibility
Compatible with various development tools and software from Intel for eased integration
Application Areas
Ideal for telecommunications, automotive, industrial automation, and consumer electronics markets
Product Lifecycle
Currently active with no immediate plans for discontinuation
Intel provides ongoing support and availability of replacements or upgrades
Several Key Reasons to Choose This Product
High-density logic capabilities for complex digital processing needs
Energy-efficient design for reduced operational costs
Extensive IO options for flexible system design
Strong support and longevity guaranteed by Intel
Suitable for a wide range of applications from industrial to consumer electronics