Manufacturer Part Number
EP20K400FC672-1
Manufacturer
Intel
Introduction
The EP20K400FC672-1 is an embedded FPGA under Intel's APEX-20K® series, designed for versatile, high-performance programmable logic solutions.
Product Features and Performance
Configurable logic blocks totaling 1664 LABs/CLBs
Rich set of 16640 logic elements/cells
Provides a total of 212992 RAM bits
Includes 502 input/output ports
Features a high gate count of 1052000
Supports a supply voltage of 2.375V to 2.625V
Operates within a temperature range of 0°C to 85°C
Utilizes surface mount technology with a 672-BBGA package
Product Advantages
High density of logic elements and configurable logic blocks allows for flexible and comprehensive complex logic designs
Vast number of I/O enables extensive peripheral interfacing
Ample on-chip memory supporting various data storage and processing needs
Key Technical Parameters
Logic Blocks (LABs/CLBs): 1664
Logic Elements/Cells: 16640
Total RAM Bits: 212992
Number of I/O: 502
Gate Count: 1052000
Supply Voltage range: 2.375V ~ 2.625V
Operating Temperature: 0°C ~ 85°C
Quality and Safety Features
Robust package design suitable for demanding applications
Operates reliably within a specified industrial temperature range
Compatibility
Compatible with various peripheral components due to extensive I/O provision
Surface mount type fits seamlessly with modern PCB design techniques
Application Areas
Telecommunications
Networking systems
Industrial control systems
Consumer electronics
Product Lifecycle
Classified as an obsolete product
Replacement and upgrade options might be limited; consider newer FPGA models for prolonged support and enhanced features
Several Key Reasons to Choose This Product
Exceptional logic and memory resource availability cater to complex system design needs
Extensive I/O count serves a broad range of device interfacing requirements
Provides operational reliability within a range of industrial temperatures
Surface mount technology facilitates modern, compact PCB designs
High gate count ensures suitability for intensive logic processing applications