Manufacturer Part Number
EP3SE50F484I3N
Manufacturer
Intel
Introduction
Intel Stratix III E series FPGA designed for high-performance, high-density and low-power applications.
Product Features and Performance
Offers 1900 Logic Array Blocks (LABs)
Features 47500 Logic Elements/Cells
Includes integrated 5760000 Total RAM Bits
Provides 296 Input/Output ports
Capable of operating with 0.86V to 1.15V power supply
Surface Mount technology for PCB assembly
Functional in wide temperature range: -40°C to 100°C
Encased in a 484-pin Fine-Pitch Ball-Grid Array (FBGA) package
Product Advantages
High logic density for complex designs
Integrated memory for efficient data storage and retrieval
High I/O count for versatile connectivity
Low voltage operation minimizes power consumption
Suitable for tough environmental conditions due to extended temperature range
Key Technical Parameters
Number of LABs/CLBs: 1900
Number of Logic Elements/Cells: 47500
Total RAM Bits: 5760000
Number of I/O: 296
Voltage Supply Range: 0.86V ~ 1.15V
Operating Temperature: -40°C ~ 100°C (TJ)
Quality and Safety Features
Robust design meeting Intel's stringent quality and reliability standards
Compliance with industrial safety and performance regulations
Compatibility
Compatible with various baseboards and electronic components that support the 484-BBGA, FCBGA package and footprint
Application Areas
Telecommunications
Networking Infrastructure
High-performance computing
Military and aerospace
Industrial automation
Product Lifecycle
Status: Obsolete
A search for successor products or upgrades is recommended as this model is no longer being manufactured
Several Key Reasons to Choose This Product
Intel's reputation for reliable and high-quality FPGA products
High logic element count for implementing complex algorithms and processing
Ample memory resources for data-intensive applications
Versatile I/O interfacing capabilities
Low-power consumption enhancing system efficiency
Adaptability across a wide range of industrial temperatures
Compatible with a variety of existing hardware designs