Manufacturer Part Number
EP1K10FC256-3
Manufacturer
Intel
Introduction
The EP1K10FC256-3 is part of Intel's ACEX-1K® series of Embedded Field Programmable Gate Arrays (FPGAs) designed for versatile applications.
Product Features and Performance
Employs 72 Logic Array Blocks (LABs) for flexible logic implementation
Contains 576 individual Logic Elements/Cells for comprehensive logic functions
Offers 12,288 Total RAM Bits for effective data management
Supports up to 136 I/O pins for extensive external connections
Provides a gate count of 56,000 for complex circuit designs
Operates efficiently within a supply voltage range of 2.375V to 2.625V
Assured performance within 0°C to 70°C operating temperature range
Product Advantages
High-density logic elements for maximizing design flexibility
Ample RAM and I/O support for diverse application needs
Compatible with standard 2.5V supply voltage for easy integration
Designed for surface mounting, facilitating compact hardware designs
Key Technical Parameters
Number of LABs/CLBs: 72
Logic Elements/Cells: 576
Total RAM Bits: 12,288
Number of I/O: 136
Voltage Supply: 2.375V ~ 2.625V
Quality and Safety Features
Rigorous quality controls by a leading manufacturer i.e., Intel
Operates reliably within the specified temperature range
Compatibility
Designed for surface mount applications with a package size of 256-BGA
Optimal for 2.5V logic level systems
Application Areas
Ideal for embedded systems that require reprogrammable logic
Suitable for telecommunications, automotive, and industrial applications
Product Lifecycle
Status: Obsolete, indicating that it is nearing the end of its product lifecycle
Potential customers should consider seeking replacements or upgrades for future designs
Several Key Reasons to Choose This Product
Offers a robust platform for developing flexible, high-performance FPGA designs
Backed by Intel's reputation for quality and performance
Enhanced logic density and I/O capabilities enable complex designs in compact forms
Surface mount technology caters to the need for efficient use of space in hardware designs
Despite its obsolescence, it remains a viable option for projects with specific requirements and existing designs