Manufacturer Part Number
EP3C25E144I7N
Manufacturer
Intel
Introduction
Intel's EP3C25E144I7N is a high-performance embedded FPGA from the Cyclone® III series designed for low-power and cost-sensitive applications.
Product Features and Performance
Embedded FPGA from Cyclone® III series
High-density integration with 24,624 Logic Elements/Cells
1,539 Logic Array Blocks (LABs)/Configurable Logic Blocks (CLBs)
Equipped with 608,256 Total RAM Bits
Supports 82 user I/O pins
Low power consumption with core voltage supply between 1.15V and 1.25V
Surface Mount Technology (SMT) for robust PCB integration
Operational across a wide temperature range of -40°C to 100°C
Product Advantages
Optimal balance of power, performance, and cost
Significant logic density for complex tasks
Flexible I/O system for interfacing with a variety of peripherals
Extended temperature range suitable for industrial applications
Key Technical Parameters
Number of LABs/CLBs: 1539
Number of Logic Elements/Cells: 24624
Total RAM Bits: 608256
Number of I/O: 82
Voltage Supply: 1.15V ~ 1.25V
Operating Temperature: -40°C ~ 100°C (TJ)
Quality and Safety Features
Strictly adheres to industry standards for quality and reliability
Thermal management facilitated by exposed-pad packaging
Compatibility
Compatible with a variety of development and programming tools from Intel
Supports industry-standard signal levels for easy system integration
Application Areas
Industrial control systems
Automotive
Consumer electronics
Telecommunications
Medical devices
Product Lifecycle
The product status is currently active
Not indicated as nearing discontinuation
Intel provides support and availability of upgrades or newer generations
Several Key Reasons to Choose This Product
Manufactured by Intel, a leader in semiconductor innovation
Excellent resource utilization for embedded processing tasks
Low-power operation for energy-efficient designs
Broad range of applications due to versatile I/O count and temperature tolerance
Ongoing product support and lifecycle longevity
High integration reduces system complexity and potentially lowers overall cost