Manufacturer Part Number
EP1C6F256C7
Manufacturer
Intel
Introduction
The EP1C6F256C7, part of Intel's Cyclone® series, is an embedded FPGA designed for high-performance applications requiring flexible and programmable logic solutions.
Product Features and Performance
Utilizes 598 Logic Array Blocks (LABs) or Configurable Logic Blocks (CLBs)
Contains 5980 logic elements/cells for complex digital computations
Includes 92,160 total RAM bits for data storage
Suited for 185 input/output connections
Operates efficiently with a supply voltage between 1.425V and 1.575V
Surface mount technology for compact and reliable hardware designs
Engineered for an operating temperature range from 0°C to 85°C
Product Advantages
Offers a high degree of programmability and flexibility
Capable of implementing complex logic functions and algorithms
Provides ample storage for user application code and data
Supports a wide range of power supply and environmental conditions
Key Technical Parameters
Number of LABs/CLBs: 598
Number of Logic Elements/Cells: 5980
Total RAM Bits: 92160
Number of I/O: 185
Voltage Supply: 1.425V ~ 1.575V
Operating Temperature: 0°C ~ 85°C
Quality and Safety Features
Manufactured by Intel, a leader in semiconductor technology
Adheres to stringent quality and safety standards
Compatibility
Compatible with a wide range of design software for FPGA programming
Surface mount technology allows integration into various hardware designs
Application Areas
Ideal for applications in telecommunications, automotive, consumer electronics, and industrial control systems
Product Lifecycle
Classified as Obsolete
Users should consider future proofing by seeking replacements or upgrades
Several Key Reasons to Choose This Product
Manufactured by a reputable and trusted brand in the semiconductor industry
High level of programmability and flexibility for tailor-made applications
Sufficient logic elements and RAM for complex applications
Supports a wide operating temperature and voltage range, enhancing compatibility and reliability
Despite being obsolete, its performance and capabilities remain suitable for specific legacy applications