EP3C25E144C8N

 

FPGAs stand for field-programmable gate arrays. FPGAs are semiconductor devices designed to be reconfigured to the desired application after manufacturing. Essentially FPGAs are integrated circuits (IC) that a user can program to carry out one or more logical operations. Field programmable refers to the reconfiguration of these devices after manufacturing, whereas arrays refer to the Integrated circuits. Unlike processors, FPGAs are parallel in their work. The performance of any application is not affected when more tasks need processing because each task is assigned and processed using a dedicated section of the FPGAs.

 

The EP3C25E144C8N  is a part of the Cyclone device family that offers a unique combination of high functionality, low power, and low cost. The EP3C25E144C8N is based on the Taiwan Semiconductor Manufacturing Companies (TSMC) low-power (LP) process technology, silicon optimizations, and software features to minimize power consumption. The EP3C25E144C8N provides the ideal solution for high-volume, low-power, and cost-sensitive applications.

 

The EP3C25E144C8N device includes a customer-defined feature set optimized for portable applications and offers a wide range of density, memory, embedded multiplier, and I/O options. The EP3C25E144C8N device supports numerous external memory interfaces and I/O protocols that are common in high-volume applications. The Quartus II software features and parameterizable IP cores make it easier for the end-user to use the EP3C25E144C8N device interfaces and protocols.

 

When comparing different types of FPGAs, the EP3C25E144C8N stands out due to its distinct features and functionality. The architecture and performance of EP3C25E144C8N make it one of the best products in its category. The EP3C25E144C8N is based on Altera's power-aware design flow. This fact makes the EP3C25E144C8N one of the lowest power consumption FPGAs. The low power operation of the EP3C25E144C8N offers many benefits, including extended battery life for portable and handheld applications, reduction in cooling system costs. All of these benefits make the EP3C25E144C8N an ideal candidate for operations in a thermally challenging environment.

 

The EP3C25E144C8N comprises advanced design security features which boost its functionality and features. The design security features that make the EP3C25E144C8N an impeccable product can be read in detail in the datasheet. Moreover, the EP3C25E144C8N has a high memory-to-logic, and multiplier-to-logic ratio and a high I/O count, low-and mid-range density devices for user I/O constrained applications, along with supporting the multi-value on-chip termination (OCT) calibration feature to eliminate variations over process, voltage, and temperature (PVT).

The functionality and features of EP3C25E144C8N make it an ideal candidate for many industries and applications such as the Energy sector (renewable energy, automotive industry, aerospace, and defense sector, Analog to digital converters, artificial intelligence, ASIC Prototyping, Broadcast & Pro AV, Video & Image Processing, Wired and Wireless communications, medical industry, consumer electronics and high-performance computing and data storage.