EP2C70F672C7N

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FPGA (Field Programmable Gate Array) is widely known as an integrated circuit that together with a processor or ASICs can replace an entire PoE (Power over Ethernet) protocol stack. In this article, we\'ll discuss the application field and working principle of the EP2C70F672C7N, a state-of-the-art FPGA with impressive features.

The EP2C70F672C7N belongs to the mid-range of FPGAs in the Altera family, providing a higher number of elements, flexible configurability and excellent power performance. It has a large capacity, with 144 user-programmable logic elements (LEs) distributed within the four clock regions. This allows the FPGA to be highly configurable for different applications.

The EP2C70F672C7N provides a robust set of features including adjustable voltage, adjustable frequency, and blocks of dedicated core circuits. With an adjustable frequency range of up to 250MHz, it can provide a high-performance computing platform for embedded device applications. Additionally, it offers space for up to 18,432 kbits of embedded RAM, enabling it to provide additional storage for running larger applications with increased efficiency.

The EP2C70F672C7N utilizes the FPGA fabric to create paths between functional blocks. This enables the FPGA to leverage its advanced architecture and high-speed elements to route signals and signals resources efficiently. The FPGA fabric is connected to external elements via multiple high-speed IOs, allowing high bandwidth data to be routed in and out of the device, while simultaneously supporting multiple logic operations.

The architecture of the EP2C70F672C7N also includes a deterministic LTE core protocol engine for data transfer. This protocol allows the FPGA to communicate in and out of the device using high-speed data transfer pipelines. The engine allows for fast and reliable data transmission, enabling the FPGA to process tasks with greater efficiency.

Furthermore, the EP2C70F672C7N is capable of generating stable clock signals to ensure that all functions in the FPGA execute in perfect synchronization. This capability is essential in applications where stability and reliability are paramount. It also makes it ideal for applications that require precise timing.

The EP2C70F672C7N provides support for several communication and peripheral protocols, making it a popular choice for embedded design applications. This includes support for Serial Peripheral Interface (SPI), Inter Integrated Circuit (I2C), Serial Advanced Technology Attachment (SATA), and Universal Serial Bus (USB). This makes it possible to quickly configure a variety of applications from a single FPGA.

The feature-rich design of the EP2C70F672C7N makes it suitable for a wide range of embedded application fields. This includes applications such as data processing, sensor and motor control, image processing, medical equipment development, and industrial automation. Additionally, its high-speed transceiver implemented in the FPGA fabric allows it to be used as a communication bridge between networking protocols and different device types.

The working principle of the EP2C70F672C7N involves the development of a logic design which is then programmed onto the device. The logic design specifies which logic elements are used, how the logic elements are interconnected, and how the logic elements are configured. Once programmed, the FPGA can execute operations in parallel and its performance can be improved by changing or reconfiguring the logic via the device programming interface.

The EP2C70F672C7N is an excellent high-speed, FPGA for a variety of embedded applications. It is capable of performing multiple operations in parallel, provides high-speed transceiver for compatible communications, and supports various communication and peripheral protocols. Additionally, the device features adjustable voltage, adjustable frequency, and blocks of dedicated core circuits. This makes the EP2C70F672C7N a powerful, cost-effective solution for embedded developers.

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