LC4512C-5FTN256I

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Embedded computing technology is rapidly evolving and the emergence of Complex Programmable Logic Devices (CPLDs) has become popular in providing an efficient, economical, and reliable solution for many embedded applications. The LC4512C-5FTN256I CPLD is just the kind of device needed to help increase productivity and reduce cost in embedded applications. This article will discuss the application field and working principle of the LC4512C-5FTN256I CPLD.

The LC4512C-5FTN256I CPLD offers high performance, low power logics to help implement various embedded applications. It is built with the 5th generation of high density Stratix 5 FPGA fabric and utilizes LSB (Least Significant Bit) fuse technology for implementation in complex system-on-chip (SoC) configurations. It features high levels of system integration and higher throughput, offering designer’s an ample amount of flexibility and scalability when designing CPLD architecture. Additionally, the 5FTN256I offers low cost, high I/O capacity and an easy-to-learn programming environment for reducing time-to-market.

The LC4512C-5FTN256I CPLD can be used in a variety of applications due its high speed, low power and scalability. It can be used in a wide range of embedded applications such as industrial control systems, communication systems, automotive systems, transportation systems, building automation systems and medical systems. It can also be used in applications such as programmable logic controllers (PLCs), digital signal processors (DSPs), ASICs and SOCs. It is well suited for use in high-speed logic, communications, data storage, and motor control applications due its high-speed, low-power operation.

The working principle of the LC4512C-5FTN256I CPLD is based on the logics of a programmable logic array (PLA). These devices are programmed using an external programming language such as VHDL or Verilog and can be reprogrammed depending on the design requirements. The basic principle of a PLA is to provide an array of logic elements which are programmed by the user to create connections for implementing complex logic operations. The logic devices employed in the LC4512C-5FTN256I CPLD have a row and column structure, with each row containing up to 64 logic elements, resulting in a total of 256 logic elements.

In order to program the logic elements within the CPLD, a wide range of low-voltage, high performance, low-cost stratix 5 FPGA fabric is utilized. These FPGAs are well suited for high-end embedded designs as they offer up to 5GHz programmable frequency and also possess a low-power structure to ensure minimum power consumption. In addition, the FPGAs can be programmed to carry out complex logic operations, enabling designers to quickly implement complex designs with a low overhead.

The LC4512C-5FTN256I CPLD is able to achieve high performance and low power in various embedded systems, making it suitable for a wide range of applications. It features high levels of system integration and higher throughput, offering designers ample flexibility and scalability when designing CPLD architecture. Additionally, it offers low cost, high I/O capacity, and an easy-to-learn programming environment for reducing time-to-market. Finally, it is well suited for use in high-speed logic, communications, data storage, and motor control applications due its high-speed, low-power operation.

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