LFE2-12E-5T144C

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Embedded - FPGAs (Field Programmable Gate Array)

A Field Programmable Gate Array (FPGA) is a type of integrated circuit (IC) that configures a generic chip of logic gates, memory and processor cores into an efficient solution customized to the needs of a particular application. The LFE2-12E-5T144C is one such example of an FPGA.

An FPGA can be used in a broad range of applications, from complex electronic systems to simple digital controllers. They are ideal for applications that require both flexibility and high performance, due to their unique combination of hardware and software components.

Application Field

The LFE2-12E-5T144C FPGA offers a comprehensive set of resources for general-purpose digital applications and was designed to take advantage of the flexibility, compact size, and low cost of FPGAs while providing industry-leading performance in key application areas. In particular, the device is suitable for a wide range of embedded systems, control and automation, wired and wireless communication, and digital signal processing (DSP) applications, including image and video processing applications.

The LFE2-12E-5T144C is well-suited for applications in the automotive field that require features such as robust communication connectivity. For example, the device’s Trenz 64Pcs R-ACPM 32-Bit MIPI interface support allows for secure, high-speed communication links between sensors, actuators, and ECUs in automotive systems. The device also supports some of the latest Bluetooth, Wi-Fi, Zigbee and other wireless communication protocols, making it suitable for creating sophisticated automobiles with advanced wireless control systems.

The device is also suitable for industrial robotics, with its powerful Arm Cortex-R52 Real-Time Processor core, dual 16-bit AXI advanced extensible interface and Trenz Arm Toolchain for 32-bit real-time applications. The wide variety of integrated peripherals make the device suitable for a range of applications, from motion control for robotics, to vision guidance and object recognition applications.

Working Principle

The LFE2-12E-5T144C is composed of four main components: logic blocks, interconnects, I/O blocks, and configuration elements. The logic blocks contain the logic functions that are used to implement the desired circuit design. These logic blocks are interconnected using the interconnects to create more complex logic functions. The I/O blocks are used to connect to external components, such as RAM, ROM, and other peripherals. Finally, the configuration elements are responsible for storing the configuration data that is loaded onto the device at power-up.

The LFE2-12E-5T144C is a reconfigurable device, meaning that it can be programmed to function as different types of devices, depending on the application. This is achieved through the use of configuration memory. The configuration memory stores the configuration data that is used to program the logic blocks, interconnects, and I/O blocks to the desired configuration. Configuration data is loaded into the configuration memory at power-up or when a new configuration is desired.

The LFE2-12E-5T144C supports the industry-standard SystemVerilog language for code synthesis, as well as a range of EDA tools for logic synthesis, logic verification, physical design, and boot-up configuration. Additionally, the device supports IP cores from various vendors, making it suitable for applications that require complex and highly optimized logic. These functionalities make the LFE2-12E-5T144C a powerful and flexible platform for embedded system design.

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