A1225A-PLG84I

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Introduction

A1225A-PLG84I is an embedded field programmable gate array (FPGA) that enables users to configure their systems to suit their individual needs. The A1225A-PLG84I is a low-cost, low-power FPGA that offers features including 4-channel synchronous logic, breakout enabling up to 80 signal pins, Flash memory and system level blocks. It also features programmable clock frequencies and standby functions. This FPGA is suitable for a broad range of embedded design requirements including embedded controllers, system level interfaces, and custom application-specific integrated circuit (ASIC) designs.

Applications of A1225A-PLG84I

The A1225A-PLG84I FPGA has been designed for use in a wide range of embedded applications. It is suitable for versatile control applications such as remotely controlled systems, data acquisition, and control systems for medical, industrial, and automotive applications. It is also suitable for use in advanced embedded communication applications. Examples include industrial Ethernet, RS485, CANBus, device and system bridges, and smart wireless communication systems.

The A1225A-PLG84I FPGA is also suitable for image and video processing applications. It is capable of advanced image processing, including image segmentation, image rotation and video stabilization. The FPGA is also suitable for digital video capture, 8- and 10-bit video coding, and adaptive Huffman coding. Other applications include digital signal processing (DSP) including digital filtering, and fast Fourier transforms (FFT).

Working Principle

At its core, an FPGA is a reconfigurable logic array formed by a grid of logic gates. Gates are analogous to physical switches that can be connected in different ways according to a given design. When the logic gates are interconnected, the result is a logic circuit that implements the specified design. In the A1225A-PLG84I, the logic array is configured from the memory blocks and embedded blocks.

The A1225A-PLG84I uses a cell-based logic circuit design to speed up the logic synthesis process. With the cell-based logic design, individual logic blocks or ‘cells’ are connected together to form the desired circuit. The cells are programmed using a programming language such as Verilog or VHDL. The user defines the functionality of the FPGA by programming the blocks according to his specifications.

The A1225A-PLG84I also features power-saving features such as Clock Gating and Multiple Clock Domain Support. Clock Gating reduces the power consumed by setting the logic gates to OFF when not in use. Multiple Clock Domain Support enables the FPGA to switch between multiple clock frequencies, reducing power consumption and improving system performance. Finally, the A1225A-PLG84I features system level blocks, which enable the integration of a variety of I/O protocols and other system level blocks into the user design.

Conclusion

The A1225A-PLG84I is an embedded field programmable gate array (FPGA) that is suitable for a wide range of embedded applications. It offers 4-channel synchronous logic, breakout enabling up to 80 signal pins, Flash memory and system level blocks. It also features programmable clock frequencies and standby functions. The A1225A-PLG84I is capable of advanced image processing, digital signal processing and fast Fourier transforms, as well as being suitable for industrial Ethernet, RS485, CANBus, device and system bridges, and smart wireless communication systems. With its cell-based logic circuit design, clock gating and multiple clock domain support, the A1225A-PLG84I is an excellent choice for any embedded application.

The specific data is subject to PDF, and the above content is for reference