A42MX24-2PQ160

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

Embedded Field Programmable Gate Arrays (FPGAs) are integrated circuits that are highly configurable and enable the user to reprogram them for multiple projects. The A42MX24-2PQ160 is designed to provide a high-performance, low-power FPGA solution. It is based on a MIPS32 24K core with two flexible floating-point units and two Harvard-type (instruction and data buses) architectures.

It is designed with two power domains – On and OFF – that allow it to be in low-power mode during idle times, allowing it to conserve power and reach higher performance rates. The main features to consider when using this FPGA are its innovative modular interface technology, high-performance and low-power operation. The design of the A42MX24-2PQ160 is based on a scalable, modular, and customizable platform that simplifies the integration of custom features, thus allowing for a high level of system flexibility. The use of this FPGA is in industrial applications such as automation and control, embedded systems (e.g., real-time systems or avionics), or any application that requires a flexible, high-performance FPGA.

The A42MX24-2PQ160’s working principle is based on a number of components that make up an FPGA. It first begins with the logic element (LE) which consists of combinational and/or sequential logic such as AND/OR gates, flip-flops, and registers. These elements are then connected to I/O blocks by way of routing channels and switch boxes. To program an FPGA, the user needs to create a programming file that describes the logic elements and the connections between them. This programming file is then loaded into the FPGA, which configures the LEs, I/O blocks and switch boxes to create the desired logic design.

The A42MX24-2PQ160 includes a high-performance logic block that is optimized for flexibility and can handle complex applications. This block is configurable around a parallel interface and features a pipelined architecture with a 16-bit instruction word and 32 cycles for high-speed signal transfer. A synchronous design using register-based state logic and instruction sequencing provides dependable signal recovery and holds predictive execution even under heavy switching load. The instruction sequencing and register-based state logic also ensures deterministic operation.

The A42MX24-2PQ160 incorporates a dedicated clock source that is made up of two independent phase-locked-loop (PLL) units. This allows the A42MX24-2PQ160 to provide fast and reliable clock signals over a wide range of frequencies. The PLL also provides phase synchronization between data, clock, and control signals to deliver a reliable high-speed, low-power design solution.

In addition to its capabilities as an FPGA, the A42MX24-2PQ160 also comes with two embedded processors. These processors are based on the MIPS32 24K core with two flexible floating-point units and two Harvard-type architectures. This processor provides an optimal combination of performance, power, and cost for embedded system applications and is compatible with Nios II and ARM Cortex-M3 architectures.

The A42MX24-2PQ160’s main advantage is its low-power operation. It is designed to provide power savings during idle times through the use of its two power domains - On and OFF. The On domain is designed to run at full clock rate while the OFF domain is designed to run at a lower clock rate and halt at certain parts of the cycle when idle. This makes it ideal for applications where low-power consumption is important.

Overall, the A42MX24-2PQ160 is a versatile and highly configurable Field Programmable Gate Array. It offers high-performance, low-power operation, as well as two embedded processors for optimal solutions for embedded systems. The use of its two power domains further allows for greater power savings, making it ideal for applications that require low power consumption. This FPGA offers a flexible, high-performance design solution for a variety of industrial applications.

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