A14V25A-PLG84C

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 - FPGAs (Field Programmable Gate Array)

Field Programmable Gate Array (FPGA) are integrated circuits designed to be configured by the customer, or designer, after manufacturing, through the use of software. They can be used to implement any logical function that an application-specific integrated circuit (ASIC) can perform. FPGAs are commonly used in embedded systems and provide a cheaper and faster solution compared to the traditional ASIC development flow.

The A14V25A-PLG84C is an FPGA from Actel Corporation, designed for applications such as communications and controls. Its field of application includes a variety of digital, electronic and embedded systems. It is a complex logic device, composed of digital logic circuits with multiple levels of complexity, offering a cost-effective solution for applications that require high levels of control.

Working Principle

The A14V25A-PLG84C is based around the concept of reconfigurable logic. The FPGA utilizes programmable logic blocks and interconnected input/output (I/O) circuits. These blocks are connected together via several buses and interconnected switches. The logic blocks can be programmed to perform complex functions, such as adders, multipliers, counters and flip-flops. The user can also program the configuration of the I/O pins, allowing connections to the outside world. This allows the user to define multiple functions that the FPGA can perform.

The FPGA works by compiling an input program into logic blocks. This can be done either with a hardware development board or a software tool. The latter option is typically used for designs that require more flexibility, as the tool can be used to adjust the logic for different circuit applications. Once the program is compiled, the FPGA is programmed with this configuration and can begin to operate.

The A14V25A-PLG84C can be configured to operate on either one or two independent clock speeds. It can also be configured to operate in synchronous mode, where the logic triggered by one clock cycle is stored in the configuration memory and then applied to the logic blocks simultaneously. This allows for complex functions to be performed at multiple clock speeds. The device also contains a power-on reset circuit, which can be used to ensure that all logic blocks are in the defined reset state during power up.

Another key feature of the A14V25A-PLG84C is its access to on-chip memory. This memory allows the user to store program code and data that can be accessed by different functions. It can also be used for data buffering in order to provide more efficient communication between different logic blocks. The FPGA also has two distinct types of memory blocks: static RAM (SRAM) and non-volatile memory (NVM). SRAM allows for faster access to variables, while NVM is used to store configuration data that needs to be retained even if power is lost.

Applications

The A14V25A-PLG84C is used in a variety of applications including telecommunications, industrial control, and robotics. In telecommunications, it can be used as a part of multimedia processing systems or as a part of a centralized control system. In industrial control systems, FPGAs can be used to build sophisticated machine controllers that can monitor and adjust multiple subsystems. Additionally, it can be used in the construction of robotic systems, providing the ability to store programming code and respond to changes in the environment.

The A14V25A-PLG84C is also used in the aerospace industry. It is capable of handling multiple functions simultaneously and can operate at high speeds. This makes it an attractive option for use in satellites and other space-based systems. Additionally, the FPGA can be used in manned aircraft, providing on-board control systems that help reduce operational costs.

The A14V25A-PLG84C is also used in the automotive industry. It can be used in engine control systems, providing the ability to monitor engine efficiency and performance. It can also be used in the implementation of various safety features and the control of radar and other sensors. Finally, the flexibility and scalability of FPGAs make them an attractive option for use in motor control systems and body control systems.

Conclusion

The A14V25A-PLG84C is a versatile field programmable gate array (FPGA) from Actel Corporation. It is designed for applications such as communications and controls and can be used in embedded systems, telecommunications, robotics and automotive systems. Its key features include reconfigurable logic, two independent clock speeds, access to on-chip memory, power-on reset circuit, and static and non-volatile memory blocks. This makes the A14V25A-PLG84C an ideal solution for applications that require high levels of control and flexibility.

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