Embedded - PLDs (Programmable Logic Device)
The ATF16V8BQL-25PC is a type of Programmable Logic Device (PLD). PLDs are highly customizable embedded systems that can be configured to perform a great variety of logic functions. The ATF16V8BQL-25PC is typically used in industrial control systems and other high-performance applications requiring programmability.
Application Field
The ATF16V8BQL-25PC is an 8-input PLD that offers versatility for a variety of industrial control applications. It is a low-power, low-cost, highly reliable PLD that provides support for multiple input and output operating conditions for such tasks as motor control, data acquisition and distributed control. It is also widely used in embedded control systems that require customization such as robotics, printing, automated assembly and machine vision.
Working Principle
The ATF16V8BQL-25PC is built on a single-layer, 28-pin CMOS process and uses a PAL-type architecture, which simplifies implementation of customized logic functions. The device is programmed using a proprietary programming language that provides the user with an easy method to design and implement custom logic functions. Additionally, it has built-in error checking and a variety of programming options that make it easy to customize the logic functions being implemented. This also makes it easy to implement distributed control or data acquisition functions.
The ATF16V8BQL-25PC supports a wide range of programming options and features that make it highly configurable for the specific application needs. It includes a number of built-in functional blocks such as non-volatile memory and programmable delays that make it easy to customize the logic functions being implemented. Additionally, it supports a high degree of configurability with multiple input and output operating conditions, as well as adjustable timing parameters.
The ATF16V8BQL-25PC is a highly reliable and easy to program PLD for industrial control systems and high-performance applications. It has a small form factor and provides an efficient way of implementing customized logic functions with minimal power consumption and cost. Additionally, it supports a variety of programming options and features that make it highly configurable.