XC2C128-7CP132I

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Embedded – CPLDs (Complex Programmable Logic Devices) are widely used in many industries. XC2C128-7CP132I is one type of these devices that is used for numerous applications and utilizes an efficient working principle. This article will discuss the application field and working principle of XC2C128-7CP132I.

XC2C128-7CP132I is designed by Xilinx and is a Complex Programmable Logic Device (CPLD) with a maximum memory capacity of 128 macrocell. It has a 144-pin package with a VCC minimum voltage of 1.65V and a VCC maximum voltage of 3.3V. Its high speed capabilities and low power consumption make it an ideal choice for applications with low-cost and low-power requirements. Moreover, its wide range of high-performance features make it suitable for embedded applications such as automotive, industrial, and communication systems.

In terms of its working principle, the XC2C128-7 CP132I is a type of programmable logic integrated circuit (PLI). This device is characterized by its ability to electronically configure logic functions as well as used as storage elements. It also provides users with programmable logic elements that can be utilized to implement a variety of logic functions. This device also consists of programmable logic blocks (PLBs) at the top level. A typical PLB comprises of a configurable part that is responsible for implementing different functions. It also has a register set that provides access to data for the logic operations.

At the core of the device is the Configuration Logic Block (CLB) that is responsible for the device\'s programming. Each CLB is made up of two Logic Elements (LEs), which contain four function generators and one clock generator. These LEs are available in various types of gates and can produce logic signals that can be connected to other logic elements or outputs.

When programming the device, users need to provide the configuration data to the Configuration Logic Block. This data is stored in a look-up table (LUT) and is used for the configuration of each LE. This configuration is then used to generate the required logic signals. This process is commonly referred to as reconfigurable computing.

XC2C128-7CP132I also utilizes a non-volatile memory to store the configuration data. This non-volatile memory allows the device to maintain the configuration even when power is removed. This makes it a more reliable solution for embedded applications requiring low power consumption.

The XC2C128-7CP132I is used in a variety of embedded applications including automotive controllers, digital signal processing (DSP) systems, medical equipment, remote controls, industrial automation, and many more. Its versatile design and high performance features make it suitable for a broad range of applications.

In conclusion, the XC2C128-7CP132I is a reliable and efficient CPLD that is used in a variety of embedded applications. Its power efficient design provides users with a low power and low cost solution for their applications. Its high speed capabilities and configuration logic blocks also make it an ideal choice for embedded systems requiring flexibility and high performance.

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