XCV800-6HQ240C

Series:	Virtex®
Part Status:	Obsolete
Number of LABs/CLBs:	4704
Number of Logic Elements/Cells:	21168
Total RAM Bits:	114688
Number of I/O:	166
Number of Gates:	888439
Voltage - Supply:	2.375 V ~ 2.625 V
Mounting Type:	Surface Mount
Operating Temperature:	0°C ~ 85°C (TJ)
Package / Case:	240-BFQFP Exposed Pad
Supplier Device Package:	240-PQFP (32x32)
Base Part Number:	XCV800

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Overview

The XCV800-6HQ240C is a specialized field programmable gate array (FPGA) integrated circuit (IC) used in embedded computing applications. FPGAs are chips that can be programmed to implement a specific piece of logic or application. In this way, they are simpler and more cost effective than designing a custom microchip for each application. FPGAs are integrated circuits (ICs) that contain blocks of configurable logic, called logic cells or logic blocks. By using these building blocks, designers can develop circuits very quickly and integrate them into a single, integrated circuit.The XCV800-6HQ240C features a 1.2V core supply voltage and a very low power consumption (about 20mA typical at 80MHz) which makes it ideal for embedded applications with restricted power and space requirements. Its logic cells can be implemented to offer a wide variety of operations, ranging from simple binary operations to complex functions such as cryptography, image processing, and instructional set architectures (ISAs). It also includes a set of special I/O control pins, dedicated memory, and configurable memory port.

Features

The XCV800-6HQ240C integrated circuit has several distinctive features. It integrates a number of high-speed serial transceivers and high density off-chip memory blocks for low latency and high performance. It also provides an on-chip clock generator, pre-configurable peripherals, and optional external clocks.A key feature of the XCV800-6HQ240C is its on-chip intellectual property (IP) core. The IP core consists of 3 dedicated blocks that not only reduce the design complexity, but also lead to faster development times. These blocks are the central processing unit (CPU), the media processor (MP), and the bus protocol controller (BPC). The CPU is the core block, responsible for taking instructions from memory, performing logical operations, and sending instructions back to memory. The BPC provides support for communication protocols, while the MP contains hardware acceleration to handle multimedia tasks and other computationally intensive tasks.The XCV800-6HQ240C also features fault-tolerant architecture and error-correcting codes. This ensures that the device is protected from errors and unwanted signals, making it reliable for use in industrial and automotive applications.

Applications

The XCV800-6HQ240C is commonly used in a wide range of applications, from automotive to industrial control, from home automation to smart grid applications. Some of the most common applications are:- Automotive systems such as braking, collision avoidance, and driver assistance.- Industrial control systems for plant automation.- Smart grid applications such as power monitoring and renewable energy integration.- Home automation systems such as thermostat and lighting control, as well as surveillance and security systems.- Audio, video, and multimedia applications.- Portable and medical applications.

Working Principle

The XCV800-6HQ240C FPGA is programmed using HDL code, which is stored in the device’s internal memory. The HDL code describes the basic operations and their desired logical outputs, such as setting a pin to logic high. The device then reads the HDL code and implements the logic in the form of logic cells. The logic cells are then linked together to form a large chain of logic where the outputs of one cell become the inputs of the subsequent cell.The logic cells consist of Boolean logic gates, arithmetic logic units (ALUs), counters, and registers. By combining these elements and wiring them up in the correct way, the desired logic output can be achieved. In order to ensure the device operates correctly, all of the logic must be tested and verified. This is done using simulation software, which replicates the hardware in the form of a model. The model is then tested using a variety of inputs to ensure that the logic performs the desired operations.

Conclusion

The XCV800-6HQ240C FPGA is a versatile, reliable and powerful integrated circuit used in a wide range of embedded applications. It features a 1.2V core supply voltage, low power consumption, fault-tolerant architecture, error-correcting codes, and pre-configured peripherals. It also includes a powerful on-chip IP core and the ability to implement a variety of applications with ease. The XCV800-6HQ240C is a great choice for embedded designers looking for advanced features and reliable performance.

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