XCV2000E-7FG860I Overview
The package that contains this software is called 860-BGA. In this kind of FPGA, FIELD PROGRAMMABLE GATE ARRAY is used. Having 660 I/Os makes data transfers more coherent. A fundamental building block consists of 43200 logic elements/cells. In order for the device to operate, a supply voltage of 1.8V volts needs to be provided. Field Programmable Gate Arrays family FPGA part. An attachment Surface Mount allows the FPGA module to be attached to the development board. Fpga chips operates at a voltage of 1.71V~1.89V and uses a battery to supply power. An FPGA belonging to the Virtex?-E series is referred to as an FPGA. As far as the operating temperature is concerned, it should be kept within -40°C~100°C TJ when operating. This device is equipped with 660 separate outputs, which makes it a very versatile device. There is an FPGA model contained in Tray in order to conserve space. In total, there are a total of 860 terminations on fpga chips. A device like this one offers 655360 RAM bits, which is a considerable amount of memory. XCV2000E is the base part number that can be used to identify related parts. There is a maximum RAM si80kBe of 80kB on this FPGA module, which is necessary to ensure the normal operation of the program. This FPGA is built as an array of 9600 LABs/CLBs. As long as this FPGA is mounted in Surface Mount, it could work fantastically according to its specifications. Fpga electronics operates from a 1.2/3.61.8V power supply. As a basic building block, fpga semiconductor consists of 2541952 gates. In addition to this, it has 860 pins. Most commonly, this device makes use of an oscillating crystal frequency of 400MHz to operate. 518400 equivalent gates are used to implement the design in the FPGA.
XCV2000E-7FG860I Features
660 I/Os
Up to 655360 RAM bits
XCV2000E-7FG860I Applications
There are a lot of Xilinx Inc. XCV2000E-7FG860I FPGAs applications.
- Random logic
- Radar and Sensors
- Automotive
- ASIC prototyping
- Wireless Communications
- Electronic Warfare
- Broadcast
- Integrating multiple SPLDs
- Enterprise networking
- Software-defined radios
