XCV2000E-7BG560C Overview
A 560-LBGA Exposed Pad, Metal package is provided with this component. Fpga chips consists of FIELD PROGRAMMABLE GATE ARRAY elements. A total of 404 I/Os allow data to be transferred in a more coherent manner. In order to construct a fundamental building block, 43200 logic elements/cells are required. 1.8V volts power it. There is a Field Programmable Gate Arrays family component in this FPGA part. With a Surface Mount connector, this FPGA module can be attached to the development board. There is a 1.71V~1.89V-volt supply voltage required for the device to operate. The Virtex?-E series FPGA is a type of FPGA that belongs to the Virtex?-E family of FPGAs. The operating temperature should be kept at 0°C~85°C TJ when operating. In this device, 404 outputs are incorporated in order to provide you with maximum flexibility. It is for space saving reasons that this FPGA model is contained in Tray. In total, it has 560 terminations on each end. A device like this one offers 655360 RAM bits, which is a considerable amount of memory. If you are looking for related parts, you can use the base part number XCV2000E as a starting point. A significant amount of RAM is allocated to this FPGA module to ensure that the program can operate normally. 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. Designers can fully utilize its flexibility with 1.8V supply voltage. There are 2541952 gates that make up its basic building block. Featuring 560 pins in total, it is a versatile device. Most of the time, it uses a crystal oscillating at 400MHz to generate the signal. 518400 equivalent gates are used to implement the design in the FPGA.
XCV2000E-7BG560C Features
404 I/Os
Up to 655360 RAM bits
XCV2000E-7BG560C Applications
There are a lot of Xilinx Inc. XCV2000E-7BG560C FPGAs applications.
- Artificial intelligence (AI)
- Industrial Ethernet
- Voice recognition
- Military Temperature
- Bioinformatics
- Medical imaging
- Data Mining
- Telecommunication
- Random logic
- Software-defined radio