XC2V40-5CSG144I Overview
A 144-TFBGA, CSPBGA package is provided with this component. A FIELD PROGRAMMABLE GATE ARRAY-based FPGA is one of these types. A total of 88 I/Os are programmed to ensure a more coherent data transfer. In order to operate fpga chips, a voltage supply of 1.5V volts is required. The Field Programmable Gate Arrays family of FPGA parts includes this part. The Surface Mount-slot connector on the FPGA module can be connected to the development board. A supply voltage of 1.425V~1.575V is needed in order for fpga chips to operate. FPGAs belonging to the Virtex?-II series are a type of FPGA that belong to the Virtex?-II series of FPGAs. In order to ensure a safe and efficient operation, it is important to maintain a temperature within -40°C~100°C TJ at all times. With this device, you will be able to make use of 88 outputs. As a space-saving measure, this FPGA model is contained within Tray. In total, there are a total of 144 terminations on fpga chips. This device has 73728 RAM bits, which is the number of RAM bits that this device offers. For related parts, use its base part number XC2V40. There is a maximum RAM si9kBe of 9kB on this FPGA module, which is necessary to ensure the normal operation of the program. In this case, there are 144 pins on the board. The FPGA is built as an array of 64 latches or CLBs. In order for this FPGA to work properly in accordance with its specifications, it is necessary that it is mounted in Surface Mount. Its flexibility is fully utilized when operated with a supply voltage of 1.5V. There are 40000 gates in its basic building block. There are a total of 144 pins on this device. The registers used in the transfer of and storage of data are 512 in number. In order to make the architecture work, 64 CLBs are used. Fpga semiconductor incorporates 576 logic cells used for the building block.
XC2V40-5CSG144I Features
88 I/Os
Up to 73728 RAM bits
144 LABs/CLBs
512 registers
XC2V40-5CSG144I Applications
There are a lot of Xilinx Inc. XC2V40-5CSG144I FPGAs applications.
- Automotive Applications
- Automation
- Industrial Ethernet
- Data Center
- Computer hardware emulation
- Cryptography
- Digital signal processing
- Automotive advanced driver assistance systems (ADAS)
- Bioinformatics
- Data center search engines