XC2V80-4CSG144C Overview
Fpga chips is supplied in the 144-TFBGA, CSPBGA package. Fpga chips consists of FIELD PROGRAMMABLE GATE ARRAY elements. Having 92 I/Os makes data transfers more coherent. 1.5V volts power it. In this case, the FPGA part belongs to the Field Programmable Gate Arrays family. FPGA modules can be attached to development boards using a Surface Mount-connector. Powered by a 1.425V~1.575V supply voltage, fpga chips is able to operate at high speeds. The Virtex?-II Series is one of the types of FPGAs that belong to this type. When operating the machine, it is important to keep the temperature within 0°C~85°C TJ range. During the installation of this device, 92 outputs were incorporated. In order to save space, this FPGA model has been contained in Tray. As a whole, it has 144 terminations. This device is equipped with 147456 RAM bits in terms of its RAM si147456e. For related parts, use its base part number XC2V80. For the program to work properly, the RAM si18kBe of this FPGA module must reach 18kB GB in order to ensure normal operation. In order to make it work, 144 pins have been designed. A total of 128 LABs/CLBs are included in this FPGA. I think, as long as this FPGA is mounted in Surface Mount, it could perform excellently according to its specifications as long as you mount it in Surface Mount. Designers can fully utilize its flexibility with 1.5V supply voltage. It is powered by a 1.51.5/3.33.3V battery, which can be purchased separately. Fpga semiconductor is made up of 80000 gates as fpga semiconductors basic building block. Featuring 144 pins in total, it is a versatile device. It usually uses a 650MHz crystal. There are 1024 registers used to store and transfer data. 128 CLBs are basic modules used for its architecture. Fpga semiconductor incorporates 1152 logic cells used for the building block.
XC2V80-4CSG144C Features
92 I/Os
Up to 147456 RAM bits
144 LABs/CLBs
1024 registers
XC2V80-4CSG144C Applications
There are a lot of Xilinx Inc. XC2V80-4CSG144C FPGAs applications.
- Software-defined radio
- Software-defined radios
- Audio
- ASIC prototyping
- High Performance Computing
- Space Applications
- Scientific Instruments
- Filtering and communication encoding
- Wireless Communications
- Data center hardware accelerators