XCV50-4CS144I Overview
A 144-TFBGA, CSPBGA package is provided with this component. In this kind of FPGA, FIELD PROGRAMMABLE GATE ARRAY is used. This device features 94 I/Os in order to transfer data in a more efficient manner. A fundamental building block consists of 1728 logic elements/cells. An electrical supply voltage of 2.5V powers it. FPGA parts like this belong to the Field Programmable Gate Arrays family. With a Surface Mount connector, this FPGA module can be attached to the development board. There is a 2.375V~2.625V-volt supply voltage required for the device to operate. FPGAs belonging to the Virtex? series are a type of FPGA that belong to the Virtex? 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. This device is equipped with 94 separate outputs, which makes it a very versatile device. Unlike other FPGA models, this one is contained in Tray for the sake of space saving. Total terminations are 144. There are 32768 RAM bits that are available with this device. If you are looking for related parts, you can use the base part number XCV50 as a starting point. A significant amount of RAM is allocated to this FPGA module to ensure that the program can operate normally. 384 LABs/CLBs are configured on this FPGA. Providing the FPGA is mounted in Surface Mount as per the specifications of the IC, then it should work perfectly according to its specifications. An external power supply of 1.2/3.62.5V is required to power the device. Among its basic building blocks, there are 57906 gates that are included in it. Featuring 144 pins in total, it is a versatile device. Fpga semiconductor typically uses a crystal oscillating at 250MHz. In order to make the architecture work, 384 CLBs are used.
XCV50-4CS144I Features
94 I/Os
Up to 32768 RAM bits
XCV50-4CS144I Applications
There are a lot of Xilinx Inc. XCV50-4CS144I FPGAs applications.
- Scientific Instruments
- Secure Communication
- Data center hardware accelerators
- Image processing
- Medical Electronics
- Random logic
- Software-defined radio
- Distributed Monetary Systems
- OpenCL
- Filtering and communication encoding