XCV150-6BG352C Overview
There are two packages that contain fpga chips: 352-LBGA Exposed Pad, Metal package and X package. The FIELD PROGRAMMABLE GATE ARRAY-series of FPGAs are composed of this type. The I/Os are designed to facilitate a more coherent transfer of data. A fundamental building block is made up of 3888 logic elements/cells. It is powered from a supply voltage of 2.5V. Field Programmable Gate Arrays family FPGA part. An FPGA module can be attached to a development board with a Surface Mount-pin. In order for it to operate, the supply voltage must be 2.375V~2.625V . It is a type of FPGA that belongs to the Virtex? series of FPGAs. As far as the operating temperature is concerned, it should be kept within 0°C~85°C TJ when operating. A total of 260 outputs are incorporated into this device. In order to save space, this FPGA model has been contained in Tray. As a whole, it has 352 terminations. This device is equipped with 49152 RAM bits in terms of its RAM si49152e. For related parts, use its base part number XCV150. The FPGA module's RAM si6kBe reaches 6kB in order to ensure that the program operates in a normal manner. A total of 864 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. There is a 1.2/3.62.5V power supply that is required to operate it. Fpga semiconductor is made up of 164674 gates as fpga semiconductors basic building block. Fpga semiconductor is equipped wfpga semiconductorh 352 pin count. Typically, fpga semiconductor uses a crystal oscillating at 333MHz . An architecture consists of 864 CLBs.
XCV150-6BG352C Features
260 I/Os
Up to 49152 RAM bits
XCV150-6BG352C Applications
There are a lot of Xilinx Inc. XCV150-6BG352C FPGAs applications.
- Cryptography
- Audio
- Development Boards and Shields for Microcontrollers
- Broadcast
- Medical Applications
- Filtering and communication encoding
- Wired Communications
- Server Applications
- Image processing
- Random logic