XCV405E-7BG560I Overview
This package is included in the 560-LBGA Exposed Pad, Metal package and is available for purchase. FIELD PROGRAMMABLE GATE ARRAY is the component of this type of FPGA. Its 404 I/Os help it transfer data more efficiently. Logic blocks consist of 10800 logic elements/cells. Fpga chips is powered from a supply voltage of 1.8V. A Field Programmable Gate Arrays-series FPGA part. By attaching the Surface Mount connector, you can use this FPGA module with your development board. There is a 1.71V~1.89V-volt supply voltage required for the device to operate. There are many types of FPGAs in the Virtex?-E EM series, this is one of them. While operating, the operating temperature should be kept within a range of -40°C~100°C TJ. The device has 404 outputs that are integrated into it. A model of this FPGA is contained in Tray for the purpose of saving space. As a whole, it has 560 terminations. As far as the RAM bits are concerned, this device offers you a total of 573440. You can find related parts by using the part number XCV405E, which is its base part number. For the program to work properly, the RAM si70kBe of this FPGA module must reach 70kB GB in order to ensure normal operation. This FPGA is built as an array of 2400 LABs/CLBs. Fpga electronics is possible for this FPGA to perform as per fpga electronics s specifications as long as fpga electronics is mounted in Surface Mount direction. Design engineers can fully take advantage of its flexibility when operating at 1.8V supply voltage. A basic building block for this type of building block consists of 129600 gates. In addition to this, it has 560 pins. Fpga semiconductor typically uses a crystal oscillating at 400MHz.
XCV405E-7BG560I Features
404 I/Os
Up to 573440 RAM bits
XCV405E-7BG560I Applications
There are a lot of Xilinx Inc. XCV405E-7BG560I FPGAs applications.
- Secure Communication
- Industrial Ethernet
- Digital signal processing
- Automotive advanced driver assistance systems (ADAS)
- Development Boards and Shields for Microcontrollers
- Radar and Sensors
- ADAS
- Random logic
- Aerospace and Defense
- ASIC prototyping