Allicdata Part #: | XCV400E-6BG432C-ND |
Manufacturer Part#: |
XCV400E-6BG432C |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Xilinx Inc. |
Short Description: | IC FPGA 316 I/O 432MBGA |
More Detail: | N/A |
DataSheet: | XCV400E-6BG432C Datasheet/PDF |
Quantity: | 1000 |
Series: | Virtex®-E |
Part Status: | Obsolete |
Number of LABs/CLBs: | 2400 |
Number of Logic Elements/Cells: | 10800 |
Total RAM Bits: | 163840 |
Number of I/O: | 316 |
Number of Gates: | 569952 |
Voltage - Supply: | 1.71 V ~ 1.89 V |
Mounting Type: | Surface Mount |
Operating Temperature: | 0°C ~ 85°C (TJ) |
Package / Case: | 432-LBGA Exposed Pad, Metal |
Supplier Device Package: | 432-MBGA (40x40) |
Base Part Number: | XCV400E |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Embedded applications depend on reliable hardware and software components that can be tailored to a specific task. Field programmable gate arrays (FPGAs) are uniquely suited to embedded systems, as they can provide fast, flexible hardware designs that can be adapted to changing conditions. The XCV400E-6BG432C FPGA is a popular choice for embedded applications, thanks to its compact size and low power consumption. In this article, we\'ll explore the XCV400E-6BG432C\'s application field and working principle.
The XCV400E-6BG432C is an FPGA designed for high-performance digital signal processing applications. The FPGA contains a number of digital logic components that can be programmed to perform specialized functions. These digital logic components are organized into logic blocks and connected to adjacent logic blocks by global interconnects. This creates a "reconfigurable fabric" that can be reprogrammed to create complex digital signal processing algorithms.
The XCV400E-6BG432C has a number of features that make it suitable for embedded applications. It contains 65,536 bits of LUT (Lookup Table) RAM, and can support up to 64kbits of RAM and ROM, which is sufficient for most embedded applications. The FPGA can be clocked at speeds up to 250MHz, making it suitable for applications which require high throughput or contain complex signal processing algorithms. The XCV400E-6BG432C also features power savings features, such as dynamic voltage scaling, allowing the FPGA to operate at lower voltages when not in use, reducing overall power consumption.
The XCV400E-6BG432C is also a relatively low-cost FPGA solution, making it attractive for embedded applications. The FPGA contains software-programmable I/O pins, allowing the FPGA to interface with off-the-shelf peripherals, such as USB controllers and Ethernet adapters, without the need for custom hardware. The FPGA also features built-in debugging features, allowing developers to quickly identify and repair any errors in their code.
The XCV400E-6BG432C\'s working principle is relatively simple and relies on two key components: logic blocks and interconnects. Logic blocks contain the logic functions that can be programmed in hardware. These logic functions can be used to create custom circuits or algorithms that can be used to manipulate signals or perform calculations. The interconnects between blocks are used to connect different logic functions together, creating a path for the data to flow through.
The XCV400E-6BG432C can be programmed using a number of different programming languages, including Verilog, VHDL, C, and System Verilog. The programming language used determines the structure of the FPGA circuit, as well as the nature of the logic blocks used. Once the FPGA is programmed, the individual components act as one integrated unit, allowing the embedded system to quickly and efficiently perform its assigned tasks.
In conclusion, the XCV400E-6BG432C is a versatile FPGA solution that is suitable for a wide range of embedded applications. It contains 65,536 bits of RAM and can operate at speeds up to 250MHz. Its low-cost and built-in debugging features make it a desirable choice for embedded systems. Additionally, the XCV400E-6BG432C\'s working principle is based on two key components: logic blocks and global interconnects, which can be programmed in a number of different programming languages.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
XCV400-4BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400-4BG432I | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400-4BG560C | Xilinx Inc. | -- | 37 | IC FPGA 404 I/O 560MBGA |
XCV400-4BG560I | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 560MBGA |
XCV400-4FG676C | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400-4FG676I | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400-4HQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240HQFP |
XCV400-4HQ240I | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240HQFP |
XCV400-5BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400-5BG432I | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400-5BG560C | Xilinx Inc. | 65.67 $ | 300 | IC FPGA 404 I/O 560MBGA |
XCV400-5BG560I | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 560MBGA |
XCV400-5FG676C | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400-5FG676I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400-5HQ240C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 166 I/O 240HQFP |
XCV400-5HQ240I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 166 I/O 240HQFP |
XCV400-6BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400-6BG560C | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 560MBGA |
XCV400-6FG676C | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400-6HQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240HQFP |
XCV400E-6BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400E-6BG560C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 404 I/O 560MBGA |
XCV400E-6BG560I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 404 I/O 560MBGA |
XCV400E-6FG676C | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400E-6FG676I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400E-6PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 158 I/O 240QFP |
XCV400E-6PQ240I | Xilinx Inc. | 65.67 $ | 3 | IC FPGA 158 I/O 240QFP |
XCV400E-7BG432C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400E-7BG432I | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400E-7BG560C | Xilinx Inc. | -- | 60 | IC FPGA 404 I/O 560MBGA |
XCV400E-7BG560I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 404 I/O 560MBGA |
XCV400E-7FG676C | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400E-7FG676I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400E-7PQ240C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
XCV400E-7PQ240I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
XCV400E-8BG432C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 316 I/O 432MBGA |
XCV400E-8BG560C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 404 I/O 560MBGA |
XCV400E-8FG676C | Xilinx Inc. | -- | 1000 | IC FPGA 404 I/O 676FBGA |
XCV400E-8PQ240C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
XCV405E-6BG560C | Xilinx Inc. | 90.29 $ | 7 | IC FPGA 404 I/O 560MBGA |
IC FPGA - Field Programmable Gate Array ...
IC FPGA - Field Programmable Gate Array ...
IC FPGA
IC FPGA
IC FPGA
IC FPGA 148 I/O 208QFP