Allicdata Part #: | XCV50-5FG256I-ND |
Manufacturer Part#: |
XCV50-5FG256I |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Xilinx Inc. |
Short Description: | IC FPGA 176 I/O 256FBGA |
More Detail: | N/A |
DataSheet: | XCV50-5FG256I Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | Virtex® |
Part Status: | Obsolete |
Number of LABs/CLBs: | 384 |
Number of Logic Elements/Cells: | 1728 |
Total RAM Bits: | 32768 |
Number of I/O: | 176 |
Number of Gates: | 57906 |
Voltage - Supply: | 2.375 V ~ 2.625 V |
Mounting Type: | Surface Mount |
Operating Temperature: | -40°C ~ 100°C (TJ) |
Package / Case: | 256-BGA |
Supplier Device Package: | 256-FBGA (17x17) |
Base Part Number: | XCV50 |
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Embedded - FPGAs (Field Programmable Gate Array)
A Field Programmable Gate Array (FPGA) is a type of specialized integrated circuit that can be custom designed for particular applications. The XCV50-5FG256I is an example of a mid-range FPGA from Xilinx Corporation that offers an impressive array of features while still remaining cost-effective. This device can be reprogrammed to suit any particular application. This article will provide an overview of the application field and working principle of the XCV50-5FG256I.
Application Field of XCV50-5FG256I
The XCV50-5FG256I has several applications in industries such as telecommunications, aerospace, industrial automation, power and energy, medical, automotive, and consumer electronics. One of its primary uses is as a replacement for custom-made integrated circuits in many applications. For example, it can be used as the primary processor in a mobile phone, eliminating the need for separate processors or memory chips. It can also be used to replace several processors and memory chips in industrial automation systems, providing an efficient, low-power solution for these applications.
The XCV50-5FG256I also offers high speeds, low power consumption, and robust functionality in a cost-effective solution. It supports multiple bus speeds and includes a host of features such as memory expansion, programmable logic, and communication interfaces. It is also highly versatile, as it can be programmed to suit a variety of applications.
Working Principle of XCV50-5FG256I
The XCV50-5FG256I is based on a Field Programmable Gate Array (FPGA), which is a type of integrated circuit (IC). This type of IC is highly customizable and can be tailored to suit particular applications. In the case of the XCV50-5FG256I, it utilizes a “Sea of Gates” architecture. The architecture consists of several smaller blocks of logic cells which are connected to form larger blocks as needed for particular applications. Each cell can be programmed to perform a certain logic operation, and the cells can be connected to create more complex logic functions.
The FPGA also utilizes several different types of interconnects to allow multiple components to communicate and exchange data. These interconnects include the following: dedicated routing channels, distributed routing, dedicated RAM memory, and serial buses. The dedicated routing channels are used to route data between functional components in the FPGA, while the distributed routing system is used to route data between the logic cells. Meanwhile, the dedicated RAM memory is used to store data, while the serial buses are used to allow communication between components.
The FPGA can also be programmed to suit different applications. This is done via the software known as a “Programmable Logic Device (PLD)”. This software allows users to configure the FPGA to their particular application. By using the PLD software, designers can control the interconnects, logic blocks, memory, and other features of the FPGA, allowing them to produce a highly tailored solution for their application.
Conclusion
The XCV50-5FG256I provides a cost-effective solution for many applications. It is based on a Field Programmable Gate Array (FPGA) architecture, and utilizes a “Sea of Gates” to allow for the programming of logic cells and features. It also features several different types of interconnects, dedicated RAM memory, and programmable logic devices to allow users to create highly custom solutions for their unique applications. As a result, the XCV50-5FG256I is an efficient and powerful solution for many applications and industries.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
XCV50-4BG256C | Xilinx Inc. | -- | 1000 | IC FPGA 180 I/O 256BGA |
XCV50-4BG256I | Xilinx Inc. | -- | 1000 | IC FPGA 180 I/O 256BGA |
XCV50-4CS144C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50-4CS144I | Xilinx Inc. | -- | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50-4FG256C | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50-4FG256I | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50-4PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV50-4PQ240I | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV50-4TQ144C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 98 I/O 144TQFP |
XCV50-4TQ144I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 98 I/O 144TQFP |
XCV50-5BG256C | Xilinx Inc. | -- | 1000 | IC FPGA 180 I/O 256BGA |
XCV50-5BG256I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 180 I/O 256BGA |
XCV50-5CS144C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50-5CS144I | Xilinx Inc. | -- | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50-5FG256C | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50-5FG256I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50-5PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV50-5PQ240I | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV50-5TQ144C | Xilinx Inc. | -- | 1000 | IC FPGA 98 I/O 144TQFP |
XCV50-5TQ144I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 98 I/O 144TQFP |
XCV50-6BG256C | Xilinx Inc. | -- | 1000 | IC FPGA 180 I/O 256BGA |
XCV50-6CS144C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50-6FG256C | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50-6PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV50-6TQ144C | Xilinx Inc. | -- | 1000 | IC FPGA 98 I/O 144TQFP |
XCV50E-6CS144C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50E-6CS144I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50E-6FG256C | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50E-6FG256I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50E-6PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 158 I/O 240QFP |
XCV50E-6PQ240I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
XCV50E-7CS144C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50E-7CS144I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50E-7FG256C | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50E-7FG256I | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50E-7PQ240C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
XCV50E-7PQ240I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
XCV50E-8CS144C | Xilinx Inc. | -- | 1000 | IC FPGA 94 I/O 144CSBGA |
XCV50E-8FG256C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 176 I/O 256FBGA |
XCV50E-8PQ240C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
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