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XCR3384XL-10PQG208I Specifications
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TypeParameter
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Number of Gates9000
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Number of Logic Elements/Blocks24
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Supplier Device Package208-PQFP (28x28)
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Package / Case208-BFQFP
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Mounting TypeSurface Mount
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Operating Temperature-40°C ~ 85°C (TA)
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Number of I/O172
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Number of Macrocells384
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Voltage Supply - Internal2.7V ~ 3.6V
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Delay Time tpd(1) Max9 ns
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Programmable TypeIn System Programmable (min 1K program/erase cycles)
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DigiKey ProgrammableNot Verified
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PackagingTray
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Product StatusObsolete
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SeriesCoolRunner XPLA3
The XCR3384XL-10PQG208I is a specific model of integrated circuit (IC) chip manufactured by Xilinx. It belongs to the XCR3000XL family of Field-Programmable Gate Arrays (FPGAs). Here are some advantages and application scenarios of this IC chip:Advantages: 1. High-density and high-performance: The XCR3384XL-10PQG208I offers a large number of logic cells, I/O pins, and memory blocks, allowing for complex digital designs and high-speed data processing. 2. Flexibility: Being an FPGA, it is programmable and can be reconfigured to implement different functionalities, making it suitable for prototyping and development of various applications. 3. Low power consumption: The XCR3384XL-10PQG208I is designed to be power-efficient, making it suitable for battery-powered devices or applications where power consumption is a concern. 4. Integrated features: It includes built-in features like clock management, digital signal processing (DSP) blocks, and memory blocks, which can simplify the design process and reduce the need for external components.Application scenarios: 1. Digital signal processing: The XCR3384XL-10PQG208I can be used in applications that require real-time processing of digital signals, such as audio and video processing, telecommunications, and software-defined radio. 2. Embedded systems: It can be used in embedded systems where custom logic is required, such as industrial automation, robotics, and automotive electronics. 3. Prototyping and development: The reconfigurable nature of FPGAs makes them ideal for prototyping and development of new electronic systems, allowing for quick iterations and modifications. 4. High-performance computing: FPGAs can be used as accelerators in high-performance computing systems, offloading specific tasks to improve overall system performance.It's important to note that the specific advantages and application scenarios may vary depending on the requirements and design considerations of a particular project.