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1SG110HN1F43E1VG Specifications
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TypeParameter
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Supplier Device Package1760-FBGA (42.5x42.5)
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Package / Case1760-BBGA, FCBGA
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Operating Temperature0°C ~ 100°C (TJ)
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Mounting TypeSurface Mount
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Voltage - Supply0.77V ~ 0.97V
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Number of I/O688
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Number of Logic Elements/Cells1100000
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Number of LABs/CLBs137500
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DigiKey ProgrammableNot Verified
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PackagingTray
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Product StatusActive
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SeriesStratix® 10 GX
The 1SG110HN1F43E1VG integrated circuit (IC) chips, also known as field-programmable gate arrays (FPGAs), have several advantages and application scenarios:Advantages: 1. Flexibility: FPGAs can be reprogrammed or reconfigured to perform different functions, making them highly flexible compared to fixed-function ASICs. 2. High performance: FPGAs can achieve high processing speeds and parallelism due to their ability to implement multiple functions simultaneously. 3. Low power consumption: These IC chips are designed to optimize power consumption, making them suitable for applications with strict power requirements. 4. Customizability: FPGAs can be customized to meet specific application requirements, allowing designers to implement unique functionalities. 5. Prototyping and development: FPGAs are commonly used for rapid prototyping and development of complex digital systems, enabling quick iterations and testing.Application scenarios: 1. Communications and networking: FPGAs are used in routers, switches, and network infrastructure equipment to handle high-speed data processing, packet routing, and protocol conversions. 2. Industrial automation: FPGAs are employed in industrial control systems, robotics, and factory automation to implement real-time control, signal processing, and sensor interfacing. 3. Automotive electronics: FPGAs find applications in automotive systems such as advanced driver-assistance systems (ADAS), infotainment, engine control units (ECUs), and in-vehicle networking. 4. Aerospace and defense: FPGAs are used in radar systems, avionics, satellite communication, and military applications due to their high performance, reliability, and radiation tolerance. 5. Medical devices: FPGAs are utilized in medical imaging equipment, patient monitoring systems, and diagnostic devices to process and analyze data in real-time. 6. Internet of Things (IoT): FPGAs can be integrated into IoT devices to enable edge computing, sensor data processing, and connectivity protocols. 7. Data centers: FPGAs are increasingly used in data centers for accelerating specific workloads like machine learning, encryption, and data compression.These are just a few examples, and the versatility of FPGAs allows them to be applied in various other domains where high-performance, low-power, and customizable digital processing is required.
