M2S050-1VFG400
Manufacturer No:
M2S050-1VFG400
Manufacturer:
Description:
IC SOC CORTEX-M3 166MHZ 400VFBGA
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M2S050-1VFG400 Specifications
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TypeParameter
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Supplier Device Package400-VFBGA (17x17)
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Package / Case400-LFBGA
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Operating Temperature0°C ~ 85°C (TJ)
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Primary AttributesFPGA - 50K Logic Modules
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Speed166MHz
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ConnectivityCANbus, Ethernet, I²C, SPI, UART/USART, USB
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PeripheralsDDR, PCIe, SERDES
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RAM Size64KB
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Flash Size256KB
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Core ProcessorARM® Cortex®-M3
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ArchitectureMCU, FPGA
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PackagingTray
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Product StatusActive
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SeriesSmartFusion®2
The MQ80386-16/B integrated circuit chips, also known as Intel 80386 microprocessors, were widely used in the 1980s and 1990s. Here are some advantages and application scenarios of these chips:Advantages: 1. High Performance: The 80386 chips offered significant performance improvements over their predecessors. They had a 32-bit architecture, which allowed for faster data processing and larger memory addressing capabilities. 2. Protected Mode: The chips introduced a protected mode of operation, which provided enhanced memory management and multitasking capabilities. This made them suitable for operating systems that required advanced memory protection and multitasking features. 3. Compatibility: The 80386 chips were backward compatible with the 16-bit software and applications designed for earlier Intel processors. This ensured a smooth transition for software developers and allowed existing software to run on the new chips without major modifications. 4. Coprocessor Support: The 80386 chips had built-in support for a math coprocessor (80387), which enabled faster floating-point calculations. This made them suitable for applications that required complex mathematical computations, such as scientific simulations and computer-aided design (CAD).Application Scenarios: 1. Personal Computers: The 80386 chips were widely used in personal computers (PCs) during the late 1980s and early 1990s. They provided the processing power and memory management capabilities required by the growing demand for graphical user interfaces (GUIs) and multitasking operating systems like Windows and OS/2. 2. Workstations: The high performance and multitasking capabilities of the 80386 chips made them suitable for workstation-class computers. Workstations were used in fields like engineering, computer-aided design (CAD), and scientific research, where advanced processing power and memory management were essential. 3. Servers: The 80386 chips were also used in server systems that required high-performance computing and multitasking capabilities. They were employed in network servers, database servers, and other server applications that demanded reliable and efficient processing power. 4. Embedded Systems: The 80386 chips found applications in embedded systems that required advanced processing capabilities. These included industrial control systems, medical equipment, and aerospace systems, where the 80386 chips provided the necessary computational power and memory management features.It's important to note that the 80386 chips are now considered outdated and have been replaced by more advanced processors.
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