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Low Power Sram, 450mil SOP

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IC SRAM 256K PARALLEL 28DIP

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SMD, tube=26

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SRAM,

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SRAM, SOP-32

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SRAM, 32Kx8, DIL

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SRAM

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32K x 8 CMOS Static RAM

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SRAM; 512kx8bit; 5V; 55ns; SO32

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SRAM, 512Kx8, STSOP-32

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IC, SO-package

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SRAM. 8Kx8

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SRAM, 32Kx8SO-28

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SRAM, SO-28

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SRAM stands for "Static Random-Access Memory." It is a type of volatile computer memory that stores data in a way that allows for fast access and retrieval. SRAM is commonly used in various computing devices as a high-speed storage solution. Here's an overview of SRAM:
  1. Storage Technology: SRAM stores data using a combination of flip-flop gates, which are electronic circuits capable of storing a binary state (0 or 1) without needing constant refreshing.
  2. Volatile Memory: SRAM is volatile memory, meaning that it requires a constant power supply to maintain its stored data. When power is removed, the data stored in SRAM is lost.
  3. Fast Access: SRAM is designed for high-speed access. It offers fast read and write times compared to other types of memory like dynamic RAM (DRAM).
  4. Cell Structure: The basic storage unit in SRAM is a memory cell, typically consisting of six transistors. These transistors form a flip-flop circuit that can hold one bit of data.
  5. Stability: SRAM's use of flip-flops makes it inherently stable since the state of the memory cell remains as long as power is supplied. This contrasts with dynamic RAM (DRAM), which requires constant refreshing to retain data.
  6. Applications: SRAM is used as cache memory in processors, which helps improve the speed of data access between the processor and main memory. It's also used in networking devices, graphics cards, and other high-performance computing components.
  7. Density and Cost: SRAM is more dense and expensive compared to dynamic RAM (DRAM) because each memory cell requires multiple transistors. DRAM is used more for main system memory due to its higher capacity and lower cost per bit.
  8. Power Consumption: SRAM generally consumes more power compared to DRAM because it doesn't need constant refreshing, but its active circuitry consumes power regardless.
  9. Backup Power: In some applications, SRAM may include a small battery backup to maintain data in the event of a power loss. This allows data to be retained temporarily when the main power source is removed.
  10. Performance Impact: The speed and low latency of SRAM make it ideal for storing frequently accessed data, but due to its cost and space requirements, it's not suitable for large-scale storage.
In summary, SRAM is a type of volatile memory that provides fast access and retrieval of data. It's commonly used in cache memory and high-performance computing applications where speed is crucial, although it is more expensive and less dense compared to dynamic RAM.