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SRAM (Static Random Access Memory)

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AM93L422PC

Advanced Micro Devices

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4.75V 5.25V Parallel PDIP-22 Through hole mounting

Quantity: 58

Ship Date: 9-13 working days

DC:01+

1+ $6.8845

25+ $6.6217

50+ $6.3589

100+ $6.2538

300+ $6.2013

500+ $6.1487

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Ext. Price: $137.69

MOQ: 20

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AM93L425PC

Advanced Micro Devices

Datasheet

4.75V 5.25V Parallel PDIP-16 Through hole mounting

Quantity: 2417

Ship Date: 9-13 working days

DC:01+

1+ $6.6615

25+ $6.4072

50+ $6.153

100+ $6.0513

300+ $6.0004

500+ $5.9496

1000+ $5.797

5000+ $5.797

Ext. Price: $133.22

MOQ: 20

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AM93L422APC

Advanced Micro Devices

Datasheet

4.75V 5.25V Parallel PDIP-22 Through hole mounting

Quantity: 179

Ship Date: 9-13 working days

1+ $8.7101

25+ $8.3777

50+ $8.0452

100+ $7.9122

300+ $7.8457

500+ $7.7792

1000+ $7.5798

5000+ $7.5798

Ext. Price: $139.36

MOQ: 16

Mult: 1

SPQ: 1

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AM27S07-15PC

Advanced Micro Devices

Datasheet

4.75V 5.25V Parallel PDIP-16 Through hole mounting

Quantity: 1325

Ship Date: 9-13 working days

DC:95+

1+ $16.3889

25+ $15.7634

50+ $15.1379

100+ $14.8876

300+ $14.7625

500+ $14.6374

1000+ $14.2621

5000+ $14.2621

Ext. Price: $131.11

MOQ: 8

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SPQ: 1

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SRAM (Static Random Access Memory)

SRAM (Static Random Access Memory) is a type of volatile memory that retains its contents as long as power is supplied. It is known for its high speed and is commonly used in computer systems for cache memory and as a temporary storage for data that requires rapid access.

Definition:
SRAM is a semiconductor memory that uses flip-flops or latches to store each bit of data. Unlike DRAM (Dynamic Random Access Memory), SRAM does not require periodic refresh cycles, which makes it faster for read and write operations.

Function:
The primary function of SRAM is to provide a fast and temporary storage solution for data that needs to be accessed quickly. It is used in various applications where speed is critical, such as CPU caches, graphics cards, and high-speed buffering systems.

Applications:
1. CPU Cache: SRAM is used in the cache memory of processors to store frequently accessed data, reducing the need to access slower main memory.
2. Graphics Processing: In graphics cards, SRAM is used for storing texture maps and other data that need to be accessed rapidly during rendering.
3. Embedded Systems: SRAM is used in embedded systems for fast data storage and retrieval, such as in microcontrollers and digital signal processors.
4. Networking Equipment: High-speed networking equipment often uses SRAM for buffering data packets.

Selection Criteria:
When choosing SRAM for a specific application, consider the following criteria:
1. Speed: SRAM should have a fast access time to meet the performance requirements of the system.
2. Capacity: The amount of data that needs to be stored will determine the required memory capacity.
3. Power Consumption: SRAM can consume more power than DRAM, so power efficiency may be a consideration, especially in battery-operated devices.
4. Cost: SRAM is generally more expensive per bit than DRAM, so cost is a significant factor in large-scale applications.
5. Reliability: The reliability of the SRAM under the expected operating conditions should be considered, including temperature ranges and expected lifetime.

In summary, SRAM is a fast, volatile memory used for high-speed data storage and retrieval. Its applications range from computer caches to embedded systems, and the selection process involves balancing speed, capacity, power consumption, cost, and reliability.
Please refer to the product rule book for details.