Maxim Integrated DS1225Y-200IND Nonvolatile SRAM

The DS1225Y-200IND is a high-performance, 64k Nonvolatile SRAM module designed by Maxim Integrated. This robust memory solution provides a unique combination of volatile and nonvolatile memory functionality, making it an ideal choice for critical data storage applications where data persistence after power loss is crucial.

With a storage capacity of 64 kilobytes (8K x 8), the DS1225Y-200IND offers ample space for storing important configuration data, system logs, or any other data type that must be preserved across power cycles. The nonvolatile aspect of this SRAM is maintained by an integrated lithium energy cell, which has a lifespan of over 10 years, ensuring long-term reliability for industrial applications.

The device operates at a speed of 200ns access time, which allows for swift read and write operations, contributing to the overall system performance. This speed is particularly beneficial in environments where time-critical data processing is a necessity.

Designed with industrial applications in mind, the DS1225Y-200IND is characterized by its industrial temperature range, operating reliably between -40°C to +85°C. This makes it suitable for use in harsh environments, where standard memory solutions might fail.

The module comes in a 28-pin, 600-mil DIP package, making it compatible with standard sockets and easy to integrate into existing systems without the need for additional hardware modifications. This ease of integration is further supported by the module's JEDEC standard pinout, which aligns with common industry layouts.

Moreover, the DS1225Y-200IND features an automatic write-protect feature during power-up and power-down transitions. This ensures the integrity of the data by preventing unintended writes that could occur during unstable power conditions.

Overall, the DS1225Y-200IND from Maxim Integrated is a reliable and durable choice for systems that require nonvolatile memory with high-speed access, robust data retention, and operation under extreme environmental conditions. Its user-friendly design and compatibility make it an excellent option for a wide range of industrial and mission-critical applications.