Microchip Technology's 93C56-I/SM EEPROM

The 93C56-I/SM is a high-quality, 2Kb serial Electrically Erasable Programmable Read-Only Memory (EEPROM) device from the renowned manufacturer Microchip Technology. This EEPROM is designed to provide flexible non-volatile storage for a wide range of applications, including but not limited to industrial, automotive, and consumer electronics.

Encased in a compact SOIC-8 package, the 93C56-I/SM is optimized for low-power consumption and features a wide operating voltage range of 2.5V to 5.5V. This makes it suitable for use in various systems with differing power requirements. Its small form factor ensures that it can be integrated into designs where board space is at a premium.

The memory is organized as either 128 x 16-bit or 256 x 8-bit, which can be selected via a simple instruction. This flexibility allows designers to choose the format that best fits their data storage needs. The 93C56-I/SM supports a bidirectional data transfer protocol and is capable of sequential read, which is particularly useful for streamlining data access and improving overall system efficiency.

With an industrial temperature range of -40°C to +85°C, the 93C56-I/SM is built to withstand harsh operating conditions, ensuring reliability and performance stability across various environments. Furthermore, the device is equipped with a self-timed erase/write cycle, which means no external timing is required for write operations, simplifying the integration process and reducing the overall system complexity.

Additional features of the 93C56-I/SM include a write protect pin to prevent accidental data overwrites, and a write enable latch for added data security. The device also provides a minimum of 1 million erase/write cycles and a data retention period of over 200 years, ensuring the longevity and durability of stored information.

In summary, the Microchip Technology 93C56-I/SM EEPROM offers a robust storage solution for applications that demand reliable, long-term data retention with minimal power consumption, all within a small physical footprint.