Microchip Technology AT28C16E-15SI EEPROM

The Microchip Technology AT28C16E-15SI is a high-performance, 16-kilobit Parallel EEPROM designed for use in a wide variety of high-speed memory applications. This EEPROM, with its 2,048 x 8-bit organization, offers a flexible non-volatile storage solution that allows for byte-level read and write operations, making it ideal for parameter storage, firmware updates, and configuration settings in various electronic systems.

One of the standout features of the AT28C16E-15SI is its fast access time of 150 ns, which ensures rapid data retrieval, enhancing the overall performance of the systems it is integrated with. This speed is complemented by its low-power consumption, making it suitable for battery-operated and power-sensitive applications.

The device operates over a wide voltage range of 4.5V to 5.5V and is equipped with a hardware-controlled write protection feature that prevents accidental data corruption during power transitions. The AT28C16E-15SI also offers an extended temperature range, making it reliable in various environmental conditions.

Integration of the AT28C16E-15SI into a system is made seamless with its industry-standard 28-pin SOIC package, which is compatible with many PCB layouts and designs. The EEPROM also supports a parallel interface, which allows for easy connection with microcontrollers and other digital logic circuits.

Microchip Technology's commitment to quality is evident in the AT28C16E-15SI, which is manufactured to meet high standards of durability and longevity. It is designed to withstand a minimum of 100,000 write cycles and has a data retention period of at least 10 years, ensuring that critical data is preserved over time.

In summary, the AT28C16E-15SI from Microchip Technology is a robust, reliable EEPROM that offers fast access times, low power consumption, and a wide operating voltage range. It is a perfect choice for designers looking for a non-volatile memory component that is both flexible and easy to integrate into a variety of electronic systems.