Microchip Technology's AT93C86A-10SQ-2.7 EEPROM

The AT93C86A-10SQ-2.7 is a high-quality EEPROM (Electrically Erasable Programmable Read-Only Memory) device from the reputable Microchip Technology. This memory chip features a 16Kbit capacity, providing ample space for non-volatile storage of configuration settings, calibration data, or small application code in a variety of electronic systems.

Designed for optimal efficiency, the AT93C86A-10SQ-2.7 operates on a low voltage range of 2.7V to 5.5V, making it an excellent choice for battery-operated and portable devices where power conservation is crucial. Its endurance and data retention are engineered to meet the demands of applications requiring frequent memory updates, ensuring reliable performance over an extended period.

With a compact SOP (Small Outline Package) form factor, this EEPROM is a surface-mountable device, suitable for space-constrained PCBs (Printed Circuit Boards). The 8-pin configuration of the chip is designed for easy integration into existing designs, providing a straightforward solution for system designers and engineers looking to incorporate non-volatile memory into their projects.

The AT93C86A-10SQ-2.7 supports SPI (Serial Peripheral Interface) bus communication, allowing for simple and rapid data transfer with microcontrollers and other digital systems. The device's 10 MHz clock rate enables swift read and write operations, contributing to the overall system efficiency and responsiveness.

Microchip Technology's commitment to quality is evident in the AT93C86A-10SQ-2.7, with features such as write protection mechanisms to prevent accidental data alteration and industrial temperature range support, ensuring operation in harsh environments. This makes the EEPROM particularly suitable for industrial, automotive, and telecommunications applications where reliability and durability are paramount.

In summary, the AT93C86A-10SQ-2.7 from Microchip Technology is a versatile and reliable EEPROM solution that offers a perfect blend of capacity, power efficiency, and robustness, making it an ideal choice for designers looking to enhance their electronic systems with dependable non-volatile memory.