Microchip Technology's 24LC16B/SL EEPROM

The 24LC16B/SL is a high-performance, serial Electrically Erasable Programmable Read-Only Memory (EEPROM) device from the renowned manufacturer, Microchip Technology. This integrated circuit is designed to provide a flexible and reliable non-volatile memory solution for a wide range of applications, from consumer electronics to industrial control systems.

With a storage capacity of 16 Kbits (2 Kbytes), the 24LC16B/SL organizes its memory as 128 pages of 16 bytes each, allowing for efficient data management and storage. The device operates under a voltage range of 2.5V to 5.5V, making it versatile for both 3.3V and 5V systems. Its low-power consumption and wide operating voltage range make it suitable for battery-operated and low-power devices.

One of the key features of the 24LC16B/SL is its support for the I²C serial interface, which allows for simple and straightforward integration into existing communication buses with minimal pin count. This bus interface facilitates easy and efficient data transfer at speeds up to 400 kHz, ensuring quick and seamless read/write operations.

The device also boasts a write-protect pin, which provides hardware data protection and prevents accidental data overwrites. Additionally, the EEPROM supports sequential read operation, which is particularly useful for reading large blocks of data. The 24LC16B/SL has an endurance of 1 million write cycles and a data retention period of over 200 years, highlighting the reliability and longevity of the memory storage.

Available in a small-outline, 8-lead package, the 24LC16B/SL is designed for surface-mount technology, making it compact and ideal for space-constrained applications. Its industrial temperature range of -40°C to +85°C ensures stable operation even in harsh environmental conditions.

Whether you are developing consumer gadgets, automotive systems, or sophisticated industrial machinery, the Microchip Technology's 24LC16B/SL EEPROM provides a dependable and flexible solution for your non-volatile memory needs.