ON Semiconductor CAT24C16VP2I-GT3 EEPROM

The CAT24C16VP2I-GT3 is a high-performance, serial electrically erasable programmable read-only memory (EEPROM) device from ON Semiconductor. This EEPROM offers a storage capacity of 16-kilobits and utilizes the standard I²C-bus interface, making it an excellent choice for a wide range of data storage applications where low-power and low-voltage operations are essential.

This device operates across a voltage range of 1.7V to 5.5V, providing great flexibility for both portable and fixed power supply designs. The CAT24C16VP2I-GT3 is designed with a hardware write protection feature, which allows users to prevent accidental data overwrites that could occur during power surges or system malfunctions. This ensures the integrity and security of the stored data.

One of the key features of the CAT24C16VP2I-GT3 is its support for a bidirectional two-wire bus and data transmission protocol. This protocol allows for efficient serial communication with a minimal number of pins, which is critical for reducing the overall footprint of the device in space-constrained applications.

The EEPROM is organized as 2,048 words of 8 bits each, which can be accessed through a simple and flexible byte write and sequential read operation. The device boasts a robust endurance of 1 million write cycles and a data retention period of 100 years, ensuring reliability and longevity for applications that require frequent data updates and long-term data preservation.

ON Semiconductor's CAT24C16VP2I-GT3 is available in a TSSOP-8 package, offering a compact solution that is well-suited for applications such as real-time clocks, calibration data storage, digital potentiometer settings, and various other system identification or tracking-related tasks.

In summary, the CAT24C16VP2I-GT3 from ON Semiconductor is a versatile and reliable EEPROM choice for designers looking to incorporate non-volatile data storage into their applications. Its wide voltage range, hardware write protection, and small form factor make it an ideal solution for a variety of electronic systems.