STMicroelectronics M24M02-RDW6TP EEPROM

The M24M02-RDW6TP is a high-performance 2 Mbit serial EEPROM from STMicroelectronics designed for a wide range of applications that require reliable and efficient non-volatile memory storage. This EEPROM device utilizes the standard I2C communication protocol, making it easy to integrate into various systems.

Key Features

• Memory Size: The M24M02-RDW6TP offers a substantial storage capacity of 2 Mbit (or 256 KB), providing ample space for data that needs to be preserved during power cycles.
• Interface: It uses a two-wire I2C serial interface, which supports a 100 kHz (Standard-mode), 400 kHz (Fast-mode), and 1 MHz (Fast-mode Plus) clock frequency for versatile and easy communication with microcontrollers and other digital systems.
• Operating Voltage Range: This device operates across a wide voltage range from 1.8V to 5.5V, making it suitable for use in both low-power and standard applications.
• Write Cycle Time: The EEPROM features a fast write cycle time of 5 ms (typical), ensuring quick data storage and minimal delay in system operations.
• Endurance: It has a high data retention capability with an endurance of 1 million write cycles and a data retention period of 40 years, guaranteeing the persistence of data over a long period.
• Package: The M24M02-RDW6TP is available in an 8-pin TSSOP package, which is suitable for surface-mount technology and ideal for space-constrained applications.

Applications

The M24M02-RDW6TP is versatile and can be used in a variety of applications, including:

• Industrial control systems
• Medical devices
• Smart meters
• Automotive electronics
• Consumer electronics
• Portable devices

With its robust design and reliable performance, the STMicroelectronics M24M02-RDW6TP EEPROM is an excellent choice for designers and engineers looking to implement a durable and high-capacity non-volatile memory solution in their products. Its compatibility with a wide range of operating voltages and the standard I2C interface ensures seamless integration into various electronic systems.