The M93C46-WMN6TP/S is a state-of-the-art 1 Kbit serial EEPROM device from STMicroelectronics, designed for a wide range of applications requiring reliable data storage. This EEPROM (Electrically Erasable Programmable Read-Only Memory) is part of the M93C series, which is known for its high performance and durability.
Key Features:
- Memory Capacity: The device offers a 1 Kbit memory capacity organized as 64 pages of 16 bytes each, suitable for parameter storage, configuration settings, and small data buffers.
- Serial Interface: It utilizes a robust serial I²C (two-wire) interface, enabling simple and efficient integration into various microcontroller-based systems.
- Operating Voltage: The EEPROM operates within a voltage range of 2.5V to 5.5V, making it versatile for both low-power and standard applications.
- Write Cycle Time: It features a fast write cycle time of only 5ms, allowing for quick data updates and minimal system downtime.
- Data Retention: Users can expect a long-term data retention of more than 40 years, ensuring that critical data is preserved over extensive periods.
- Endurance: The EEPROM is rated for over 1 million write/erase cycles, making it highly reliable for applications requiring frequent data changes.
Applications:
The M93C46-WMN6TP/S is ideal for a variety of applications, including:
- Industrial control systems
- Automotive systems
- Consumer electronics
- Telecommunications equipment
- Medical devices
- Portable devices
Package Information:
The device is available in a compact SO-8N package, which is surface-mountable and suitable for space-constrained applications. The package's small footprint allows for efficient use of PCB real estate while providing robust protection for the internal EEPROM chip.
In summary, the M93C46-WMN6TP/S from STMicroelectronics is a reliable and high-performing EEPROM solution that offers a blend of durability, flexibility, and ease of integration, making it an excellent choice for designers and engineers looking to incorporate stable non-volatile memory into their systems.