STMicroelectronics

M24C64-DRMN8TP/K

M24C64-DRMN8TP/K Description

The M24C64-DRMN8TP/K is a high-performance 64Kbit (8K x 8) serial EEPROM from STMicroelectronics, designed for automotive and industrial applications. It features an I2C-compatible interface with a 1 MHz clock frequency, ensuring fast and reliable data transfer. Operating over a wide voltage range (1.8V to 5.5V), this device is optimized for low-power systems while maintaining robust performance. The 450 ns access time and 4ms write cycle time (word/page) make it suitable for real-time data storage and retrieval. Packaged in an 8-SOIC and available in Tape & Reel (TR), it meets ROHS3 and REACH compliance, with an Automotive-grade rating for harsh environments.

M24C64-DRMN8TP/K Features

• Memory Size & Organization: 64Kbit (8K x 8) for flexible data storage.
• High-Speed I2C Interface: Supports 1 MHz clock frequency for efficient communication.
• Wide Voltage Range: Operates from 1.8V to 5.5V, ideal for battery-powered and mixed-voltage systems.
• Fast Access & Write Times: 450 ns access time and 4ms write cycle (word/page).
• Automotive-Grade: Certified for reliability in demanding automotive applications.
• Low Power Consumption: Optimized for energy-sensitive designs.
• Robust Packaging: 8-SOIC with Tape & Reel for automated assembly.
• Compliance: ROHS3, REACH Unaffected, and MSL1 (Unlimited) moisture sensitivity.

M24C64-DRMN8TP/K Applications

• Automotive Systems: Engine control units (ECUs), infotainment, and telematics due to its Automotive-grade reliability.
• Industrial IoT: Sensor calibration, configuration storage, and firmware updates in harsh environments.
• Consumer Electronics: Smart meters, wearables, and appliances leveraging its low-power operation.
• Medical Devices: Secure parameter storage in portable medical equipment.
• Embedded Systems: Microcontroller-based designs requiring high-speed I2C communication.

Conclusion of M24C64-DRMN8TP/K

The M24C64-DRMN8TP/K stands out as a versatile, high-reliability EEPROM, combining speed, low power, and automotive-grade durability. Its wide voltage range and I2C interface make it adaptable across industries, from automotive to IoT. With fast write cycles and robust packaging, it is an optimal choice for designers prioritizing performance and compliance in mission-critical applications.