Maxim Integrated's DS12R885S-5+ Real-Time Clock

The DS12R885S-5+ is a high-precision, integrated real-time clock (RTC) module from Maxim Integrated, designed for a broad array of applications requiring accurate timekeeping and data retention. This device stands out for its robust feature set and ease of integration into various systems, making it an ideal choice for industrial, computing, and embedded applications.

Key Features

• Accurate Timekeeping: The DS12R885S-5+ maintains precise time with minimal drift, ensuring reliable performance in critical applications.
• Battery Backup: Equipped with an optional backup battery, the RTC can continue to keep time and retain data even in the event of a power failure.
• Serial Interface: The device supports a serial interface for communication, making it easy to integrate with microcontrollers and other digital systems.
• Automatic Leap Year Compensation: With built-in leap year recognition up to the year 2100, the DS12R885S-5+ automatically adjusts for calendar variations.
• Low Power Consumption: Designed for energy efficiency, this RTC is suitable for battery-powered devices where power conservation is critical.

Applications

• Telecommunication systems
• Network servers and routers
• Embedded systems
• Industrial control systems
• Consumer electronics

Technical Specifications

• Voltage Supply: The device operates at a 5V supply voltage.
• Operating Temperature: It is designed to function over a wide temperature range, making it suitable for various environmental conditions.
• Package: The DS12R885S-5+ comes in a surface-mount package that allows for compact PCB design and easy integration.
• Time Format: Time and date are provided in binary-coded decimal (BCD) format for convenient interfacing with digital systems.

Overall, the Maxim Integrated DS12R885S-5+ RTC module offers a reliable and efficient solution for timekeeping and data retention in a multitude of electronic applications. Its precision, coupled with its robust set of features, ensures that it can meet the demands of even the most time-sensitive systems.