Maxim Integrated DS1747WP-120IND+ Product Overview

The DS1747WP-120IND+ is a high-performance, nonvolatile (NV) memory with a real-time clock from Maxim Integrated, designed to meet the stringent demands of industrial applications. This robust component ensures data integrity and precise timekeeping, even in the absence of power, making it an ideal choice for mission-critical systems where data loss is not an option.

Key Features

• Integrated Memory: The device incorporates 128k x 8 nonvolatile static RAM and a real-time clock, which provides a full-featured timekeeper along with ample storage for critical data.
• Industrial Temperature Range: With an operating temperature range of -40°C to +85°C, the DS1747WP-120IND+ is engineered to withstand extreme environments, ensuring reliable performance where it matters most.
• Long-Term Data Retention: The nonvolatile nature of the memory ensures that data is preserved for an extended period, even when power is not supplied to the device.
• High Data Transfer Rate: With an access time of 120 ns, this device provides swift data retrieval and storage, facilitating efficient operations in time-sensitive applications.
• Robust Packaging: The DS1747WP-120IND+ comes in a PowerCap Module (PCM) package, which provides additional protection against environmental factors and enhances the overall durability of the component.

Applications

The versatility and reliability of the DS1747WP-120IND+ make it suitable for a wide range of industrial applications, including:

• Embedded systems
• Network servers
• Telecommunication systems
• Industrial control systems
• Medical equipment

Maxim Integrated's commitment to quality ensures that the DS1747WP-120IND+ is manufactured to the highest standards, providing engineers and designers with a dependable solution for their data storage and real-time clock needs. The integration of memory and timekeeping functions into a single device not only saves space but also simplifies the design process, allowing for more streamlined and efficient system architectures.