The DS1085LZ-25+ is a versatile, programmable oscillator from Maxim Integrated, designed to provide a high-performance frequency source for a wide range of applications. This oscillator offers a unique combination of features that make it an excellent choice for system designers looking for a reliable and flexible clock solution.

Key Features

• Programmable Frequency: The DS1085LZ-25+ allows users to program the output frequency directly, with a range that extends from 260kHz to 133MHz, offering precise control over clock signals for various applications.
• Spread Spectrum Clock Output: This feature helps in reducing electromagnetic interference (EMI), thereby improving system performance and reducing the need for additional EMI mitigation techniques.
• Low Jitter: The low phase noise and jitter characteristics of the DS1085LZ-25+ ensure high-quality clock signals, which is critical for high-speed digital systems where timing accuracy is paramount.
• Nonvolatile (NV) On-Chip Memory: Users can store desired configurations in the on-chip memory, which allows the device to power up with the same settings, saving time and ensuring consistent performance.
• Single +3.3V Supply: The device operates on a single +3.3V power supply, simplifying power management within the system.
• Industrial Temperature Range: With an operating temperature range of -40°C to +85°C, the DS1085LZ-25+ is suitable for deployment in harsh environments.

Applications

The DS1085LZ-25+ is ideal for a variety of applications, including but not limited to:

• Networking equipment such as routers and switches
• Communication systems
• Portable devices
• Industrial systems
• Test and measurement equipment

Overall, the DS1085LZ-25+ from Maxim Integrated represents a robust and adaptable clock generation solution that can be tailored to meet the specific needs of a diverse array of electronic systems. Its programmability, combined with its high performance and ease of use, make it an attractive option for engineers and designers looking to optimize their system's performance.