The DS1080CLU+T is a versatile, low-jitter, programmable oscillator from Maxim Integrated that offers a wide range of frequency outputs tailored to meet the precise clocking requirements of a variety of digital devices. This component is part of the broader DS1080 series, known for its reliability and ease of use in complex electronic systems.

At the heart of the DS1080CLU+T is a spread-spectrum clock modulator, which effectively reduces electromagnetic interference (EMI), thereby enhancing system performance and compliance with regulatory standards. This feature is particularly beneficial in densely packed electronic environments where EMI can cause significant issues.

The device is equipped with a programmable frequency divider, allowing users to fine-tune the output frequency from a high-quality fixed-frequency input. This flexibility makes the DS1080CLU+T an ideal choice for applications requiring a custom clocking solution without the need for external components. It supports a wide range of output frequencies, making it suitable for a variety of applications, including computing, networking, and telecommunications equipment.

The DS1080CLU+T comes in a compact, surface-mount LCU package, ensuring it occupies minimal board space while providing robust performance. Its low-power consumption makes it an excellent choice for portable and battery-powered devices, where power efficiency is paramount.

Maxim Integrated has designed the DS1080CLU+T to be user-friendly, with simple programming via a serial interface. This ease of use extends to the inclusion of an on-chip, non-volatile EEPROM, which allows the storage of user-defined configurations, enabling the device to power up with the desired settings without the need for external programming on each startup.

In summary, the DS1080CLU+T is a highly adaptable, EMI-reducing programmable oscillator that delivers precise clock signals for a broad range of electronic applications. Its integration of advanced features in a small package makes it a top choice for designers looking to optimize their systems for performance and space.