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At this week’s Photonics West show in San Jose, JDSU of Milpitas, CA, USA is showcasing a series of next-generation high-power diode lasers, including additions and enhancements to its L3 series of fiber-coupled diode lasers. New launches include:
“A transition is underway within the industrial laser industry towards highly reliable, telecom-grade diode pump lasers,” says Toby Strite, manager, High Power Laser Marketing.
Also at Photonics West, JDSU presented two papers: ‘High-Power, High-Efficiency Laser Diodes at JDSU’ and ‘Very High Power 1330 nm InP Single Mode Distributed Feedback Laser Diode with Reduced Linewidth’.
* Commercial laser with telecom-based architecture
JDSU has also launched the FCD488, a continuous wave 10 and 20mW 488nm laser available in either free-space or fiber-delivered output configurations. JDSU claims it is the first telecom-based visible solid-state laser for biomedical, industrial and semiconductor applications.
Rather than designs based on free-space optics and specialized manufacturing, the FCD488 uses a telecom-based, all-in-fiber design platform that capitalizes on high-volume manufacturing processes, resulting in increased product stability and reliability, JDSU claims.
The firm adds that the fiber-based architecture reduces the complexity of instrument design and manufacturing, resulting in faster time to market and reduced need for realignment (and hence lower cost of ownership).
The compact package size (a third of the size used in leading competitive architectures, it is claimed) addresses the trend towards smaller end-user device packaging used in biomedical, industrial and semiconductor applications. All control electronics are packaged within the laser head.
The electrical efficiency equates to less than a third of the heat dissipation in current market offerings, JDSU claims. No heat sink is needed, facilitating integration and enabling smaller, desktop-size instruments.
Also, the FCD488 uses components from JDSU’s telecom portfolio, such as diode lasers with a lifetime in excess of 100,000 hours.
“Typically, high-precision commercial laser applications have labored under a highly customized environment which can be a time-consuming process,” says Phillip Meredith, senior VP and general manager for JDSU’s commercial lasers product group. “With the introduction of FCD488, JDSU provides a telecom-based commercial laser platform that offers improved design flexibility, electrical efficiency and increased reliability,” he adds.
See related item:
JDSU's revenue exceeds guidance, driven by Communications Test and Measurement
Visit: http://www.jdsu.com