MILPITAS, CA--(Marketwire - Aug 16, 2011) - JDSU (
JDSU created the new transceiver leveraging its Integrated Laser Mach Zehnder (ILMZ) chip that was developed in 2007 and used to create the world's first tunable XFP transceiver for telecom networks in 2009.
The tunable SFP+ transceiver will act as the 'on and off ramp' for optical networks, converting between electrical and optical data streams as data enters and leaves a network. Different colors (wavelengths) of light are employed to transport information optically and the tunable SFP+ transceiver will allow network operators to flexibly switch from one wavelength to another to optimize the performance of a network. Along with flexibility of wavelength provisioning, the tunable SFP+ transceiver will ease the cost of holding expensive inventory required with current fixed wavelength SFP+ products.
The new tunable SFP+ transceiver also represents the first time that full C-band wavelength tunability has been successfully demonstrated in such a compact and low-power SFP+ platform.
"The invention of the tunable SFP+ transceiver is the latest example of how JDSU's focus on R&D and vertical integration has translated into innovative and compelling new products," said Alan Lowe, president of the CCOP segment at JDSU. "We're very excited by initial feedback from customers who have told us that the tunable SFP+ transceiver will help them more efficiently manage their Enterprise and Metro networks."
JDSU is currently demonstrating the tunable SFP+ transceiver to customers and expects it to be in production within the next twelve months.
Tunable SFP+ Transceiver Benefits
The tunable SFP+ will also replace larger and less efficient legacy products such as the X2 and XenPack transceivers.
More on Enterprise and Metro networks
Enterprise networks support large businesses, governments, hospitals and campuses providing critical communications and data back-up services, as well as providing a gateway to the wider metro network. Applications such as cloud computing, voice over IP (VOIP), email, video conferencing and other internet applications critical to operations are driving large amounts of bandwidth through these types of networks.
Metro networks are located in cities and larger neighborhoods and support the transport of network traffic throughout the metropolitan area. The popularity of on demand applications such as online video is increasing traffic throughout metro networks as consumers access applications at home or at local venues via devices such as electronic tablets and smart phones.
About JDSU
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