David Vye, MWJ Editor
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David Vye is responsible for Microwave Journal's editorial content, article review and special industry reporting. Prior to joining the Journal, Mr. Vye was a product-marketing manager with Ansoft Corporation, responsible for high frequency circuit/system design tools and technical marketing communications. He previously worked for Raytheon Research Division and Advanced Device Center as a Sr. Design Engineer, responsible for PHEMT, HBT and MESFET characterization and modeling as well as MMIC design and test. David also worked at M/A-COM's Advanced Semiconductor Operations developing automated test systems and active device modeling methods for GaAs FETs. He is a 1984 graduate of the University of Massachusetts at Dartmouth, with a concentration in microwave engineering.

10G and 40G Market Segments to Grow at CAAGR of 28 Percent

May 15, 2009
A study last July by Strategy Analytics, "Fiber-optic Analog IC Market Forecast: 2007-2012," predicts that GaAs and InP (Gallium Arsenide and Indium Phosphide) technologies will be the drivers for 10G and 40G growth. Collectively, the 10G and 40G capacity market segments will grow at a CAAGR (compound annual average growth rate) of 28% with demand for GaAs and InP transimpedance amplifiers (TIAs), post amplifiers and optical laser drivers representing over 25% of the total fiber-optic analog IC market in 2012.

The total market for fiber-optic analog ICs will grow at a respectable CAAGR of 9% through 2012. Driven by increasing broadband connectivity and bandwidth requirements across both fixed and mobile platforms, 10G and 40G network infrastructure rollout will be the fastest growing end markets for fiber-optic analog ICs, with compound semiconductors serving as the primary enabling technologies.

"The overall market for TIAs, post amplifiers and laser drivers will be worth almost $500 million by 2012," predicts Asif Anwar. "While the overall market will be dominated by CMOS and SiGe technologies, GaAs and InP technologies will be the drivers for 10G and 40G growth, especially for the optical laser driver function."

"Content delivery to the home over fiber and 3G and 4G wireless platforms will drive bandwidth requirements upwards," notes Stephen Entwistle, VP Strategic Technologies Practice. "10G and 40G rollout will be key in supporting the rollout of future wireless and fixed broadband platforms. The market is already looking to 100G in the future."

In March, TriQuint announced the release of two new driver amplifiers including the optical communications market's first surface-mount technology (SMT) device for next-generation 40Gb/s (Gigabits per second) networks. This new high-performance device will ease assembly and significantly reduce power consumption as designers address the need for faster, more economical networks.

"The new TGA4943-SL represents significant advances on many levels. Its power consumption is appreciably better. It consumes only 2.1 Watts – about 50% of comparable optical network solutions. It's a greener product that should provide real-world savings for network operators," said TriQuint Optical Networks Product Marketing Manager Mike Tessaro.

Mr. Tessaro will be one of the presenters of our webinar May 26th on the topic of these new GaAs 10 and 40 GB/s optical drivers. Given TriQuint's strong earnings of late, it should be worth the time to find out what has them pushing hard into the fiber long-haul market.
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