OPTICAL MODULATORS GLOBAL MARKET FORECAST & ANALYSIS

2007-2012 forecast of the Global and Regional markets for selected commercial optical communication modulators.

• Text Pages: 260
• Database Pages: 16
• Database Forecast Tables: 18

This is the ElectroniCast Global Forecast of consumption forecast of modulators in selected commercial optical communication applications. Optical modulators encode information onto optical transmissions by converting electronic data signals to optical pulses. The years of coverage, in this report, are: 2007-2012. This report provides the modulator market forecasts in terms of Quantity (number of units), Average Selling Prices (ASPs) per unit and Consumption Values.

During the forecast period, bandwidth expansion demands will push for new network links, incorporating Metro Core, Metro/Access, Long Haul, DWDM, OADM and other system-based deployments.

Competitive alternative solutions to Electro-optical (E-O) including Electro-Absorption (EA), Indium Phosphide (InP) and Mach-Zehnder (M-Z) modulator integration and other solutions are being developed. Packaging is a key driver, along with the main multiple: Economics. ElectroniCast summarizes that the engineering and technology advances will be developed. However, without the cost-effectiveness of the component and a suitable package, meeting all specification and customer demands, a particular modulator product will not be successful. Again, the technology advancements are secondary to the packaging and cost issues.

• Electro-Absorption (EA) Type
• Electro-Optical (E-O) Type
• “Other” modulator Type

In 2007, Electro-optical (E-O) optical communication external modulators, typically utilizing Lithium Niobate as a base held a 33.8 percent market share of global consumption, $150.9 million. The acceptance of Lithium Niobate (LiNbO3) as a material used in external amplitude and phase modulators results from its low optical loss and high electro-optic coefficient. Modulators used in the higher-price (ASP per unit) 40 Gbps links will demonstrate dramatic growth, especially and initially in the Lithium Niobate segment. As the demand for bandwidth continues to increase, it will be necessary to deploy low cost optical communication links that are closer to the end user than ever before.

• 2.5 Gbps
• 10 Gbps
• 40 Gbps
• Other Data Rates (Miscellaneous/not specified)