Title :
Wavelength add-drop switching using tilting micromirrors
Author :
Ford, Joseph E. ; Aksyuk, Vladimir A. ; Bishop, David J. ; Walker, James A.
Author_Institution :
Bell Labs., Lucent Technol., Holmdel, NJ, USA
fDate :
5/1/1999 12:00:00 AM
Abstract :
This paper describes a single-mode optical fiber switch which routes individual signals into and out of a wavelength multiplexed data stream without interrupting the remaining channels. The switch uses free-space optical wavelength multiplexing and a column of micromechanical tilt-mirrors to switch 16 channels at 200 GHz spacing from 1531 to 1556 nm. The electrostatically actuated tilt mirrors use an 80 V peak-to-peak 300 KHz sinusoidal drive signal to switch between ±10° with a 20 μs response. The total fiber-to-fiber insertion loss for the packaged switch is 5 dB for the passed signals and 8 dB for added and dropped signals, with 0.2 dB polarization dependence. Switching contrast was 30 dB or more for all 16 channels and all input and output states. We demonstrate operation by switching 622 Mb/s data on eight wavelength channels between the two input and output ports with negligible eye closure
Keywords :
electro-optical switches; electromechanical effects; micro-optics; micromechanical devices; mirrors; optical communication equipment; optical fibre losses; wavelength division multiplexing; μs response; 1531 to 1556 nm; 20 mus; 5 dB; 622 Mbit/s; 8 dB; 80 V; GHz spacing; electrostatically actuated tilt mirrors; free-space optical wavelength multiplexing; individual signal routing; input ports; micromechanical tilt-mirrors; negligible eye closure; output ports; packaged switch; polarization dependence; single-mode optical fiber switch; sinusoidal drive signal; switching contrast; tilting micromirrors; total fiber-to-fiber insertion loss; wavelength add-drop switching; wavelength channels; wavelength multiplexed data stream; Communication switching; Micromechanical devices; Micromirrors; Optical arrays; Optical crosstalk; Optical fiber polarization; Optical filters; Optical switches; Optical waveguides; Wavelength division multiplexing;
Journal_Title :
Lightwave Technology, Journal of
