Title :
Optical switch fabric design for large fabrication tolerance
Author :
Xiao Lin ; Qiang Wang ; Yan Wang ; Lee, D.C. ; Wei Chen ; Ting Li ; Yung Jui Chen
Author_Institution :
Dept. of Electr. Eng., Maryland Univ., Baltimore, MD, USA
Abstract :
Optical cross-connect switches (OXC) are key components in advanced WDM networks. Integrated optical switches have been reported using several mechanisms and materials. We have demonstrated waveguide-type thermo-optic switches which employ silica-based planar lightwave circuits. The crosstalk of OXC, due to a number of reasons, is an important parameter which influences the system performance. One of the reasons is the coupling ratio (CR) of a 3 dB coupler in a switch unit. Due to fabrication limitations, it is hard to obtain the exact CR as designed. We propose a scheme to achieve low crosstalk even with variation of CR. The design of our optical switch fabric is a strictly non-blocking matrix switch using dilated double-layer architecture.
Keywords :
optical crosstalk; optical planar waveguides; photonic switching systems; thermo-optical effects; wavelength division multiplexing; advanced WDM networks; coupling ratio; cross-connect switches; dilated double-layer architecture; directional coupler; large fabrication tolerance; low crosstalk; nonblocking matrix switch; optical switch fabric design; silica-based planar lightwave circuit; waveguide-type thermo-optic switch; Chromium; Coupling circuits; Fabrics; Optical crosstalk; Optical design; Optical device fabrication; Optical devices; Optical fiber networks; Optical network units; Optical switches;
Conference_Titel :
Electronic-Enhanced Optics, Optical Sensing in Semiconductor Manufacturing, Electro-Optics in Space, Broadband Optical Networks, 2000. Digest of the LEOS Summer Topical Meetings
Conference_Location :
Aventura, FL, USA
Print_ISBN :
0-7803-6252-7
DOI :
10.1109/LEOSST.2000.869761
