Abstract: A switch device and method is disclosed that is capable of switching wavelength division multiplexed optical signals. The device comprises a switch element that includes a two-dimensional micro-electromechanical mirror. The two-dimensional micro-electromechanical mirror is adapted to reflect an optical signal so that it is directed to a selected target. The switch element may also comprise a beam splitter and a plurality of wave plates. The beam splitter is adapted to transmit light in one polarization and reflect light in another polarization. The wave plates are adapted to change the polarization of the light so that the beam splitter either reflects or transmits the light.
Abstract: A switch device and method is disclosed that is capable of switching wavelength division multiplexed optical signals. The device comprises a switch element, which may include a detector, an emitter array, and a switch controller. The detector is adapted to detect optical signals and is positioned to receive light from a source. The emitter array is positioned to transmit light to a plurality of targets. The emitter comprises a plurality of emitters, each emitter being adapted to generate light signals. The light signals generated by each emitter are transmitted to at least one predetermined target. The switch controller is in communication with the detector and the emitter array. The switch controller is adapted to cause the emitter array to generate the detected signal. The switch elements are grouped in an array and dichroic beam splitters may be used to reflect predetermined ranges of wavelengths to the individual switch elements.
Abstract: A method and system is disclosed for switching signals between at least one optical fiber and a plurality of nodes through free space. The invention includes a switch that comprises at least one switch element. The switch element can detect signals transmitted by the optical fiber, at least one node, or both. The switch element can also transmit signals to the optical fiber, at least one node, or both. A mirror is provided for reflecting signals to and from the nodes through free space. An imaging telescope may also be provided for imaging light on to the mirror from the switch element.
Abstract: This invention enables a plurality of switch elements, each capable of receiving and transmitting a specific wavelength of light, to exchange information and to multiplex temporally-encoded information in time from two or more of the local processors. The process is accomplished by the use of an intermediate plane that has one or more ports that can detect light over a broad band of wavelengths, and that can transmit light at one or more specific wavelengths back to the local processors. The ports may be used to transmit time multiplexed and/or wavelength multiplexed signals.
Abstract: An optical switching system, device, and method are disclosed that are capable of providing high throughput optical signal switching. Bandpass filters are provided for narrow-band demultiplexing of an optical signal to a plurality of switching elements. The system includes a demultiplexing device for wide-band wavelength demultiplexing to a plurality of optical switching devices.
Abstract: A switch device and method is disclosed that is capable of switching wavelength division multiplexed optical signals. The device comprises a switch element that includes a two-dimensional micro-electromechanical mirror. The two-dimensional micro-electromechanical mirror is adapted to reflect an optical signal so that it is directed to a selected target. The switch element may also comprise a beam splitter and a plurality of wave plates. The beam splitter is adapted to transmit light in one polarization and reflect light in another polarization. The wave plates are adapted to change the polarization of the light so that the beam splitter either reflects or transmits the light.
Abstract: A switch device and method is disclosed that is capable of switching wavelength division multiplexed optical signals. The device comprises a switch element that may include a beam splitter, a plurality of wave plates, and a plurality of micro-electromechanical mirrors. The beam splitter is adapted to transmit light in one polarization and reflect light another polarization. The wave plates are adapted to change the polarization of the light so that the beam splitter either reflects or transmits the light. The micro-electromechanical mirrors are adapted to position the beam of light so that it is directed to a selected target.