RU2000126483A - BIDIRECTIONAL OPTICAL MULTIPLEXOR AND DEMULTIPLEXOR - Google Patents

Claims (5)

1. An optical multiplexer / demultiplexer comprising a first optical waveguide matrix, a first plane waveguide region connected to the first optical waveguide matrix, an ordered waveguide array connected to the first plane waveguide region, a second plane waveguide region connected to the ordered waveguide array and a second optical waveguide matrix connected to the second plane waveguide region, characterized in that the first optical waveguide matrix contains: a waveguide with a path formed in a place where the light beam is focused, transmitted from the ordered waveguide grating to the plane-waveguide region, at the interface between the first optical waveguide matrix and the plane-waveguide region; and a plurality of waveguides with outputs for outputting light beams of a plurality of wavelengths, respectively, the second optical waveguide matrix comprises: a waveguide with an input formed in a place where the light beam is focused, transmitted from an ordered waveguide array to a plane waveguide region, at the interface between a second optical waveguide matrix and a plane waveguide region; and a plurality of waveguides with outputs for outputting light beams of a plurality of wavelengths, respectively, in which a first multiplexed light beam with a plurality of wavelengths is received through a waveguide with an input of a first optical waveguide matrix, and light beams with different wavelengths obtained by demultiplexing a first multiplexed input light beam are output through a plurality of waveguides with outputs in a second optical waveguide matrix, and a second multiplexed light beam with a plurality Twomey wavelengths is received via the input waveguide of the second optical waveguide array, and light beams having different wavelengths obtained by dividing the second multiplexed input light beam are output via the plurality of output waveguides in the first optical waveguide array.  2. The multiplexer / demultiplexer according to claim 1, wherein the optical valve is additionally connected to the waveguide with an input in the first or second optical waveguide array to prevent interference or reverse losses when the light beam exits.  3. An optical multiplexer / demultiplexer including a first optical waveguide matrix, a first plane waveguide region connected to the first optical waveguide matrix, an ordered waveguide array connected to the first plane waveguide region, a second plane waveguide region connected to the ordered waveguide array and a second optical waveguide matrix connected to the second plane waveguide region, characterized in that the first optical waveguide matrix contains: a waveguide with the output formed in a place where the light beam is focused, transmitted from the ordered waveguide grating to the plane-waveguide region, at the interface between the first optical waveguide matrix and the plane-waveguide region; and a plurality of waveguides with inputs for receiving light beams of multiple wavelengths, respectively, the second optical waveguide matrix comprises: a waveguide with an output formed in a place where the light beam is focused, transmitted from an ordered waveguide array to a plane waveguide region, at the interface between a second optical waveguide matrix and a plane waveguide region; and a plurality of waveguides with outputs for outputting light beams of a plurality of wavelengths, respectively, in which light beams with a plurality of wavelengths are received through a plurality of waveguides with an input to a second optical waveguide matrix, respectively, and a multiplexed light beam obtained by combining input light beams of a plurality wavelengths, is output through a waveguide with an output in the first optical waveguide matrix, and light beams with many wavelengths are received through many waveguides with inputs to the first optical waveguide matrix, respectively, and the multiplexed light beam obtained by multiplexing the input light beams with multiple wavelengths, is output through the waveguide with the output in the second optical waveguide matrix.  4. An optical multiplexer / demultiplexer including a first optical waveguide matrix, a first plane waveguide region connected to the first optical waveguide matrix, an ordered waveguide array connected to the first plane waveguide region, a second plane waveguide region connected to the ordered waveguide array and a second optical ordered waveguide grating connected to the second plane waveguide region, characterized in that the first optical waveguide matrix contains t: the first central waveguide for receiving a multiplexed light beam with multiple wavelengths, the first central waveguide is formed at the place where the light beam transmitted from the ordered waveguide to the plane-waveguide region is focused at the interface between the first optical waveguide matrix and the plane waveguide region; and a plurality of waveguides with inputs for receiving light beams of a plurality of wavelengths, respectively, the second optical waveguide matrix comprises: a second central waveguide for outputting a multiplexed light beam obtained by multiplexing light beams received through a plurality of waveguides with inputs, a second central waveguide is formed in such the place where the light beam is focused, transmitted from the ordered waveguide grating to the plane-waveguide region, at the interface between the second optical a waveguide matrix and a plane waveguide region; and a plurality of waveguides with outputs for separating the multiplexed beam received through the first central waveguide in the first optical waveguide matrix, respectively, according to wavelengths, and outputting the separated light beams with a plurality of wavelengths.  5. The multiplexer / demultiplexer according to claim 4, in which the optical valve to prevent interference or reverse losses due to the output of light radiation, in addition, is connected to the first Central waveguide.