Multi-wavelength, bi-directional optical multiplexer
First Claim
1. A communications system for bidirectional optical data transmission through an optical fiber having a longitudinal axis and a fiber end and carrying low-power digital signals bidirectionally transmitted at a first and a second wavelength and a high-power analog video signal transmitted at a third wavelength between a source and at least one optical network unit, said first and second wavelengths being shorter than said third wavelength, and said at least one optical network unit comprising:
- a housing having a connection for said optical fiber; and
an optical filter, first and second optical units, and a beam splitter mounted in said housing;
said first optical unit being disposed along said longitudinal axis and comprising a transmitter including an input for receiving a transmission electrical signal and a light source for emitting light at said first wavelength along said longitudinal axis through said beam splitter and said filter into said optical fiber, said light being modulated by said transmission electrical signal;
said second optical unit being disposed adjacent said longitudinal axis and comprising a receiver including a light detector for receiving modulated light of said second wavelength and an output, said receiver detecting said modulated light incident on said light detector and converting said modulated light into a received electrical signal at said output; and
said beam splitter being disposed obliquely along said longitudinal axis and diverting at least a portion of light of said second wavelength incident thereon from said optical fiber into said second optical unit and passing at least a portion of light of said first wavelength emitted by said first optical unit into said optical fiber;
said optical filter being interposed between said beam splitter and said second optical unit, and being adapted to block light of a third wavelength but bidirectionally transmit light of said second wavelength.
5 Assignments
0 Petitions
Accused Products
Abstract
An optical network unit is associated with a multi-wavelength optical fiber communications system carrying low-power digital signals bidirectionally transmitted at a first and a second wavelength and a high-power analog video signal transmitted at a third wavelength. The unit comprises a housing having a connection for the optical fiber; and an optical filter, first and second optical units, and a beam splitter mounted in the housing. The optical filter is interposed between the fiber termination and the second optical unit, and is adapted to block light of the third wavelength but bidirectionally transmit light of the first and second wavelengths. The system is readily implemented, and any combination of the data and video services may be selected. A high level of skill is not required for changing the combination of services procured.
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Citations
13 Claims
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1. A communications system for bidirectional optical data transmission through an optical fiber having a longitudinal axis and a fiber end and carrying low-power digital signals bidirectionally transmitted at a first and a second wavelength and a high-power analog video signal transmitted at a third wavelength between a source and at least one optical network unit, said first and second wavelengths being shorter than said third wavelength, and said at least one optical network unit comprising:
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a housing having a connection for said optical fiber; and
an optical filter, first and second optical units, and a beam splitter mounted in said housing;
said first optical unit being disposed along said longitudinal axis and comprising a transmitter including an input for receiving a transmission electrical signal and a light source for emitting light at said first wavelength along said longitudinal axis through said beam splitter and said filter into said optical fiber, said light being modulated by said transmission electrical signal;
said second optical unit being disposed adjacent said longitudinal axis and comprising a receiver including a light detector for receiving modulated light of said second wavelength and an output, said receiver detecting said modulated light incident on said light detector and converting said modulated light into a received electrical signal at said output; and
said beam splitter being disposed obliquely along said longitudinal axis and diverting at least a portion of light of said second wavelength incident thereon from said optical fiber into said second optical unit and passing at least a portion of light of said first wavelength emitted by said first optical unit into said optical fiber;
said optical filter being interposed between said beam splitter and said second optical unit, and being adapted to block light of a third wavelength but bidirectionally transmit light of said second wavelength. - View Dependent Claims (2, 3, 4, 5)
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6. For use in a communications system for bidirectional data transmission through an optical fiber having a longitudinal axis and a fiber end and carrying low-power digital signals bidirectionally transmitted at a first and a second wavelength and a high-power analog video signal transmitted at a third wavelength, an optical network unit comprising:
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a housing having a connection for said optical fiber; and
an optical filter, first and second optical units, and a beam splitter mounted in said housing;
said optical filter being interposed between said fiber end and said beam splitter, and being adapted to block light of said third wavelength but bidirectionally transmit light of said first and second wavelengths;
said first optical unit being disposed along said longitudinal axis and comprising a transmitter including an input for receiving a transmission electrical signal and a light source for emitting light at said first wavelength along said longitudinal axis through said beam splitter and said filter into said optical fiber, said light being modulated by said transmission electrical signal; and
said second optical unit being disposed adjacent said longitudinal axis and comprising a receiver including a light detector for receiving modulated light of said second wavelength and an output, said receiver detecting said modulated light incident on said light detector and converting said modulated light into a received electrical signal at said output;
said beam splitter being disposed obliquely along said longitudinal axis and diverting at least a portion of said second wavelength light incident thereon from said optical filter into said second optical unit and passing at least a portion of said light of said first wavelength emitted by said first optical unit into said optical fiber. - View Dependent Claims (7, 8)
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9. For use in a communications system for bidirectional data transmission through an optical fiber having a longitudinal axis and a fiber end and carrying low-power digital signals bidirectionally transmitted at a first and a second wavelength and a high-power analog video signal transmitted at a third wavelength, an optical network unit comprising:
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a housing having a connection for said optical fiber; and
an optical filter, first and second optical units, and a beam splitter mounted in said housing;
said first optical unit being disposed along said longitudinal axis and comprising a transmitter including an input for receiving a transmission electrical signal and a light source for emitting light at said first wavelength along said longitudinal axis through said beam splitter and said filter into said optical fiber, said light being modulated by said transmission electrical signal;
said second optical unit being disposed adjacent said longitudinal axis and comprising a receiver including a light detector for receiving modulated light of said second wavelength and an output, said receiver detecting said modulated light incident on said light detector and converting said modulated light into a received electrical signal at said output;
said beam splitter being disposed obliquely along said longitudinal axis and diverting at least a portion of light of said second wavelength incident thereon from said optical fiber into said second optical unit and passing at least a portion of light of said first wavelength emitted by said first optical unit into said optical fiber;
said optical filter being interposed between said beam splitter and said second optical unit, and being adapted to block light of a third wavelength but bidirectionally transmit light of said second wavelength.
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- 10. An optical network unit as recited by claim 10, wherein the attenuation of light of said third wavelength by said high-pass optical filter exceeds the attenuation of light of said second wavelength by at least about 40 dB.
Specification