Method And System For A Bi-Directional Multi-Wavelength Receiver For Standard Single-Mode fiber Based On Grating Couplers
First Claim
1. A method for communication, the method comprising:
- in a photonically-enabled integrated circuit comprising an optoelectronic transceiver, a multi-wavelength grating coupler, and first and second optical source assemblies coupled to the photonically-enabled integrated circuit;
coupling a first source optical signal at a first wavelength into the photonically-enabled integrated circuit using the first optical source assembly;
coupling a second source optical signal at a second wavelength different from the first wavelength into the photonically-enabled integrated circuit using the second optical source assembly;
receiving a first optical data signal at the first wavelength from an optical fiber coupled to the multi-wavelength grating coupler; and
receiving a second optical data signal at the second wavelength from the optical fiber.
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Accused Products
Abstract
Methods and systems for a bi-directional receiver for standard single-mode fiber based on grating couplers may include, in a photonically-enabled integrated circuit comprising an optoelectronic transceiver, a multi-wavelength grating coupler, and first and second optical source assemblies coupled to the photonically-enabled integrated circuit: coupling first and second source optical signals at first and second wavelengths into the photonically-enabled integrated circuit using the first and second optical source assemblies, where the second wavelength is different from the first wavelength, receiving a first optical data signal at the first wavelength from an optical fiber coupled to the multi-wavelength grating coupler, and receiving a second optical data signal at the second wavelength from the optical fiber. Third and fourth optical data signals at the first and second wavelengths may be communicated out of the optoelectronic transceiver via the multi-wavelength grating coupler.
19 Citations
20 Claims
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1. A method for communication, the method comprising:
in a photonically-enabled integrated circuit comprising an optoelectronic transceiver, a multi-wavelength grating coupler, and first and second optical source assemblies coupled to the photonically-enabled integrated circuit; coupling a first source optical signal at a first wavelength into the photonically-enabled integrated circuit using the first optical source assembly; coupling a second source optical signal at a second wavelength different from the first wavelength into the photonically-enabled integrated circuit using the second optical source assembly; receiving a first optical data signal at the first wavelength from an optical fiber coupled to the multi-wavelength grating coupler; and receiving a second optical data signal at the second wavelength from the optical fiber. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for communication, the system comprising:
a photonically-enabled integrated circuit comprising an optoelectronic transceiver, a multi-wavelength grating coupler, and first and second optical source assemblies coupled to the photonically-enabled integrated circuit, said photonically-enabled integrated circuit being operable to; couple a first source optical signal at a first wavelength into the photonically-enabled integrated circuit using the first optical source assembly; couple a second source optical signal at a second wavelength different from the first wavelength into the photonically-enabled integrated circuit using the second optical source assembly; receive a first optical data signal at the first wavelength from an optical fiber coupled to the multi-wavelength grating coupler; and receive a second optical data signal at the second wavelength from the optical fiber. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A system for communication, the system comprising:
a photonically-enabled integrated circuit comprising an optoelectronic transceiver, and first and second grating couplers, said photonically-enabled integrated circuit being operable to; communicate a first optical data signal from the optoelectronic transceiver into a first fiber coupled to the first grating coupler; receive a second optical data signal from the first optical fiber coupled to the first grating coupler; communicate a third optical data signal from the optoelectronic transceiver into a second optical fiber coupled to the second grating coupler; and receive a fourth optical data signal from the second optical fiber coupled to the second grating coupler. - View Dependent Claims (16, 17, 18, 19, 20)
Specification