Flexible band tunable filter
First Claim
Patent Images
1. A device for an optical communication network comprising:
- a first tunable edge filter that is adapted to receive an input signal and to drop a first range of channels in the input signal;
a second tunable edge filter that is adapted to receive a dropped signal from the first tunable edge filter and that is adapted to drop a second range of channels from the dropped signal from the first tunable edge filter, such that an intersection between the first range of channels and the second range of channels defines a tunable passband for the device; and
a third tunable edge filter that is adapted to receive a first rejected signal from the first tunable edge filter and a second rejected signal from the second tunable edge filter and to create an output signal that includes channels not in the tunable passband for the device.
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Abstract
A flexible band tunable filter design is disclosed which is capable of selecting any single channel or multiple of adjacent channels in a waveband of an optical signal in an optical communication network. The flexible band tunable filter has particular application in wavelength division multiplexing communication networks.
17 Citations
15 Claims
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1. A device for an optical communication network comprising:
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a first tunable edge filter that is adapted to receive an input signal and to drop a first range of channels in the input signal; a second tunable edge filter that is adapted to receive a dropped signal from the first tunable edge filter and that is adapted to drop a second range of channels from the dropped signal from the first tunable edge filter, such that an intersection between the first range of channels and the second range of channels defines a tunable passband for the device; and a third tunable edge filter that is adapted to receive a first rejected signal from the first tunable edge filter and a second rejected signal from the second tunable edge filter and to create an output signal that includes channels not in the tunable passband for the device. - View Dependent Claims (2, 3, 4, 5)
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6. A method for filtering an optical communication signal comprising:
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receiving an input signal; dropping a first range of channels in the input signal using a first tunable edge filter; dropping a second range of channels from a signal comprising the first range of channels dropped from the first tunable edge filter using a second tunable edge filter, such that an intersection between the first range of channels and the second range of channels defines a tunable passband; and combining a first rejected signal from the first tunable filter and a second rejected signal from the second tunable edge filter, thereby creating a third rejected signal that includes channels not in the tunable passband. - View Dependent Claims (7)
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8. A device for an optical communication network comprising
a diffraction grating that receives an input signal and creates a spectrally dispersed signal; -
a pair of shutters that selectively block portions of the spectrally dispersed signal so as to define a tunable passband for the device; a mirror which directs portions of the spectrally dispersed signal not blocked by the pair of shutters back along a reverse path to the diffraction grating which recreates an output signal missing channels that were in the blocked portions of the spectrally dispersed signal; and a circulator which directs the output signal to a drop port. - View Dependent Claims (9)
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10. A device for an optical communication network comprising:
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a first tunable edge filter that is adapted to receive an input signal and to drop a first range of channels in the input signal; and a second tunable edge filter that is adapted to receive a dropped signal from the first tunable edge filter and that is adapted to drop a second range of channels from the dropped signal from the first tunable edge filter, such that an intersection between the first range of channels and the second range of channels defines a tunable passband for the device; and a combiner that is adapted to receive a first rejected signal from the first tunable edge filter and a second rejected signal from the second tunable edge filter and combine the first and second rejected signals to create an output signal that includes channels not in the tunable passband for the device. - View Dependent Claims (11, 12, 13, 14, 15)
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Specification