Polarization mode dispersion compensation
First Claim
Patent Images
1. A method of transmitting a clocked digital optically polarised signal from a transmitter to a receiver via a transmission path liable to exhibit polarisation mode dispersion (PMD), wherein the signal is launched into the transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1, wherein at the other end of said transmission path the clocked digital optical signal emergent therefrom is fed through an adjustable birefringence element before being detected by a photodetector and fed to a clock extraction circuit to provide a clock signal having frequency components at f1 and f2, which frequency components are employed as control signals in a feedback control loop regulating the birefringence of the birefringent element so as to minimise the amplitude of said frequency components.
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Abstract
A method of compensating the polarisation mode dispersion (PMD) of an optical transmission path carrying clocked digital data traffic involves modulating the state of polarisation (SOP) of the light launched into the transmission path, and employing consequential frequency components in an electrical signal detected at the far end of the transmission path to regulate the birefringence of a polarisation state controller portion of a birefringent element inserted between the transmission path and the receiver'"'"'s photodetector. The SOP modulation, when represented on a Poincaré sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠f2, f1≠2f2, and f2≠2f1.
38 Citations
16 Claims
-
1. A method of transmitting a clocked digital optically polarised signal from a transmitter to a receiver via a transmission path liable to exhibit polarisation mode dispersion (PMD), wherein the signal is launched into the transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1, wherein at the other end of said transmission path the clocked digital optical signal emergent therefrom is fed through an adjustable birefringence element before being detected by a photodetector and fed to a clock extraction circuit to provide a clock signal having frequency components at f1 and f2, which frequency components are employed as control signals in a feedback control loop regulating the birefringence of the birefringent element so as to minimise the amplitude of said frequency components. - View Dependent Claims (2, 3, 4, 5)
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
-
6. A method of transmitting a clocked digital optically polarised signal from a transmitter to a receiver via a transmission path liable to exhibit polarisation mode dispersion (PMD), wherein the signal is launched into the transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1, wherein at the other end of said transmission path the clocked digital optical signal emergent therefrom is fed through an adjustable birefringence element before being detected by a photodetector and fed to a clock extraction circuit to provide a clock signal having frequency components at f1, 2f1, f2, and 2f2, which frequency components are employed as control signals in a feedback control loop regulating the adjustment of the birefringence element so as to substantially match the magnitude of its first order PMD with that of the transmission path, and to bring the fast axis input principal state of polarisation (IPSP) of the birefringent element into substantial alignment with the slow axis output principal states of polarisation (OPSP) of the transmission path.
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
-
7. A method of transmitting a clocked optically polarised signal from a transmitter to a receiver via a transmission path liable to exhibit polarisation mode dispersion (PMD), wherein the signal is launched into the transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere;
has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1.
- sphere;
-
8. A method of transmitting a clocked optically polarised signal wherein the signal is launched into a transmission path with its state of polarisation (SOP) modulated in a manner which, When represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1.
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
-
9. A method of receiving a clocked optical signal transmitted via a transmission path liable to exhibit polarisation mode dispersion (PMD), the signal having been launched into the transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1, f2≠
f1≠
2f2, and f2≠
2f1,wherein the clocked optical signal is fed through an adjustable birefringence element before being detected by a photodetector and fed to a clock extraction circuit to provide a clock signal having frequency components at f1 and f2, which frequency components are employed as control signals in a feedback control loop regulating the birefringence of the birefringent element so as to minimise the amplitude of said frequency components.
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1, f2≠
-
10. An optical transmission system comprising a transmitter, a receiver, and a transmission path liable to exhibit polarisation mode dispersion (PMD) arranged to transmit a clocked optically polarised signal from the transmitter to the receiver via the transmission path wherein the signal is launched into the transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1, wherein at the other end of said transmission path the clocked optical signal emergent therefrom is fed through an adjustable birefringence element before being detected by a photodetector and fed to a clock extraction circuit to provide a clock signal having frequency components at f1 and f2, which frequency components are employed as control signals in a feedback control loop regulating the birefringence of the birefringent element so as to minimise the amplitude of said frequency components.
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
-
11. A transmitter arranged to provide a clocked optically polarised signal wherein the signal is launched into a transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1.
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
-
12. A receiver for receiving a clocked optical signal transmitted via a transmission path liable to exhibit polarisation mode dispersion (PMD), the signal having been launched into the transmission path with its state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1, the receiver comprising an adjustable birefringence element, a photodetector, a control extraction circuit, and a feedback control loop,wherein the clocked optical signal emergent from the transmission path is fed through the adjustable birefringence element before being detected by the photodetector and fed to the clock extraction circuit to provide a clock signal having frequency components at f1 and f2, which frequency components are employed as control signals in a feedback control loop regulating the birefringence of the birefringent element so as to minimise the amplitude of said frequency components.
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
-
13. An optically polarised signal having a state of polarisation (SOP) modulated in a manner which, when represented on a Poincaré
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
f2, f1≠
2f2, and f2≠
2f1.
- sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠
-
14. A method of performing polarisation mode dispersion (PMD) compensation on a received optically polarised signal, wherein at the receiver the signal is fed through the series combination of a polarisation state controller and variable birefringence birefringent element before being detected by a photodetector, which variable birefringence birefringent element comprises a length of polarisation maintaining fiber provided at an intermediate point in its length with a controllable variable strength polarisation mode coupler.
-
15. An optical receiver comprising a polarisation state controller, a variable birefringence/birefringent element, a photodetector, and arranged to be coupled to a transmission path wherein a signal emergent from the transmission path is fed through the series combination of the polarisation state controller and variable birefringence birefringent element before being detected by the photodetector, which variable birefringence birefringent element comprises a length of polarisation maintaining fiber provided at an intermediate point in its length with a controllable variable strength polarisation mode coupler.
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16. A method of transmitting an optically polarised signal from a transmitter to a receiver via a transmission path liable to exhibit polarisation mode dispersion (PMD), wherein at the receiver the signal emergent from the transmission path is fed through the series combination of a polarisation state controller and variable birefringence birefringent element before being detected by a photodetector, which variable birefringence birefringent element comprises a length of polarisation maintaining fibre provided at an intermediate point in its length with a controllable variable strength polarisation mode coupler.
Specification
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Current AssigneeCiena Corporation
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Original AssigneeNortel Networks Limited (Nortel Networks Corporation)
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InventorsWatley, Daniel, Farley, Kevin Stuart, Epworth, Richard Edward
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Primary Examiner(s)Pascal, Leslie
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Assistant Examiner(s)Payne, David C.
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Application NumberUS09/231,436Time in Patent Office1,573 DaysField of Search359/156, 359/192, 359/122, 359/158, 359/189, 359/110, 359/181, 359/161US Class Current398/152CPC Class CodesH04B 10/2569 due to polarisation mode di...
