Polarization controller for use in optical fiber communication system
First Claim
1. A state-of-polarization control system for an optical system in which a detector develops a difference signal that is indicative of a difference between a first polarization state of a first optical signal and a second polarization state of a second optical signal, comprising:
- polarization control means including first, second, and third retarding devices for controlling the difference between the first polarization state of the first optical signal and the second polarization state of the second optical signal; and
signal processing means responsive to the difference signal for computing polarization data to which the retarding devices of the polarization control means respond to minimize the difference between the first and second polarization states, the system including in a normal mode of operation during which the first retarding device provides a retardance ψ
z, and the second retarding device provides a retardance θ
p =(4n1 ±
1)π
/2, where n1 is any integer, whenever n2 π
<
ψ
z <
(n2 +1)π
, where n2 is any integer.
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Accused Products
Abstract
A state-of-polarization (SOP) control system (10) uses a SOP controller (28) that is responsive to a CPU (24) to perform endless and complete polarization signal detection for a fiber optic communication system. The SOP controller (28) comprises liquid crystal variable optical retarders (40, 42 and 44) that adjust the polarization state of local optical signal (36) in response to voltages provided by the CPU (24). The CPU (24) adjusts the voltage applied to the retarders (40, 42, and 44) separately in response to the magnitude of an interference signal (70), which corresponds to the degree to which the polarization of the local optical signal (36) and an input optical signal (12) are different.
45 Citations
15 Claims
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1. A state-of-polarization control system for an optical system in which a detector develops a difference signal that is indicative of a difference between a first polarization state of a first optical signal and a second polarization state of a second optical signal, comprising:
-
polarization control means including first, second, and third retarding devices for controlling the difference between the first polarization state of the first optical signal and the second polarization state of the second optical signal; and signal processing means responsive to the difference signal for computing polarization data to which the retarding devices of the polarization control means respond to minimize the difference between the first and second polarization states, the system including in a normal mode of operation during which the first retarding device provides a retardance ψ
z, and the second retarding device provides a retardance θ
p =(4n1 ±
1)π
/2, where n1 is any integer, whenever n2 π
<
ψ
z <
(n2 +1)π
, where n2 is any integer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for controlling the polarization of a first optical signal of an optical system, comprising the steps of:
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generating the first optical signal; propagating the first optical signal through first and second retarding devices; defining a first polarization state of the first optical signal; receiving a second optical signal having a polarization state; combining the second optical signal with the first optical signal on a detector; generating from the detector a difference signal indicative of a difference between the first polarization state of the first optional signal and the polarization state of the second optical signal; generating retardation signals that represent a change in the polarization state of the first optical signal from the first polarization state to a second polarization state in response to the difference signal; changing the retardances of the retarding devices in response to the retardation signals, the first retarding device providing a retardance ψ
z, and the second retarding device providing a retardance θ
p =(4n1 ±
1)π
/2, where n1 is any integer, whenever n2 π
<
ψ
z <
(n2 +1)π
, where n2 is any integer; andadjusting the polarization state of the first optical signal propagating through the retarding devices.
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12. A state-of-polarization control system for an optical system in which a detector develops a difference signal that is indicative of a difference between a first polarization state of a first optical signal and a second polarization state of a second optical signal, comprising:
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polarization control means including first, second, and third retarding devices for controlling the difference between the first polarization state of the first optical signal and the second polarization state of the second optical signal; and signal processing means responsive to the difference signal for computing polarization data to which the retarding devices of the polarization control means respond to minimize the difference between the first and second polarization states, the system operating in a normal mode and first and second reset modes, such that in the normal mode the first and second retarding devices function to provide linear polarization and the third retarding device provides a retardance value θ
y, where nπ
<
θ
y <
(n+1)π
where n equals any integer;
in the first reset mode, the first and second retarding devices provide elliptical polarization, and the third retarding device resets from a retardance value of (n+1π
, where n is the integer used in normal mode; and
in the second reset mode, the first and second retarding devices provide elliptical polarization, and the third retarding device provides a retardance value of nπ
, where n is the integer used in normal mode. - View Dependent Claims (13, 14, 15)
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Specification