Method and system for stabilizing wavelength and optical power of optical channels in WDM optical communication system
First Claim
1. A wavelength stabilizing method in which a first QCSE photodetector and a second QCSE photodetector receive a light outputted from a single light source, a first wavelength-photocurrent graph obtained when a selected bias voltage is applied to the first QCSE photodetector and a second wavelength-photocurrent graph obtained when a selected bias voltage is applied to the first QCSE photodetector are overlapped at a predetermined reference wavelength, a photocurrent outputted from the first QCSE photodetector is greater than a photocurrent outputted from the second QCSE photodetector at wavelengths shorter than the overlapped point while the photocurrent outputted from the second QCSE photodetector is greater than the photocurrent outputted from the first QCSE photodetector at wavelengths longer than the overlapped point, and if the photocurrent outputted from the first QCSE photodetector is greater than the photocurrent output from the second QCSE photodetector, output wavelengths are moved to the longer wavelengths side from the single light source, while if the photocurrent outputted from the second QCSE photodetector is greater than the photocurrent outputted from the first QCSE photodetector, the output wavelengths are moved to the shorter wavelengths side, thereby allowing the light outputted from the single light source to maintain the reference wavelength.
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Abstract
Disclosed is a wavelength stabilizing method in which a first QCSE photodetector and a second QCSE photodetector receive a light outputted from a single light source, a first wavelength-photocurrent graph obtained when a selected bias voltage is applied to the first QCSE photodetector and a second wavelength-photocurrent graph obtained when a selected bias voltage is applied to the first QCSE photodetector are overlapped at a predetermined reference wavelength, a photocurrent outputted from the first QCSE photodetector is greater than a photocurrent outputted from the second QCSE photodetector at wavelengths shorter than the overlapped point while the photocurrent outputted from the second QCSE photodetector is greater than the photocurrent outputted from the first QCSE photodetector at wavelengths longer than the overlapped point, and if the photocurrent outputted from the first QCSE photodetector is greater than the photocurrent output from the second QCSE photodetector, output wavelengths are moved to the longer wavelengths side from the single light source, while if the photocurrent outputted from the second QCSE photodetector is greater than the photocurrent outputted from the first QCSE photodetector, the output wavelengths are moved to the shorter wavelengths side, thereby allowing the light outputted from the single light source to maintain the reference wavelength.
14 Citations
14 Claims
- 1. A wavelength stabilizing method in which a first QCSE photodetector and a second QCSE photodetector receive a light outputted from a single light source, a first wavelength-photocurrent graph obtained when a selected bias voltage is applied to the first QCSE photodetector and a second wavelength-photocurrent graph obtained when a selected bias voltage is applied to the first QCSE photodetector are overlapped at a predetermined reference wavelength, a photocurrent outputted from the first QCSE photodetector is greater than a photocurrent outputted from the second QCSE photodetector at wavelengths shorter than the overlapped point while the photocurrent outputted from the second QCSE photodetector is greater than the photocurrent outputted from the first QCSE photodetector at wavelengths longer than the overlapped point, and if the photocurrent outputted from the first QCSE photodetector is greater than the photocurrent output from the second QCSE photodetector, output wavelengths are moved to the longer wavelengths side from the single light source, while if the photocurrent outputted from the second QCSE photodetector is greater than the photocurrent outputted from the first QCSE photodetector, the output wavelengths are moved to the shorter wavelengths side, thereby allowing the light outputted from the single light source to maintain the reference wavelength.
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5. An optical power stabilizing method in which a first QCSE photodetector and a second QCSE photodetector receive a light outputted from a single light source, the method comprising the steps of:
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comparing a sum of a first wavelength-photocurrent graph and a second wavelength-photocurrent graph with a predetermined reference value, the first wavelength-photocurrent graph being outputted from the first QCSE photodetector and the second wavelength-photocurrent graph being outputted from the second QCSE photodetector, respectively; and
when the sum is smaller than the predetermined reference value, outputting a light having an intensity greater than a reference level while when the sum is greater than the predetermined reference value, outputting a light having an intensity smaller than the reference level, whereby an intensity of the light outputted from the single light source is maintained at a constant level.
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6. A wavelength/optical power stabilizing system comprising:
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a LD for outputting a laser beam;
a first QCSE photodetector and a second QCSE photodetector for receiving the laser beam outputted from the LD and a bias voltage from an outside to represent characteristics of a first wavelength-photocurrent graph and a second wavelength-photocurrent graph, the first wavelength-photocurrent graph and the second wavelength-photocurrent graph being overlapped at a predetermined reference wavelength, photocurrent values of the first wavelength-photocurrent graph greater being greater than those of the second wavelength-photocurrent graph at wavelengths shorter than the overlapped point while the photocurrent values of the second wavelength-photocurrent graph being greater than those of the first wavelength-photocurrent graph at wavelengths longer than the overlapped point;
a wavelength stabilizing comparator for comparing the photocurrent values respectively outputted from the first QCSE photodetector and the second QCSE photodetector, and outputting a compared result;
a wavelength stabilizing temperature control part for receiving a signal outputted from the wavelength stabilizing comparator, and if the photocurrent value outputted from the first QCSE photodetector is different from the photocurrent value outputted by the second QCSE photodetector, changing the temperature of the LD such that the laser beam outputted from the LD has the reference wavelength;
an adder for outputting a signal value corresponding to a sum of the photocurrents respectively outputted from the first QCSE photodetector and the second QCSE photodetector;
a power stabilizing comparator for comparing the signal value outputted from the adder with a predetermined reference value to output a compared result; and
a power stabilizing driving control part for receiving a signal outputted from the power stabilizing comparator, and if the signal value outputted from the adder is different from the reference value, changing a driving current value of the LD such that an intensity of the laser beam outputted from the LD is changed, thereby stabilizing wavelength and intensity of the laser beam outputted from the LD. - View Dependent Claims (7, 8, 9)
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10. A wavelength/optical power stabilizing system comprising:
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a DBR LD for outputting a laser beam;
a first QCSE photodetector and a second QCSE photodetector for receiving the laser beam outputted from the DBR LD and a bias voltage from an outside to represent characteristics of a first wavelength-photocurrent graph and a second wavelength-photocurrent graph, the first wavelength-photocurrent graph and the second wavelength-photocurrent graph being overlapped at a predetermined reference wavelength, photocurrent values of the first wavelength-photocurrent graph being greater than those of the second wavelength-photocurrent graph at wavelengths shorter than the overlapped point while the photocurrent values of the second wavelength-photocurrent graph being greater than those of the first wavelength-photocurrent graph at wavelengths longer than the overlapped point;
a wavelength stabilizing comparator for comparing the photocurrent values respectively outputted from the first QCSE photodetector and the second QCSE photodetector, and outputting a comparing result;
a wavelength stabilizing current control part for receiving a signal outputted from the wavelength stabilizing comparator, and if the photocurrent value outputted from the first QCSE photodetector is different from the photocurrent value outputted by the second QCSE photodetector, changing a current applied to a DBR portion of the DBR LD such that the laser beam outputted from the DBR LD has the reference wavelength;
an adder for outputting a signal value corresponding to a sum of the photocurrents respectively outputted from the first QCSE photodetector and the second QCSE photodetector;
a power stabilizing comparator for comparing the signal value outputted from the adder with a predetermined reference value to output a compared result; and
a power stabilizing driving control part for receiving a signal outputted from the power stabilizing comparator, and if the signal value outputted from the adder is different from the reference value, changing a driving current value of the DBR LD such that an intensity of the laser beam outputted from the DBR LD is changed, thereby stabilizing wavelength and intensity of the laser beam outputted from the DBR LD. - View Dependent Claims (11)
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12. A wavelength/optical power stabilizing system comprising:
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a wavelength control integration module including (i) an LD for outputting a laser beam, (ii) a light power splitter for dividing the laser beam outputted from the LD, and (iii) a first QCSE photodetector and second QCSE photodetector for receiving beams respectively outputted from the light power splitter and a rear terminal of the LD and a bias voltage from an outside to represent characteristics of a first wavelength-photocurrent graph and a second wavelength-photocurrent graph, the first wavelength-photocurrent graph and the second wavelength-photocurrent graph being overlapped at a predetermined reference wavelength, photocurrent values of the first wavelength-photocurrent graph being greater than those of the second wavelength-photocurrent graph at wavelengths shorter than the overlapped point while the photocurrent values of the second wavelength-photocurrent graph being greater than those of the first wavelength-photocurrent graph at wavelengths longer than the overlapped point, the wavelength control integration module integrating the LD, the light power splitter, and a comparator;
a temperature control circuit and thermoelectric cooler for receiving a signal outputted from the comparator and maintaining a temperature of the wavelength control integration module at a constant value; and
an LD driver for receiving the signal outputted from the comparator, outputting a driving current to control a wavelength of the LD and inputting the driving current to the LD, thereby stabilizing wavelength and intensity of the laser beam outputted from the LD. - View Dependent Claims (13, 14)
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Specification