Attenuation systems and methods for use with an optical detector in an optical communication system
First Claim
1. A method comprising:
- an optical detector receiving a communication beam;
the optical detector monitoring a receive (Rx) power level indicative of strength of the received communication beam;
the optical detector determining whether the Rx power level exceeds a saturation threshold level;
in response to the Rx power level exceeding the saturation threshold level, increasing attenuation of the communication beam by incrementally activating portions of a surface area of an optical attenuator, wherein said incrementally activating includes activating portions of the surface area of the optical attenuator by changing the coloration of those portions.
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Accused Products
Abstract
Systems and methods for use with an optical communication beam are disclosed. The system allows the beam of light to operate at an adequate power level that provides a robust optical link while minimizing any safety risk to humans. The system calibrates and controls the gain for an avalanche photodiode detector (APD). A detector circuit is used to calibrate the APD. Once calibrated, the detector circuit further provides an electrical bias to the APD to process or condition the electrical signal to produce a detector output. The systems and methods disclosed herein attenuate the power level of an incoming communication beam to prevent oversaturation of an APD. The system further provides an alignment signal, which is effective over a wide dynamic range of incoming power levels.
35 Citations
22 Claims
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1. A method comprising:
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an optical detector receiving a communication beam; the optical detector monitoring a receive (Rx) power level indicative of strength of the received communication beam; the optical detector determining whether the Rx power level exceeds a saturation threshold level; in response to the Rx power level exceeding the saturation threshold level, increasing attenuation of the communication beam by incrementally activating portions of a surface area of an optical attenuator, wherein said incrementally activating includes activating portions of the surface area of the optical attenuator by changing the coloration of those portions. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method comprising:
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an optical detector receiving a communication beam; the optical detector monitoring a receive (Rx) power level indicative of strength of the received communication beam; the optical detector determining whether the Rx power level is below a minimum threshold level; in response to determining that the Rx power level is below the minimum threshold level, decreasing attenuation of the communication beam by incrementally deactivating portions of a surface area of an optical attenuator, wherein said decreasing attenuation includes deactivating portions of the surface area of the optical attenuator by changing the coloration of those portions. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. A system comprising:
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an optical detector configured to receive a communication beam, wherein the optical detector is operable to determine a receive (Rx) power level indicative of strength of the received communication beam; an optical attenuator located in a path of the communication beam and the optical detector, wherein the optical attenuator is operable to attenuate the strength of the communication beam received by the optical detector, wherein the optical attenuator has a first area; and an attenuator control module coupled to the optical attenuator, wherein the attenuator control module is operable to receive the Rx power level and control the optical attenuator based on the Rx power level; wherein, responsive to the Rx power level exceeding a saturation threshold level of the optical detector, the attenuator control module is configured to provide one or more control signals to the optical attenuator in order to increase attenuation of the communication beam, and wherein the optical attenuator is configured to incrementally activate portions of a surface area of the optical attenuator responsive to receiving the one or more control signals, wherein incrementally activating a given portion of the surface area comprises changing the coloration of the given portion.
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18. A system comprising:
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an optical detector configured to receive a communication beam, wherein the optical detector is operable to determine a receive (Rx) power level indicative of strength of the received communication beam; an optical attenuator located in a path of the communication beam and the optical detector, wherein the optical attenuator is operable to attenuate the strength of the communication beam received by the optical detector, wherein the optical attenuator has a first area; and an attenuator control module coupled to the optical attenuator, wherein the attenuator control module is operable to receive the Rx power level and control the optical attenuator based on the Rx power level; wherein, responsive to determining that the Rx power level is below a minimum threshold level of the optical detector, the attenuator control module is configured to provide one or more control signals to the optical attenuator in order to decrease attenuation of the communication beam, and wherein is configured to incrementally deactivate portions of a surface area of the optical attenuator responsive to receiving the one or more control signals, wherein incrementally deactivating a given portion of the surface area comprises changing the coloration of the given portion.
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19. A method comprising:
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an optical detector receiving a communication beam; the optical detector monitoring a receive (Rx) power level indicative of strength of the received communication beam; the optical detector determining the Rx power level relative to a saturation threshold level and a minimum threshold level; changing the Rx power level to a level below the saturation threshold level and above the minimum threshold level by adjusting attenuation of the communication beam, wherein said adjusting comprises incrementally changing states of two or more independently adjustable portions of a surface of an optical attenuator. - View Dependent Claims (20)
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21. A system comprising:
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an optical detector configured to receive a communication beam, wherein the optical detector is operable to determine a receive (Rx) power level indicative of strength of the received communication beam; an optical attenuator located in a path of the communication beam and the optical detector, wherein the optical attenuator is operable to attenuate the strength of the communication beam received by the optical detector, wherein the optical attenuator has a first area; and an attenuator control module coupled to the optical attenuator, wherein the attenuator control module is operable to receive the Rx power level and control the optical attenuator based on the Rx power level; wherein the attenuator control module is configured to change an Rx power level such that the Rx power level is above a minimum threshold level and below a saturation threshold level by providing one or more control signals to the optical attenuator in order to change attenuation of the communication beam, and wherein the optical attenuator is configured to incrementally change states of two or more of a plurality of portions of a surface of the optical attenuator responsive to receiving the one or more control signals, wherein each of the plurality of portions is independently adjustable with respect to other ones of the plurality of portions. - View Dependent Claims (22)
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Specification