Claims
- 1. A programmable-gain multistage optical amplifier for amplifying an input WDM signal in a gain control regime, having an adjustable overall optical gain for amplifying the input WDM signal, the programmable-gain multistage optical amplifier comprising:
i) a plurality of amplifying stages at least one of which is optically coupled to subsequent amplifying stages through one or more variable optical attenuators; ii) control means for controlling attenuation of the variable optical attenuators and for controlling of optical gain of the amplifying stages; wherein the programmable-gain multistage optical amplifier is programmed with a set of attenuation values, wherein in operation the variable optical attenuators are responsive to the set of attenuation values for providing a programmable overall optical gain and a substantially fixed pre-determined low noise figure for the multistage optical amplifier, and wherein in operation, the overall optical gain of the multistage optical amplifier is kept essentially constant.
- 2. A multistage optical amplifier as defined in claim 1, further comprising a plurality of control means for controlling an optical gain of each of the amplifying stages at a pre-determined substantially constant level.
- 3. A multistage optical amplifier as defined in claim 2, having at least a first amplifying stage for receiving a WDM signal and for outputting a first amplified WDM signal, a second amplifying stage for receiving an attenuated portion of the first amplified WDM signal and for outputting a second amplified WDM signal, a third amplifying stage for receiving an attenuated portion of the second amplified WDM signal and outputting a third amplified WDM signal, a first variable optical attenuator having a minimum attenuation value L1min dB, and a maximum attenuation value L1max dB optically coupling the first amplifying stage and the second amplifying stage for attenuating the first amplified WDM signal by a first attenuation value, and a second variable optical attenuator having a minimum attenuation value L2min and a maximum attenuation value L2max optically coupling the second amplifying stage and the third amplifying stage for attenuating the second amplified WDM signal by a second attenuation value,
wherein each of the amplifier stages includes a gain medium and a plurality of pump lasers optically coupled to the gain medium for providing a predetermined amount of optical gain, and wherein each of the pump lasers has a minimum drive current and a maximum drive current, and a stable operating range therebetween.
- 4. A method of selecting attenuation values for the variable optical attenuators for a multistage optical amplifier as defined in claim 3, for providing said multistage optical amplifier with a pre-determined amount of overall optical gain G and the substantially fixed low noise figure, the method comprising steps of:
a) determining a total attenuation value L dB for the first and second variable attenuators required for providing the overall optical gain G, b) determining a minimum attenuation value L1min1 of the first variable optical attenuator required to maintain the drive currents of the pump lasers of the second amplifying stage within their stable operating ranges, c) selecting a maximum attenuation value Lmax not exceeding Lmax2 for the second variable optical attenuator and an attenuation value Lmin=L/Lmax for the first variable optical attenuator, wherein Lmin exceeds both L1min, and L1min1.
- 5. A multistage optical amplifier in accordance with claim 3, comprising a programmable control unit.
- 6. A multistage optical amplifier in accordance with claim 5, wherein the programmable control unit is programmed with attenuation values for the variable optical attenuators for a plurality of overall optical gain values.
- 7. A multistage optical amplifier in accordance with claim 6, wherein the attenuation values for the variable optical attenuators for a plurality of overall optical gain values is obtained using the method of claim 4.
- 8. A multistage optical amplifier in accordance with claim 1, further comprising an optical networking unit positioned to receive at least a partially amplified input WDM signal.
- 9. A multistage optical amplifier in accordance with claim 8, wherein in operation said optical networking unit has a maximum input optical power.
- 10. A multistage optical amplifier in accordance with claim 9, wherein said optical networking unit is a dispersion compensation module for providing pre-determined amounts of chromatic dispersion compensation.
- 11. A plurality of multistage optical amplifiers in accordance with claim 8, wherein said optical networking unit is an optical add/drop module for adding or dropping optical channels or groups of optical channels.
- 12. A multistage optical amplifiers in accordance with claim 8, further comprising monitoring means for monitoring optical loss of the optical networking unit, and wherein in operation total optical loss of said variable optical attenuator and said optical networking unit is kept substantially constant.
- 13. A multistage optical amplifier in accordance with claim 12, further comprising monitoring means for monitoring optical loss of at least one of the variable optical attenuators.
- 14. A multistage optical amplifier comprising dispersion compensation modules in accordance with claim 13, further comprising at least one amplifying stage between said dispersion compensating modules and said variable optical attenuators.
- 15. A method of selecting attenuation values of the variable optical attenuators for a multistage optical amplifier according to claim 3, wherein said multistage optical amplifier further comprises an optical networking unit disposed to receive a WDM signal attenuated by the first variable optical attenuator and the second variable optical attenuator and amplified at least by the first amplifying stage and the second amplifying stage, for providing said multistage optical amplifier with a pre-determined amount of overall optical gain G and the pre-determined low noise figure, the method comprising steps of
a) determining a total attenuation value L for the first and second variable attenuators combined required for providing the overall optical gain G, b) determining a minimum attenuation value L1min1 of the first variable optical attenuator required in operation for keeping the drive currents of the pump lasers of the second amplifying stage within their stable operating ranges, c) selecting a maximum attenuation value Lmax not exceeding Lmax2 for the second variable optical attenuator and an attenuation value Lmin=L/Lmax for the first variable optical attenuator, wherein Lmin exceeds both L1min, and L1min1, and wherein in operation optical power received by the optical networking unit does not exceed a fixed pre-determined value.
- 16. A multistage optical amplifier in accordance with claim 8, comprising a programmable control unit.
- 17. A multistage optical amplifier in accordance with claim 16, wherein the programmable control unit is programmed with attenuation values for the variable optical attenuators for a plurality of overall optical gain values.
- 18. A multistage optical amplifier in accordance with claim 16, wherein the programmable control unit is programmed with attenuation values for the variable optical attenuators for a plurality of overall optical gain values and a plurality of loss values for the optical networking unit.
- 19. A multistage optical amplifier in accordance with claim 18, wherein said attenuation values for the variable optical attenuators for the plurality of overall optical gain values was obtained using the method of claim 15.
- 20. A multistage optical amplifier in accordance with claim 16, wherein the programmable control unit is programmed with a first set of attenuation values for the variable optical attenuators for a plurality of overall optical gain values and a second set of attenuation values for the variable optical attenuators for said plurality of overall optical gain values,
wherein said first set of attenuation values is obtained using the method steps defined in claim 4, and said second set of attenuation values was obtained using the method steps defined in claim 15.
- 21. A plurality of multistage optical amplifiers for operating in a gain control regime, each having
i) an optical input for receiving an input WDM signal and an optical output for outputting an amplified WDM signal, ii) an adjustable overall optical gain for amplifying the WDM signal, iii) a plurality of amplifying stages at least some of which are optically coupled to subsequent amplifying stages through one or more variable optical attenuators, iv) a control means for controlling attenuation values of the variable optical attenuators, wherein said one or more variable optical attenuators have a first set of attenuation values for providing a pre-determined overall optical gain and a substantially fixed low noise figure for the multistage optical amplifier, and wherein in operation, the overall optical gain of each multistage optical amplifier is kept essentially constant, and wherein some of the plurality of the multistage optical amplifiers are programmed with different attenuation values to provide different fixed overall gain and a substantially same noise figure.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority from U.S. provisional application No. 60/447,781 filed Feb. 14, 2003.
Provisional Applications (1)
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Number |
Date |
Country |
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60447781 |
Feb 2003 |
US |