Optical: systems and elements – Optical amplifier – Correction of deleterious effects
Reexamination Certificate
2001-08-16
2004-09-28
Tarcza, Thomas H. (Department: 3663)
Optical: systems and elements
Optical amplifier
Correction of deleterious effects
C359S341400
Reexamination Certificate
active
06798565
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a method for compensating for cross phase modulation generated in a fiber amplifier. The invention also relates to arrangements suitable for this purpose.
2. Description of the Related Art
In optical wavelength-division multiplex systems, mutual interference between the individual transmission signals occurs due to cross phase modulation. “IEEE Photonics Technology Letters”, Vol. 10, No. 12, December 1998, pages 1796 to 1798, discusses that the cross phase modulation (XPM) generated in a fiber amplifier can be as significant as the phase modulation caused during the propagation in the fiber. The proportions of the contribution of the fiber amplifiers and transmission fiber to cross phase modulation apparently depends on the characteristics of the transmission fiber, the transmission band used, and the fiber amplifier. Further investigations relating to this subject are known from IEEE Photonics letters, Vol. 11, No. 12, pages 1578 to 1580, 1999.
The effects of non-linear effects occurring in the transmission fibers can be reduced by suitable compensation.
FIG. 1
shows an example of a link which has amplifiers V, standard single-mode fibers SSMF and a dispersion compensation with dispersion-compensating fibers. Assuming that the dispersion in doped fibers is negligible and nonlinear effects only occur in each case in the second stages of the amplifiers V and the resultant dispersion DSP at the receiver E is equal to “0”, phase changes induced in the amplifier cannot be converted into intensity changes of the transmitted signal and no signal distortion occurs due to the cross phase modulation induced in the fiber amplifier. The dispersion, which depends on the length L of the transmission fiber, is shown underneath the transmission link represented diagrammatically.
However, the compensation arrangement is not ideal with respect to the cross phase modulation arising in the transmission fibers. An arrangement in which a dispersion-compensating fiber DCF
1
is already inserted before the first transmission fiber is more suitable. In this arrangement, shown in
FIG. 2
, however, the phase changes induced in the fiber amplifiers can lead to signal distortion.
SUMMARY OF THE INVENTION
It is the object of the invention to provide a method which compensates for the cross phase modulation generated in the fiber amplifiers. In addition, arrangements suitable for this purpose are also provided. This object is achieved by a method for compensating for signal changes of a wavelength-division multiplex signal caused by cross phase modulation in a fiber amplifier, comprising the steps of obtaining a control signal from an optical wavelength division multiplex signal, said control signal controlling a phase modulator; and supplying said control signal with said wavelength-division multiplex signal, in such a manner that signal changes of said wavelength-division multiplex signal caused by cross phase modulation are at least largely compensated for.
The inventive method may further comprise the steps of tapping an optical measurement signal off of said optical wavelength-division multiplex signal; converting said optical measurement signal by opto-electrical conversion into an electrical measurement signal; and converting said electrical measurement signal into said control signal by an adjustable amplifier. A step may also be included of delaying said wavelength-division multiplex signal supplied to said phase modulator with respect to said optical measurement signal. Finally, the inventive method may further comprise the step of measuring signal changes at an output of said phase modulator and controlling said control signal.
The object of the invention is also achieved by an arrangement for compensating for signal changes caused in a wavelength-division multiplex signal by cross phase modulation by a fiber amplifier, having a control circuit comprising a measurement coupler which couples out a part of said wavelength-division multiplex signal as an optical measurement signal; an opto-electrical converter which converts said optical measurement signal into an electrical measurement signal; an electrical amplifier (that may be adjustable) that has an input supplied by said electrical measurement signal and an output which is an amplified measurement signal as a control signal; and a phase modulator having a signal input and a modulation input, said wavelength-division multiplex signal being supplied to said signal input, and said control signal being supplied to said modulation input, a gain being selected such that said phase modulator outputs a wavelength-division multiplex signal which is at least largely compensated for.
In the inventive arrangement, the wavelength-division multiplex signal may be delayed between said measurement coupler and said phase modulator. At least one of said measurement coupler and said phase modulator may be inserted between a number of sections of an amplifier fiber. Finally, the inventive arrangement may be connected immediately before or after said fiber amplifier.
The invention consists in that the intensity fluctuations of the optical wavelength-division multiplex signal, caused by phase modulation, are converted into an electrical signal by way of which the phase modulator is driven which, in turn, converts these into oppositely directed intensity fluctuations. Maximum compensation can be achieved if oppositely directed phase changes are impressed on the intensity fluctuations of the optical signal, immediately before or after the fiber amplifier. Since there are virtually no delay differences between the individual signals in the fiber amplifier (no walk-off), all signals are subject to the same phase changes. The compensation can thus be common to all signals without requiring prior demultiplexing. Furthermore, only the total power significant for driving the phase modulator and it makes no difference how it is distributed over the individual channels.
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Kaminow et al. Optical Fiber Telecommunications IIIA. Academic Press. 1997. pp 207-212.*
Saunders et al. Electronic Letts. Sep. 3, 1998 vo. 34, No. 18.*
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M. Shtaif, et al., “Crosstalk in WDM Systems Caused by Cross-Phase Modulation in Erbium-Doped Fiber Amplifiers”, In: IEEE Photonics Technology Letters, vol. 10, No. 12, (1998), pp. 1796-1798.
Bell Boyd & Lloyd LLC
Cunningham Stephen
Siemens Aktiengesellschaft
Tarcza Thomas H.
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