| 摘要 |
In an all-optical regenerator, an optical input signal having N wavelength division multiplexed (WDM) channel signals is demultiplexed and each channel signal is directed onto a separate optical path. In each optical path a clock recovery arrangement is responsive to the associated optical channel signal for generating an electrical clock signal having a frequency corresponding to a bit rate frequency of the optical channel signal. The electrical clock signal is used to generate at least one electrical driving voltage signal. An optical amplitude/phase modulator, including at least three electrodes and first and second Lithium niobate optical waveguides, is responsive to both the optical channel signal and the at least one electrical driving voltage signal for generating an optical output channel signal which is polarization independent. A cross splice/delay line arrangement interconnects a second end of the first Lithium niobate optical waveguide to a first end of the second Lithium niobate optical waveguide with first and second polarization maintaining optical fibers, respectively, for introducing a predetermined rotation of TE and TM modes so that polarization components at the second end of the second Lithium niobate optical waveguide experience a same amount of phase modulation. The outputs from the modulators in the N optical paths are multiplexed to generate a WDM channel output signal from the regenerator.
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