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Carrier Suppression Mode Optical Carrier Vector Wave System Based on Phase Factor Optimization

A phase factor and carrier suppression technology, applied in the field of optical carrier transmission, can solve the problems of unbalanced phase distribution of vector signal constellation points at the receiving end, limited bandwidth of direct laser modulator, unbalanced signal phase distribution, etc., to achieve frequency stability, Effect of increasing frequency and low cost

Active Publication Date: 2020-05-12
FUDAN UNIV
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Problems solved by technology

However, the vector signal in the system passes through the square-law photodetector, which will cause the signal phase distribution to be unbalanced. In the case of low signal-to-noise ratio, the constellation points between the vector signals will be closer to increase the error rate of the signal.
[0006] In order to overcome the main shortcomings of the above three technologies, including: the limited bandwidth of the direct laser modulator, the frequency instability of the wireless signal generated by the mutual shooting of different source optical signals, and the unbalanced phase distribution of the vector signal constellation points at the receiving end

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  • Carrier Suppression Mode Optical Carrier Vector Wave System Based on Phase Factor Optimization
  • Carrier Suppression Mode Optical Carrier Vector Wave System Based on Phase Factor Optimization
  • Carrier Suppression Mode Optical Carrier Vector Wave System Based on Phase Factor Optimization

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Embodiment Construction

[0041] The specific implementation process will be completely described below in order to generate an optical carrier wireless vector wave system according to the carrier suppression method based on phase factor optimization proposed by the present invention.

[0042] Taking the generation of a 36GHz millimeter wave signal carrying a 16 GBaud QPSK signal as an example, the generation scheme and feasibility of this wireless over optical vector wave signal are illustrated. The specific system structure of the 36GHz vector millimeter wave signal is shown in Figure 5.

[0043] First, an optical signal with a power of 14.5dBm, a linewidth of less than 100kHz, and a wavelength of 1551.6nm is emitted from the external cavity laser. The external cavity laser is wavelength tunable, the range covers the whole C-band, and the frequency drift is less than 10MHz within 24 hours. The optical signal is then injected into the Mach-Zehnder modulator through a polarization-maintaining fiber. ...

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Abstract

The invention belongs to the technical field of radio over fiber transmission and particularly relates to a carrier suppression mode radio on fiber vector wave system based on phase factor optimization. The system is mainly composed of a laser, a Mach-Zehnder intensity modulator and a photoelectric detector, and is featured by simple structure and low cost. A vector signal in the system through the photoelectric detector causes the signal phase distribution imbalance, and in the case of low signal to noise ratio, the constellation points of the vector signal are closer and increase the signal error rate. By optimizing the vector signal phase factor in the precoding at the sending terminal, the recovered vector signal is enabled to symmetric on the phase distribution, thereby improving the system performance. The optimization method can greatly reduce the error rate of the system under a condition that the algorithm complexity is not increased and the structural complexity is not increased. The optimization scheme has a wide application prospect in the radio on fiber vector wave systems of different frequency multiplication numbers and different modulation formats.

Description

technical field [0001] The invention belongs to the technical field of optical transmission, and in particular relates to an optical wireless vector wave system. Background technique [0002] With the explosive growth of the amount of mobile data connected to the Internet, the need for ultra-high-speed wireless signals is imminent. In response to this demand, how to generate ultra-high-speed wireless signals has become a difficult problem. High-frequency wireless waves have become a research hotspot for solving problems because they can provide sufficient transmission bandwidth. In terms of generating high-frequency wireless waves, the bandwidth of electronic devices is limited, and it is difficult to generate high frequencies. Photon-assisted wireless signal technology can overcome the bandwidth bottleneck of electronic devices and become an effective method for generating high-frequency waves. Radio-over-fiber signaling is seen as a viable technology for future 5G wirele...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04B10/2575H04B10/50H04B10/516H04B10/556
CPCH04B10/25752H04B10/5055H04B10/5165H04B10/5561
Inventor 余建军肖江南陈龙
Owner FUDAN UNIV
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