Method for regulating and generating various phase pulses in photonic microwave signal generator

A signal generator and photonic microwave technology, applied in the field of optical communication, can solve the problems of large structure of spatial light modulation devices, failure to generate sinusoidal signals, and restrictions on the development of microwave communication, and achieve light weight, small size, and tunable big effect

Inactive Publication Date: 2015-01-28
闫连山 +1
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Problems solved by technology

[0003] At present, there are mainly the following schemes to realize the generation of tunable microwave photonic signals based on the technology of optical frequency domain to time domain mapping: (1) Based on the technology of spatial light modulation and shaping, different spatial light modulation technologies are used to construct the required The shape of the spectrum, and then by virtue of the mapping from the frequency domain to the time domain and photoelectric conversion, the microwave signal of the desired shape can be obtained. This scheme has strong tunability, but the structure of the spatial light modulation device is large and expensive; (2) Based on the technology of all-fiber spectral shaping, through the tunable filter of all-fiber structure, the mapping from the optical frequency domain to the time domain is carried out or simultaneously, and then the microwave signal of the corresponding shape can be obtained by photoelectric conversion.
Through this scheme, the generation of sinusoidal signals, triangular signals, and ultra-wideband signals has been realized through different spectral construction devices, but the tunable generation of sinusoidal signals, triangular signals, and ultra-wideband signals in a single device has not been realized; (3) Based on the scheme of all-fiber spectral shaping and second-order dispersion medium, this scheme is an extension of scheme two, and the nonlinear frequency-domain to time-domain mapping through second-order dispersion can generate microwave signals with chirp
[0004] The above three schemes all use microwave photonic technology to realize the generation of tunable microwave signals. Among them, scheme one has good tunability, but the spectrum shaping is complicated. Schemes two and three propose different spectrum shaping technologies based on all-fiber , but it cannot realize the generation of any microwave signal of a single module, and the flexibility is poor, which restricts the development of the field of microwave communication

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  • Method for regulating and generating various phase pulses in photonic microwave signal generator
  • Method for regulating and generating various phase pulses in photonic microwave signal generator
  • Method for regulating and generating various phase pulses in photonic microwave signal generator

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Embodiment Construction

[0018] The present invention will be further described below in conjunction with the accompanying drawings.

[0019] Such as figure 1 As shown, the basic platform of the present invention consists of a broadband light source 100, an optical intensity modulator 101, an electric pulse generator 102, a fiber Bragg grating FBG string 103, a tunable bandpass filter 104, an optical amplifier 105, a dispersive medium 106 and a photoelectric conversion Device 107 constitutes. Among them, a fiber Bragg grating (FBG) string 103 and a tunable bandpass filter 104 constitute a tunable spectral construction unit 108 .

[0020] figure 2 It is a schematic diagram of the tunable microwave signal generator of the present invention. As shown in figure (a), the light intensity modulator 101 modulates the light generated by the broadband continuous light source 100 under the control of the electric pulse generator 102 to generate a temporally intermittent light pulse train. Then, the modulate...

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Abstract

The invention discloses a method for regulating and generating various phase pulses in a photonic microwave signal generator. A microwave signal generator is formed by a broadband light source (100), a light intensity modulator (101), an electric pulse generator (102), a fiber Bragg grating string (103), an adjustable band pass filter (104), an optical amplifier (105), dispersive medium (106) and a photoelectric converter (107); a tunable spectrum structure unit (108) is formed by the fiber Bragg grating (FBG) string (103) and the adjustable band pass filter (104); and on the basis of the above-mentioned structure, the spectrum structure is scrambled and overlapped in shape to different extents in the dispersive medium (106) so as to generate the pulses in different shapes. The method disclosed by the invention has the advantages of simple structure and good tenability, and can be applied to a plurality of important fields such as microwave antenna, military radars, sensor networks and the like.

Description

technical field [0001] The invention relates to the field of optical communication, in particular to a technique for generating microwave signals by using a photon method, which is suitable for tunablely generating microwave signals of different envelope shapes. Background technique [0002] With the development of microwave communication technology, microwave signal generating equipment has been widely used, such as microwave antenna, military radar and different sensor networks. At present, microwave signal generators mainly use microwave circuit technology, but with the urgent demand for large-capacity, ultra-wideband and high-speed communications and the further development of my country's Internet of Things project, the signal generation rate of existing microwave signal generators And tunability, etc. put forward higher requirements. For this reason, in recent years, a method of generating microwave signals through photon technology, that is, microwave photon signal ge...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04B1/7163H04B10/50
Inventor 姜恒云闫连山叶佳孙亚飞陈智宇潘炜罗斌
Owner 闫连山
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