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Low-power microwave signal integrated processing method and integrated receiver

A technology of microwave signal and processing method, which is applied in the cross field of microwave technology and optical communication technology, can solve the problems of ineffective suppression of out-of-band noise, low filter Q value, large noise, etc., and achieve simplified system complexity and low introduction Effects of noise and image signal suppression

Active Publication Date: 2022-06-07
HUNAN INST OF TECH
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Problems solved by technology

In a traditional microwave signal receiving system, a microwave amplifier is required to realize the amplification function. The microwave amplifier is a typical active device and will introduce relatively large noise; the filter has a low Q value in the microwave frequency band and a large bandwidth, which cannot effectively suppress out-of-band noise. ; At the same time, the down-conversion process needs to be completed by a mixer and an oscillator source, which will also generate additional noise and image signals and other interference factors

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  • Low-power microwave signal integrated processing method and integrated receiver
  • Low-power microwave signal integrated processing method and integrated receiver
  • Low-power microwave signal integrated processing method and integrated receiver

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Embodiment Construction

[0028] In order to facilitate those skilled in the art to better understand the improvements of the present invention with respect to the prior art, the present invention will be further described below in conjunction with the accompanying drawings, it should be understood that the specific embodiments referred to below are only used to illustrate the present invention, and not to specific restrictions on the present invention.

[0029] Figure 1 Is a flowchart of the integrated processing of low-power microwave signals involved in the present invention, comprising generating a modulated optical signal + generating a modulated local oscillator light source, optical domain mixing to achieve downconversion and low-pass filtering, a total of three processes, specifically:

[0030] First of all, based on the photoelectric hybrid loop, the low-power microwave signal is extracted, amplified, and the optical carrier is modulated, and the modulated optical signal is extracted by using the...

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Abstract

Micro-low power microwave signal integrated processing method and integrated receiver, firstly, the present invention realizes the extraction and amplification of low power microwave signal through a photoelectric hybrid loop, and modulates the optical carrier, and then uses the phase-shifting fiber grating to extract the already Dimming signal; at the same time, an optoelectronic hybrid oscillation signal is generated through another photoelectric hybrid loop to obtain a local oscillator optical signal coherent with the dimmed signal; then, the envelope detection function of the photodetector is used to realize the dimmed signal The frequency mixing of the optical signal realizes the down-conversion function of the microwave signal; finally, the out-of-band noise is suppressed through the low-pass filter to realize the output of the intermediate frequency signal. Based on the advantages of large bandwidth, low loss, and anti-electromagnetic interference of optical fibers, the present invention completes the reception of low-power microwave signals in the optical domain, ensures extremely low noise introduction, effectively suppresses image signals, and simplifies system complexity. Electromagnetic interference, realizing the integrated reception of amplification, filtering and down conversion functions.

Description

Technical field [0001] The present invention relates to the intersection of microwave technology and optical communication technology, particularly to a low-power microwave signal integrated processing method and an integrated receiver. Background [0002] The detection of microwave signals in complex electromagnetic environments has important applications in many fields such as remote sensing telemetry, radio frequency communications, radar, and electronic warfare systems. [0003] In a complex electronic environment, useful low-power microwave signals may coexist with complex noise environments, and the detection of weak microwave signals is difficult. The reception of traditional microwave signals mainly includes three parts: amplification, filtering, and downconversion: that is, the microwave signal is received through the antenna, and then the microwave signal is amplified, and the downconversion process is carried out after filtering, and finally the intermediate frequency ...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04B10/61
CPCH04B10/61Y02D30/70
Inventor 洪俊贺卫邓元祥王小虎严亚周彭志强李新瑞
Owner HUNAN INST OF TECH
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