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Multiphase filtering-based continuous wave radar receiver

A polyphase filtering and wave radar technology, which is applied in radio wave measurement systems, measurement devices, instruments, etc., can solve the problem of increasing the number of hardware and interfaces of the receiving circuit, which is not conducive to the miniaturized design of multi-channel receiving, and has high requirements for calibration networks. problem, to achieve the effect of facilitating low-noise design, realizing image frequency suppression, and improving signal-to-noise ratio

Inactive Publication Date: 2018-07-31
CNGC INST NO 206 OF CHINA ARMS IND GRP
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  • Description
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AI Technical Summary

Problems solved by technology

The disadvantage is that the calibration network has higher requirements, especially the calibration of broadband signals
At the same time, the number of hardware and interfaces of the receiving circuit is increased, which is especially not conducive to the miniaturization design of multi-channel reception

Method used

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Embodiment Construction

[0024] Now in conjunction with embodiment, accompanying drawing, the present invention will be further described:

[0025] The passive polyphase filter is derived from the RC-CR phase-shifting network, a passive linear network composed of resistors and capacitors, such as figure 1 shown. The input signals in the figure are quadrature differential signals, and they are orthogonal to each other. The transmission network can generate output signals with equal amplitude and phase quadrature at frequency ω=1 / (RC).

[0026] It can be concluded that the frequency transfer function of the first-order RC polyphase network is:

[0027] where h 1 =1 / (1+jωR 1 C 1 ), h' 1 =-jωR 1 C 1 / (1+jωR 1 C 1 ), its amplitude-frequency response: G 1 =(1+ωR 1 C 1 ) / (1+jωR 1 C 1 ). The RC network has Hilbert transform network characteristics, ω=-1 / (R 1 C 1 ) has a zero at ω=1 / (R 1 C 1 ) has a pole, the curve such as figure 2 shown.

[0028] According to the Hilbert transform tran...

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Abstract

The invention provides a multiphase filtering-based continuous wave radar receiver. The receiver is composed of a receiving front-end circuit, a baseband differential conversion and operational amplification circuit, an RC poly-phase filtering network and a baseband synthesis circuit; the RC multiphase filtering network is used to realize mirror image signal suppression of a zero-intermediate frequency receiver; a passive differential conversion network and differential operational amplification are adopted to realize the amplitude and phase balance of the input signals of the RC multiphase filtering network and improve the degree of the mirror image signal suppression; a passive filter, the passive differential conversion network and an ultra-low noise operational amplifier are adopted toimprove the sensitivity of a system; the number of stages of the RC multiphase filtering network is increased, so that the expansion of baseband bandwidth and the improvement of the mirror image signal suppression can be realized; and the frequency range of the system can be extended through the frequency selection of the front-end circuit. The mirror frequency suppression and high sensitivity ofthe continuous wave radar zero-intermediate frequency receiver can be realized with low cost and high integration level.

Description

technical field [0001] The invention belongs to the field of radar receiver system design, and specifically relates to a zero-IF continuous wave radar receiver, which is mainly used in continuous wave radar systems to suppress image signals and reduce aliasing effects introduced by upper and lower sidebands of baseband signals. It is suitable for various continuous wave transceiver systems and has good versatility. Background technique [0002] In the traditional superheterodyne receiver system, the I and Q two-way orthogonal intermediate frequency signals output by the down-conversion of the receiver can be synthesized by a 90° electric bridge to suppress the image frequency signal. In the radar system of the continuous wave system, the zero-IF signal is obtained by down-conversion, and the system image signal is the useful signal itself, which cannot eliminate the problems caused by image suppression. The upper and lower sidebands of the obtained baseband signal will be su...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S7/35
CPCG01S7/352G01S7/358
Inventor 刘俊武华锋党亚利于贵龙李慧敏廖原
Owner CNGC INST NO 206 OF CHINA ARMS IND GRP
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