A Phase-Locked Loop Circuit for Capturing Weak Carrier Signals

A carrier signal and phase-locked loop technology, which is applied in the field of phase-locked loop circuits for capturing weak carrier signals, can solve the problems that phase-locked loop circuits cannot capture weak carrier signals, and achieve broadband capture and tracking of sensitivity and improve Effects of capture bandwidth, high-sensitivity broadband capture and tracking

Inactive Publication Date: 2018-11-13
NAT SPACE SCI CENT CAS
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Problems solved by technology

[0003] The purpose of the present invention is to provide a phase-locked loop circuit that uses numerical control scanning voltage to assist in the capture of weak carrier signals in order to solve the technical problem that existing phase-locked loop circuits cannot capture weak carrier signals. The phase-locked loop circuit is suitable for In the field of wireless communication, especially in the process of deep space communication, it is designed for high-sensitivity receivers to solve the problem of acquisition bandwidth of high-sensitivity receivers, and realize broadband acquisition and tracking of weak carrier signals

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  • A Phase-Locked Loop Circuit for Capturing Weak Carrier Signals

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Embodiment Construction

[0009] A phase-locked loop circuit for capturing weak carrier signals according to the present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.

[0010] The phase-locked loop circuit is a circuit that allows an external reference signal to control the frequency and phase of the internal oscillator of the loop. It can be used to capture and track the carrier signal, and the phase-locked loop circuit has good filtering characteristics.

[0011] The phase-locked loop circuit is not like a general nonlinear device, the threshold depends on the input signal-to-noise ratio, but is determined by the loop signal-to-noise ratio. Generally, the passband of the loop is much narrower than the front passband of the loop input, so the loop signal-to-noise ratio is significantly higher than the input signal-to-noise ratio, and the loop can work under the condition of low input signal-to-noise ratio, that is, it has a low Excellent fea...

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Abstract

The invention provides a phase-locked loop circuit for implementing weak carrier signal acquisition. The phase-locked loop circuit comprises a first phase discriminator, a loop filter, a voltage-controlled oscillator (VCO), an adder and a scanning voltage generation circuit, wherein the first phase discriminator, the loop filter, the adder and the VCO form a loop to acquire and track weak carrier signals, the adder is used for adding loop integral voltage and scanning voltage, and then inputting the sum into the VCO; the scanning voltage generation circuit analyzes and generates scanning voltage by utilizing the input weak carrier signals and signals outputted by the VCO. According to the phase-locked loop circuit, acquisition bandwidth is increased by utilizing the externally added scanning voltage in an acquisition assisting method, so that complete acquisition within Doppler bandwidth is implemented, signal Doppler bandwidth requirements are met, and high-sensitivity broadband acquisition and tracking are achieved with the assistance of digital-control scanning voltage.

Description

technical field [0001] The invention relates to the field of phase-locked loop circuits, in particular to a phase-locked loop circuit for capturing weak carrier signals. Background technique [0002] The acquisition of weak carrier signals is a technical difficulty in the design of high-zero-sensitivity receivers, especially in the field of deep space communication. Since the communication distance exceeds one million kilometers, the signal attenuation is very large, and the receiver is required to have high sensitivity. Signal levels below -140dBm. In this regard, the acquisition and tracking of ultra-low signals cannot be achieved by using a conventional phase-locked loop circuit, and the loop acquisition bandwidth must be narrowed. However, the Doppler frequency shift of the moving carrier is generally large, and the narrow capture band is in contradiction with the large Doppler bandwidth, so it is impossible to capture weak carrier signals within the entire Doppler band...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H03L7/099H03L7/093
CPCH03L7/093H03L7/099
Inventor 杜起飞孙越强白伟华王先毅王冬伟蔡跃荣吴迪孟祥广李伟吴春俊柳聪亮
Owner NAT SPACE SCI CENT CAS
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