Affiliation:
1. Micro‐satellite Research Center Zhejiang University Hangzhou P.R. China
2. Key Laboratory of Micro‐satellite Research of Zhejiang Province Hangzhou P.R. China
3. Huanjiang Laboratory Zhuji P.R. China
Abstract
AbstractAiming at the problems of high system cost, complex ranging process, low ranging accuracy, and limited measurement distance in commonly used methods for ground fixed point distance measurement journals, a variable frequency microwave ranging system based on a dual transponder architecture is proposed in this letter. The system uses carrier dual transponder as an active forwarding architecture, utilizing the digital phase‐locked loop to obtain the high‐precision phase difference between two signals, and resolving the ambiguity through microwave frequency sweep within a certain range. The simulation results show that the system can quickly obtain the unambiguous distance between two fixed points, besides, driven by a high‐stability crystal oscillator, submillimetre accuracy can be achieved in km‐level ranging.
Publisher
Institution of Engineering and Technology (IET)
Subject
Electrical and Electronic Engineering