Method of adaptive PLL bandwidth adjustment without phase slipping 被引量：2

Method of adaptive PLL bandwidth adjustment without phase slipping

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摘要 In a system based on the phase lock loop（PLL）, a trade-off must be made between the tracking precision and the dynamic performance if constant parameters are adopted. To overcome this drawback, a new method called no phase slipping adaptive bandwidth（NPS-AB） is proposed, which can adjust the loop bandwidth adaptively for different working conditions. As a result, both the tracking precision and the dynamic performance can be achieved concurrently. NPS-AB has two features to keep the loop stable： one is the capability of quick response to dynamics; the other is a series of additional constraints when the bandwidth is switched. Compared with other methods, there is no phase slipping during the adjustment process for NPS-AB. The phase integer ambiguity can be avoided and the phase value is kept valid. It is meaningful for carrier ranging systems. Simulation results show that NPS-AB can deal with sudden dynamics and keep the pseudo-range value stable in the entire dynamic process. In a system based on the phase lock loop（PLL）, a trade-off must be made between the tracking precision and the dynamic performance if constant parameters are adopted. To overcome this drawback, a new method called no phase slipping adaptive bandwidth（NPS-AB） is proposed, which can adjust the loop bandwidth adaptively for different working conditions. As a result, both the tracking precision and the dynamic performance can be achieved concurrently. NPS-AB has two features to keep the loop stable： one is the capability of quick response to dynamics; the other is a series of additional constraints when the bandwidth is switched. Compared with other methods, there is no phase slipping during the adjustment process for NPS-AB. The phase integer ambiguity can be avoided and the phase value is kept valid. It is meaningful for carrier ranging systems. Simulation results show that NPS-AB can deal with sudden dynamics and keep the pseudo-range value stable in the entire dynamic process.

作者 Yannian Lou Chaojie Zhang Xiaojun Jin Zhonghe Jin

机构地区 Micro-Satellite Research Center

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2014年第6期949-958,共10页 系统工程与电子技术（英文版）

关键词 bandwidth adjustment tracking performance phase slipping adaptive loop bandwidth adjustment,tracking performance,phase slipping,adaptive loop

分类号 TN911.8 [电子电信—通信与信息系统]

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Journal of Systems Engineering and Electronics

2014年第6期

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