A phasemeter concept for space applications that integrates an autonomous signal acquisition stage based on the discrete wavelet transform

The Review of Scientific Instruments
Filippo AlesClaus Braxmaier

Abstract

We describe a phasemeter designed to autonomously acquire and track a heterodyne signal with low signal-to-noise ratio in a frequency band that spans from 1 MHz to 25 MHz. The background driving some of the design criterions of the phasemeter comes from studies on future space mission concepts such as orbiting gravitational wave observatories and next generation geodesy missions which all rely on tracking phasemeters in order to meet their mission goal. The phasemeter has been implemented within a field programmable gate array trying to minimize the requirement of computational resources and its performance has been tested using signal generators. Laboratory test has shown that the phasemeter is capable of locking to an input signal in less than half a millisecond, while its phase measurement accuracy is in the micro-radian range for measurement frequencies that span from mHz to Hz.

References

Jun 13, 2014·Optics Express·Danielle M R WuchenichDaniel A Shaddock
Aug 5, 2014·Optics Express·Thomas S SchwarzeKarsten Danzmann

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Citations

Apr 2, 2018·The Review of Scientific Instruments·Yu-Rong Liang

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