A procedure to correct the effects of a relative delay between the quadrature components of radar signals at base band.
Permanent link
https://hdl.handle.net/10037/547Date
2005-01-31Type
Journal articlePeer reviewed
Tidsskriftartikkel
Abstract
The real and imaginary parts of baseband signals
are obtained from a real narrow–band signal by quadrature
mixing, i.e. by mixing with cosine and sine signals at the
narrow band’s selected center frequency. We address the
consequences of a delay between the outputs of the quadrature
mixer, which arise when digital samples of the quadrature
baseband signals are not synchronised, i.e. when the
real and imaginary components have been shifted by one
or more samples with respect to each other. Through analytical
considerations and simulations of such an error on
different synthetic signals, we show how this error can be
expected to afflict different measurements. In addition, we
show the effect of the error on actual incoherent scatter
radar data obtained by two different digital receiver systems
used in parallel at the EISCAT Svalbard Radar (ESR). The
analytical considerations indicate a procedure to correct the
error, albeit with some limitations due to a small singular
region. We demonstrate the correction procedure on actually
afflicted data and compare the results to simultaneously
acquired unafflicted data. We also discuss the possible data
analysis strategies, including some that avoid dealing directly
with the singular region mentioned above.
Publisher
European Geosciences UnionSeries
Annales Geophysicae 23(2005) pp 39-46Metadata
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