Abstract
Robust data transmission over long ranges with standard ultrasound devices is
a challenge. Ultrasound indoor positioning systems in particular require long
ranges and a robust data communication link. Fundamentally, a piezoelectric
transducer has a narrow bandwidth for high sound pressure level and
efficiency and is not suitable for broad-band applications. Moreover,
ultrasound attenuation in the air increases quadratically within frequency, and thus
ultrasound localization systems are restricted to low frequencies and low
bandwidths.
This work presents a novel method to match a piezoelectric transceiver for
multiple frequencies by using the parallel and the series resonance of the
transceiver. The aim is to adjust the amplitudes at different frequencies
from different senders to the same level, which is important for orthogonal
frequency division multiplex communication systems. Hence, an analog-to-digital
converter (ADC) with low dynamic range (low voltage resolution) can be used
to measure multiple frequencies with the same resolution. As a result, the
optimization decreases the required dynamic range by 6 dB. Consequently, the
ADC requires 1 bit fewer to ensure the same resolution for all carrier
frequencies.
Citation
ID:
167324
Ref Key:
ens2015journalpiezoelectric