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7/29/2019 Sound to Electricity
1/13
Study
of
Piezoelectric
Devices
for
ConversionofSoundtoElectricity
B JamieSueRankinUniversityofUtah
April20th,2011
7/29/2019 Sound to Electricity
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Background:
ThermoacousticEngines
Sourceofheat
Acousticresonator
Stackof
plates
Heatexchangeratendofeachstack
Workinggas:air
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PressureSensitiveCrystals
or
Ceramics
Shapeisdistorted,itgivesoffchargewhichcreatesvoltage
Canwork
two
ways:
loudspeakerormicrophone
WideRan eofApplications
Whyusesound?
streetlights in France
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Investigation:VoltageOutputand
Frequency
Twotypes
of
crystals:
CommerciallyAvailableand.
expensivespecially
manufactured
single
crystals
voltageoutput?
Whichdeviceshaveresonant
frequencieswhich
will
fit
bestwithourheatengines?
7/29/2019 Sound to Electricity
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7/29/2019 Sound to Electricity
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Loudspeaker
to20kHzaudio
Resultsinpressure
,
showsresonanteaks
7/29/2019 Sound to Electricity
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Outputssoundtobe
Broad,evenoutput;
resonance
measuredwith
makesuresoundisatthesamelevelforallpiezos
7/29/2019 Sound to Electricity
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Measuresfrequency
response
GivesACvoltage
outputof
piezoelectricdevice(RMS)
Usedto
find
the
peakoftheresonantrequency
7/29/2019 Sound to Electricity
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weepovera
frequenciesto
find
theonewhichgivesRM
t e g estvo tageoutput
SharpQ
=Extremely
Volta
ge(
narrowfrequencyband(~5Hz)
Out ut is enerall
0to50m
about
10times
largerthanoff
)
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CharacterizingPiezoelectricDevices
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VoltageResponse
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ResonantFrequencies
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InterpretationofResults
Thecommerciallyavailablepiezoelectricdevicesseem
output Surprisinglywidevariation
nt eper ormanceosinglecrystalpiezos
operatebetween2and3kHz
3kHzthermoacousticenginearethecommercial
rass an s ng e
crystal
15BUsing sound to light up LEDs