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Wideband two-dimensional and multiple beam phased arrays and microwave applications using piezoelectric transducersKim, Sang Gyu 29 August 2005 (has links)
Modern satellite, wireless communication, and radar systems often demand
wideband performance for multi-channel operation and the ability to steer multiple
beams for multiple moving targets. This dissertation covers a variety of topics to design
low-cost and wideband antenna systems. The main areas of study are microwave devices
controlled piezoelectric transducers (PETs) and wideband baluns and balanced
microwave circuits using parallel-strip lines. Some focus has also been given to the
design of Rotman lens for multiple beam generation and Vivaldi antenna arrays for
wideband two-dimensional scanning.
The dielectric perturbation technique controlled by PET is introduced to design a
wideband phase shifter and a QPSK modulator, and to tune the resonant frequency of a
slot dipole. The designed PET-controlled phase shifters are used for beam steering in a
dual beam phased array using a bidirectional feeding scheme and a five-beam phased
array using a microstrip Rotman lens.
Vivaldi-type antennas are commonly used to achieve wideband performance. Very
wideband performance can be achieved using an antipodal tapered slot antenna because
of its inherent simple wideband transition from microstrip line to parallel-strip line. An
antipodal tapered slot antenna and a phased array are designed to span 10 to 35 GHz. In
addition, a 4??4 two-dimensional antenna array is designed using wideband antipodal
tapered slot antennas, and two sets of PET-controlled phase shifters for E- and H-plane
scanning are fabricated to steer the beam. As a microwave system using wideband
antenna array, a new low-cost and wideband phased array radar is developed using a
modulated pulse over 8 to 20 GHz band.
The double-sided parallel-strip line as a balanced line is presented. The parallelstrip
line offers much flexibility for microwave circuit designs. This transmission line
makes it possible to realize a low impedance line and allows the design of a compact
wideband balun and junction. Wideband transitions (or baluns) from parallel-strip line to
microstrip line, a typical unbalanced transmission line, are realized to cover several
octave bandwidth. Balanced microwave filters and a hybrid coupler are developed using
the parallel-strip line.
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Radial vibration analysis of composite piezoelectric transducerYang, Jyun-hong 14 February 2008 (has links)
Free vibration of composite piezoelectric transducers is analyzed by a modified two-dimensional axisymmetric finite element in this study. The modified finite element is formulated based on assumed displacement fields and electric potential, and is capable for three-dimensional analyses of vibration of axisymmetric composite piezoelectric structures.
Different arrangements and radius of piezoelectric disk and metal ring, with various thicknesses will be considered and first radial vibration frequencies are derived and their mode shapes are demonstrated, which might be helpful for the design of radial composite transducers. Also, the results of the present study will be compared with those by other methods.
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The fabrication of piezoelectric transducers by depositing ZnO films on PET substratesWu, Bing-Rung 04 August 2009 (has links)
In this thesis, piezoelectric transducers were fabricated by depositing ZnO films on PET substrates. The optimal deposition parameters for ZnO films are sputtering pressure of 15 mTorr, RF power of 75 W and oxygen concentration of 60 %, which are determined by scanning electron microscopy and X-ray diffraction analysis. PET substrates of Young¡¦s modulus of 6.62 GPa are obtained by Nano Indenter. To fabricate a transducer with resonance frequency of 100 Hz, the cantilever length of 0.979 cm and vibration area of 1.4835 cm2 are calculated by Cantilever Vibration Theory. Copper layer was attached to ZnO/ITO/PET structure to form piezoelectric transducers.
A mass of 0.57 g was attached to the transducer to increase the vibration amplitude. A vibration source of 100 Hz was provided to the piezoelectric transducer and then the experimental results were obtained by oscilloscope. The optimal thickness of ZnO films is 964.65 nm, at which the open circuit voltage is 1.87 V. A bridge rectifier was constructed by Shottky diode with product number 1N5711 along with a capacitor of 37 nF. After rectifying and filtering of device output, the maximum power of 0.0697£gW/cm2 was generated with the load resistance of 5 M£[ and the internal resistance of 4.3185 M£[.
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Design of high performance piezo composites actuators /Almajid, Abdulhakim A. January 2002 (has links)
Thesis (Ph. D.)--University of Washington, 2002. / Vita. Includes bibliographical references (leaves 106-115).
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A comparison of models for a piezoelectric 31-mode segmented cylindrical transducerJoseph, Nicholas John 18 March 2014 (has links)
Piezoelectric transducers with cylindrical geometry are often designed to operate in a radial “breathing” mode. In order to tune their performance in a cost effective way, cylinders can be constructed of alternating active (piezoelectric) and inactive (non-piezoelectric) staves. Existing lumped parameter models for such a ring are based on effective piezoelectric properties of the composite ring which reduce the system to a single degree of freedom corresponding to the breathing motion. Unfortunately, if the length of the staves is a sufficiently large percentage of the circumference, the transducer may demonstrate a detrimental higher frequency resonance within the desired bandwidth of operation even when all staves are uniformly excited by an electrical field. This parasitic resonance results from bending motion of the staves associated with stiffness and mass discontinuities of the constituent material properties and can significantly decrease the radiated acoustic pressure and generate distortion of the radiated acoustic waveform. This work presents a multiple-degree-of-freedom lumped parameter model that captures both the breathing and bending resonances of the transducer and provides a more accurate prediction of its effective coupling coefficient. Results are compared with a one-degree-of-freedom model, finite element models, and experimental data. Modifications to account for internal volumes, nonlinearities, and other effects are also presented and discussed. / text
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Electromechanical Behaviour of Surface-Bonded Piezoelectric Sensors/Actuators with Imperfect Adhesive LayersJin, Congrui Unknown Date
No description available.
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Modeling and Application of Piezoelectric Materials in Repair of Engineering StructuresWu, Nan 01 1900 (has links)
The shear horizontal wave propagation and vibration of piezoelectric coupled structures under an open circuit electrical boundary condition are studied. Following the studies on the dynamic response of piezoelectric coupled structures, the repair of both crack/notch and delaminated structures using piezoelectric materials are conducted. The main contribution was the proposed the active structural repair design using piezoelectric materials for different structures.
An accurate model for the piezoelectric effect on the shear wave propagation is first proposed to guide the application of piezoelectric materials as sensors and actuators in the repair of engineering structures. A vibration analysis of a circular steel substrate surface bonded by a piezoelectric layer with open circuit is presented. The mechanical models and solutions for the wave propagation and vibration analysis of piezoelectric coupled structures are established based on the Kirchhoff plate model and Maxwell equation.
Following the studies of the dynamic response of piezoelectric coupled structures, a close-loop feedback control repair methodology is proposed for a vibrating delaminated beam structure by using piezoelectric patches. The electromechanical characteristic of the piezoelectric material is employed to induce a local shear force above the delamination area via an external actuation voltage, which is designed as a feedback of the deflection of a vibrating beam and a delaminated plate, to reduce the stress singularity around the delamination tips. Furthermore, an experimental realization of an effective repair of a notched cantilever beam structure subjected to a dynamic loading by use of piezoelectric patches is reported. A small piezoelectric patch used as a sensor is placed on the notch position to monitor the severity of the stress singularity around the notch area by measuring the charge output on the sensor, and a patch used as an actuator is located around the notch area to generate a required bending moment by employing an actuation voltage to reduce the stress singularity at the notch position. The actuation voltage on the actuator is designed from a feedback circuit process. Through the analytical model, FEM simulation and experimental studies, the active structural repair method using piezoelectric materials is realized and proved to be feasible and practical.
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Experimental characterization of the polarization reorientation process in piezoelectric ceramicsMardon, Clément P. 05 1900 (has links)
No description available.
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The use of a piezoelectric actuator to improve precision of a coordinate measurement machineMorrisette, Jennifer A. 12 1900 (has links)
No description available.
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Processing study of fine grained piezoelectric materialsRozenburg, Keith Gregory 08 1900 (has links)
No description available.
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