Cover of: Ultrasonic motors | S. Ueha

Ultrasonic motors

theory and applicationms
  • 0.94 MB
  • 1742 Downloads
  • English
by
Clarendon Press, Oxford University Press , Oxford, New York
Ultrasonic m
StatementS. Ueha and Y. Tomikawa ; with contributions from M. Kurosawa and N. Nakamura.
SeriesMonographs in electrical and electronic engineering ;, 29
ContributionsTomikawa, Y.
Classifications
LC ClassificationsTK2537 .U34 1993
The Physical Object
Paginationp. cm.
ID Numbers
Open LibraryOL1405094M
ISBN 100198593767
LC Control Number93013288

Description Ultrasonic motors FB2

A comprehensive tutorial on ultrasonic motors for practicing engineers, researchers and graduate students. "Ultrasonic Motors: Technologies and Applications" describes the operating mechanism, electromechanical coupling models, optimization design of structural parameters, testing methods, and drive/control techniques of various ultrasonic motors and their : Chunsheng Zhao.

A comprehensive tutorial on ultrasonic motors for practicing engineers, researchers and graduate students. "Ultrasonic Motors: Technologies and Applications" describes the operating mechanism, electromechanical coupling models, optimization design of structural parameters, testing methods, and drive/control techniques of various ultrasonic motors and their : Springer-Verlag Berlin Heidelberg.

out of 5 stars I found it a quite good resource book for ultrasonic motor applications. Reviewed in the United States on J Verified Purchase. It's misleading to put Chinese in the book description.

It's written in English by a Chinese professor. I found it a quite good resource book for ultrasonic motor applications.4/5(1). This book provides a completely up-to-date survey of Ultrasonic motors book many different types of ultrasonic Ultrasonic motors book currently in s: 1.

A comprehensive tutorial on ultrasonic motors for practicing engineers, researchers and graduate students. "Ultrasonic Motors: Technologies and Applications" describes the operating mechanism, electromechanical coupling models, optimization design of structural parameters, testing methods, and drive/control techniques of various ultrasonic motors and their Chunsheng.

Piezoelectric Actuators and Ultrasonic Motors (Electronic Materials: Science & Technology (1)) Softcover reprint of the original 1st ed. Edition by Kenji Uchino (Author) › Visit Amazon's Kenji Uchino Page.

Find all the books, read about the author, and more. Reviews: 2. The ultrasonic motor, invented inutilizes the piezoelectric effect in the ultrasonic frequency range to provide its motive force, resulting in a motor with unusually good low-speed, high-torque and power-to-weight characteristics.

This introduction to the general theory of the ultrasonic motor was written by the motor's inventor and an expert in conventional electric s: 1. A comprehensive tutorial on ultrasonic motors for practicing engineers, researchers and graduate students.

"Ultrasonic Motors: Technologies and Applications" describes the operating mechanism, electromechanical coupling models, optimization design of structural parameters, testing methods, and drive/control techniques of various ultrasonic motors and their applications.

Piezoelectric Actuators and Ultrasonic Motors uchino grey cover same cover ar. some bends and edge wear one crease mark front page Fulfillment by Amazon (FBA) is a service we offer sellers that lets them store their products in Amazon's fulfillment centers, and we directly pack, ship, and provide customer service for these by: Piezoelectric ultrasonic vibrations provide rotary or linear motion in ultrasonic motors by means of friction.

A larger force/torque is obtained from ultrasonic motors than from conventional electromagnetic devices of the same weight. The basic principles of linear and rotary motors that consist of two orthogonal vibrations are introduced.

Details Ultrasonic motors PDF

An ultrasonic motor is a piezoelectric device which produces rotary or linear motion from ultrasonic vibrations via friction. Ultrasonic motors produce a much larger torque/force than conventional electromagnetic motors. Several basic principles are introduced for rotary and linear motors.

Details of this history can be found in the book by. This book is the result of a collaboration between the inventor and an expert in conventional electric motors: the result is an introduction to the general theory presented in a way that links it to conventional motor. A traveling-wave ultrasonic motor uses surface acoustic waves (SAWs) at very high frequency in tens of megahertz (Kurosawa et al., ), whereas the driving frequency of conventional ultrasonic motors using bulk vibrations ranges from 25 to kHz.

An interdigital transducer printed on a piezoelectric substrate is used to excite SAWs, as in. ultrasonic piezomotor-driven translation stage. Custom high-force ultrasonic piezo motors can provide forces to 50N. Ultrasonic Motor Principle i e z o n a n o p o s i t i o n i n g | w w w.

p i. w s notice. without Subjecttochange GmbH& 08/ (PI) Instrumente Inspirations ©Physik CatEFile Size: 3MB. The ultrasonic motor, invented inutilizes the piezoelectric effect in the ultrasonic frequency range to provide its motive force, resulting in a motor with unusually good low-speed, high-torque and power-to-weight characteristics.

This introduction to the general theory of the ultrasonic motor was written by the motor's inventor and an expert in conventional electric motors. Industry engineers and academic researchers in this field will find Piezoelectric Actuators and Ultrasonic Motors an invaluable source of pertinent scientific information, practical details, and references.

In the classroom, this book may be used for graduate level courses on ceramic actuators. Cited By. Sashida's wedge-type ultrasonic motor 2 The travelling-wave ultrasonic motor 5 Standing waves and travelling waves 7 Rayleigh wave and flexural wave 8 A comparison with waves in water 8 The motor's structure 11 Ultrasonic linear motors 12 Other motor types 13 Advantages of the ultrasonic motor and its.

This paper reviews recent developments of ultrasonic motors using piezoelectric resonant vibrations. Following the historical background, ultrasonic motors using standing and traveling waves are Author: Kenji Uchino.

The ultrasonic motor is subjected to the limitations of the piezoelectric motors vibrations create alternating stresses in the ceramic elements which can result in fatigue failure.

Download Ultrasonic motors EPUB

The ceramic is strong in compression but weak in tension, with respective failure limits in the ratio An ultrasonic motor is a type of electric motor powered by the ultrasonic vibration of a component, the stator, placed against another component, the rotor or slider depending on the scheme of operation (rotation or linear translation).

Ultrasonic motors differ from piezoelectric actuators in several ways, though both typically use some form of piezoelectric material, most often lead zirconate. 1. ULTRASONIC PIEZOELECTRIC MOTOR RAKESH R EEE-S7 46 2.

MOTOR • Device that converts electrical energy to mechanical energy. • ELECTROMAGNETIC MOTORS Current carrying conductor kept in a magnetic field experiences a force or torque (Faraday’s law of EMI). Electrical energy Magnetic energy Mechanical energy 3.

Piezoelectric Ultrasonic Motor Technology Working and Applications Ultrasonic motors were invented in by V.V Lavrinko. In general we are aware of the fact that the motive force is given by the electromagnetic field in the conventional motors.

Ultrasonic Methods of Non-Destructive Testing covers the basic principles and practices of ultrasonic testing, starting with the basic theory of vibration and propagation, design and properties and probes, and then proceeding to the principles and practice of the various ultrasonic techniques for different types of components and structures, both metallic and non-metallic.5/5(2).

In short, the Ultrasonic Motors works on the principle of converse piezoelectric effect. Seminar Report, SSET, Karukutty 6 Dept. of EEE Chapter 5 CONSTRUCTION The Ultrasonic Motors constitutes mainly 4 parts, viz.

Actuator 2. Stator 3. Rotor 4. Casing ACTUATOR Actuator is the driving unit of the USM. An account of ultrasonic motors - a new type of electric motor which employs the piezo-electric effect to give the motive power (rather than electromagnetic interactions in conventional motors).

Attempt to use an ultrasonic sensor to control a DC motor using the PWM output of an arduino. Hello, First, thank you for taking the time to read my post. I'm not veryplease give me some more time.

I am attempting to use an ultrasonic sensor to control a DC motor. A novel L-shaped linear ultrasonic motor operating in a single resonance mode Article in Review of Scientific Instruments 89(1) January with 38 Reads How we measure 'reads'. Ultrasonic Motors › Customer reviews; Customer reviews.

out of 5 stars. 4 out of 5. 1 customer rating. 5 star 0% (0%) 0% out of 5 stars I found it a quite good resource book for ultrasonic motor applications.

Reviewed in the United States on J Verified Purchase.4/5. The name of the production is USR The motor is first type of the present Ultrasonic Motor: USR series.

Ultrasonic Motor rotates using modification when voltage is applied to piezo-electric ceramics. The name of an ultrasonic motor was named from the frequency of the voltage that is exceeding people's audible sound region.(Over 20kHz).

Piezoelectric Actuator/Ultrasonic Motors. Book January Piezoelectric Actuators and Ultrasonic Motors provides in-depth coverage of the theoretical background of piezoelectric and Author: Kenji Uchino.

ISBN: OCLC Number: Description: pages. Contents: General outline of ultrasonic motors; Principles of operation and classification of ultrasonic motors; Rotary motors.Abstract: Piezoelectricity underpins a very large proportion of the ultrasonic transducers in use and in development today.

This chapter first reviews ferroelectricity and piezoelectricity in an ultrasonic context, particularly focusing on the constitutive equations, then describes the configurations of basic piezoelectric transducers in the form of single- and dual-element devices, arrays and.OUR PRODUCTS: A range of Ultrasonic Motors Our range of piezoelectric motors is based on 5 types of dimensions and mechanical output powers from diameter 20 mm to 75 mm and respectively W to 12W.

These piezoelectric motors feature original properties .