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基本説明
Providing essential descriptions of practical materials, device designs, drive/control techniques, and applications, this text reveals the significant technologies, procedures, and trends in the design and application of actuator devices for micromechatronic systems.
Full Description
This reference reveals the most significant technologies, procedures, and trends in the design and application of actuator devices for micromechatronic systems. It addresses critical design and manufacturing concepts, as well as challenges in the modeling and regulation of electromechanical losses and heat generation in actuator devices. Accompanied by a CD-ROM demonstrating examples of finite-element modeling and previously developed and commercially available actuators, Micromechatronics provides insight into the future of this evolving field, and considers recent developments in micropositioning technology and displacement transducer, motor, and ultrasonic motor applications.
Contents
CURRENT TRENDS FOR ACTUATORS AND MICROMECHATRONICSThe Need for New ActuatorsConventional Methods for MicropositioningAn Overview of Solid-State ActuatorsCritical Design Concepts and the Structure of the TextFerroelectricityMicroscopic Origins of Electric Field Induced StrainsTensor/Matrix Description of Piezoelectricity Theoretical Description of Ferroelectric and Antiferroelectric PhenomenaPhenomenology of MagnetostrictionFerroelectric Domain ReorientationGrain Size and Electric Field-Induced Strain in FerroelectricsACTUATOR MATERIALSPractical Actuator MaterialsFigures of Merit for Piezoelectric TransducersThe Temperature Dependence of the Electrostrictive StrainResponse SpeedMechanical Properties of ActuatorsCERAMIC ACTUATOR STRUCTURES AND FABRICATION METHODSFabrication of Ceramics and Single CrystalsDevice DesignElectrode MaterialsCommercially Available Piezoelectric and Electrostrictive Actuators DRIVE / CONTROL TECHNIQUES FOR PIEZOELECTRIC ACTUATORSClassification of Piezoelectric ActuatorsFeedback ControlPulse DriveResonance DriveSensors and Specialized Components for Micromechatronic SystemsLOSS MECHANISMS AND HEAT GENERATIONHysteresis and Loss in PiezoelectricsHeat Generation in PiezoelectricsHard and Soft PiezoelectricsBackground InformationDefining the Equations for the ProblemApplication of the Finite Element MethodSERVO DISPLACEMENT TRANSDUCER APPLICATIONSDeformable MirrorsMicroscope StagesHigh Precision Linear Displacement DevicesServo SystemsVCR Head Tracking ActuatorsVibration Suppression and Noise Elimination SystemsPULSE DRIVE MOTOR APPLICATIONSImaging System ApplicationsInchworm DevicesDot Matrix Printer HeadsInkJet PrintersPiezoelectric RelaysAdaptive Suspension SystemsULTRASONIC MOTOR APPLICATIONSGeneral Description and Classification of Ultrasonic MotorsStanding Wave MotorsMixed-Mode MotorsTraveling Wave MotorsMode Rotation MotorsPerformance Comparison Among Various Ultrasonic MotorsMicroscale Walking MachinesCalculations for the Speed and Thrust of Ultrasonic MotorsElements of Designing an Ultrasonic MotorOther Ultrasonic Motor ApplicationsMagnetic MotorsReliability of Ultrasonic MotorsDevelopment Trends as Viewed from Patent StatisticsThe Piezoelectric Actuator/Ultrasonic Motor MarketFuture Trends in Actuator DesignINDEX