International Journal of Information and Communication Sciences

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Decision Wave Equation and Block Diagram of Electro Magneto Elastic Actuator Nano - and Micro Displacement for Communications Systems

Received: 02 August 2016    Accepted: 12 August 2016    Published: 06 September 2016
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Abstract

Decision wave equation, structural - parametric model and block diagram of electro magneto elastic actuators are obtained, its transfer functions are bult. Effects of geometric and physical parameters of electro magneto elastic actuators and external load on its dynamic characteristics are determined. For calculation of communications systems with piezoactuators the block diagram and the transfer functions of piezoactuators are obtained.

DOI 10.11648/j.ijics.20160102.12
Published in International Journal of Information and Communication Sciences (Volume 1, Issue 2, October 2016)
Page(s) 22-29
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Electro Magneto Elastic Actuators, Piezoactuator, Block Diagram, Transfer Functions

References
[1] S. Zhou, Z Yao, "Design and optimization of a modal-independent linear ultrasonic motor," IEEE transaction on ultrasonics, ferroelectrics, and frequency control 61, 3, 535-546 (2014).
[2] S. M. Afonin, "Block diagrams of a multilayer piezoelectric motor for nano- and microdisplacements based on the transverse piezoeffect," Journal of computer and systems sciences international 54, 3, 424-439 (2015).
[3] S. M. Afonin, "Absolute stability conditions for a system controlling the deformation of an elecromagnetoelastic transduser," Doklady mathematics 74, 3, 943-948 (2006).
[4] S. M. Afonin, "Stability of strain control systems of nano-and microdisplacement piezotransducers," Mechanics of solids 49, 2, 196-207 (2014).
[5] S. M. Afonin, "Structural parametric model of a piezoelectric model of a piezoelectric nanodisplacement transduser," Doklady physics 53, 3, 137-143 (2008).
[6] S. M. Afonin, "Solution of the wave equation for the control of an elecromagnetoelastic transduser," Doklady mathematics 73, 2, 307-313 (2006).
[7] Physical Acoustics: Principles and Methods. Vol.1. Part A. Methods and Devices. Ed.: W. Mason. New York: Academic Press. 1964. 515 p.
[8] D. Zwillinger, Handbook of Differential Equations. Boston: Academic Press. 1989. 673 p.
[9] S. M. Afonin, "Structural-parametric model and transfer functions of electroelastic actuator for nano- and microdisplacement," in Piezoelectrics and Nanomaterials: Fundamentals, Developments and Applications. Ed. I.A. Parinov. New York: Nova Science. 2015. pp. 225-242.
[10] S. M. Afonin, "Generalized parametric structural model of a compound elecromagnetoelastic transduser," Doklady physics 50, 2, 77-82 (2005).
[11] S. M. Afonin, "Generalized hysteresis characteristic of a piezoelectric transducer and its harmonic linearization," Mechanics of solids 39, 6, 14-19, (2004).
[12] S. M. Afonin, "Generalized structural parametric model of an elecromagnetoelastic transduser for control system of nano- and microdisplacement: I. Solution of the wave equation for control problem of an elecromagnetoelastic transduser," Journal of computer and systems sciences international 44, 3, 399-405 (2005).
[13] S. M. Afonin, "Generalized structural parametric model of an elecromagnetoelastic transduser for control system of nano- and microdisplacements: II. On the generalized structural parametric model of a compound elecromagnetoelastic transduser," Journal of computer and systems sciences international 44, 4, 606-612 (2005).
[14] S. M. Afonin, "Generalized structural-parametric model of an elecromagnetoelastic converter for nano- and micrometric movement control systems: III. Transformation parametric structural circuits of an elecromagnetoelastic converter for nano- and micromovement control systems," Journal of computer and systems sciences international 45, 2, 317-325 (2006).
[15] S. M. Afonin, "Parametric structural diagram of a piezoelectric converter," Mechanics of solids 37, 6, 85-91 (2002).
[16] S. M. Afonin, "Deformation, fracture, and mechanical characteristics of a compound piezoelectric transducer," Mechanics of solids 38, 6, 78-82 (2003).
[17] S. M. Afonin, "Parametric block diagram and transfer functions of a composite piezoelectric transducer," Mechanics of solids 39, 4, 119-127 (2004).
[18] S. M. Afonin, "Elastic compliances and mechanical and adjusting characteristics of composite piezoelectric transducers," Mechanics of solids 42, 1, 43-49 (2007).
[19] S. M. Afonin, "Static and dynamic characteristics of a multy-layer electroelastic solid," Mechanics of solids 44, 6, 935-950 (2009).
[20] S. M. Afonin, "Design static and dynamic characteristics of a piezoelectric nanomicrotransducers," Mechanics of solids 45, 1, 123-132 (2010).
[21] S. M. Afonin, "Structural-parametric model of nanometer-resolution piezomotor," Russian engineering research 21, 5, 42-50 (2001).
[22] S. M. Afonin, "Parametric structure of composite nanometric piezomotor," Russian engineering research 22, 12, 9-24 (2002).
[23] S. M. Afonin, "Electromechanical deformation and transformation of the energy of a nano-scale piezomotor," Russian engineering research 31, 7, 638-642 (2011) .
[24] S. M. Afonin,. "Electroelasticity problems for multilayer nano- and micromotors," Russian engineering research 31, 9, 842-847 (2011).
[25] S. M. Afonin, "Nano- and micro-scale piezomotors," Russian engineering research 32, 7-8, 519-522 (2012).
Author Information
  • Department of Intellectual Technical Systems, National Research University of Electronic Technology (MIET), Moscow, Russia

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    S. M. Afonin. (2016). Decision Wave Equation and Block Diagram of Electro Magneto Elastic Actuator Nano - and Micro Displacement for Communications Systems. International Journal of Information and Communication Sciences, 1(2), 22-29. https://doi.org/10.11648/j.ijics.20160102.12

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    ACS Style

    S. M. Afonin. Decision Wave Equation and Block Diagram of Electro Magneto Elastic Actuator Nano - and Micro Displacement for Communications Systems. Int. J. Inf. Commun. Sci. 2016, 1(2), 22-29. doi: 10.11648/j.ijics.20160102.12

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    AMA Style

    S. M. Afonin. Decision Wave Equation and Block Diagram of Electro Magneto Elastic Actuator Nano - and Micro Displacement for Communications Systems. Int J Inf Commun Sci. 2016;1(2):22-29. doi: 10.11648/j.ijics.20160102.12

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  • @article{10.11648/j.ijics.20160102.12,
      author = {S. M. Afonin},
      title = {Decision Wave Equation and Block Diagram of Electro Magneto Elastic Actuator Nano - and Micro Displacement for Communications Systems},
      journal = {International Journal of Information and Communication Sciences},
      volume = {1},
      number = {2},
      pages = {22-29},
      doi = {10.11648/j.ijics.20160102.12},
      url = {https://doi.org/10.11648/j.ijics.20160102.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijics.20160102.12},
      abstract = {Decision wave equation, structural - parametric model and block diagram of electro magneto elastic actuators are obtained, its transfer functions are bult. Effects of geometric and physical parameters of electro magneto elastic actuators and external load on its dynamic characteristics are determined. For calculation of communications systems with piezoactuators the block diagram and the transfer functions of piezoactuators are obtained.},
     year = {2016}
    }
    

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    AB  - Decision wave equation, structural - parametric model and block diagram of electro magneto elastic actuators are obtained, its transfer functions are bult. Effects of geometric and physical parameters of electro magneto elastic actuators and external load on its dynamic characteristics are determined. For calculation of communications systems with piezoactuators the block diagram and the transfer functions of piezoactuators are obtained.
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