<abstract xmlns="http://www.w3.org/1999/xhtml">

<p>The possibility to work by using small objects, under the microscopic view, it is a challenge. The force’s spectrum differs from that of the macroscopic scale, and many unexpected force vectors will appear. A sharp tip must be the ideal pressure vector on different microscopic small object to push, roll, and brake and so on. The positioning of this tip must be a very precise one, comparatively with the working area dimensions and we consider that 10 microns can be a reasonable measuring unit for these moves that are executed into a specific way in these kinds of cases. The mechatronic system designed to actuate the tip, becomes this paper subject. Indisputable we will talk about an actuator with one or more than one freedom degrees. Mechanical aspects are secondary, but necessary to understand the impact of electrical parameters on the minimum possible unit of movement. Electronic control refers to a switching and PWM signal, through a software that develops both the effective part of generating the control signal and the HMI interface through a touch-screen. The aim of this paper was to determine the minimum micrometric travel distance that can be obtained with a 12-bit PWM signal generated by a Raspberry mini-computer</p>
</abstract>

The possibility to work by using small objects, under the microscopic view, it is a challenge. The force’s spectrum differs from that of the macroscopic scale, and many unexpected force vectors will appear. A sharp tip must be the ideal pressure vector on different microscopic small object to push, roll, and brake and so on. The positioning of this tip must be a very precise one, comparatively with the working area dimensions and we consider that 10 microns can be a reasonable measuring unit for these moves that are executed into a specific way in these kinds of cases. The mechatronic system designed to actuate the tip, becomes this paper subject. Indisputable we will talk about an actuator with one or more than one freedom degrees. Mechanical aspects are secondary, but necessary to understand the impact of electrical parameters on the minimum possible unit of movement. Electronic control refers to a switching and PWM signal, through a software that develops both the effective part of generating the control signal and the HMI interface through a touch-screen. The aim of this paper was to determine the minimum micrometric travel distance that can be obtained with a 12-bit PWM signal generated by a Raspberry mini-computer

Mechatronic System Integrating an Electromagnetic Actuator with the Possibility of Moving the Working Microscopic Tool at Submicrometric Resolutions

Scientific Bulletin of Valahia University - Materials and Mechanics

This work is licensed under the Creative Commons Attribution 4.0 International License.

The possibility to work by using small objects, under the microscopic view, it is a challenge. The force’s spectrum differs from that of the macroscopic scale,...

Mechatronic System Integrating an Electromagnetic Actuator with the Possibility of Moving the Working Microscopic Tool at Submicrometric Resolutions

Published Online: Apr 30, 2022

Page range: 42 - 44

DOI: https://doi.org/10.2478/bsmm-2022-0007

Keywords
mechatronic system, actuator, magnetic, PWM, HMI, Raspberry

© 2022 Mihaiță Nicolae Ardeleanu et al., published by Sciendo

This work is licensed under the Creative Commons Attribution 4.0 International License.

Mechatronic System Integrating an Electromagnetic Actuator with the Possibility of Moving the Working Microscopic Tool at Submicrometric Resolutions

Published Online: Apr 30, 2022

Page range: 42 - 44

DOI: https://doi.org/10.2478/bsmm-2022-0007

Keywordsmechatronic system, actuator, magnetic, PWM, HMI, Raspberry

© 2022 Mihaiță Nicolae Ardeleanu et al., published by Sciendo

This work is licensed under the Creative Commons Attribution 4.0 International License.

Keywords
mechatronic system, actuator, magnetic, PWM, HMI, Raspberry