Électromécanique

In engineering, electromechanics combines processes and procedures drawn from electrical engineering and mechanical engineering. Electromechanics focuses on the interaction of electrical and mechanical systems as a whole and how the two systems interact with each other. This process is especially prominent in systems such as those of DC or AC rotating electrical machines which can be designed and operated to generate power from a mechanical process (generator) or used to power a mechanical effect (motor). Electrical engineering in this context also encompasses electronics engineering. Electromechanical devices are ones which have both electrical and mechanical processes. Strictly speaking, a manually operated switch is an electromechanical component due to the mechanical movement causing an electrical output. Though this is true, the term is usually understood to refer to devices which involve an electrical signal to create mechanical movement, or vice versa mechanical movement to create an electric signal. Often involving electromagnetic principles such as in relays, which allow a voltage or current to control another, usually isolated circuit voltage or current by mechanically switching sets of contacts, and solenoids, by which a voltage can actuate a moving linkage as in solenoid valves. Before the development of modern electronics, electromechanical devices were widely used in complicated subsystems of parts, including electric typewriters, teleprinters, clocks, initial television systems, and the very early electromechanical digital computers. Solid-state electronics have replaced electromechanics in many applications. The first electric motor was invented in 1822 by Michael Faraday. The motor was developed only a year after Hans Christian Ørsted discovered that the flow of electric current creates a proportional magnetic field. This early motor was simply a wire partially submerged into a glass of mercury with a magnet at the bottom.

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Catégories associées (58)

Concepts associés (19)

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Séances de cours associées (22)

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MICRO-332: Microfabrication practicals

The goal of this course is to introduce students to the practical aspects of some basic micro-fabrication techniques.

MICRO-331: Microfabrication technologies

The student will learn process techniques and applications of modern micro- and nanofabrication technologies, as practiced in a standard clean room, with focus on silicon mainstream and microsystems t

MICRO-621: MOOC: Micro and Nanofabrication (MEMS)

Micro- and nanofabrication can be taught to students and professionals by textbooks and ex-cathedra lectures, but the real learning comes from seeing the manufacturing steps as they happen. This MOOC

This master’s thesis aimed at exploring the field of micro-acoustic spectrometry using surface acoustic waves. The objectives of this project were to design and fabricate a platform for the detection

2022

Micro-mechanics of 3D architectured metals synthesized by electrodeposition

Maxime Alain Baptiste Mieszala

Cellular metallic materials have emerged as a new promising class of materials due to their lightweight porous structures and advanced multi-functional properties. Originally limited to random metalli

EPFL2018

A Microfluidic Brain Interface for In Vivo Recording of Neurochemical Activity

Guillaume Cédric Yves Petitpierre

Neurological disorders have a strong negative impact on the quality of life of affected patients, their close relatives as well as on the health economic system. Early diagnosis associated with better

EPFL2017

Micro and Nanofabrication (MEMS)

Learn the fundamentals of microfabrication and nanofabrication by using the most effective techniques in a cleanroom environment.

Microstructure Fabrication Technologies I

Learn the fundamentals of microfabrication and nanofabrication by using the most effective techniques in a cleanroom environment.

Micro and Nanofabrication (MEMS)

Learn the fundamentals of microfabrication and nanofabrication by using the most effective techniques in a cleanroom environment.

Surface micromachining

Surface micromachining builds microstructures by deposition and etching structural layers over a substrate. This is different from Bulk micromachining, in which a silicon substrate wafer is selectively etched to produce structures. Generally, polysilicon is used as one of the substrate layers while silicon dioxide is used as a sacrificial layer. The sacrificial layer is removed or etched out to create any necessary void in the thickness direction. Added layers tend to vary in size from 2-5 micrometres.

Push-button

A push-button (also spelled pushbutton) or simply button is a simple switch mechanism to control some aspect of a machine or a process. Buttons are typically made out of hard material, usually plastic or metal. The surface is usually flat or shaped to accommodate the human finger or hand, so as to be easily depressed or pushed. Buttons are most often biased switches, although many un-biased buttons (due to their physical nature) still require a spring to return to their un-pushed state.

Microtechnique

Une microtechnique est une technique de fabrication ou de réparation des objets à l'échelle sub-millimétrique (c’est-à-dire dans le domaine du micromètre), l'ensemble des microtechniques étant la microtechnologie. Les microtechniques englobent les appareils et machines qui acquièrent, traitent et restituent l'information. Elles concernent les produits et activités suivants : mesure du temps (montres-bracelet, horloges, appareils de chronométrage sportif, etc.) ; bureautique (machines à écrire, photocopieuses, machines à affranchir, agrafeuses, etc.

Technologies de microfabrication

Explore les technologies de microfabrication, la lithographie, MEMS, les processus de salle blanche, l'amélioration de la résolution, les masques de changement de phase et la complexité de la fabrication des puces.

Fabrication étendue : Gravure ME-426: Micro/Nanomechanical devices

Couvre le processus de gravure en utilisant des techniques humides et sèches, en expliquant les définitions, les étapes, les exemples, les défis et les solutions.

Fabrication de masque clip MICRO-621: MOOC: Micro and Nanofabrication (MEMS)MOOC: Micro and Nanofabrication (MEMS)

Présente les étapes pratiques de la fabrication d'un masque pour la lithographie UV.

vignette|Un accéléromètre MEMS. vignette|Un capteur de pression MEMS (sur une pièce qui donne l'échelle). Un microsystème électromécanique est un microsystème fabriqué à partir de matériaux semi-conducteurs. Il comprend un ou plusieurs éléments mécaniques et utilise l’électricité comme source d’énergie, en vue de réaliser une fonction de capteur ou d’actionneur, avec au moins une structure présentant des dimensions micrométriques ; la fonction du système étant en partie assurée par la forme de cette structure.

La physique du solide est l'étude des propriétés fondamentales des matériaux solides, cristallins – par exemple la plupart des métaux –, ou amorphes – par exemple les verres – en partant autant que possible des propriétés à l'échelle atomique (par exemple la fonction d'onde électronique) pour remonter aux propriétés à l'échelle macroscopique. Bien que celles-ci présentent parfois de fortes réminiscences des propriétés microscopiques (par ex.

vignette|Un Intel 4004 dans son boîtier à seize broches, premier microprocesseur commercialisé. vignette|Architecture de l'Intel 4004. vignette|L'intérieur d'un Intel 80486DX2. Un microprocesseur est un processeur dont tous les composants ont été suffisamment miniaturisés pour être regroupés dans un unique boîtier. Fonctionnellement, le processeur est la partie d'un ordinateur qui exécute les instructions et traite les données des programmes.