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Maher Kayal and Cédric Meinen

Ce cours est un cours d’introduction à la réalisation des fonctions linéaires à l’aide de transistors.

Les étudiants appliquent la théorie des circuits, Ils apprennent à manipuler les modèles petits et grands signaux du transistor bipolaire afin de réaliser les fonctions d’amplifications et filtrage. Les explications sont illustrées par des exercices avec des démonstrations de circuits simulés à l’aide d’un simulateur de type Spice qui peuvent être reproduite par les élèves.

What's inside

Learning objectives

  • Comprendre la structure du transistor bipolaire.
  • D’utiliser les configurations petits-signaux du transistor.
  • De concevoir des circuits de polarisation des et sources de courant.
  • De concevoir des amplificateurs élémentaires à transistors.
  • D’analyser la réponse en fréquence des amplificateurs.
  • De comprendre la mise-en-cascade des structures analogiques pour réaliser un amplificateur opérationnel ou un amplificateur de puissance.
  • A la fin de ce cours l'étudiant doit être capable de:

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Enseigne les fondements des transistors bipolaires, essentiels pour comprendre les circuits électroniques
Présente des configurations petit et grand signal du transistor, permettant de concevoir des circuits d'amplification et de filtrage
Illustre les explications par des exercices et des démonstrations de circuits simulés, facilitant la compréhension
Requiert une certaine connaissance préalable en théorie des circuits, ce qui peut nécessiter des prérequis
Ne couvre pas les transistors à effet de champ (FET), qui sont également importants dans les circuits électroniques

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Electronique II with these activities:
Review Circuit Theory Concepts
Refreshes foundational knowledge in circuit theory, which is essential for understanding transistor functions.
Show steps
  • Review basic concepts of circuit theory, such as Ohm's law, Kirchhoff's laws, and AC/DC circuits.
Review Transistor Structures
Refreshes understanding of transistor structures and how they relate to the functions they perform in circuits.
Browse courses on Electronics Fundamentals
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  • Review basic transistor types (BJT, FET).
  • Examine the internal structure of transistors using diagrams.
Practice Small-Signal Transistor Models
Builds proficiency in using small-signal transistor models to simplify circuit analysis.
Browse courses on Circuit Analysis
Show steps
  • Find tutorials on small-signal transistor models.
  • Work through practice problems using these models.
  • Apply these models to analyze transistors in simple circuits.
Seven other activities
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Show all ten activities
Participer à des groupes d'étude sur les fonctions linéaires
Renforcer la compréhension des concepts et des techniques en discutant et en collaborant avec des pairs, favorisant l'apprentissage par les pairs.
Browse courses on Transistors
Show steps
  • Rejoindre ou former un groupe d'étude avec des pairs
  • Partager les notes, les questions et les idées
  • Travailler ensemble pour résoudre des exercices et des problèmes
Discussion on Transistor Biasing Techniques
Fosters understanding of various transistor biasing techniques and promotes critical thinking through peer discussions.
Browse courses on Circuit Design
Show steps
  • Review different transistor biasing techniques.
  • Join or initiate a peer discussion group.
  • Participate in discussions, sharing insights and learning from others' perspectives.
Exercer la résolution d'exercices sur les fonctions linéaires
Renforcer la compréhension des concepts et des techniques liés aux fonctions linéaires, améliorant ainsi les compétences de résolution de problèmes.
Show steps
  • Collecter des exercices et des problèmes sur les fonctions linéaires à transistors
  • Résoudre les exercices de manière autonome, en utilisant les connaissances acquises
  • Vérifier les solutions et identifier les erreurs pour améliorer la compréhension
Solve Amplifier Circuit Problems
Strengthens problem-solving abilities in the design and analysis of amplifier circuits using transistors.
Browse courses on Circuit Analysis
Show steps
  • Review the concepts of amplifier circuits and their characteristics.
  • Find practice problems or online platforms for solving amplifier circuit problems.
  • Practice solving problems involving transistor-based amplifiers.
Contribuer à un projet open source lié aux fonctions linéaires
Mettre en pratique les connaissances et les compétences acquises en contribuant à des projets réels, renforçant ainsi l'apprentissage et développant des compétences pratiques.
Browse courses on Open Source
Show steps
  • Identifier un projet open source lié aux fonctions linéaires ou aux circuits analogiques
  • Examiner le code source et identifier les domaines de contribution potentiels
  • Développer et tester les modifications ou les améliorations proposées
Design and Simulate a Transistor Amplifier
Enhances understanding of amplifier design principles and provides hands-on experience in simulating transistor amplifiers using SPICE-like tools.
Show steps
  • Design an amplifier circuit using transistors.
  • Simulate the designed circuit using a SPICE-like tool.
  • Analyze the simulation results to evaluate the amplifier's performance.
  • Refine the design and simulation process to optimize amplifier performance.
Create a Course Summary
Reinforces the course material by encouraging students to actively organize and summarize the key concepts.
Show steps
  • Review and organize notes, assignments, and materials from the course.
  • Extract and summarize the main ideas and concepts.

Career center

Learners who complete Electronique II will develop knowledge and skills that may be useful to these careers:
Circuit Designer
A Circuit Designer designs, develops, and tests circuits for use in a variety of electronic devices. This course will be helpful for this career path. It covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing circuits.
Transistor Design Engineer
A Transistor Design Engineer designs, develops, and tests transistors for use in a variety of electronic devices. This course will be helpful for this career path. It covers topics such as transistor structure, biasing, and modeling, which are all essential concepts for designing transistors.
Analog Circuits Engineer
An Analog Circuits Engineer designs, develops, and tests analog circuits for use in a variety of electronic devices. This course will be helpful for this career path. It covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing analog circuits.
Microelectronics Engineer
A Microelectronics Engineer designs, develops, and tests microelectronic devices for use in a variety of electronic devices. This course will be useful for this career path, as it covers topics such as transistor structure, biasing, and modeling, which are all essential concepts for designing microelectronic devices.
Semiconductor Device Engineer
A Semiconductor Device Engineer designs, develops, and tests semiconductor devices for use in a variety of electronic devices. This course will be useful for this career path, as it covers topics such as transistor structure, biasing, and modeling, which are all essential concepts for designing semiconductor devices.
Electronics Engineer
An Electronics Engineer designs, develops, and tests electronic devices and systems. This course will be may be useful for this career path, as it covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing electronic devices.
Telecommunications Engineer
A Telecommunications Engineer designs, develops, and tests telecommunications devices and systems. This course may be useful for this career path, as it covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing telecommunications devices.
Signal Processing Engineer
A Signal Processing Engineer designs, develops, and tests signal processing devices and systems. This course may be useful for this career path, as it covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing signal processing devices.
Control Systems Engineer
A Control Systems Engineer designs, develops, and tests control systems for use in a variety of electronic devices. This course may be useful for this career path, as it covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing control systems.
RF Engineer
An RF Engineer designs, develops, and tests radio frequency (RF) circuits and systems. This course may be useful for this career path, as it will help to understand the fundamentals of transistor operation, which is essential for designing RF circuits.
Power Electronics Engineer
A Power Electronics Engineer designs, develops, and tests power electronics devices and systems. This course may be useful for this career path, as it covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing power electronics devices.
Instrumentation Engineer
An Instrumentation Engineer designs, develops, and tests instrumentation devices and systems. This course may be useful for this career path, as it covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing instrumentation devices.
Analog Integrated Circuit Designer
An Analog Integrated Circuit Designer designs, develops, and tests analog integrated circuits for use in a variety of electronic devices. This course may be useful in developing foundational skills that are necessary to succeeding in this career path. It will be especially helpful for understanding the structure and function of transistors, which are essential components in analog integrated circuit design.
Electrical Engineer
An Electrical Engineer designs, develops, and tests electrical devices and systems. This course may be useful for this career path, as it covers topics such as transistor configurations, biasing, and amplification, which are all essential concepts for designing electrical devices.
Nanotechnology Engineer
A Nanotechnology Engineer designs, develops, and tests nanotechnology devices for use in a variety of electronic devices. This course may be useful for this career path, as it will help to understand the fundamentals of transistor operation, which is essential for designing nanotechnology devices.

Reading list

We've selected ten books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Electronique II.
Ce livre largement utilisé comme manuel universitaire couvre en détail les circuits microélectroniques, y compris les transistors et leur utilisation dans les amplificateurs et les filtres.
Ce livre avancé couvre la conception de circuits intégrés analogiques, fournissant des informations supplémentaires pour les étudiants intéressés par ce domaine spécialisé.
Ce livre pratique fournit des conseils et des techniques pour dépanner les circuits analogiques, ce qui est précieux pour les étudiants qui souhaitent appliquer leurs connaissances à des applications pratiques.
Ce livre se concentre sur l'électronique micro-ondes et les circuits RF, ce qui est pertinent pour les étudiants intéressés par les applications de haute fréquence.
Ce livre couvre la conception VLSI CMOS, fournissant des informations supplémentaires pour les étudiants intéressés par la conception numérique.
Ce livre fournit une base solide en analyse et conception de circuits électroniques, couvrant les concepts fondamentaux et les techniques pratiques.
Ce livre fournit un guide pratique sur l'utilisation de SPICE pour simuler des circuits électroniques de puissance, ce qui est pertinent pour le contenu du cours sur les amplificateurs de puissance.
Ce livre fournit une introduction complète aux dispositifs électroniques et à la théorie des circuits, offrant un arrière-plan solide pour les concepts abordés dans le cours.
Ce livre couvre l'architecture des ordinateurs, fournissant des informations supplémentaires pour les étudiants intéressés par les aspects matériels des systèmes informatiques.

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