Number of hours
- Lectures 12.0
- Projects -
- Tutorials 10.5
- Internship -
- Laboratory works 15.0
- Written tests -
ECTS
ECTS 3.0
Goal(s)
- Be able to design complex circuits with operational amplifiers in linear operation.
- Ability to understand and to design basic electronic functions (current source, active load, ...).
- Being able to understand analog circuits.
- Understand the data sheet of an operational amplifier.
- Knowledge of the linear modeling of high frequency transistors.
Responsible(s)
Guy DEHAY
Content(s)
fundamental circuits of integrated analogical electronics
Transistors recalls
current source (Wilson, Wildar ; ... ) and active load
Analysis of differential amplifier with low and high level input signals
Operational Amplifier
Linear Ideal model – fundamental linear circuits
Linear real model – static and dynamic defaults –
Special Operational Amplifier -
Power operational amplifier – High voltage operational amplifier
High frequency transistor model
- Laplace transform
- Bode plot
- Electrokinetics
- Electronic amplification:
**The transistors and amplification
**Operational amplifiers
Test
1 session only
- CC (Continuous Control): 1:00 - With Calculator - Without course documents
- E1 (Exam 1): 1:45 - With Calculator - Without any document
- TP : Minutes of lab to give at the end of each laboratory session
Additional Information
Course ID : 2AMEE212
Course language(s): 
You can find this course among all other courses.
Bibliography
- xxx TRAN TIEN - Lavoisier - Circuits fondamentaux de l’électronique analogique.
- xx MILLMAN - Mac Graw Hill - Microélectronique.
- BLOT - Dunod - Electronique linéaire.
- CHATELAIN–DESSOULAVY - Dunod - Electronique.
- MANNEVILLE - ESQUIEU – Dunod - Théorie du signal et composants.
- MALVINO - Ediscience internationale - Principes d’électronique.
What is a grande école ?
French engineering curriculum
