Formation ECAM LaSalle Ingénieur spécialité Mécanique et Génie Electrique (ENGINEERING PROGRAM)
| General Data | ||||
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| Academic program | Formation ECAM LaSalle Ingénieur spécialité Mécanique et Génie Electrique (ENGINEERING PROGRAM) | :
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| Type d'EC | Classes (LIIEEng02EElectronics1) | |||
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Status :
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Period :
Semester 2 |
Education language :
English |
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| Learning Outcomes |
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| By the end of this course, students will be able to: 1. Develop a clear understanding of the basic operation and characteristics of a diode 2. Understand the process of rectification to establish a DC signal from a sinusoidal ac signal 3. Become familiar with the basic operation of the Bipolar Junction Transistor (BJT) and Field Effect Transistor (FET) 4. Determine the DC levels for the variety of important BJT configurations or FET configurations 5. Explain the basics of an operational amplifier (Op-Amp) 6. Identify the Op-Amp Applications |
| Content |
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| - Diodes : N and P semiconductors, PN junction, analysis of series diode configurations and parallel configurations - Characteristics and biasing of Bipolar Junction Transistors and Field Effect Transistors - Operational amplifiers: structure, the ideal op-amp model, negative feedback, fundamental op-amp configurations |
| Pre-requisites / co-requisites |
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| DC Circuits AC Circuits |
| Bibliography |
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| Malvino, F., bates, D.,& Hoppe, P. (2020). Electronic Principles, McGraw-Hill Higher Education |
| Assessment(s) | |||
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| N° | Nature | Coefficient | Observable objectives |
| 1 | Midterm 1 : written exam consisting of exercises related to what has been done during the lessons and the tutorials | 0,20 | - Develop a clear understanding of the basic operation and characteristics of a diode - Understand the process of rectification to establish a DC signal from a sinusoidal ac signal - Become familiar with the basic operation of the Bipolar Junction Transistor (BJT) - Determine the DC levels for the variety of important BJT configurations |
| 2 | - The diode - Half wave rectifier and full wave rectifier - Bipolar Junction Tansistor, biasing, CE amplifier - Operational amplifier Students will be graded on the reports of experiments and the effort during the practical work | 0,20 | - Develop a clear understanding of the basic operation and characteristics of a diode - Understand the process of rectification to establish a DC signal from a sinusoidal ac signal - Become familiar with the basic operation of the Bipolar Junction Transistor (BJT) - Determine the DC levels for the variety of important BJT configurations - Explain the basics of an operational amplifier (Op-Amp) - Identify the Op-Amp Applications |
| 3 | Midterm 2 : written exam consisting of exercises related to what has been done during the lessons and the tutorials | 0,20 | - Become familiar with the basic operation of the Field Effect Transistor (FET) - Determine the DC levels for the variety of important FET configurations - Explain the basics of an operational amplifier (Op-Amp) - Identify the Op-Amp Applications |
| 4 | Final exam: based on the entire syllabus, tutorials and LABs | 0,40 | 1. Develop a clear understanding of the basic operation and characteristics of a diode 2. Understand the process of rectification to establish a DC signal from a sinusoidal ac signal 3. Become familiar with the basic operation of the Bipolar Junction Transistor (BJT) and Field Effect Transistor (FET) 4. Determine the DC levels for the variety of important BJT configurations or FET configurations 5. Explain the basics of an operational amplifier (Op-Amp) 6. Identify the Op-Amp Applications |