Study programme 2022-2023 | Français | ||
Electronics and instrumentation | |||
Programme component of Bachelor's in Engineering (CHARLEROI) (day schedule) à la Faculty of Engineering |
Code | Type | Head of UE | Department’s contact details | Teacher(s) |
---|---|---|---|---|
UI-B3-IRCIVI-002-C | Compulsory UE | QUITIN François | ex20 - FPMS - Intervenants extérieurs à Charleroi |
|
Language of instruction | Language of assessment | HT(*) | HTPE(*) | HTPS(*) | HR(*) | HD(*) | Credits | Weighting | Term |
---|---|---|---|---|---|---|---|---|---|
| Français | 24 | 24 | 0 | 0 | 0 | 4 | 4.00 | 1st term |
AA Code | Teaching Activity (AA) | HT(*) | HTPE(*) | HTPS(*) | HR(*) | HD(*) | Term | Weighting |
---|---|---|---|---|---|---|---|---|
I-ULBC-013 | Electronics and instrumentation | 24 | 24 | 0 | 0 | 0 | Q1 | 100.00% |
Programme component | ||
---|---|---|
UI-B2-IRCIVI-205-C Electricity, signals and systems |
Objectives of Programme's Learning Outcomes
Learning Outcomes of UE
Being able to analyze and design electronic circuits based on passive components (resistors, capacitors and inductors) and active components (opamps). Being able to design analog filters, both passive and active ones, and understand their main properties. Being able to design acquisition chains for instrumentation and measurement problems.
UE Content: description and pedagogical relevance
1. Linear circuits
Properties and laws, Laplace transform, Fourier transform, Phasors, Bode plots, Nodal analysis for linear circuits
2. Operational amplifiers
Ideal opamps, Main imperfections, Virtual grounds/virtual shorts, Main opamp circuits, Analysis of retroaction, Gain-Bandwidth product, The internals of opamps, Other imperfections
3. Filters
Principle, Filter types (Butterworth, Chebyshev, Elliptiques et Bessel), Implementation based on LC ladder filters, Implementation based on opamps, Introduction to switched capacitor filters and microstrip filters
4. Instrumentation
Standard acquisition chain, Transducers and sensors, Introduction to stochastic processes, Gaussian processes and white noise, Noises (Johnson-Nyquist noise, Flicker noise, Shot noise, etc.), Noisy quadripole models, Noise factor, Cascading noisy amplifiers, Analog-to-digital converters, Multiplexing, Typical instrumentation chain architectures
Prior Experience
Course "Electricité, signaux et systèmes". Ideally, "Mathématiques pour l'ingénieur III".
Type of Teaching Activity/Activities
AA | Type of Teaching Activity/Activities |
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I-ULBC-013 |
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Mode of delivery
AA | Mode of delivery |
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I-ULBC-013 |
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Required Learning Resources/Tools
AA | Required Learning Resources/Tools |
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I-ULBC-013 | - Course notes for theory - Slides - Full exercise manual, with solutions - Laboratory manual |
Recommended Learning Resources/Tools
AA | Recommended Learning Resources/Tools |
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I-ULBC-013 | Not applicable |
Other Recommended Reading
AA | Other Recommended Reading |
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I-ULBC-013 | Not applicable |
Grade Deferrals of AAs from one year to the next
AA | Grade Deferrals of AAs from one year to the next |
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I-ULBC-013 | Authorized |
Term 1 Assessment - type
AA | Type(s) and mode(s) of Q1 assessment |
---|---|
I-ULBC-013 |
|
Term 1 Assessment - comments
AA | Term 1 Assessment - comments |
---|---|
I-ULBC-013 | Partly or fully open-book exam. |
Resit Assessment - Term 1 (B1BA1) - type
AA | Type(s) and mode(s) of Q1 resit assessment (BAB1) |
---|---|
I-ULBC-013 |
|
Term 3 Assessment - type
AA | Type(s) and mode(s) of Q3 assessment |
---|---|
I-ULBC-013 |
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Term 3 Assessment - comments
AA | Term 3 Assessment - comments |
---|---|
I-ULBC-013 | Partly or fully open-book exam. |