Établissements
INP - ENSEEIHT
Présentation
Programme
M1 Electronic Systems for Embedded & Communicating Appli.
Établissement
INP - ENSEEIHT
Parcours Normal - M1 ESECA Semestre 7
ECTS
30
Établissement
INP - ENSEEIHT
Parcours Standard sem 7 ESECA
Établissement
INP - ENSEEIHT
UE Social Science & Culture sem 7
ECTS
7
Établissement
INP - ENSEEIHT
French (FLE) M1 ESECA semestre 7
Établissement
INP - ENSEEIHT
Conferences on aeroautics - sem 7
Établissement
INP - ENSEEIHT
UE Math. - M1 ESECA
ECTS
6
Établissement
INP - ENSEEIHT
Maths Fourier Analysis
Établissement
INP - ENSEEIHT
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Fourier Series:Introduction to signal - Sinewave - Fourier series - Fourier series for conventional signal - Complex form of Fourier series - Electrical signal applications
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Fourier Transform: From periodic to aperiodic signal: Fourier Transform - Fourier transform of some conventional signals - Basic theorems of Fourier transform - Electrical waveforms and spectra - Applications in electronics - Discrete Fourier Transform
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Vector Analysis: Introduction - Vector Algebra - Theorem of Vector Algebra - Cartesian coordinates system - Orthogonal coordinate systems - Differential operator on vector field - Useful theorems on vector analysis
Maths - Complex variable - Vector analysis
Établissement
INP - ENSEEIHT
1 .Complex Plane, complex variables and complex functions
2. Derivative of complex function. Analytic function
3. Integral of complex function.
4. Residue Theorem
5. Laplace Transform
6. Z transform
Maths Probability / Statistics
Établissement
INP - ENSEEIHT
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Basic Concepts
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Random variables
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Expectation
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Conditional probability
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Initiation to reliability
Basis of Programming / Matlab
Établissement
INP - ENSEEIHT
Microprocessor
Établissement
INP - ENSEEIHT
This course will be divided in three section: lessons, labs and project
During labs students will discover the architecture of PIC processor and will implement basic functions in C.
During the project, student will implement an UART communication with an RFID detector. The main objective is to control a step motor. (which represent a door) by a tag RFID.
UE Analog Electronics
ECTS
8
Établissement
INP - ENSEEIHT
Project Analog Electronics
Établissement
INP - ENSEEIHT
These courses and labworks are an introduction to the basics of analog and digital data transmission:
- AM, FM modulation
- I/Q modulation
- Features of a heterodyne receiver
- Introduction to SDR (Software Defined Radio) and the IoT (Internet of Things)
Analog Electronics Pratical
Établissement
INP - ENSEEIHT
At the end of these electronics labworks, the student will be able to:
- Characterize a passive circuit by its transient response and its frequency response (first and second order circuits).
- Design and implement a filter
- Implement and characterize linear and non linear circuits with operational amplifier components (amplifiers, active filters, comparators, astable circuits, …).
Identify the technical limits of these components in order to learn how to choose them for a specific application
Semic-conductor devices
Établissement
INP - ENSEEIHT
Filtering
Établissement
INP - ENSEEIHT
This course falls into seven parts :
- Analog front-end architecture : Heterodyne and super heterodyne architecures. Role and specifications of the filter in the system.
- Determinatiion of a partially known stable filter function : How can we find single or a familly of stable function of with knowledge of part of the electrical response (either magnitude or phase, real or imaginary parts, even or odd parts).
- Synthesis techniques to determine LC networks : Cauer, Foster and Darlington metods.
- Approximation functions : Butterworth, Tchebychev.
- Lowpass filter prototype : design method.
- Frequency transformations : bandpass-, highpass-, stopband-to-lowpass prototype transformations. LC networks transformations.
- Active filters
UE Digital Electronics
ECTS
5
Établissement
INP - ENSEEIHT
Digital electronics
Établissement
INP - ENSEEIHT
Parcours PIM sem 7 - M1 ESECA
Établissement
INP - ENSEEIHT
UE PIM Commun
ECTS
26
Établissement
INP - ENSEEIHT
Ligne de Transmission
Établissement
INP - ENSEEIHT
Circuits RF passifs et actifs
Établissement
INP - ENSEEIHT
M1 ESECA Semestre 8
ECTS
30
Établissement
INP - ENSEEIHT
UE Social Science &Culture sem 8
ECTS
6
Établissement
INP - ENSEEIHT
Anglais 2EN semestre 8
Établissement
INP - ENSEEIHT
UE Digital Electronics
ECTS
6
Établissement
INP - ENSEEIHT
Front-end acquisition
Établissement
INP - ENSEEIHT
UE Optics & Telecoms
ECTS
8
Établissement
INP - ENSEEIHT
Optoelectronics
Établissement
INP - ENSEEIHT
Fiber optic based communication systems represent the large majority of communication links worldwide in long or mid-range distances.
Beyond the channel that is the optical fibre, these systems require the use of dedicated components where the interaction between the electrons and the photon of the transmitted light is the major phenomenon.
Mastering of these interactions leads to design communications link with performances far beyond the ones of wireless or copper based communications.
The ai of this course thus is the study of the optical fibre properties, the emission components (LED and laser diodes) and the detection components (photodiodes). The global architecture of an optical communication link is given as well as the general principle of sensing using interferometric optical devices.
Telecoms
Établissement
INP - ENSEEIHT
Volume horaire
4h
Cet enseignement aborde les points suivants :
1- Rôle des éléments d'une chaine de communication permettant de transmettre une information numérique.
2- Génération d'un signal à partir d'une information numérique à transmettre (modulateur numérique) :
- en bande de base
- sur fréquence porteuse (modulations de type ASK, PSK, QAM),
- notion d’efficacité spectrale.
3- Modélisation simple du canal de propagation.
4- Mise en place d'un démodulateur numérique optimisé :
- Notion d'efficacité en puissance,
- Notion d'interférence entre symboles et critère de Nyquist,
- Filtrage adapté.
5- Calcul de taux d'erreur binaire.
6- Notion d'enveloppe complexe et de chaine passe-bas équivalente pour les transmissions sur fréquence porteuse.
7- Exemple de chaine de transmission numérique de base : couche physique du DVB-S.
Pratical Hyper / Opto
Établissement
INP - ENSEEIHT
Laser and optical fiber sensing techniques
Établissement
INP - ENSEEIHT
Hyper Frequence Project
Établissement
INP - ENSEEIHT
UE Signal and Image
ECTS
3
Établissement
INP - ENSEEIHT
Signal & Image processing project
Établissement
INP - ENSEEIHT