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Details M2 SCHF
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Master 2nd year - 1st semester (S3)

Communications numériques

  • M2 - S3
  • Goals and contents : Mobile radio propagation channel, online codes, digital modulation, optimal receiver for additive white Gaussian channel, inter symbols interference, Nyquist criteria, multiple access and cellular techniques, digital communications techniques, countermeasures reception: equalization, diversity, coding, description of the GSM system.

Rayonnement - Modélisation électromagnétisme

  • M2 - S3
  • Goals and contents : Plane and spherical waves; evanescent waves, polarization, propagation in heterogeneous media, ray optics, retarded potentials, Green theorem, diffraction, equivalence principle, basics of antenna operation.

Circuits - Dispositifs RF et micro-ondes

  • M2 - S3
  • Goals and contents : Passive circuits and components, amplifiers, nonlinear circuits.


  • M2 - S3
  • Goals and contents : Linear optical fiber, propagation and characteristics; optoelectronic components III.V, heterojunction, diodes, photodetectors; optical amplification.

Evolution des systèmes et réseaux de communication

  • M2 - S3
  • Goals and contents : Advanced equalization techniques, advanced synchronization techniques, advanced diversity techniques, radio networks and Internet, Presentation of GPRS, EDGE, GSM, UMTS, wireless local area networks and short distance communications: Bluetooth, IEEE802-11, Hiperlan.

Techniques et technologies de radiocommunication

  • M2 - S3
  • Goals and contents : Introduction to new waveforms used in recent digital radio systems (OFDM, CDMA, MC-CDMA ...). General characteristics and impact on transmitters / receivers. Imperfections in transceivers. Transmitters / receivers architecture, sensitivity and sizing. Linearization techniques, new transmitter architectures with a good robustess in front of nonlinearities and good yield. Sigma-delta principle. Frequency synthesis. Sampling and imperfections of the analog to digital conversions and developments to new architectures of type "software radio".

Modélisation numérique pour l'électromagnétisme

  • M2 - S3
  • Goals and contents : FDTD method, TLM method, FEM method, MOM method and asymptotic methods.

Propagation et compatibilité électromagnétique

  • M2 - S3
  • Goals and contents : Microwave links, ionospheric links, satellite links, mobile radio links, indoor wireless links.

Circuits intégrés HF

  • M2 - S3
  • Goals and contents : Comparative performance of integration technologies, analysis of technological processes Si (CMOS, BiCMOS) and GaAs (MESFET, HEMT, HBT), simulation, design and measurements of active devices using different technologies, encapsulation problems.

Circuits intégrés micro-ondes et millimétriques

  • M2 - S3
  • Goals and contents : Description of a technology, the active components beyond 20 GHz and Darlington and cascode configurations, passive components, oscillators, doublers and frequency triplers, mixers under harmonics, reception head in millimeterwave.


  • M2 - S3
  • Goals and contents : MEMS an associated technologie, RF MEMS, (micro-switches, micro resonators, passive micro-components), MOEMS (microguides, microlenses, micromirrors, gratings, applications to all-optical telecommunication networks).

Etudes des liaisons optiques

  • M2 - S3
  • Goals and contents : Optical links in microwave, calculation of gain, noise assessment, nonlinearity of order 3 and 5, link's dynamic range, suppression of intermodulation terms of order 3, examples of optical links in microwave simulated under ADS.

Composants optiques

  • M2 - S3
  • Goals and contents : Nonlinear optical fibre, optical effects (electro-optical modulation and applications to optical transmission and information processing), multiplexing and wavelength routing, performance, and limitations.


  • M2 - S3
  • Goals and contents : Antenna characteristics. Different types of antennas, planar antennas. Antenna arrays. Reconfigurable antennas. Operating principle of MIMO antennas.