- Docente: Alessandra Costanzo
- Credits: 6
- SSD: ING-INF/03
- Language: English
- Moduli: Alessandra Costanzo (Modulo 1) Diego Masotti (Modulo 2)
- Teaching Mode: Traditional lectures (Modulo 1) Traditional lectures (Modulo 2)
- Campus: Bologna
- Corso: Second cycle degree programme (LM) in Telecommunications Engineering (cod. 9205)
Learning outcomes
Introduction to the principles of performance and to the design techniques of radio-frequency circuits and subsystems used in modern telecommunication systems, in particular mobile radio ones. Knowledge of the main active and nonlinear subsystems and of the methods for their simulation and optimization (deterministic and statistical). Introduction to the use of artificial neural networks.
Course contents
Functional blocks of radiofrequency (RF) wireless systems and main nonlinearities of their operating functions, and tools for their analysis and design.
Analytical methods for the characterization of nonlinearities in sinusoidal and multi-tone regime: frequencies generation, saturation, AM-PM conversion, frequency conversion, and nonlinear distortion.
Circuit model of nonlinear devices for power generation (transmitter side) and for RF-dc conversion (receiver side): MESFET and DIODES.
Harmonic Balance method and introduction to commercial simulation tools for RF circuit analysis/design. Hints on electromagnetic software tools. Main network functions definition for circuital performance evaluation of RF systems. In particular, the efficiency of an entire link for Wireless Power Transfer (WPT) is considered, and its different contributions are described from both a circuital and a systemistic point of view. Analyis and design of WPT subsystems both radiative (far-field) and non-radiative (near-field)
Near-field techniques
Inductive and capacitive couplings: design of the wireless link and efficiency definition
Electromagnetic modelling of coils and corresponding analysis of the performance
Scheme and design of the transmitter and the receiver
Far-field techniques
Energy harvesting from environmental sources and intentional wireless power transmission
Main characteristics of the antennas to be adopted
Possible schemes for the receiving power systems. Different rectenna (rectifying antenna) topologies
The final part of the course is devoted to the study of:
- some systems for near-field power transfer for wearable or implantable devices
- Rectennas for wide-band energy harvesting from the environment (far-field)
Readings/Bibliography
- Lecture slides
- Selected papers from the technical literature
- "Wireless Power Transfer - Principles and Engineering Exploration", Ki Young Kim, InTech
Teaching methods
- Lectures with slides
- There will also be: i) some intermediate test activities (not subject to evaluation); ii) some laboratory classes for electromagnetic/circuit simulation training for the creation of simple models for rectennas characterization
Assessment methods
Oral exam on both theoretical and laboratory parts
Teaching tools
During the study of the theoretical part, the lecturers will continuously refer to and bring in class RF subsystems developed durign their research activity (with special emphasis on energy harvesting and WPT systems)
Links to further information
Office hours
See the website of Alessandra Costanzo
See the website of Diego Masotti