Most relevant research achievements
The research group has developed along the years a strong expertise in the field of RF frequency synthesis in silicon, has proposed several design solutions to solve the main issues and published an international textbook published in 2007 by Cambridge University Press. In this context, the group gave important contributions and is recognised as a center of excellence at the international level. Just to cite the most recent achievements, the group demonstrated frequency synthesisers and modulators operating at frequencies between 1 and 5 GHz for wireless applications (GSM, WiFi, LTE), in which the extensive adoption of digital calibrations (the only modulator includes more than 20 thousand transistors) allowed to simultaneously achieve low jitter (300 fs) at low power (4.5 mW). These techniques are being applied in the design of radar systems in CMOS operating at 77 GHz for the automotive market. Another area in which the group has provided important results and which is still active is the study of the mechanisms of phase-noise generation in electrical oscillators and frequency dividers.
A theoretical framework was introduced which explain the mechanisms of conversion of low-frequency flicker noise into noise at radio-frequencies in CMOS oscillators, and effective solutions to reduce this conversion have been demonstrated which improved the state of the art. Another area in which the group obtained important results is the design of fully integrated front-ends for sensors. In this context, the group tackled the challenge of neural recording applications, in which the detection of neuronal signals requires a large number of readout channels with amplifier and analog-to-digital conversion of the signal at low noise and low power. Relevant results are being obtained in the design of circuits for the detection of MEMS-based magnetometers. MEMS (Micro Electro-Mechanical Sensors) that allow for several types of sensors, such as accelerometers, gyroscopes, magnetometers etc … are in rapid expansion and will remain one of the most important technologies of microelectronics in the coming years.