Francesco Tesolin
Orcid: 0000-0002-9743-5726Affiliations:
- Polytechnic University of Milan, Italy
According to our database1,
Francesco Tesolin
authored at least 17 papers
between 2021 and 2024.
Collaborative distances:
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Bibliography
2024
Proceedings of the IEEE Symposium on VLSI Technology and Circuits 2024, 2024
10.6 A 10GHz FMCW Modulator Achieving 680MHz/μs Chirp Slope and 150kHz rms Frequency Error Based on a Digital-PLL with a Non-Uniform Piecewise-Parabolic Digital Predistortion.
Proceedings of the IEEE International Solid-State Circuits Conference, 2024
10.1 An 8.75GHz Fractional-N Digital PLL with a Reverse-Concavity Variable-Slope DTC Achieving 57.3fsrms Integrated Jitter and -252.4dB FoM.
Proceedings of the IEEE International Solid-State Circuits Conference, 2024
A 66.7fs-Integrated-Jitter Fractional-N Digital PLL Based on a Resistive-Inverse-Constant-Slope DTC.
Proceedings of the IEEE Custom Integrated Circuits Conference, 2024
A 59.3fs Jitter and -62.1dBc Fractional-Spur Digital PLL Based on a Multi-Edge Power-Gating Phase-Detector.
Proceedings of the IEEE Custom Integrated Circuits Conference, 2024
2023
A Low-Spur and Low-Jitter Fractional-N Digital PLL Based on an Inverse-Constant-Slope DTC and FCW Subtractive Dithering.
IEEE J. Solid State Circuits, December, 2023
A Novel LO Phase-Shifting System Based on Digital Bang-Bang PLLs With Background Phase-Offset Correction for Integrated Phased Arrays.
IEEE J. Solid State Circuits, September, 2023
A 72-fs-Total-Integrated-Jitter Two-Core Fractional-N Digital PLL With Digital Period Averaging Calibration on Frequency Quadrupler and True-in-Phase Combiner.
IEEE J. Solid State Circuits, March, 2023
A 76.7fs-lntegrated-Jitter and -71.9dBc In-Band Fractional-Spur Bang-Bang Digital PLL Based on an Inverse-Constant-Slope DTC and FCW Subtractive Dithering.
Proceedings of the IEEE International Solid- State Circuits Conference, 2023
A 9.25GHz Digital PLL with Fractional-Spur Cancellation Based on a Multi-DTC Topology.
Proceedings of the IEEE International Solid- State Circuits Conference, 2023
2022
A 12.9-to-15.1-GHz Digital PLL Based on a Bang-Bang Phase Detector With Adaptively Optimized Noise Shaping.
IEEE J. Solid State Circuits, 2022
A Fractional-N Bang-Bang PLL Based on Type-II Gear Shifting and Adaptive Frequency Switching Achieving 68.6 fs-rms-Total-Integrated-Jitter and 1.56 μs-Locking-Time.
IEEE J. Solid State Circuits, 2022
A 68.6fs<sub>rms</sub>-Total-integrated-Jitter and 1.5µs-LocKing-Time Fractional-N Bang-Bang PLL Based on Type-II Gear Shifting and Adaptive Frequency Switching.
Proceedings of the IEEE International Solid-State Circuits Conference, 2022
A 9GHz 72fs-Total-lntegrated-Jitter Fractional-N Digital PLL with Calibrated Frequency Quadrupler.
Proceedings of the IEEE Custom Integrated Circuits Conference, 2022
2021
IEEE Trans. Circuits Syst. I Regul. Pap., 2021
32.8 A 98.4fs-Jitter 12.9-to-15.1GHz PLL-Based LO Phase-Shifting System with Digital Background Phase-Offset Correction for Integrated Phased Arrays.
Proceedings of the IEEE International Solid-State Circuits Conference, 2021
A 12.9-to-15.1GHz Digital PLL Based on a Bang-Bang Phase Detector with Adaptively Optimized Noise Shaping Achieving 107.6fs Integrated Jitter.
Proceedings of the IEEE International Solid-State Circuits Conference, 2021