In this work we discuss the design of a near-field link, based on capacitive plates, operating in the 868 MHz band, usually adopted for far-field applications. This system, capacitively coupled, serves as a wireless information transfer unit in a temperature-controlled system. Capacitive and inductive coupling are simultaneously exploited to integrate in a unique, robust, and reliable platform the contactless transmission of temperature data and electric power, respectively. A UHF rectifier is exploited to supply and sense the resistive variations of a Pt100-based temperature probe located in an inaccessible part of an industrial rotary tool. An extensive comparison with solutions in the HF band is presented. Results show reduced link losses and improved system performances in terms of accuracy and component tolerances.
Exploitation of capacitive coupling at UHF for remote sensing in a kW WPT system / Trevisan, Riccardo; Costanzo, Alessandra. - ELETTRONICO. - (2015), pp. 7345807.490-7345807.493. (Intervento presentato al convegno 45th European Microwave Conference, EuMC 2015 tenutosi a Paris, France nel Sept 6-11, 2015) [10.1109/EuMC.2015.7345807].
Exploitation of capacitive coupling at UHF for remote sensing in a kW WPT system
TREVISAN, RICCARDO;COSTANZO, ALESSANDRA
2015
Abstract
In this work we discuss the design of a near-field link, based on capacitive plates, operating in the 868 MHz band, usually adopted for far-field applications. This system, capacitively coupled, serves as a wireless information transfer unit in a temperature-controlled system. Capacitive and inductive coupling are simultaneously exploited to integrate in a unique, robust, and reliable platform the contactless transmission of temperature data and electric power, respectively. A UHF rectifier is exploited to supply and sense the resistive variations of a Pt100-based temperature probe located in an inaccessible part of an industrial rotary tool. An extensive comparison with solutions in the HF band is presented. Results show reduced link losses and improved system performances in terms of accuracy and component tolerances.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
