Title :
A Resonant E-Field Probe for RFI Measurements
Author :
Guanghua Li ; Itou, Koichi ; Katou, Yoshihiro ; Mukai, Noriyuki ; Pommerenke, David ; Jun Fan
Author_Institution :
EMC Lab., Missouri Univ. of Sci. & Technol., Rolla, MO, USA
Abstract :
Near-field probes with high sensitivity facilitate the identification of the root causes of intrasystem radio frequency interference issues, where weak noise desensitizes the receiver. In the study presented in this paper, a high-sensitivity resonant electric field probe was designed, consisting of an LC resonator loaded by quarter-wave transformers for optimal power transfer at the resonant frequency. Based on the equivalent circuit model, analytical derivations and numerical simulations were performed to illustrate the design methodology. The simulation results agreed well with the measured values. At the resonant frequency of 1.577 GHz, the measured |S21| from a matched trace to the resonant probe was approximately 6.6 dB higher than that of an equivalently sized broadband probe.
Keywords :
equivalent circuits; network synthesis; numerical analysis; probes; radiofrequency interference; resonators; transformers; E-field probe; LC resonator; RFI measurements; analytical derivations; equivalent circuit model; frequency 1.577 GHz; high-sensitivity resonant electric field probe; intrasystem radio frequency interference; near-field probes; numerical simulations; power transfer; quarter-wave transformers; Broadband communication; Frequency measurement; Impedance; Microstrip; Probes; Resonant frequency; Sensitivity; Electric field probe; RF interference; enhanced sensitivity; impedance transformer; receiver desensitization;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2014.2354018
