Title :
A Magnetic-Field Resonant Probe With Enhanced Sensitivity for RF Interference Applications
Author :
Hao-Hsiang Chuang ; Guang-Hua Li ; Eakhwan Song ; Hyun-Ho Park ; Hyun-Tae Jang ; Hark-Byeong Park ; Yao-Jiang Zhang ; Pommerenke, David ; Tzong-Lin Wu ; Jun Fan
Author_Institution :
Taiwan Semicond. & Manuf. Co., Hsinchu, Taiwan
Abstract :
High-sensitive field probes are highly desirable for radio-frequency (RF) interference studies, where ultralow noise levels are of interest. By incorporating an LC resonant circuit in a differential-loop probe, together with a Marchand balun, a magnetic-field probe with enhanced sensitivity is developed. Its equivalent circuit model and design methodology are established. The design is validated by measurements. The measured relative sensitivity in terms of |S21| of the proposed probe increases by approximately 8.63 dB at the resonant frequency of 1.575 GHz compared to that of a conventional design. The advantage of the proposed probe is validated through its application in the measurement of a microstrip trace and a real-world cell phone design.
Keywords :
baluns; cellular radio; interference (signal); radiofrequency spectra; LC resonant circuit; Marchand balun; RF interference applications; circuit model; design methodology; differential-loop probe; enhanced sensitivity; high-sensitive field probes; magnetic-field probe; magnetic-field resonant probe; microstrip trace; radio-frequency interference studies; real-world cell phone design; ultralow noise levels; Impedance; Impedance matching; Magnetic resonance; Microstrip; Probes; Sensitivity; Enhanced sensitivity; Marchand balun; RF interference; magnetic-field resonant probe; receiver desensitization;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2013.2248011
