Title :
2.5GHz slot antenna array — Prototype applicator for heating applications
Author :
Surducan, E. ; Surducan, V.
Author_Institution :
Mol. & Biomol. Phys., Nat. Inst. for R&D of Isotopic & Mol. Technol., Cluj-Napoca, Romania
Abstract :
This paper describes a pragmatic approach for design, characterization and test of a low cost microstrip slot applicator with 140×140cm aperture, running at 2.5GHz, in the near field approximation. The applicator structure, designed on glass-reinforced epoxy copper clad (FR406), can handle 100-200W microwave power. The applicator is designed to heat lossy high dielectric liquids. A thermal map produced by the applicator on an absorbing material (Natrosol-water solution 0.4%w/v) is revealed using a low cost thermochromic crystal liquid sheet. The applicator is prepared to be equipped in the very near future with infrared (IR) thermopile array.
Keywords :
UHF antennas; dielectric heating; dielectric liquids; glass; microstrip antenna arrays; microwave heating; slot antenna arrays; FR406; IR array; Natrosol-water solution; absorbing material; applicator structure; frequency 2.5 GHz; glass-reinforced epoxy copper clad; heating applications; infrared thermopile array; lossy high dielectric liquids; low cost microstrip slot applicator; low cost thermochromic crystal liquid sheet; near field approximation; power 100 W to 200 W; slot antenna array; thermal map; Applicators; Arrays; Electromagnetic heating; Materials; Microwave circuits; Slot antennas; hyperthermia; microwave antenna arrays; microwave circuits; slot antenna; temperature;
Conference_Titel :
Information Science, Electronics and Electrical Engineering (ISEEE), 2014 International Conference on
Conference_Location :
Sapporo
Print_ISBN :
978-1-4799-3196-5
DOI :
10.1109/InfoSEEE.2014.6948070
