Qian Chen scite author profile

Qian Chen

2Publications

4Citation Statements Received

0Citation Statements Given

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Sichuan University

Publications

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Design of a Microwave Heating and Permittivity Measurement System Based on Oblique Aperture Ridge Waveguide

Gou

Chen

Dong

et al. 2023

Sensors

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In this paper, an oblique aperture ridge waveguide operating at 2450 MHz is proposed, and, using the ridge waveguide, a permittivity measurement system is constructed which can measure the permittivity of materials during microwave heating. The system calculates the amplitudes of the scattering parameters by using the forward, reflected and transmitted powers of the power meters, and it reconstructs the permittivity of the material by combining the scattering parameters with an artificial neural network. The system is used to measure the complex permittivity of mixed solutions of methanol and ethanol with different ratios at room temperature, and the permittivity of methanol and ethanol with increasing temperature, from room temperature to 50 °C. The measured results are in good agreement with the reference data. The system allows simultaneous measurement of the permittivity with microwave heating and provides real-time, rapid changes in the permittivity during heating, avoiding thermal runaway and providing a reference for applications of microwave energy in the chemical industry.

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A Substrate Integrated Waveguide Resonator Sensor for Dual-Band Complex Permittivity Measurement

et al. 2022

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This paper presents a novel dual-band substrate integrated waveguide (SIW) sensor that is designed to measure the complex permittivities of liquids or solid powders at two industrial, scientific, and medical (ISM) frequencies simultaneously. Resonant frequencies and quality factors are obtained from S-parameter measurements with the proposed SIW sensor, and applied to reconstructing the permittivities of materials under test through an artificial neural network. The water–ethanol mixed liquids were measured with the proposed sensor. The maximum deviations of the measured permittivities at 2.45 and 5.8 GHz are within 3% of literature results. The measurement by the proposed SIW sensor with artificial neural network reconstruction is accurate and efficient.

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Qian Chen

Design of a Microwave Heating and Permittivity Measurement System Based on Oblique Aperture Ridge Waveguide

A Substrate Integrated Waveguide Resonator Sensor for Dual-Band Complex Permittivity Measurement

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