Capacitive Impedance Measurement: Dual-frequency Approach

Segundo, Alan Kardek Rêgo; Pinto, Érica Silva; Santos, Gabriel Almeida; Monteiro, Paulo Marcos de Barros

doi:10.3390/s19112539

Cited by 13 publications

(5 citation statements)

References 27 publications

(47 reference statements)

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“…Substrates relative dielectric permittivity and loss tangent, at low frequencies, were evaluate by means of an impedance meter equipment. The impedance meter imposes an electromagnetic wave, at a given frequency, and analyzes the reflected wave to obtain the dielectric parameters [27,28]. Dielectric permittivity and loss tangent were measured at high frequencies for the most promising sample to be applied on microstrip antennas.…”

Section: Resultsmentioning

confidence: 99%

Development and Characterization of Titanium Dioxide Ceramic Substrates with High Dielectric Permittivities

et al. 2020

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Titanium dioxide substrates have been synthesized by means of solid-state reactions with sintering temperatures varying from 1150 °C up to 1350 °C. X-ray diffraction and scanning electron microscopy (SEM) where employed to investigate the crystal structure, grain size and porosity of the resulting samples. The obtained ceramics are tetragonal (rutile phase) with average grain sizes varying from 2.94 µm up to 5.81 µm. The average grain size of samples increases with increasing temperature, while the porosity decreases. The effect of microstructure on the dielectric properties has been also studied. The reduction of porosity of samples significantly improves the dielectric parameters (relative dielectric permittivity and loss tangent) in comparison to those of commercial substrates, indicating that the obtained ceramic substrates could be useful in the miniaturization of telecommunication devices.

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Section: Resultsmentioning

confidence: 99%

Development and Characterization of Titanium Dioxide Ceramic Substrates with High Dielectric Permittivities

et al. 2020

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“…1 The con guration of this tunnel is a test section of 600 mm x 600 mm, length of 1,800 mm, a contraction ratio of 9, and a maximum speed of 30 m/s. Figure 2 shows a typical installation of a train wagon model on a rotating table, to simulate the wind direction, equipped with a vibrating motor, to simulate the vibrating train frequency, and an impedance-based moisture sensor [24,25], to measures the material moisture the wagon model. A particle counter (Particles Plus 8306 model) is positioned at the of the section to assess dust emissions, which could measure the concentration of particles in air…”

Section: Wind Tunnel and Experimental Techniquesmentioning

confidence: 99%

Wind tunnel study of iron ore dust emissions from stockpile and train wagons

Fontana,

Silva,

Pontes

et al. 2024

Preprint

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This work presents the development of a research facility to evaluate dust emissions involving wagon and stockpile models, considering operational and environmental variables. Furthermore, the influence of wagon vibration along the railway was considered to match the experimental conditions more closely to reality. The experimental apparatus consisted of a wind tunnel to simulate the wind speed, two lamps with controlled power sources to simulate insolation, a spray nozzle to simulate rain, a turntable to modify the wind direction, a dynamic weighing system, and a particle counter to record particulate emissions during the test. Performance tests of solidifying-type dust suppressants were also conducted. A suppressant application system was incorporated into the wagon and stockpile models. The tests demonstrated that the experimental apparatus could evaluate the performance of dust suppressants and could be used for approval purposes. Tests with vibration revealed interesting effects resulting from material compaction in wagons. Endurance tests demonstrated the apparatus capacity in tests of this nature. Thus, the developed experimental apparatus could be employed as an important tool to develop scientific studies on dust emissions.

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“…The phase shift ϕ of the voltage and current signal is determined from the detection of signal zero crossings. The sensor element capacity C P is calculated according to the admittance model of a capacitor from the imaginary part of admittance Y (reciprocal of impedance Z) as follows [34]:…”

Section: Iot Sensor System For Precision Agriculturementioning

confidence: 99%

Fully Printed Disposable IoT Soil Moisture Sensors for Precision Agriculture

et al. 2020

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Digitization of industrial processes using new technologies (IoT—Internet of Things, IoE—Internet of Everything), including the agriculture industry, are globally gaining growing interest. The precise management of production inputs is essential for many agricultural companies because limited or expensive sources of water and nutrients could make sustainable production difficult. For these reasons, precise data from fields, plants, and greenhouses have become more important for decision making and for the proper dosage of water and nutrients. On the market are a variety of sensors for monitoring environmental parameters within a precise agricultural area. However, the high price, data storage/transfer functionality are limiting so cost-effective products capable to transfer data directly to farmers via wireless IoT networks are required. Within a given scope, low-price sensor elements with an appropriate level of sensor response are required. In the presented paper, we have developed fully printed sensor elements and a dedicated measuring/communicating unit for IoT monitoring of soil moisture. Various fabrication printing techniques and a variety of materials were used. From the performed study, it is obvious that fully printed sensor elements based on cheap and environmentally friendly carbon layers printed on the wood substrate can compete with conventionally made sensors based on copper.

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Capacitive Impedance Measurement: Dual-frequency Approach

Cited by 13 publications

References 27 publications

Development and Characterization of Titanium Dioxide Ceramic Substrates with High Dielectric Permittivities

Development and Characterization of Titanium Dioxide Ceramic Substrates with High Dielectric Permittivities

Wind tunnel study of iron ore dust emissions from stockpile and train wagons

Fully Printed Disposable IoT Soil Moisture Sensors for Precision Agriculture

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