Capacitive Angle Sensor Research Using COMSOL Multiphysics

Wu, Jianwen; Meng, Zhen; Xingcheng, Zhang; Mi, Wei; Yan, Yuepeng

doi:10.3390/app13052937

Cited by 3 publications

(2 citation statements)

References 24 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For the double capacitors, the capacitance is affected by the edge effect of the plate easily, which leads to the nonlinearity of the output [ 25 ]. For reducing the edge effect, the analysis software COMSOL Multiphysics 6.0 (COMSOL) was used to model the two capacitors and the air domain in three dimensions [ 26 ]. The plate material is copper, and the electrostatic field was used as the physical field.…”

Section: Design Of the Corn Moisture Sensormentioning

confidence: 99%

The Design and Experimentation of a Corn Moisture Detection Device Based on Double Capacitors

Han,

Wang,

Shi

et al. 2024

Sensors

View full text Add to dashboard Cite

Detecting the moisture content of grain accurately and rapidly has important significance for harvesting, transport, storage, processing, and precision agriculture. There are some problems with the slow detection speeds, unstable detection, and low detection accuracy of moisture contents in corn harvesters. In that case, an online moisture detection device was designed, which is based on double capacitors. A new method of capacitance complementation and integration was proposed to eliminate the limitation of single data. The device is composed of a sampling mechanism and a double-capacitor sensor consisting of a flatbed capacitor and a cylindrical capacitor. The optimum structure size of the capacitor plates was determined by simulation optimization. In addition to this, the detection system with software and hardware was developed to estimate the moisture content. Indoor dynamic measurement tests were carried out to analyze the influence of temperature and porosity. Based on the influencing factors and capacitance, a model was established to estimate the moisture content. Finally, the support vector machine (SVM) regressions between the capacitance and moisture content were built up so that the R2 values were more than 0.91. In the stability test, the standard deviation of the stability test was 1.09%, and the maximum relative error of the measurement accuracy test was 1.22%. In the dynamic verification test, the maximum error of the measurement was 4.62%, less than 5%. It provides a measurement method for the accurate, rapid, and stable detection of the moisture content of corn and other grains.

show abstract

Section: Design Of the Corn Moisture Sensormentioning

confidence: 99%

The Design and Experimentation of a Corn Moisture Detection Device Based on Double Capacitors

Han,

Wang,

Shi

et al. 2024

Sensors

View full text Add to dashboard Cite

show abstract

“…Non-contact sensors mainly include optical sensors, capacitive sensors [22,23], magnetoresistive sensors [24][25][26] and inductive sensors [27,28]. Optical sensors are categorized as photoelectric encoders [29][30][31] or grating sensors [32][33][34].…”

Section: Of 29mentioning

confidence: 99%

Modelling, Linearity Analysis and Optimization of an Inductive Angular Displacement Sensor Based on Magnetic Focusing in Ships

Wang

et al. 2023

JMSE

View full text Add to dashboard Cite

A sensor for measuring the crankshaft angle of the main engine in ships is designed. Compared with the existing crankshaft angle encoder, this design’s advantage is that there is no need to add a gear system at the free end of the crankshaft, reducing machining complexity. The purpose of providing high angle resolution over a wide speed range is achieved. Inductive angular displacement sensors (IADSs) require an eddy current magnetic field as a medium to generate the induced voltage. The induced voltage also requires a complex linearization calculation to obtain a linear relationship between angle and voltage. Therefore, a model of the inductive angular displacement sensor based on magnetic focusing (IADSMF) is proposed. Magnetic focusing is introduced into the IADS to replace the eddy current magnetic field with a focusing magnetic field. The main disadvantage of traditional IADSs, which is that they cannot reduce the eddy current magnetic field, is mitigated. An approximate square−shaped focusing magnetic field (12.4 × 12.4 mm2) is formed using the magnetic field constraint of the magnetic conductor. When the receiving coil undergoes a position change relative to the square−shaped focusing magnetic field, the voltage generated via the receiving coil is measured using the electromagnetic induction principle to achieve angular displacement measurement. A mathematical model of the IADSMF is derived. Induced voltages at different frequencies and rotational speeds are simulated and analyzed via MATLAB. The results show that frequency is the main factor affecting the induced voltage amplitude. The sensitivity of the IADSMF is 0.2023 mV/°. The resolution and measurement of the IADSMF range from 0.06° and 0–360°. Compared with a conventional planar coil−based IADS, the eddy current loss is reduced from 2.1304 to 0.3625 W. Direct linearization of the angular displacement with the induced voltage is achieved through designing a square−shaped focusing field and receiving coil. After optimizing the sensor structure with the optimization algorithm, the linearity error is 0.6012%. Finally, this sensor provides a theoretical basis and research ideas for IADS development in ships and navigation.

show abstract

Condition Monitoring and Fault Diagnosis Systems of Power Generators with Non-Contact Shaft Runout Electrocapacitive Transducer

Zaitsev,

Bereznychenko

2023

2023 IEEE 4th KhPI Week on Advanced Technology (KhPIWeek)

View full text Add to dashboard Cite

Capacitive Angle Sensor Research Using COMSOL Multiphysics

Cited by 3 publications

References 24 publications

The Design and Experimentation of a Corn Moisture Detection Device Based on Double Capacitors

The Design and Experimentation of a Corn Moisture Detection Device Based on Double Capacitors

Modelling, Linearity Analysis and Optimization of an Inductive Angular Displacement Sensor Based on Magnetic Focusing in Ships

Condition Monitoring and Fault Diagnosis Systems of Power Generators with Non-Contact Shaft Runout Electrocapacitive Transducer

Contact Info

Product

Resources

About