Artículo
Cross Correlation-Based Ultrasonic Gas Flow Sensor With Temperature Compensation
Autor/es | García-Oya, José Ramón
Hidalgo Fort, Eduardo Narbona Miguel, Daniel Sainz Rojas, Alejandro González Carvajal, Ramón Muñoz Chavero, Fernando |
Departamento | Universidad de Sevilla. Departamento de Ingeniería Electrónica |
Fecha de publicación | 2023 |
Fecha de depósito | 2024-02-03 |
Publicado en |
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Resumen | In this article, the design of an ultrasonic gas flow sensor with a low cost and low energy temperature compensation method based on time of flight (ToF) measurement is presented. In order to minimize the cost, the proposed ... In this article, the design of an ultrasonic gas flow sensor with a low cost and low energy temperature compensation method based on time of flight (ToF) measurement is presented. In order to minimize the cost, the proposed thermal compensation method, on the one hand, does not require a temperature sensor and, on the other hand, only requires an initial calibration at room temperature. The presented commercial off the shelf (COTS)-based sensor has been previously optimized at different levels: mechanical design, validation of the piezoelectric transducers, and selection of the ToF detection algorithm. As a result, this article presents a gas flow sensor based on a V-configuration pipe, using 200-kHz piezoelectric transducers and a cross correlation method based on the Hilbert transform (HT). The proposed design fully meets the accuracy requirements given by the EN14236 standard, improving the features of current commercial gas flow sensors in terms of cost, accuracy, and power consumption. |
Agencias financiadoras | Junta de Andalucía European Commission (EC) |
Identificador del proyecto | PY20 RE 012 AICIA |
Cita | García-Oya, J.R., Hidalgo Fort, E., Narbona Miguel, D., Sainz Rojas, A., González Carvajal, R. y Muñoz Chavero, F. (2023). Cross Correlation-Based Ultrasonic Gas Flow Sensor With Temperature Compensation. IEEE Transactions on Instrumentation and Measurement, 72, 9509304. https://doi.org/10.1109/TIM.2023.3293139. |
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