Examinando por Autor "Kucera, Martin"
Mostrando 1 - 6 de 6
- Resultados por página
- Opciones de ordenación
Ítem Comparison of in‑plane and out‑of‑plane piezoelectric microresonators for real‑time monitoring of engine oil contamination with diesel(Microsystem Technologies-Micro-And Nanosystems-Information Storage And Processing Systems (Springer Verlag), 2016-01-20) Toledo, Javier; Manzaneque, Tomás; Ruiz-Díez, Víctor; Jiménez-Márquez, Francisco; Kucera, Martin; Pfusterschmied, Georg; Wistrela, Elisabeth; Schmid, Ulrich; Sánchez-Rojas, José LuisReal-time monitoring of the physical properties of liquids, such as lubricants, is a very important issue for the automotive industry. For example, contamination of lubricating oil by diesel soot has a significant impact on engine wear. Resonant microstructures are regarded as a precise and compact solution for tracking the viscosity and density of lubricant oils. In this work, we report two different resonators for the monitoring of oil dilution with diesel fuel; one device was designed to vibrate in out of-plane modes (12-mode or 14-mode), while the other micro-plate was actuated in the first extensional in-plane mode. To determine from the measurements the resonance parameters of interest (resonance frequency and quality factor), an interface circuit was implemented and included within a closed-loop scheme. Two types of oscillator circuits were tested, a Phase-Locked Loop based on instrumentation and a more compact version based on discrete electronics, showing similar resolution. A model with fitting parameters was validated allowing for the determination of the viscosity and density of the fluids under test, for which only a small amount of test liquid, in the range of 0.5 ml, was required. Our results demonstrate the performance of the resonators in oils with viscosity up to 90 mPa s. For such viscosity, the quality factor measured at 25 °C was 7 for the 12-mode, 19 for the 14-mode and 16 for the extensional mode. The best resolution for both fluid material parameters was obtained in the 14-mode, showing 3.92 × 10−5 g/ml for the density and 1.27 × 10−1 mPa s for the viscosity, in pure lubricant oil SAE 0W30. Finally, the resonator with the best result (14-mode) was also tested in continuous-flow measurements, showing a resolution of 0.5 ppm of diesel contamination in a pure lubricant oil SAE 2.5 W.Ítem Design and characterization of in-plane piezoelectric microactuators(Actuators - Multidisciplinary Digital Publishing Institute (MDPI), 2017-06-03) Toledo, Javier; Ruiz-Díez, Víctor; Díaz, Alex; Ruiz, David; Donoso, Alberto; Bellido, José Carlos; Wistrela, Elisabeth; Kucera, Martin; Schmid, Ulrich; Hernando-García, Jorge; Sánchez-Rojas, José LuisIn this paper, two different piezoelectricmicroactuator designs are studied. The corresponding devices were designed for optimal in-plane displacements and different high flexibilities, proven by electrical and optical characterization. Both actuators presented two dominant vibrational modes in the frequency range below 1 MHz: an out-of-plane bending and an in-plane extensional mode. Nevertheless, the latter mode is the only one that allows the use of the device as a modal in-plane actuator. Finite ElementMethod (FEM) simulations confirmed that the displacement per applied voltage was superior for the low-stiffness actuator, which was also verified through optical measurements in a quasi-static analysis, obtaining a displacement per volt of 0.22 and 0.13 nm/V for the low-stiffness and high-stiffness actuator, respectively. In addition, electrical measurements were performed using an impedance analyzer which, in combination with the optical characterization in resonance, allowed the determination of the electromechanical and stiffness coefficients. The low-stiffness actuator exhibited a stiffness coefficient of 5 × 104 N/m, thus being more suitable as a modal actuator than the high-stiffness actuator with a stiffness of 2.5 × 105 N/m.Ítem Modelling and characterization of the roof tile-shaped modes of AlN-based cantilever resonators in liquid media(Journal of Micromechanics and Microengineering, 2016-07-22) Ruiz-Díez, Víctor; Hernando-García, Jorge; Toledo, Javier; Manzaneque, Tomás; Kucera, Martin; Pfusterschmied, Georg; Schmid, Ulrich; Sánchez-Rojas, José LuisIn this work, roof tile-shaped modes of MEMS (micro electro-mechanical systems) cantilever resonators with various geometries and mode orders are analysed. These modes can be efficiently excited by a thin piezoelectric film and a properly designed top electrode. The electrical and optical characterization of the resonators are performed in liquid media and the device performance is evaluated in terms of quality factor, resonant frequency and motional conductance. A quality factor as high as 165 was measured in isopropanol for a cantilever oscillating in the seventh order roof tile-shaped mode at 2 MHz. To support the results of the experimental characterization, a 2D finite element method simulation model is presented and studied. An analytical model for the estimation of the motional conductance was also developed and validated with the experimental measurements.Ítem Piezoelectric MEMS resonators for density and viscosity sensing in engine oil with diesel fuel(IEEE 2015 Transducers - 18th International Conference on Solid-State Sensors, Actuators and Microsystems., 2015-08) Toledo, Javier; Manzaneque, Tomás; Ruiz-Díez, Víctor; Kucera, Martin; Pfusterschmied, Georg; Wistrela, Elisabeth; Steindl, Wolfgang; Schmid, Ulrich; Sánchez-Rojas, José LuisThis work demonstrates the potential of AlN-based resonators as on-line sensors for monitoring lubricant oil dilution with diesel. Two devices are compared, one actuated in the first extensional in-plane mode and the other in an out-of-plane mode (14-mode). Both devices are designed to feature high quality factor in liquid, and allow discriminating variations in density or viscosity in the medium. Sensor resolutions for these two variables are compared in lubricant oil SAE 2.5W, and the device with the best result (14-mode) was also tested in continuous-flow measurements, showing a resolution of 0.5 ppm of diesel contamination in this oil.Ítem Piezoelectric resonators and an oscillator circuit based on higher-order out-of-plane modes for density-viscosity measurements of liquids(Journal of Micromechanics and Microengineering, 2016-07-22) Toledo, Javier; Manzaneque, Tomás; Ruiz-Díez, Víctor; Kucera, Martin; Pfusterschmied, Georg; Wistrela, Elisabeth; Schmid, Ulrich; Sánchez-Rojas, José LuisWe report the use of two AlN-based piezoelectric microresonators for the monitoring of density and viscosity of liquids and its application to detect lubricant oil dilution with diesel fuel. Two devices designed to resonate in the 4th-order roof tile-shaped vibration mode, but with two different anchor schemes, were fabricated and characterized. Interface circuits were designed to convert the one-port impedance into a resonant two-port transfer function. This allowed us to implement a phase locked loop (PLL)-based oscillator circuit based on the resonators, the interface circuit and a commercial lock-in amplifier. Our results demonstrate the performance of the resonators in fluids having viscosities up to 500 mPa·s. The performance of the sensors in terms of sensitivity and resolution are compared for both anchor configurations.Ítem Potential of Piezoelectric MEMS Resonators for Grape Must Fermentation Monitoring(Micromachines - Multidisciplinary Digital Publishing Institute (MDPI), 2017-06-26) Pfusterschmied, Georg; Toledo, Javier; Kucera, Martin; Steindl, Wolfgang; Zemann, Stefan; Ruiz-Díez, Víctor; Schneider, Michael; Bittner, Achim; Sánchez-Rojas, José Luis; Schmid, UlrichIn this study grape must fermentation is monitored using a self-actuating/self-sensing piezoelectric micro-electromechanical system (MEMS) resonator. The sensor element is excited in an advanced roof tile-shaped vibration mode, which ensures high Q-factors in liquids (i.e., Q ~100 in isopropanol), precise resonance frequency analysis, and a fast measurement procedure. Two sets of artificial model solutions are prepared, representing an ordinary and a stuck/sluggish wine fermentation process. The precision and reusability of the sensor are shown using repetitive measurements (10 times), resulting in standard deviations of the measured resonance frequencies of ~0.1%, Q-factor of ~11%, and an electrical conductance peak height of ~12%, respectively. With the applied evaluation procedure, moderate standard deviations of ~1.1% with respect to density values are achieved. Based on these results, the presented sensor concept is capable to distinguish between ordinary and stuck wine fermentation, where the evolution of the wine density associated with the decrease in sugar and the increase in ethanol concentrations during fermentation processes causes a steady increase in the resonance frequency for an ordinary fermentation. Finally, the first test measurements in real grape must are presented, showing a similar trend in the resonance frequency compared to the results of an artificial solutions, thus proving that the presented sensor concept is a reliable and reusable platform for grape must fermentation monitoring.