Bibliographies thématiques / Resonating circuit

Littérature scientifique sur le sujet « Resonating circuit »

Auteur : Grafiati

Publié le 10 mars 2023

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Articles de revues sur le sujet "Resonating circuit"

Robinson, H., H. F. Wu, M. Ames et P. Schwartz. « Improved circuit design for electrostatic self‐resonating vibroscopes ». Review of Scientific Instruments 58, n^o 3 (mars 1987) : 436–40. http://dx.doi.org/10.1063/1.1139250.

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Moo, Chin-Sien, Chun-Kai Huang, Kuo-Hsing Lee et Dai-Jie Huang. « Repeatedly Resonating Ignition Circuit for HID Lamp Electronic Ballasts ». IEEE Transactions on Industrial Electronics 58, n^o 1 (janvier 2011) : 244–49. http://dx.doi.org/10.1109/tie.2010.2044739.

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Stefanovski-Pajovic, Snezana, Milka Potrebic, Dejan Tosic et Zoran Stamenkovic. « E-plane waveguide bandstop filter with double-sided printed-circuit insert ». Facta universitatis - series : Electronics and Energetics 30, n^o 2 (2017) : 223–34. http://dx.doi.org/10.2298/fuee1702223s.

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In this paper a novel design of an E-plane bandstop waveguide filter with a double-sided printed-circuit insert is presented. Split-ring resonators are used as the resonating elements to obtain the bandstop response. The amplitude response of the waveguide resonator with a single resonating element on the insert is analyzed for various dimensions and positions of the split-ring resonator. The coupling between two resonators on the insert, in terms of their mutual distance, is considered as a next step to the filter design. Various positions of the resonators are considered, including the case with the resonators on the different sides of the insert, which is of interest for the proposed filter design. Finally, a third-order bandstop filter with a double-sided printed-circuit insert, operating in the X-frequency band, is introduced. The filter response is analyzed for various distances between the resonators and for various positions of the resonator printed on the other side of the insert. Proposed filter design is simple, providing for the accurate fabrication, miniaturization and possibility to relatively easy obtain multi-band response, using resonators with different resonant frequencies on the different sides of the insert.

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Kumari, Puja, Pankaj Sarkar et Rowdra Ghatak. « A Pythagorean tree fractal shape stub-loaded resonator as a UWB bandpass filter with wide stopband ». International Journal of Microwave and Wireless Technologies 13, n^o 5 (26 janvier 2021) : 442–46. http://dx.doi.org/10.1017/s1759078720001750.

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AbstractA compact ultrawideband (UWB) bandpass filter (BPF) is designed by harnessing the efficacy of a Pythagorean tree fractal shape stub-loaded resonator. The design inherently provides the passband transmission poles, which make it convenient to be used in wide passband filtering circuits. The number and the position of the resonating modes can be controlled by increasing the iterations of the Pythagorean tree, as analyzed using odd- and even-mode analysis. Design steps of the BPF are detailed. The designed UWB BPF takes up a small circuit area of (12.13 × 9.59) mm2. The proposed design is fabricated and measured to verify the simulated results. The stopband is extended up to 17.5 GHz with a maximum attenuation of 15 dB.

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Reinert, J., et G. M. J. Parsley. « Controlling the speed of an induction motor by resonating the rotor circuit ». IEEE Transactions on Industry Applications 31, n^o 4 (1995) : 887–91. http://dx.doi.org/10.1109/28.395300.

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Obais, Abdulkareem Mokif, et Ali Faeq Ruzij. « Design and implementation of an efficient WPT system ». International Journal of Power Electronics and Drive Systems (IJPEDS) 11, n^o 2 (1 juin 2020) : 711. http://dx.doi.org/10.11591/ijpeds.v11.i2.pp711-725.

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Wireless power transfer (WPT) is a technique introduced to transfer power wirelessly. Generally, WPT systems are characterized by low efficiency and low output power. Since WPT process depends mainly on mutual coupling between transmitting and receiving coils in addition to load requirements, it is focused in this work toward enhancing the mutual coupling and conditioning the receiving circuit so as to optimally satisfy the load demand. The mutual coupling between transmitting and receiving nodes is enhanced via inserting three resonating circuits along with energy transmission path and conditioning the receiving circuit such that it accomplishes delivering maximum power to the load node. In this work, an adaptive efficient WPT system is introduced. This system is carried out on PSpice and validated experimentally. Both simulative and experimental WPT systems have accomplished significant enhancement in efficiency. The proposed WPT system has three resonators and three parallel connected identical receiving coils located at 6.61m from the power transmitter. The efficiency enhancement approaches thousands of times the efficiency of a conventional WPT system having similar power transmitter located at the same distance from the receiving circuit, which has a single coil identical to those in the proposed efficient WPT system.

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Mrvic, Marija, Snezana Stefanovski-Pajovic, Milka Potrebic et Dejan Tosic. « Design of microwave waveguide filters with effects of fabrication imperfections ». Facta universitatis - series : Electronics and Energetics 30, n^o 4 (2017) : 431–58. http://dx.doi.org/10.2298/fuee1704431m.

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This paper presents results of a study on a bandpass and bandstop waveguide filter design using printed-circuit discontinuities, representing resonating elements. These inserts may be implemented using relatively simple types of resonators, and the amplitude response may be controlled by tuning the parameters of the resonators. The proper layout of the resonators on the insert may lead to a single or multiple resonant frequencies, using single resonating insert. The inserts may be placed in the E-plane or the H-plane of the standard rectangular waveguide. Various solutions using quarter-wave resonators and split-ring resonators for bandstop filters, and complementary split-ring resonators for bandpass filters are proposed, including multi-band filters and compact filters. They are designed to operate in the X-frequency band and standard rectangular waveguide (WR-90) is used. Besides three dimensional electromagnetic models and equivalent microwave circuits, experimental results are also provided to verify proposed design. Another aspect of the research represents a study of imperfections demonstrated on a bandpass waveguide filter. Fabrication side effects and implementation imperfections are analyzed in details, providing relevant results regarding the most critical parameters affecting filter performance. The analysis is primarily based on software simulations, to shorten and improve design procedure. However, measurement results represent additional contribution to validate the approach and confirm conclusions regarding crucial phenomena affecting filter response.

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Lamichhane, Hari Prasad. « Technique for Measuring Magnitudes and Phases of Voltage and Current in the Band-Selective Parallel LCR Circuit ». Journal of Institute of Science and Technology 24, n^o 2 (31 décembre 2019) : 85–90. http://dx.doi.org/10.3126/jist.v24i2.27261.

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The current in the parallel LCR (inductor, capacitor and resistor) circuit depends not only on the magnitude of the applied electromotive force (emf) but also on its frequency. The circuit current in the parallel LCR circuit becomes very small in the resonating region, but at the same time, the potential difference across the LC tank becomes very large. These results are justified if there is a large induced current in the LC tank in such a way that the inductive and capacitive branch currents are nearly out of phase so that the vector sum of the currents be minimal. This theory can be verified by inserting a small series resistor in each branch. Finally, calculated magnitudes and phases of the potential differences across the newly connected resistors which are directly related to the magnitudes and phases of corresponding branch currents verify the theory.

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Salman, Maaz, Youna Jang, Jongsik Lim, Dal Ahn et Sang-Min Han. « Novel Wilkinson Power Divider with an Isolation Resistor on a Defected Ground Structure with Improved Isolation ». Applied Sciences 11, n^o 9 (1 mai 2021) : 4148. http://dx.doi.org/10.3390/app11094148.

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A modified Wilkinson Power Divider is proposed in this paper that utilizes defected ground structure (DGS) in parallel with an isolation resistor. The proposed DGS section is incorporated between the output ports, and the isolation resistor is soldered in parallel with the DGS in the ground plane, instead of on the top plane as in a conventional Wilkinson power divider, to achieve improved or preferable isolation. The proposed design is comprised of two pairs of microstrip transmission lines with equal impedances and varied electrical lengths. The parameters of the main circuit and the DGS section are acquired separately. The parameters of the proposed main circuit are derived by applying conjugate matching theory. Dumbbell-shaped DGS is introduced in the ground plane between the output ports, which acts as a parallel resonator, yielding an attenuation pole at the resonant frequency that contributes to improved isolation. By applying the previous well-known circuit theory, the lumped elements of the equivalent circuit of the DGS were achieved. The physical dimensions of the equivalent circuit for the DGS section were obtained by three-dimensional EM simulation. The measured results show improved isolation, return loss and better bandwidth as compared with other similar works. Furthermore, the proposed circuits designed at resonating frequencies of 3 and 2 GHz presented comparatively good return losses, S11 of about −25.54 and −31.24 dB, respectively, and achieved improved isolations, S32 between the output ports, in an order of about −40.83 and −36.05 dB, respectively, which is rather exceptional and desirable.

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Li, Peng, Jiahao Zhao, Shijie Yu, Liu Guan et Zheng You. « Resonating Frequency of a SAD Circuit Loop and Inner Microcantilever in a Gas Sensor ». IEEE Sensors Journal 10, n^o 2 (février 2010) : 316–20. http://dx.doi.org/10.1109/jsen.2009.2034381.

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Thèses sur le sujet "Resonating circuit"

Edqvist, Erik. « Applications of active materials ». Doctoral thesis, Uppsala universitet, Tillämpad materialvetenskap, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-108696.

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Energy efficiency is a vital key component when designing and miniaturizing self sustained microsystems. The smaller the system, the smaller is the possibility to store enough stored energy for a long and continuous operational time. To move such a system in an energy efficient way, a piezoelectrical locomotion module consisting of four resonating cantilevers has been designed, manufactured and evaluated in this work. The combination of a suitable substrate, a multilayered piezoelectric material to reduce the voltage, and a resonating drive mechanism resulted in a low power demand. A manufacturing process for multilayer cantilever actuators made of P(VDF-TrFE) with aluminum electrodes on a substrate of flexible printed circuit board (FPC), has been developed. An important step in this process was the development of an etch recipe for dry etching the multilayer actuators in an inductive plasma equipment. Formulas for the quasi static tip deflection and resonance frequency of a multilayered cantilever, have been derived. Through theses, it was found that the multilayered structures should be deposited on the polymer side of the FPC in order to maximize the tip deflection. Both a large and a miniaturized locomotion module were manufactured and connected by wires to verify that the three legged motion principal worked to move the structures forward and backward, and turn it right and left. By touching and adding load, to a fourth miniaturized cantilever, its ability to act as a contact sensor and carry object was verified. The presented locomotion module is part of a multifunctional microsystem, intended to be energy efficient and powered by a solar panel with a total volume of less than 25 mm3 and weight 65 mg. The whole system, consisting of a solar cell, an infra red communication module, an integrated circuit for control, three capacitors for power regulating, the locomotion module and an FPC connecting the different modules, was surface mounted using a state of the art industrial facility. Two fully assembled systems could be programmed both through a test connector and through optical sensors in the multifunctional solar cell. One of these was folded together to the final configuration of a robot. However, the entire system could not be tested under full autonomous operating conditions. On the other hand, using wires, the locomotion module could be operated and used to move the entire system from a peak-to-peak voltage of 3.0 V.

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Mayberry, Curtis Lee. « Interface circuits for readout and control of a micro-hemispherical resonating gyroscope ». Thesis, Georgia Institute of Technology, 2014. http://hdl.handle.net/1853/53116.

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Gyroscopes are inertial sensors that measure the rate or angle of rotation. One of the most promising technologies for reaching a high-performance MEMS gyroscope has been development of the micro-hemispherical shell resonator. (μHSR) This thesis presents the electronic control and read-out interface that has been developed to turn the μHSR into a fully functional micro-hemispherical resonating gyroscope (μHRG) capable of measuring the rate of rotation. First, the μHSR was characterized, which both enabled the design of the interface and led to new insights into the linearity and feed-through characteristics of the μHSR. Then a detailed analysis of the rate mode interface including calculations and simulations was performed. This interface was then implemented on custom printed circuit boards for both the analog front-end and analog back-end, along with a custom on-board vacuum chamber and chassis to house the μHSR and interface electronics. Finally the performance of the rate mode gyroscope interface was characterized, showing a linear scale factor of 8.57 mv/deg/s, an angle random walk (ARW) of 34 deg/sqrt(hr) and a bias instability of 330 deg/hr.

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Detti, Amelia. « A new experimental apparatus for atom-ion quantum mixtures ». Doctoral thesis, 2020. http://hdl.handle.net/2158/1191264.

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Hybrid quantum systems represent one of the most promising routes in the progress of experimental quantum physics and in the development of quantum technologies. In a hybrid quantum system two (or more) different quantum systems interact in the same experimental setup. Therefore, these composite systems benefit from both the properties of each single system and from the presence of an interaction term, leading to the emergence of new variables that can be experimentally manipulated. A promising hybrid quantum system is the one realized by the com- bination of an ultracold atomic gas and trapped ions. Ultracold atoms and trapped ions are two of the most studied physical systems for the implementation of several quantum technologies, like e.g. quantum simulation, quantum computa- tion, and quantum metrology. When trapped together, atoms and ions interact via an interaction potential that scales asymptotically with R^(−4), where R is the inter- particle distance, due to the electrostatic (attractive) force between the ion’s electric monopole and the atom’s induced dipole. Interestingly, this potential has a typical range on the order of hundreds of nm, i.e. approx. two orders of magnitude longer than the range of atom-atom interactions. Several studies have proposed to use this interaction to realize new quantum simulations, study few-body physics, and control atom-ion chemical reactions. Elastic collisions between ions and atoms can be exploited to sympathetically cool the ions and try to reach the so-far elusive s-wave scattering regime, in which atom- ion collisions can lead to a quantum coherent evolution of the composite system. However, the ultracold atom-ion mixtures realized so far were not brought to the s-wave scattering regime because of the so-called “micromotion”, a driven motion affecting the dynamics of the ions trapped in Paul traps. Atom-ion collisions in the presence of micromotion cause a coupling of energy from the oscillating field of the Paul trap to the colliding particles, which can be heated up in the collision. In order to realize an atom-ion experiment in which the system could reach the s-wave scattering regime, the choice of the atomic species and the ion trapping strategy are crucial. We decided to build a new experimental apparatus for the realization of an ultracold atom-ion quantum hybrid system made of a quantum gas of fermionic Lithium and trapped Barium ions. The choice for the elements ensures that atoms and ions in their electronic ground state will not undergo charge- exchange collisions, i.e. inelastic processes for which an electron is “exchanged” be- tween the two colliding particles. Additionally, the large mass ratio ensures an efficient cooling of the ion in the ultracold gas. For what regards the ion trapping strategy, in order to remove the limitations set by micromotion, we conceived a new trap. This is formed by the superposition of an electric quadrupole static potential and an optical lattice along the untrapping direction of the electric quadrupole. The ions are moved into this electro-optical trap (EOT) from a standard Paul trap, in which the ions are first trapped after their production through photoionization. In this thesis, I will describe how this new experimental apparatus for the real- ization of an ultracold atom-ion quantum hybrid system was conceived, designed and assembled. I will first describe the motivations for investigating atom-ion interactions in the ultracold regime. Then, I will describe the experimental techniques to trap and cool Barium ions and Lithium atoms, and how we plan to make them interact. The largest part of the thesis will be dedicated to the description of the parts of the experimental setup that I designed and realized, like the Lithium optical setup, the Barium imaging system and the electrical setup of the ion trap, including a compact RF drive based on interdependent resonant circuits that I developed for operating the Paul trap. The last chapter of the thesis is dedicated to this innovative drive.

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Chapitres de livres sur le sujet "Resonating circuit"

Rajarajeshwari, K. C., T. Poornima, K. R. Gokul Anand et S. V. Kumari. « SIMO Array Characterized THz Antenna Resonating at Multiband Ultra High Frequency Range for 6G Wireless Applications ». Dans Terahertz Devices, Circuits and Systems, 121–36. Singapore : Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-4105-4_7.

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Actes de conférences sur le sujet "Resonating circuit"

Moo, Chin S., Kuo H. Lee, Chun K. Huang et Dai J. Huang. « Repeatedly resonating ignition circuit for HID lamp electronic ballasts ». Dans Applications (ISIEA 2009). IEEE, 2009. http://dx.doi.org/10.1109/isiea.2009.5356369.

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Azadmehr, Mehdi, Belal K. Khajeh et Yngvar Berg. « A bidirectional circuit for actuation and read-out of resonating sensors ». Dans 2014 IEEE Faible Tension Faible Consommation (FTFC). IEEE, 2014. http://dx.doi.org/10.1109/ftfc.2014.6828606.

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Wei, Muh-Dey, Sheng-Fuh Chang et Yu-Chun Liu. « A Low-Power Ultra-Compact CMOS LNA with Shunt-Resonating Current-Reused Topology ». Dans 2008 European Microwave Integrated Circuit Conference (EuMIC). IEEE, 2008. http://dx.doi.org/10.1109/emicc.2008.4772301.

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Niedermayer, A. O., Th Voglhuber-Brunnmaier, J. Sell et B. Jakoby. « C7.4 - Increasing the Dynamic Range of a Digitizing Impedance Analyzer Circuit for Resonating Sensors ». Dans SENSOR+TEST Conferences 2011. AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf, Germany, 2011. http://dx.doi.org/10.5162/sensor11/c7.4.

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Marchetti, Luca, Amar Romi, Yngvar Berg, Omid Mirmotahari et Mehdi Azadmehr. « A discrete implementation of a bidirectional circuit for actuation and read-out of resonating sensors ». Dans 2016 International Conference on Design and Technology of Integrated Systems in Nanoscale Era (DTIS). IEEE, 2016. http://dx.doi.org/10.1109/dtis.2016.7483896.

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Krishna, Ram, et Shiva Sharma. « Polyfunctional Application of Substratum unified Waveguide Cavity in Dielectric Resonating chamber Antenna and Recompose Circuit ». Dans 2019 2nd International Conference on Power Energy, Environment and Intelligent Control (PEEIC). IEEE, 2019. http://dx.doi.org/10.1109/peeic47157.2019.8976830.

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Rogers, B., C. A. Bauer et J. D. Adams. « Comparison of Self-Sensing Techniques for Mercury Vapor Detection Using Piezoelectric Microcantilevers ». Dans ASME 2003 International Mechanical Engineering Congress and Exposition. ASMEDC, 2003. http://dx.doi.org/10.1115/imece2003-55024.

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Self-sensing piezoelectric microcantilevers do not require alignment of external optics, use very little power and are well suited to array applications. We demonstrate a commercially available, piezoelectric cantilever as a mercury vapor detector. The cantilever is an atomic force microscopy cantilever with self-sensing and self-actuating capabilities. In the first detection technique, adsorption-induced bending, caused by mercury adsorption onto gold on the cantilever, is measured by bringing the resonating cantilever into intermittent contact with a reference surface. Cantilever bending causes changes in its oscillatory amplitude, detected using the voltage output of the piezoelectric film, and a piezotube in feedback is adjusted to compensate. A 50 ppb mercury concentration in nitrogen gas was detected. The second technique capitalizes on the stiffening effect adsorbed gold has on the cantilever; natural frequency changes are detected with the piezoelectric cantilever in conjunction with a bridge circuit and amplifier. A mercury concentration of 93 ppb in nitrogen is detected. These techniques are discussed and compared. Additionally, consideration is given to the effect of the location and size of the gold-adsorption pad on sensitivity.

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Dwivedi, Ankur, Arnab Banerjee et Bishakh Bhattacharya. « Dynamics of Piezo-Embedded Negative Stiffness Mechanical Metamaterials : A Study on Electromechanical Bandgaps ». Dans ASME 2020 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/imece2020-23717.

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Abstract Dynamics of periodic materials and structures have a profound historic background starting from Newton’s first effort to find sound propagation in the air to Rayleigh’s exploration of continuous periodic structures. This field of interest has received another surge from the early 21st century. Elastic mechanical metamaterials are the exemplars of periodic structures that exhibit interesting frequency-dependent properties like negative Young’s modulus, negative mass and negative Poisson’s ratio in a specific frequency band due to additional feature of local resonance. In this research, we present the modeling of piezo-embedded negative stiffness metamaterials by considering a shunted inductor energy harvesting circuit. For a chain of a finite number of metamaterial units, the coupled equation of motion of the system is deduced using generalized Bloch’s theorem. Successively, the backward substitution method is applied to compute harvested power and the transmissibility of the system. Additionally, through the extensive non-dimensional study of this system, the proposed metamaterial band structure is investigated to perceive locally resonant mechanical and electromechanical bandgaps. The results explicate that the insertion of the piezoelectric material in the resonating unit provides better tun-ability for vibration attenuation and harvested energy.

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Kaluvan, Suresh, et Haifeng Zhang. « A Novel DC Current Sensor Using SMA Controlled Piezoelectric Bimorph Cantilever ». Dans ASME 2016 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/smasis2016-9239.

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A new approach to measure direct current (DC) using shape memory alloy (SMA) tuning piezo cantilever resonant frequency technique is proposed in this work. The proposed current sensor system is designed using an electrically insulated SMA wire surface mounted on the cantilever beam with piezoelectric actuator. The cantilever beam is maintained at resonance using a closed loop piezo resonator circuit and the current ‘I’ to be measured is given to the SMA wire. The current induced temperature change of the SMA wire produces a mechanical shape change and produces a stiffness change to the resonating cantilever beam. The shift in resonant frequency due to the stiffness change is measured, which is related to the input electrical current ‘I’ to the SMA wire. The key enabling concept of this proposed work is to alter the cantilever resonant frequency using the shape changing property of SMA wire with input unknown electric current. The analytical model of the current sensor system is derived and the results are compared with the experimental results. The SMA coupled with piezo actuator based resonant current sensing system is evaluated for the input current range of 0 to 0.5A. The proposed current sensing concept is simple and completely novel and it is found that it has very high sensitivity to current and result is piecewise linear.

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Wolfgramm, Thomas, Andre Manicke et Hans Georg Krauthauser. « Field coupling to nonlinear circuits in resonating structures ». Dans 2015 IEEE International Symposium on Electromagnetic Compatibility (EMC). IEEE, 2015. http://dx.doi.org/10.1109/isemc.2015.7256263.

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