Relevant bibliographies by topics / Induction half-bridge resonant inverter

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Academic literature on the topic 'Induction half-bridge resonant inverter'

Author: Grafiati
Published: 3 June 2025
Last updated: 20 July 2025

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Journal articles on the topic "Induction half-bridge resonant inverter"

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Sadhu, Pradip Kumar, Palash Pal, Nitai Pal, and Sourish Sanyal. "Selection of Power Semiconductor Switches in Modified Half Bridge Resonant Inverter Fitted Induction Heater in Power Line for Less Harmonic Injection." International Journal of Power Electronics and Drive Systems (IJPEDS) 6, no. 1 (2015): 121. http://dx.doi.org/10.11591/ijpeds.v6.i1.pp121-128.

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<p>This paper presents an approach to minimize the harmonics contained in the input current of single phase Modified Half Bridge Resonant inverter fitted induction heating equipment. A switch like IGBT, GTO, and MOSFET are used for this purpose. It analyzes the harmonics or noise content in the sinusoidal input current of this inverter. Fourier Transform has been used to distinguish between the fundamental and the harmonics, as it is a better investigative tool for an unknown signal in the frequency domain. An exhaustive method for the selection of different power semiconductor switches for Modified Half Bridge Resonant inverter fed induction heater is presented. Heating coil of the induction heater is made of litz wire which reduces the skin effect and proximity effect at high operating frequency. With the calculated optimum values of input current of the system at a particular operating frequency, Modified Half Bridge Resonant inverter topology has been simulated using P-SIM software. To obtain the Input current waveforms through it, further analysis has been employed. From this analysis selection of suitable power semiconductor switches like IGBT, GTO and MOSFET are made. Waveforms have been shown to justify the feasibility for real implementation of single phase Modified Half Bridge Resonant inverter fed induction heater in industrial application.</p>
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Esteve, Vicente, José Jordán, and Juan L. Bellido. "Optimizing the Efficiency of Series Resonant Half-Bridge Inverters for Induction Heating Applications." Electronics 14, no. 6 (2025): 1200. https://doi.org/10.3390/electronics14061200.

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This paper reviews the current state of research on half-bridge (HB) inverters used in induction heating power supplies, emphasizing their topological structures, output power control methods, and switching strategies. The study explores various control techniques to regulate low power levels in a series resonant inverter (SRI) configured with an HB structure for induction heating applications. Pulse frequency modulation (PFM) is commonly employed to regulate standard power levels by adjusting the operating frequency relative to the resonant frequency. As the operating frequency increases beyond resonance, the output power decreases. However, in certain scenarios, achieving low power levels necessitates high frequencies, which introduces significant control challenges. To address these issues, it is crucial to develop alternative approaches that ensure efficient power reduction, without compromising system performance. This work evaluates and compares multiple solutions tailored for a high-frequency induction heating system delivering 18 kW at an operating frequency of approximately 100 kHz. The study places particular emphasis on optimizing key component sizing and analyzing inverter losses to enhance overall system efficiency and reliability.
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Rubavathy, S. Jaanaa, and P. Murugesan. "Pulse Density Modulation Based Series Resonant Inverter Fed Induction Heater System." International Journal of Power Electronics and Drive Systems (IJPEDS) 9, no. 2 (2018): 690. http://dx.doi.org/10.11591/ijpeds.v9.i2.pp690-697.

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This paper deals with implementation of a multi-output Series Resonant Inverter(SRI) for induction heating applications, which uses pulse density modulation(PDM) control for full bridge Series resonant inverters for output voltage and power control. It ensures better efficiency performances than conventional control strategies. The proposed converter can be considered as a two output extension of a full bridge inverter. This full bridge inverter can control the two outputs, simultaneously and independently, up to their rated powers, which reduces the usage of number of components as compared with conventional method. It also ensures higher utilization of switches used for its operation. A two output full bridge series resonant inverter is simulated and implemented. The Experimental results are compared with the simulation results.
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Khoun-Jahan, Hossein. "Switched Capacitor Based Cascaded Half-Bridge Multilevel Inverter With Voltage Boosting Feature." CPSS Transactions on Power Electronics and Applications 6, no. 1 (2021): 63–73. http://dx.doi.org/10.24295/cpsstpea.2021.00006.

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Cascaded multilevel inverter (CMI) topology is prevalent in many applications. However, the CMI requires many switches and isolated dc sources, which is the main drawback of this type of inverter. As a result, the volume, cost and complexity of the CMI topology are increased and the efficiency is deteriorated. This paper thus proposes a switched-capacitor-based multilevel inverter topology with half-bridge cells and only one dc source. Compared to the conventional CMI, the proposed inverter uses almost half the number of switches, while maintaining a boosting capability. Additionally, the main drawback of switched-capacitor multilevel inverters is the capacitor inrush current. This problem is also averted in the proposed topology by using a charging inductor or quasi-resonant capacitor charging with a front-end boost converter. Simulation results and lab-scale experimental verifications are provided to validate the feasibility and viability of the proposed inverter topology.
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Jung, Yong-Chae. "Dual half bridge series resonant inverter for induction heating appliance with two loads." Electronics Letters 35, no. 16 (1999): 1345. http://dx.doi.org/10.1049/el:19990926.

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Pal, Palash, Debabrata Roy, Avik Datta, Pradip K. Sadhu, and Atanu Banerjee. "A closed-loop power controller model of series-resonant-inverter-fitted induction heating system." Archives of Electrical Engineering 65, no. 4 (2016): 827–41. http://dx.doi.org/10.1515/aee-2016-0058.

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Abstract This paper presents a mathematical model of a power controller for a high-frequency induction heating system based on a modified half-bridge series resonant inverter. The output real power is precise over the heating coil, and this real power is processed as a feedback signal that contends a closed-loop topology with a proportional-integral-derivative controller. This technique enables both control of the closed-loop power and determination of the stability of the high-frequency inverter. Unlike the topologies of existing power controllers, the proposed topology enables direct control of the real power of the high-frequency inverter.
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Houam, Ala, Fares Zaamouche, Rabah Daouadi, and Moussa Attia. "Efficiency Considerations of LLC Resonant Converter for Induction Heating Application." European Journal of Electrical Engineering 24, no. 5-6 (2022): 257–63. http://dx.doi.org/10.18280/ejee.245-604.

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Due to the high efficiency, high power density and low EMI provided by the LLc resonant converter, it has been widely used by researchers in many fields such as induction heating (IH). This converter is based on a resonant circuit consisting of a capacitor (Cr) and two inductors Lr, Lm operating in wide output load regulating ranges for the purpose of achieving good efficiency for very high power systems using a high operating frequency. This paper aims to present a half-bridge LLC resonant converter based on power supplies for IH applications. The analysis contains five components: half bridge inverter, resonant tank, high frequency transformer, rectifier and coil. The switching bridge generates a square waveform to excite the LLC resonant tank, which will produce a resonant sinusoidal current which is transferred to the secondary of the converter through a high-frequency transformer. as it scales the voltage up or down according to the output requirements. The load represented by the equivalent circuit of the coil and work-piece is fed by the current transformed by the rectifiers. This paper provides an improved knowledge of the control of the output power for high-temperature applications through numerical simulation Considering that the load parameters and resonant frequency vary substantially throughout the system operation. The results of testing demonstrated that the proposed scheme and assembly has good efficiency, and it is well suited for magnetic induction heating systems.
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Al-Jrew, Aws, Jawad Mahmood, and Ramzy Ali. "Design of PLL Controller for Resonant Frequency Tracking of Five-Level Inverter Used for Induction Heating Applications." Iraqi Journal for Electrical and Electronic Engineering 19, no. 2 (2023): 169–78. http://dx.doi.org/10.37917/ijeee.19.2.19.

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In this work, the phase lock loop PLL-based controller has been adopted for tracking the resonant frequency to achieve maximum power transfer between the power source and the resonant load. The soft switching approach has been obtained to reduce switching losses and improve the overall efficiency of the induction heating system. The jury’s stability test has been used to evaluate the system’s stability. In this article, a multilevel inverter has been used with a series resonant load for an induction heating system to clarify the effectiveness of using it over the conventional full-bridge inverter used for induction heating purposes. Reduced switches five-level inverter has been implemented to minimize switching losses, the number of drive circuits, and the control circuit’s complexity. A comparison has been made between the conventional induction heating system with full bridge inverter and the induction heating system with five level inverter in terms of overall efficiency and total harmonic distortion THD. MATLAB/ SIMULINK has been used for modeling and analysis. The mathematical analysis associated with simulation results shows that the proposed topology and control system performs well.
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Vignesh, Pandian R., and Rajan G. T. Sundar. "Next generation induction heating: GAN vs. MOSFET based resonant power converter for residential use." i-manager’s Journal on Electrical Engineering 17, no. 3 (2024): 21. http://dx.doi.org/10.26634/jee.17.3.20639.

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Flexible-surface induction cooktops require handling various induction heating loads simultaneously, each with different behaviors and power requirements. Multi-output inverter topologies are designed to manage power independently with minimal components and high power density. However, traditional modulation strategies face limitations in ensuring soft switching for reduced losses. Wide band gap devices offer a new approach, where soft switching isn't necessary for high efficiency. To achieve flexibility, domestic induction heating relies on multi-coil structures for optimal temperature distribution. Different coil-pot systems are treated as independent loads, each with specific parameters and power needs. Multi-output topologies, derived from full bridge, half-bridge, and single switch configurations, are developed to tackle the challenge of multi-load power transmission. These topologies balance complexity, versatility, and efficiency based on factors like inductor size, number, target material, and heating distance. A cost-effective and versatile family of multi-output resonant inverters, derived from the half-bridge topology, is described. This work further develops this idea by proposing a high-efficiency implementation of an array multi-output converter with a column structure able to operate under load mismatch achieving reduced power losses, which eases integration into a flexible IH cooktop. Highefficiency multi-output converters are a key enabling technology for the widespread use of flexible surface IH cooktops. Due to the application characteristics, complex modulation strategies appear, requiring an additional effort in the topology design, ensuring reduced power losses regardless of the nature of the switching sequence. However, they suffer from limitations when applying classical modulation strategies to ensure soft switching, which is required to reduce transistor losses and achieve efficient operation. The prototype shows different outputs for induction heating, and in the future, those outputs can be used to develop the IH cooktop.
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Chudjuarjeen, Saichol, and Nathabhat Phankong. "Application of Frequency Control Techniques for Hot Tensile Testing in Induction Heating." ECTI Transactions on Electrical Engineering, Electronics, and Communications 20, no. 1 (2022): 105–13. http://dx.doi.org/10.37936/ecti-eec.2022201.246110.

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This paper proposes the frequency control technique using a half-bridge resonance inverter for hot tensile testing in induction heating. The technique involves power regulation, high frequency pulse, frequency adjustment, and pulse generator controller based on the dsPIC33FJ16GS404 chip IC. Significantly, the inverter is controlled by two sections. Throughout the heating cycle, the first controller retains the inverter's operating frequency slightly above the resonant frequency, while the second keeps the phase angle of the current and voltage output in check to control the output power at a level suitable for changes in the tensile parameter workpieces. As a result, the inverter improves the efficiency of the prototype, which has 1.5 kW input power. Furthermore, it can heat three different sizes of steel workpieces for hot tensile testing, with diameters of approximately 3, 5, and 10 mm and lengths of approximately 50 and 70 mm, respectively.
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Dissertations / Theses on the topic "Induction half-bridge resonant inverter"

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Huang, Li-Chien, and 黃李堅. "Practical design of half-bridge series resonant inverter for inductive facility heating with PFM control strategy." Thesis, 2006. http://ndltd.ncl.edu.tw/handle/10735249245566556558.

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碩士<br>聖約翰科技大學<br>電機工程系碩士班<br>94<br>Since inductive heating facilities own superiorities such as energy-save, clean, safe, instant-heating, and controllable-in-temperature, many applications of them were in daily uses. In addition, metal-processing and local-heating industry would also apply with such kind inductive-heating technique. The purpose of this study is to design a high-power around 5000W inductive heating facility in which the system included two major parts of manufacturing of inverter and power control. A half-bridge and series-resonated inverter were adapted in its main structure and combined with features of series-resonated and snub circuit to gain fully soft switching of IGBT. The system design with the methods mentioned above benefited with not only decreasing noise during switching of IGBT but also avoiding surpassing the safe-operating range of IGBT. As to power control, the resonated frequency would shift not only according to different loads that was caused by making of different materials but also the changing of electric features of loads resulting from temperature-rising during heating process. So if we wanted to stably control power of heating facility, we must adjust operating frequency dynamically. Therefore, Pulse Frequency Modulation (PFM) technique was adapted in this system, in addition, a closed-loop control was designed to trace and control the power of system.
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Chen, Kuo-Yang, and 陳國揚. "Applying Asymmetrical Half-Bridge LCC Resonant Inverter to EEFL Lighting Ballast." Thesis, 2010. http://ndltd.ncl.edu.tw/handle/39859301848553474449.

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碩士<br>國立臺北科技大學<br>電力電子產業研發碩士專班<br>99<br>In this thesis, an asymmetric half-bridge LCC resonant inverter is presented, which is the kernel of the proposed lighting ballast that is used to drive the an external electronic fluorescent lamp (EEFL). Such a lighting ballast contains three power stages. The first power stage is constructed by a boost converter with power factor correction (PFC), and such a the converter is operated in the transient mode (TM) with the DC output voltage 390V. The second power stage is built up by a buck converter which uses a pulse-width-modulation (PWM) control integrated circuit (IC) to control the duty cycle such that the corresponding output voltage can be changed and hence dimming of the EEFL can be achieved. The third power stage is established by an asymmetric half-bridge LCC resonant inverter. Via LCC resonant, the power switches of this inverter are operated in zero voltage switching (ZVS) to reduce the switching loss, and at the same time, the inherent high voltage conversion characteristics make the voltage conversion gain be high than one such that the turn ratio of transformer can be reduced. In this paper, only the third stage is simulated based on IsSpice. Via the primary and secondary leakage inductances of the transformer along with one external series capacitance, the LCC resonant are simulated under open-loop control. The simulated results must guarantee to the power switches with ZVS turn-on and the high voltage conversion gain. After this, one asymmetric half-bridge LCC resonant inverter is carried out based on the designed transformer. Accordingly, the measured and simulated results are verified alternately. Furthermore, this inverter is reduced to an equivalent non-isolated circuit, and hence the corresponding transfer function can be obtained. Based on such a transfer function, the effect of resonant parameters and switching frequency on the voltage gain can be known. Finally, the inverter, together with the other two power stages, is used to drive and dim EEFL.
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You, Li-Chang, and 游立昌. "The Implementation of Half-Bridge Inverter for Induction Heating System." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/02835666528135959075.

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碩士<br>東南科技大學<br>電機工程研究所<br>103<br>This paper implemented a half-bridge series resonant inverter for induction heating system. Silicon-controlled rectifiers (SCR) are used as switches in the main circuit, and the ZCS soft-switching mode of zero current is implemented to reduce switching losses. The DSPIC33FJ64GS608 32-bit DSP microprocessor, manufactured by Microchip Co., is used as controller. Output power adjusting is achieved by shifting the interval of the gate trigger pulse in every cycle. With this method, switching losses are reduced compared to frequency modulation switching method where switching losses increase temperature stress on SCR leading to breakdown on switching devices. Experimental results show that the proposed circuit topology has the merits of reducing switching losses, easy to implement and control.
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Tian, Jian Petzoldt Jürgen. "Variable frequency asimmetrical PWM for half-bridge resonant induction cookers /." 2008. http://www.gbv.de/dms/ilmenau/toc/558940358.PDF.

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Book chapters on the topic "Induction half-bridge resonant inverter"

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Jeong, Gang-Youl. "A Novel Half-Bridge Resonant Inverter for CCFL-Driving." In Communications in Computer and Information Science. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-27180-9_3.

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Booma, Nagarajan, Sathi Rama Reddy, and Vishnuram Pradeep. "Simulation of PWM Controlled Double Half Bridge Inverter for Partly Coupled Induction Cooking System." In Lecture Notes in Electrical Engineering. Springer India, 2014. http://dx.doi.org/10.1007/978-81-322-2119-7_24.

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Bhaumik, Kallol, Avik Datta, and Pradip Kumar Sadhu. "Effect and Utilization of Leakage Inductance on the Performance of Multi-zone and Multi-load Half-Bridge Inverter Based Induction Heating System." In Lecture Notes in Electrical Engineering. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5089-8_5.

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Sapra, Upasana, Aiswarya Sakthivel, X. Shobana Macdalin, and S. Siva Ranjini. "Solar-Powered Improved Full Bridge Resonant Inverter for High-Frequency Industrial Applications." In Recent Trends in Intensive Computing. IOS Press, 2021. http://dx.doi.org/10.3233/apc210296.

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Electrical energy consumption is alarmingly rising, but the availability of conventional sources is limited. To meet the increasing demand; the implementation of non-conventional sources is the need of the hour. Solar energy is the most sustainable alternative for power generation among non-conventional sources families. Resonant inverters are used in low-power high-frequency induction heating appliances. Full-bridge resonant inverters are most commonly used to convert solar received power into the suitable form required for high-frequency application device by providing maximum power to the load at resonant frequency The aim of the paper is to analyze the working of the resonant inverter by taking the input supply from the solar panel and converting the obtained dc input to ac input through the resonant inverter. This obtained output is supplied for the high-frequency industrial application which mainly includes Induction frequency heating Applications. Induction heating is one of the techniques used in casting foundry for the treatment of metals. It involves the heat treatment of the metals namely annealing, hardening tempering method. goes here.
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Conference papers on the topic "Induction half-bridge resonant inverter"

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Sankar, Manikandan, Simon Podendorf, Klaus F. Hoffmann, and Stefan Dickmann. "An EMC-Investigation on Dead Time Distortion of SiC Based Half Bridge LLC Resonant Inverter." In 2024 International Symposium on Electromagnetic Compatibility – EMC Europe. IEEE, 2024. http://dx.doi.org/10.1109/emceurope59828.2024.10722598.

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Sanajit, N., and A. Jangwanitlert. "A series-resonant half-bridge inverter for induction-iron appliances." In 2011 IEEE Ninth International Conference on Power Electronics and Drive Systems (PEDS 2011). IEEE, 2011. http://dx.doi.org/10.1109/peds.2011.6147222.

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Tawdee, Phanom. "An induction furnace employing with half bridge series resonant inverter." In 2014 11th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON). IEEE, 2014. http://dx.doi.org/10.1109/ecticon.2014.6839871.

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Phadungthin, R., and J. Haema. "Application study on induction heating using half bridge LLC resonant inverter." In 2017 12th IEEE Conference on Industrial Electronics and Applications (ICIEA). IEEE, 2017. http://dx.doi.org/10.1109/iciea.2017.8283090.

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Avellaned, J., C. Bernal, A. Otin, P. Molina, and J. M. Burdio. "Half-bridge resonant inverter with SiC cascode applied to domestic induction heating." In 2013 IEEE Applied Power Electronics Conference and Exposition - APEC 2013. IEEE, 2013. http://dx.doi.org/10.1109/apec.2013.6520196.

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Klaidaeng, Chaisak, Saichol Chudjuarjeen, Chanida Pomsen, Porntip Rinnasak, Pinit Boonla, and Anusak Kaewmueng. "An Induction Heater Using Half Bridge Resonant Inverter for Coffee Bean Roaster." In 2024 12th International Electrical Engineering Congress (iEECON). IEEE, 2024. http://dx.doi.org/10.1109/ieecon60677.2024.10537864.

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Alessio Beato. "Modelling and design of the half-bridge resonant inverter for induction cooking application." In 2006 14th Mediterranean Conference on Control and Automation. IEEE, 2006. http://dx.doi.org/10.1109/med.2006.235056.

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Beato, Alessio, Cesare Bocchiola, and Stefano Frattesi. "Modelling and design of the half-bridge resonant inverter for induction cooking application." In 2006 14th Mediterranean Conference on Control and Automation. IEEE, 2006. http://dx.doi.org/10.1109/med.2006.328704.

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Bernal, C., P. Molina Gaudo, A. Gallego, A. Otin, and J. M. Burdio. "Half-bridge resonant inverter for domestic induction heating based on silicon carbide technology." In 2012 IEEE Applied Power Electronics Conference and Exposition - APEC 2012. IEEE, 2012. http://dx.doi.org/10.1109/apec.2012.6166130.

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Dominguez, A., L. A. Barragan, A. Otin, J. I. Artigas, I. Urriza, and D. Navarro. "Small-signal model of dual half-bridge series resonant inverter sharing resonant capacitor for domestic induction heating." In IECON 2014 - 40th Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2014. http://dx.doi.org/10.1109/iecon.2014.7048981.

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