Author: "Ioinovici, Adrian" / Publication Type: Academic Journals - Searchworks@Jio Institute Digital Library Search Results

1. Model predictive control of microgrids – An overview

Author: Hu, Jiefeng, Shan, Yinghao, Guerrero, Josep M., Ioinovici, Adrian, Chan, Ka Wing, and Rodriguez, Jose
Published: 2021
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2. Variable structure modeling and design of switched-capacitor converters

Author: Tan, Siew-Chong, Bronstein, Svetlana, Nur, Moshe, Lai, Y.M., Ioinovici, Adrian, and Tse, Chi K.
Subjects: Capacitors -- Design and construction, Feedback control systems -- Design and construction, Circuit design -- Research, Pulse-duration modulation -- Methods, Circuit designer, Integrated circuit design, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Published: 2009

3. A ZCS current-fed full-bridge PWM converter with self-adaptable soft-switching snubber energy

Author: Wang, Huai, Sun, Qian, Chung, Henry Shu Hung, Tapuchi, Saad, and Ioinovici, Adrian
Subjects: Switching circuits -- Electric properties, Electric current converters -- Electric properties, Electric current converter, Business, Electronics, Electronics and electrical industries
Abstract: A new soft-switched, current-driven full-bridge converter is presented. The structure utilizes a simple snubber formed by two unidirectional switches and a capacitor to realize soft-switching operation over a wide line and load range. All primary-side switches are operated with zero-current switching (ZCS) and the snubber switches are operated with zero-voltage switching. The energy used for soft-switching is self-adaptable. For a given input current, the snubber capacitor is charged to the minimum required energy for ZCS of the switches. Thus, less resonant energy is used and the conduction loss can be kept minimal. The cyclical switching operation and control of the converter will be discussed. By compromising the voltage stress on the switches and loss of duty cycle (i.e., the regulation range), an optimized design procedure of the circuit elements is derived. The input voltage range and load variation that ensure both output voltage regulation and soft switching are determined. By studying the small-signal characteristics of the entire system, a current-controlled feedback control circuit has been implemented with a DSP. The experimental results measured on a 5-kW, 530-V/15-kV prototype confirms the advantages of the proposed converter. Index Terms--Adaptable soft switching, dc--dc conversion, high-voltage converter, zero-current switching (ZCS).
Published: 2009

4. A high-voltage ZVZCS dc-dc converter with low voltage stress

Author: Song, Ting-Ting, Wang, Huai, Chung, Henry Shu-Hung, Tapuhi, Saad, and Ioinovici, Adrian
Subjects: Electric current converters -- Design and construction, Voltage -- Measurement, Voltage -- Control, Power electronics -- Research, Electric current converter, Business, Electronics, Electronics and electrical industries
Abstract: A high-voltage zero-voltage-zero-current-switched dc-dc converter with low voltage stress is presented in this paper. Its circuit structure is extended from a previously developed zero-voltage-switched dc-dc converter consisting of six series-connected switching devices, one three-phase transformer, and an output current tripler. The voltage stress on each switching device is only one-third of the input voltage. Compared with the previous converter, apart from retaining the advantage of having low voltage stresses on the switches, the main advancements of the proposed converter have also included 1) wider soft-switching range; 2) elimination of circulating energy on the primary side during the freewheeling stage; and 3) use of phase-shift pulsewidth modulation in output voltage control. Detailed topological operations and steady-state characteristics of the converter will be given. A 2.2-kW, 990-V/110-V dc-dc converter prototype has been built and tested. Experimental results are favorably compared with the theoretical predictions. Index Terms--DC-DC conversion, high-voltage converter, soft-switching converters.
Published: 2008

5. Switched-capacitor/switched-inductor structures for getting transformerless hybrid dc-dc PWM converters

Author: Axelrod, Boris, Berkovich, Yefim, and Ioinovici, Adrian
Subjects: Electric current converters -- Design and construction, Inductors -- Design and construction, Capacitors -- Design and construction, Pulse-duration modulation -- Equipment and supplies, Circuit design -- Research, Electric current converter, Circuit designer, Integrated circuit design, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A few simple switching structures, formed by either two capacitors and two-three diodes (C-switching), or two inductors and two-three diodes (L-switching) are proposed. These structures can be of two types: 'step-down' and 'step-up.' These blocks are inserted in classical converters: buck, boost, buck-boost, Cuk, Zeta, Sepic. The 'step-down' C- or L-switching structures can be combined with the buck, buck-boost, Cuk, Zeta, Sepic converters in order to get a step-down function. When the active switch of the converter is on, the inductors in the L-switching blocks are charged in series or the capacitors in the C-switching blocks are discharged in parallel. When the active switch is off, the inductors in the L-switching blocks are discharged in parallel or the capacitors in the C-switching blocks are charged in series. The 'step-up' C- or L-switching structures are combined with the boost, buck-boost, Cuk, Zeta, Sepic converters, to get a step-up function. The steady-state analysis of the new hybrid converters allows for determing their dc line-to-output voltage ratio. The gain formula shows that the hybrid converters are able to reduce/increase the line voltage more times than the original, classical converters. The proposed hybrid converters contain the same number of elements as the quadratic converters. Their performances (dc gain, voltage and current stresses on the active switch and diodes, currents through the inductors) are compared to those of the available quadratic converters. The superiority of the new, hybrid converters is mainly based on less energy in the magnetic field, leading to saving in the size and cost of the inductors, and less current stresses in the switching elements, leading to smaller conduction losses. Experimental results confirm the theoretical analysis. Index Terms--DC-DC hybrid converter, switched capacitor, switched inductor, steady-state analysis.
Published: 2008

6. A high-voltage dc-dc converter with vin/3--voltage stress on the primary switches

Author: Song, Ting-Ting, Chung, Henry Shu-Hung, and Ioinovici, Adrian
Subjects: Electric current converters -- Design and construction, Electric currents -- Control, Electric current converter, Business, Electronics, Electronics and electrical industries
Abstract: A high-voltage dc-dc converter with low voltage stress on the power switches and high output current capacity is presented. This converter exhibits three distinct features. First, the voltage stress on the primary switches is only one-third of the input voltage, so that switches of low voltage rating and thus of low on-resistance can be used. This leads to reduced conduction loss. Second, all the switches are soft-switched, so that the switching loss can be reduced. Third, the rectifier is a current tripler, so that the output current capacity, and thus the power handling capacity of the converter are increased. A 5.1-kW, 1000-V/48-V dc-dc converter prototype has been built and tested. Experimental results are favorably compared with theoretical predictions. Index Terms--DC-DC conversion, high-voltage converter, high load current converter.
Published: 2007

7. A zero-voltage and zero-current switching three-level dc-dc converter with reduced rectifier voltage stress and soft-switching-oriented optimized design

Author: Song, Ting Ting, Huang, Nianci, and Ioinovici, Adrian
Subjects: Electric current converters -- Research, Pulse-duration modulation -- Research, Electric current converter, Business, Electronics, Electronics and electrical industries
Abstract: A novel zero-voltage zero-current switching (ZVZCS) three-level converter with pulsewidth modulation (PWM) phase-shift control is proposed. The ZCS of the lagging switch is obtained by using a regenerative passive snubber in the secondary. In order to reduce the voltage stress on the rectifier's diodes, a few passive elements are inserted into the primary: a small inductance, two diodes, and a small additional winding of the main transformer. In each half-cycle, one of these diodes will conduct for a short time in order to clamp the voltage of the snubber's capacitor, and thus, the rectifier stress, at ([n.sub.2]/[n.sub.1])([V.sub.in]/2), [n.sub.1], and [n.sub.2] being the transformer's primary and, respectively, secondary turns number. The three-level configuration allows for the reduction of the voltage stress across the power switches to half of the input voltage [V.sub.in]. The conditions for assuring ZVS of the leading switch and ZCS of the lagging switch are found. Design constraints on the parallel capacitances of the switches of the leading switch, on the snubber's holding capacitor, and on the additional inductance and winding are hence established, allowing for an optimized design of the converter parameters. A dc analysis allows for the calculation of the effective duty cycle, which enjoys a boost effect due to the proposed snubber. Thus, a further reduction of the primary current stress and rectifier voltage stress is obtained. All the improvements conclude in a high efficiency. The influence of the choice of the parameters' values on the regulation capability is pointed out. Experiments on a prototype of 4.5 kW confirm the results. Index Terms--Pulsewidth modulation (PWM), three-level converter, zero-voltage zero-current switching (ZVZCS).
Published: 2006

8. Small-signal modeling and dynamic analysis of a novel ZVZCS three-level converter

Author: Bai, Sanzhong, Huang, Nianci, and Ioinovici, Adrian
Subjects: Transfer functions -- Analysis, Time-domain analysis -- Methods, Transients (Dynamics) -- Analysis, Switching theory -- Analysis, Electric current converters -- Design and construction, Electric current converter, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: The cyclically switching operation of a novel zero-voltage-zero-current-switching three-level converter is briefly presented. Based on a steady-state time-domain analysis of each equivalent switching topology, an average model is obtained. Small-signal open-loop ac line-to-output, control-to- output, and output-current-to-output-voltage transfer functions are deducted. The stability, gain margin, and phase margin of the open-loop transfer functions are studied. After designing the closed loop, the study of the audiosusceptibility and closed-loop output impedance allows for a dynamic analysis: the transient responses to changes in the input voltage and load current are obtained. The results got from the small-signal modeling are compared and confirmed by those obtained by PSPICE simulation and those measured in the laboratory, on an experimental converter of 4.5 kW. Index Terms--Converters, modeling, simulation, transfer-functions, transient-response.
Published: 2006

9. A cascade boost-switched-capacitor-converter--two level inverter with an optimized multilevel output waveform

Author: Axelrod, Boris, Berkovich, Yefim, and Ioinovici, Adrian
Subjects: Circuit components -- Production management, Electric current converters -- Production management, Semiconductor device, Electric current converter, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: Two structures, a switched-capacitor (SC)-based boost converter and a two-level inverter, are connected in cascade. The dc multilevel voltage of the first stage becomes the input voltage of the classical inverter, resulting in a staircase waveform for the inverter output voltage. Such a multilevel waveform is close to a sinusoid; its harmonics content can be reduced by multiplying the stage number of the SC converter. The output low-pass filter, customary after a two-level inverter, becomes obsolete, resulting in a small size of the system, as the SC circuit can be miniaturized. Both stages are operated at a high switching frequency, resulting in a high-frequency inverter output, as required by some industrial applications. A Fourier analysis of the output waveform is performed. The design is optimized with reference to the nominal duty-cycle for obtaining the minimum total harmonic distortion. Simulations and experiments on two prototypes, one with a five-level output and one with a seven-level output, confirm the theoretical analysis. Index Terms--Boost converter, multilevel output waveform inverter, small-signal analysis, switched capacitor (SC).
Published: 2005

10. A family of zero-voltage and zero-current-switching (ZVZCS) three-level DC--DC converters with secondary-assisted regenerative passive snubber

Author: Song, TingTing, Huang, Nianci, and Ioinovici, Adrian
Subjects: Electric current converters -- Analysis, Electric current converter, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A detailed analysis and optimized-oriented design of a family of three-level soft-switching converters is presented. The zero-voltage-switching (ZVS) of the outer switches and zero-current-switching (ZCS) of the inner switches is realized by employing a pulse-width-modulation (PWM) phase-shift control and a secondary-assisted passive snubber. The switching operation is discussed by comparing the results produced by the use of different passive snubbers (the author's original one and literature-available ones). The voltage on the rectifier diodes is clamped at a reasonable value, specific to each one of the six snubbers taken into consideration. The voltage stress on each transistor is reduced to half of the input voltage. Lower rated transistors and rectifier diodes can be used, thus reducing the conduction losses. Before turning on/off the inner switches, the snubber's capacitor voltage determines the fall of the primary current to zero, thus avoiding wasteful energy circulation and assuring ZCS. The snubber's energy is recuperated to the load. The outcome of these improvements is a high efficiency in energy processing. Soft-switching-oriented constraints on the converter parameters are expressed as implicit equations, whose graphical solution permits the optimized design of the parameters in order to ensure ZVZCS. A comparative analysis of the effective duty cycle and the boost effect of it, due to the use of the secondary snubber, is performed. The influence of the choices of the parameters values on the regulation capability is pointed out. Experimental results prove the expected high performances of the optimized converters. Index Terms--Regenerative passive snubber, three-level (TL) converters, zero-voltage zero-current-switching (ZVZCS) converters.
Published: 2005

11. Step-up switching-mode converter with high voltage gain using a switched-capacitor circuit

Author: Abutbul, Oded, Gherlitz, Amir, Berkovich, Yefim, and Ioinovici, Adrian
Subjects: Electric current converters -- Research, Electric current converter, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A new circuit is proposed for a steep step-up of the line voltage. It integrates a switched-capacitor (SC) circuit within a boost converter. An SC circuit can achieve any voltage ratio, allowing for a boost of the input voltage to high values. It is unregulated to allow for a very high efficiency. The boost stage has a regulation purpose. It can operate at a relatively low duty cycle, thus avoiding diode-reverse recovery problems. The new circuit is not a cascade interconnection of the two power stages; their operation is integrated. The simplicity and robustness of the solution, the possibility of getting higher voltage ratios than cascading boost converters, without using transformers with all their problems, and the good overall efficiency are the benefits of the proposed converter. Index Terms--Pulsewidth-modulated (PWM) dc-dc converter, step-up switching converter, switch capacitor.
Published: 2003

12. Generalized structure of bi-directional switched-capacitor DC/DC converters

Author: Chung, Henry Shu-hung, Ioinovici, Adrian, and Cheung, Wai-Leung
Subjects: Electric current converters -- Research, Electric current converter, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: This paper presents a generalized circuit structure of bi-directional switched-capacitor dc/dc converters that feature voltage step-down, voltage step-up, and bi-directional power flow. The starting point is the derivation of two structures of single-capacitor bi-directional converter cells. Current control scheme is applied in the capacitor-charging phase, resulting in a near-constant capacitor charging current and low electromagnetic interference. A converter string is then formulated by cascading a number of converter cells, in order to meet the input and output voltage requirements and conversion efficiency. By paralleling two similar strings and operating them in the anti phase, the overall converter input current becomes continuous. A reduced-order modeling and state-space averaging technique are used to study the static and dynamic behavior of the converter. The theoretical conversion efficiency in the step-down and step-up mode, respectively, is investigated for different voltage-conversion ratios and numbers of stages. The performance of the proposed structure is experimentally verified on a 5-V/12-V prototype. Index Terms--DC-DC conversion, power electronics, switched-capacitor (SC) circuits.
Published: 2003

13. Large-signal stability-oriented design of boost regulators based on a Lyapunov criterion with nonlinear integral

Author: Berkovich, Yefim and Ioinovici, Adrian
Subjects: Pulse-duration modulation -- Research, Liapunov functions -- Analysis, Stability -- Analysis, Signal detection (Electronics) -- Methods, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: Exact nonlinear differential equations of boost pulsewidth modulation converters (either with hard-switching or soft-switching, in continuous and discontinuous conduction mode) are obtained, without using average approximations. An extended system of equations also contains the differential equation of the integrated error between the reference and the output voltage. A positive-definite Lyapunov function is defined, including in its expression a nonlinear integral of type Lurie. Sufficient conditions for the Lyapunov stability of the system are determined. Consequently, constraints on the feedback circuit parameters that assure the large-signal stability of the system are formulated. These constraints relate the parameters of the feedback circuit with the values of the power stage elements, load, switching frequency, steady-state duty-cycle. For different values of the steady-state duty-cycle, graphical boundaries which assure the large-signal stability for all the variation of the load are designed. Simulations and experiments confirm the stability of the design. Index Terms--Boost regulator, large-signal stability, Lyapunov stability.
Published: 2002

14. Zero-voltage transition converter with high efficiency operating at constant switching frequency

Author: Wei, Huai and Ioinovici, Adrian
Subjects: Electric current converters -- Research, Modulation (Electronics) -- Research, Switching circuits -- Research, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A new type of zero-voltage-transition pulsewidth modulation (PWM) dc-dc converter is developed by adding two active switches and three diodes to the structure of a quasi-resonant converter. The resonant capacitors are not discrete elements, their role is played by the parasitic capacitances of the MOSFET's. By adjusting the interval between the operation of the active switches, a duty-cycle control is obtained. Soft-switching is ensured for all switches for a wide line range and load range. One of the additional diodes is connected in the input circuit and the energy flow in the resonant stage is transferred from a path defined by the two additional transistors to a path given by the two additional diodes in the resonant tank; as a result, the resonant capacitor voltage is prevented from surpassing the input voltage; it drops to zero before the main switch is turned on. All switches are subjected to voltage and current stresses as those in their PWM classical counterparts, implying small conduction losses. The new converter exhibits a high efficiency and good regulation capability.
Published: 1998

15. Switched-capacitor inverter with high power density and enhanced regulation capability

Author: Mak, On-cheong and Ioinovici, Adrian
Subjects: Electric inverters -- Analysis, Switched capacitor circuits -- Analysis, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A dc-ac inverter containing no inductors or transformers is presented. The role of the magnetic devices is played by a switched-capacitor (SC) circuit, formed by two subcircuits. Each SC-subcircuit contains 15 basic cells, each one formed by one capacitor, two MOSFET's and two diodes. The sinusoidal output waveform is realized in a staircase, formed by 64 steps. To achieve each step, the inverter operates like a step-up dc-dc converter: by using a certain number of SC-cells, the input voltage is boosted to the voltage required by the step in consideration. Each step is implemented in a large number of switching cycles. In each cycle, the inverter goes through four phases; according to a designed switching sequence, some of the capacitors of the SC-cells involved in the respective step are in a charging process from line, while the others are in a discharging process to the load. The phases 2 and 4 have a regulation role only. A duty-cycle control is used. A Fourier analysis evidences the clean ac output waveform. The inverter exhibits low weight, high power density, and enhanced regulation for large changes in line and load. Index Terms - DC-AC switching-mode inverter, duty-cycle regulation, switched-capacitor circuit.
Published: 1998

16. Design of feedback gain vector of two-state basic PWM multifeedback regulators for large-signal stability

Author: Chung, Henry and Ioinovici, Adrian
Subjects: Feedback (Electronics) -- Research, Pulse-duration modulation -- Research, Power electronics -- Research, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A method for determining boundaries on the feedback gains in a switching regulator with multiple feedback, in order to ensure stability for large changes in the load values, is developed. Using an original approach for time-domain analysis, a large-signal, nonlinear, discrete-time model of the closed-loop converter is obtained; the model's equations are expressed in disturbances of the state variables due to disturbance in the load. The first step toward a global stability design is to find the constraint that ensures local stability around the operating point: the nonlinear terms (products of disturbances) are neglected in the model, the z-transform is applied to the linearized equations, and the condition that the eigenvalues are situated inside the unit circle is imposed. The nonlinear model, including the nonlinearity of the pulsewidth modulation (PWM), due to possible saturation, is then considered. A new constraint in terms of feedback gains is found in order to ensure that one and only one real equilibrium point (i.e., the quiescent operating point) exists. Putting together the constraints, boundaries on the feedback gains are found. The method is developed for converters containing two reactive elements, operating in continuous conduction mode. An example of a boost converter with inductor current and output voltage feedback is presented in detail. The large-signal stability of the design is checked by using the state-plane portrait and time-domain simulation. Index Terms - Large signal stability design, modeling technique, power electronics.
Published: 1997

17. PWM converter with low stresses and zero capacitive turn-on losses

Author: Divakar, B.P. and Ioinovici, Adrian
Subjects: Pulse-duration modulation -- Research, Frequency converters -- Research, Switching circuits -- Research, Aerospace and defense industries, Business, Computers, Electronics, Electronics and electrical industries
Abstract: A buck converter operating at constant switching frequency, whose active switches and recovery diode commutate at zero-voltage-switching (ZVS), with zero capacitive turn-on losses, is proposed. By using the parasitic capacitances of the switches as resonant capacitors, multiresonance is created. The resonant stage takes place only after the resonant inductor has been discharged, thus avoiding a resonant current peak; the devices are subjected to the same stresses as their counterparts in conventional hard-switching converters. A high efficiency is obtained.
Published: 1997

18. DC-to-DC converter with no magnetic elements and enhanced regulation

Author: Zhu, Guangyong and Ioinovici, Adrian
Subjects: Electric current converters -- Research, Switched capacitor circuits -- Research, Aerospace and defense industries, Business, Computers, Electronics, Electronics and electrical industries
Abstract: A switched-capacitor-based (SC) step-up dc converter is proposed. It contains no inductors and transformers, thus it can be realized in small size, exhibiting low weight and high power density. Two switched-capacitor circuits, operating in antiphase in each half-cycle, are used to control the energy flow from an unregulated voltage source to a regulated output. The capacitors are charged and discharged according to a designed sequence. To enhance the line and load regulation capability, in each half-cycle, each charging interval is split into two subintervals, which are followed by noncharging subintervals whose duration is dictated by the pulsewidth modulation (PWM) feedback circuit. The new converter is advantageous for applications in which significant line drops are likely to occur.
Published: 1997

19. Switching-mode DC-DC converter with switched-capacitor-based resonant circuit

Author: Chen, Jun and Ioinovici, Adrian
Subjects: Electric current converters -- Research, Switched capacitor circuits -- Research, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A soft-switching dc-dc converter, in which the resonant capacitor is replaced by a switched-capacitor circuit, is presented. The new system incorporates a switching technique at zero-current or zero-voltage for each switch and an operation at constant switching frequency. The first feature is due to the presence of a resonant circuit, which shapes the switches' current and voltage waveforms in a sinusoidal form. It assures minimal switching losses. The switched-capacitor circuit determines a simple, discrete control, extends the region in which the soft-switching condition is fulfilled to large values of the load or small values of the input voltage, and prevents the current stress on the electronic devices from increasing with the input voltage. An original design approach allows for choosing the element values so as to get both soft-switching and regulation over a large range of input voltage and load values. Analysis, computer simulation and experiments indicate the operation principles of the new structure and render evident its performances, such as high efficiency and good regulation capability.
Published: 1996

20. Step-up DC power supply based on a switched-capacitor circuit

Author: Mak, On-Cheong, Wong, Yue-Chung, and Ioinovici, Adrian
Subjects: Electric current converters -- Design and construction, Power supply (Electronics) -- Design and construction, Switched capacitor circuits -- Usage, Business, Computers, Electronics, Electronics and electrical industries
Abstract: A new step-up dc-to-dc converter with high power density is presented. It contains no inductors or transformers. The controlled energy transfer from an unregulated voltage source to a regulated output voltage is realized through a switched-capacitor (SC) circuit. The operation of the switches in the power stage is dictated by a PWM-type feedback circuit. The new regulator is simulated by using an averaged state-space approach. The transient and steady-state waveforms, as well as the ac small-signal input-to-output and control-to-output transfer functions are obtained by both simulation and experiments. The power supply, implemented for a nominal power of 15 W, and input-to-output voltage ratio of 5/12, features high efficiency for this class of powers, small output voltage ripple, continuous input current, low weight and small size.
Published: 1995

21. Fast computer-aided simulation of switching power regulators based on progressive analysis of the switches' state

Author: Chung, Henry Shu-hung and Ioinovici, Adrian
Subjects: Voltage regulators -- Research, Switching circuits -- Analysis, Time-domain analysis -- Usage, Business, Electronics, Electronics and electrical industries
Abstract: A new method for time-domain analysis of power electronics circuits is developed based on the following principles: a) at each instant, the switching topology is a linear time-invariant circuit; b) at each instant, the voltage across a capacitor and the current through an inductor have a certain value, like an independent voltage- or current source, respectively; c) generally, no switching relationship between the externally and internally controlled switches may be assumed; d) prior knowledge of the internally controlled switches' operation is not available; and e) the switching action may change the response of the circuit immediately after the switching moment, implying that some constraints may be in violation of the presumed switches' states. The algorithm is based on solving a system of algebraical modified nodal equations at each integration step. The number of systems to be solved equals the number of topologies the converter goes through in a cycle. This feature, and the fact that no solutions of time-differential equations or Laplace transform inverses are required, cause the algorithm to be a fast one. At each step, the presumed state of all the switches is checked, and if some constraints are violated, the program looks for another valid topology. An example, with parasitic effects taken into account, is presented; the experimental results, as well as the simulation results obtained by using other available algorithms, confirmed the accuracy of the results achieved with the presented approach.
Published: 1994

22. Review of Contactless Energy Transfer Concept Applied to Inductive Power Transfer Systems in Electric Vehicles.

Author: Razek, Adel, Ioinovici, Adrian, Andrade, António M. S. S., He, Liangzong, and Barzegarkhoo, Reza
Subjects: ELECTRIC power systems, ENERGY transfer, ELECTRICAL energy, ELECTROMAGNETIC compatibility, CLEAN energy
Abstract: Nowadays the groundbreaking tools of contactless energy transfer reveals new opportunities to supply portable devices with electrical energy by eliminating cables and connectors. One of the important applications of such technology is the energy providing to electric and hybrid vehicles, (EV) and (HEV). These contribute to the use of cleaner energy to protect our environment. In the present paper, after exposing the contactless energy transfer (CET) available systems, we examine the appropriateness of these systems for EV. After such exploration, it is shown that the most suitable solution is the inductive power transfer (IPT) issue. We analyze such procedure in general and indicate its main usages. Next, we consider the practice of IPT in EV and the different option in the energy managing in EV and HEV concerning battery charging. Following, we review the modes of using the IPT in immobile case and in on-road running. Following, the modeling issues for the IPT system escorting the vehicle structure are then exposed. Lastly, the electromagnetic compatibility (EMC) and human exposure analyses are assessed involving typical appliance. [ABSTRACT FROM AUTHOR]
Published: 2021
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23. Guest editorial

Author: Ioinovici, Adrian, Martinez-Salamero, Luis, and Vlach, Jiri
Subjects: Switching circuits -- Analysis, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: The field of switched networks continues to grow rapidly due to advances in semiconductor technology. Switching is employed in designs ranging from microwatts to high switching speeds, and in almost all fields of electronics. Problems in the analysis and design of switching circuits are complex and cannot just be solved by traditional methods based on s-domain closed-form transfer functions. Factors such as nonlinearities and parasitics have to be addressed.
Published: 1997

24. Describing Functions of Power Electronics Circuits Using Progressive Analysis of Circuit Waveforms

Author: Chung, Henry S.-H., Ioinovici, Adrian, and Zhang, J.
Subjects: Circuit switching -- Research, Power electronics -- Research, Switching circuits -- Research, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: This paper presents a technique for calculating the ac line-to-output and control-to-output transfer characteristics of dc/dc converters, in which the time instants switching from one topology to the next one are a priori unknown and are determined by threshold conditions (i.e., by the time evolution of the converter waveforms). Describing functions are defined for small perturbations in either the input voltage or the control signal. After injecting a sinusoidal perturbation at the frequency of interest into the converter, the fundamental component of the output spectrum is determined. The describing functions are thus evaluated and provide the required ac transfer characteristics. The proposed method is integrated with a previously developed time-domain simulation algorithm, which is based on monitoring the switches positions, allowing the simulator to find automatically the switching instants and topological sequence of operation. Different examples are illustrated, including a classical pulse-width-modulated (PWM) converter, a current-programmed PWM regulator, and a switched-capacitor converter. The simulated results are compared with the experimental measurements and the results in the available literature. Index Terms--Circuit simulation, power electronics, switching circuits.
Published: 2000

25. High Efficient PWM Zero-Voltage-Transition Boost Converter: AC Small Signal Analysis

Author: Berkovich, Yefim and Ioinovici, Adrian
Subjects: Electric current converters -- Design and construction, Circuit design -- Analysis, Signal processing -- Analysis, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: A dc-dc boost converter operating under zero-voltage-transition conditions is presented. Its excellent performance deserves a detailed analysis. An equivalent circuit is derived in order to characterize the switching sequence. It contains an equivalent current source and an equivalent voltage source whose nonlinear functions take different forms for each switching topology. The small-signal open-loop and closed-loop transfer functions, including the audio susceptibility are derived. Design-oriented stability criteria are formulated. The theoretical time-domain response and Bode characteristics are checked by experiments or PSPICE simulation. Index Terms--PWM boost converter, small-signal analysis, zero-voltage switching.
Published: 2000

26. Guest Editorial:Applications of Predictive Control in Microgrids.

Author: Hu, Jiefeng, Ioinovici, Adrian, and Guerrero, Josep M.
Subjects: *HYBRID power systems, *MICROGRIDS, *RENEWABLE energy sources, *POWER electronics, *AC DC transformers, *INDUSTRIAL electronics, *DYNAMIC positioning systems
Abstract: An introduction is presented in which the guest editors discuss the theme of the issue, Applications of Predictive Control in Micro grids.
Published: 2020
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27. Comments on 'unified analysis of switched-capacitor resonant converters'

Author: Ioinovici, Adrian, Chung, Henry S.H., Makowski, Marek S., and Tse, Chi K.
Subjects: Voltage -- Control, Industrial electronics -- Research, Electric current converters -- Design and construction, Electric current converters -- Energy use, Electric current converter, Business, Computers, Electronics, Electronics and electrical industries
Abstract: The realization of line and load regulation in switched-capacitor (SC)-based converters is discussed. A duty-cycle control is based on partial charging of the capacitors in the circuit. The influence on the efficiency is pointed out. The use of inductors in SC-based converters is discussed. Index Terms--Efficiency, switched-capacitor (SC) converter, voltage regulation.
Published: 2007

28. Special Issue "Renewable and Sustainable Energy Conversion Systems".

Author: Ioinovici, Adrian
Subjects: ENERGY conversion, RENEWABLE energy sources, MICROGRIDS, ELECTRIC power systems, GEOTHERMAL resources, ENERGY storage
Abstract: In the current quest for new energy sources, green, environmentally friendly energy has taken a preponderant role. Finally, a subject related to the modern, increasingly utilized, environmentally clean, non-polluting electric and hybrid vehicles is discussed in [[6]]: an inductive power transfer procedure is used for charging the batteries of such vehicles, thus eliminating cables and connectors. The battery-charging mode in stationary parking requires the use of a relatively simple inductive power transfer method, with just the need of position adjustment for efficient transfer. [Extracted from the article]
Published: 2022
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29. Generation of the Large DC Gain Step-Up Nonisolated Converters in Conjunction With Renewable Energy Sources Starting From a Proposed Geometric Structure.

Author: Li, Kerui, Hu, Yafei, and Ioinovici, Adrian
Subjects: ELECTRIC potential, CASCADE converters, ELECTRIC current converters, ELECTRIC currents, RENEWABLE energy sources
Abstract: A very simple geometric structure whose branches can be filled by inductors, capacitors, diodes, short-circuits, or open-circuits is proposed. It serves for generating large dc gain-purposed switching cells by making different choices of the type of component on each branch. The switching cells are integrated in basic converters. It is shown that almost all the high dc gain nonisolated converters based on switched-capacitor-inductor cells proposed in the last years, regardless of their complexity, can be derived through this method. From the same geometric structure, new high dc gain boosting converters can be derived in a systematic manner. The available and the new converters in each class as defined by the number of reactive components are compared in terms of their performance: dc gain, semiconductor elements count, voltage and current stress on transistors and diodes, character of the input current, easiness of the transistor driving, and easiness of the control as determined by common/uncommon line-load ground, power stage efficiency. This comparison allows us to choose the optimal solution for each specific application in conjunction with the green sources of energy, multisource microgrids, electric vehicles, data and communications systems, and so on. The geometric structure is generalized in different ways, allowing for the development of ultrahigh dc gain converters. One of the proposed generalized ultrahigh dc gain converters is fully analyzed and built in the laboratory, with the experimental results verifying the theoretical analysis. [ABSTRACT FROM AUTHOR]
Published: 2017
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30. A ZCS-PWM Voltage-Driven Three-Level Converter With a Secondary-Side Simple Soft-Switching Snubber.

Author: Yin, Zhijian, Hu, Jiefeng, Shu-hung Chung, Henry, and Ioinovici, Adrian
Subjects: PULSE width modulation transformers, ZERO current switching, ELECTRIC inductors, ELECTRIC inductance, CAPACITORS, CAPACITOR banks
Abstract: A very simple, low component count snubber is used in order to get ZCS for all the switches of a three-level voltage step-down converter. ZCS allows for the implementation of the switches with insulated-gate bipolar transistor which are able to withstand large input voltages at large power. The snubber is placed in the secondary-side, before the rectifier. The transformer leakage inductance is used in the ZCS-purposed resonant process, eliminating thus the need for an additional resonant inductor. All the resonant circuit energy is recuperated to the load. No voltage stresses appear on the switches, and the current stress is limited in a tradeoff components design. The proposed solution allows for a boost of the effective duty cycle. As a result, the proposed converter operates with a high efficiency. [ABSTRACT FROM AUTHOR]
Published: 2016
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31. Comments on 'design and analysis of switched-capacitor-based step-up resonant converters'

Author: Ioinovici, Adrian, Tse, Chi K., and Chung, Henry Shu-Hung
Subjects: Electric current converters -- Research, Motor vehicles -- Equipment and supplies, Motor vehicles -- Research, Electric current converter, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract: With reference to a recently published paper, the realization of line and load regulation in switched-capacitor-based converters is discussed. We point out that achieving zero-current switching at the expense of losing line and load regulation is not practically feasible.
Published: 2006

32. Phase-Shift Interleaving Control of Variable-Phase Switched-Capacitor Converters.

Author: Kiratipongvoot, Sitthisak, Tan, Siew-Chong, and Ioinovici, Adrian
Subjects: CONVERTERS (Electronics), ELECTRIC power conversion, CAPACITORS, CODING theory, ELECTROMAGNETIC interference
Abstract: This paper proposes a phase-shift interleaving control method for variable-phase switched-capacitor (SC) converters that can perform voltage conversions with little electromagnetic interference over a wide range of operating condition. This is achieved by having multiple units of SC converter connected in parallel and an N-state hysteresis unit selection control scheme which works along the interleaving control to vary the number of converters in operation. By having the capacitors of inactive units connected to the output and the converters operating with output interleaving operation, the output capacitor that is typically required in SC converters for maintaining a small voltage ripple is made redundant in this configuration. A three-unit SC converter of the proposed configuration is described in this paper. Experimental results show that the proposed solution works satisfactorily with good regulation, input and output interleaving operations, and dynamic response for a wide operating range. [ABSTRACT FROM PUBLISHER]
Published: 2013
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33. On Energy Efficiency of Switched-Capacitor Converters.

Author: Cheung, Chun-Kit, Tan, Siew-Chong, Tse, Chi K., and Ioinovici, Adrian
Subjects: ENERGY consumption, SWITCHED capacitor circuits, CASCADE converters, METAL oxide semiconductor field-effect transistors, ELECTRIC discharges, ELECTRIC resistors, ENERGY dissipation
Abstract: The energy-efficiency issue of switched-capacitor converters is still a controversial topic that requires a more in-depth discussion. In this paper, we address the issue by dividing the analysis of the entire efficiency problem into two parts. In the first part, the efficiency of a capacitor-charging RC circuit under different aspects (partial charging, full charging, at zero capacitor voltage, at nonzero capacitor voltage, etc.) will be conducted. The efficiency analysis of a capacitor-discharging RC circuit with a resistor, capacitor, and paralleled resistor–capacitor loads will be covered. A complete evaluation of the overall efficiency is then performed in terms of both the charging and discharging efficiencies. Based on the analysis, some design rules useful for developing high-efficiency switched-capacitor converters is suggested. Additionally, it is shown that the belief that quasi-switched-capacitor converters are more lossy than switched-capacitor converters is a common misconception. [ABSTRACT FROM AUTHOR]
Published: 2013
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34. A New Concept of High-Voltage DC–DC Conversion Using Asymmetric Voltage Distribution on the Switch Pairs and Hybrid ZVS–ZCS Scheme.

Author: Huai Wang, Chung, Henry Shu-Hung, and Ioinovici, Adrian
Subjects: HIGH voltages, DC-to-DC converters, HYBRID power systems, METAL oxide semiconductor field-effect transistors, INSULATED gate bipolar transistors, ZERO current switching, ELECTRICAL load
Abstract: A new concept of high-voltage dc-dc power conversion is presented in this paper. Its distinctive feature lies in distributing the high input voltage asymmetrically between two primary-side series-connected switch pairs. This allows using switches of optimal ratings in their respective class: the low-voltage switch pair implemented with MOSFETs only, and the high-voltage switch pair implemented with insulated gate bipolar transistors (IGBTs) only. As the switches in a switch pair are of the same type and voltage rating, they are maximally utilized. With an active snubber on the secondary side of the isolation transformer, a hybrid zero-voltage-switching-zero-current-switching (ZCS) scheme, which is different from the zero-voltage and zero-current-switching technique, is realized and makes all IGBTs be zero-current-switched and all MOSFETs be zero-voltage-switched from very light load to full load condition with minimal circulating energy. The ZCS snubber energy is completely released to the load, leading also to a duty-cycle gain. The operating principles, dc analysis, and design guidelines will be given. A 2-kW, 1500/48-V experimental prototype has been built and evaluated. The measured efficiency of the converter is found to be 92.4% at the rated condition. [ABSTRACT FROM AUTHOR]
Published: 2012
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35. A Class of High-Input Low-Output Voltage Single-Step Converters with Low Voltage Stress on the Primary-Side Switches and High Output Current Capacity.

Author: Wang, Huai, Chung, Henry Shu-Hung, and Ioinovici, Adrian
Subjects: CASCADE converters, LOW voltage systems, SWITCHING circuits, ELECTRIC capacity, METAL oxide semiconductor field-effect transistors, ELECTRIC inductors, DIRECT currents, ELECTRIC current rectifiers
Abstract: Power conversion from an input voltage of several kilovolts to a low load voltage is of great significance in various applications, but poses serious challenges. In this paper, a new converter, which is able to realize such a large step-down conversion in a single step, is proposed by introducing a novel concept of dc–dc multiphase conversion and n-phase interleaving rectification. The proposed structure is formed by n switch pairs in the primary side, an n-phase isolation transformer with the primary windings connected to dc blocking capacitors, and an n-phase current multiplier in the output side. The switching patterns applied to the switch pairs have a phase difference of 360^\circ \mathord\left/ \vphantom 360^\circ n \right. \kern-\nulldelimiterspace n, and the output inductor currents are interleaved correspondingly, making necessary a smaller output filter. For a V_i input voltage and I_o load current, the converter features V_i/n voltage stress on the primary-side switches, and I_o/n current stress on the secondary-side inductors and diodes. Thus, the magnetic size of the inductors is considerable reduced. The primary-side switches are commutated with zero-voltage-switching (ZVS). Therefore, rather than using insulated-gate bipolar transistors (IGBTs) or MOSFETs with higher voltage ratings, the most available, notable performing 500/600 V MOSFETs can be used in the proposed converter with several kilovolts supply voltage, allowing for a higher operation frequency and lower conduction losses. Compared with an input-series–output-parallel (ISOP) connection of full-bridge (FB) isolated converters, for the same voltage stress on the switches, the proposed converter requires half of the number of transistors and inherently balances the input voltage among the switch pairs. The switching mechanism of a typical switch pair in the kth interval T_s/n of a switching cycle is analyzed. A dc analysis was carried out to determine the dc conversion ratio and the ZVS conditions in an analytical form. It allows for a tradeoff design of the converter, such that to minimize the duty-cycle loss and maximize the ZVS load range. A 1500/48-V, 2-kW prototype with four switch pairs was designed, implemented, and evaluated. The experimental results prove the soft switching of the switches, the low voltage stress across the primary-side switches, and the low current flowing through the rectifier's diodes and inductors. The efficiency measured at nominal power rating was 90.75%. [ABSTRACT FROM AUTHOR]
Published: 2011
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36. Adaptive Mixed On-Time and Switching Frequency Control of a System of Interleaved Switched-Capacitor Converters.

Author: Tan, Siew-Chong, Kiratipongvoot, Sitthisak, Bronstein, Svetlana, Ioinovici, Adrian, Lai, Y. M., and Tse, Chi K.
Subjects: SWITCHED capacitor circuits, DC-to-DC converters, ELECTRIC current converters, VOLTAGE regulators, ELECTRICAL load, ELECTRIC transients, ELECTROMAGNETIC interference, ADAPTIVE control systems
Abstract: The switched-capacitor (SC) converters are ideal switching-mode power supplies for consumer portable electronic devices due to their nature of being light weight, small size, and high-power density. However, they suffer from a discontinuous input-current waveform with large di/dt, which leads to significant electromagnetic interference emission. This paper proposes a configuration of SC converters connected in parallel, with their inputs and outputs interleaved and adaptively controlled. The interleaving operation is performed by using an original type of control in which both the capacitors’ charging time TON and switching frequency are adjusted to get the line and load regulation. It is shown that, for a given range of variation of the supply voltage and load, there always exists a solution [TON, TS] that assures both output-voltage regulation and perfect interleaving. Experimental results are provided to validate the feasibility of the proposed scheme. Precise interleaving, and good line and load regulation are maintained for all the designated range, including the transient periods. [ABSTRACT FROM PUBLISHER]
Published: 2011
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37. A ZCS Full-Bridge Converter Without Voltage Overstress on the Switches.

Author: Xin Zhang, Henry Shu-hung Chung, Xinbo Ruan, and Ioinovici, Adrian
Subjects: ELECTRONIC circuit design, SYNCHRONOUS capacitors, ELECTRIC circuits, ELECTRIC switchgear, SHOCK absorbers
Abstract: A new current-driven soft-switched full-bridge converter is presented in this paper. By connecting a switchedcapacitor snubber in parallel with the primary winding of the coupling transformer, all main switches are zero-current-switched (ZCS) and the switches in the snubber are zero-voltage-switched (ZVS). The proposed converter has the following key features. First, the transformer leakage inductance is utilized as a part of the resonant circuit for the soft-switching actions. Second, the snubber capacitor voltage is adaptively controlled: the capacitor is charged to the minimum necessary energy for switching the main switches at zero current, depending on the actual value of the input/load current. Thus, less resonant energy is circulated. Third, there is no extra voltage stress on the switches and the current through the switches is limited to the value of the input current. Consequently, the conduction losses are kept minimum. The cyclical switching operation and control of the converter are described. A tradeoff design of the snubber circuit is given: the requirement of reducing the duration of the resonant intervals for minimizing the dutycycle loss is superimposed on the requirement of getting ZCS for a very large range of the line voltage and load. A 530-V/15-kV, 5-kW prototype has been built and evaluated. The experimental results confirmed the theoretical predictions. A comparative study on the converter efficiency with and without the proposed snubber circuit is given, showing the superiority of the proposed solution. [ABSTRACT FROM AUTHOR]
Published: 2010
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38. A ZCS Current-Fed Full-Bridge PWM Converter With Self-Adaptable Soft-Switching Snubber Energy.

Author: Huai Wang, Qian Sun, Henry Shu Hung Chung, Tapuchi, Saad, and Ioinovici, Adrian
Subjects: PULSE width modulation, ELECTRIC current converters, SWITCHING circuits, ELECTRONIC circuits, ELECTRIC circuits, PULSE modulation, POWER electronics
Abstract: A new soft-switched, current-driven full-bridge converter is presented. The structure utilizes a simple snubber formed by two unidirectional switches and a capacitor to realize soft-switching operation over a wide line and load range. All primary-side switches are operated with zero-current switching (ZCS) and the snubber switches are operated with zero-voltage switching. The energy used for soft-switching is self-adaptable. For a given input current, the snubber capacitor is charged to the minimum required energy for ZCS of the switches. Thus, less resonant energy is used and the conduction loss can be kept minimal. The cyclical switching operation and control of the converter will be discussed. By compromising the voltage stress on the switches and loss of duty cycle (i.e., the regulation range), an optimized design procedure of the circuit elements is derived. The input voltage range and load variation that ensure both output voltage regulation and soft switching are determined. By studying the small-signal characteristics of the entire system, a current-controlled feedback control circuit has been implemented with a DSP. The experimental results measured on a 5-kW, 530-V/15-kV prototype confirms the advantages of the proposed converter. [ABSTRACT FROM AUTHOR]
Published: 2009
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39. Computer-aided analysis of boost-buck converter in optimal topology.

Author: Ioinovici, Adrian
Subjects: *DC-to-DC converters, *ELECTRIC transients, *ALGORITHMS, *ELECTRIC inductors, *ELECTRIC resistance
Abstract: An exact algorithm for computing the transient response and the steady-state of DC-to-DC converters containing three reactive elements is proposed. The procedure is 'top-down' and automatable; it starts from a general, symbolic formulation and works down to the actual circuit. The method is applied to the analysis of the boost-buck converter operating in both continuous and discontinuous conduction modes. The basic circuit considered for the boost-buck converter contains mutual coupling between the input and output inductors, DC resistances of the inductors and on-resistance of the switching elements, but no load capacitor. The influence of the mutual inductance on the currents ripple is studied. The results are compared with the response, computed using a numerical method, of the boostbuck converter containing a load capacitor. [ABSTRACT FROM AUTHOR]
Published: 1988
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40. Design-oriented analysis of common switching DC to DC converters.

Author: Ioinovici, Adrian and Shenkman, Arie
Subjects: *DIRECT current circuits, *ELECTRIC switchgear
Abstract: A general, computer-aided analysis of power electronic circuit dynamics is proposed. An automatic generation of dynamic models from a circuit specification is the starting point for a symbolic, automatable, exact, ‘top-down’ procedure, that contrasts with circuit-specific analyses. The algorithm is suitable for analysing any converter containing two reactive elements, covering the common switching power stages: buck, boost, buck-boost converters. The method is illustrated by application to the computation of the transient response of a boost converter; the computer results are compared with those obtained by applying the ‘state space averaging’ method and with laboratory results. [ABSTRACT FROM AUTHOR]
Published: 1987
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41. Optimal design of a switching boost regulator in discontinuous conduction mode.

Author: Ioinovici, Adrian
Subjects: *ELECTRICAL conductors, *CASCADE converters
Abstract: A state-space averaging description of a non-linear boost converter, operating in the discontinuous conduction mode, is used to obtain the ‘equivalent’ duty ratio to output voltage, respectively line voltage to output voltage transfer functions. The coefficients of both of them may vary within some intervals due to the variation of the converter parameter values. Feedback compensators of a switching regulator in which the converter is incorporated are designed such as (a) the start-up transient response lies within imposed specifications despite parameter values and load variation, and (b) the output voltage is kept constant regardless of any variation of input voltage. [ABSTRACT FROM AUTHOR]
Published: 1987
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42. Design of a speed regulator electronic system for a DC motor fed from a semi converter supply.

Author: Ioinovici, Adrian and Shenkman, Arie
Subjects: *ELECTRONIC feedback, *ELECTRONIC circuits, *CASCADE converters
Abstract: A feedback system for controlling the speed of a separately excited DC motor supplied from a 3-phase semi-converter circuit is presented. The electronic feedback structure is designed to assure that, in the starting transient state, the motor speed climbs from zero to its steady-state value within specified ‘customer’ bounds. This has to be achieved despite random variations in the characteristics of the supply voltage, of the motor and of the converter, and despite uncertain values of the load, keeping at the same time the starting current peak below a dangerous level. When feedback is applied, the system becomes highly non-linear; but owing to its quantitative approach, the design algorithm uses no small-signal linearizations. [ABSTRACT FROM AUTHOR]
Published: 1986

43. Switched-capacitor inverter with high power density and enhanced regulation capability.

Author: Ioinovici, Adrian and Mak, On-cheong
Subjects: *ELECTRIC inverters, *ELECTRIC circuits
Abstract: Presents a study which examined the high power density and regulation capacity of a switch-capacitor inverter as part of an electric circuit. Increase in demand for alternating current power supplies; Principles of the proposed switched-capacitor inverter; Operation of the switched-capacitor circuit.
Published: 1998

44. Computer-aided analysis of power electronic circuits by stepwise topological identification.

Author: Chung, Henry S. H., Tse, K. K., and Ioinovici, Adrian
Subjects: POWER electronics, ELECTRONIC circuits, SIMULATION methods & models, TOPOLOGY, ELECTRONICS
Abstract: A new approach for the time-domain simulation of power electronic circuits is developed. The methodology is based on stepwise identification of circuit topology. The simulation process automatically looks for a valid topology in every step. At each simulation instant, the circuit topology is transformed into a resistive network, giving another superior feature of this method: the avoidance of solving complicated s-domain or differential formulas. No small-signal approximation is assumed. Parasitic resistance of the reactive element is included in the circuit model. Several examples illustrating the generality and computational efficiency of this new method are presented. The simulated results are favourably verified with experimental measurements and available literature. © 1997 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]
Published: 1997
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