Your search keyword '"Emilio Carfagna"' showing total 5 results

1. Effect of Semiconductor Parasitic Capacitances on Ground Leakage Current in Three-Phase Current Source Inverters

Author

Emilio Carfagna, Giampaolo Buticchi, Emilio Lorenzani, Fabio Immovilli, and Giovanni Migliazza

Subjects

Technology, Control and Optimization, Parasitic capacitance, parasitic capacitance, Common mode, Energy Engineering and Power Technology, ground leakage current, Topology (electrical circuits), Inductor, common mode, current source inverter, photovoltaic, Electric power system, Hardware_INTEGRATEDCIRCUITS, Electrical and Electronic Engineering, Current source inverter, Engineering (miscellaneous), Ground leakage current, Photovoltaic, Physics, Renewable Energy, Sustainability and the Environment, business.industry, Electrical engineering, Current source, Three-phase, Harmonics, Equivalent circuit, business, Energy (miscellaneous)

Abstract

This paper investigates the influence of power semiconductor parasitic components on the ground leakage current in the three-phase Current Source Inverter topology, in the literature called H7 or CSI7. This topology allows reducing converter conduction losses with respect to the classic CSI, but at the same time makes the topology more susceptible to the parasitic capacitances of the semiconductors devices. In the present work, a grid-connected converter for photovoltaic power systems is considered as a case study, to investigate the equivalent circuit for ground leakage current. The same analysis can be extended to applications regarding electric drives, since the HF model of electric machines is characterized by stray capacitance between windings and the stator slots/motor frame. Simulation results proved the correctness of the proposed simplified common-mode circuit and highlighted the need of an additional common-mode inductor filter in case of resonance frequencies of the common-mode circuit close to harmonics of the power converter switching frequency. Experimental results are in agreement with the theoretical analysis.

Published

2021

2. Assessment of Master-Slave and Droop Control Strategies in Multi-Three-Phase Drives

Author

D. Benatti, Fabio Immovilli, Emilio Lorenzani, C. Alosa, and Emilio Carfagna

Subjects

Distributed control, Fault-tolerance, Multi-phase, business.industry, Computer science, 020209 energy, Reliability (computer networking), 020208 electrical & electronic engineering, Control (management), Control engineering, Fault tolerance, Master/slave, 02 engineering and technology, Modular design, Field (computer science), Microcontroller, 0202 electrical engineering, electronic engineering, information engineering, Voltage droop, business

Abstract

Multi-phase electric drives can be employed in a great variety of applications. Their advantage in terms of fault-tolerance capability is becoming the focus of the work of many research activities, especially in the field of transportation electrification. The main topic is to create redundant and modular multi-three-phase drives to increase the overall system reliability and fault-tolerance. To this aim, distributed control architectures have been assessed. In this paper, a centralized master-slave control is compared against a distributed droop control architecture, in order to identify advantages and drawbacks. Both of the control strategies are applied to a double three-phase drive. The aim of the work is to assess whether the droop control architecture can be a valid alternative to a centralized master-slave control in terms of performances, but with the additional benefit of having a proper full redundant fault-tolerant application.

Published

2021

3. Extended Speed Range Control for a Current Source Inverter Variable Speed Drive

Author

Emilio Carfagna, Giampaolo Buticchi, Emilio Lorenzani, Giovanni Migliazza, and Fabio Immovilli

Subjects

business.industry, Computer science, Hybrid Solution, Electrical engineering, Topology (electrical circuits), Current Source Inverter, Extended Speed Range, High Speed Machine, PMSM, Motor drive, Variable (computer science), Range (aeronautics), Electronics, Voltage source, Current (fluid), business, Aerospace

Abstract

Voltage Source Inverters (VSIs) are usually adopted for high-speed motor drive applications due to the topology simplicity and the wide availability of control strategies for this topology. An alternative is the Current Source Inverter (CSI) which allows to achieve high speed range with limited DC voltage due to its intrinsic boost capability, and this is of interest in aerospace applications or electrical vehicles (EV), but a pre-stage is necessary to control the DC input current. In this work an hybrid solution is proposed to extend the speed range of a single stage CSI (i.e. CSI without pre-stage) driving a Permanent Magnet Synchronous Machine (PMSM). In fact using a single stage CSI with DC current control, the machine cannot work properly in low speed region, so the control is composed by two different strategies: one is proposed in this work for low speed operations and the other one is already known for high speed.

Published

2021

4. PLL-Based Sensorless Control for Single-Stage Current Source Inverter in Motor Drive Application

Author

Giovanni Migliazza, He Zhang, Giampaolo Buticchi, Emilio Lorenzani, Zhixiang Zou, Emilio Carfagna, and Zeyuan Xu

Subjects

Electric motor, PLL, Computer science, business.industry, Electrical engineering, Topology (electrical circuits), Current Source Inverter, Current source, Inductor, Motor drive, Sensorless Control, Voltage source, business, Synchronous motor, Voltage

Abstract

The Current Source Inverters (CSIs) are an alternative to Voltage Source Inverters (VSIs) for electric motor applications. Despite the advantageous characteristics of intrinsic voltage boost capability, absence of electrolytic capacitors and reduced machine voltage stress, the increased component count and the need of a pre-stage for the inductor current control have limited the adoption. For some applications which have to operate always above a base speed (e.g. pumps, actuators, fans), single-stage CSI converter with improved efficiencies have been proposed. Owing to the advantage of the direct measurement of the terminal voltage, a simple and robust sensorless control is proposed for a single-stage CSI converter. Simulations on a SiC-based CSI7 converter driving a Permanent Magnet Synchronous Machine (PMSM) confirm the validity of the proposed control, potentially paving the way to a larger adoption of the CSI7 topology for motor drive application.

Published

2021

5. Ground Leakage Current in Three-Phase Current Source Inverters Depending on Power Semiconductors Parasitic Capacitances

Author

Fabio Bernardi, Emilio Carfagna, Giovanni Migliazza, and Emilio Lorenzani

Subjects

Physics, business.industry, 05 social sciences, Photovoltaic system, Electrical engineering, 020207 software engineering, Topology (electrical circuits), 02 engineering and technology, Current source, law.invention, Power (physics), Capacitor, Three-phase, law, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, Power semiconductor device, Current (fluid), business, 050107 human factors

Abstract

This paper analyzes the relation between the ground leakage current and the power semiconductor parasitic components of a three-phase Current Source Inverter (CSI) topology named in literature H7 or CSI7. This topology is characterized by the presence of an additional switch which allows to reduce conduction power losses and decouple the DC side from the AC side during the application of the Zero current Vector to reduce ground leakage current. This work deals with the significant variation of this current depending on power converter parasitic capacitors. In this work the analysis is applied to grid-connected converters for a string photovoltaic applications, even if the behavior is the same also in case of electrical drives. The analysis is assessed by numerical simulations and experimental results with different parasitic capacitances that confirm also the validity of the proposed equivalent common-mode circuit.

Published

2020