Showing total 329 results

1. Prediction of residual breakdown electrical field strength of epoxy-mica paper insulation systems for the stator winding of large generators.

Author

Tanaka, Kiyoteru, Kojima, Hiroaki, Onoda, Mitsuru, and Suzuki, Keiji

Subjects

*ELECTRIC generators, *DIELECTRIC breakdown, *ELECTRIC field strength, *ELECTRIC insulators & insulation, *ELECTRIC potential, *PARTIAL discharges

Abstract

A method of predicting the residual breakdown electrical field strength of an epoxy-mica paper insulation system is described. This method was developed by using data on service?aged stator bars from generators as well as accelerated aging model bars. Thermal aging, mechanical aging, and combined thermal and mechanical aging were done individually as accelerated aging. The partial discharge characteristics, dissipation factor, and breakdown voltage were measured on the model bars and service?aged bars from generators. From these results, the residual breakdown electrical field strength was predicted based on the partial discharge characteristics and dissipation factor. First, the dominant type of deterioration (thermal or mechanical aging) on a bar?s insulation was determined by the pattern of voltage?partial discharge magnitude characteristics. Then the residual breakdown electrical field strength was predicted by using a predicting equation for both thermal and mechanical aging. Each predicting equation uses dissipation factor tip-up (i.e. difference in dissipation factor values between 2 kV and rated voltage) and partial discharge inception electrical field strength. The accuracy of this method was confirmed using data measured on 112 service-aged stator bars from generators and 10 accelerated aged model bars. The 95% confidence interval level included 94% of the measured residual breakdown electrical field strength values. This result shows that the method enables precise predictions of the residual breakdown electrical field strength of an epoxy-mica paper insulation system. [ABSTRACT FROM AUTHOR]

Published

2015

2. Partial discharges in a cavity embedded in oil-impregnated paper: effect of electrical and thermal aging.

Author

Niasar, M., Taylor, N., Janus, P., Wang, X., Edin, H., and Kiiza, R.

Subjects

*PARTIAL discharges, *POWER transformers, *BROADBAND dielectric spectroscopy, *ELECTRIC potential, *BREAKDOWN voltage, *ELECTRIC fields

Abstract

In this paper, the rapid aging due to Partial Discharge (PD) activity was investigated in unaged and thermally aged oil-impregnated paper with a disk-shaped cavity between the sheets of paper. The PD inception voltage and the voltage for instantaneous breakdown were measured, and the time to breakdown was measured by applying voltages less than the instantaneous breakdown voltage. A comparison between time to breakdown of unaged and thermally aged paper shows no significant difference between thermally aged and unaged paper at sustaining PD activity. The time to breakdown as a function of applied electric field was plotted and compared for both cases showing points scattered around a line in log-log scale. Changes of the PD parameters, such as PD magnitude and PD repetition rate were analyzed from the beginning of PD activity up to the moment of breakdown. The results show that the number and magnitude of PD increase at the beginning of aging until they reach to a maximum value, then both quantities decrease slowly over time until the final puncture breakdown occurs. The results emphasize the importance of PD monitoring on real equipment with oil-impregnated paper as insulation system, such as power transformers, since a focus on the number and magnitude of PD at just the present time may mislead the interpretation. Dielectric spectroscopy measurements performed on unaged and thermally aged paper showed an increasing trend of ε" after the sheets of paper were exposed to thermal aging for longer time. Dielectric spectroscopy measurements performed on samples before and after exposure to PD activity showed a big change of ε", This change can be attributed to byproducts and ions produced by PD activity. [ABSTRACT FROM AUTHOR]

Published

2015

3. On the Measurement of Surface Voltage of Insulators and Bushings.

Author

Thomas, Ajith John, C, Iyyappan, and Reddy, Chandupatla

Subjects

*ELECTRIC potential measurement, *VOLTAGE dividers, *BUSHINGS, *FLASHOVER, *SIMULATION software, *GEOMETRIC surfaces

Abstract

The surface voltage of an insulator assumes importance for understanding tracking and flashover characteristics. Until now, determination of surface voltage of insulating surfaces is left to simulation software and such simulations are left unverified experimentally, leading to uncertainty of the results, which may sometimes be erratic with improper choice of boundary or initial conditions or inaccurate material properties, nonlinearities etc. The paper presents a novel method, using which the surface voltage of any insulating surface such as insulator strings or transformer bushings can be measured. Unlike a conducting surface, the measurement of insulating surface voltage using voltage dividers would be erratic as the measuring arrangement itself will vary the voltage division due to the local unknown impedance between the insulated surface and hv conductor. Recently a method for measurement of surface voltage of an insulated conductor using cylindrical strips was reported. In this paper, based on analytical derivations, a more generalized method of measurement, applicable to any point on an insulating surface of arbitrary geometry is proposed using circular-disc strips. The proposed experimental method is applied to insulator strings and transformer bushings and validated by simulation of the entire systems. The simulation and experimental results are in excellent agreement. [ABSTRACT FROM AUTHOR]

Published

2022

4. Hierarchical Cooperative Control Strategy for Battery Storage System in Islanded DC Microgrid.

Author

Zeng, Yuji, Zhang, Qinjin, Liu, Yancheng, Zhuang, Xuzhou, and Guo, Haohao

Subjects

*MICROGRIDS, *BATTERY storage plants, *DISTRIBUTED algorithms, *ELECTRIC potential, *TELECOMMUNICATION systems, *PROBLEM solving, *REACTIVE power

Abstract

This paper presents a novel hierarchical cooperative control strategy to solve the problems of unbalanced State of Charge (SoC), unreasonable load current sharing, and unstable bus voltage for battery storage system (BSS) in islanded DC microgrid. In the communication layer, a neighbor-to-neighbor communication network architecture is constructed in which each battery storage unit (BSU) only communicates information with neighboring nodes, and a multi-agent consensus algorithm is used to iteratively estimate the relevant average global variables. In the main control layer, the droop coefficient is dynamically adjusted by constructing a fast SoC convergence function to ensure that the load current is reasonably distributed based on the rated capacity of each BSU. In the secondary control layer, a virtual voltage drop equalization controller and an average bus voltage compensation controller are designed to eliminate the impact of line impedance mismatch and compensate the average bus voltage. Furthermore, an optimized factor is designed to accelerate the later stage of SoC convergence. Finally, a DC microgrid experimental platform based on StarSim HIL is built, and the results demonstrate that the proposed strategy can achieve the control objectives of fast SoC balance, proportional load current sharing, and bus voltage stability. [ABSTRACT FROM AUTHOR]

Published

2022

5. Observation of Induced Voltage at the Terminal of 10 kV Distribution Line by Nearby Triggered Lightning.

Author

Wang, Jianguo, Wang, Shoupeng, Cai, Li, Lu, Dai, Li, Quanxin, Zhou, Mi, and Fan, Yadong

Subjects

*LIGHTNING, *ELECTRIC potential, *ELECTRIC fault location

Abstract

This paper presents the induced voltage measured at the terminal of a 10 kV distribution line when triggered lightning taking place at a distance of 40 m. It is shown that the induced voltage waveforms exhibit three components including a slow increase preceding the initial negative peak, following a rapid polarity reversal and the attenuated oscillations. The waveform parameters are defined in this paper. The observed negative peak value ranges from −47.1 kV to −7.5 kV. The positive peak value ranges from 5.3 kV to 20.9 kV, and the peak to peak value ranges from 12.8 kV to 63.2 kV. The test results show that the negative peak value of the induced voltage at the terminal of distribution generated by nearby negative triggered lightning generally exceeds the positive peak value, and in some cases the negative peak value even reaches twice the positive peak value. The negative 10%-90% rise time ranges from 2.3 μs to 88.5 μs, and the average oscillation period is about 18 μs. Both negative and positive peaks of induced voltages show good linear relationship with the peaks of lightning return stroke current. [ABSTRACT FROM AUTHOR]

Published

2020

6. Noise Rejection and Detection of Partial Discharges Under Repetitive Impulse Supply Voltage.

Author

Ghosh, Riddhi, Seri, Paolo, Hebner, Robert E., and Montanari, Gian Carlo

Subjects

*PARTIAL discharges, *ELECTRONIC noise, *ELECTRIC potential, *NOISE, *ELECTROMAGNETIC noise, *ELECTROMAGNETIC pulses

Abstract

Partial discharge (PD) detection is a fundamental tool for the design and diagnosis of insulation systems, particularly organic materials that must operate throughout their life without PD. While the methods for PD measurements under sinusoidal supply voltage are well-established, the same does not hold under repetitive-pulse voltage waveforms, such as those provided by inverters. Electromagnetic noise generated by electronic switch commutation in inverters can overlap with PD pulses, making it difficult to measure, separate from noise, and identify PD. This is particularly more cumbersome when fast rise-time switches are employed. To address these issues, this paper investigates methods to detect PD pulses on enameled wires under repetitive impulsive voltages with different rise times of 60, 500, and 1000 ns, proposing techniques which allow separation of PD from noise even when they overlap in time and frequency domains. This paper employs a time-domain approach using standard deviation curve acquired from a set of measurements to discriminate PD from repetitive commutation disturbance. These techniques can be implemented to achieve unsupervised noise rejection, which would be an important goal for both offline and online PD testing. The proposed approach is validated successfully through tests carried out on a low-voltage motor. [ABSTRACT FROM AUTHOR]

Published

2020

7. 1-kV Wideband Voltage Transducer, a Novel Method for Calibration, and a Voltage Measurement Chain.

Author

Zucca, Mauro, Modarres, Mohammad, Pogliano, Umberto, and Serazio, Danilo

Subjects

*ELECTRIC potential measurement, *CALIBRATION, *IMAGING phantoms, *VOLTAGE references, *ELECTRIC potential, *VOLTAGE dividers, *TRANSDUCERS

Abstract

A new reference resistive-capacitive voltage divider is presented in this paper, operating in dc and ac from 10 to 200 kHz. The ratio error is lower than 0.1% and the phase error is lower than $400~\mu $ rad (1.375’) at 100 kHz. The divider is stable and repeatable. The scale factor (SF) and the phase error repeatability, tested in 24-h continuous measurements repeated during 15 weeks, show an SF variation lower than 80 ppm and a phase error variation lower than 20 $\mu $ rad. This allows one to define a calibration matrix of the device bringing its relative measurement uncertainty lower than $0.5 \cdot 10^{-3}$. The divider calibration has been obtained with a step-up method, which could improve traceability in many laboratories and is described in this paper. The divider can be embedded in a calibration chain to test the accuracy of voltage transducers in the measurement of the ac voltage ripple, in the presence of a significant dc component, as it occurs in many power electronic systems. The voltage calibration chain is based on the use of the reference divider and a voltage injector, the secondary of which is placed in series with a stable dc source. By means of this calibration system, one of the best commercial voltage transducers on the market has been analyzed. This paper also highlights how the proposed voltage calibration chain could be used in perspective in a phantom power system for the development of a dc plus ac power standard. [ABSTRACT FROM AUTHOR]

Published

2020

8. Measurement of Space Potential Distribution Around Overhead HVDC Transmission Lines Based on Potential Compensation on Suspended Conductor.

Author

Zhang, Bo, Xiao, Fengnv, Xu, Pengfei, Liu, Zhuoran, and He, Jinliang

Subjects

*ELECTRIC lines, *ION sources, *IDEAL sources (Electric circuits), *CORONA discharge, *ELECTRIC fields, *CURRENT density (Electromagnetism)

Abstract

An ion-flow field is very important for the design of an HVDC transmission line. Due to the space ions resulting from corona discharge, there are few practical methods to measure the space electric fields around HVDC transmission lines. In this paper, a compensation method is presented to measure the space potential in the ion-flow field. The space potential can be obtained by applying an adjustable voltage source to a suspended conductor, increasing the voltage step-by-step and measuring the current flowing through the voltage source or the ground-level ion current density under the suspended conductor. When the current is equal to zero or the ground-level ion current density is equal to that without the suspended conductor, the output voltage of the voltage source is the space potential to be measured. The paper first introduces the principle of the measurement method. Then, the feasibility of the method is testified on unipolar and bipolar reduced-scale models. Finally, the measured results are discussed and are compared with the results by the numerical method. [ABSTRACT FROM AUTHOR]

Published

2020

9. Phase Voltage Measurement for Permanent Magnet Machine Sensorless Drive Using Controller Capture Modulator.

Author

Chen, Guan-Ren and Yang, Shih-Chin

Subjects

*ELECTRIC potential measurement, *MOTOR drives (Electric motors), *PULSE width modulation transformers, *PERMANENT magnets, *ELECTRIC potential, *PULSE width modulation

Abstract

This paper improves the position sensorless drive by sensing actual machine phase voltages. A high-bandwidth phase voltage measurement is developed for pulsewidth modulation (PWM) voltage inverters. On the basis, the actual phase voltage is obtained based on the digital integration of PWM voltage using the capture modulator in existing drive microcontrollers (MCU's). Comparing to existing phase voltage measurement, no separated A/D converter and communication hardware are required because PWM pulses are directly measured using MCUs. However, for standard machines without neutral points, only line-to-line ac PWM voltages can be measured for the phase voltage reconstruction. Since the capture based on transistor-transistor logic (TTL) logics receives only digital signals, a preprocess circuit to convert ac PWM line voltages to equivalent digital signals is proposed. This paper clearly explains the voltage sensing hardware using MCU capture modulator. According to experimental results, a 150-MHz sampling rate for phase voltage measurement is achieved based on the proposed capture-based voltage measurement. Although the physical limitation of back electromotive force estimation still appears, the proposed phase voltage measurement substantially enhances the sensorless drive performance at low speed. [ABSTRACT FROM AUTHOR]

Published

2020

10. Development of a Nonintrusive True-RMS AC Voltage Measurement Probe.

Author

Shenil, P. S. and George, Boby

Subjects

*ELECTRIC potential measurement, *DIFFERENTIAL amplifiers, *ELECTRIC potential, *STATISTICAL reliability, *ELECTRIC capacity

Abstract

The design and development of a new nonintrusive-type true-rms ac voltage measurement probe are presented in this paper. The measurement circuit of the capacitively coupled nonintrusive voltage sensor is designed to provide an output that is directly proportional to the rms value of unknown ac voltage $\text{V}_{\mathrm {X}}$ , which contains the power frequency (50 or 60 Hz) component along with the typical harmonic frequency components due to nonlinear loads. This is accomplished by a specially designed autobalancing signal conditioning circuit. The existing noncontact probes are designed for a set frequency and will not provide accurate rms value of a signal that has multiple frequency components. The output is independent of the coupling capacitance between the probe electrode and the insulated wire/cable under measurement. Thus, the sensor has low sensitivity to the variation due to the probe-to-wire capacitance, good linearity (0.95%), and accuracy (0.88%) over a range of voltages (0–1000 V) tested. Various parameters that affect the performance of the probe are analyzed, quantified, and discussed in this paper. A prototype of the probe along with the proposed autobalancing circuit has been designed and developed. The prototype has been tested in detail to evaluate the accuracy, linearity, and repeatability. The results obtained established the practicality of the proposed scheme. [ABSTRACT FROM AUTHOR]

Published

2019

11. A 48 pW, 0.34 V, 0.019%/V Line Sensitivity Self-Biased Subthreshold Voltage Reference With DIBL Effect Compensation.

Author

Wang, Yuwei, Sun, Quan, Luo, Hongrui, Wang, Xiaofei, Zhang, Ruizhi, and Zhang, Hong

Subjects

*VOLTAGE references, *WAGES, *ELECTRIC power, *ELECTRIC potential, *THRESHOLD voltage

Abstract

This paper presents a self-biased subthreshold CMOS voltage reference for low-power and low-voltage applications. To achieve near-zero line sensitivity and high PSRR, a compensation structure utilizing the drain-induced-barrier-lowering (DIBL) effect is proposed to sink a supply dependent current from the output branch of a self-biased CMOS reference, which cancels the bias current’s dependence on the supply voltage due to the DIBL effect. Fabricated in a 0.18- $\mu \text{m}$ CMOS technology, the measurement results demonstrate that the proposed circuit could operate under a minimum supply voltage of 0.34 V and generate a reference voltage of 147 mV, while consuming only 48 pW power. The PSRRs measured at 1 Hz and 10 kHz are −70.6 dB and −50.2 dB, respectively. For 39 measured samples, the mean line sensitivity is 0.019%/V in a supply voltage range from 0.34 to 1.8 V, and the average temperature coefficients before and after trimming are 64.81 and 10.06 ppm/°C in 0 ~ 100 °C temperature range, respectively. The total area of the voltage reference circuit is 0.0332mm2. [ABSTRACT FROM AUTHOR]

Published

2020

12. A 0.7-V 28-nW CMOS Subthreshold Voltage and Current Reference in One Simple Circuit.

Author

Wang, Lidan and Zhan, Chenchang

Subjects

*VOLTAGE references, *THRESHOLD voltage, *POWER resources, *COMPLEMENTARY metal oxide semiconductors, *GATE array circuits, *ELECTRIC potential, *TEMPERATURE distribution

Abstract

This paper presents a low-power and high-precision voltage and current reference (VCR) in one simple circuit. The voltage reference is derived from the threshold voltage difference between an I/O (i.e., 3.3-V NMOS) and standard (i.e., 1.8-V NMOS) transistors with temperature-independent bias current, and the current reference is the voltage reference divided by a temperature-insensitive resistor. The resistor is made up by series connection of a proportional-to-absolute-temperature (PTAT) NWELL resistor and a complementary-to-absolute-temperature (CTAT) high-resistance poly resistor in series. Implemented in a standard 0.18- $\mu \text{m}$ CMOS process, the proposed VCR circuit takes an active area of only 0.055 mm2. The measured voltage and current references ($\text{V}_{\mathrm {ref}}$ and $\text{I}_{\mathrm {ref}}$) at room temperature are 368 mV and 9.77 nA, respectively. The measured average temperature coefficient (TC) of $\text{V}_{\mathrm {ref}}$ and $\text{I}_{\mathrm {ref}}$ are 43.1 ppm/°C and 149.8 ppm/°C over a temperature range of −40~125°C with one-time trimming and the variation coefficients are 0.35% and 1.6%, respectively. The measured voltage and current line sensitivities are 0.027%/V and 0.6%/V, respectively. The minimum supply voltage is 0.7 V with a total power consumption of 28 nW. The measured power supply ripple rejection (PSRR) of $\text{V}_{\mathrm {ref}}$ is −65 dB @DC and −39.4 dB at frequencies higher than 1 Hz. [ABSTRACT FROM AUTHOR]

Published

2019

13. Field-Based Evaluation of the Effects of Shunt Capacitors on the Operation of Distribution Transformers.

Author

Korunovic, Lidija M., Jovic, Aleksandar S., and Djokic, Sasa Z.

Subjects

*CAPACITORS, *ELECTRIC potential, *ELECTRIC transformers, *ELECTRIC currents, *PERFORMANCE

Abstract

This paper analyzes the effects of shunt capacitors installed on the low voltage sides of 10/0.4 kV distribution transformers on the operation of these transformers. Using the results of an extensive measurement campaign, this paper compares: real and reactive power losses, secondary-side current, and primary-side apparent power before and after the installation of transformer capacitors. The following four cases of reactive power compensation are considered and discussed: adequate, conditionally adequate, and total compensation, as well as overcompensation. The presented analysis helps to identify transformer substations where the initial compensation should be changed or adjusted, in order to improve transformers’ operational performance. Voltage dependencies of real and reactive power demands of the transformer-supplied loads are taken into account, based on the previously identified load characteristics in the considered networks as well as voltage dependence of reactive power of shunt capacitors. The result with and without including these voltage dependencies in the analysis is compared and discussed. [ABSTRACT FROM AUTHOR]

Published

2019

14. Atmospheric Pressure DBD Low-Temperature Plasma Reactor for the Treatment of Sugarcane Bagasse.

Author

Spyrou, Nicolas and Amorim, Jayr de

Subjects

*ELECTRIC potential, *ATMOSPHERIC pressure, *GLOW discharges, *NANOPARTICLES, *ELECTRIC discharges

Abstract

This paper embodies the results of experimental studies of a dielectric barrier discharge low-temperature nonequilibrium plasma reactor that runs in air and nitrogen at atmospheric-pressure conceived for surface treatment applications. A homemade reactor, of typical plane-to-plane geometry with the dielectric covering the upper electrode which is stressed by a high voltage (40 kV, 3–20 kHz) is used. Electrical signals (current and voltage), optical emission spectroscopy records, and total light emission measured by photomultiplier have been analyzed and used to distinguish different plasma regimes which are studied for the treatment of a lignocellulosic material (sugarcane bagasse). In the filamentary discharge regime, the gas temperature of few tens of degree Celsius above the ambient one was determined, the electronic temperature of some electronvolts and electron density in the range of 1012–1013 cm−3 were estimated. Plasma treated pellets of sugarcane bagasse were analyzed by diffuse reflectance infrared Fourier transform spectrometry and the relative results obtained under filamentary discharge regime have shown significant degradation of the lignin macromolecule. It has been shown important modifications on the lignocellulosic material, namely, the plasma attacks drastically the lignin bonds. Strong modification of lignin was observed near wavenumber of 3400 cm−1, due to stretching vibrations of OH, and for the band 1114 cm−1 which is related to C=C and C=O stretching. Severe decrease of the band intensity 1596 cm−1, which due to C=C stretching and C=O, is also a result of the treatments done in this paper. [ABSTRACT FROM AUTHOR]

Published

2019

15. Multifrequency Single-Phase Islanded Grids.

Author

Bruske, Sebastian, Buticchi, Giampaolo, and Liserre, Marco

Subjects

*ELECTRON tube grids, *FREQUENCY response, *ELECTRIC potential, *WAVE analysis, *SINGLE-phase alternating currents, *CONVERTERS (Electronics)

Abstract

Islanded grids operate isolated from the main grid and they allow the use of ac with a different frequency from the main grid. In this paper, it is proposed to use more than one frequency at the same time in such autonomous systems. The grid voltage amplitude at the fundamental frequency can be increased while the voltage peak is constant by adding odd harmonics to the voltage waveform. The grid currents and the power converter currents are decreased for the same power level, which leads to reduced losses in the system. The currents can be minimized if waveform shaping is additionally applied to the current waveforms. The approach also offers the possibility of mitigating the influence of low power factor in single-phase systems. This paper presents the impact of multifrequency power transfer on single-phase converters and grid components such as power cables and protection, and verifies the results with analysis, simulations, and experiments. [ABSTRACT FROM AUTHOR]

Published

2018

16. A Robust Transform-Domain Deep Convolutional Network for Voltage Dip Classification.

Author

Bagheri, Azam, Gu, Irene Y. H., Bollen, Math H. J., and Balouji, Ebrahim

Subjects

*ARTIFICIAL neural networks, *ELECTRIC power systems, *ELECTRIC potential, *DEEP learning, *ELECTRICAL engineering

Abstract

This paper proposes a novel method for voltage dip classification using deep convolutional neural networks. The main contributions of this paper include: 1) to propose a new effective deep convolutional neural network architecture for automatically learning voltage dip features, rather than extracting hand-crafted features; 2) to employ the deep learning in an effective two-dimensional (2-D) transform domain, under space-phasor model (SPM), for efficient learning of dip features; 3) to characterize voltage dips by 2-D SPM-based deep learning, which leads to voltage dip features independent of the duration and sampling frequency of dip recordings; and 4) to develop robust automatically-extracted features that are insensitive to training and test datasets measured from different countries/regions. Experiments were conducted on datasets containing about 6000 measured voltage dips spread over seven classes measured from several different countries. Results have shown good performance of the proposed method: average classification rate is about 97% and false alarm rate is about 0.50%. The test results from the proposed method are compared with the results from two existing dip classification methods. The proposed method is shown to outperform these existing methods. [ABSTRACT FROM AUTHOR]

Published

2018

17. Design and Implementation of Amorphous Magnetic Material Common Magnetic Bus for the Replacement of Common DC Bus.

Author

Islam, Md Rabiul, Muttaqi, Kashem M., Sutanto, Danny, and Zhu, Jianguo

Subjects

*MAGNETIC properties of amorphous substances, *MAGNETIC materials, *MICROGRIDS, *MAGNETIC circuits, *ELECTRIC potential, *ELECTROMAGNETIC fields

Abstract

In recent years, microgrid technologies have gained considerable interest, where a common dc-bus is generally used to interconnect multiple power sources. The existing technology of common dc bus-based direct integration of multiple sources has some critical problems, such as isolation and the requirement of additional control circuit for voltage imbalance and common mode. A common high-frequency magnetic bus (instead of the common dc bus) is proposed in this paper to overcome the limitations and complications of the existing technology of dc bus-based direct integration of multiple sources. In this paper, an extensive investigation on electromagnetic performance of advanced magnetic materials (amorphous and nanocrystalline alloys) is presented. The design process of an efficient and compact high-frequency common magnetic bus for integration of multiple power sources is also discussed. The new technology will be a fundamental component for the future grids to interconnect various sources magnetically, providing an inherent solution to voltage imbalance and isolation problems. [ABSTRACT FROM AUTHOR]

Published

2018

18. Dynamic Performance of Doubly Fed Hydroelectric Machines Under Voltage Unbalance—A Relative Electrothermomechanical Analysis.

Author

Singh, R. Raja, Selvaraj, Raghu, Mohan, Harshit, and Chelliah, Thanga Raj

Subjects

*HYDROELECTRIC generators, *ELECTRIC potential, *ELECTRIC generators, *POTENTIAL energy, *ELECTRIC power systems

Abstract

Deployment of renewable energy sources in power grid causes an undesirable characteristic in the voltage profile due to its stochastic nature. Such electrical perturbations may impact the performance of equipment or machines connected to the grid, especially large rated machines (e.g., 250 MW). This paper investigates the electrical, thermal, and mechanical stresses on large rated doubly fed synchronous (fixed speed) and doubly fed asynchronous (variable speed) machines used in pumped storage power plants under voltage unbalance. Also, the lifespan of the drive train considering thermal stress is estimated. In this paper, considering the medium voltage distribution system (15.75 kV), the magnitude of voltage unbalance is opted as 2.5% and 5% to test the performance of doubly fed machines. With respect to these considerations, the impacts on machine parameters such as rotor current, stator current, input power, torque, and losses are comprehensively investigated. To observe the performance of large rated doubly fed machine drive system under voltage unbalances, the MATLAB/Simulink environment is adopted. Also, to realize the real-time impact on doubly fed machines, a prototype rig (with 2.2-kW synchronous and asynchronous machines) are experimented. The practical significance of this relative analysis is to minimize voltage collapse in the system and for developing the robust system with countermeasures. [ABSTRACT FROM AUTHOR]

Published

2018

19. Instantaneous Phase Voltage Sensing in PWM Voltage-Source Inverters.

Author

Schubert, Michael and De Doncker, Rik W.

Subjects

*PULSE width modulation transformers, *ELECTROMECHANICAL devices, *ROTORS, *ELECTRIC potential, *POWER electronics, *ELECTRIC filters

Abstract

The output voltage of power electronic converters is a very important quantity for dynamic control of power electronic systems. In electrical drives without electromechanical position or speed sensor, the terminal reference voltage is used to obtain the rotor position. Dead-time effects and semiconductor voltage drop lead to distortion in the actual output voltage and degrade the control performance when the back electromotive force magnitude is low. Thus, for stable low-speed operation, output voltage sensing becomes necessary. Due to the switching nature of power electronic systems, this is not a trivial task, especially when instantaneous measurement of the terminal voltage is required. In this paper, an instantaneous switching-period average voltage sensing technique is proposed that utilizes a combined approach of oversampling and filtering. Based on the theoretical analysis of the sampling- and filter-induced measurement distortion, a general solution for an optimal filter design is derived. The additional sensing circuit is integrated into the low-side gate driver of the converter outputs. This paper includes details about the hardware implementation and extensive verification measurements. [ABSTRACT FROM AUTHOR]

Published

2018

20. Surface Charge Inversion Method on Cylindrical Insulators Based on Surface Potentials Measured Online.

Author

Wang, Feng, Liang, Fangwei, Chen, She, Tan, Yanghong, Zhong, Lipeng, and Sun, Qiuqin

Subjects

*SURFACE charges, *MATRIX inversion, *SURFACE potential, *ELECTROSTATIC fields, *ELECTRIC potential, *DIELECTRIC measurements, *CHARGE measurement

Abstract

In this paper, a model of the Kelvin probe is established in COMSOL Multiphysics based on electrostatic field theory, and it is verified by measuring the surface potentials. The influence of the probe is also investigated. An improved charge inversion method based on surface potentials measured online is proposed. The surface charge density is directly obtained by the Gauss's theorem to avoid the calculation of the inversion matrix. The improved method is verified by comparing the surface charge density calculated by the analytical method. When considering the effect of the probe, the maximum difference in surface charge density is 0.3 µC/m2 comparing to that when ignoring its effect, and the percentage of the difference is as high as 41%. The results indicate that the effects of the voltage of the probe under online measurement conditions must be considered. [ABSTRACT FROM AUTHOR]

Published

2021

21. A Comprehensive Study on Shaft Voltages and Bearing Currents in Rotating Machines.

Author

Plazenet, Thibaud, Boileau, Thierry, Caironi, Cyrille, and Nahid-Mobarakeh, Babak

Subjects

*BEARING currents in electric machinery, *VOLTAGE regulators, *ELECTRIC potential, *VOLTAGE control, *STRUCTURAL health monitoring, *TURBOGENERATORS, *HYDROELECTRIC generators, *FAULT diagnosis

Abstract

This paper puts into perspective the state-of-the art knowledge on bearing currents and diagnosis tools, which rely on shaft voltages and bearing currents phenomena. Today, shaft signals measurements are progressively included in predictive health monitoring of large turbo and hydro generators. In addition, bearing fault diagnosis through shaft signals have recently gained some attention to improve reliability and estimation of the remaining useful life in electrical drives. The main objective of this paper is to provide diagnosticians with a broad overview of the current trends in fault diagnosis through shaft signals. Therefore, the study presents a critical review of the measurements methods, advantages, and disadvantages of fault diagnosis methods, and suggests future possible enhancements for bearing health monitoring through shaft signals. [ABSTRACT FROM AUTHOR]

Published

2018

22. On-Load Back EMF of PMSM Using Maxwell Stress Tensor.

Author

de Paula, Geyverson T., de A. Monteiro, Jose Roberto B., de Alvarenga, Bernardo P., de Almeida, Thales E. P., Pereira, William C. A., and de Santana, Marcelo P.

Subjects

*ELECTRIC potential, *PERMANENT magnets, *ELECTROMAGNETISM, *ELECTRIC inductance, *ROTORS

Abstract

This paper is focused on the on-load back-electromotive force (EMF) assessment in a permanent magnet synchronous machine (PMSM) using Maxwell stress tensor along with the frozen permeability method (FPM). Although the back EMF is only measured at open-circuit condition, it is known that the on-load back EMF is heavily affected by electric loading and magnetic saturation. Since the main torque component of the PMSM is the mutual torque and it is based on the interaction between the back EMF and stator current, any distortion in the on-load back EMF will affect the electromagnetic torque and increase the torque ripple. A misleading on-load back-EMF waveform with some spikes around the commutation points is found if the on-load back EMF is assessed by means of differentiating the on-load PM flux linkage. This way, this paper proposes a new numerical method to assess the on-load back EMF in order to avoid all the shortcomings of the existing method. First of all, a quick review on the results achieved by other researchers is shown. Next, a review on the FPM is done in order to clarify the points where this method will be changed to overcome the drawbacks highlighted previously. Furthermore, a new method is introduced and explained in small details. Finally, the results for different rotor configurations and different electrical loads are presented in order to validate the proposed method’s accuracy against experiments and other numerical techniques. [ABSTRACT FROM AUTHOR]

Published

2018

23. On the Dominant Harmonic Source Identification?Part II: Application and Interpretation of Methods.

Author

Safargholi, Farhad, Malekian, Kaveh, and Schufft, Wolfgang

Subjects

*ELECTRICAL harmonics, *ELECTRIC potential, *ELECTRIC circuits, *ELECTRIC inverters, *ELECTRIC currents

Abstract

This two-part paper presents the review, application, and interpretation of the methods for analyzing the harmonic distortions at the point of common coupling thoroughly. In Part I, two different definitions for the dominant side are discussed regarding the equivalent harmonic “voltage” or “current” source. In addition, common methods are categorized in three general concepts based on the direction of active power flow, the reactive power, and the voltage–current ratio. These three categories as well as their validity are analytically reviewed for both the definitions. In Part II, the application of the methods is illustrated using two common calculation examples. The magnitude and the phase angle of the equivalent harmonic sources are separately varied in the first and second calculation example, respectively. The validity of the methods is investigated using these calculation examples. Afterward, the physical interpretation of the methods is addressed. The difference between the dominant sides regarding the equivalent harmonic “voltage” and “current” source is discussed using the calculation examples. It is shown that if one of the utility and customer equivalent harmonic voltage sources is “much” larger than the other, the dominant sides regarding the equivalent harmonic “voltage” and “current” source will be the same. Some practical aspects such as the tolerance of the methods to errors in input data are discussed. In this regard, nonresonance and resonance conditions are taken into account. This two-part paper provides a comprehensive but clear review of methods for identifying the dominant side. [ABSTRACT FROM AUTHOR]

Published

2018

24. Control of D-STATCOM During Unbalanced Grid Faults Based on DC Voltage Oscillations and Peak Current Limitations.

Author

Khoshooei, Arash, Moghani, Javad S., Candela, Ignacio, and Rodriguez, Pedro

Subjects

*ELECTRON tube grids, *ELECTRIC power system faults, *DIRECT currents, *ELECTRIC potential, *OSCILLATIONS

Abstract

The safe operation of grid-connected power converters during abnormal condition is a key issue in order to guarantee operation and to avoid undesired trips. In this paper, different control strategies for the operation of a D-STATCOM are introduced, where the reference currents are determined in such a way that not only will none of the phase currents go over the limits, but also the dc voltage fluctuations remain in safe operation limits. Fluctuating active power interchange during unbalanced condition leads to dc voltage oscillation. Severe unbalanced condition and small dc capacitor selection (to meet the size and cost constraints) intensify the dc voltage oscillation. Therefore, the contribution of this paper relies on the combination of the dc voltage oscillations and the current limit control. The effectiveness of three proposed control strategies is verified by simulating a D-STATCOM tied to an industrial distribution network. Moreover, a scaled scenario has been reproduced experimentally which shows that the results cope well with the analytical equations and the simulation results. [ABSTRACT FROM AUTHOR]

Published

2018

25. Search Coil Based Online Diagnostics of Transformer Internal Faults.

Author

Venikar, Prasad Arvind, Ballal, Makarand Sudhakar, Umre, Bhimrao Sitaram, and Suryawanshi, Hiralal Murlidhar

Subjects

*ELECTRIC power distribution, *ELECTRICAL engineering, *WINDING machines, *ELECTRIC potential, *ELECTRIC power system faults

Abstract

An online approach based on application of search coil for transformer winding fault detection is presented in this paper. Earlier attempts report use of search coil for the detection of transformer interturn fault. This paper extends application of search coil for detection of winding displacement in addition to interturn fault identification. Experimental results based on specially designed 10-kVA transformer are presented to analyze search coil voltages during healthy and faulty conditions. The algorithm detects phase ($U$ , $V$, $W$), side (LV, HV), and precise location of the fault. Discrimination between interturn fault and winding radial displacement is also achieved by search coil voltage analysis. The results are experimentally verified based on impedance analyzer plots. Experimental analysis indicates that the proposed method is independent of load on the transformer, vector group, nature of winding, balanced or unbalanced source voltage, source voltage harmonics, inrush, and overexcitation conditions. [ABSTRACT FROM AUTHOR]

Published

2017

26. Online Parametric Identification of Power Impedances to Improve Stability and Accuracy of Power Hardware-in-the-Loop Simulations.

Author

Riccobono, Antonino, Liegmann, Eyke, Pau, Marco, Ponci, Ferdinanda, and Monti, Antonello

Subjects

*ELECTRIC potential, *POWER (Mechanics), *BROADBAND communication systems, *DISCHARGE coefficient, *LITHIUM-ion batteries

Abstract

This paper presents the wideband system identification (WSI) technique, i.e., an online method to identify power impedances over a wide frequency range from which the corresponding parametric impedance can be calculated online as well. The WSI technique exploits an existing custom 25-kW power electronic converter on the top of its power conversion function, which serves as power amplifier of an existing power hardware-in-the-loop (PHiL) simulation setup. The PHiL simulation technique allows connecting a real device under test (DUT) with the real-time simulated rest of system (ROS) at power level. An interface algorithm (IA) on simulation side and a power amplifier (the 25-kW power electronic converter) connect ROS and DUT. This paper shows the impact of the uncertainties in the WSI chain on the accuracy of the impedance identification and highlights how the WSI technique can be combined with the damping impedance method IA to improve both accuracy and stability of the PHiL test bench. The application of the method is illustrated for the scenario of a PHiL test of a dc microgrid with a passive load. [ABSTRACT FROM PUBLISHER]

Published

2017

27. A Single-Stage Two-Switch PFC Rectifier With Wide Output Voltage Range and Automatic AC Ripple Power Decoupling.

Author

Li, Sinan, Qi, Wenlong, Tan, Siew-Chong, and Hui, S. Y. Ron

Subjects

*ELECTRIC current rectifiers, *ELECTRIC power factor, *ELECTROLYTIC capacitors, *ELECTRIC potential, *ALTERNATING currents

Abstract

Conventional single-phase power-factor-correction (PFC) rectifiers with active power decoupling capability typically require more than three active switches in their circuits. By exploring the concept of power-buffer cell, a new single-stage PFC rectifier with two active switches, one inductor and one small power-buffering capacitor is reported in this paper. The proposed converter can achieve high-power factor, wide output voltage range, and power decoupling function without using electrolytic capacitor. Additionally, an automatic power decoupling control scheme that is simple and easy to implement is proposed in this paper. The operating principle, control method, and design considerations of the proposed rectifier are also provided. A 100-W prototype with ac input voltage of 110 Vrms and a regulated dc output voltage ranging from 30 to 100 V has been successfully designed and practically tested. The experimental results show that with only a 15 μF power-buffering film capacitor, the proposed converter can achieve an input power factor of over 0.98, peak efficiency of 93.9%, and output voltage ripple of less than 3%, at 100-W output power. [ABSTRACT FROM PUBLISHER]

Published

2017

28. Estimation of \boldsymbol Pst Indicator Values on the Basis of Voltage Fluctuation Indices.

Author

Wiczynski, Grzegorz

Subjects

*ELECTRIC potential, *FLUCTUATIONS (Physics), *ELECTRIC power, *CONVERTERS (Electronics), *POWER measurement (Electricity)

Abstract

Power quality is described by voltage fluctuation measures. Voltage fluctuation is understood as “a series of voltage changes or a continuous variation of the rms or peak value of the voltage.” Voltage variation is most often manifested by flicker, which might become obnoxious at a high enough intensity. One of the standard measures of voltage fluctuation is \boldsymbol Pst indicator. One of its major flaws is its limited diagnostic capabilities. Voltage fluctuation indices are the measure, which provides much bigger range of diagnostic capabilities. However, it has not been acknowledged as a standard measure. The initial part of this paper includes the description of the accepted method of reproducing voltage variation. It also presents general characteristics of the \boldsymbol Pst indicator and voltage fluctuation indices. The next part of this paper describes the methods of converting voltage fluctuation indices into \boldsymbol Pst indicator and vice versa. The capability of estimating the \boldsymbol Pst indicator on the basis of the indices has been confirmed. Three examples of measurement results of both these measures in low-voltage (LV) power grids have been presented. These results have proved the connection between the estimated values (on the basis of voltage fluctuation indices) and the results of the \boldsymbol Pst indicator measurements. [ABSTRACT FROM AUTHOR]

Published

2017

29. Calculation of the Point-on-Wave for Voltage Dips in Three-Phase Systems.

Author

Wang, Ying, Deng, Ling-Feng, Bollen, Math H. J., and Xiao, Xian-Yong

Subjects

*DOCUMENT imaging systems, *ELECTRIC potential, *VECTOR spaces, *WIND turbines, *THRESHOLD voltage

Abstract

Point-on-wave (POW) is a single-event characteristic of voltage dips, influencing the performance of sensitive equipment, such as AC contactor and wind turbines. However, definition and calculation of POW are unsolved issues. The existing definition of POW is for single-phase dips; it does not consider three-phase dips. Moreover, existing POW calculation methods are inaccurate. This paper proposes a definition of POW as a single-event characteristic for three-phase voltage dips. Then, it proposes a POW calculation method based on space vector, including POW detection and angle calculation. The proposed method is based on the ellipse characteristics during the dip-stage and non-dip stage. The proposed method does not depend on zero crossing for angle reference. To verify the performance of the proposed method, a power-system simulation model is built to generate voltage dips with different origin. Furthermore, the accuracy of the proposed method is verified by 425 sets measured voltage dips, and compared with the published methods. [ABSTRACT FROM AUTHOR]

Published

2020

30. Multi-Infeed Voltage Interaction Factor: A Unified Measure of Inter-Inverter Interactions in Hybrid Multi-Infeed HVDC Systems.

Author

Xiao, Hao and Li, Yinhong

Subjects

*VOLTAGE control, *ELECTRIC potential, *HYBRID power systems, *PULSE width modulation transformers, *DYNAMIC simulation

Abstract

The multi infeed interaction factor (MIIF) index was introduced by CIGRE as a measure of inter-inverter interactions in multi-infeed HVDC systems, which include only line-commutated converter based HVDC (LCC–HVDC) links. The MIIF is although valid among LCCs in hybrid multi-infeed HVDC systems, but not among voltage-source converters (VSCs) as well as between LCC and VSC when the VSC operates under the constant ac voltage control mode. In this paper, a multi-infeed voltage interaction factor (MVIF) index is firstly proposed as the quantitative measure of inter-inverter interactions in hybrid multi-infeed HVDC systems. Compared to the MIIF, the MVIF is unified since it is applicable regardless of inverter types and control modes. Moreover, the quasi-steady-state power-flow model of hybrid multi-infeed HVDC systems is utilized as the mathematical framework to develop the analytical calculation method of the MVIF. This lends a theoretical basis for the efficient evaluation of inter-inverter interactions. Furthermore, the parametric dependence of the MVIF is analyzed to provide an exhaustive perspective of inter-inverter interactions. This offers a useful tool to aid planning and operation of hybrid multi-infeed HVDC systems. Finally, dynamic simulations conducted on the PSCAD/EMTDC program validate the MVIF and its analytical calculation method. [ABSTRACT FROM AUTHOR]

Published

2020

31. Fault Diagnosis and Monitoring of Modular Multilevel Converter With Fast Response of Voltage Sensors.

Author

Zhang, Jianzhong, Hu, Xing, Xu, Shuai, Zhang, Yaqian, and Chen, Zhe

Subjects

*FAULT diagnosis, *POWER capacitors, *CAPACITOR switching, *DETECTORS, *CAPACITORS, *OPEN-circuit voltage, *ELECTRIC potential

Abstract

Modular multilevel converter (MMC) has been one of the most popular candidates in high-voltage applications. However, reliability is a critical issue due to a large number of power switching devices and capacitors applied in the MMC. To improve the reliability of the MMC, a fast and reliable diagnosis strategy for the open-circuit fault is proposed in this paper, where submodule voltage sensors are relocated to the upper switching device. Furthermore, a voltage observer based on the submodule voltage sensor is established to monitor the capacitor and realize the power control of the MMC under normal operation. A Boolean logic operation based fault indicator is put forward based on the relationship of the operation state and binaried output of voltage sensors, which could detect and locate the open-circuit faults of the MMC very fast. The ratio of the increment of the observed and measured capacitor voltage during the period of positive arm current is applied to monitor the capacitor. The effectiveness of the proposed fault diagnosis strategy and the capacitor monitoring strategy is verified by the experiment results. [ABSTRACT FROM AUTHOR]

Published

2020

32. Method and Experimental Study of Voltage Measurement Based on Electric Field Integral With Gauss–Legendre Algorithm.

Author

Si, Diancheng, Wang, Jingang, Wei, Gang, and Yan, Xiaojun

Subjects

*ELECTRIC field strength, *ELECTRIC potential measurement, *LINE integrals, *ELECTRIC lines, *PATH integrals, *INVERSE scattering transform, *FEYNMAN integrals

Abstract

At present, the method of obtaining the voltage of transmission lines by using the inverse problem of the electric field is generally faced with the difficulties of solving data equations. Aiming at the above problems, the method that solves transmission wire voltage through spatial electric field integration based on D-dot sensor is proposed. In this paper, with the ground as the reference potential and the vertical line of the transmission line to the ground as the integral path, D-dot electric field sensor is applied to measure the instant electric field values of several nodes on the integral path and the transmission wire voltage is directly solved combined with Gauss–Legendre numerical integration algorithm. The Gauss–Legendre algorithm is verified by the electric field distribution data on the integration path obtained by simulation. Furthermore, the improvement of the Gauss–Legendre algorithm is realized through optimizing the integral interval so that the location of integral nodes is more reasonable. Finally, the measurement system based on LabVIEW is designed and the experiment platform of the analog transmission line is constructed. Experiment results show that the measurement method of transmission wire voltage through the improved Gauss–Legendre algorithm based on D-dot sensor owns high accuracy with an error of less than 1%. [ABSTRACT FROM AUTHOR]

Published

2020

33. A Noncontact Voltage Measurement System for Power-Line Voltage Waveforms.

Author

Haberman, Marcelo A. and Spinelli, Enrique M.

Subjects

*ELECTRIC potential measurement, *DIGITAL signal processing, *ELECTRIC potential, *TEST systems

Abstract

This paper presents the design and implementation details of a complete noncontact (NC) voltage acquisition system, which allows the measurement of power-line voltage waveforms without galvanic contact. The system is composed by a novel capacitive probe, an analog front end (AFE), and a microcontroller-based digital signal processing stage. A deep experimental characterization of the noncontact measurement system was performed. The tests reported a high linearity (maximum nonlinearity of ±0.2%), a low input-referred noise (11 mVrms), and a low-frequency response distortion. Measurements of ±330-V triangular waveform signals were performed with maximum instantaneous errors below ±1.5 V. The power-line voltage (220 Vrms at 50 Hz) was acquired without galvanic contact with an instantaneous error lower than ±3 V, whereas the mean error on rms voltage measurements was 0.32% and the maximum 0.7%. A two-day continuous measurement of power-line voltage was accomplished for testing system’s stability, resulting in negligible accuracy variations. [ABSTRACT FROM AUTHOR]

Published

2020

34. Data-Driven Voltage Regulation in Radial Power Distribution Systems.

Author

Xu, Hanchen, Dominguez-Garcia, Alejandro D., Veeravalli, Venugopal V., and Sauer, Peter W.

Subjects

*RADIAL distribution function, *ELECTRIC power distribution equipment, *ELECTRIC potential, *POWER resources, *ELECTRIC potential measurement, *INFORMATION networks, *VOLTAGE control

Abstract

In this paper, we develop a data-driven framework for controlling distributed energy resources (DERs) in a balanced radial power distribution system with the objective of regulating voltages across the whole system. The objective is to determine optimal DER power injections that minimize the voltage excursions outside a desirable voltage range without knowing a complete model of the power distribution system. To this end, we approximate the nonlinear relationship between the voltage magnitudes and the power injections by a linear model. The parameters of this linear model—referred to as the voltage sensitivities—can be computed using information on the network topology and the line parameters, the values of which will be estimated. Assuming the knowledge of feasible network topology configurations and distribution line resistance-to-reactance ratios, we propose a framework for identifying the true network topology configuration and the corresponding line parameters using only a few measurements of voltage magnitudes and power injections. Utilizing the estimated voltage sensitivities, the optimal DER power injections can be readily determined by solving a convex optimization problem. Due to its data-driven nature, the proposed framework is intrinsically adaptive to changes in system conditions such as unknown topology reconfiguration. The effectiveness of the proposed framework is validated via numerical simulations on the IEEE 123-bus distribution test feeder. [ABSTRACT FROM AUTHOR]

Published

2020

35. A Quasi-DC Potential Drop Measurement System for Material Testing.

Author

Corcoran, Joseph, Davies, Catrin M., Cawley, Peter, and Nagy, Peter B.

Subjects

*MATERIALS testing, *FATIGUE crack growth, *FERROMAGNETIC materials, *SKIN effect

Abstract

Potential drop (PD) measurements are well established for use in materials testing and are commonly used for crack growth and strain monitoring. Traditionally, the experimenter has a choice between employing direct current (dc) or alternating current (ac), both of which have strengths and limitations. The dc measurements are afflicted by competing spurious dc signals and, therefore, require large measurement currents (tens or hundreds of amperes) to improve the signal-to-noise ratio, which in turn leads to the significant resistive Joule heating. The ac measurements have superior noise performance due to the utilization of phase-sensitive detection and a lower spectral noise density but are subject to the skin effect and are, therefore, not well suited to high-accuracy scientific studies of ferromagnetic materials. In this paper, a quasi-dc monitoring system is presented which uses very low-frequency (0.3–30-Hz) current which combines the positive attributes of both dc and ac while mitigating the negatives. Bespoke equipment has been developed that is capable of low-noise measurements in the demanding quasi-dc regime. A creep crack growth test and fatigue test are used to compare noise performance and measurement power against alternative DCPD equipment. The combination of the quasi-dc methodology and the specially designed electronics yields exceptionally low-noise measurements using typically 100–400 mA; at 400 mA, the quasi-dc system achieves a 13-fold improvement in signal-to-noise ratio compared to a 25-A dc system. The reduction in measurement current from 25 A to 400 mA represents a ~3900-fold reduction in measurement power, effectively eliminating resistive heating and enabling much simpler experimental arrangements. [ABSTRACT FROM AUTHOR]

Published

2020

36. A New Algorithm for Detecting Failure to Clear Mode of Circuit Breakers Using Fundamental Frequency Component of Voltage Signals.

Author

Feizifar, Behnam, Muller, Zdenek, and Usta, Omer

Subjects

*FAILURE mode & effects analysis, *ALGORITHMS, *HILBERT-Huang transform, *ELECTRIC potential, *ENERGY density, *SPECTRAL energy distribution

Abstract

This paper introduces a new algorithm for the early detection of abnormal arcing conditions of circuit breakers (CBs). Any interruption with a higher arcing time compared to maximum permissible arcing time of CB is defined as a CB failure to clear mode. Measuring CB arcing time is not easy because there is no control on the mechanical opening and closing instants of CB contacts. Nevertheless, there is a correlation between the spectral energy densities of CB arcing voltages and arcing times of CB. This correlation is used by calculating the spectral energy densities of the instantaneous system voltage and the instantaneous CB voltage across its terminals utilizing discrete Fourier transform for two periods of the system frequency. The difference between the spectral energy densities at the fundamental frequency is defined as a criterion for identifying a failure to clear mode. Whenever this criterion exceeds a predefined trip level, it indicates the occurrence of a failure to clear mode. In this situation, a trip signal is initiated for adjacent CBs to isolate the faulted CB and the fault. The results obtained from computer simulations and measurements show that the algorithm discriminates between normal and abnormal arcing conditions of CB. [ABSTRACT FROM AUTHOR]

Published

2020

37. Transient Response of Surge Protective Devices During the Potentials Transferred Between Independent Grounding Grids.

Author

Chen, Shaodong, Zhang, Yijun, Zhou, Mi, Yan, Xu, Lyu, Weitao, and Zheng, Dong

Subjects

*SAFETY appliances, *OVERHEAD electric lines, *ELECTRIC transients, *OVERVOLTAGE

Abstract

This paper analyzes the potential transferred between two independent grounding grids located 40 m apart, one of which, called the active grid, was injected with current of rocket-triggered lightning flashes. The transferred potentials in another grid, called the passive grid, and the transient response of the surge protective device (SPD) in the passive grid are evaluated. Observations results benefiting from six nearby triggered flashes, in which a total of 35 return strokes were involved, show that the peak transferred potential in the passive grid ranges from −1.1 to −28.5 kV with a mean of −10.7 kV. These voltages exhibit transient pulses, having a primary peak with a mean duration of 3 μs, followed by a sub-peak, whose amplitude is averagely 36.6% against the primary one. The average 10%–90% risetime is 0.74 μs and the average half-peak width is 1.6 μs. The energy consumed by SPD during transferred potentials is 2.0 J on average, much lower than that of the SPD equipped in nearby overhead power lines. The amplitude of initially injected lightning currents in the active grid is found to be an important determinant of the peak transferred potentials, the peak current flowing through the SPDs, and the energy consumed by the SPD. [ABSTRACT FROM AUTHOR]

Published

2020

38. Operational Adaptability of PEM Fuel Cell for Optimal Voltage Regulation With Maximum Power Extraction.

Author

Bankupalli, Phani Teja, Ghosh, Subhojit, Kumar, Lalit, Samanta, Susovon, and Jain, Sachin

Subjects

*PROTON exchange membrane fuel cells, *MICROBIAL fuel cells, *ELECTRIC potential

Abstract

Polymer electrolyte membrane fuel cell (PEMFC), because of faster response, portability and the low operating temperature has found wide usage in applications requiring regulated output voltage. Alongwith voltage regulation, optimum stack efficiency is important for reliable operation. Overall, the maximum efficiency point (MEP) operation and voltage regulation need to be achieved while restricting the PEMFC operation till maximum power point (MPP). This demands operational adaptability of PEMFC over a wider range, to meet the desired levels of voltage regulation, maximum efficiency and MPP operation. However, achieving all the objectives simultaneously is challenging since operating points corresponding to the objectives differ. This paper proposes a control strategy that achieves operation dependent adaptability of PEMFC between the objectives as per the demand. The adaptability in controller tuning for MPP and voltage regulation has been formulated as multi-objective optimization (MOO) problem with a constraint on controller parameters, for allowing the PEMFC operation closer to MEP. The solution of MOO problem provides a set of controller configurations, each achieving different operating scenarios/objectives of the PEMFC system. Compared to the existing works aiming at either of the objectives, the effectiveness of the proposed approach is reflected in terms of simultaneous attainment of all the objectives. [ABSTRACT FROM AUTHOR]

Published

2020

39. Modeling and Simulation of a Novel Active Three-Phase Multilevel Power Factor Correction Front End – The “Negev” Rectifier.

Author

Barbie, Eli, Rabinovici, Raul, and Kuperman, Alon

Subjects

*CORRECTION factors, *VOLTAGE control, *ELECTRIC current rectifiers, *HIGH voltages, *SIMULATION methods & models, *ELECTRIC potential

Abstract

This paper presents a modification of the Vienna rectifier (VR) to obtain more than three voltage levels at the DC line connection, while preserving the unity power factor at the AC grid side. The proposed unidirectional multilevel there-phase rectifier, called the “Negev rectifier”, has a reduced device count and utilizes a unique novel Time Division Multiplexed based control scheme, which makes the challenging N-level VR expansion possible. The Negev rectifier can serve as a grid interface for supplying dc voltage to multilevel inverters with 4 up to 7 voltage levels, eliminating the burden of inverter-side voltage balancing control. The Negev hardware can be constructed by two complementary topologies, making it suitable for either high current or high voltage applications. [ABSTRACT FROM AUTHOR]

Published

2020

40. Control and Experiment of a TLC-MMC Hybrid DC–DC Converter for the Interconnection of MVDC and HVDC Grids.

Author

Cui, Shenghui, Hu, Jingxin, and De Doncker, Rik W.

Subjects

*CURRENT transformers (Instrument transformer), *DIRECT currents, *DC-to-DC converters, *VOLTAGE control, *CASCADE converters, *ELECTRIC potential measurement, *ELECTRIC potential, *SEMICONDUCTOR devices

Abstract

An isolated bidirectional dc–dc converter, which combines parallel-connected two-level converters (TLCs) on the medium-voltage side and a modular multilevel converter (MMC) on the high-voltage side, namely a TLC-MMC converter, is a promising candidate for the interconnection of medium-voltage direct current (MVDC) and HVdc grids. Different from typical phase-shift controlled isolated bidirectional dc–dc converters, transformer currents of a TLC-MMC converter are regulated by the MMC in a closed-loop manner in order to achieve extremely low switching losses and low total device rating of power-semiconductor devices in TLCs. This paper addresses the dedicated operation technique and the voltage-balancing control of the TLC-MMC converter. The MMC in the TLC-MMC converter operates with six-step phase voltages and sinusoidal phase currents. Such an operation makes the MMC present remarkable differences to ac–dc applications. The direct-modulation technique, which is the most-used technique performed to MMCs in line-frequency ac–dc power conversion, has been concluded not applicable to the MMC in a TLC-MMC converter due to the significant sixth-order oscillation resulted in the dc-link voltage. Thus, the indirect-modulation technique is employed, and consequently a closed-loop voltage-balancing control is mandatory for the MMC. Possible measures for voltage balancing have been explored, and effective voltage-balancing control with a simplified implementation is proposed. Validity and effectiveness of the proposed control strategy have been verified by both simulations and experiment using a downscale prototype. [ABSTRACT FROM AUTHOR]

Published

2020

41. Simple and Affordable Method for Fast Transient Measurements of SiC Devices.

Author

Garrido, David, Baraia-Etxaburu, Igor, Arza, Joseba, and Barrenetxea, Manex

Subjects

*STRAY currents, *ENERGY dissipation, *ELECTRIC potential, *ELECTRIC potential measurement, *ELECTRIC inductance

Abstract

The measurement of fast voltage and current transients of Silicon Carbide (SiC) devices requires high bandwidth (BW) probes. Commercially available voltage and current probes can be expensive, and, in addition, the delay introduced by them must be compensated to achieve a proper time alignment (de-skew). Determining this de-skewing value is not a trivial task. In this paper, a simple and affordable measurement method is presented for the simultaneous measurement of the voltage and current transients of SiC devices. The voltage is measured by means of a high BW RC attenuator, while the current is estimated from the voltage drop in the stray inductance of the switching loop. Since both voltages are measured with two equal and matched high BW passive voltage probes, there is no need to apply any de-skew. This is one of the most important advantages of the method. The presented method is experimentally evaluated and used for the estimation of energy switching losses in the tested SiC-mosfet. [ABSTRACT FROM AUTHOR]

Published

2020

42. Rapid Voltage Change Detection: Limits of the IEC Standard Approach and Possible Solutions.

Author

Macii, David and Petri, Dario

Subjects

*DETECTION limit, *SCIENTIFIC literature, *ELECTRIC potential, *ELECTRONIC systems, *ELECTRONIC equipment, *DYNAMIC loads

Abstract

Rapid voltage changes (RVCs) are power quality (PQ) events characterized by small and fast transitions between two steady-state root-mean-square (rms) voltage levels. RVCs occur quite often at the distribution level and are expected to be even more frequent in the future due to the increasing penetration of dynamic loads and renewable-based generators in the smart grid. Unlike other PQ events, RVCs are less critical, but also more difficult to detect than dips/sags and swells, due to their smaller voltage variations. Nevertheless, they can be harmful to generators’ control systems and electronic equipment in general. Moreover, they strongly affect flicker. The IEC Standard 61000-4-3:2015 clearly describes an algorithm for RVC detection. However, this approach is poorly characterized in the scientific literature. In fact, it suffers from some drawbacks. In this paper, some of them (e.g., rate-dependent detection limits and detection delays) are analyzed in depth. In addition, an alternative approach based on the estimation of the rate of change of rms voltage is proposed. Multiple simulation results show that the approach considered is more sensitive to noise, but also faster, especially when not so fast RVCs occur. Moreover, it allows measuring the rate of change of rms voltage, which is currently disregarded in the IEC Standard. [ABSTRACT FROM AUTHOR]

Published

2020

43. Detection and Classification of Turn Fault and High Resistance Connection Fault in Permanent Magnet Machines Based on Zero Sequence Voltage.

Author

Hu, Rongguang, Wang, Jiabin, Mills, Andrew R., Chong, Ellis, and Sun, Zhigang

Subjects

*PERMANENT magnets, *RELUCTANCE motors, *MACHINING, *INDUCTION machinery, *ELECTRIC potential, *DEMAGNETIZATION, *CLASSIFICATION, *ELECTRIC potential measurement

Abstract

Health monitoring and fault detection are becoming more and more important in electrical machine systems due to the increasing demand for reliability. Winding turn fault is a common fault in permanent magnet (PM) machines, which can cause severe damages and requires prompt detection and mitigation. High resistance connection fault, which results in phase asymmetry may also occur but does not require immediate shutdown. Thus, apart from the fault detection, the classification between the two faults is also required. In this paper, a new technique for detecting and classifying turn fault and HRC fault by utilizing both the high and low frequency components of the zero sequence voltage is proposed with the enhanced sensitivity. The dependence on the operating conditions is minimized with the proposed fault indicators. The effectiveness of fault detection and classification has been verified by extensive experimental tests on a triple redundant fault tolerant PM assisted synchronous reluctance machine. The robustness of the turn fault detection in transient states and under no load conditions has also been demonstrated. [ABSTRACT FROM AUTHOR]

Published

2020

44. Online Parameter Adjustment Method for Arm Voltage Estimation of the Modular Multilevel Converter.

Author

Taffese, Abel A., de Jong, Erik, D'Arco, Salvatore, and Tedeschi, Elisabetta

Subjects

*ELECTRIC potential, *VOLTAGE control, *ARM, *ELECTRIC potential measurement, *CLOSED loop systems, *TIME delay systems

Abstract

The method used to calculate insertion indexes plays an important role in determining the overall performance of the modular multilevel converter. Direct voltage control, which is the simplest option, results in a large circulating current ripple because this modulation technique does not account for the arm voltage ripples. This led to the development of compensated modulation techniques that compensate for the arm voltage ripples thereby eliminating the circulating current ripple. There are two variants of compensated modulation—closed loop and open loop. The closed-loop version requires measurement of the arm voltages without distortion and delay, which is difficult to achieve in practice. The open-loop method overcomes this challenge by using estimated arm voltages. However, accurate knowledge of the system parameters is needed for effective removal of the circulating current ripples. This is a limitation because the parameters change with time and operating conditions. This paper presents a modified version of the open-loop method, which includes a scheme for correcting parameter errors online. The method estimates the parameters, arm capacitances, and time delay, by using feedback controllers acting on the circulating current ripples. Mathematical derivation of the method, together with its validation using simulation and experimental tests, is presented in detail. [ABSTRACT FROM AUTHOR]

Published

2019

45. Robust Time-Varying Synthesis Load Modeling in Distribution Networks Considering Voltage Disturbances.

Author

Cui, Mingjian, Wang, Jianhui, Wang, Yishen, Diao, Ruisheng, and Shi, Di

Subjects

*ROBUST control, *INDUCTION machinery, *PARAMETER identification, *DYNAMIC programming, *INDUCTION motors, *ELECTRIC potential, *REACTIVE power

Abstract

Uncertain power sources are increasingly integrated into distribution networks and causes more challenges for the traditional load modeling. A variety of distributed load components present dynamic characteristics with time-varying parameters. Toward the end, this paper proposes a robust time-varying parameter identification (TVPI) method for synthesis load modeling in distribution networks, including time-varying ZIP, induction motor, and equivalent impedance models. The nonlinear optimization model is developed and solved by the nonlinear least square (NLS) to find the minimum error between estimated outputs and measurements. To cope with TVPI deteriorated by voltage disturbances, dynamic programming is first used to detect the disturbance. Then, a robust TVPI engine is designed to constrain the estimated time-varying parameters within a stable range. Furthermore, advanced tolerance thresholds are also required during iterations of NLS. Numerical simulations on the 9- and 129-bus distribution systems verify the effectiveness and robustness of the proposed TVPI method. Also, this method can be robust to the ambient noise of measurements. [ABSTRACT FROM AUTHOR]

Published

2019

46. PMU-Based Monitoring and Mitigation of Delayed Voltage Recovery Using Admittances.

Author

Matavalam, Amarsagar Reddy Ramapuram and Ajjarapu, Venkataramana

Subjects

*ELECTRIC admittance, *THERMOSTAT, *ELECTRIC potential, *PHASOR measurement

Abstract

This paper analyzes the delayed voltage recovery phenomenon by simplifying the western electricity coordinating council composite load model using the load admittance and the thermal relay dynamics. From this analysis, a closed form expression approximating the recovery time is derived and the key load parameters impacting the behavior of voltage recovery are identified. A monitoring scheme based on the measured load admittance is then proposed to detect the onset of stalling, even in the presence of voltage oscillations, and estimate the duration of the delayed voltage recovery. A mitigation scheme utilizing smart thermostats and offline learning is also derived to ensure that the voltage recovers to the pre-contingency voltage within a specified time. Both the monitoring and mitigation schemes only need local measurements at a substation making them promising for online applications. Results for the monitoring and mitigation schemes are described in detail for the IEEE 162 bus system validating the various assumptions used for the analysis and establishing the connection between the delayed voltage recovery phenomenon and load admittance. [ABSTRACT FROM AUTHOR]

Published

2019

47. Calibration of Voltage and Current Transducers for DC Railway Systems.

Author

Crotti, Gabriella, Delle Femine, Antonio, Gallo, Daniele, Giordano, Domenico, Landi, Carmine, and Luiso, Mario

Subjects

*TRANSDUCERS, *ELECTRIC potential, *CALIBRATION, *RAILROADS, *PIEZOELECTRIC transducers

Abstract

To establish a single European railway area, the European Commission requires, by 2019, that energy billings shall be computed on the actual energy consumed. So, in the near future, all the trains shall be equipped with an energy measurement system, whose measurement accuracy should be assessed and periodically reverified, as required by EN 50463-2. As for every energy and power measuring system, the voltage and current transducers play a crucial role as their accuracy could determine the performance level of the entire measurement chain. To answer to this emerging need, this paper presents a calibration system allowing the accurate testing of dc voltage and current transducers, up to 6 kV and 300 A and up to 10 kHz. It is able to reproduce all the tests prescribed by EN 50463-2, but in order to characterize the transducers in actual operating conditions, a series of additional tests can also be performed using synthetic complex waveforms or even signals acquired on-board trains. The expanded uncertainty (level of confidence 95%) of the calibration system is 43 $\mu \text{V}$ /V and 24 $\mu \text{A}$ /A at dc and 520 $\mu \text{V}$ /V and 820 $\mu \text{A}$ /A at 10 kHz. Moreover, the calibration of two commercial voltage and current transducers, currently installed in the trains of an Italian operator, is presented. [ABSTRACT FROM AUTHOR]

Published

2019

48. Junction Temperature Measurement Method for SiC Bipolar Junction Transistor Using Base–Collector Voltage Drop at Low Current.

Author

Shi, Bangbing, Feng, Shiwei, Zhang, Yamin, Bai, Kun, Xiao, Yuxuan, Shi, Lei, Zhu, Hui, and Guo, Chunsheng

Subjects

*JUNCTION transistors, *BIPOLAR transistors, *ELECTRIC potential, *TEMPERATURE measurements, *THERMAL resistance, *TRANSISTORS, *LOW voltage systems

Abstract

This paper proposes an electrical method for estimation of the vertical junction temperature of silicon carbide bipolar junction transistors (SiC BJTs). This measurement method is based on measurement of the base–collector voltage (VBC) drop at a low current (VBC(low)) during the turn-off process. This voltage shows both good sensitivity and linearity with respect to temperature. The traditional temperature-sensitive electrical parameter VBE(low) (i.e., the base-emitter voltage at a low current) and an infrared camera are used to compare the characteristics of VBC(low). The results show that use of VBC(low) provides more accurate junction temperature and thermal resistance measurement results, which can then be used to extract the vertical junction temperature of the SiC BJT under test. [ABSTRACT FROM AUTHOR]

Published

2019

49. Charge distribution on polymer insulator surface under AC voltage.

Author

Li, Dayu, Zhang, Guixin, Hou, Yicen, and Zhang, Boya

Subjects

*FLASHOVER, *ELECTRIC potential, *SURFACE charges, *ELECTRIC fields, *INSULATING materials, *CHARGE measurement, *SURFACES (Technology)

Abstract

Charge accumulation on an insulator surface under AC electric field is uncertain and is different from DC. In this paper, a method of extracting the phase of voltage truncation time is proposed. The characteristics of charge distribution on an insulator surface under AC voltage is obtained, and the relationship between the voltage phase and the surface charge distribution is investigated. The measurement results of charge distribution and the microscopic discharge process are compared and analyzed which can overcome the deficiency of the traditional off-line measuring method. In addition, the effect of voltage amplitude and insulator material characteristics on the surface charge are studied. It is shown that the charge distribution on an insulator surface shows a three-tier concentric circular structure, and the distribution characteristic of the charge is closely related to the phase of the AC voltage truncation time and the insulation material. The charge density is also affected by the voltage amplitude. [ABSTRACT FROM AUTHOR]

Published

2019

50. Grid-Tied Inverter With AC Voltage Sensorless Synchronization and Soft Start.

Author

Pesrez-Estevez, Diego and Doval-Gandoy, Jesus

Subjects

*ELECTRIC potential, *SYNCHRONIZATION, *PHASE-locked loops, *LARGE deviations (Mathematics), *VOLTAGE control

Abstract

This paper presents a novel grid synchronization method with bumpless start that requires minimal computational load and can selectively track the positive sequence of the grid voltage in an unbalanced and distorted three-phase weak grid. Only 12 floating-point operations are required to obtain the in-phase and quadrature components that define a synchronous frame which tracks the positive sequence of the grid voltage. Contrary to a phase-locked loop (PLL), the presented scheme does not require to measure any ac voltages. Therefore, this sensorless method is particularly suited for weak-grid conditions, in which the voltage at the point of common coupling may contain significant noise and can experience larger deviations from the grid voltage (compared to a strong grid) due to the voltage drop in the weak grid impedance. The error in the estimated phase depends on the accuracy of the plant model. If the LCL filter parameters are known, then both the proposal and a PLL-based scheme result in the same steady-state error. Experimental results show the advantages of the proposal compared to a moving average filter PLL. [ABSTRACT FROM AUTHOR]

Published

2019