Showing total 2,437 results

1. 25‐2: Capacitor‐Based Driving Scheme of Electrophoretic E‐Paper Display for Future Self‐Powered Applications.

Author

Gu, Yifan, Zhu, Simu, Qiu, Zhiguang, Fan, Qitian, Shi, Jintao, Chen, Weichun, Peng, Lisha, Qin, Zong, Deng, Shaozhi, and Yang, Bo-Ru

Subjects

ELECTROPHORETIC displays, ENERGY storage, ATHLETIC shoes, CAPACITORS

Abstract

In recent years, electrophoretic display (EPD) attracts great attention for its ultra‐low power consumption, which is suitable for self‐powered applications. In this case, an energy storage system, simple as the capacitor, is essential for the self‐powered driving of EPDs. However, significance on the capacitor‐based driving of EPDs was underestimated in spite of its great practical value. This paper investigated the capacitor‐based driving of EPD for better performances of self‐powered EPDs. Based on this novel scheme, sports shoes with self‐powered EPD patterns were demonstrated as the future wearable applications. [ABSTRACT FROM AUTHOR]

Published

2024

2. 77‐1: Invited Paper: Towards Commercialization of Vertical, Organic Light‐emitting Transistors for Active‐Matrix Displays.

Author

Vasilyeva, Svetlana, Chen, Xiao, Liu, Bo, Katsui, Hiromitsu, Oono, Ryuuzou, Shimokawa, Tsutomu, Miyachi, Koichi, and Lemaitre, Maxime

Subjects

AMORPHOUS silicon, CAPACITORS, COMMERCIALIZATION, DIODES, PIXELS, LED displays

Abstract

Vertical, organic, light‐emitting transistors (VOLETs) combine three of the four essential components of an active matrix lightemitting diode (AMOLED) pixel ‐ the drive transistor, the storage capacitor, and the OLED stack ‐ into a single, highly‐stable, selfemissive structure. VOLETs can be manufactured on amorphous silicon (a‐Si) thin‐film transistor (TFT) backplanes to enable lowcost AMOLED displays with improved brightness and lifetime characteristics. We report on the current status of VOLET development and prospective impact on the active‐matrix display industry. [ABSTRACT FROM AUTHOR]

Published

2024

3. Thin-walled porous carbon tile-packed paper for high-rate Zn-ion capacitor cathode.

Author

Cao, Yufang, Tang, Xiaohui, Liu, Meinan, Zhang, Yongyi, Yang, Tingting, Yang, Zhengpeng, Yu, Yingying, Li, Yong, Di, Jiangtao, and Li, Qingwen

Subjects

*CARBON paper, *CATHODES, *CAPACITORS, *FAST ions, *CARBON nanotubes, *POROSITY, *BRICKS

Abstract

Lengthened ion pathway in porous carbon cathode, especially under high mass loading and packing state, severely impeded the ion transport, thus leading to a far unsatisfactory energy/power out of Zn//C capacitors. Here, we report a novel kapok-derived quasi-2D thin-walled porous carbon tile (CT) with proper curvature and rich doping used as stacked bricks. Together with high conductivity single-walled carbon nanotubes, a porous yet relatively packed self-standing carbon cathode was constructed, which features a hierarchical ion path including short ion pathways inside thin-walled porous CTs and adequate channels "highways" caused by rational sub-micron interlayer spacing, thus leading to an excellent combination of rate and gravimetric/volumetric/areal performance at practical mass loading (12 mg cm−2). [Display omitted] • A porous thin-walled layered carbon tile with proper curvature was prepared as bricks. • Porous yet packed cathode feathers hierarchical paths for fast ion/charge transfer. • High rate and gravimetric/volumetric capacity remain in high loading cathode. • The areal capacity increases linearly with the mass loading of cathode. Long ion pathway inside large-sized carbon particle or stacked 2D assembly greatly limit the electrochemical performance of practical carbon cathode (>10 mg cm−2) in Zn//C capacitors. Highly porous activated carbon and holy graphene can alleviate such ion-transport issue, but usually suffer from a far lower packing density and severe restacking, respectively. Herein, a kapok-derived quasi-2D thin-walled microporous carbon tile (CT) with optimized curvature and rich doping was developed and used as bricks. Assisted with single-walled carbon nanotubes (SWNTs), a porous yet relatively packed paper cathode was constructed. The unique doped thin wall (∼700 nm) can effectively shorten the ion-penetration pathways from electrolyte deep into pore structure inside CTs, and thus enlarge ion-accessible surface areas. Combined with rational sub-micron interlayer spacing among proper-curved CTs and bridged-like SWNTs, the continuous ion/charge transport "highways" are fabricated. As a result, such self-standing carbon cathode delivers outstanding rate and gravimetric/areal performance (114 mAh g−1/1.37 mAh cm−2) without sacrificing volumetric capacity even at high mass loading (12 mg cm−2). [ABSTRACT FROM AUTHOR]

Published

2022

4. Excellent energy storage performance with outstanding thermal stability assisted by interfacial resistance of aramid-based flexible paper capacitors.

Author

Zhang, Sufeng, Wei, Hansong, Guo, Qing, Liu, Jiaqi, Wei, Ning, Bai, Yuhan, Sun, Peiyao, Li, Lei, Zhang, Yutao, Tian, Ye, Zhang, Xiaohua, Sun, Zixiong, and Pu, Yongping

Subjects

*INTERFACIAL resistance, *POLYIMIDES, *THERMAL stability, *CAPACITORS, *ELECTRIC breakdown, *ENERGY density, *SUPERCAPACITORS, *ENERGY storage

Abstract

[Display omitted] • Aramid-based energy storage capacitor was synthesized by a convenient method. • Electrical breakdown strength was optimized by the interface engineering. • Good dielectric constant thermal stability from RT to 300 °C was achieved. • Our finds promoted the energy storage capacitors in commercial use. Polymer-based dielectric energy storage capacitors show more potential than conventional rigidity ceramic-based capacitors. Recent studies were classified into two categories: the excellent room temperature performance in poly (vinylidene fluoride) (PVDF) systems and the enhanced thermal stability in polyimide-based systems. Only now, however, both of them are still far from commercial use because of their inferior heat resistance or poor processability. By adding BaTiO 3 (BT) particles in maturely used aramid nanofibers, we synthesized the aramid nanofiber (ANF)/BT-based flexible paper capacitors through a convenient industrialized technology in this work. Due to the intrinsic laminated structure of ANF and the uniform distribution of BT particles, the composite film with BT addition of 8 vol% exhibits outstanding dielectric thermal stability. With the help of the interfacial resistance in the organic–inorganic interface, which protected the ANF matrix from being breakdown too early by optimizing the electrical field distribution, a high and stable energy storage density of 6.70 J/cm3 was obtained in ANF/BT5. In addition, excellent energy storage frequency stability with ultrafast discharge speed was also achieved. This work offered a highly repeatable way to synthesize commercially used flexible capacitors, bridging the lab investigation and commercial use in high-power density energy storage polymers. [ABSTRACT FROM AUTHOR]

Published

2023

5. Graphite-paper circuit elements: Resistor, capacitor, and π value estimation.

Author

Shekhawat, Vibhooti

Subjects

*CIRCUIT elements, *ELECTRICAL conductors, *CAPACITORS, *LEAD, *ELECTRICITY

Abstract

Graphite, an allotrope of carbon, is also a moderately good conductor of electricity. The shading pencil lead consists of graphite mixed with clay and, therefore, can conduct electricity, allowing one to construct and demonstrate different properties and the underlying concepts of circuit elements. The grade displayed on the pencil relates to the graphite-to-clay ratio, with higher B grades indicating a higher graphite-to-clay ratio. In this paper, the main objective is to show the dependence of resistance and capacitors on different physical parameters and to calculate the value of π electrically. The materials used in this activity are readily available, affordable, and suitable for demonstration purposes. The materials used to perform these activities are shading pencils of different grades, A-4 size papers, crocodile clips, and an LCR meter. [ABSTRACT FROM AUTHOR]

Published

2023

6. Reassessing the Necessity of the Drying Step in Hummer's Method for Graphene Oxide Synthesis.

Author

Glass, Dean E., Galvan, Vicente, and Prakash, G. K. Surya

Subjects

GRAPHENE synthesis, GRAPHENE oxide, HUMMER trucks, CARBON paper, CAPACITORS

Abstract

The necessity of drying the graphene oxide suspension (GOsus) using Hummer's Method to produce graphene oxide (GO) powder was studied. The undried GOsus was compared to the dried GO. The GO materials were used as Pt supports via NaBH4 reduction for O2 reduction. XRD patterns showed similar d-spacing in both while the half-cell tests of the Pt/rGOsus and Pt/rGO catalysts were similar. GOsus film, deposited onto Toray Carbon Paper and electrochemically reduced in aq. H2SO4 was tested as a capacitor. The suspension and dried graphene-based capacitor showed similar XRD and XPS patterns and the erGOsus capacitor displayed increased capacitance. [ABSTRACT FROM AUTHOR]

Published

2021

7. THE DEVELOPMENT OF A 10.7-MHz FULLY BALANCED CURRENT-TUNABLE BANDPASS FILTER WITH CAPRIO TECHNIQUE.

Author

Lertkonsarn, Samran, Khwunnak, Chadarat, Angkawisittpan, Niwat, and Sultornsanee, Sivarit

Subjects

BANDPASS filters, TELECOMMUNICATION systems, CAPACITORS, HARMONICS (Music theory), RADIO frequency modulation

Abstract

Bandpass filters are integral in modern communication systems for selecting specific frequency ranges to ensure interferencefree signal transmission and reception. This paper explores various bandpass filter designs, including those using active inductors, transmission-line unit-cells, microstrip open-loop resonators, and dual-port dual-frequency integration antennas. The focus is on the 10.7-MHz bandpass filter, widely used in FM radio and television systems. The study evaluates current-controlled and balanced designs, analyzing their performance, advantages, and drawbacks. Unique trade-offs in terms of linearity, distortion, temperature sensitivity, and component variations are discussed. Additionally, advancements in filter technology and diverse design options are presented. The paper introduces a novel current-balanced, frequency-adjusted bandpass filter to address odd-order noise issues. This filter aims to achieve high linearity, harmonic distortion attenuation, and the elimination of even-order harmonics. Through synthesis, analysis, simulation, and comparison with traditional filters, the proposed design enhances signal quality and efficiency. The fullybalanced current-tunable bandpass filter with the Caprio technique at 10.7 MHz is developed, exhibiting symmetrical characteristics with lower total harmonic distortion. The circuit’s structure is simple and adaptable for integration, validated through consistent simulation results. The study concludes by emphasizing the constant sensitivity of transistor differential amplifier circuits to the center frequency and the linear relationship between center frequency and adjustable bias current. The suggested transistor and capacitor selection criteria contribute to optimizing the circuit’s performance, aligning with the Caprio technique’s recommendations. Overall, this research presents a promising solution for achieving high-quality signal transmission in contemporary communication systems. [ABSTRACT FROM AUTHOR]

Published

2023

8. Parameters optimization design method for LLC resonant converter based on impedance model.

Author

Yao, Xuliang, Han, Xiao, Liao, Yuefeng, and Wang, Jingfang

Subjects

PROBLEM solving, DIODES, VOLTAGE, CAPACITORS, SEMICONDUCTOR lasers, CASCADE converters

Abstract

Purpose: This paper aims to better design the resonant tank parameters for LLC resonant converter. And, it is found that under heavy load, the voltage gain is affected by junction capacitors of the primary side switching and the parasitic parameters of the secondary side diodes converted to the primary side, which will cause the voltage gain decreased when the switching frequency decreased. Design/methodology/approach: This paper proposes an optimization parameters design method to solve this problem, which was based on impedance model considering the parasitic parameters of switching devices and diodes. Findings: The effectiveness of the proposed method is verified by impedance Bode plots and experimental results. Originality/value: From the perspective of impedance modeling, this paper finds the reasons for the insufficient voltage regulation capability of LLC resonant converters under heavy load and finds solutions through analysis. [ABSTRACT FROM AUTHOR]

Published

2024

9. 7‐3: A New Line‐by‐Line SWEEP Signal Generation Method for PWM Driving MicroLED TFT Pixel Circuit.

Author

Kang, Kyeong-Soo, Park, Ji-Hwan, Park, Chanjin, and Lee, Soo-Yeon

Subjects

PIXELS, THEMATIC mapper satellite, CAPACITORS

Abstract

This paper proposes a novel method to generate a SWEEP signal line‐by‐line for PWM driving microLED pixel circuit. The proposed method generates a SWEEP signal based on the linearly increasing voltage of the capacitor by flowing a constant current to the horizontal line parasitic capacitive load. The constant current is supplied by the sweep generation (SG) circuit in each line. Since the SG circuit utilizes the existing SCAN signals for the pixel circuit, additional SCAN or clock signals are not required. By using the proposed method, an individual SWEEP signal for each line can be generated without a significant increase in operational complexity in the display panel. [ABSTRACT FROM AUTHOR]

Published

2023

10. Transient current distribution among elements in metallized film capacitor for converter valves.

Author

Yi, Chengqian, Zhang, Bo, Li, Chaoran, He, Jinliang, Li, Qi, Huang, Kui, Jia, Hua, and Wu, Yunyi

Subjects

CURRENT distribution, CAPACITORS, MATHEMATICAL decoupling, SINE waves, VALVES, POWER electronics

Abstract

The metalized film capacitors (MFC) in converter valves are subjected to high-frequency currents under the action of power electronic switching, which will cause large differences in currents among capacitor elements inside MFC and seriously affect the stability of MFC. In this paper, experiments were conducted to measure the current waveforms among 90 elements under impulse, short-circuit discharge and sine waves at different frequencies. The equivalent circuit topology was simplified by using decoupling and controlled source equivalence, and parameters were extracted by electromagnetic calculations combined with experiments. Finally, an equivalent circuit model was established and the current distribution among elements was calculated. Influenced by the reactance of the parasitic inductor and the capacitor element, the frequency range can be divided into 3 regions based on the current distribution characteristics: in the high frequency range (>100 kHz), the current is mainly concentrated on several capacitor elements near the connection terminals. In the middle frequency range (about 10 kHz–100 kHz), the current oscillates between elements and the inductor, resulting in a wavy distribution of current amplitude, strongly influenced by frequency. In the low frequency range (<10 kHz), the current distribution varies very little among 90 elements. These results can support the study of performance evolution, fault analysis and design optimization in MFC. [ABSTRACT FROM AUTHOR]

Published

2024

11. THE DEVELOPMENT OF A FULLY BALANCED CURRENT-TUNABLE ACTIVE-RC ALL-PASS FILTER.

Author

Samran Lertkonsarn, Chadarat Khwunnak, and Sittisak Roungrid

Subjects

SIMULATION Program with Integrated Circuit Emphasis, MONTE Carlo method, CAPACITORS, MAGNETIC coupling, ELECTRIC circuits

Abstract

This research paper presents a symmetrical current-tunable active-RC all-pass filter that uses an active BJT coupled with R and C. The circuit's symmetrical structure ensures that the differential signals are treated equally, resulting in improved performance. Furthermore, the filter's ability to adjust the frequency by bias current makes it suitable for a wide range of applications, such as improving phase properties and creating other types of filters. The simulation results obtained through the Pspice program show that the value of the operating frequency can be adjusted by bias current, which is the highlight of this research. The transfer function of the circuit shows a response of about 0 dB and -90° respectively, indicating that the circuit can change the phase of the input signal without changing its magnitude. This feature is particularly useful in signal processing applications where phase changes are required. In addition, the paper discusses how the operating frequency can be increased by decreasing the capacitor. The transfer function of the circuit analyzed shows that the operating frequency (f0) is inversely proportional to the product of the capacitors. Therefore, decreasing the value of C increases the operating frequency of the circuit. Monte Carlo analysis results are also presented for resistors, capacitors, and transistors with error values. This analysis helps determine the effect of errors on the output signal of the circuit. The results show that the output signal is sensitive to changes in the resistor values, which can affect the accuracy of the filter. Therefore, it is important to select high-quality resistors to ensure that the filter operates accurately. [ABSTRACT FROM AUTHOR]

Published

2023

12. A Comprehensive Investigation On the Selection of High-Pass Harmonic Filters.

Author

Wang, Yang, Chen, Pengfei, Yong, Jing, Xu, Wilsun, Xu, Shuangting, and Liu, Ke

Subjects

HARMONIC suppression filters, HIGHPASS electric filters, HIGH voltages, PACKAGING design, ELECTRIC power filters

Abstract

In recent years, there is an increased use of passive filters in both transmission and distribution systems due to the proliferation of power electronic devices. However, the problem of filter design has not been well addressed in the past and one example is the application of high-pass filters in a filter package. Three types of HP filters are widely used to mitigate multiple harmonics, i.e., 2nd HP filter, 3rd HP filter and C-type filter. There is still a lack of research to clearly reveal the characteristics of each filter, which makes it difficult for the designer to select the optimal filter topology under different circumstances. The main goal of this paper is to solve the problem of how to select a proper configuration among three HP filter candidates for a given harmonic problem. Unlike the conventional optimization-based filter studies, this paper investigates three HP filters in an analytical way. As a result, the paper provides a deep insight into the inherent characteristics of the filter and the conclusions drawn in the paper are universal; thus can be used in different applications, ranging from low voltage levels to high voltage levels. The research results lead to a recommended application scope of each HP filter, which is very useful to guide the design of filter packages and help designers to evaluate the design results. [ABSTRACT FROM AUTHOR]

Published

2022

13. Transformer-Less Seven-Level Inverter with Triple Boosting Capability and Common Ground.

Author

Vosoughi Kurdkandi, Naser, Varesi, Kazem, Fallah Ardashir, Jaber, Gao, Wei, Cao, Zhi, and Mi, Chunting

Subjects

STRAY currents, REACTIVE power, ELECTRIC inverters, ELECTRIC current rectifiers, VOLTAGE, CAPACITORS, CAPACITOR switching

Abstract

This paper proposes a single-phase, transformer-less, seven-level inverter that utilizes eight switches, three capacitors, and two diodes to produce seven voltage levels with triple boosting ability. The availability of the common-ground point eliminates the leakage current in PV applications. The proposed Transformer-Less Triple-Boosting Seven-Level Inverter (TLTB7LI) has the ability to feed different types of loads from non-unity to unity power factors. The voltage balancing of capacitors takes place naturally without the need for auxiliary circuits and complicated control strategies. This paper investigates the appropriateness of the proposed TLTB7LI for grid-connected application. The Peak Current Controller (PCC) is employed to generate the switching pulses and regulate the active/reactive power transfer between the converter and the output, which guarantees the high quality of injected current to the output. Moreover, the operational principles, its control technique, as well as the design procedure of the key components of the proposed inverter have been presented. The superiority of the proposed inverter over existing counterparts has been verified through comparative analysis. The simulation and experimental analysis validated the proper operation of the proposed TLTB7LI. [ABSTRACT FROM AUTHOR]

Published

2024

14. Capacitor virtual inertia control and equivalent inertia analysis for a grid-forming wind generation system.

Author

Li, Qun, Li, Qiang, Tang, Weijia, Wang, Chenggen, Liu, Xiaokang, and Li, Xin

Subjects

WIND power, CAPACITORS, POWER capacitors, MICROGRIDS, COUPLINGS (Gearing)

Abstract

A grid-forming wind generation system exhibits exceptional grid frequency support abilities. The DC capacitor of the grid-forming wind generation system, which is characterized by rapid response and high sensitivity to minor disturbances, can provide short-term inertia support for the power system. This paper proposes the capacitor virtual inertia control for the grid-forming wind generation system, coupling the DC capacitor voltage with the power system frequency, which enables the DC capacitor to participate in the system frequency response process and reduces the rate of change of the system frequency during the disturbance. To analyze the inertia of the wind power generation system, this paper establishes an equivalent Philips-Heffron model for the grid-forming wind generation system and uses the equivalent inertia constant to quantify the inertia of the wind power generation system. The effectiveness of the proposed control strategy and the reasonableness of the inertia assessment method are verified through simulations in the single-turbine system and the IEEE four-machine two-area system. [ABSTRACT FROM AUTHOR]

Published

2024

15. Switched capacitor-based quadruple boost multilevel inverter topology with reduced switch count and its extension.

Author

Murugan, Oorappan G, Pandarinathan, Sivaraman, and Sugirtha Dhas, B Goldvin

Subjects

CAPACITOR switching, POWER resources, DC-AC converters, IDEAL sources (Electric circuits), CAPACITORS

Abstract

Power converters enhance the DC-AC power supply by using multi-level inverters based on switched capacitor technology. The voltage stress on the switches in switched capacitor-based multi-level inverters decreases as the number of switches rises, and vice versa when the number of switches falls. This paper suggests a quadruple boost nine-level inverter based on a switched capacitor with a single voltage source to address this issue. Only nine switches are used in the suggested architecture to implement the inverter with two diodes and two capacitors. Since the diodes and capacitors are linked to the low voltage input side, the total voltage stress of the inverter is kept low even at the elevated for quadruple boost output voltage. The theoretical study, computations, and design parameters of the nine-level inverter are presented in this paper. The switching specifics of the seven-level boost extension topology are also reported in this work. Simulations and laboratory tests on a 120 W inverter prototype have confirmed the viability of the suggested topology. [ABSTRACT FROM AUTHOR]

Published

2024

16. A 12T low-power full adder cell with a novel dynamic circuit.

Author

Hsia, Shih-Chang and Chen, Kuan-Cheng

Subjects

ELECTRIC potential, CAPACITORS

Abstract

In this paper, a new structure for a 1-bit full adder is proposed based on dynamic logic methodology, which utilises pass transistors. The clocking operation falls into two phases. The clocking operation consists of a pre-discharged cycle, during which pseudo capacitors are reset to zero when the clock signal is high, and an evaluation cycle, during which the circuit outputs the adder function when the clock signal is low. The circuit uses a combination of 12 pass-transistors to better implement the full adder logic function with the maximum of a NMOS threshold voltage drop. Moreover, the circuit has no direct connection to the power-supply node and so this can possibly save the power dissipation. Our new adder outperforms other 1-bit full adder structures in terms of power-delay factor, according to simulation results. [ABSTRACT FROM AUTHOR]

Published

2024

17. An improved modulation technique suitable for a three level flying capacitor multilevel inverter.

Author

Mahafzah, Khaled A., Negry, Raneem M., Obeidat, Mohammad A., and Alsalem, Hesham

Subjects

PULSE width modulation transformers, PULSE width modulation, ELECTRIC inverters, CAPACITORS, VOLTAGE references, SQUARE waves, ELECTRONIC systems

Abstract

This research paper introduces an innovative modulation technique for controlling a 3-level flying capacitor multilevel inverter (FCMLI), aiming to streamline the modulation process in contrast to conventional methods. The proposed simplified modulation technique paves the way for more straightforward and efficient control of multilevel inverters, enabling their widespread adoption and integration into modern power electronic systems. Through the amalgamation of sinusoidal pulse width modulation (SPWM) with a high-frequency square wave pulse, this controlling technique attains energy equilibrium across the coupling capacitor. The modulation scheme incorporates a simplified switching pattern and a decreased count of voltage references, thereby simplifying the control algorithm. [ABSTRACT FROM AUTHOR]

Published

2024

18. Model Predictive Voltage Balance Control of Single-Phase Half-Bridge Active Front End Rectifier.

Author

Safdari, Mehran, Pahlavani, Mohammad Reza Alizadeh, and Kolagar, Arash Dehestani

Subjects

VOLTAGE control, SEMICONDUCTORS, COST functions, CAPACITORS, HARMONIC distortion (Physics)

Abstract

Single-phase rectifiers are one of the most practical instruments with various applications. Among them, active front-end (AFE) rectifiers are introduced with bidirectional power transfer capability for power factor correction and the elimination of current harmonics. This paper proposes an adaptive model predictive control (MPC) for a single-phase AFE rectifier. The AFE topology used in this paper is a half-bridge boost converter. This topology has higher efficiency than other single-phase AFEs due to the fewer number of active semiconductor devices. Considering the presence of one leg of capacitors in this topology, balancing the voltages of these capacitors is a challenge, along with other control objectives. Also, this paper benefits from an MPC approach by which the switching signal for every switching state is chosen such that the defined cost function is minimized in the operation state to achieve all control goals based on the predefined model of the rectifier. Furthermore, an adaptive algorithm for the inductor current estimation is presented to robustify the control system against any unwanted disturbance in the control system. As a demonstration of the superior performance of the proposed method, a 1kW rectifier setup with 700Vdc output voltage fed from a 230Vrms/50Hz grid is built in the laboratory. The applicability of the MPC controller is verified and all operation waveforms of the test setup are presented. The proposed method offers a high-quality input current with total harmonic distortion (THD) below 5% and a high-power factor (PF) close to one. Also, the efficiency is comparable with the available commercialized rectifiers. [ABSTRACT FROM AUTHOR]

Published

2023

19. Advancing MRI capacitors: Design, fabrication, and characterization.

Author

Jebri, Zaineb, Ali, Mahfoudh Taleb, and Juergen, Nistler

Subjects

MAGNETIC resonance imaging, CAPACITORS, ELECTRODES, VOLTAGE, ELECTRIC capacity

Abstract

In today's healthcare landscape, MRI (magnetic resonance imaging) plays a pivotal role in early diagnosis and treatment decisions. However, the quest for higher frequencies to achieve micron‐level resolutions poses technological challenges. This paper focuses on coils and capacitors, with special attention to air gap considerations for movable electrodes. The paper delves into the development of adjustable capacitors using high‐fired NP0 ceramic, tailored for 128‐MHz MRI systems. These capacitors boast impressive specs: a 3‐kV breakdown voltage (VBreakdown), a 3‐pF minimum capacitance (Cmin), a 30‐pF maximum capacitance (CMax), and a 1.5‐pF stepwise capacitance variation (Cvariation step). Notably, they enhance breakdown voltage while preserving frequency stability with MgTiCa ceramic between the fixed and mobile electrode, critical for adaptive blocks. Leveraging geometrical parameters analyzed through the ANSYS simulator, the authors meticulously designed an optimized 25–40 pF capacitor with a 15‐mm height and 1600 mm2 surface area. Post‐fabrication and sintering, extensive testing using a vector network analyzer across 10 MHz to 100 MHz validated performance against simulated expectations. [ABSTRACT FROM AUTHOR]

Published

2024

20. Analysis and Suppression of Harmonic Resonance in Photovoltaic Grid-Connected Systems.

Author

Zhu, Tong, Huang, Gechao, Ouyang, Xuetong, Zhang, Weilin, Wang, Yanfeng, Ye, Xi, Wang, Yuhong, and Gao, Shilin

Subjects

PHOTOVOLTAIC power systems, HARMONIC oscillators, ELECTRICAL energy, RESONANCE, DAMPING (Mechanics), CAPACITORS

Abstract

In photovoltaic grid-connected systems, the interaction between grid-connected inverters and the grid may cause harmonic oscillation, which severely affects the normal operation of the system. To improve the quality of the output electrical energy, photovoltaic grid-connected systems often use LCL filters as output filters to filter out high-frequency harmonics. Taking the three-phase LCL-type photovoltaic grid-connected inverter system as an example, this paper addresses the issue of harmonic resonance. Firstly, based on the harmonic linearization method and considering the impact of the coupling compensation term on the grid-side voltage, a modular positive and negative sequence impedance modeling method is proposed, which simplifies the secondary modeling process of the converter under feedback control. Then, the stability analysis is conducted using the Nyquist criterion, revealing the mechanism of high-frequency resonance in photovoltaic grid-connected systems. Furthermore, this paper delves into the impact of changes in system parameters on impedance characteristics and system stability. The results indicate that the proportional coefficient of the internal loop current controller has a significant influence on system impedance characteristics. Additionally, this paper proposes an active damping design method that combines lead correction and capacitor current feedback to impedance-reconstruct the easily oscillating frequency band. Finally, the effectiveness of this method is verified in the simulation platform. Simulation results confirm the effectiveness of this method in suppressing harmonic resonance while maintaining rapid dynamic response. [ABSTRACT FROM AUTHOR]

Published

2024

21. Low‐ripple high‐efficiency AC‐DC rectifier with auxiliary compensator for hydrogen production.

Author

Zhang, Li, Han, Minxiao, Bao, Weiqi, Dong, Yijiang, Fan, Yiwen, and Liu, Haijun

Subjects

ELECTRIC current rectifiers, LOW voltage systems, CAPACITORS

Abstract

In hydrogen production, AC‐DC rectifiers must provide a high current and low voltage to the production load. This paper focuses on the efficient performance and elimination of the output ripple in these AC‐DC rectifiers. Unfortunately, efforts to reduce the current ripple often lead to lower efficiency, causing a contradiction. To address this issue, a low‐ripple high‐efficiency AC‐DC rectifier with an auxiliary compensator is proposed in this paper. The proposed rectifier can maximise efficiency while eliminating the current ripple, including the switching ripple and low‐frequency ripple. By incorporating a rectifier‐chopper and a buck circuit with a series‐connected capacitor, the auxiliary compensator, the solution provides an additional flow path for the current ripple at the rectifier output, successfully preventing the ripple from being output to the load. This paper offers a thorough exposition regarding the causative factors and sources of the switching and low‐frequency ripple. Furthermore, a detailed explication of the operating principle of the proposed rectifier system is provided. The losses and costs associated with auxiliary compensators are then analysed for persuasive purposes. Finally, simulation and experimental results verify the feasibility and superiority of the proposed rectifier. [ABSTRACT FROM AUTHOR]

Published

2023

22. Capacitor Recombination Algorithm Combined with LMS Algorithm in 16-Bit SAR ADC with Redundancy.

Author

Fan, Hua, Wang, Yunan, Wei, Qi, Feng, Quanyuan, and Zhou, Wei

Subjects

SUCCESSIVE approximation analog-to-digital converters, CAPACITORS

Abstract

This paper presents a foreground calibration algorithm combination with a background calibration algorithm for successive approximation register analog-to-digital converters (ADC). The foreground calibration for capacitor mismatch is capacitor recombination algorithm and the background calibration for capacitor mismatch is single-channel least mean square (LMS) algorithm. The capacitor recombination algorithm can initially calibrate the capacitor array mismatch and provide an environment conducive to convergence for LMS algorithm. After running the capacitor recombination algorithm, the convergence speed of LMS algorithm can be improved. The results of 100 times of Monte Carlo simulation show that LMS algorithm can converge within 1500 cycles, the ADC signal-to-noise and distortion ratio is improved from 71.63 to 97.47 dB, the spurious-free dynamic range is improved from 84.98 to 125.28 dB, the effective number of bits is improved from 12.85 to 15.90 bits, the differential nonlinearity is reduced from 2.09 to 0.90 LSBs, and the integer nonlinear is reduced from 7.14 to 0.68 LSBs. [ABSTRACT FROM AUTHOR]

Published

2023

23. An Artificial Neural Network Approach to Performance Investigation of Radial Distribution System with Series Capacitor Installation.

Author

Soni, Yuvraj Praveen and Fernandez, Eugene

Subjects

CAPACITORS, SUCCESSIVE approximation analog-to-digital converters, ARTIFICIAL neural networks

Abstract

This paper presents an investigation into the performance of radial distribution systems (DS) with the installation of series capacitors in feeder sections. While the use of shunt capacitors to enhance voltage profile in DS has been acknowledged, the benefits of series capacitors have only been explored to a limited extent. Load flow analysis, while commonly used for offline evaluation of DS, can at times yield inconclusive results due to convergence issues. To mitigate this, an alternative approach is proposed using Artificial Neural Networks (ANN) to directly determine system performance. The viability of the proposed technique is evaluated for IEEE 12 and IEEE 33 bus DS's having series capacitor in feeder section for voltage improvement and line loss minimization. Therefore, this paper serves to contributes to the two main novelties namely, (1) Development of efficient ANN model to directly determine the maximum voltage regulation and line losses and (2) improvement of voltage and line losses reduction through series capacitor installation in feeder section of the DS. The results show that the utilization of an ANN model enhances accuracy and speeds up predictions, while the installation of series capacitors in feeder sections improves voltage regulation and reduces line losses. [ABSTRACT FROM AUTHOR]

Published

2024

24. Research on the expansion and optimization control strategy of cascaded rectifier H-bridge.

Author

Hu, Jingpeng

Subjects

CAPACITORS, COMPARATIVE studies, VOLTAGE

Abstract

Extensive research on the multi-bridge extension of cascaded rectifier stages is deemed important to meet the requirements of high-voltage and high-power applications. Two control structures for capacitor voltage balancing in cascaded rectifier stages are analyzed in this paper. On this basis, the balance strategy for the multi-bridge extension of single-phase cascaded rectifiers is explored. The balance method of ultra-fast balance modulation trajectories is introduced into single-phase multi-bridge cascaded rectification, and the optimal control strategy is selected through simulation verification and comparative analysis. During the actual experiments, some disturbance factors were introduced into the system, causing an instantaneous unbalanced state. However, through the control strategy proposed in this paper, the system can quickly regain balance. Through simulation validation and analysis of the experimental results, the reliability and innovation of this control strategy have been demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

25. A 5-level T-type inverter fed six-phase induction motor drive for industrial applications.

Author

Rathore, Vishal, Kumar, Dhananjay, and Yadav, K. B.

Subjects

INDUCTION motors, INDUSTRIAL applications, VOLTAGE control, PROOF of concept, CAPACITORS

Abstract

This paper presents the performance analysis of a five-level T-type multilevel inverter (MLI) based six-phase induction motor drive (SPIMD) for high-power industrial applications. In the adopted T-type MLI, the sensorless self-capacitor voltage balancing control is designed, which controls the voltage across the capacitor at half the magnitude of the direct current (DC) source value, creating a symmetrical five-level output voltage waveform. Moreover, self-capacitor voltage balancing control reduces complexity and improves system performance. The SPIMD with distributed neutral is taken as the load, and the whole system is simulated using MATLAB/Simulink software. The system's performance is determined by considering the power loss and efficiency. This paper also presents a comparative performance analysis of the adopted T-type, cascaded h-bridge (CHB) and Flying Capacitor (FC) MLI-based SPIMD. Finally, a prototype is developed as a proof of concept and tested experimentally to validate the analytical development of the adopted system. [ABSTRACT FROM AUTHOR]

Published

2024

26. Effect of Excitation Capacitor on Output Voltage of Self Excited Induction Generator (SEIG).

Author

Ghodake, Akash and Patil, Udaykumar

Subjects

INDUCTION generators, INDUCTION motors, CLEAN energy, ENERGY conversion, CAPACITORS, ELECTRICAL energy

Abstract

The increasing demand of electrical energy has attracted researchers, engineers and designer to focus and investigate further for clean energy sources. The conversion of renewable energy to electric involve use of generators. The concept of induction generator has been addressed by many researchers till date. Nowadays, demand is to further extend the application of induction machine as motor and induction generator in electric vehicles as well. During the regenerative breaking of electric vehicles, the induction machine can serve as induction generator provided appropriate capacity excitation is given. For an electric vehicle the actual speed virus depending upon road conditions, traffic and the driving skills. Hence the induction machine in such an application shall be capable of working as a generator for variable speed operations. The induction generator offers many advantages such as robust and maintenance free construction (squirrel cage), inherent overload protection, configurability etc. This paper discusses the effect of excitation capacitor on the output voltage of self-excited induction generator at variable speed and variable loading conditions. The experimental results of a case study are presented. [ABSTRACT FROM AUTHOR]

Published

2024

27. Experimental Demonstration of High-Sensitivity Nano capacitors via Advanced Nanofabrication Techniques for Nano Electronic Implementations.

Author

Alrudainy, Haider, Hussein, Muaad, Hashim, U., Tijjani, Adam, and Naser, T. S.

Subjects

FIELD emission electron microscopes, CAPACITORS, NANOFABRICATION, SUCCESSIVE approximation analog-to-digital converters, ELECTRIC conductivity

Abstract

Nano gap capacitors have recently received significant interest as a key component in a wide range of implementations including photonics, Nanoelectronics, and sensing applications. Many exploratory research projects are being conducted to investigate the electrical characteristics of these nano capacitors. One essential issue that this paper addresses is the need for highly sensitive nano gap capacitors which can be adopted for ultra-low power sensing implementations. In this paper, gold is utilized as the electrode material owing to its superb chemical stability, electrical conductivity, and biocompatibility. The fabrication process is started by designing the mask namely nano gap pad electrodes using AutoCAD software. Subsequently, the designs are finally transferred and fabricated onto a chrome glass surface. In this work, after a combination of conventional photolithography and size reduction approach used to fabricate the device, conventional photolithography is applied to transfer the nano gap pattern onto the gold surface. In order to achieve the desired dimension of the nano gap, a size reduction technique is employed. Describe the most important thing in 2-3 sentences only). Visual inspection using a High Power Microscope (HPM), 3D nano profiler, X-Ray diffractions (XRD), and Field Emission Scanning Electron Microscope (FESEM) have been employed to observe and validate the fabricated structures. Results show that a 2.5 nano Ampere is measured as the applied voltage increases to 10 mV. This firmly demonstrates the ultra-low power consumption, several Pico watts, of these nano gap capacitors. Further, our findings show that the fabricated 4nm gap structure can achieve an approximately 300 nano farad capacitor at low frequencies, which is advantageous for adoption in highly sensitive biosensors. [ABSTRACT FROM AUTHOR]

Published

2024

28. Using a Very Simple Capacimeter to Evaluate Aluminum Electrolytic Capacitors Health Status.

Author

Amaral, Acácio M. R. and Marques Cardoso, A. J.

Subjects

ELECTROLYTIC capacitors, RC circuits, OPERATIONAL amplifiers, ALUMINUM, CAPACITORS

Abstract

This paper presents a very simple circuit that is able to measure capacitors capacitance, based on the estimation of capacitors discharge time. The proposed prototype is able to compute the time required by a capacitor to discharge three fourths of the stored energy. For that, a simple RC circuit is used, composed of the capacitor under test and some resistors, two operational amplifiers, which are used to identify the starting and ending points of the discharge time, four 4-bit counters, four BCD to 7 segment drivers and four displays of 7 segments, which show the computed capacitor capacitance. Several experimental results are presented. [ABSTRACT FROM AUTHOR]

Published

2023

29. DYNAMIC HARMONIC DOMAIN APPROACH TO ASSESS PERFORMANCE OF THREE-PHASE FIXED CAPACITOR THYRISTOR CONTROLLED REACTOR (FC-TCR).

Author

BADUGU, JAYABABU, REDDY, G. NAGESWARA, and KUMAR, KURAKULA VIMALA

Subjects

THYRISTOR control, REACTIVE power control, FLEXIBLE AC transmission systems, REACTIVE power, CAPACITORS, ELECTRIC power distribution grids

Abstract

Harmonics have become an important issue as the number of non-linear elements and electronic devices coupled to electrical power systems increases by the day. A Fixed Capacitor Thyristor Controlled Reactor (FC-TCR) is widely used in power systems to continuously control reactive power. This paper presents the harmonic analysis of a three-phase FC-TCR under different operating conditions using the Dynamic Harmonic Domain (DHD) technique. The existing Harmonic Domain (HD) method is widely used to obtain the steady-state harmonics in the power grid. It is not possible to calculate transient harmonics using the harmonic domain method. The dynamic harmonic domain technique also provides a solution for the transient condition. The three-phase FC-TCR is simulated in a MATLAB environment and calculates transient harmonic quantities such as apparent power S(t), reactive power Q(t), real power P(t), and distortion power D(t), RMS values, and distortion factors of the three-phase FC-TCR when subjected to voltage disturbance. [ABSTRACT FROM AUTHOR]

Published

2022

30. Self-balanced high gain switched-capacitor boosting inverter with lower cost function.

Author

Kumari, Pooja, Singh, Ashutosh Kumar, Kumar, Niranjan, and Mandal, Rajib Kumar

Subjects

COST functions, CAPACITOR switching, POWER resources, CAPACITORS, LINE drivers (Integrated circuits), VOLTAGE

Abstract

This paper discusses in detail a new 17-level inverter that employs a switched-capacitor (SC)-based configuration. The proposed SC-based inverters require just a single DC power supply, three capacitors, four diodes and 13 switches. The peak inverse voltage of the proposed 17-level SC-based inverter half-bridge is cut in half when compared to the prior arrangement, which was published not long ago. The blocking voltage is reduced by an order of magnitude as well. Many of the features of the proposed SC-based inverter, such as a high boosting gain factor (G) of eight times, self-balanced capacitor voltage and decreased voltage ripples in capacitors, have been carried over to other SC-based MLIs. The circuit description, working theory, PWM modulation techniques and capacitor voltage ripples are all examined. Finally, the results of the experiments show without a doubt that the proposed SC-based inverter can be made. [ABSTRACT FROM AUTHOR]

Published

2024

31. A new single magnetic core coupled-inductor based active switched Quasi Z-source inverter.

Author

Zarrinehbafan, Mohammadreza, Seifi, Ali, Nadermohammadi, Ali, and Hosseini, Seyed Hossein

Subjects

HIGH voltages, MAGNETIC cores, LOW voltage systems, TOPOLOGY, CAPACITORS

Abstract

This paper presents a novel topology for Z-source inverters (ZSI). The new Z-Source network is based on the coupled-inductors and active switched boost. Features of the topology include high voltage boost ability, single magnetic-core, low voltage stress on the active switch, and capacitors. The principles of operation, analysis, voltage and current equations of each component, and the converter voltage gain in the steady-state are presented. A comparison with other topologies has also been performed to determine the advantages and disadvantages of the proposed ZSI. Finally, experimental results of the laboratory prototype are presented to confirm the performance of the proposed topology. [ABSTRACT FROM AUTHOR]

Published

2024

32. Advanced strategy of grid-forming wind storage systems for cooperative DC power support.

Author

Xiaoke Zhang, Jiaqi Wang, Zan Gao, Shaofeng Zhang, Weijun Teng, Jun Huang, Shun Sang, and Huimin Wang

Subjects

SERVICE life, WIND turbines, STORAGE, CAPACITORS, ENERGY storage

Abstract

Grid-forming (GFM) wind storage systems (WSSs) possess the capability of actively building frequency and phase, enabling faster frequency response. The frequency regulation power of GFM WSSs is provided by both the rotor of wind turbine and the battery storage (BS) in parallel with DC capacitor. However, with existing control strategies, the energy storage immediately responds to both small and large grid disturbances. The frequent responses significantly decrease the lifespan of energy storage. To address this issue, a cooperative strategy between rotor and energy storage is necessary. This paper proposes an advanced strategy of GFM WSSs for cooperative DC power support. The cooperative principle is that for small disturbances, the BS is disabled and total frequency regulation power is provided by the rotor, while for large disturbances, the BS is enabled to cooperatively provide power support with the rotor. The proposed cooperative strategy can decrease the charging and discharging times of BS with a small range of rotor speed fluctuation, and then the service life of BS can be significantly extended. Simulation results validate the effectiveness and superiority of the proposed strategy. [ABSTRACT FROM AUTHOR]

Published

2024

33. Capacitor sizing of three‐level neutral point clamped voltage source inverter for electric vehicles: Effects of modulation and motor characteristics.

Author

Ogan, Serhat Emir and Bostanci, Emine

Subjects

ELECTRIC inverters, IDEAL sources (Electric circuits), CAPACITORS, ELECTRIC drives, PULSE width modulation, ELECTRIC vehicles

Abstract

A three‐level neutral point clamped (3L‐NPC) voltage source inverter (VSI) topology can be advantageous in electric vehicles with a high DC‐link voltage and a high switching frequency. A bulky DC‐link capacitor is not an option; thus, the DC‐link capacitor's sizing considering the traction system characteristics is an important design step. This paper investigates how the DC‐link capacitor size of a 3L‐NPC VSI gets affected by the combination of the interdependent characteristics of an electric drive, such as its power factor, modulation index, current, and fundamental frequency, with the effects of the modulation methods. Five pulse width modulation (PWM) methods, of which three of them have an active neutral point potential control, are compared in terms of their neutral point potential (NPP) oscillations. Then, the size of the DC‐link capacitor is determined for each PWM method so that the NPP ripple is kept under desired limits at all operating conditions. It is shown that both the modulation technique and the electric machine characteristics influence the capacitor size. For example, electric machine design modifications can introduce more than a 30% reduction in capacitor size. Finally, DC‐link and NPP oscillations with different PWM methods are experimentally validated in a scaled‐down 3L‐NPC inverter. [ABSTRACT FROM AUTHOR]

Published

2024

34. Performance Improvement of an MR-Damper-Based Vibration-Reduction System with Energy Harvesting at Sprung Mass Changes.

Author

Sapiński, Bogdan and Jastrzębski, Łukasz

Subjects

HARMONIC oscillators, HIGH performance computing, FREQUENCIES of oscillating systems, MAGNETORHEOLOGY, CAPACITORS, ENERGY harvesting

Abstract

The present paper is concerned with a magnetorheological (MR)-damper-based vibration-reduction system with energy harvesting capability considering sprung mass changes. The system represents a mechanical harmonic oscillator with electrical coupling, set in motion by kinematic excitation. The authors examine the system performance in the case when the MR damper control coil (damper control coil) is powered directly by the alternating current resulting from the voltage generated in an electromagnetic harvester in the assumed frequency range of sine excitation. Such a system is able to attenuate vibration in the near-resonance frequency range when the current in the damper control coil increases; however, its drawback is vibration amplification at higher frequencies. To eliminate this negative feature, it is proposed to connect shunt capacitors in parallel with the damper control coil. Then, the system can be tested experimentally in terms of current in the damper control coil, sprung mass, and the capacity of shunt capacitors in order to evaluate system performance according to the assumed performance index. The obtained results demonstrate significant improvement in system performance at higher frequencies of excitation. [ABSTRACT FROM AUTHOR]

Published

2024

35. Setting‐zero analysis for multistage amplifier design.

Author

Lei, Junqing and Wu, Chenjian

Subjects

*CAPACITORS, *BANDWIDTHS, *DESIGN, *VOLTAGE

Abstract

Summary: A setting‐zero analysis method is presented to facilitate the prediction of zeros in multistage amplifiers. The main objective of this method is to simplify the analysis process of such amplifiers while improving the overall performance, and the feasibility is confirmed by various examples presented in this paper. By proposing a single‐capacitor cascode Miller compensation three‐stage amplifier using setting‐zero analysis, this paper has theoretically verified that the addition of a grounding second‐stage compensation capacitor is unnecessary. Measurement results show that this amplifier consumes a current of 38 μA at a 1.2 V supply voltage, with a 103 dB open‐loop gain. When driving a 1 nF load capacitor, this design achieves 1.88 MHz gain bandwidth and 73° phase margin, with a 3.33 V/μs average slew rate and an average 1% settling time of 0.40 μs under the unity‐gain configuration. [ABSTRACT FROM AUTHOR]

Published

2024

36. Fault Characterization for AC/DC Distribution Networks Considering the Control Strategy of Photovoltaic and Energy Storage Battery.

Author

Yuan, Yubo, Li, Juan, Lyu, Pengpeng, Qian, Zhonghao, Jiang, Yunlong, and Wang, Jiaming

Subjects

DISTRIBUTED power generation, STORAGE batteries, ENERGY storage, CAPACITORS

Abstract

In order to cope with the failure of existing fault analysis schemes for AC/DC distribution networks with a high proportion of distributed generations, this paper proposes a fault characteristic analysis method for AC/DC distribution networks that considers the influence of distributed generation control strategies. Firstly, a transient model for the AC/DC distribution network connected to distributed generations is built. Then, the fault characteristics of the AC/DC distribution network in different stages, such as the capacitor discharge stage, inductive renewal stage, and steady state stage, is analyzed. Finally, detailed simulation analysis is conducted using PSCAD/EMTDC to validate the effectiveness of the developed scheme by the superior approximation performance between simulated curves and calculated curves. [ABSTRACT FROM AUTHOR]

Published

2024

37. On the Influence of Fractional-Order Resonant Capacitors on Zero-Voltage-Switching Quasi-Resonant Converters.

Author

Cao, Wangzifan and Chen, Xi

Subjects

CAPACITORS, RESONANT states, NUMERICAL analysis, NUMERICAL calculations, ANALYTICAL solutions

Abstract

This paper focuses on the influence of the fractional-order (FO) resonant capacitor on the zero-voltage-switching quasi-resonant converter (ZVS QRC). The FO impedance model of the capacitor is introduced to the circuit model of the ZVS QRC; hence, a piecewise smooth FO model is developed for the converter. Numerical solutions of the converter are obtained by using both the fractional Adams–Bashforth–Moulton (F-ABM) method and Oustaloup's rational approximation method. In addition, the analytical solution of the converter is obtained by the Grünwald–Letnikov (GL) definition, which reveals the influence of the FO resonant capacitor on the zero-crossing point (ZCP) and resonant state of the converter. An experimental platform was built to verify the results of the theoretical analysis and numerical calculation. [ABSTRACT FROM AUTHOR]

Published

2024

38. Converter Capacitor Temperature Estimation Based on Continued Training LSTM under Variable Load Conditions.

Author

Dai, Xiaoteng, Chen, Yiqiang, Chen, Jie, and Qiu, Ruichang

Subjects

ELECTRONIC equipment, CAPACITORS, TEMPERATURE, CERAMIC capacitors, RELIABILITY in engineering, CAPACITOR switching

Abstract

Capacitors are crucial components in power electronic converters, responsible for harmonic elimination, energy buffering, and voltage stabilization. However, they are also the most susceptible to damage due to their operational environment. Accurate temperature estimation of capacitors is essential for monitoring their condition and ensuring the reliability of the converter system. This paper presents a novel method for estimating the core temperature of capacitors using a long short-term memory (LSTM) algorithm. The approach incorporates a continued training mechanism to adapt to variable load conditions in converters. Experimental results demonstrate the proposed method's high accuracy and robustness, making it suitable for real-time capacitor temperature monitoring in practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

39. A Family of 5-Level Boost-Active Neutral-Point-Clamped (5L-BANPC) Inverters with Full DC-Link Voltage Utilization Designed Using Half-Bridges.

Author

Lee, Sze Sing

Subjects

VOLTAGE, CAPACITORS, TOPOLOGY, ELECTROSTATIC discharges, CAPACITOR switching

Abstract

Conventional 5-level active neutral-point-clamped (5L-ANPC) topology and state-of-the-art 5-level hybrid active neutral-point-clamped (5L-HANPC) topology are popular for inverter applications. However, their dc-link voltage utilization is limited to only 50%. With the maximum voltage level generated by only half dc-link voltage, these inverters are not capable of boosting voltage in their ac output. To resolve these drawbacks, this paper proposes a family of four novel 5-level boost-active neutral-point-clamped (5L-BANPC) inverters. Without requiring any flying capacitors, the proposed topologies can generate five voltage levels by effectively using the dc-link capacitors. The dc-link voltage utilization of the proposed 5L-BANPC inverters is twice that of the 5L-ANPC and 5L-HANPC topologies. While generating the five-level ac output voltage, natural voltage balancing of both dc-link capacitors and voltage boosting are achieved. Ease of implementation is another noteworthy merit of the proposed 5L-BANPC inverters because they can be implemented using six widely available commercial half-bridge modules without requiring a dedicated circuit design. The operation of the proposed topologies is analyzed. Experimental results are presented for verification. [ABSTRACT FROM AUTHOR]

Published

2024

40. Single-Stage LLC Resonant Converter for Induction Heating System with Improved Power Quality.

Author

Kumar, Anand, Goswami, Anik, Sadhu, Pradip Kumar, and Szymanski, Jerzy R.

Subjects

AC DC transformers, INDUCTION heating, HEATING, ZERO voltage switching, COMPUTER simulation, TOPOLOGY, CAPACITORS

Abstract

This paper proposes a single-stage direct AC to high-frequency (HF) AC resonant converter based on LLC configuration for induction heating (IH) systems or HF applications. Unlike conventional converters for IH systems, the proposed topology converts the utility frequency to HF AC in a single stage without using a DC link inductor and capacitors and takes the advantages of LLC configuration. Additionally, it improves the power factor to 0.9–1, lowers the THD (3.2% experimentally), and protects against the high-frequency components. An embedded control scheme was designed to keep the HF current oscillating at a resonant frequency, ensuring zero-voltage switching. The operating principle of the proposed topology was investigated using mathematical equations and equivalent circuits. Finally, it was verified using computer simulation, and an experimental prototype of 1.1 kW was developed to demonstrate the proposed topology's uniqueness. [ABSTRACT FROM AUTHOR]

Published

2024

41. Combined Light and Data Driving Stages without Capacitors for Energy Transformation.

Author

Windisch, Michael, Himmelstoss, Felix A., Leba, Monica, Stoicuta, Olimpiu, and Votzi, Helmut L.

Subjects

ELECTROLYTIC capacitors, CAPACITORS, LED displays, DATA transmission systems, DC-to-DC converters

Abstract

Three LED drivers which can be used for illumination, but whose main task is the transmission of information (data) via the light of the LEDs, are explored in this paper. The converter circuits need no capacitors for the energy transformation and avoid an inrush current. The lack of necessity of electrolytic capacitors reduces cost and space. Dimming the illumination is also easy to achieve. The control concept of the converters and the generation of pulsing of the LEDs for transmitting the information (data) are explained. The converters can also be expanded to more stages to drive more LEDs with different types of information. All three converters are explained in detail; all presented circuits are built up and simulated with LTSpice. Several data transmission concepts are applied and demonstrated through simulations. [ABSTRACT FROM AUTHOR]

Published

2024

42. An SVPWM Algorithm for a Novel Multilevel Rectifier with DC-Side Capacitor Voltage Balance.

Author

Cheng, Hong, Yang, Daokuan, Wang, Cong, and Tian, Changgeng

Subjects

ELECTRIC current rectifiers, CAPACITORS, PULSE width modulation, VOLTAGE, VOLTAGE references, VECTOR spaces

Abstract

The recently proposed novel unidirectional multilevel rectifier, a three single-phase star-connected multilevel rectifier, has the characteristic of having a large number of DC-side capacitors and a complex capacitor voltage balancing control structure under conventional carrier-based phase-shift sine wave pulse-width modulation (SPWM). Hence, a space vector pulse-width modulation (SVPWM) algorithm for the novel multilevel rectifier is proposed in this paper, which can quickly balance the capacitor voltage without an additional voltage balancing control structure. Firstly, it divides the space vectors of the rectifier, then it determines the two basis voltage vectors that synthesize the output reference voltage. After that, based on the analysis of the relationship between switching states and the charge–discharge of capacitors, the final action sequences of redundant vectors are determined according to the principle of keeping the capacitor charge–discharge time consistent. Thus, the capacitor voltages can be automatically balanced without an additional voltage balancing control structure. Finally, simulation and experimental results validated the feasibility and effectiveness of the proposed SVPWM algorithm. The results also show improvements in current quality, capacitor voltage balance and the fluctuation of the neutral point voltage on the DC-link, allowing for further reduction in the overall volume and cost of the rectifier. [ABSTRACT FROM AUTHOR]

Published

2023

43. Study on Lifetime Decline Prediction of Lithium-Ion Capacitors.

Author

Cui, Shuhui, Riaz, Saleem, and Wang, Kai

Subjects

CAPACITORS, MACHINE learning, ARTIFICIAL intelligence, LITHIUM-ion batteries, LONGEVITY, TEMPERATURE effect, ENERGY storage

Abstract

With their high-energy density, high-power density, long life, and low self-discharge, lithium-ion capacitors are a novel form of electrochemical energy storage devices which are extensively utilized in electric vehicles, energy storage systems, and portable electronic gadgets. Li-ion capacitor aging mechanisms and life prediction techniques, however, continue to be active research areas. This paper examines the aging process for Li-ion batteries, covering the alterations in cell composition, the effect of the electrode charge state, temperature effects, and electrolyte deterioration. Additionally, this research offers approaches for predicting the lifespan of lithium-ion batteries, including those based on physical models, machine learning, and artificial intelligence. In this work, cycle life testing techniques are also discussed, including accelerated aging experiments for lithium-ion capacitors. The paper concludes by discussing future directions for the creation of aging mechanisms and lithium-ion capacitor life prediction techniques. [ABSTRACT FROM AUTHOR]

Published

2023

44. An Optimal Strategy for Submodule Capacitance Sizing of Cascaded H-Bridge-Based Active Power Filter.

Author

Wang, Hengyi and Gao, Fei

Subjects

ELECTRIC power filters, ELECTROLYTIC capacitors, TIME-domain analysis, CAPACITORS, ELECTRIC capacity

Abstract

This paper presents capacitor dimensioning to increase a system's power density while the converter performance for the delta-connected cascaded H-bridge (CHB) active power filter (APF) is not impaired. After comparing aluminum electrolytic capacitors with film capacitors, this paper proposes capacitance design requirements for film capacitors. With the help of trigonometric transformation for periodic time-varying variables, including capacitor voltages and branch voltages, the capacitance design requirements can be represented as positive univariate polynomials, the coefficients of which are with regard to the capacitance value. The optimization solver SeDuMi is then applied to determine whether a capacitance value is feasible by checking the positiveness of the polynomials. This research has very appealing theoretical and practical properties: the time-domain analysis capability for periodic variables is improved, therefore, enabling a fast computation and a broad application. Both the simulations and experimental results validate the proposed strategy. Compared with the previous work, the proposed method can result in a lower capacitance value without degrading the performance, which is beneficial for a low-cost and low-volume system. [ABSTRACT FROM AUTHOR]

Published

2023

45. On the Boundaries of the Realization of Single Input Single Element-Controlled Universal Memelement Emulator.

Author

Bhardwaj, Kapil and Srivastava, Mayank

Subjects

CIRCUIT elements, ON-chip charge pumps, CAPACITORS

Abstract

The paper discusses in detail the inability of a circuit designer to design a single input single element-controlled universal memelement emulator. A Single input Single element-controlled universal memelement emulator would be such a configuration that can provide the realization of any of the three memelements (Memristor/Memcapacitor/Meminductor) by taking a circuit element as inductor (L), Capacitor (C) or Resistor (R) with the same input port. The analysis shows that no such circuit configuration can be built to realize such a highly flexible universal memelement emulator. It is found that by using such structures, only two ideal memelements can be realized at maximum. If these circuit structures are used to realize the remaining third memelement, then, the resulting element comes out to be a non-ideal memelement. Two circuit configurations to demonstrate this theory are also included for both charge-controlled and flux-controlled memelement emulation based on the approaches shown in this paper. [ABSTRACT FROM AUTHOR]

Published

2023

46. Microgrid‐based parallel‐operated voltage‐source inverters: Stability analysis and enhancement in presence of active loads.

Author

Khalooei, Ali and Rahimi, Mohsen

Subjects

TIME-domain analysis, VOLTAGE control, EQUATIONS of state, MICROGRIDS, CAPACITORS

Abstract

This paper deals with the stability analysis and enhancement in the AC‐microgrid system comprising parallel‐operated voltage‐source inverters (VSIs) supplying an active‐load. The active‐load behaves such as a constant power load from the AC‐side. In the paper, two models for the active‐load modeling in the AC microgrid are considered: (i) simple model in which the active‐load is modeled as an ideal current source, (ii) detailed model in which all dynamics of the active‐load converter and related controllers are taken into account. The main findings and contribution of this paper are as follows. (a) All linearized state equations of the study system are extracted and transferred into a unified common dq‐reference frame, and then, small‐signal stability of the study system is carried out in the common reference frame by using the simple and detailed models of the active‐load. (b) It is shown that the simple model of the active‐load, as a current source, leads to more pessimistic results in comparison to the active‐load detailed model. (c) Impacts of the active‐load power and bandwidth of the active‐load voltage control loop on the system stability are examined. (d) Control of the generation‐side VSIs is modified and a stabilizing approach, called generation‐side virtual capacitor, is proposed for stabilizing the system under high active‐load penetration. Next, modal analysis and time‐domain simulations are used to investigate the study system responses with and without the proposed stabilizing approach. [ABSTRACT FROM AUTHOR]

Published

2023

47. CONTRIBUTIONS TO THE DEVELOPMENT OF A NEW FAMILY OF HYBRID DC-DC CONVERTERS.

Author

MUNTEAN, Nicolae, CORNEA, Octavian, HULEA, Dan, GIREADĂ, Mihăiţă, and VITAN, Dănuţ

Subjects

VOLTAGE, CAPACITOR switching, CAPACITORS, ELECTRIC inductors, AUTOMOTIVE electronics

Abstract

The paper presents a synthesis of the author contributions in developing a new class of DC-DC hybrid converters (HDC) with large voltage conversion ratio. The HDC structures are obtained by introducing commutated inductive and capacitive cells in the classical DC-DC converters. With these topologies, the voltage conversion ratio is larger, at the same duty cycle, compared with the classical converters. The paper presents some of the developed configurations, with unidirectional and bidirectional power flow, and some corresponding applications in renewable energy conversion and automotive industries. [ABSTRACT FROM AUTHOR]

Published

2023

48. A Novel Graphical Approach for the Fast Estimation of Filter Capacitor Value and the Output Performance of Various Uncontrolled Rectifier.

Author

Akbaba, Mehmet, Dakkak, Omar, Atasoy, Ferhat, and Cora, Adnan

Subjects

ELECTRIC current rectifiers, ROOT-mean-squares, CAPACITORS

Abstract

This paper proposes a novel approach for low-power applications for the fast estimation of filter capacitor value and the output performance parameters such as average, and Root Mean Square (RMS) values for the voltage and current considering single-phase full-wave, three-phase half-wave and three-phase full-wave rectifier circuits. For this aim, the novel equations in this work are derived for the average output voltage and rms ripple voltage separately for each of the above-mentioned three rectifier types. Then % ripple factors for each rectifier type are calculated using newly derived equations and plotted versus the newly introduced Normalized Time Constant (NTC). Besides, considering the peak supply voltage as the base voltage, the Per Unit (p.u.) output average voltage and rms ripple voltage for each of the rectifier circuits are computed and plotted versus NTC. These graphs will be normalized graphs since the output values of these graphs have turned into independent of both supply voltage amplitude and supply frequency. Normalized graphs are set up only once for each type of the rectifier circuit. Then, and for a pre-selected ripple factor value, the corresponding NTC value is obtained by straightforward reading from the graphs set up between the % ripple factor and NTC. Once the NTC value has been acquired, using the formula of NTC leads to finding the capacitor value required for the pre-selected ripple factor with one simple step calculation. Furthermore, the p.u. values of the average output voltage and rms ripple voltage values that correspond to the same NTC value are obtained by reading them from the set-up graphs directly. Finally, the efficiency of the proposed method is demonstrated through design examples for each type of rectifier circuit. The three design examples highlight how the output performance values can be obtained easily, accurately and swiftly. Furthermore, the viability of the graphical approach is verified by the experimental results which demonstrate the suitability of the derived equations in the proposed method. [ABSTRACT FROM AUTHOR]

Published

2023

49. CAPACITOR FOR THE VOLTAGE-SURGE SUPPRESSION IN A SICMOSFET HALF-BRIDGE INVERTER.

Author

Hasanah, Rini Nur, Djuriatno, Waru, Ardhenta, Lunde, Suyono, Hadi, Wijaya, Febry Pandu, and Mokhlis, Hazlie

Subjects

ELECTROLYTIC capacitors, CAPACITORS, BUSINESS losses, VOLTAGE control, LOW temperatures

Abstract

This paper explores some efforts to suppress the voltage surge appearing during the operation of a SiC-MOSFET-based half-bridge circuit in an inverter topology. The study is important to carry out, as the voltage surge problem does not come up when a Si-IGBT is used as the switching component in the half-bridge; however, some applications demand certain properties like what is found in a SiC-MOSFET. Compared to Si-IGBT with rise-time/fall-time larger than 100 ns in general, the use of SiC-MOSFET is preferable due to its much shorter switching time, less than 50 ns, which brings about a much lower switching loss and lower operating temperature. However, the choice of the usual electrolytic capacitor in the dc-link would produce an undesired voltage surge during the half-bridge operation. The origin of the surge is sometimes assigned to the inductance parasitic effect of the SiC-MOSFET high frequency. This research proves the benefit of a film capacitor to suppress the surge due to its lower equivalent series resistance (ESR) than that of the electrolytic capacitor. The results contribute to the consideration to take during the circuit realization in various applications, as there are not many papers yet found discussing the use of film capacitor in the dc-link of a SiC-MOSFET half-bridge inverter. This study also reveals the importance of the film capacitor placement during the design stage of SiC-MOSFET applications; moreover, motor controllers being equipped with an inverter such as described in this study have not been found yet in the market. The efforts investigated in this work would help to control the undesirable voltage spikes that frequently occur when applying a SiC-MOSFET to a half-bridge inverter design. [ABSTRACT FROM AUTHOR]

Published

2023

50. The influence of Al2O3 nanolamination in ALD ZrO2 capacitor on physical and electrical characteristics.

Author

Guillon, Virgil, Riou, Benoit, Billoué, Jérôme, Defforge, Thomas, Gardes, Pascal, Bah, Micka, and Gautier, Gaël

Subjects

ALUMINUM oxide, ATOMIC layer deposition, CAPACITORS, STRAY currents

Abstract

In this paper, the nanolamination of a ZrO2 insulator by Al2O3 for metal insulator metal capacitor applications has been studied. The insulating layers (ZrO2 and Al2O3) were deposited by atomic layer deposition and the electrodes were made of TiN. Different configurations of ZrO2 and Al2O3 alternations were studied, including 1 to 16 Al2O3 inclusions in the ZrO2 layer. X-ray diffraction of the insulator configurations showed that with four or more Al2O3 inclusions, the structure loses its crystalline orientation and becomes amorphous. Electrical characterizations have been conducted to study the capacitance, breakdown field, and leakage current for every insulator configuration. The capacitance density significantly decreases as the number of Al2O3 layers increases, except when an amorphous transition occurs; at this point, a local maximum of 17 nF/mm2 was found. A 19% increase of the breakdown field of samples with two or more Al2O3 inclusions has been correlated with an increase of leakage current explained by the emergence of the Fowler–Nordeim conduction mechanism at electrical fields higher than 4 MV/cm. [ABSTRACT FROM AUTHOR]

Published

2022