445 results
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2. Design Validation of a Single Semiconductor-Based Marx-Generator Stage for Fast Step-Wise Arbitrary Output Waveforms.
- Author
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Hochberg, Martin, Sack, Martin, Herzog, Dennis, Weisenburger, Alfons, and Mueller, Georg
- Subjects
PULSED power systems ,MICROPROCESSORS ,ELECTROMAGNETIC interference ,SEMICONDUCTORS ,ELECTRIC potential - Abstract
A new modular pulsed-power source with fast rise time and step-wise arbitrary output waveform generation is currently under development to drive the Gepulste Elektronenstrahlanlage device investigated at the Institute for Pulsed Power and Microwave Technology (IHM). Acknowledging the complex design procedures necessary to set up a modular pulsed-power source for voltages of up to 120 kV, this paper focuses on the circuit design for a single stage and its validation prior to the generator assembly. Using a semiconductor-based Marx generator topology, the stages are designed to have an output voltage of 1 kV with a pulse current of up to 600 A. When connected to an ohmic load, the measured current rise times are in the order of 46 ns resulting in the current rise rates of up to 10 kA/ $\mu \text{s}$ using the commercial devices. The step-wise arbitrary output waveform is created by generating the switching commands on the stage using a microprocessor and a fast optical synchronization unit. Effective stage shielding is verified by operating the stage in a 100-kV, 2.5-kA electromagnetic interference test bed. This paper presents the design considerations and the corresponding measurements. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
3. Coreless AFPM Pulsed Alternator With Low Internal Inductance.
- Author
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Sezenoglu, Ceyhun and Balikci, Abdulkadir
- Subjects
LINEAR induction motors ,CAPACITORS ,ELECTRIC inductance measurement ,ALTERNATING current generators ,STATORS - Abstract
The linear induction launcher consists of two parts: the barrel section and the projectile section. The barrel contains of a long coaxial sectionalized group of coils that are energized by a capacitor bank or generator sets. This paper deals with the design, implementation, and experimental test of a coreless axial-flux permanent magnet (AFPM) pulsed alternator with a flywheel system as an energy source for linear induction coil launchers. The proposed coreless AFPM generator has a low internal inductance and resistance of stator windings without compensation windings when compared with the conventional iron core machines. This paper describes the coreless AFPM generator configuration and shows the simulation findings. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
4. Options for an Electric Launcher System.
- Author
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Hundertmark, S. and Liebfried, O.
- Subjects
PULSED power systems ,HYPERVELOCITY ,ELECTRIC circuits ,ARTILLERY ,ELECTRIC transients - Abstract
Railguns are current-driven guns that allow reaching large muzzle velocities and energies. In the military context, the long-range artillery scenario makes use of these two capabilities to enable the launch of hypervelocity projectiles to target distances above 100 km. As of today, the most advanced railgun project is conducted by the Office of Naval Research, Arlington, VA, USA, and features railguns with a muzzle energy of 32 MJ. Such large artillery railgun systems with efficiencies above 30% are fed by a pulsed power system with a nominal energy content of about 100 MJ. In contrast to this, experiments with French-German Research Institute’s (ISL) most powerful railgun, PEGASUS, have reached muzzle energies of 2 MJ, only. The nearer future ISL has to answer two questions: 1) is the railgun technology adequate for a long-range artillery scenario? 2) can the railgun launch a hypervelocity projectile which is being developed by other groups in ISL? To do so and to support the development of the hypervelocity projectile, a larger railgun installation with a significant increase of the energy and free flight capability is required. In this paper, three different railgun systems were investigated using an electric circuit simulation code. The systems are referred to by the energy being stored in the capacitors as 25, 50, and 100 MJ. The aim of this paper is to investigate what masses can be accelerated to the relevant velocity range for the long-range artillery scenario by these different primary energies. The results of this paper can be used to aid the decision about the required size, with respect to the military scenario, of a potential future railgun system. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
5. DSRD-Based HVdc Power Supply.
- Author
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Samizadeh Nikoo, Mohammad, Hashemi, Seyed Morad-Ali, and Vakilian, Mehdi
- Subjects
HIGH-voltage direct current transmission ,CONSTANT-current power supply ,POWER transformers ,DELAY lines ,VOLTAGE multipliers - Abstract
A novel high-voltage direct current (HVdc) power supply which has no transformer or voltage multiplier circuit is presented and analyzed in this paper. This is made possible upon the diodes storage delay phenomenon. This proposed power supply is compact, lightweight, and low cost. Its basic structure includes a diode with a proper reverse recovery specification that plays the role of a step-up transformer in the conventional HVdc supplies and a high-voltage capacitor which stabilizes the output voltage. This structure has remarkable advantages over the conventional transformer-based HVdc supplies, such as compactness, a low ripple output, and a low-cost power supply. Performance of the proposed method and its accuracy are investigated in this paper. The results are verified by implementation of a 1.2-kV prototype supply. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
6. Rise-Time Improvement in Bipolar Pulse Solid-State Marx Modulators.
- Author
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Canacsinh, Hiren, Silva, J. Fernando, and Redondo, L. M.
- Subjects
ELECTRONIC modulators ,CAPACITORS ,INSULATED gate bipolar transistors ,DIODES ,SWITCHING circuits - Abstract
This paper presents the effect of stray capacitances in bipolar (negative and/or positive) pulses generated by the two different topologies of the solid-state Marx modulators. According to the analysis, the stray capacitances influence the energy transfer from the Marx modulator capacitors to the load affecting the bipolar (negative and/or positive) pulse rise time. This paper deals with the structure design to reduce the influence of the stray capacitance and to improve the pulse rise time of these bipolar solid-state Marx modulators. A four-stage laboratory prototype of the two topologies has been assembled using 1200-V insulated gate bipolar transistors and diodes, operating with 1000-V dc input voltage and 1-kHz frequency, producing 4-kV bipolar pulses, with 5- \mu \texts pulse duration and 120-ns rise time, into a resistive load. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
7. Diagnostic of Neutralization Current for Arcs on Satellite Solar Panel Coupons.
- Author
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Joshi, Rashmi S. and Gupta, Suryakant B.
- Subjects
FLASHOVER ,ELECTROSTATIC discharges ,PHOTOVOLTAIC power systems ,SATELLITE solar power stations ,SPACE plasmas - Abstract
Risk of arcing in space plasma environment on satellite solar panel has always been an issue of major concern in the aerospace community. The outcome of round robin tests performed in various laboratories has resulted in finalization of the guidelines for the ground test of satellite solar panel coupons (SSPCs). This is documented as ISO-11221 standards. Authenticity of arc plasma flashover (FO) parameters are still under debate. Some experimental findings that support the perimeter theory of arc FO on geostationary (GEO) satellites are discussed in this paper. It has been observed that characteristics of an the arc are dependent on its location on the solar coupon, bias charge (charge due to bias voltage and external capacitance), and the total charge dissipated during the arc discharge. It is also observed that the duration between the two consecutive arcs is directly proportional to the dissipated charge or energy of the latter arc. A combined dielectric consisting of solar cell, adhesive, Kapton, and Carbon Fiber Reinforced Polymer sheet holds charge during irradiation by the electron gun. This resembles surface FO capacitance. Arc energy is governed by the combined effects of a surface flashover capacitor (C-sf) and an external capacitor. It is observed that if intermittent arc duration is sufficiently longer than the gradual accumulation of charge on the SSPC, body may lead to a major arc. This would increase the probability of secondary arcs when the sustained arc environment is experienced by the satellite. To understand primary arcs on dielectrics, an artificial triple junction is prepared and exposed under adverse GEO-like space conditions. Various signatures identified from the arc current and arc neutralization current waveforms specify the behavior of these arcs at different locations on the coupon surface. In this paper, current waveforms of arcs captured on different types of solar panel coupons and their significance are studied. Information about arc energy, arc velocity, and neutralization velocity are extracted from the measured waveforms. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
8. Can the “Maximum Power Principle” Be Applied to Pulsed Dielectric Barrier Discharge?
- Author
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Dobrynin, Danil, Vainchtein, Dmitri, Gherardi, Matteo, Colombo, Vittorio, and Fridman, Alexander
- Subjects
DIELECTRICS ,DIELECTRIC properties ,DIELECTRIC function ,ENERGY function - Abstract
In this paper, we report a qualitative model of operation and energy release in pulsed dielectric barrier discharges (DBDs). We demonstrate that pulsed DBDs operate according to the “maximum power principle” and explain the relevant physical processes. Compared to experimental data, the proposed model allows an accurate estimation of the discharge pulse energy as a function of dielectric properties, electrode size, and pulse parameters (shape and voltage amplitude). [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
9. A Modular Step-Up High-Voltage Bipolar Pulse Generator.
- Author
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Gholamalitabar, Hossein, Adabi, Jafar, and Rezanejad, Mohammad
- Subjects
PULSE generators ,IDEAL sources (Electric circuits) ,BUILDING operation management ,LOW voltage systems ,POWER electronics ,CAPACITOR switching - Abstract
In this paper, a modular topology is presented for generating high-voltage pulsed power. The proposed structure consists of Marx-type modules, which are based on the switched-capacitor (SC) concept. This module receives an input voltage and, depending on the requirement of the user, produces an output voltage either equal to the input or twice as much as the input voltage, which shows the flexibility of our model. The capability of the module to produce a doubled output makes it appropriate for applications with low input voltage sources. Also, the topology has the capability of generating combined wide and narrow pulses. The topology was simulated in MATLAB Simulink and a laboratory setup was built to test its operation. The results validate the theoretical basis of the structure. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
10. Investigation of Single-Stage Double-Layer Saddle Sextupole Field Electromagnetic Launcher.
- Author
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Yan, Zhongming, Luo, Kun, Liang, Le, Fan, Guangcheng, Deng, Huimin, and Wang, Yu
- Subjects
ELECTROMAGNETIC launchers ,ELECTROMAGNETIC fields ,LINEAR acceleration ,SADDLERY ,ENERGY conversion ,ELECTROMAGNETIC pulses - Abstract
This paper proposes a novel single-stage double-layer saddle multipole field electromagnetic launcher (SSDFEL), which combines the characteristics of reconnection gun to achieve simultaneous linear acceleration and gyroscopic stabilization of the projectile. Since the saddle driving coils are divided into two layers, the magnetic field density inside the launcher is enhanced. The eddy current induced on the inner and outer surfaces of the projectile is greatly changed by the hollow cylindrical projectile with six symmetrical vertical slots twisted at a certain angle, and the projectile is simultaneously propelled to perform rotation motion and linear motion. In this paper, the electromagnetic field finite-element software is used to simulate and calculate this model. The simulation results indicated that the double-layer driving coil distribution has larger axial acceleration force and bigger circumferential torque than that of the single-layer driving coil distribution, the energy conversion efficiency has also been obviously increased, and there is an optimal initial twisted angle, which accelerates the projectile to the peak of rotation. To verify the results, an SSDFEL was established and tested. The experiment results confirm that the rotation performance can be affected by the initial twisted angle and a better launching effect is achieved than a single-layer distribution. In general, the experimental results are in agreement with the simulation results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
11. Development of a Capacitor Bank-Based Pulsed Power Supply Module for Electromagnetic Induction Coilguns.
- Author
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Le, Dinh-Vuong, Go, Byeong-Soo, Song, Myung-Geun, Park, Minwon, and Yu, In-Keun
- Subjects
POWER resources ,ELECTROMAGNETIC induction ,ELECTROMAGNETIC launchers ,LINE drivers (Integrated circuits) ,THYRISTORS ,CAPACITORS ,SEMICONDUCTOR lasers - Abstract
This paper presents some discussions and findings related to the development of the capacitor bank-based pulsed power supply module (PPSM) for an electromagnetic induction coilgun (EIC). Three PPSMs were designed for a three-stage EIC to launch a 21.68-kg projectile at a minimum velocity of 20 m/s. The energy of the PPSM in the first, second, and third stages was 200, 100, and 100 kJ, respectively. Two light-triggered thyristors (LTT) were used as the main switches of the module. The synchronous behaviors of the series LTT, dump circuit, laser diode driver circuit, and protection scheme are analyzed and discussed. The PPSM was built and tested as an EIC system. The simulation results of the PPSM were in agreement with the experimental results. The peak current was about 42 kA at a maximum voltage of 10 kV as in the simulation. The maximum current in the 4-kV launch experiment was 16.47 kA. The velocity of the projectile was more than 25 m/s, which is consistent with the design goal. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
12. A Microcontroller-Based Modular Pulsed H.V. Power Supply: Design, Implementation, and Tests on DBD-Based Plasmas.
- Author
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Koliadimas, Angelos, Apostolopoulos, Demosthenes, Svarnas, Panagiotis, Sklias, Kiriakos, Athanasopoulos, Dimitrios, and Mitronikas, Epaminondas D.
- Subjects
METAL oxide semiconductor field-effect transistors ,PLASMA gases ,HIGH voltages ,MICROCONTROLLERS ,PLASMA jets - Abstract
This paper is devoted to the design, implementation, and test of a low cost, modular, and reliable pulsed high-voltage (HV) converter (dc chopper). The distinct characteristics of the present prototype refer to: adjustable voltage amplitude up to 7 kV, amplitude drop less than 4‰ for $2 \times 10$ A output peak current at 5 kHz, adjustable pulse frequency up to 5 kHz, adjustable duty cycle between 1% and 10%, rising/falling time around 100 ns, and jitter about 10 ns. In principle, 1-kV modules based on a fast MOSFET each are combined in series to form a completely modular push–pull switch configuration. Contrary to sophisticated optical fiber-based insulation techniques, the driving low-voltage stage of the power supply is magnetically coupled to the HV stage. The low-voltage stage defines and schedules the HV pulses by means of a microcontroller. The 7 kV is equally distributed along MOSFETs due to balancing networks of passive components. Zener diodes in parallel with MOSFETs provide sufficient protection against overvoltages. The power supply has been successfully tested on dielectric-barrier discharge-based plasmas which have nowadays continuous technological interest. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
13. A Fast Modular Semiconductor-Based Marx Generator for Driving Dynamic Loads.
- Author
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Hochberg, Martin, Sack, Martin, Herzog, Dennis, Weisenburger, Alfons, An, Wladimir, Fetzer, Renate, and Mueller, Georg
- Subjects
ELECTRON beams ,SEMICONDUCTORS ,ELECTRIC potential ,ELECTRIC inductance ,ELECTRIC currents - Abstract
The challenging demands of pulsed electron beam devices (such as the GESA device) with respect to their pulsed power supply have led to the development of a new semiconductor-based Marx generator. At a maximum output voltage of 120 kV and 600-A pulse current for a duration of up to 100 $\mu \text{S}$ , stepwise arbitrary output waveforms are desired. A fast rise time of the generator is achieved by using fast switching circuitry, low inductance capacitors, and a low inductance stage arrangement. For low jitter triggering of all stages and efficient signal transmission, the generator uses an optical bus system for communication. Due to the inherent dynamic load characteristics of the GESA device, the generator features a fast overcurrent protection scheme. This paper presents selected design aspects of the generator and their validation in a small-scale assembly able of delivering up to 8 kV at 600-A load current. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
14. Development and Validation of a Multiphysics Coupling Model of the Pulsed Electromagnetic Inductive Valve for Planar Pulsed Inductive Plasma Thruster.
- Author
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Guo, Dawei, Cheng, Mousen, Yang, Xiong, Li, Xiaokang, and Che, Bixuan
- Subjects
ELECTROMAGNETISM ,PROPELLANTS ,PLASMA gases ,DATA ,VALVES - Abstract
A pulsed electromagnetic inductive valve has been developed to achieve correct initial deposition of the propellant gas puff for the planar pulsed inductive plasma thruster. This paper aims to describe the method for modeling the valve. The most significant physical effects involved in the valve operation process are described by the electrical model, the magnetic model, the mechanical model, and the pneumatic model. These physical models are then linked together based on the couplings between them to form a complete multiphysics coupling model. In order to validate the proposed model, simulations and experiments are implemented for the prototype valve at different operating conditions. Response characteristics and throughput characteristics predicted by the model agree well with experimental data. The results demonstrate that the proposed model can be successfully applied to accurately capture the main performance of the valve. The principle of the analysis procedure is applicable to other electromagnetic valves of this type. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
15. High-Voltage Capacitive Nonlinear Transmission Lines for RF Generation Based on Silicon Carbide Schottky Diodes.
- Author
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Raimundi, Lucas R., Rossi, Jose O., Rangel, Elizete G. Lopes, Silva, Leandro C., and Schamiloglu, Edl
- Subjects
ELECTRIC lines ,RADIO frequency ,CAPACITORS ,ELECTRIC inductors ,HIGH voltages ,SILICON carbide - Abstract
Nonlinear transmission lines (NLTLs) have been studied over the past several years to generate high-power radio frequency signals. Their operation consists of a lumped line based on the nonlinear behavior of the LC section components, capacitors or inductors, as a function of the applied voltage or current, respectively. However, considering high-power signals, the application of these devices using nonlinear ceramic capacitors as the capacitive lumped lines are restricted to frequencies around 100 MHz since at high voltages, parasitic impedances in the line structure limit the maximum operating frequency. On the other hand, the use of variable capacitance diodes has enabled the operation of NLTLs at higher frequencies. This paper provides the results of a study of NLTLs for RF generation based on silicon carbide Schottky diodes. The principle of operation and its simplified theory are presented. Initially, the voltage dependence of the diode capacitance is modeled. Experimental and simulation results are compared. Frequency oscillations around 200 MHz were generated. The extraction of the radio frequency energy is realized, and the radiation of the electromagnetic wave is performed using double-ridged horn antennas. Finally, some parameters are analyzed, and all results discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
16. Development of a High-Power Burst Pulse Generator Based on the Sequential Operation of Magnetic Switches.
- Author
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Sato, Hiromi, Yasu, Keita, Nukaga, Ken, and Minamitani, Yasushi
- Subjects
CANCER treatment ,ELECTROMAGNETIC waves ,MAGNETIC control ,ELECTRIC potential ,ELECTRIC lines - Abstract
Nanosecond and subnanosecond high-voltage pulses have used in new biological applications, such as cancer treatment using an ultrashort pulsed high electric field. For this treatment, the use of high-power pulsed electromagnetic wave has been proposed to obtain the required high electric field. This paper focuses on the design of a compact high-power pulsed electromagnetic wave generator using a nanosecond pulsed power generator for cancer treatment. We developed a pulsed power generator that continuously outputs multiple pulses via a nonlinear transmission line (NLTL) using magnetic switches. The NLTL comprises a ladder of capacitors and saturable inductors. The NLTL generates a pulse train by delaying the propagation of the pulse using the magnetic switch of each ladder. The frequency of repetition of the burst pulse is 13.8 MHz. The peak output voltage is 7 kV at the maximum input voltage of 28 kV. The number of pulses in the pulse train can be varied by the number of units of the magnetic switch. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
17. Evaluation of a Novel Capacitor Charging Structure for Flicker Mitigation in High-Power Long-Pulse Modulators.
- Author
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Collins, Max and Martins, Carlos A.
- Subjects
KLYSTRONS ,CAPACITOR banks ,ELECTRIC power factor ,REACTIVE power ,ELECTRONIC structure - Abstract
In order to generate high-voltage high-pulsed power, klystron modulators necessarily contain at least one capacitor bank charging structure supplying the energy to be released during the pulse. Conventional charging structures are based on ac/dc front-end units typically based on diode rectifiers combined with power charging structures operated in on/off mode as a second stage, producing prohibitive levels of grid flicker and harmonic contents on the ac grid side while operating at suboptimal power factor. These problems are usually corrected by both costly and spacious external grid compensators. Today, the increased demand on both accelerator peak power and pulselength (translating into higher average power), in conjunction with stricter regulations and standards represent additional challenges also in modulator design. An alternative method for capacitor bank charging, in a steady state allowing for the complete reduction of grid flicker as well as ac line current harmonics and reactive power, was presented by the authors in a preceding publication. This paper presents in further detail the benefits of the proposed power electronic structure and associated control scheme in the context of a review of other solutions suggested for constant power charging and flicker mitigation. This paper also contains a complete description of the proposed control scheme as well as further experimental results, including a thorough assessment of its performance under transient conditions. All experimental results were obtained on a klystron modulator prototype rated for long pulses (3.5 ms), high voltage (115 kV), and high pulsed power (peak power > 2 MW). [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
18. Full-Loop Equivalent Circuit Model for Plasma-Induced Damage Simulation.
- Author
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Hiblot, Gaspard and Van der Plas, Geert
- Subjects
SIMULATION methods & models ,PLASMA gases ,CAPACITORS ,WAVE analysis ,TRANSISTORS - Abstract
In this paper, a new circuit model is proposed to simulate plasma-induced damage (PID). It includes the two sheaths of the plasma, the blocking capacitor, and the RF power source coupled with the victim device. As a result, this model accounts for both the ac behavior of the plasma and the local voltage imbalance induced by differences in shading factors. The advantage of this approach, compared with the previous works, is that it can yield the waveform impinged by the plasma on the transistor gate, which is known to influence the amount of reliability degradation experienced by the device. Finally, this model is also utilized to elucidate the impact of a parasitic capacitance connected to the transistor gate on the extent of the PID inflicted on the victim device. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
19. Hybrid Nonlinear Transmission Lines Used for RF Soliton Generation.
- Author
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Silva Neto, Lauro P., Rossi, Jose O., Barroso, Joaquim J., and Schamiloglu, Edl
- Subjects
ELECTRIC lines ,REMOTE sensing ,CERAMIC capacitors ,BIPOLAR transistors ,DAMPING (Mechanics) ,SOLITONS - Abstract
Nonlinear transmission lines (NLTLs) have been studied for high-power RF generation with good prospects of applications in pulse radars for remote sensing (SARs) and disruption of communications in the battlefield, for instance. In this paper, two 30-section hybrid NLTLs built using nonlinear inductors and capacitors (2.2- and 10-nF barium titanate ceramic capacitors with 10- $\mu \text{H}$ ferrite bead inductors) will be described. For the test, the line is fed by a negative input pump pulse generated by a 1 kV discharge of a 0.75- $\mu \text{F}$ storage capacitor via a fast 50-ns switching system composed by an insulated gate bipolar transistor switch and its gate circuit driver. In the hybrid line tests, using 2.2-nF ceramic capacitors the maximum soliton generation packet obtained on the middle section had a frequency of the order of 33 MHz with voltage modulation depth (VMD) of around 700 V. For every single shot, approximately 10 RF cycles with small damping were noted. With the hybrid line using 10-nF ceramic capacitors the soliton generation obtained on the middle section reached a frequency of the order 10 MHz, and VMD of around 200 V. The main conclusion from this experiment is that hybrid lumped NLTLs may be used to achieve RF in megahertz range with higher VMD compared their counterparts (i.e., capacitive or inductive lines) because of their stronger nonlinearity with the use of both nonlinear elements. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
20. Theoretical Analysis and Improvement on Pulse Generator Using BJTs as Switches.
- Author
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Li, Zi, Li, Pan, Rao, Junfeng, Jiang, Song, and Sakugawa, Takashi
- Subjects
JUNCTION transistors ,PULSE generators ,ELECTRIC switchgear ,ELECTRIC circuit analysis ,ELECTRIC resistors - Abstract
Bipolar junction transistors (BJTs) have been widely studied and used in nanosecond high-voltage pulse generators due to the advantages of fast switching speed and high repetitive frequency. Usually the Marx-type circuit is used to raise the peak value of output pulses. In this paper, a traditional BJT-Marx circuit using charging resistors is analyzed theoretically and experimentally. Based on the results, the structure of a circuit is changed to decrease the isolation voltage across the resistors, and diodes are used to replace charging resistors to block capacitors discharging to resistors. Experimental results showed that the three Marx generators proposed in this paper output pulses with higher voltage amplitude, and the last improved circuit outputs pulses with faster fall times at a higher efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
21. Comparative Investigation of Surge Current Capabilities of Si IGBT and SiC MOSFET for Pulsed Power Application.
- Author
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Yin, Shan, Gu, Yunfei, Deng, Shuairong, Xin, Xiong, and Dai, Gang
- Subjects
INSULATED gate bipolar transistors ,METAL oxide semiconductor field-effect transistors ,SILICON carbide ,POWER density ,PULSED power systems - Abstract
The trend to move toward the solid-state and repetitive pulsed power supply requires the high-voltage, high-current, and high-speed semiconductor devices, which makes an insulated gate bipolar transistor (IGBT) preferred for this application. However, as a bipolar device, the IGBT is limited by the switching speed and switching loss. In this paper, the potential of silicon carbide (SiC) metal-oxide-semiconductor field-effect transistor (MOSFET) for the pulsed power application is investigated. The surge current capabilities of 1.2-kV, 30-A commercial Si IGBT and SiC MOSFET are characterized and compared by the capacitor discharge experiment. In addition, the effects of various circuit parameters, including gate resistance, dc-link voltage, and dc-link capacitance, on the capacitor discharge process are investigated. It is found that the pulse current of SiC MOSFET is around two times of Si IGBT, which achieves good agreement with the datasheet. Using $di/dt$ to represent the discharging speed, the SiC MOSFET is 10 times faster than the Si IGBT. It is because the SiC MOSFET shows a lower ON-resistance in the saturation region resulted from the short-channel effect. This paper confirms the high-speed and high-current advantages of SiC MOSFET in the pulsed power application. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
22. An Efficient Structure of Marx Generator Using Buck--Boost Converter.
- Author
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Taherian, Mehdi, Allahbakhshi, Mehdi, Farjah, Ebrahim, and Givi, Hadi
- Subjects
ELECTRIC power conversion ,ELECTRIC generators ,ELECTRIC inverters ,DIODES ,CAPACITORS - Abstract
In this paper, a new structure of Marx generator (MG) based on buck--boost converter is proposed to generate high-voltage pulses. In this structure, a single-phase inverter is employed to supply parallel diode--capacitor units by positive and negative values of the input dc source (±V
in ). The main contribution of this paper is proposing a new switching strategy, by which a group of capacitors are charged properly. Finally, the charged capacitors are connected in series such that the output voltage is equal to summation of the capacitors' voltages. Considering specified value of the output voltage, the number of circuit elements in the proposed structure is reduced in comparison with other topologies of unipolar MG. Furthermore, voltage rating of switches and diodes in the proposed topology is lower than that of other unipolar MG structures. Design of the structure ensures that there is no need to connect the switches in series, when the number of stages is increased. To verify the performance of the proposed MG structure, simulation has been carried out in MATLAB/Simulink. Furthermore, a prototype of the proposed structure has been implemented in the lab. The simulation and experimental results confirm the capability of the structure for generating high-voltage pulses. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
23. Dynamic Dielectric Recovery Synergy of Hybrid Circuit Breaker With CO2 Gas and Vacuum Interrupters in Series.
- Author
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Cheng, Xian, Chen, Zhanqing, Ge, Guowei, Wang, Yaoqiang, Liao, Minfu, and Jiao, Lianyao
- Subjects
DIELECTRICS ,HYBRID integrated circuits ,VACUUM circuit breakers ,CARBON dioxide ,SULFUR hexafluoride - Abstract
This paper investigates the dynamic dielectric recovery synergy (DDRS) of hybrid circuit breakers (HCBs) with CO2 gas and vacuum gaps in series. The interaction between the vacuum arc and CO2 gas arc is simulated by the continuous transient arc model and Mayr arc model. The simulation results indicate that the extra methods, for example, dividing capacitors, are needed to obtain optimal DDRS of HCB. The prototype of HCB and the test circuit are established. The influence of the coordination of arcing time, dividing capacitors, and the CO2 gas pressures on the transient recovery voltage (TRV) distribution and the breaking capacity is investigated. The differences of HCBs with SF6 gas and CO2 gas are also compared. According to the results, favorable DDRS in HCB can be obtained in the condition that the vacuum gap endures the initial TRV while the following major TRV distribution is mainly depended on the dynamic dielectric in CO2 gas gap. However, the dynamic dielectric recovery of CO2 gas gap is limited by the structure of rotating arc CO2 gas interrupter in this paper. In the future, the interruption capacity of HCB based on CO2 gas can be improved by synergy control, as the development of CO2 gas circuit breakers. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
24. 100-kV High Voltage Power Supply With Bipolar Voltage Output and Adaptive Digital Control.
- Author
-
Giesselmann, Michael G., Vollmer, Travis T., and Carey, William J.
- Subjects
ELECTRIC transformers ,ELECTRIC current rectifiers ,ELECTRIC inverters ,HIGH voltages ,DIGITAL signal processing ,DIGITAL electronics equipment ,ELECTRONIC controllers ,COAXIAL cables - Abstract
This paper presents a 100-kV high frequency transformer/rectifier package, which is capable of a dual output polarity operation. An H-Bridge inverter drives the primary of the high voltage (HV) transformer at a frequency of 20 kHz. The inverter is driven by a Microchip dsPIC33F digital signal controller using peak current mode control with adaptive slope compensation. The HV-tank has two HV-coax output cables with a grounded shield on each cable. If the center conductor of the coax cable designated as negative output is grounded, positive voltage is obtained from the coax cable designated as positive output and vice versa. This paper provides design details and experimental results from tests of the entire system. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
25. A 25-F Electric Double-Layer Capacitor Bank and DC Power Supply for Portable High-Current Applications.
- Author
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Baek, Ji-Eun, Rhee, Jae-Ho, Cho, Young-Maan, and Ko, Kwang-Cheol
- Subjects
CAPACITOR banks ,ELECTRIC impedance ,DIRECT currents ,ELECTRIC discharges ,SUPERCAPACITORS - Abstract
A portable dc power supply based on electric double-layer capacitor (EDLC) bank was established for high-power applications. EDLC bank needs a dc–dc converter to maintain a constant output voltage and current. Especially, a low-impedance load makes the voltage of capacitors discharge faster, and their discharging time is determined by RC time constant. The proposed system is designed as a fundamental concept, and deals with some issues occurring in a large-scale system. Also, this paper provides detailed information and consideration for a real establishment. Last, we performed a full-scale experiment using basic techniques. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
26. Influence of External Factors on Self-healing Capacitor Temperature Field Distribution and Its Validation.
- Author
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Wang, Zijian, Yan, Fei, Xu, Menglei, Wang, Zhaomeng, Wang, Xun, and Xu, Zhiniu
- Subjects
SELF-healing materials ,CAPACITORS ,TEMPERATURE distribution ,ELECTRIC potential ,COMPUTER simulation - Abstract
Temperature field simulation for self-healing power capacitor makes sense to the capacitor optimization and improvement of capacitor’s rated voltage and capacity. On the basis of reasonable simplifications and assumptions for capacitor structure, a 3-D temperature field numerical simulation model for a self-healing power capacitor is formulated in Fluent 15.0. The ambient temperature is set to 55 °C, and the applied voltage is ac 400 V. The temperature distributions of the shell and core of the self-healing capacitor are obtained. The results reveal that the temperature of the core is 2 °C–3 °C higher than that of the shell. The highest temperature of the shell locates on the large side surface, and the temperature of the large side surface is higher than that of the small side surface. To validate the above simulation, a self-healing capacitor is manufactured and thermal resistance sensors are used to measure the temperature in the thermal stability test. The simulation is validated by the experiment. Finally, the influences of the ambient temperature and applied voltage on the temperature rise are investigated. This paper can be taken a reference to the self-healing capacitor operation, maintenance, and even the optimization of its internal structure and material. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
27. Design of a Compulsator to Drive a Railgun.
- Author
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Kulkarni, A. S. and Thomas, M. Joy
- Subjects
ELECTROMAGNETIC rail guns ,CAPACITORS ,ELECTRIC power ,ZERO current switching ,PERFORMANCE evaluation - Abstract
Compulsators are ac generators which are used for electromagnetic launch applications over the past few decades. This paper presents the work carried out by the authors to design a compulsator for a railgun which has been built and tested with a capacitor bank of 20 kJ as the pulsed-power source in the author’s laboratory. The generator topology selected for the compulsator is a single phase, two-pole machine with iron core and passive compensation. The design is based on the criterion of achieving maximum projectile exit velocity with the additional condition that natural current zero is synchronized with the instant of the projectile’s exit. The effect of varying the different parameters of the compulsator on the performance of the system has also been studied and discussed in this paper. By means of performance analysis, the necessary background for the design of the actual compulsator has also been achieved. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
28. Research on the Excitation Control of Brushless Doubly-Fed Alternator in a Novel Pulse Capacitor Charge Power Supply.
- Author
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Tang, Peng, Yu, Kexun, Xie, Xianfei, Zhou, Shaozhen, and Yao, Jiakang
- Subjects
EXCITATION systems in electric machinery ,BRUSHLESS electric motors ,ALTERNATING current generators ,PULSED power systems ,CAPACITORS - Abstract
Brushless doubly-fed alternator (BDFA) has good application prospects in pulsed alternator. It works through the rotor’s pole pairs transformation function to get excitation indirectly. Since there are no brush and slip ring, BDFA is expected to have high reliability and long service life. This paper studies on the excitation control of BDFA in pulse capacitor charge power supply system. A mathematic model of BDFA is established. The power angle characteristic of BDFA and flux changing condition during discharging process is analyzed with this model. Based on the analysis, a novel excitation control theory is proposed. Simulation results are presented to illustrate the performance of this control strategy. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
29. Conceptual Design and Comparison for 100-kJ Inductive Pulse Power Supplies.
- Author
-
Ma, Shangang, Yu, Xinjie, and Li, Zhen
- Subjects
INDUCTIVE power transmission ,PULSED power systems ,MODULAR design ,MINIATURE electronic equipment ,INDUCTIVE energy storage - Abstract
Based on the urgent needs for modularization and miniaturization of the inductive pulsed power supply system, this paper proposes the conceptual design and comparison of 100-kJ inductive storage power modules including four circuit topologies, three of which are proposed in our previous researches. The four circuit topologies are the STRETCH meat grinder, the XRAM with STRETCH meat grinder unit, the XRAM with strongly coupled inductors, and the XRAM with magnetic flux compression effect. The maximum load current of each constructed module is set to be 50 kA and its pulsewidth is at least 5 ms, which are the same as the main electrical properties of an existing 100-kJ capacitive module. A comparative study on energy density among the constructed inductive modules and the existing capacitive module is carried out in depth. Results show that the inductive modules, considering the volume of semiconductor switches and their control circuits, have higher energy density than that of the capacitive module. Among four constructed inductive modules, the XRAM with strongly coupled inductors module has the highest inductive energy density, and the XRAM with magnetic flux compression effect module has relatively better comprehensive performance. This paper offers the theoretical analysis foundation for investigating the inductive pulse power supply with higher energy. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
30. A Full-Bridge Submodule-Based Modular Unipolar/Bipolar High-Voltage Pulse Generator With Sequential Charging of Capacitors.
- Author
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Elserougi, Ahmed A., Abdelsalam, Ibrahim, Massoud, Ahmed M., and Ahmed, Shehab
- Subjects
ELECTRIC field strength ,PULSE generators ,CAPACITORS ,FIELD-effect transistors ,ELECTROMAGNETIC pulses - Abstract
Repetitive high pulsed electric field (PEF) is an effective method to kill microorganisms and bacteria in water treatment applications. The PEF can be generated by applying high-power electromagnetic pulse across the sample to be treated. There are two main types of high-voltage pulse generators, namely, unipolar and bipolar. In this paper, a full-bridge submodule-based modular high-voltage pulse generator, having the ability to generate unipolar and bipolar high-voltage pulses with different shapes from a relatively low-voltage input dc supply, is proposed. In the proposed configuration, relatively low-voltage insulated gate bipolar transistors (IGBTs) are required to generate the high-voltage bipolar pulses. A thyristor rated at the level of the pulsed output voltage is required in the proposed configuration to bypass the load during the charging process of capacitors. In the proposed approach, a thyristor is used instead of the self-commutated high-voltage switch (e.g., series-connected IGBTs), as thyristors are available with high-voltage ratings and possess inherent reverse voltage blocking capability. A detailed illustration of the proposed configuration and its operational concept are introduced in this paper. Simulation and experimental results are presented to validate the proposed approach. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
31. Development of a Rep-Rated Pulsed Power System Utilizing Electrochemical Prime Power.
- Author
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Huhman, Brett M., Wetz, David A., and Mili, Lamine
- Subjects
BATTERY chargers -- Design & construction ,PULSED power systems ,ELECTRIC batteries ,LITHIUM-ion batteries ,ENERGY storage ,ELECTRIC current rectifiers - Abstract
The U.S. Naval Research Laboratory is developing a rep-rate charger for a 60-kJ capacitor module. The charger is lithium-ion battery powered and must charge up the capacitive load 50 times over a 5-min period with roughly 1 s between each charge cycle. This paper examines some aspects of the design: lithium-ion battery energy storage, hard switched dc–dc converter, high-voltage rectifier, and capacitive load with pulsed power switching. The lithium-ion batteries are arranged in 12, 16-cell, 50 V modules that are connected in series to form a roughly 600 V prime power supply. A hard switched dc–dc converter with full-bridge rectifier is used to charge the capacitor and a pulse forming network is used to discharge the capacitor into the load. This paper will discuss the system design and available test data. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
32. A High-Performance Drive Circuit for All Solid-State Marx Generator.
- Author
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Zhou, Ziwei, Li, Zi, Rao, Junfeng, Jiang, Song, and Sakugawa, Takashi
- Subjects
ELECTRIC circuits ,SYNCHRONOUS generators ,LINE drivers (Integrated circuits) ,ELECTRIC potential ,ELECTRIC generators ,CAPACITORS ,OPTICAL fibers - Abstract
In recent years, all solid-state Marx generators have been found more and more extensive applications in industrial, environmental, and biological fields. All solid-state Marx generators have many requirements for their drive circuits, such as good synchrony for driving signals at different stages, fine isolation between control signals and the main circuits, adjustable pulsewidths and frequencies, and good driving abilities. This paper proposes a high-performance drive circuit for a 24-stage Marx generator based on IGBTs. A half-bridge circuit using IR2110 outputs a high-current turning-on drive signal (positive) and a turning-off drive signal (negative) with adjustable dead time. The control drivers are input to the common primary side of 24 nanocrystalline magnetic transformers, which isolate the control circuit and the main circuit. Through gate circuits at the second sides of the magnetic cores, the turning-on drive signal charges 24 gate–emitter capacitors to required voltages and consequently all IGBTs move into on state until the turning-off signal arrives. Similarly, the negative turning-off drive signal charges all gate–emitter capacitors to a negative voltage which ensures all IGBTs stay in the off state. Therefore, the pulsewidth is determined by the phase difference between the turning-on and turning-off drive signals. Equipped with this drive circuit, the 24-stage Marx generator is able to produce stable high voltage pulse with a peak value of −9.6 kV, PRF $0.05\sim 5$ kHz, and different pulsewidths. In this paper, the design details and experimental confirmation of the proposed drive circuit are illustrated. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
33. Influence of Input Pulse Shape on RF Generation in Nonlinear Transmission Lines.
- Author
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Rangel, Elizete G. Lopes, Barroso, Joaquim J., Rossi, Jose O., Yamasaki, Fernanda S., Silva Neto, Lauro P., and Schamiloglu, Edl
- Subjects
ELECTRIC lines ,SOLITONS ,NONLINEAR theories ,PULSED power systems ,ELECTRIC capacity - Abstract
Nonlinear transmission lines (NLTLs) are nonlinear LC ladder networks that can act as a nonlinear and dispersive medium, thus allowing the generation of soliton bursts. Several papers have been published indicating that NLTLs offer a new option for pulse shaping and RF generation. In this paper, we investigated the response of an NLTL driven by three different pulse shapes: a rectangular, a half sine, and a triangular waveform. The performance of the NLTL was evaluated through time- and frequency-domain analysis of the RF signal sampled at the 29th section of a 30-section capacitive NLTL. The frequency of the generated RF signal is correlated with the shape of the input signal, whereby the output frequency can be adjusted by the amplitude-time characteristics of the pulse at the input of the capacitive NLTL. Higher frequency oscillations, around 30 MHz, were generated by the rectangular wave train due to its shorter rise time. The propagation of solitons along the NLTL is influenced by the input pulse rise time. Namely, the rectangular pulse showed smaller delay time as it had the shortest rise time (less than 10 ns). Maximum efficiency was obtained for the input pulsewidth of 150 ns under a duty cycle of 1/3 for the three pulse shapes (rectangular, half sine, and triangular), and this combination of parameters yielded the highest RF conversion efficiency of the NLTL. The capacitive NLTL showed a higher RF conversion efficiency (16.4%) when driven by the rectangular input signal. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
34. Gate Driving Circuit for the All Solid-State Rectangular Marx Generator.
- Author
-
Li, Zi, Liu, Haotian, Rao, Junfeng, and Jiang, Song
- Subjects
PULSE generators ,OVERCURRENT protection ,ELECTROMAGNETIC interference ,LOGIC circuits ,OPTICAL switching ,DIELECTRICS - Abstract
Recent studies have shown that rectangular high-voltage pulses have a high-performance in dielectric barrier discharges (DBDs). To generate the rectangular pulses used in the Marx generators, the most common way is driving two sets of switches synchronously with a different sequence. Because of the fast-changing current and voltage, the electromagnetic interference (EMI) will affect the circuit. Therefore, if two groups of switches were triggered mistakenly at the same time, it would cause the partial short-circuit phenomenon. In this paper, a new driving circuit with overcurrent protection for the Marx generators is proposed. It used only one synchronous signal to control two sets of switches. Experimental results showed that the short current could be limited within 100 A. The proposed driving circuit was applied to a seven-stage Marx generator, and 5-kV rectangular pulses can be obtained steadily at 1 kHz, which can greatly improve the stability of the system. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
35. Experimental Investigation on the Interruption Performance of Vacuum Interrupters With AMF and TMF Contacts in a Quench Protection Switch.
- Author
-
Li, Sheng, Shi, Zongqian, Zhao, Linyan, Ding, Dongdong, Liu, Yuhan, Jia, Shenli, and Wang, Lijun
- Subjects
VACUUM circuit breakers ,SUPERCONDUCTING magnets ,TOROIDAL magnetic circuits ,MAGNETIC fields ,VACUUM arcs - Abstract
A quench protection switch (QPS) is indispensable to protect the magnet coils from the damage of quench in a superconducting Tokamak. In this paper, a QPS based on artificial current zero is involved. The vacuum circuit breaker (VCB), which is driven by a high-speed electromagnetic repulsion mechanism, is used as the main circuit breaker (MCB). Two kinds of commercial vacuum interrupters (VIs), which have contacts generating axial magnetic field (AMF) and transverse magnetic field (TMF), respectively, are applied. The breaking current with an amplitude of 10~25 kA is generated by an LC oscillating circuit. The countercurrent with frequency in the range of 500–3000 Hz is provided by a commutation branch. The interruption performance of the two kinds of VIs under different breaking current and countercurrent frequencies is investigated. The experimental results indicate that the differences in interruption performance under the two types of contacts are increasing with larger frequencies of countercurrents. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
36. Optimization of Self-Breakdown and Triggering Characteristics on Multigap Gas Switch by Mounting Resistors and Capacitors in Parallel With Switch Gaps.
- Author
-
Jiang, Hongyu, Sun, Fengju, Cong, Peitian, Wang, Zhiguo, Jiang, Xiaofeng, Yin, Jiahui, Huang, Tao, Luo, Weixi, Zhang, Tianyang, and Zhai, Rongxiao
- Subjects
CAPACITOR switching ,ELECTRIC resistors ,ELECTRIC breakdown ,GASES ,STANDARD deviations ,RANDOM access memory ,SWITCHING circuits ,ELECTRIC potential - Abstract
The multigap gas switch has been widely used in liner transformer drivers (LTDs), but there is still room for improvement on its self-breakdown and triggering characteristics. In this paper, based on the circuit model of the six-gap gas switch, the gap voltage distribution during the charging and triggering process is analyzed, and the optimization on self-breakdown and triggering characteristics by mounting resistors and capacitors in parallel with switch gaps are theoretically and experimentally investigated. The results indicate that compared with the original switch, when the self-breakdown voltage is about ±90 kV, the standard deviation is reduced from 7.5 to less than 3 kV; for a charging voltage of ±80 kV and by operating at 60% working coefficient, when the negative trigger voltage is 75 kV, the jitter of the switch is reduced from 6.1 to 1.4 ns. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
37. Research on Driving Circuit Improvement of Coilgun.
- Author
-
Yadong, Zhang, Yujia, Gong, Min, Xiong, Quanshun, Bao, Xiaobo, Xiaobo, and Xiaolong, Li
- Subjects
ANSYS (Computer system) ,INDUCTION coils ,ENERGY conversion ,ELECTROMAGNETIC launchers ,ENERGY consumption ,PULSE circuits - Abstract
Theoretically, the energy conversion efficiency of the synchronous induction coil launcher (SICL) can reach 100%, but at present, the test data show that the highest current is only a little higher than 20%, which shows that the efficiency of the coil launcher has a lot of room for improvement. In this paper, three improved schemes are proposed for the topology of the traditional crowbar circuit based on the pulse capacitor to improve the electromechanical energy conversion efficiency of the electromagnetic coil launcher. They are main circuit breaking, crowbar break-off circuit, and crowbar circuit with inductor, respectively. In order to verify the feasibility of the above three methods, a five-stage coil launcher was simulated and analyzed. Then, based on the model, three improved circuits were calculated and analyzed by the finite-element simulation software. The results show that all of the three methods can improve the efficiency of energy conversion to a certain extent. Both the first and second methods have limited effect on increasing efficiency. In addition, they need to add some expensive equipment such as circuit breaker. So, they are not recommended. The third way of increasing an inductor in the crowbar circuit could increase the muzzle velocity and efficiency obviously. The muzzle velocity increased from 30.6 to 35 m/s. The effect of armature capture is reduced which is worthy of recommendation. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
38. Inductive Pulsed Power Supply for a Railgun Artillery System.
- Author
-
Liebfried, Oliver, Hundertmark, Stephan, and Frings, Paul
- Subjects
ARTILLERY ,SUPPLY chains ,POWER resources - Abstract
The power supply for a railgun used as long-range artillery is investigated in this paper. As described in an earlier study, an 8-kg projectile is accelerated to 2500 m/s in order to bring it on a steep ballistic trajectory. To further investigate the electrical behavior of the proposed 25-MJ muzzle energy railgun, simulations with two different power supply chains, each starting with batteries, were performed. The more conventional approach uses a capacitive pulsed power supply (CPPS), the other investigated option is an inductive pulsed power supply (IPPS). An IPPS was designed in detail and set in comparison with a design of a CPPS. Parameters such as size, weight, efficiency, maximum rep-rate, and maximum shots per burst are estimated. Results show that a simple battery–inductor approach promises to be more compact but CPPS would be more energy efficient. Results give valuable support with respect to several design decisions. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
39. Discharge Modes of Electrical Explosion of Aluminum Wires in Argon.
- Author
-
Li, Xudong, Shi, Huantong, Liu, Chaopeng, Wu, Jian, Chen, Li, Qiu, Shaojun, Li, Xingwen, and Qiu, Aici
- Subjects
ALUMINUM wire ,WIRE ,SPECIFIC heat ,ARGON ,ALLOYS ,METALLIC oxides - Abstract
Electrical explosion of wires (EEW) can be utilized as an efficient method to prepare nanopowders of metal, metal oxide, metal alloy, and so on, and the behavior of exploding wires varies greatly with different load and circuit parameters. In this paper, the relationship between discharge modes of EEW and load parameters (length and diameter) was studied during the preparation of Al nanopowders via EEW in argon gas. The experimental results showed that with fixed wire length and increasing diameter, the EEW will successively show the feature of current pause, current dwell, current pause again, and finally “being matched”; and for fixed wire diameter, there is a “critical length” of wire which divides the current-dwell mode and the current-pause mode. The critical length as a function of wire diameter peaks between 0.2 and 0.3 mm for the charging voltage of 11.5–20 kV (2.6- $\mu \text{F}$ capacitor); and the specific heat (deposited energy divided by sublimation energy) of wires was approximately 1 at the peaks. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
40. The Ringer as an Inductive Power Source for a Reluctance Accelerator.
- Author
-
Rivas-Camacho, Jorge Luis, Ponce-Silva, Mario, and Olivares-Peregrino, Victor Hugo
- Subjects
ELECTROMAGNETIC launchers ,PULSED power systems ,MAGNETIC circuits - Abstract
This paper proposed the use of a ringer, a self-switched inductive storage system, for applications involving reluctance accelerators, a kind of electromagnetic launcher, and compatible with applications where portability is a requirement. There will be shown three different useful approximations for the analysis of the ringer, employed as a power source for a reluctance accelerator. First, it described the equations governing the que behavior of an ideal unloaded ringer, and then the equations for the ringer with an uncoupled inductive load, and ultimately a Lagrangian model for the ringer as an inductive power source for a reluctance accelerator, capable to make predictions about the currents through the circuits and the exit speed of the projectile for a given firing. The accuracy of the predictions made with the third approximation, the Lagrangian model, was tested experimentally. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
41. A Novel Critical Analysis Method of Homopolar Inductor Alternator for Preliminary Design in Capacitor Charge Power Supply.
- Author
-
Yu, Kexun, Yao, Jiakang, Xie, Xianfei, and Tang, Peng
- Subjects
POWER capacitors ,POWER resources ,ALTERNATING current generators ,CRITICAL analysis - Abstract
In order to realize quick preliminary design for capacitor charge power supply (CCPS), a novel critical analysis method of homopolar inductor alternator (HIA) is proposed in this paper. First, a specific base value system of CCPS is proposed for making the critical analysis method universally applied for different machine and charge parameters. Second, under the equivalent average-value phase model of HIA, a critical curve and a maximum power analysis method based on the curve are proposed. After that, an outline of the preliminary machine design under the critical analysis method is presented. Third, considering the salient rotor structure of HIA, under the equivalent average-value direct- and quadrature-axis (DQ) model of HIA, a critical map as well as its maximum power analysis method is proposed. In the end, for these two types of critical analysis method under different average-value models, each of their advantages and applications are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
42. Analysis of the Conduction Process for Active Surge Protection Gap With Combination Wave Energy Injection.
- Author
-
Yao, Xueling, Le, Yangjing, Xu, Wenjun, Han, Pei, Sun, Wei, and Chen, Jingliang
- Subjects
MAGNETIC coupling ,ELECTRIC circuits ,ELECTRIC potential ,STRUCTURAL optimization ,TOPOLOGICAL derivatives - Abstract
In this paper, we designed an active coupling trigger circuit and an active surge protection gap (ASPG). The surge protection level of the passive SPG is improved, and the operating time of the passive SPG is shortened. The equivalent circuits for the coupling trigger circuit were developed. Then, we analyzed the component transient voltage of the active coupling trigger circuit with the combination wave injected. We obtained the numerical relationship between the coupling trigger current and the current flowing through the ASPG. In addition, the timing relationship between the component voltage and the current was acquired. To verify the analysis results, we established the combination wave generator and conducted an experiment. In the experiment, we observed that the trigger circuit operating time and the ASPG impulse breakdown voltage changed with the capacitor charging voltage of the combination wave generator. Furthermore, we discovered the change laws. The results also show that the operating time and impulse breakdown voltage of the ASPG are both smaller than the passive SPG. These results provide an important theoretical and experimental basis for the further study and structural optimization of the ASPG. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
43. Effect of Inductance of Inductive Energy Storage System on Resistance of an Electrically Exploded Conductor-Based Opening Switch and Profile of Current Transferred Into Low Inductance Loads.
- Author
-
Nayak, Soumya P., Kale, Mahesh D., Sharma, Archana, and Kaushik, Trilok C.
- Subjects
ENERGY storage ,ELECTRICAL conductors ,INTERACTIVE Express Statistical System (Electronic computer system) ,ELECTRIC currents ,ELECTRIC inductance - Abstract
This paper is aimed at finding the effect of varying inductive energy storage systems’ (IESSs) inductance on resistance of an electrically exploded conductor-based opening switch and profile of current transferred into load, which has not yet been fully understood. Based on experimental results obtained, it is observed that when the inductance of IESS is varied, the magnitude of load current changes so as to conform to the magnetic flux conservation law but its rise time remains unchanged. Resistance of the opening switch and energy deposited in it has been estimated using recorded voltage and current waveforms. It has been found that with increasing inductance of IESS, the resistance of switch increases, whereas energy deposited in it decreases. Using these estimated values of energy, a possible explanation of observed behavior in resistance is presented. Effect of a mismatch between the inductance of IESS and load is seen to only affect the energy transfer efficiency or magnitude of load current but not its rise time emphasizing the novel finding that for a given load, the rise time of load current is independent of the inductance of IESS. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
44. A Modular Topology of Marx Generator Using Buck–Boost Converter.
- Author
-
Taherian, Mehdi, Allahbakhshi, Mehdi, Farjah, Ebrahim, and Givi, Hadi
- Subjects
ELECTROPORATION ,ELECTRIC potential ,ELECTRIC generators ,ELECTRIC inductors ,ELECTRIC switchgear - Abstract
In this paper, a high-voltage unipolar pulse power generator is introduced for electroporation applications. Operating principle of the proposed structure is based on the buck–boost (BB) converter. The generator is comprised of parallel modules connected to the converter through an SCR and is supplied by a low-voltage dc source. Each module consists of an insulated gate bipolar transistor (IGBT), two diodes, and a capacitor. In fact, the proposed topology is a combination of the Marx generator and BB (MG-BB) converter. In comparison with other modular MG-BB structures, the proposed topology achieves interesting advantages including simpler structure, reduction of IGBTs voltage rating, and reducing number of components (inductors and switches). In order to clarify the features of the proposed structure, it has been compared with other unipolar MGs considering different aspects including the number of circuit components, number of required input supplies, amplitude of the output pulse, and the maximum voltage across switches and diodes. To validate the effectiveness of the structure, simulation and experimental results are presented. The results confirm that the proposed topology is capable of generating unipolar pulses with desirable amplitude and repetition frequency using a low-voltage dc supply. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
45. Dual Resonant Voltage Droop Compensation for Bipolar Solid-State Marx Generator Topologies.
- Author
-
Canacsinh, Hiren, Silva, J. Fernando, and Redondo, L. M.
- Subjects
SYNCHRONOUS capacitors ,ELECTRIC potential ,METHODOLOGY ,PULSE amplitude modulation ,ELECTRIC generators - Abstract
This paper discusses a novel methodology to increase the voltage droop compensation range in generalized solid-state bipolar high-voltage Marx modulators with one resonant stage. To maintain the modularity characteristic of bipolar Marx modulators, the imbedding of additional resonant stages is not straightforward. Nevertheless, this paper proposes to add a second resonant stage to the already existing resonant-type voltage droop compensation stage. This second stage increases the voltage droop compensation percentage of a generalized solid-state bipolar Marx generator. The compensation of the bipolar pulse voltage droop is now achieved by adding two auxiliary synchronous compensation resonant voltages, to the output capacitive decaying voltage. Simulation and experimental results are presented for six Marx plus two resonant stages, 16% voltage droop, with 3-kV pulse amplitude, 100- $\mu \text{s}$ pulsewidth, 40-ms relaxation time, and 10-Hz pulse repetition rate. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
46. Experimental Study of the Breakdown Characteristics of Polypropylene Films Under Nanosecond Voltage Pulses.
- Author
-
Chen, Zhiqiang, Ji, Shengchang, Jia, Wei, Tang, Junping, Guo, Fan, Li, Junna, and Chen, Weiqing
- Subjects
POLYPROPYLENE films ,DIELECTRIC breakdown ,ELECTRIC potential ,ELECTRIC fields ,WEIBULL distribution - Abstract
Due to its low-loss and high dielectric strength, polypropylene is widely used as electrical insulation material in pulse capacitors. In order to study its breakdown characteristics for nanosecond voltage pulses, an experimental setup was designed to generate voltage pulses with a 10%–90% rise time of 38 ns and a full width at half maximum of about 90 ns. Tests of the three polypropylene films with thicknesses of 12, 15, and $18~\mu \text{m}$ were performed. In addition, hundreds of nanoseconds pulse and dc voltage were also applied for comparison. The experimental results reveal that most of the breakdown occurs during the front edge of the pulse for tens of nanoseconds pulse, and the breakdown strengths of the three kinds of polypropylene films are almost identical for different applied voltages, which show a weak correlation between the thickness of the dielectric and the breakdown field. The expected breakdown strength of tens of nanoseconds pulse defined in this paper is not significantly higher than the mean value of the hundreds of nanoseconds pulse and the dc condition, suggesting that the breakdown of a thin polypropylene film is mainly determined by the electrical field but not the voltage-time cumulative effect. All these observations strengthen the conclusion that the breakdown of a thin polypropylene film is an intrinsic phenomenon. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
47. Power Supply Options for a Naval Railgun.
- Author
-
Hundertmark, S. and Liebfried, O.
- Subjects
POWER resources ,RAILGUNS ,CAPACITORS ,ENERGY density ,ELECTRIC circuits ,MUZZLES (Firearms) - Abstract
Large railguns require powerful power supply units. At the French-German Research Institute of Saint-Louis (ISL), most experimental railguns are driven by power supply units based on capacitors. Recent investigations at ISL explore the possibility to use coil-based systems to increase the energy density and reduce the footprint of the power supply. In this paper, an electrical circuit simulation is used to investigate the difference for railgun operation in between a capacitor and a coil-based power supply with respect to the current amplitude behavior, projectile velocity, and launch efficiency. For this, a scenario of a 25-MJ muzzle energy railgun is simulated with two different power supply options; one is based on capacitors, and the other is on coils. The circuit resistance determines a large part of the losses of the system and therefore defines the efficiency of the launch and the size of the power supply. Therefore, a range of different resistances were simulated as well. The interpretation of the results of the performed simulations leads to the conclusion that the capacitor-based system “naturally” produces a favorable current pulse trace with respect to launching a mechanical delicate payload. Further simulations show that the disadvantage of the inductor-based supply can be mitigated by increasing the power supply unit subdivision into smaller units. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
48. Design of an Electromagnetic Induction Coilgun Using the Taguchi Method.
- Author
-
Le, Dinh-Vuong, Go, Byeong-Soo, Song, Myung-Geun, Park, Minwon, and Yu, In-Keun
- Subjects
ELECTROMAGNETIC induction ,ELECTROMAGNETIC launchers ,TAGUCHI methods ,STATORS ,FINITE element method ,SIMULATION methods & models - Abstract
Electromagnetic induction coilgun systems have been receiving great attention, recently, due to the advantage of noncontact between the stator and armature coils. Several studies present the simulation and analysis of the coilgun system by using the finite-element method. However, there are still deficiencies in current modeling studies of the coilgun system. This paper presents a design of a multistage pulsed power induction coilgun system using the Taguchi method to maximize its efficiency and reduce the time and cost of the design process. A coilgun system is analyzed and designed using a state-space equation system. The Taguchi method is applied in order to evaluate and determine the geometric variables, the layer, turn layer numbers for both the stator and armature coils, and the trigger positions of each stage. Then, a 2-D finite-element model of the coilgun system using the MagNet program was developed to compare the design and analysis results. The energy efficiency of the three-stage coilgun system is 31.3%, and this is expected to increase with the increase in the number of stages. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
49. Design of Ion Pump Power Supply Based on LCC Resonant Converter.
- Author
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Bae, Jung-Soo, Jang, Sung-Roc, Kim, Hyeong-Suk, Yu, Chan-Hun, and Ahn, Suk-Ho
- Subjects
ION pumps ,POWER resources ,ELECTRIC transformers ,HIGH voltages ,ELECTRIC leakage - Abstract
In this paper, the detailed design of an ion pump power supply is presented. The ion pump power supply was designed based on an LCC resonant topology with high switching frequency to take advantage of a smaller transformer for isolation. Because the proposed ion pump power supply has a 7-kV, 50-mA specification, high-voltage insulation is required. In order to secure insulation reliability, the power supply was designed with eight separate transformers that share primary turns. The spacing between the primary turns and secondary turns allows for increases in the leakage inductance and parasitic capacitance of the transformer. A compact design can be achieved using the parasitic component generated by the proposed design as the resonant parameters of the LCC resonant converter. In addition, based on a trapezoidal approximation of the LCC resonant converter, the resonant parameters are designed to have trapezoidal shapes of the resonant current in order to reduce conduction loss. Finally, the results of the experiment indicate that the developed ion pump power supply can be used effectively in high-voltage and low-current applications. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
50. Development and Test of a 400-kV PFN Marx With Compactness and Rise Time Optimization.
- Author
-
Lassalle, Francis, Morell, Alain, Loyen, Arnaud, Chanconie, Thierry, Roques, Bernard, Toury, Martial, and Vezinet, Rene
- Subjects
ELECTRON beams ,MICROWAVES ,PULSE circuits ,CERAMIC capacitors ,ELECTRIC potential - Abstract
Repetitive high-voltage square pulses are of great importance for producing long-pulse electron beams and high-power microwaves. One of possible technologies for the generation of such pulses is a Marx generator using pulse forming network (PFN) stages, often combined with a pulse sharpening technique to reduce the rise time to a few nanoseconds (peaking stage). This paper presents an innovative design, named the “zigzag design,” for the optimization of the compactness and of the rise time of 400-kV–85-ns PFN-Marx. Thanks to this design, the 16 stages of this generator, which delivers an open circuit output voltage of 720 kV, fit in a 650-mm length. For a slightly overmatched load ($Z_{\mathrm {load}} = 100 ~\Omega$), the output voltage reaches 400 kV with a rise time as less as 5 ns. The inductance reduction associated with the innovative zigzag design, which allows this sharp rise time with no need for a peaking stage, is described. The 85-ns plateau duration of the pulse is given by the PFN construction of each stage, which is based on six ceramic capacitors (2.1 nF–45 kV) connected within a strip line. The 16 PFN stages are housed in a 360-mm diameter gas pressurized vessel. Burst mode operation for a duration of 10 s at a pulse repetition frequency of 100 Hz is reported, for a resistive load and for the electron beam diode of a X-band relativistic backward-wave oscillator (BWO). To reach further compactness, the BWO system is integrated on side of the generator vessel and a U-shaped gas pressurized line connects both systems through a compact conical vacuum insulator. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
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