452 results
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2. Analysis of Switching Transient Process in Hybrid Energy Storage System.
- Author
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Liu, Yingquan, Lu, Junyong, Long, Xinlin, Wei, Jingbo, Zhou, Ren, and Wu, Yiting
- Subjects
ENERGY storage ,HIGH voltages ,TRANSIENT analysis ,ENGINEERING design ,STORAGE batteries - Abstract
This paper has introduced two important indexes, turn-off surge voltage (TSV) on power switch and peak positive pole potential (PPPP) of storage batteries, which can be used to evaluate switching transient process of high-voltage energy storage system. Research on them is of great significance to power switch choice and high-voltage isolation design in engineering applications. Power switch response process at the turning off moment and transient process in freewheel stage have been analyzed by the established small-signal model of single power switch; then, a power switch test platform for hybrid energy storage system was built to verify it. Taking pulsed-power supply charging device with a novel inductor of low resistance and high inductance as a research object, this paper has analyzed dynamic process of the TSV and the PPPP at the turning off moment through establishing state space model of the whole system. Comparison shows that the numerical curves match the simulated curves well. Finally, the exactness of the employed model has been further verified in two pulse capacitor charging experiments. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
3. Impulse-Breakdown Characteristics of a High-Power Gas Switch Based on Graphene Cathode.
- Author
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Wang, Gang, Su, Jian-Cang, Zhang, Xi-Bo, Liu, Sheng, and Pan, Ya-Feng
- Subjects
CATHODES ,GRAPHENE ,CHEMICAL vapor deposition ,COPPER electrodes ,FIELD emission - Abstract
Graphene has attracted great interest for its distinctive band structure and physical properties. Results from previous studies show that a graphene cathode can provide stable field emission and intense emission in a vacuum. In this paper, a graphene cathode was fabricated using chemical vapor deposition (CVD) on copper electrodes, and the breakdown of the cathode in a high-pressure gas was studied. A low-jitter, self-breakdown gas spark switch based on a graphene cathode is proposed in this paper. The impulse-breakdown characteristics of this switch in a quasi-uniform electric field were studied. When the gap length is 5 mm, and the gas pressure is 0.6 MPa, the average breakdown voltage ($U_{\mathrm {BD}}$) is nearly 85.9 kV, and the voltage jitter is only 3.2%; these values are much lower than those for pure copper cathodes and graphite cathodes. The graphene cathode is found to be a suitable choice for use as a high-power gas switch in applications requiring an intense emission source. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
4. 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
5. 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
6. Analysis of Output Voltage Ripple of AGPS for CFETR N-NBI Prototype.
- Author
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Zhang, Xueliang, Zhang, Ming, Ma, Shaoxiang, Wang, Shu, Pan, Yuan, and Yu, Kexun
- Subjects
ELECTRIC potential ,LEAKAGE inductance ,ELECTRIC power distribution grids ,COMPUTER simulation ,POWER resources - Abstract
The planned China fusion engineering test reactor (CFETR) needs one or more negative-ion-based neutral beam injectors (N-NBIs) with a beam energy of 500 or even 1000 keV. In order to prepare for CFETR, a prototype of CFETR N-NBI is being designed. The prototype needs an acceleration grid power supply (AGPS) rated at 200 kV/25 A with a maximum pulselength reaches to 3600 s. The AGPS adopted a single-stage inverter-type high-voltage power supply (HVPS). The output voltage ripple is an important specification of the AGPS, which can affect the efficiency and stability of N-NBI system by influencing the beam divergence. However, the conventional methods cannot be used to limit the output voltage ripple of the inverter-type HVPS used as AGPS of CFETR N-NBI prototype. This paper simplified the AGPS to an insulated three-phase three-level (TPTL) dc–dc converter connected with a dual dc link. The working process of the TPTL dc–dc converter with duty-cycle modulation has been analyzed, and two main continuous conduction modes are described. The influence of key parameters such as duty cycle of inverter, leakage inductance of transformer, and output current on output voltage ripple is analyzed. Based on the analysis results, a so-called combined control strategy was proposed to keep the output voltage ripple at a level. The proposed strategy is suitable for the cases where the object output voltage is below 175 kV. Some simulations were carried out by using MATLAB/Simulink. The results showed that the analysis in this paper is reliable and the proposed control strategy has a good performance. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
7. Experimental Investigation on the Breakdown Voltage Jitter of Corona-Stabilized Switch at Low Repetition Rate.
- Author
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Gao, Pengcheng, Zeng, Bo, Cheng, Jie, Su, Jiancang, Li, Rui, and Zhao, Liang
- Subjects
CORONA discharge ,ELECTRIC switchgear ,ELECTRIC potential ,ELECTRODES ,ELECTRONS - Abstract
Studies have been taken into the breakdown voltage jitter of corona-stabilized switch at high repetition rate up to several kHz. It is thought that the gas recovery affect the jitter of breakdown voltage directly at high repetition rate, because the gas switch will breakdown at a low voltage if the gas cannot fully recover. The breakdown voltage jitter is called voltage jitter in the following paper. However, based on the experimental results, the voltage jitter still exists at low repetition rate, even at single-shot mode. This is not explained by the previous studies. In this paper, voltage jitter below 100 Hz of a corona-stabilized switch is investigated experimentally. A corona-stabilized switch is introduced, using a cylindrical electrode as the cathode and a plane electrode as the anode. The gas used between the electrodes is SF6. A negative pulse with a maximum width of 30~\mu \texts is used to charge this switch. The tested factors include gas pressure, gap space, repetition rate, and switch geometry. Experimental results show that voltage jitter is mainly affected by the gas pressure and switch geometry. It is seen that voltage jitter decreases as gas pressure increases and a suitable cathode geometry presents a low voltage jitter. Critical volume is a region close to the highly stressed electrode, where the presence of an electron will lead to an electron avalanche which attains a critical size and hence leads to a stabilizing corona. Critical volume is introduced to explain the experimental results. It is found that less voltage jitter can be achieved with a smaller and more concentrated critical volume, as well as efficient corona stabilization. The results indicate that voltage jitter may be reduced by optimize the critical volume at low repetition rate. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
8. 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
9. A Switched Oscillator Geometry Inspired by a Curvilinear Space—Part I: DC Considerations.
- Author
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Vega, Felix and Rachidi, Farhad
- Subjects
ELECTRIC oscillators ,COAXIAL cables ,ELECTROSTATIC induction ,CONFORMAL geometry ,ELECTRODES ,SIMULATION methods & models - Abstract
We present a new technique for the design and test of coaxial switched oscillators (SWOs). In this paper (Part I of a two-part paper), we concentrate on the electrostatic design of coaxial SWOs. We introduce a new design for the electrodes, which have been conceived as conformal surfaces in a geometrically convenient curvilinear space where Laplace equation is solvable. Analytical solution of the electrostatic fields is presented, discussed, and validated using numerical simulation. A prototype of an SWO based on this design is built and validated using experimental data. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
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10. Microplasma Logic Gates.
- Author
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Pai, Pradeep and Tabib-Azar, Massood
- Subjects
MICROPLASMAS ,PLASMA gas research ,DIODES ,ATMOSPHERIC pressure ,ELECTRIC potential - Abstract
This paper demonstrates for the first time the use of microplasma to perform AND, OR, and XOR logic operations. The logic circuits are implemented similar to diode-resistor logic. Output voltages are in the range of \(5-40\) V and can be modified by varying the load resistor. The active area of the microplasma device is just \(50~\mu \) m \(\times 5~\mu \) m. The small interelectrode gap kept breakdown voltage to \(\sim 250\) V when operated in He gas at atmospheric pressure. The use of plasma as a source of free carriers is also demonstrated, with free carriers available up to 500- \(\mu \) m away from plasma. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
11. A Stage-Stage Paralleled Topology of All-Solid-State Marx Generator for High Current.
- Author
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Wang, Yifan, Liu, Kefu, Qiu, Jian, and Dong, Weigang
- Subjects
METAL oxide semiconductor field-effect transistors ,FIELD-effect transistors ,HIGH voltages - Abstract
Marx generator using all-solid-state devices has been studied for many years. Higher parameters are always the demand for new applications. Traditional all-solid-state Marx generator can output high voltage due to its series topology, but the current is always limited by the switch. In this paper, a stage-stage paralleled topology of Marx generator for high current has been proposed. Topology structure and driving mode comparison for current balance have been analyzed. The paralleled driving mode for the current balance and the shaping waveform has been proposed. For experiment, a four-stage-four-paralleled Marx generator with metal–oxide–semiconductor field-effect transistors (MOSFETs) has been constructed with output pulses 2.2 kV, 730 A (depending on the load), rise time of 31 ns, fall time of 56 ns, and adjustable pulsewidth from 400 to 800 ns. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
12. Study on the High-Voltage Solid-State Pulsed-Power Modulator for Parallel Reactor Operation.
- Author
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Song, Seung-Ho, Jo, Hyun-Bin, and Ryoo, Hong-Je
- Subjects
INSULATED gate bipolar transistors ,FUSION reactors ,TRANSISTORS ,HIGH voltages ,POWER density - Abstract
This paper describes a study on the high-voltage compact solid-state pulsed-power modulator for parallel reactor operation. The current capacity of the pulsed modulator has been improved to drive multiple reactors in parallel. The pulse discharge switch uses the IXYK120N120C3 (1200 V/120 A) insulated-gate bipolar transistor for a high current output. The gate driver has been improved according to the characteristics of the replaced switch. The output specifications of the modified pulsed-power modulator are a maximum output voltage of 40 kV, a maximum output current of 300 A, a pulsewidth ranging from 1.5 to $5~\mu \text{s}$ , a maximum repetition rate of 3 kHz, and an average power of 13 kW. The modulator has the dimensions of $450 \times 475 \times 600$ mm3, a maximum peak power of 12 MW, and a maximum power density of 93 kW/L. A resistive load experiment and a plasma reactor parallel drive test were performed. Four parallel reactors were driven using one modulator. In addition, a 50% reduction in the concentration of toluene was obtained through the experiment of the toluene gas treatment using only parallel plasma reactors. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
13. A High-Repetition-Rate Bipolar Nanosecond Pulse Generator for Dielectric Barrier Discharge Based on a Magnetic Pulse Compression System.
- Author
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Mi, Yan, Wan, Jialun, Bian, Changhao, Zhang, Yanyuan, Yao, Chenguo, and Li, Chengxiang
- Subjects
PULSE compression (Signal processing) ,MAGNETIC properties of dielectrics ,VERY high frequencies ,MAGNETIC control ,PULSE generators - Abstract
Magnetic pulse compression (MPC) systems are suitable for generating dielectric barrier discharges (DBDs) owing to their capability of producing high-amplitude, short pulse voltage waves. This paper proposes a high-frequency, bipolar magnetic compression system to study DBD plasma characteristics. First, the principle of bipolar MPC is explained [a bipolar MPC system comprises a full bridge inverter circuit, pulse transformer (PT), and magnetic switch (MS)]. Additionally, the design of the PT and MS is described. Then, the waveform of the resistive load is tested and compared with PSpice simulation results. It was found that the nanosecond pulse generator produces a pulse on a resistor with an amplitude of 0–13 kV, a rise time of approximately 100 ns, and a repetition frequency of 0 to several kHz. Finally, this paper studies the plasma characteristics under the application of a high-frequency bipolar pulse, and the charge–voltage Lissajous figure of the discharge waveform is analyzed. Combining discharge photographs and theoretical calculation results yields the relationship between the discharge characteristics and the frequency, which enriches the theoretical study of high-frequency bipolar discharges. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
14. Explosive Current Opening Switches.
- Author
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Demidov, Vasily Alexandrovich
- Subjects
ELECTRIC switchgear ,ELECTRICAL conductors ,INDUCTIVE energy storage ,ELECTRIC fields ,MAGNETIC fields - Abstract
Explosive current opening switches (EOSs) operate based on the principle of the conductors mechanical destruction of the inductive energy storage system by detonation products of the high explosive charge. The EOSs are used for current pulse sharpening of the magnetocumulative generators (MCG). These explosive single-acting devices constructively match each other; both operate in the physical limit and provide maximum specific characteristics. This paper describes several basic schemes of the EOS constructions that were experimentally checked in different laboratories of the world. The investigation results on the flat and cylindrical models and also full-scale experiments on the current pulses sharpening of the helical and disc MCG are presented. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
15. Performance Comparison of ETT- and LTT-Based Pulse Power Crowbar Switch.
- Author
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Subhash Joshi, T. G. and John, Vinod
- Subjects
PULSED power switches ,CROWBARS ,THYRISTORS ,MICROWAVE tubes ,ELECTROMAGNETIC fields ,TIME delay estimation - Abstract
High-voltage high-power pulse switches are built with semiconductor devices, preferably thyristor, due to the superior performance that they offer. Triggering methods classify the thyristor as electrically triggered thyristor (ETT) and light triggered thyristor (LTT). Due to the specialized gate constructions and many build-in protections, the cost of LTT is much higher than ETT. The operating modes in applications, such as crowbar, do not require all these build-in protections. In this paper, the operation of a crowbar is analyzed, and the build-in protections of LTT are reviewed. This paper proposes three experiments for the design selection of thyristor, between ETT and LTT, for crowbar applications. The experiments cover the electrical performance as well as electromagnetic emissions in a 10-kV, 1-kA crowbar built with both ETT as well as LTT, which can be used to benchmark the performance of the crowbar circuit. From the three experiments, the performance of ETT-based crowbar is found to be comparable with LTT-based crowbar. Based on the experiments carried out with the proposed benchmarking approaches, this paper shows that ETT-based crowbar is a cost-effective solution for crowbar applications. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
16. Electromagnetic Transient Simulation of Spark-Gap Switched Pulse Generators for Predicting Pulse Waveforms.
- Author
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Ryu, Jiheon
- Subjects
ELECTROMAGNETISM ,ELECTRIC spark gaps ,PULSE generators ,PULSE circuits ,ELECTRONIC pulse techniques - Abstract
This paper presents an electromagnetic simulation method for spark-gap switched pulse generators (SGSPGs). Electromagnetic simulation programs can be useful for designing nanosecond or subnanosecond SGSPGs; however, these programs do not support simulation models of spark-gap switches. This paper describes a simulation method that determines electric field at an observation point in the SGSPG by replacing the spark-gap switch with a step voltage source. In this simulation, the discharge properties of the spark-gap switches, including the breakdown voltage and rise time, are determined using the results of the studies on electrical breakdown. A 1-ns single pulse-forming line was fabricated to validate the proposed method. The simulated waveform was in good agreement with the measured waveform. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
17. 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
18. 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
19. Experimental Investigation on the Interruption Performance of Vacuum Interrupters With AMF and TMF Contacts in a Quench Protection Switch.
- Author
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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
20. GaN Transistors for Miniaturized Pulsed-Power Sources.
- Author
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Samizadeh Nikoo, Mohammad, Jafari, Armin, and Matioli, Elison
- Subjects
MODULATION-doped field-effect transistors ,TRANSISTORS ,ENERGY density ,MAGNITUDE (Mathematics) ,ELECTRIC fields ,GALLIUM nitride - Abstract
In this paper, we discuss and demonstrate the potential of normally-on GaN high-electron-mobility transistors (HEMTs) as opening switches in miniaturized pulsed-power circuits. The high-breakdown electric field of GaN (~3 MV/cm) makes it possible to fabricate high-voltage devices in small dimensions, resulting in smaller parasitics and faster switching times. GaN HEMTs as opening switches are compatible with inductive topologies, which offer more than one order of magnitude higher energy density than capacitive topologies, allowing further miniaturization of pulsed-power systems. In this work, we demonstrate the application of fabricated 1.5-kV normally-on GaN HEMTs on an inductive switching topology, resulting in 300-fold voltage step-up, which makes it possible to generate high-voltage pulses with a low-voltage dc source in miniaturized circuits. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
21. Optimization of Self-Breakdown and Triggering Characteristics on Multigap Gas Switch by Mounting Resistors and Capacitors in Parallel With Switch Gaps.
- Author
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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
22. The Ringer as an Inductive Power Source for a Reluctance Accelerator.
- Author
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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
23. A Nanosecond Pulsed Generator With Fast-Solid-State Switch for Synchronous Discharge in Plasma Synthetic Jet Actuators.
- Author
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Cheng, Xiao, Huang, Bangdou, Zhang, Cheng, Kong, Fei, Luo, Zhenbing, and Shao, Tao
- Subjects
PLASMA jets ,PLASMA flow ,PULSE generators ,ACTUATORS ,SHEAR waves ,ELECTROPORATION - Abstract
The plasma produced by a pulsed generator is an efficient tool for an airflow control. In this paper, a nanosecond pulsed generator constructed with a fast solid-state switch is designed for triggering synchronous discharges in plasma synthetic jet (PSJ) actuators connected in series. The generator delivers high-voltage pulses with a peak voltage varying from 0 to 20 kV, a rise time of 20 ns, a full-width at half-maximum of 200 ns, and a wide range of pulse-repetition rate varying from 0 to 5.5 kHz. It is proved that this generator is able to trigger synchronous discharges in three PSJ actuators in atmospheric air with a peak discharge current more than 90 A and a deposited energy per pulse of 39 mJ. A schlieren system is used to observe the airflow dynamics, which shows the high synchronization among the three PSJ actuators with a time triggering delay of about 20 ns. The synchronous operation of three PSJ actuators produces a plasma jet with a maximum velocity of 60 m/s and a precursor wave with a velocity of 350 m/s. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
24. 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
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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
25. A Modular Topology of Marx Generator Using Buck–Boost Converter.
- Author
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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
26. Dual Resonant Voltage Droop Compensation for Bipolar Solid-State Marx Generator Topologies.
- Author
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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
27. 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
28. Design of an Attractive Force Circuit of Pulsed Power System for Multistage Synchronous Induction Coilgun.
- Author
-
Song, Myung-Geun, Le, Dinh-Vuong, Go, Byeong-Soo, Park, Minwon, and Yu, In-Keun
- Subjects
CAPACITORS ,PULSED power systems ,THYRISTORS ,STATORS ,ELECTROMAGNETIC launchers ,FINITE element method - Abstract
This paper presents a new capacitor bank topology for a pulsed power system to improve the efficiency of multistage synchronous induction coilgun. In the proposed method, a switch, such a gate turn-off thyristor, is inserted in parallel to a crowbar diode and load to generate an attractive force between the next stator and the armature. A mathematical model was developed, and finite-element method simulations were conducted to verify the proposed topology. The results show that the proposed method improves the energy efficiency and launch velocity. The improvement in energy efficiency is confirmed from the simulation results of a three-stage synchronous induction coilgun. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
29. System Design and Measurements of a 115-kV/3.5-ms Solid-State Long-Pulse Modulator for the European Spallation Source.
- Author
-
Jaritz, Michael and Biela, Juergen
- Subjects
SYSTEMS design ,COLLIDERS (Nuclear physics) ,SPALLATION (Nuclear physics) ,CONVERTERS (Electronics) ,ELECTRIC transformers - Abstract
In this paper, the results of a 2.88-MW solid-state long-pulse modulator, which has been designed for the new linear collider at the european spallation source in Lund, are summarized. The presented modulator generates an output voltage pulse of 115 kV with a pulselength of 3.5 ms. The main components of the modular system, which include a series–parallel resonance converter, a high-voltage high-frequency transformer, and an output rectifier, are discussed. The modulator design is verified by measurements performed with a full-scale prototype, which is operated under nominal load conditions. A detailed output voltage ripple evaluation is given, and in addition, the system design has been proven by a 7- and 2/3-h heat run test. All specifications are well within the given limits, and the maximum occurring temperatures in the transformer stay below 110 °C even under worst case assumptions. The system achieves a pulse efficiency (determined by the pulse shape) of 96.78%, an overall electrical system efficiency of 91.9%, and a combined pulse system efficiency of 89%. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
30. Phase Locking and Mode Switching in a Backward-Wave Oscillator With Reflections.
- Author
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Ryskin, Nikita M., Titov, Vladimir N., and Umantsiva, Olesya V.
- Subjects
BACKWARD wave oscillators ,SWITCHING systems (Telecommunication) ,PHASE-locked loops ,TIME-domain analysis ,FREQUENCIES of oscillating systems - Abstract
For a relativistic backward-wave oscillator (RBWO), various nonstationary phenomena, such as irregular transients, mode competition, self-modulation, and chaos, are typical. Phase locking by injection of the external signal helps to minimize transient times and to stabilize a single-frequency regime of operation. In this paper, phase locking of an RBWO with end reflections is considered. The results of time-domain numerical modeling are presented, which reveal an intricate pattern of the phase-locked operation. In particular, a possibility of rapid frequency switching by RF priming is demonstrated. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
31. Modular Multilevel Converter-Based Bipolar High-Voltage Pulse Generator With Sensorless Capacitor Voltage Balancing Technique.
- Author
-
Elserougi, Ahmed A., Massoud, Ahmed M., and Ahmed, Shehab
- Subjects
HIGH-voltage direct current converters ,HIGH-voltage direct current transmission ,POWER resources ,IDEAL sources (Electric circuits) ,SENSORLESS control systems ,PULSE generators - Abstract
In order to generate bipolar high-voltage (HV) pulses across certain load from HV dc (HVdc) power supply, a voltage source inverter (VSI) stage should be inserted between the load and the supply. In order to meet the required HV level, series connection of semiconductor devices should be employed with dynamic voltage sharing between the involved devices. Modular multilevel converter (MMC) can be used instead of the conventional two-level VSI to alleviate the complexity introduced by the deployment of series-connected devices. The voltage level of the HVdc power supply and the voltage rating of the available semiconductor devices determine the suitable number of MMC voltage levels ( $N$ ). Capacitor voltage balancing is a vital issue for proper operation of the MMC. In general, conventional sensor-based balancing techniques require a significant amount of measurements, which increases the complexity of the system. In addition, the high dv/dt during switching times causes electromagnetic interference, which may adversely affect the accuracy of the measurements. In this paper, a sensorless voltage balancing technique is proposed for the MMC-based bipolar HV pulse generator that reduces the system sensitivity, cost, and complexity. A detailed illustration of the proposed approach is presented in this paper. The simulation and experimental results are used to validate the proposed concept. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
32. Optimal Design of −40-kV Long-Pulse Power Supply.
- Author
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Kim, S. C., Heo, H., Moon, C., Nam, S. H., Kim, D. S., Park, S. S., Kim, J. H., Oh, S. S., Yang, J. W., and Sho, J. H.
- Subjects
CONSTANT-current power supply ,SWITCHING power supplies ,ELECTRON gun ,CONVERTERS (Electronics) ,SURFACE charging - Abstract
This paper proposes a compact high-voltage pulse electron gun power supply (EGPS) consisted of interleaved capacitor-charging power supply (CCPS) with a series-resonant converter (SRC) to drive the electron tube. Requirement specifications are −40 kV, −7 A (280 kW), and continuous output lower than ±1% ripple stability lasted few seconds with <1 ms charging and discharging times. To meet the design specifications, eight stacks operate in parallel, and each stack has a 45° phase shift switching pulse width modulation (PWM) method. Each designed CCPS can supply −40-kV voltage and −0.9-A current. In addition, the proposed CCPS has the SRC to reduce the switching loss. The SRC is a famous topology, which presents main characteristics such as high-power density and efficiency. To prove the validity, this paper is confirmed by the simulation and experimental results of the fabricated −40-kV output CCPS with water load. Then, we implemented the fabricated EGPS to the electron tube. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
33. Prestrike Inrush Current Arc Behaviors in Vacuum Interrupters Subjected to a Transverse Magnetic Field and an Axial Magnetic Field.
- Author
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Yu, Yongxiang, Li, Guoqin, Geng, Yingsan, Wang, Jianhua, and Liu, Zhiyuan
- Subjects
VACUUM switches ,VACUUM circuit breakers ,MAGNETIC fields ,CAPACITIVE sensors ,CAPACITANCE measurement - Abstract
The objective of this paper is to determine the influences of the transverse magnetic field (TMF) and the axial magnetic field (AMF) on prestrike inrush current arc behaviors in vacuum interrupters (VIs) during capacitive making processes. Two types of cup-type VI contacts were used: TMF contacts and AMF contacts. The contact diameter of the VIs was 48 mm. The insulating envelopes of the VIs were transparent, and there was no metal vapor shield inside the VIs, which were arranged for the observation of the prestrike arcs. The inrush current arc behaviors were recorded by a high-speed charge-coupled device video camera. The experimental results revealed that the VIs of cup-type AMF contact showed a higher dielectric strength than those of cup-type TMF contact during the making operations of inrush current. In addition, the arcs in VIs of cup-type TMF contact tended to be intense arcs that caused serious welding than those of VIs of cup-type AMF contact. Moreover, the cup-type AMF contact effectively reduced the prestrike arc erosion on the contact surfaces than those of TMF contact during the prestrike process of inrush current. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
34. Design of a Low-Stray Inductance Magnetic Switch for High Compression of the Pulse Width in a Magnetic Pulse Compressor.
- Author
-
Rhee, Jae-Ho, Cho, Young-Maan, Baek, Ji-Eun, Kim, Se-Hoon, Lee, Chang-Jin, and Ko, Kwang-Cheol
- Subjects
ELECTRIC inductance ,MAGNETIC control ,PULSE width modulation ,COMPRESSOR efficiency ,ELECTRIC impedance - Abstract
A magnetic pulse compressor (MPC) transfers energy via $C$ – $L$ – $C$ resonance. The pulse width of the MPC is determined by the saturation inductance of the magnetic switch (MS). When using the MS, the pulse width is limited due to the stray elements. To increase the pulse compression rate, the number of stray elements must be reduced. In this paper, we propose an optimum design for an MS having the lowest impedance of stray elements, along with its analysis and experimental verification. The proposed model is designed to have a reduced magnetic path length while retaining the same saturation inductances as that of a common MS; this is accomplished by using the relationship between the magnetic field path length and the number of inductor turns. The experimental results show that the proposed MS decreases the full width at half maximum by 18% and increases the rise rate by 69%. This result demonstrates that the proposed MS increases the pulse compression rate of the MPC by reducing impedance of stray elements in the system. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
35. Coaxial–Conical Transition in Magnetically Insulated Transmission Line.
- Author
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Zou, Wenkang, Wei, Bing, Liu, Laqun, Jiang, Jihao, Guo, Fan, Gong, Boyi, Chen, Lin, Liu, Dagang, Han, Wenhui, Wu, Wei, Liang, Jinhui, Wang, Meng, Feng, Shuping, Xie, Weiping, and Deng, Jianjun
- Subjects
ELECTRIC potential ,ELECTROMAGNETISM ,ELECTRICAL engineering ,ELECTRIC currents ,ELECTRICAL conductors - Abstract
Coaxial magnetically insulated transmission line (MITL) was widely used in high-current pulsed power facilities. It is also an important option in future high-current accelerators based on the linear transformer driver (LTD) technology, in which the output line is usually coaxial to fit the component layout. In one of the schemes for high-current LTD accelerator, tens of coaxial MITLs are connected to conical disk lines in parallel. As a special structure, the coaxial–conical transition is a key component of the system. The feasibility of efficient current transmission under magnetic insulation condition is the precondition for building such a pulsed power facility. In this paper, we report the results of coaxial–conical MITL transition experiment which were conducted on the primary test stand (PTS). At the inner MITL of PTS, four coaxial MITLs were connected, gradually changed to mini-triplate and finally connected two conical MITLs. The total current at the entrance of coaxial lines (input) and at the conical MITL (output) were recorded. It showed that an output–to-input current efficiency of above 96% and of 87% across the transition was achieved with short load connection and open load connection, respectively. The 3-D transient electromagnetic simulation and 3-D particle-in-cell simulations were conducted to check the transmission efficiency, which confirmed very tiny loss when the load was short connected. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
36. Design for Compression Improvement of a Magnetic Pulse Compressor by Using a Multiwinding Magnetic Switch.
- Author
-
Jae-Ho Rhee, Young-Maan Cho, Se-Hoon Kim, and Kwang-Cheol Ko
- Subjects
COMPRESSION loads ,MAGNETIC control ,ENERGY transfer ,SATURATION (Chemistry) ,PULSE width modulation transformers ,EQUIPMENT & supplies - Abstract
In a magnetic pulse compressor (MPC), the saturation inductance of the magnetic switch (MS) determines the energy transfer time. Thus, in general, the number of windings on the MS is modulated to vary the saturation inductance. Changing the number of windings also changes the energy transfer time and the saturation time. In this paper, we propose and analyze an MS with multiwindings to modulate the pulse width without affecting the saturation time of the MS. The parallel structure of the multiwindings on the MS decreases the energy transfer time without affecting the saturation time. Through experiments, we show that the energy transfer time is decreased by 13% via a double winding MS. Therefore, an MS with multiwindings can be used to modulate the pulse width at the last stage of the MPC without affecting the saturation time of the MS. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
37. A 120-kV, 5-kA Multipurpose Pulsed-Power Generator Using a Semiconductor Switch and Magnetic Pulse Compression.
- Author
-
Jang, Sung Roc, Rim, Geun Hie, Cho, Chan Gi, Song, Seung Ho, Park, Su Mi, and Ryoo, Hong Je
- Subjects
ELECTRIC generators ,PULSED power systems ,SEMICONDUCTORS ,MAGNETIC field effects ,PULSE width modulation ,SWITCHING circuits ,CAPACITORS - Abstract
This paper describes a high-frequency pulsed-power generator for various industrial applications such as water treatment, food and medical apparatus for sterilization, or polluted gas treatment. The system is made of silicon-controlled rectifier as a main trigger switch, capacitors, two-stage magnetic pulse compression stages, and a linear transformer to generate a maximum of 120-kV, 5-kA pulse. The parameters obtained through the development are: output voltage: 120 kV (maximum), pulse repetition ration: 300 pulse per second, pulsewidth: 0.25~\mu \texts , and mean power: 30 kW. The designed pulsed-power generator is confirmed to be used effectively for many high-voltage pulsed-power applications related to environmental industry by simulation and experiments. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
38. The Meat Grinder With CPFU: A Novel Circuit for Inductive Pulsed Power Supplies.
- Author
-
Liu, Xukun and Yu, Xinjie
- Subjects
MEAT grinders ,PULSE circuits ,ELECTRIC power ,ELECTROMAGNETIC devices ,ELECTRIC potential ,ELECTRIC inductors - Abstract
A novel circuit with the better performance for the inductive pulsed power supplies in the electromagnetic launch system is proposed in this paper, namely, the meat grinder with capacitive pulse forming unit (CPFU). Its working process is qualitatively analyzed stage by stage. Its practical feasibility is verified through a 7.5-kJ experiment. From the perspectives of circuit structure and working principle, this circuit can be regarded as the combination of a meat grinder and a CPFU. Compared with its preceding circuits, this circuit possesses following advantages: 1) the self-recovery of the capacitor precharged voltage can easily be achieved, which is conducive to continuous operations of the whole circuit and 2) the waveforms of the inductor currents contain no capacitive components, which can promote the energy storage density of the inductors. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
39. A Zero-Current Opening Circuit for Inductive Pulsed-Power Supply Based on High-Temperature Superconducting Pulsed-Power Transformer.
- Author
-
Zhang, Xiaotong, Li, Zhenmei, Li, Haitao, Zhang, Cunshan, and Liu, Shucun
- Subjects
ELECTRIC circuits ,ELECTRIC power ,ELECTRIC transformers ,ENERGY storage ,ELECTRIC inductance ,HIGH temperature superconductors - Abstract
The opening switch is one of the critical technologies in the development of inductive pulsed-power supply. The power requirement is very high when the opening switch is desired to commutate a large current. This paper presents a zero-current opening circuit for inductive pulsed-power supply based on a high-temperature superconducting pulsed-power transformer. First, there are two types of current flowing through the opening switch, one comes from the secondary side of the pulse transformer, and the other one comes from superconducting energy storage inductance. The orientation of the two current is opposite. Then, when the current flowing through the opening switch closes to zero, the switch is opened and this restrains the over-voltage pulse of the opening switch. The simulation results indicate that this zero-current opening circuit is feasible and has potential applications for high-energy systems in the future electromagnetic launcher. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
40. Research on the Time-Delay Characteristics of the Laser-Triggered Vacuum Switch.
- Author
-
Mao, Xiaopo, He, Zhenghao, Xu, Xinya, Wang, Ying, Fan, Wenfang, Lin, Huazhong, Song, Siqi, and Wang, Yuqing
- Subjects
VACUUM switches ,PLASMA production ,ELECTRIC potential ,WAVE analysis ,ELECTRIC switchgear - Abstract
The basic structure and work mechanism of laser-triggered vacuum switch (LTVS) are introduced briefly in this paper, and the processes of primary plasma production and expansion are analyzed as well. A series of experiments has been carried out with different gap voltages, laser wavelengths, laser energies, polarity configuration modes, switch structures, focal lengths, and laser waveforms. The switch structure is modified to improve the heavy-current capability of the switch, and the gap distance is increased to improve the voltage capacity. The special design of the trigger structure can reduce the dependence on the laser energy of the switch and the time delay. A new laser waveform of LTVS multiple wave crests could further decrease the laser energy, and it is the research basis of laser trigger miniaturization and its application in the LTVS. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
41. Determining Key Parameters for the STRETCH Meat Grinder Circuit.
- Author
-
Ma, Shangang, Yu, Xinjie, and Li, Zhen
- Subjects
MEAT grinders ,ELECTRIC circuits ,INDUCTIVE energy storage ,POWER inductors ,PULSED power systems - Abstract
Slow transfer of energy through capacitive hybrid (STRETCH) meat grinder circuit, which was proposed by the Institute for Advanced Technology, added a capacitor into the traditional meat grinder circuit. Even though its energy density is slightly less than the corresponding pure inductance system, it can reduce the voltage across the opening switch and maintain the high multiplication factor of the opening current. The performance of the STRETCH meat grinder circuit depends on multiple parameters. The inductance ratio ( n=L1 / L2) and the capacitance (C) are the two vital factors, which have a crucial influence on the system performance, such as the voltage over the opening switch ( V_{\rm Sopm}) , the current multiplication factor ( m$ ), and the ratio of the maximum capacitive energy over the total inductive energy ( $\eta )$ . Thorough studies have been carried out in this paper on the relationship between the above two factors and the three performance criteria. This paper also discusses and analyzes the chosen of the key parameters ( $n$ and $C$ ) for a single-stage STRETCH meat grinder with 2-mH total inductance, which is made up of two serial coils with 0.95 coupling factor. The opening current of the main switch is 1 kA, which constitutes a 1-kJ inductive pulsed-power supply. It fully takes the advantage of the STRETCH meat grinder topology, intensifies the study of the inductive pulsed-power supply with higher energies, and is easy to be utilized for practical application. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
42. Analysis of Magnetohydrodynamic Simulation Results of Explosive Current Opening Switch Operation.
- Author
-
Demidov, Vasily Alexandrovich and Vlasov, Yuri Valentinovich
- Subjects
MAGNETOHYDRODYNAMICS ,FLUID dynamics ,ACOUSTIC generators ,DYNAMICAL systems ,ACOUSTIC transducers - Abstract
Explosive and electroexploded opening switches (EEOSs) are used for current sharpening of magnetocumulative generators (MCGs). The EEOSs are well studied both in calculations and experimentally; the explosive opening switches (EOSs) have been studied mostly experimentally. Calculation and theoretical studies of the explosive current opening switches have been carried out by means of phenomenological model building or in 2-D gas-dynamic approximation. The mentioned approaches have some limits, and they do not allow completely revealing the complicated pattern of physical phenomena taking place during the opening switch operation. Whereas it is necessary to optimize the EOSs, it is almost impossible to solve this problem completely at expensive full-scale explosive experiments. The 2-D numerical magnetohydrodynamic simulation of the processes is very close to the reality. This paper compares calculation and experimental data on the circuit breaking of the MCG using the explosive current opening switch with the ribbed barrier. Investigation results of the electric circuit parameters, opening switch construction, and linear density of the breaking current dependence on the load current pulse characteristics are presented. Possible reasons of differences in calculation and experimental results are shown; ways of improvement of the calculation model and opening switch optimization are outlined. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
43. Design and Implementation of a 40-kV, 20-kJ/s Capacitor Charger for Pulsed-Power Application.
- Author
-
Gong, Ji-Woong, Ryoo, Hong-Je, Ahn, Suk-Ho, and Jang, Sung-Roc
- Subjects
ELECTRIC circuits ,ELECTRIC lines ,POWER supply circuits ,ELECTRIC current rectifiers ,POWER electronics ,ELECTRIC transformers - Abstract
This paper presents the design and implementation of a 40-kV, 20-kJ/s high-voltage capacitor charger based on a series/parallel resonant converter. The inclusion of the parallel resonant capacitor component in this circuit results in the production of a trapezoidal resonant current, which reduces conduction loss. This capacitor is practically realized as a part of the balancing network of the high-voltage rectifiers in the secondary side of the circuit. Particular attention in this paper is paid to the high-voltage transformer, which must be carefully designed to provide the required functionality without negative impact on the resonant circuit. A PSpice simulation has been used to prove that the proposed control method for the circuit is valid. This is supported with the experimental results, which verify that the operation of the circuit is as expected and that the converter is able to meet all the design criteria with an efficiency of up to 96%. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
44. Compact Pulse Topology for Adjustable High-Voltage Pulse Generation Using an SOS Diode.
- Author
-
Driessen, A. B. J. M., van Heesch, E. J. M., Huiskamp, T., Beckers, F. J. C. M., and Pemen, A. J. M.
- Subjects
ELECTRIC network topology ,PULSED power systems ,ELECTRIC switchgear ,ELECTRIC circuits ,ELECTRIC transformers ,ELECTRIC potential - Abstract
In this paper, a compact circuit topology is presented for pulsed power generation with a semiconductor opening switch (SOS). Such circuits require the generation of a fast forward current through the diode, followed by a reverse current that activates the recovery process. In general, magnetic switches are used to switch the diode current from forward to reverse. Therefore, adjustment of the output voltage of an SOS pulser is difficult. This paper introduces a circuit that allows an adjustable output voltage of the pulser. A solution is realized with a premagnetizing circuit on the primary winding of a pulse transformer (PT), so that a third winding is not needed. The primary capacitor voltage can now be varied while maintaining proper saturation of the PT. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
45. Investigation on Dynamic Properties of Amorphous Magnetic Core Stimulated by Different Driving Voltages.
- Author
-
Li, Song, Gao, Jingming, Yang, Hanwu, Ge, Xingjun, Liu, Zhaohua, and Qian, Baoliang
- Subjects
MAGNETIC properties ,PULSED power systems ,ELECTROMAGNETIC induction ,MAGNETIC cores ,MAGNETIC fields ,MICROWAVE plasmas ,ELECTRIC potential ,MAGNETIC flux - Abstract
Amorphous magnetic core has been widely used in pulsed power technology with applications including plasma science research, high-power microwave generation, and material surface treatment. For different applications, dynamic properties of the magnetic core will vary with stimulated magnetic field which determines by magnetization time and waveform of the driving voltage. In this paper, toroidal amorphous magnetic core ($\Phi ~540$ – $740\times25$ mm) was investigated theoretically, numerically, and experimentally. Specifically, the circuit is analyzed. A high-voltage test stand, which can generate different driving voltages with same components, was designed and developed in our laboratory. Dynamic properties, including magnetic induction change, coercive force and losses, were studied under three different typical waveforms with the same magnetic flux. Driving voltages of the pulses were 12, 12, and 6 kV and the magnetization rates were 0.6, 1.2, and 0.6 T/ $\mu \text{s}$ , respectively. Experimental results show reasonable agreement with the numerical analysis. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
46. Discharge Characteristics of a Pseudospark Switch in Series With a Saturable Inductor.
- Author
-
Ding, Weidong, Shen, Saikang, Yan, Jiaqi, Wang, Yanan, and Wang, Bo
- Subjects
ENERGY dissipation ,ELECTRIC potential ,MAGNETIC cores ,HIGH voltages ,ANODES ,DYE-sensitized solar cells - Abstract
High power pseudospark switches (PSSs) can control pulsed high voltage, high peak current discharges. In this paper, a PSS in series with a saturable inductor at the anode is investigated. The commutation process is analyzed with a time-resolved method. And the effects of the number of magnetic cores and anode voltages on discharge characteristics are studied experimentally. At the beginning of commutation process, when the anode voltage is 10.4 kV with four magnetic cores, the inductor is unsaturated, and there is a flat plateau of the forward voltage drop after the anode voltage drops rapidly to about 200 V, at the same time the current rise rate is 2.8 kA/ $\mu \text{s}$. When the inductor is saturated, there is a voltage spike that occurs at the end of the flat plateau, and the current simultaneously rises rapidly at the rate of 6.4 kA/ $\mu \text{s}$. The current sharp rise lags behind the voltage drop of the pseudospark gap, and the electrode erosion and energy dissipation reduce significantly. When the anode voltage is 15.6 kV, the commutation losses reduce by about 30% with seven cores in series at the anode. As a result, it is evident that the discharge process will speed up if the anode voltage is higher. And the trigger delay decreases by up to 8% when the anode voltage varies from 5.2 to 15.6 kV. Finally, in order to obtain a reproducible pseudospark discharge by the use of a saturable inductor, the number of magnetic cores has to be optimized for different anode voltages. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
47. Design of Trigger Circuit for High-Power Gas Switch Based on Flyback Circuit.
- Author
-
Kim, Shin, Bae, Jung-Soo, Kim, Hyoung-Suk, Yu, Chan-Hun, Lee, Byung-Joon, Ahn, Suk-Ho, and Jang, Sung-Roc
- Subjects
ENERGY storage ,THYRISTORS ,GASES ,SWITCHING circuits ,LOGIC circuits ,POWER resources ,ELECTRIC transformers ,PULSE generators - Abstract
This paper proposes a flyback-circuit-based design of a trigger circuit for a high-power gas switch. By incorporating a flyback circuit in a high-power gas switch, it is possible to generate a high step-up ratio and high-voltage pulse by using a transformer. Furthermore, simple trigger circuit having the minimum possible number of components (transformer and switch) can be realized. When an inductor is used as an energy storage element, energy is stored as a current source, and thus, the element can operate reliably when low impedance exists between the trigger node of the switch after triggering. According to the fundamental operating principle of a flyback circuit, the proposed trigger circuit is designed considering the maximum trigger voltage and energy required for a high-power gas switch. To verify the proposed design procedure and feasibility of the trigger circuit, a compact trigger circuit (7.5 kV, 1.3 mJ/pulse) is simulated using the PSpice program and implemented. Based on this compact circuit, a trigger circuit (20 kV, 100 mJ/pulse) for a triggered vacuum switch (TVS) is developed, and the tests with an actual TVS (3.3 kJ) are carried out. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
48. Solid-State Bipolar Pulsed-Power Modulator Based on a Half-Bridge Power Cell Structure.
- Author
-
Lee, Seung-Hee, Song, Seung-Ho, Jo, Hyun-Bin, and Ryoo, Hong-Je
- Subjects
INSULATED gate bipolar transistors ,CELL anatomy ,BRIDGES ,ELECTRONIC modulators ,POWER series ,SOLID state electronics - Abstract
This paper addresses the design of a solid-state bipolar pulsed-power modulator based on a series of stacked power cells that realize a simple and robust structure. Each cell is charged in parallel by an LCC resonant converter independently of the discharging loop. A passive cell-balancing design is implemented. The power cell using insulated gate bipolar transistors (IGBTs) can operate in bypass mode without an additional component, and the circuit operation was analyzed. A simple gate driving method, which provides synchronized gate signals without an extra power source of each gate driver using two control loops and isolation transformers, is implemented for the proposed bipolar pulsed-power modulator based on stacked cells. Moreover, an unexpected gate turn-on problem was solved by an additional off signal. To validate the proposed structure and the gate driving scheme, a three-cell, 1.2-kV, 110-A, 1.5- to 4- $\mu \text{s}$ , 3-kHz laboratory experimental prototype test was conducted. The results proved the reliability of the proposed solid-state bipolar pulsed-power modulator. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
49. First Implementation of a Subnanosecond Rise Time, Variable Pulse Duration, Variable Amplitude, Repetitive, High-Voltage Pulse Source.
- Author
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Huiskamp, T., Beckers, F. J. C. M., van Heesch, E. J. M., and Pemen, A. J. M.
- Subjects
HIGH voltages ,PULSE generators ,PLASMA sources ,PULSE circuits ,POWER resources ,METHODOLOGY - Abstract
In this paper, we present the first implementation of our 0–60-kV picosecond rise time 1–10-ns pulse generator. The pulse generator will be used in future work to generate a (sub-)nanosecond streamer plasma for air purification research. The first implementation of the pulse generator is a single-line pulse generator with an oil spark-gap, which generates 5 ns pulses with a 200 picosecond rise time and can operate at repetition rates of over 1 kHz into a 50 \Omega load. In this paper, we evaluate its performance and describe how we measure the very short pulses with an integrated and calibrated D-dot sensor. Furthermore, we present 3-D EM simulations of the 5 ns pulse generator and show that the simulations are in good agreement with the measurements. We previously described methods to flexibly vary the pulse duration of the pulse source by (artificially) changing the length of the pulse forming line (PFL). Here, we test these methods and find that changing the length of the outer conductor of the PFL and inserting magnetic material at the end of the PFL is a suitable method to change the pulse duration. Finally, we measure the breakdown voltages of the oil spark-gap and discover that higher pulse repetition rates are possible at higher oil pressures and smaller gap distances. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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50. Discussion on Minimum Precharged Voltage and Energy of the Counter-Current Capacitor in ICCOS.
- Author
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Liu, Xukun, Yu, Xinjie, Ban, Rui, and Li, Zhen
- Subjects
SEMICONDUCTOR devices ,ELECTRIC potential ,CAPACITORS ,THYRISTORS ,POWER resources - Abstract
Because it possesses higher current turn-off capability, the inverse current commutation with semiconductor devices (ICCOS) is a better option for the opening switch of an inductive pulsed power supply than the integrated gate commutated thyristor. This paper investigates the counter-current capacitor, which is the key component that determines the turn-off result and the volume of the counter-current branch. The major contributions of this paper include the following: 1) deriving an analytical expression for the minimum precharged capacitor voltage that can reliably turn off the main switch; 2) verifying this expression through a series of experiments within a current range of 0 to 4000 A and an energy range of 0 to 50 kJ; 3) giving an approximate expression for the optimal capacitance that minimizes the precharged energy; and 4) investigating the variation trends of the optimal capacitance and the corresponding optimal precharged energy with varying inductor current. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
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