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Until now, there are two major methods to generate high voltage repetitive nanosecond pulses: inductive energy storage (IES) system 9,10 and capacitive energy
The all-solid-state inductive energy storage pulse forming line modulator is a brand-new solution to achieve a high repetition rate, high voltage gain, and short pulse output. However, due to the non-ideal dynamic characteristics of the switch and the fixed physical space size of the transmission line, it''s difficult to realize the generation and control of
Adam Lindblom — Jan Isberg — Hans Bernhoff — Mats Leijon ∗. A high volta ge pulse generator based on inductive inte rmediate energy storage has been construct ed. The current switching
two-stage opening switch comprising of a vacuum switch as the first stage and a high voltage fuse in series Two-stage opening switch for inductive energy storage systems June 1998 IEEE
To understand the energy conversion during VAT discharge, a high-voltage probe and current meter were used to measure the charging and discharging of the inductive energy storage circuit. Eq. (10) presents that the higher the inductance value, the higher is the amount of energy stored in the inductor.
PDF | An inductive energy storage pulse power system is being developed in BARC, India. Simple, compact, and robust, high voltage pulse power system, capable of generating reproducibly 240 kV
A compact pulsed high-voltage generator has been developed for applications in pulsed gas discharges. Its operation principle is based on inductive energy storage and it uses a static induction thyristor as the opening switch. It is capable of generating pulsed high voltage of ~15 kV with pulse width of ~200 ns for load resistance of 1 kOmega. This
A compact pulsed high-voltage generator has been developed for applications in pulsed gas discharges. Its operation principle is based on inductive energy storage and it uses
S. R. Korzhenevskiy*, A. A. Komarskiy, A. S. Chepusov, V. A. Bessonova, and V. N. Titov. Institute of Electrophysics, Ural Branch, Russian Academy of Sciences, Yekaterinburg, 620016 Russia *e-mail: [email protected] . Received February 1, 2016. Abstract—The possibility of adjusting the output voltage of a high-voltage nanosecond pulse generator
A pulsed high-voltage generator has been developed using semiconductor opening switch (SOS). It is based on inductive-energy-statorage scheme, and it has been developed
Simultaneously a high-voltage electrode is charged up to U0 voltage from another external source, and the electric energy is stored in several cascades. At the moment when the
Pulsed gas discharge is an important means of generating low temperature plasma. Short pulses with fast frontier show superior performance in terms of increasing the active particle content, ionization coefficient and electron conversion rate due to its higher voltage rise rate. The common nanosecond pulse generator is based on capacitive energy storage.
Shifting the energy storage to a high voltage circuit allows the use of very inexpensive microwave sources such as magnetrons for microwave cooking, while no power switch is necessary at the high
Abstract: The all-solid-state inductive energy storage pulse forming line modulator is a brand-new solution to achieve a high repetition rate, high voltage gain, and short pulse output. However, due to the non-ideal dynamic characteristics of the switch and the fixed physical space size of the transmission line, it''s difficult to realize the generation and
It is shown that the semiconductor opening switch controls the amount of energy in the inductive storage, and a high-voltage short prepulse with a peak pump power density of ~1 MW cm-3 appearing
A compact pulsed high-voltage generator has been developed for applications in pulsed gas discharges. Its operation principle is based on inductive energy storage and it uses a static induction thyristor as the opening switch. It is capable of generating pulsed high voltage of ~15 kV with pulse width of ~200 ns for load resistance
The values of the ozone yield at about 400 ppm of ozone concentration are 271, 172 and 114 g/kWh at 9.5, 20 and 60 ns pulse widths, respectively. This result suggests that shorter pulse is effective for high yield of ozone synthesis. The
The high-voltage pulse generator is based on an inductive energy storage unit and a semiconductor opening switch, and the latter ensures a high pulse
There are described electric schemes of multi-cascade generators on the basis of stepped lines, the distinction of which consists in initial storage both of electric and magnetic energy. In ideal case they possess 100 % efficiency and form at the load a rectangular voltage pulse, which amplitude exceeds in several times the generator charge voltage. As
The oscillograms of the output voltage U at a 1 kΩ load and a current of the semiconductor interrupter I SOS of a generator with two links of magnetic compression: (a) at a voltage of primary
By now, a few HTSPPTs have already been tested based on inductive energy storage system [6], [7], [8] and capacitive energy storage system [9]. High energy transfer efficiency can be obtained by using a HTSPPT in a capacitor-based pulsed power supply [9], but the energy density of the whole system is still inadequate.
Abstract: The all-solid-state inductive energy storage pulse forming line modulator is a brand-new solution to achieve a high repetition rate, high voltage gain, and short pulse output. However, due to the non-ideal dynamic characteristics of the switch and the fixed
Abstract. Two methods of output voltage adding using pulse forming lines (PFLs) have been studied and compared. Both methods use inductive energy storage (IES) instead of traditional capacitive
Both methods use inductive energy storage (IES) instead of traditional capacitive energy storage (CES), which means that the PFLs are charged by current instead of voltage. One of the methods (Type A) used an additional transmission-line-transformer (TLT) to achieve the output voltage adding from multiple PFLs, while the other method (Type B)
Abstract: The paper presents the research on the use of high-voltage pulse generators with inductive energy storage and gas-discharge current interrupters. Two original
It was shown that a TГИ2-500/20 thyratron is capable of reliably interrupting the current with an amplitude of 800–850 A in an inductive energy storage, forming from a low-voltage
To develop a compact and lightweight high-voltage pulse generator, this work proposed a new modular pulse forming topology with high voltage gain and a reduced number of energy storage capacitors.
Abstract: High-voltage square-wave nanosecond pulse generator has a broad application prospect in the fields of atmosphericn low-temperature plasma, biomedicine and power
The initial starting voltage spike as well as the energy to operate the vacuum arc are generated by a low mass (<300 g) inductive energy storage PPU which is controlled using +5 V level signals.
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