RU2033651C1 - High-voltage and high-frequency transformer - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: high-voltage and high-frequency transformer has single-layer spiral coil of electric length equal to quarter wavelength asymmetrically connected to generator and to load. EFFECT: improved transformation ratio and output voltage, simplified design and adjustment procedure due to coil made in the form of spiral quarter-wave line connected into asymmetric circuit. 2 dwg

Description

 The invention relates to electrical engineering and can be used to produce powerful high-frequency electric fields, corona and glow discharges with their subsequent use in ozonizers, ionizers, in devices designed to weaken the surface tension of liquids, to weaken bonds in the rocks before crushing, to activate thin surfaces films for degreasing and cleaning surfaces, etc.

 The aim of the invention is to increase the output voltage, simplify the design and configuration, and increase reliability.

shγl.Figure 1 presents a schematically proposed device connected to a generator; figure 2 shows the distribution of current and voltage along the coil of the transformer. The high-voltage high-frequency transformer is structurally made in the form of a dielectric rod 1 with a conductor wound thereon connected to a generator 2. The conductor is wound to a coil in one layer along the entire length of the rod. This design has distributed parameters L, C, R, deceleration coefficient K _s . The length of the rod is chosen so that at a resonant frequency, taking into account the deceleration, approximately a quarter of the wavelength fits along the rod. When this voltage transformation coefficient expressed in terms of the complex propagation constant γ, the wave Z _o and Z input resistance _Rin as follows:
K chγl

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 With an optimal choice of rod sizes and wire diameters, a transformer with very low losses is obtained and the transformation ratio can reach thousands of units.

 To reduce losses, it is recommended to use littsendrat. A transformer made in this way with a diameter of 0.36 m and a length of 6 m had a deceleration factor of about 200 and a transformation coefficient of 940. The developed voltage at the end of the transformer was approximately 1 million with a generator power of 25 kW.

Claims (1)

 HIGH VOLTAGE HIGH FREQUENCY TRANSFORMER, containing a spiral coil, characterized in that, in order to increase the output voltage, simplify the design and tuning, and increase reliability, the coil is single-layer, with an electric length equal to a quarter of the wavelength, and is connected asymmetrically to the generator and load.

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