RU2069022C1 - High-frequency electromagnetic device winding - Google Patents

Abstract

FIELD: converter engineering, electronics; high-frequency transformers. SUBSTANCE: winding has continuously wound conductors spaced apart by insulation and combined into coils with starting lead of one conductor connected to one lead and finishing lead of other conductor, to other lead. EFFECT: facilitated winding manufacture, simplified repair of faulty windings. 6 dwg

Description

 The invention relates to a conversion technique, electronics and can be used for high-frequency transformers.

It is known that two parallel conductors separated by a dielectric have a capacitance and inductance [1]
Inductive elements are known which are a system consisting of inductance, resistance and capacitance of both the coil itself and the capacitance between the coils [2] The presence of capacitance impairs the performance of individual coils [3]
In addition, windings are known, for example, for high-frequency transformers, containing continuously wound primary and secondary windings which, to reduce the leakage inductance, have small distances between the turns of the primary and secondary windings [4]
This implementation of the windings, although it allows to reduce the distance between the windings (primary and secondary), at the same time, the process of winding the windings, their insulation and repair is complicated.

Also known are windings that are wound with several parallel conductors [5]
This design of the winding despite the reduction of losses in the conductors can reduce the leakage inductance.

 The objective of the invention is to avoid the above difficulties and to create a winding of a high-frequency electromagnetic device, which with a relative design would at the same time provide ease of manufacture, assembly, repair and low cost.

 This is achieved due to the fact that the winding of a high-frequency electromagnetic device, such as a transformer, is made of at least two adjacent conductors separated by a dielectric and having leads, with one terminal connected to the beginning of one conductor and the other to the end of the other conductor.

 In FIG. 1 shows the design of the windings (I embodiment) of a high-frequency electromagnetic device, such as a transformer; in FIG. 2 diagram of the proposed winding; in FIG. 3 symbol of the winding; in FIG. 4 shows another design of the winding (II option); in FIG. 5 III variant of the formation of a winding with a secondary cupriding winding; in FIG. 6 is a circuit diagram for designating a transformer with a cupriding winding.

The design consists of a winding 1, for example a high-frequency transformer (Fig. 1), at least two continuously wound several conductors, and has two beginnings (H ₁ and H ₂ ) 2 and 3 and two ends (K ₁ and K ₂ ) 4 and 5 and separated by a dielectric, for example, enamel insulation of each conductor (not conventionally shown). Terminal 6 is connected to the beginning of one conductor, for example 2, and terminal 7 is connected to the end of another conductor 4. The electrical circuit of the proposed winding is shown in figure 2. The dot (.) Indicates the beginning of the windings.

 For clarity, a symbol for such a winding, as shown in FIG. 3. I propose to call such a winding cupriator, and the high-frequency transformer having such a winding is a Kupriyants transformer.

 Another (second) possible option for the formation of windings 8 and 9 (Fig. 4) can be presented in the form of two independent disk windings, which can have the same parameters (diameter, number of turns), etc. An insulator 10 is installed between adjacent windings. The method for connecting the windings to the terminals is similar (option I), FIG. 1.

 When changing the direction of the winding, for example, a winding, the polarity of the winding leads, that is, the beginning and end, change places and their connection with the leads, the same beginning of one winding is connected to one lead, and the end of the other winding to another lead.

 The design of the electromagnetic device according to the III embodiment has a known primary winding and a cupory secondary winding.

 The primary winding contains two coils 11 and 12 (Fig. 5), having the opposite direction of the winding, which are connected, for example, in series and have terminals 14 and 13. Between them there is a secondary cupriding winding containing coils 15 and 16 having opposite directions of winding, moreover, the beginning of the coil 15 is connected to the terminal 17, and the end of the coil 16 is connected to the terminal 13.

 The electrical circuit of the electromagnetic device is shown in FIG. 6.

 The windings can be interconnected by known methods - in series, in parallel.

 The authors tested the electromagnetic device together with the oscillator as a voltage converter with a power of up to 80 watts.

 Implementation of the proposed electromagnetic device will increase the operating voltage due to the location of the terminals on opposite sides separating the dielectric windings. In addition, it can be used as an inductive-capacitive element, and also due to the windings playing the role of a capacitor, there is no need to install a separate capacitor in the circuit. YYY1 YYY2 YYY3 YYY4 YYY5

Claims (1)

 The winding of a high-frequency electromagnetic device, such as a transformer, made in the form of at least two adjacent conductors with leads, characterized in that a dielectric is installed between the conductors, with one terminal connected to the beginning of one conductor and the other terminal to the end of the other conductor with the same direction of winding .

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