RU2107385C1 - Resonance-tuned circuit - Google Patents

Abstract

FIELD: two-terminal networks with capacitor and inductance coil. SUBSTANCE: circuit has only one part. Capacitor plates are shaped as inductance coils (may be with core), coil-plates are connected to power circuit through unlike-polarity leads; other two unlike-polarity leads for series circuit are insulated and for parallel circuit they are closed. EFFECT: simplified design. 1 dwg

Description

 The invention relates to resonant circuits, i.e. to bipolar circuits containing a capacitor and an inductor.

 Resonant circuits are known, consisting of a capacitor and an inductor, connected to each other in series or in parallel and connected to electrical networks. Such circuits are connected, for example, to reduce the voltage non-sinusoidality (see, for example, Zhezhelenko I.V. Higher harmonics in the power supply system of industrial enterprises, 1984, Energoatomizdat, pp. 101-136).

 The disadvantage of such circuits is that they take up a lot of space.

 The purpose of the invention is to offer a resonant circuit in the form of a single piece of equipment, i.e. small-sized.

 The essence of the invention lies in the fact that the resonant circuit contains one capacitor, the windings of which are in the form of an inductor, for example, rolled into a spiral, roll, etc.

 The drawing schematically shows the device of the resonant circuit, where 1 is the terminals of the resonant circuit, 2 are the terminals for closing and opening the capacitor plates, 3 are the capacitor plates with the generally accepted designation of the leads and ends of the windings of the inductors H1, H2, K1, K2, 4 - insulation capacitor.

 The proposed resonant circuit operates as follows.

 Terminals 1 circuit is connected, for example, to the mains. When terminal 2 is open, the device is a capacitor with plates 3 and insulation 4 and has capacitive resistance, the currents in plates 3 create cumulative magnetic fields, so the device also has inductive resistance. With equal inductive and capacitive resistances, the device is a series resonant circuit.

 When the terminal 2 is closed, the device is an inductor with a winding from the plates of the capacitor 3 and has an inductive resistance. The mains voltage on opposite sections of the plates induces a capacitive current in the insulation 4. The device has simultaneously capacitive resistance parallel to the inductive one. If the inductive and capacitive currents are equal, their mutual compensation will be noted.

Claims (1)

 A resonant circuit containing a capacitor, characterized in that the capacitor plates are in the form of an inductor.