SU1665348A1 - Device for regulation of ac voltage - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used for the development of secondary power sources. The purpose of the invention is to increase the efficiency and improve the mass and size parameters of the device. The device for controlling the alternating voltage contains a transformer on a three-core magnetic core 1 with a power supply 3 and a load 5 windings located on its extreme rods, with two control windings 2 and 6, the first 2 of which are located on one and the second 6 on the other rods x of this magnetic circuit. Control windings 2 and 6 are interconnected via controlled key elements 1 of controlled key node 7. Control winding 2 is made with taps and contains network winding 3 as an integral part. Regulation of the output voltage is caused by a change in the magnitude of the magnetic flux coupled to the load winding 5, and is carried out by switching part of the turns of the first control winding 2 with the second control winding 6 through a controlled key node 7. 1 sludge.

Description

The invention relates to electrical engineering, in particular, to converting technology, and can be used in regulated sources of power of electronic equipment of various electronic devices.

The purpose of the invention is improving efficiency and improving the overall dimensions of the device.

The drawing shows a diagram of the device.

The regulatory body of the device is made in the form of a transformer (autotransformer) on a three-core magnetic circuit 1. At one extreme terminal of this magnetic circuit there is a first control winding 2 with taps and with the number of turns W _yi , consisting of series-connected network winding 3 with the number of turns Wc connected to the input the conclusions of the device, and the additional winding 4 with the number of turns W ₂ . On the other extreme core of the magnetic circuit there is a load winding 5 with the number of turns W _H and a second control winding 6 with the number of turns W _y2J Each of the taps of the first control winding 2, including its beginning, is connected to the first terminal of the corresponding key element of the controlled key node 7 and the second terminals of all the key elements of this node are connected to the first terminal of the second control winding 6. The second terminal of the second control winding 6 is connected to the end of the first control winding 2.

The device operates as follows.

The mains voltage Ui is supplied to the input terminals of the network winding 3. As a result, an MDS is created in the winding, and a stream Ф> is created in the rod on which the stepping winding is located, balancing the mains voltage. The stream <&> is divided into two streams: Φι and Фг. The flux Ф ι passes along the middle core of the magnetic circuit, and the flux Фг - along the extreme rod, on which the load winding is located. The flow induces in the part of the turns of the sectioned control winding EMF 1у1, and the flow Фг induces into. second winding control EMF! With a parallel connection of part of the turns of the sectioned winding 2 and the control winding 6, the equality 1у1 = 1 _у is fulfilled. When the number of turns of the winding Wyi changes, the fluxes Φι and Фг change. In this case, the EMF induced in the load winding 5 by the Fg flow changes.

The regulation of the output voltage is due to a change in the magnitude of the magnetic flux <fe coupled to the load winding, and is carried out by switching part of the turns of the first control winding 2 connected to the second control winding 6.

The specified resolution of the output voltage control is provided by the selection of the corresponding number of taps of the first control winding 2 and the number of controlled key elements.

Improving the overall dimensions and increasing the efficiency is achieved by significantly reducing copper consumption, by combining the network winding with the first control winding and reducing losses on key elements.

Claims (1)

Claim A device for regulating an alternating voltage containing a transformer made on a three-core magnetic circuit with mains and load windings connected respectively to the input and output pins and located on different extreme rods of the magnetic circuit, with two control windings, the first of which is located on one and the second on the other extreme cores of the magnetic circuit, the controlled key node, the first conclusions of which key elements are connected to the corresponding taps of the first control winding, including its beginning, characterized in that, in order to increase efficiency and improve mass and dimensional parameters, part of the first control winding from the end to one of its taps is used as a network winding, while the second conclusions of all key elements of the controlled key node are connected with the first terminal of the second control winding, the second terminal of which is connected to the end of the first control winding.