RU168456U1 - DC voltage stabilization device - Google Patents

Abstract

The utility model relates to electrical engineering and is designed to stabilize the voltage of direct current sources. To reduce the size and weight of the transformer in the DC voltage stabilization device containing an autonomous inverter, rectifier, control system and single-phase transformer containing yokes, primary and secondary windings with midpoints, moreover, the input terminal of the positive potential of the stabilization device is connected to the first and second input terminals of the autonomous inverter, the first input pin the control system house and the midpoint of the secondary winding of a single-phase transformer, the input terminal of the negative potential of the stabilization device is connected to the output terminal of the negative potential of the stabilization device, the second and fourth input terminal of the control system and the middle point of the primary winding of the single-phase transformer, the output terminal of the positive potential of the stabilization device is connected to the output the rectifier output and the third input terminal of the control system, the third and fourth input terminals a the inverter is connected to the first and third output terminals of the control system, the output terminals of the autonomous inverter are connected to the primary winding of the single-phase transformer and to the second fourth output terminals of the control system, the input terminals of the rectifier are connected to the secondary winding of the single-phase transformer, according to the utility model of the yoke, the primary and secondary windings single-phase transformer made of ferromagnetic material, while the primary winding coaxially covers the secondary winding,

Description

The utility model relates to electrical engineering and is intended to stabilize the voltage of direct current sources.

It is known that in the schemes of stabilization devices there is a practical tendency to reduce the mass and volume of the devices themselves, which can be achieved by increasing the frequency of the inverter links of the autonomous inverter. However, the transition to the operating frequencies of the supersonic range revealed a number of restrictions on increasing the frequency. One of these limitations is the frequency properties of semiconductor devices (for example, transistors) and their criticality to permissible rates of increase of currents and voltages during switching (see Rozanov Yu.K. "Fundamentals of Power Electronics", 1992, 209 pp.).

The considered problem is solved by using progressive designs of single-phase transformers with windings from materials with high electrical conductivity, where the windings also serve as cores. The device of such single-phase transformers is characterized by significantly smaller dimensions, mass and energy loss in the windings and core.

A transformer is known (see patent RU 2444803), in which the yoke, primary and secondary windings are made of ferromagnetic material, where the primary and secondary windings are highly conductive, while the primary winding coaxially covers the secondary winding, which, alternating with the yokes, are connected into a closed magnetic circuit.

The closest in technical solution is a DC voltage stabilization device (see patent for the invention RU 2444832), containing a self-contained inverter, rectifier, control system and a single-phase transformer containing yokes, primary and secondary windings with midpoints, and the input terminal of the positive potential of the device stabilization is connected to the first and second input terminals of the autonomous inverter, the first input terminal of the control system and the middle point of the secondary winding of a single-phase transform ora, the input terminal of the negative potential of the stabilization device is connected to the output terminal of the negative potential of the stabilization device, the second and fourth input terminal of the control system and the midpoint of the primary winding of a single-phase transformer, the output terminal of the positive potential of the stabilization device is connected to the output terminal of the rectifier and the third input terminal of the control system, the third and fourth input terminals of the autonomous inverter are connected to the first and third output terminals of the control system phenomena, the output terminals of the autonomous inverter are connected to the primary winding of a single-phase transformer and to the second fourth output terminals of the control system, the input terminals of the rectifier are connected to the secondary winding of a single-phase transformer.

The disadvantage of the prototype: the relatively high value of the dimensions and mass of the transformer in the device for stabilizing DC voltage.

The technical result is to reduce the size and weight of the transformer in the device for stabilizing the DC voltage.

The technical result is achieved by the fact that in the DC voltage stabilization device containing an autonomous inverter, a rectifier, a control system and a single-phase transformer containing a yoke, primary and secondary windings with midpoints, and the input terminal of the positive potential of the stabilization device is connected to the first and second input terminals autonomous inverter, the first input terminal of the control system and the midpoint of the secondary winding of a single-phase transformer, the input terminal of negative sweat The stabilization device is connected to the output terminal of the negative potential of the stabilization device, the second and fourth input terminal of the control system and the midpoint of the primary winding of a single-phase transformer, the output terminal of the positive potential of the stabilization device is connected to the output terminal of the rectifier and the third input terminal of the control system, third and fourth input terminals autonomous inverter connected to the first and third output terminals of the control system, the output terminals of the autonomous in the vertices are connected to the primary winding of a single-phase transformer and to the second fourth output terminals of the control system, the input terminals of the rectifier are connected to the secondary winding of a single-phase transformer, according to a useful model of the yoke, the primary and secondary windings of a single-phase transformer are made of ferromagnetic material, while the primary winding coaxially covers the secondary winding, which, alternating with yokes, are connected in a closed magnetic circuit.

Justification of the eligibility criteria of a utility model

The novelty is due to the fact that the proposed set of essential features is unknown from the information on the prior art, namely: the implementation of ferromagnetic material yokes, primary and secondary windings of a single-phase transformer in a DC voltage stabilization device, where the primary and secondary windings are characterized by high electrical conductivity, while the primary the winding coaxially covers the secondary winding, which, alternating with yokes, are connected in a closed magnetic circuit, which provides significant voltage device weight and size.

Industrial applicability is confirmed by the possibility of applying in direct current power lines and in autonomous power supply systems of industry and agriculture.

The essence of the utility model is illustrated by drawings, where figure 1 shows a functional diagram of a device for stabilizing DC voltage, figure 2 shows a single-phase transformer.

The DC voltage stabilization device comprises an autonomous inverter 1, a rectifier 2, a control system 3, and a single-phase transformer 4 containing yoke 5, primary and secondary windings 6 and 7 with midpoints, and the input terminal of the positive potential of the stabilization device is connected to the first and second input terminals autonomous inverter 1, the first input terminal of the control system 3 and the midpoint of the secondary winding 7 of the single-phase transformer 4, the input terminal of the negative potential of the stabilization device with is single with the output terminal of the negative potential of the stabilization device, the second and fourth input terminal of the control system 3 and the midpoint of the primary winding 6 of the single-phase transformer 4, the output terminal of the positive potential of the stabilization device is connected to the output terminal of the rectifier 2 and the third input terminal of the control system 3, third and fourth the input terminals of the autonomous inverter 1 are connected to the first and third output terminals of the control system 3, the output terminals of the autonomous inverter 1 are connected to the first the primary winding 6 of the single-phase transformer 4 and with the second and fourth output terminals of the control system 3, the input terminals of the rectifier 2 are connected to the secondary winding 7 of the single-phase transformer 4. Yarma 5, the primary and secondary windings 6 and 7 of the single-phase transformer 4 are made of ferromagnetic material, while the primary winding 6 coaxially covers the secondary winding 7, which, alternating with the yokes 5, are connected in a closed magnetic circuit.

A device for stabilizing DC voltage operates as follows.

When applying voltage to the input terminals of the device, the autonomous inverter 1 converts the constant voltage into alternating voltage, and in the primary winding 6 of the single-phase transformer 4 under the influence of current I ₁ , which creates magnetic fluxes F, the EMF U ₁ is induced. By magnetic coupling a single-phase transformer 4 in the secondary winding 7 connected to the input terminals of the rectifier, an EMF U ₂ is induced, providing a load current I ₂ flowing in the rectifier 2, which performs the functions of a boost device. The output voltage is stabilized by the control system 3, and the single-phase transformer 4 communicates and matches the input and output voltage levels between the autonomous inverter 1 and the rectifier 2, being a rather small-sized and light element in the circuit of the DC voltage stabilization device. Since the energy loss of any transformer is proportional to its weight, the resulting reduction in weight provides a reduction in these losses.

The claimed device can be used in power and measuring circuits of the electronic and electrical industries in the electric power industry.

Claims (1)

A DC voltage stabilization device comprising an autonomous inverter, a rectifier, a control system and a single-phase transformer containing yokes, primary and secondary windings with midpoints, the input terminal of the positive potential of the stabilization device being connected to the first and second input terminals of the autonomous inverter, the first input terminal of the system control and midpoint of the secondary winding of a single-phase transformer, the input terminal of the negative potential of the stabilization device is connected to the output terminal of the negative potential of the stabilization device, the second and fourth input terminal of the control system and the midpoint of the primary winding of a single-phase transformer, the output terminal of the positive potential of the stabilization device is connected to the output terminal of the rectifier and the third input terminal of the control system, the third and fourth input terminals of the autonomous inverter are connected to the first and the third output terminals of the control system, the output terminals of the autonomous inverter are connected to the primary winding phase transformer and with the second fourth output terminals of the control system, the input terminals of the rectifier are connected to the secondary winding of a single-phase transformer, characterized in that the yoke, primary and secondary windings of a single-phase transformer are made of ferromagnetic material, while the primary winding coaxially covers the secondary winding, which, alternating with yokes connected in a closed magnetic circuit.

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