SU1705897A1 - Regulator transformer - Google Patents

Abstract

The invention relates to electrical engineering, to a class of fe; -resolvable devices and can be used as a source of secondary power supply for control circuits of automation, computer technology and communication technology. The aim of the invention is to simplify the device and increase efficiency. The device consists of a transformer with an igneous armor system 1, the middle rod of which, compared to its extreme rods, is made with a doubled cross section, two primary windings 2 and 3, connected in series-opposite and located on the extreme rods of the magnetic conductor. The winding 2 is shunted by a capacitor 4 and forms with it a ferroresonance oscillatory circuit. A load 6 is connected to the secondary winding 5 located on the same rod with the winding 2 of the ferroresonance oscillatory circuit. 3 Il. / Ё

Description

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ABOUT

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Purpose invented - simplified device and increase the coefficient of band action.

From f lg. 1 shows the principle schema of the proposed stabilized transformer; in fig. 2 - vector flow diagrams, ooo n rods of the magnetic line. the voltages induced by them in the primary and secondary windings of the device, which explain the operation of the circuit; in fig. 3 - current-voltage characteristics of circuit elements that explain the principle of output voltage stabilization.

YcTrjonctEo consists of a transformer with the magic pipe line 1 of the armor system, the middle rod of which, compared to its extreme rods, is made with a doubled cross-section, two primary windings 2 and 3, connected in series and opposite and located on the extreme rods of the magnetic circuit. Winding 2 is shunted by capacitor 4 and forms a ferro-resonant oscillating circuit with HUNS. To the secondary winding 5, located on the same rod with the primary winding 2 of the ferroo-resonant oscillatory circuit, a load 6 is connected.

The device works in the same way.

When an alternating supply voltage V is fed to the input in a circuit formed by a ferroresisor mn psr oscillation circuit consisting of the primary winding 2 and a capacitor 4, and the power psi winding 3 located at the extreme height: the magnetic core 1 and which is a non-linear ballast inductive element, it generates forcorreson; clear oscillations, resulting in magnetic currents F) and induced by the currents of the primary windings 2 and 3 and saturating the outer rods of the magnetic prod- uct, are shifted in phase relative to each other ANGLE ip, З-аГ / СНЩ ИЙ

from the magnetic properties of the city of Ipatoo:., 1, the number of turns of the primary OS Moth 2, 3 apocostch condensate 4, a irKvce of the city of granule and the character under,; lucho; -1nuyu; -: secondary ss .-- : e

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 Distribution of flow: flow:, closure, medium middle .-; day, and flow 15, flow, end of flow: line through lolG - stem hp: gnitopROBODA and nlprazpennych iestestru flow f | This rod. as fluxes (and, they pass along the saturated extreme rods of the magnetic core, are directed towards the suspected fluxes of these rods 4, Ф and when passing through the medium surface magnetic flux in the negative direction, then their constituent voltages Vsi , V s2 primary windings 2 and 3 will be much smaller than the part of the stresses of these circuits: ok Vi, V2, induced by the fluxes F- and Fl.

The relationship between the components of the magnetic flux vector Φ of the left magnetically-magnet rod and the corresponding vector of the induced voltage; the voltage of the winding 2, as given by him, is as follows; 1 and 2 can

P be described by the expressions

i 1

VT Vi + Vsi -Vs2. (1)

Similarly, the connections between the components of the magnetic flux vector: 3 of the right

The 5 rods of the magnetic core and the corresponding vectors of the induced magnetic field: Va powering windings 3 are canceled and i Phg Fg + F $ 2;

0Vt Vi4vs2-Vsi. (2) By summing up the ones shown in FIG. 3 ELOLT-EMPSF characteristics. Oscillator - HOi O circuit formed by capacitors 4 and pergs. Primary winding 2 from the left

5 rods of magnetic core 1 (Vi + V.:i f (I),

curve g), of nonsense, - of a ductive, educated; ..- 3 on pnplO - rod magn /, opiog, od 0/2 b

V Vs2: f (0− -3 i 6} with voltages V .-; i. V $ 2.

about ny-ledeish. magnetic pots. ,

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unchanged when changing the supplying power supply line x .i V and led, g-; iku load current n. When the current I exceeds the nominal value of the ballast of a non-linear iid, the acetic element formed by the primary winding 3 on the right terminal of the transducer T is saturated by the non-linear mirror, its dynamic reactance decreases, therefore, the efficiency of winding 3 increases less than that would be with the line; not: -l mode inductive ballast element. As a result of this, the voltage Vi of the winding 2, which is a voltage drop across the oscillating circuit formed by the winding 2 and the capacitor 4 on the left upper magnet, is received by an additional nonlinear increment, the capacitor A receives a smaller part of the energy coming from the mains, thereby reducing energy losses in the windings and increases

Efficiency

Claims (1)

Claims of the Invention: A stabilized trasimrmator containing an armored anti-squeaker, two primary windings located on extreme rods, one of which is capacitor-locked, and a secondary winding, characterized in that, in order to simplify the device and increase efficiency; The primary windings are connected in: uniformly and counter, and the secondary winding is located on a common rod with a primary winding, bypass capacitor. -G & U1L FIG. 2 Fmg.Z