SU742906A1 - Ferroresonance ac voltage stabilizer - Google Patents

Description

The invention relates to electrical engineering and can be used in the power supply circuits of various radio engineering equipment. Known ferroresonant variable voltage regulators lj (The first known device ij contains a linear choke, an autotransformer and a filter. The second known device 2, which is the closest technical solution to this invention, contains a linear drossel {, the primary winding of which is connected to the first terminal by the first input terminal, and the secondary winding is connected to one of the terminals of the ferroresonance current loop, consisting of two windings of the filter throttles, a capacitor and a saturated one. The disadvantage of the known devices is a large non-linear distortion of the output voltage. The aim of the invention is to reduce the non-linear distortion of the output voltage. This is achieved by connecting the second output primary winding of the line throttle to the first output terminal in a known ferroresonant alternating voltage stabilizer and with the first vigate ™ water saturated autotransformer, the second terminal of which is connected to the second input terminal, the capacitor is switched on with the first terminals the two windings of the positive side filter, the second terminals of which are connected to the terminals of the ferroresonant circuit of currents, the secondary winding of the linear droplets are connected to one of the terminals of the full autotransformer with another terminal, the other terminal of the ferroresonant circuit TOKOBi has been connected to the other terminal of the output circuit, and the output terminal of the TOKOBi circuit has a pinn a torus FIG. Figures 1 and 2 show two variants of the conceptual scheme of a ferroresonant stabilizer of alternating voltage.

The current source, the voltage of which must be stabilized, is connected to the input terminals 1 and 2, the load to the output terminals 3 and 4.

A linear choke 5 with an unsaturated magnetic core, primary winding 6 and secondary (compensating) winding 7 goes to the stabilizer. The winding 6 is connected between terminal 2 and the end of the jQTKH 8 (nln adjustment tap) saturated autotransformer (drag-jna) 9.

: Winding 7 is consistently included ig in the ferroresonant current circuit between the end of the winding 8 (or adjustment tap) and the beginning of the winding 10 throttle filter 11.

The winding 1 2 of the throttles of the filter is connected on the beginning of the winding 8 and is connected to terminal 1. The free boxes of the windings 10, 12 are connected to the capacitor plates. The starting voltage is removed from the ferro-resonance circuit of the currents in two points 25 ka: from one of the capacitor plates and connected to the winding 8 of the winding 6 of the unsaturated droplets 5.

The voltage at the output of the stabilizer varies less than the voltage of source Nick-30 due to the fact that the circuit consisting of windings 7 8, -10, 12, capacitance 13, constitutes a ferroresonant current loop at the frequency of the input voltage, and the difference between the input and output of the 35 stabilizer falls on the winding of the 6 linear choke.

The winding 7 of the linear droplet compensates for the change in the output voltage caused by the slope of the volt-ampere characteristic of the saturated autotransformer (droselle) 9.

The windings 7, 10, capacitance 13, coherent in series, are in resonance with the harmonics of the input frequency, 45 shunt most of the third harmonic.

The voltage of the fifth harmonic, due to the carcass resistance at the frequency of this harmonic of a circuit consisting of a coil 7, 10, capacitance 13, is balanced by the action of the winding 12.

On the fit. 2 shows the switching on of the winding 7 in series with the winding 12 of the choke of the filter 11. In this case, the third harmonic is bridged by the winding 10 and the capacitor 13 connected in series.

The voltage of the fifth harmonic, which is controlled by the impedance at the frequency of this harmonic circuit, consisting of winding 10 and capacitor 13, is balanced by the action of windings 7, 12.

The use of the ferroresonant voltage stabilizer circuit makes it possible to reduce the nonlinear distortion by almost 1.5% compared to the prototype.

Claims (2)

1.Association certificate of COCF No. 208819, cl. H O2 M 1/04, 1966. 2. Author's certificate of the SSOR No. 306454, cl. G 05 F 3/06, 1969. h FIG. 3 five Phi1.1