SU1108421A1 - Ferroresonant voltage stabilizer - Google Patents

Abstract

A ferroresonant voltage regulator containing a first choke connected between the first input terminal and a resonant current circuit consisting of a second droselle, one of the winding taps of which is connected to the first output §4 / f 3FS S iijja5 OTHER terminal, the winding of the second choke is connected through the main winding of the third throttle to the first capacitor plate, the additional winding of which is connected between the second input terminal and the second output terminal, and the tap is connected to the end of the winding of the second throttle, I distinguish and with the fact that, in order to reduce the flow of active materials and increasing the efficiency of the stabilizer, the second plate of the capacitor is connected to the second output terminal and said second outlet throttle is directly bonded to the first output terminal.

Description

The invention relates to electrical engineering and can be used in the power supply circuit of radio equipment. A single-phase ferroresonant AC voltage regulator is known, containing linear and non-linear chokes, filter circuit C. The disadvantage of this device is low efficiency. The stabilizer containing the first choke with a compensation winding connected between the first input adhesive is the closest to the technical essence. mine and the resonant current circuit, with the stand Out of the second throttle and parallel to it the connection of the closed filter circuit, containing a capacitor and the main winding of the third throttle, d additionally winding is connected between ptor input terminal and the second output cells mmoy and retraction doolnitelnoy winding Con chen to the resonance circuit at the junction of the winding of the second choke to capacitor plate, wherein a compensation winding of the first choke connects the top of the second choke coil to the first output terminal t2j. The drawback of the device is that the filter circuit is connected in parallel to the nonlinear choke, and to the load - through the additional winding section of the filter throttle. This leads to incomplete use of the filtering capabilities, excess material consumption and low efficiency due to additional losses in the elements. The purpose of the invention is to reduce the consumption of active materials and increase the efficiency of the stabilizer. This goal is achieved by the fact that in a ferroresonant voltage regulator containing a first choke connected between the first terminal and a resonant current circuit consisting of a second droplet, one of the winding taps of which is connected to the first output terminal, the winding of the second throttle is connected to the first the capacitor through the main winding of the third drossel, the additional winding of which is located between the second input terminal and the second output terminal, and is connected to the end of the second dross winding l, the second capacitor plate is connected to the second output terminal, and the indicated discharge of the second throttle is directly connected to the first output terminal. The drawing shows a stabilizer circuit. The stabilizer contains a first choke 1 with a gap in the magnetic core and a resonant current circuit containing a second choke 2 with a closed magnetic conductor, a third choke 3 and a capacitor 4. The choke 1 is connected by the first terminal 5 of the winding 1 to the same power supply terminal. The second output 6 of the throttle 1 is connected to the adjusting tap 7 throttle 2 and through the adjusting tap 7 or 8 or the first pin 9 of the second throttle to the first output terminal. The first terminal 10 of the additional winding of the throttles 3 is connected to the second output terminal, the second terminal 11 to the second input terminal. A branch 12 of the throttle 3 is connected to the second terminal 13 of the second throttle 2. A capacitor k is connected between the main winding of the throttle 3 and the connection point of the terminal 10 with the second output terminal. Another conclusion of the main winding of the droplet 3 is connected to the adjusting tap 7 or 8 or the first pin of 9 droplets 2. The stabilizer works as follows. The actual (or average) voltage value of the AC power source may vary over time. The voltage on the load varies only slightly, due to the saturation of the throttle 2 and the compensation of the overvoltage of the power source by changing the phase and voltage of the first choke 1. The series resonant circuit of the capacitor 4 and the main winding of the throttles 3 is connected parallel to the load, shunt in it most of the harmonics. The intensity of the field in the magnetic circuit of the core of the droplet 3 filter is equal to the sum of the magnetizing forces created by the currents through the corresponding windings of its windings. The operating current of the current in the pen-shaped section 10-12 will complement the Klii bypassing dros3

sat 3 is equal to the vector sum of the load currents and the parallel circuit. The number of turns of this area in accordance with the law of total current should be reduced in comparison with the prototype in proportion to the cosine (cos vp) of the phase angle of the voltage vector load section 1012 and the main winding of the drossel 3, the main winding of the drossel 3 is reduced in comparison with the prototype by the number of turns, equal to the product of the number of turns of the load section of the additional winding by cos N. In this case, the magnetic field strength as a function of time will remain the same. The active losses of the load section 10–12 droplets 3 increase due to an increase in the effective value of the current, however, sum 084214

Gross losses of droplets 3 are reduced as a result of a significant reduction in losses in its main winding and with constant losses in the area

5 11-12. The reduced total losses in the filter choke 3 change the saturation mode of the throttles 2, which together allows to obtain the specified accuracy of the stabilization of the output voltage without the compensation winding of the throttles 1. Reduction of losses due to a decrease in the active Resistance of the windings of the throttles 3 and the mass of the magnetic circuit

15 increases the efficiency of the stabilizer, reduces the heating of its elements, respectively, increases the reliability. The supply of throttles 3 for heating expands the range of variation of the power supply voltage.

26 and the range of plug-in load.

Claims (1)

A FERRO-RESONANT VOLTAGE STABILIZER, comprising a first inductor connected between the first input terminal and a resonant current loop consisting of a second inductor, one of the winding taps of which is connected to the first output terminal, the beginning of the winding of the second inductor is connected to the first capacitor lining through the main winding of the third inductor the winding of which is connected between the second input terminal and the second output terminal, and by a tap is connected to the end of the winding of the second inductor, characterized in that, for the purpose of reducing the consumption of active materials and increasing the efficiency of the stabilizer, the second capacitor plate is connected to the second output terminal, and the specified branch of the second inductor is directly connected to the first output terminal. >