SU746474A1 - Power stabilizer - Google Patents

Description

The invention relates to electrical engineering, in particular, to regulating and stabilizing the power of a load, and may find application in electric power supply circuits of radio systems. Known power stabilizers The closest technical solution is a power stabilizer, containing regulating, connected to the terminals for PS1DKl.) Load and controlled by the power stabilization sensor, and output for connection to the power supply and. The known device has a complex circuit, a low ms factor and a distorted output curve. In addition, it does not provide a smooth adjustment of the voltage (power) to the output. The aim of the invention is to increase the reliability, power factor and improvement of the voltage curve strength. This is achieved in that the power regulator contains a regulating organ connected to the terminals for connecting the load and controlled by the power stabilization sensor and a terminal for connecting. to the power supply, the regulator and the power stabilization sensor are made on the control & lx transformers, with one control winding of the specified sensor connected to the output circuit of the input stabilizing unit, the input terminal (Dsoye (connected to the terminals for connection to the source, the second BKJoo eHa in the circuit for connecting the load and the elastic winding of the power stabilization sensor is connected to the first control winding of the transformer of the regulator of the second control winding of which directly The retractor through the introduced adjustment element is connected to the output circuit of the specified billing unit station, and the controlled winding is connected to the circuit for connecting the load. The drawing shows the electrical circuit of the proposed power stabilizer. The device consists of three main elements of the stabilizing unit j la 1 ( whose functions can be performed;

General stabilizer of the whole system), power stabilization sensor 2 and regulator 3, made on controlled transformers. The power stabilization sensor 2 is a controllable transformer with two controllers 4 and 5 and one control winding 6, Regulator 3 is also a controllable transformer, and contains three control windings 7.8 and 9 and a control winding .ten. The control winding circuit 9 is switched on; Level 11, for example resistive

torus ;; -. . I

The operation of the device is as follows.

The open-circuit keys 12-14 and the switched-on keys 15 (winding 5) and 16 regulator 3 receive power from the stabilizing unit 1, through the windings 7 and 10, the voltage is applied to the load 17. Thus the normal voltage is supplied to the load without stabilization and regulation of power consumption consumption.

If key 15 is turned on for winding 5 and all keys are turned on except for 14, then ycTpioftcTBO works in power stabilization mode. On the power stabilization sensor 2, two signals are compared: UCT voltage from Uel 1 (winding 4) and current to: load (winding 5). We can assume that at the nominal load UCT / (n CURRENT load). Winding 4 and 5 are turned on so that their iiarHHTHHe fluxes are directed towards the winding b, when the magnetic load is identical, the difference is equal to zero, and at winding 6 they do not induce emf, if the load resistance decreases, the load current increases, then the flow from winding 5 prevails over the flow from winding 4. In winding 6, an EMF is induced, and a csTor is applied: to the winding 8, adjusting 5 of the organ 3. The magnetic flux from the winding .8 with respect to the winding 10 is directed towards the magnetic flux from winding 7, therefore - total n bTbTc, penetrating the winding 10, decreases and decreases the voltage on the load, reducing the load current tJ. The parameters of the device are selected so that when the load resistance decreases, the current in it increases slightly, and the voltage decreases slightly, the power consumption of the load remains unchanged. As the load resistance increases, the circuit operates in such a way that, as a result, the voltage across the load increases slightly, and the current decreases slightly, the power in the load does not change. .

To regulate the voltage U from zero to the nominal value, the setting 9 of the regulating sphang 3 and the adjusting element 11 are used. Before applying the voltage from the node 1, the key 14 is closed (the adjusting element 11 is deduced), then the switches 15 and 16 are closed. When applying the voltage from Node 1 in regulator 3 has two identical magnetic fluxes from windings 7 and 9, so the voltage on winding 10 is zero. By increasing the resistance of the element 11, the voltage on the winding 9 decreases, the magnetic flux from the winding 7 begins to predominate, and the voltage and ' increases. When the magnitude and b is the nominal value, the key 14 can be turned off. By switching on the keys 12, 13 and the key 15 on the winding 5, the work is transferred to the Power stabilization mode.

-,

The efficiency and energy indicators of the regulator-stabilizer are high due to the construction of transformers. Independence of each other oncoming countercurrent flow o ensures that the windings 5, 8 and 9 have enough power for magnetization and loss of steel in their magnetic conductor. The power of a transformer (power stabilization sensor) is only a few percent of the power of the transformer (executive). Since the controlled transformers operate without saturation of the steel and do not distort the 5 voltage and current curves, the regulator-stabilizer as a whole does not affect the shape 1 of the output voltage curve.

Claims (2)

1. USSR Author's Certificate No. 139686, G 05 F 1/66, 1968, 2.Information sheet № 016997, MCI, 1968