SU495654A1 - AC Voltage Stabilizer - Google Patents

Description

The invention relates to the field of radio engineering, electrical engineering and a number of other related areas and can be used in radio installations, in particular, in communications equipment.

AC voltage regulators are known, which contain a power transformer, a saturation choke, a rectifier and a control bridge, in one diagonal of which the control winding of saturation throttles is connected, and a constant voltage is applied to the other winding.

When the network voltage varies within ± 10%, the error of stabilization of the known device does not exceed + 2-3%. However, with the expansion of the range of variation of the network voltage, the error increases dramatically.

Thus, a disadvantage of the known stabilizers is the large error of stabilization when the voltage of the network varies over a wide range.

The aim of the invention is to reduce the error of stabilization while expanding the limits of voltage variation of the network.

In the device described, this goal is achieved by sequentially connecting the saturation of a parallel circuit of a resistor and a zener diode into the control winding of the throttle.

A schematic diagram of the stabilizer is shown in the drawing.

Power transformer 1 has windings 2 and 3, one of them is connected to the power winding branch of saturation 4 droplets, the other is connected to a rectifying bridge on diodes 5.

The control winding of saturation throttles through a parallel cochlector from resistor 6 and zener diode 7 is connected to a control bridge, the state of resistors 8, 9, capacitors 10, 11 and zener diodes 12, 13. Diodes 14, 15, included in the power winding of throttles 4, allow get to get saturation drossel.

The principle of operation of the device is as follows.

With the help of diodes 14, 15, constant force occurs in the power winding of saturation droplets.

bias current, and hence the saturation of the drossel, while the inductance of the throttle drops sharply. This is necessary with a minimum of mains voltage, when the drossel requires minimal resistance

alternating current. In this case, in the control winding included in the diagonal of the control bridge, the control current is zero. Such a state is achieved by selecting the resistance of the resistor 16, while adjusting the constant voltage 3

nor supplied to another diagonal of the control bridge.

When the mains voltage increases and the bridge imbalances, and in the control winding of the choke 4, a current arises that creates a magnetic note in the core of the choke. This magnetic flux has an opposite sign with respect to the main flux created in the power winding of saturation throttles.

As a result, the core of the throttles out of saturation, its inductance and resistance to alternating current increases.

In this way, the voltage in the primary winding of the power transformer 1 is constant and the output AC voltage is stabilized when the mains voltage changes. In order to ensure the permissible error of stabilization with wider varied mains voltage, a circuit of resistor 6 and zener diode 7 is introduced.

The current flowing in the control winding, widening the limits of the grid voltage change, should be measured nonlinearly and with a relatively slow, approximately linear change in the middle section, should increase sharply with decreasing or increasing network voltage over a wider range than This takes place in known devices.

Subject invention

A non-volatile stabilizer containing a transformer, the nervous winding of which is connected to the mains through the power windings of the magnetic amplifier, and the secondary winding through the measuring element is connected to its control winding, characterized in that, in order to expand the limits of input voltage variation successively with the control winding magician ;; andpogo amplifier included zener diode, shunted by a resistor.

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