SU1283914A2 - Stabilized d.c.voltage source - Google Patents

Abstract

The invention relates to electrical engineering, in particular to sources of secondary power supply, and is an improvement of the invention according to the author. No. 612221. The purpose of the invention is to increase the efficiency. Performing a current sensor in the form of a ferromagnetic core 17 with a control winding 18 and an output winding 19 allows the measuring elements 13 and 14 to additionally study the change in the input voltage of the device. Therefore, it is not necessary to create a large supply of voltage at the input of the compensating stabilizer 11. The efficiency and the size and weight of the device decrease. 1 il.

Description

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The invention relates to electrical engineering and is intended for use in the implementation of secondary power supply of electronic equipment.

The purpose of the invention is to increase efficiency

The drawing shows a functional diagram of the proposed device.

A source of stabilized DC voltage contains a power transformer 1 with several terminals 2-5 on the secondary winding, a series of thyristors 6, 7, diodes 8-10, a voltage compensating stabilizer 11 with a voltage reference unit 12, a series of measuring ) elements 13, 14, resistive voltage divider 15, resistor, 16, current sensor 17 with core, control 18 and output 19 windings, as well as source load 20 Terminal 2 of the secondary winding of power transformer 1 is connected to the anode of diode 9, pin 1 -e cathode of the diode 8, conclusions 4,5 - with cathodes, respectively, thyristors 6 and 7. The cathode of diode 9 is connected to the positive one, and the anodes of diode 8 and thyristors 6.7 - to the negative input pins of the stabilizer 11. The combined input pins of the measuring elements 13 and 14 are connected to one of the resistor 16 terminals The other output of which is connected to the negative output of the stabilizer 11. Unconnected input terminals of the measuring elements 13, 14 are connected to the corresponding intermediate terminals of the resistive voltage divider 15 connected at the output of the block 12 voltage. The anode diode 10 is connected to the output 5 of the secondary winding of the power transformer 1. The control winding 18 of the current sensor is included in the output circuit of the stabilizer 11, the output winding 19 is between the cathode of the diode 10 and the combined input terminals of the measuring elements 13 and 14.

The source works as follows.

When applied to the primary winding of the power transformer 1 of an alternating voltage, the voltage from the secondary winding 2 after rectification is fed to the input of the stabilizer 11. In the half-periods of the input voltage, when the diode 9 is closed, the voltage from the terminals

five

3 and 5 of the secondary winding through diodes 8 and 10 is applied to the output winding 19 of the current sensor and the resistor 16. In this case, the magnitude of the current in the winding 19 is determined by the degree of magnetization of the core 17, depending on the amount of current flowing in the control winding 18. that the constant component of the current in the winding 19 magnetises the core 17 depending on the amount of current in the winding 18, the core 17 is demagnetized and the value of the current determined by the current in the circuit of the winding 18, i.e. current, flow through the load 20, and the voltage value at the terminals 3 and 5 of the secondary winding of the power transformer 1. As this current passes through the resistor 16, the voltage drops across it. This voltage in the measuring elements 13 and 14 is compared with the parts of the reference voltage taken from the resistive divider 15. Those of the measuring elements HOB, on the combined input terminals of which the potential is applied less than that taken from the corresponding output of the divider 15, are triggered and served thyristor control electrodes are unlocked. This opens the thyristor that received the control signal, which is connected to the maximum number of turns of the secondary winding 5. The other thyristors, which also received the unlocking signal, and the diode 8 will be closed by a voltage equal to the voltage difference across the anode of the open thyristor and the cathodes of the thyristors preceding it and the diode 8. The ratios of the resistors in divider 15 are chosen so that in idle mode and at maximum input voltage for a given value of voltage 5 or on the block 12 of the reference voltage, all measuring elements were disconnected and all thyristors are closed. The discharge of the voltage taken from the smallest number of turns of the secondary 50 windings of transformer 1 is performed by diode 8. If the output current increases or the input alternating voltage of the source decreases, the voltage on the resistor 16 decreases. This voltage is compared by the measuring elements with the voltage parts on the divider 15, and when it reaches the threshold of a certain measuring element

that

31

This element is triggered and sends a triggering signal to the control electrode of the corresponding thyristor. Thyristor, open, connects a larger number of turns. Finally, at the maximum current in the load 20 and at the lowest input voltage of the source, the voltage across the resistor 16 appears to be at least 839U 4

the voltage supplied to the input of the stabilizer 11, which ensures a decrease in the efficiency of the source, as well as a reduction in size and weight. With the aid of diode 9, electrical isolation of the secondary winding from the power transformer 1 from the positive input terminal of the stabilizer 11 is achieved.

This triggers the thyristor 7, which connects the greatest number of turns of the secondary transformer 1. Thus, a voltage sufficient to conduct the stabilization process is maintained at the input of the stabilizer 11.

The implementation of a current sensor in the form of a ferromagnetic core 17 with a control winding 18 connected to the stabilizer output circuit and an output winding 19 connected to the secondary circuit of the power transformer 1 allows the measuring elements to additionally take into account the change in the input voltage of the source. Thereby eliminating the need for significant

Claims (1)

Invention Formula No POWER SOURCE of DC voltage stabilized by auth.St. 612.221, characterized in that, in order to increase the efficiency, an additional diode is inserted in it, the current sensor is made in the form of a ferromagnetic core with a control and an output winding, and the additional diode anode is connected to the extreme output of the secondary winding of a power transformer connected to the cathode of one of the thyristors, The current sensor control is connected to the output circuit of the stabilizer, and the output winding is between the cathode of the auxiliary diode and the combined input terminals of the measuring elements.