SU868729A1 - Stabilized power supply source - Google Patents

Description

(54) STABILIZED POWER SUPPLY

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The invention relates to electrical engineering.

A stabilized power supply is known, which contains a current source, a matching transformer and a protection circuit against idling mode 1.

Closest to the present invention is a stabilized power source containing a current source with a multiple winding matching transformer at the output, one of the secondary windings of which is connected via a rectifier to a filter with a circuit for connecting the load, which also includes a current sensor, the output of which is connected to one input the comparison node, the second input connected to the source of the reference signal, the current controller, the control input of which is connected to the output of the comparison node, and the output is connected to another secondary volume the removal of a harmonized transformer, and the signal-shaping unit of protection J.

The disadvantages of the known stabilized power source are low mass-dimensional indicators, since the protection device performs on the power of the load, as well as the absence of a smooth control of the no-load voltage, and a discrete control of the no-load voltage value current that affects the stability of the load current.

The purpose of the invention is to improve the mass and size parameters of the device and ensure the regulation of the magnitude of the no-load voltage. The goal is achieved by the fact that, in a stabilized power source, the comparison unit is designed as a polarity converter.

15 of a signal whose output is connected to a channel separation unit by the polarity of the input signals, one output of which is connected to the first of the inputs of the entered match node,

20 and the other to the input of a protection signal shaping signal, the output of which is connected to the second input of the coincidence node, the output of which is connected to the input of the current regulator.

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In addition, the polarity converter of the signal is made on a differential amplifier, the inverting of which input is used as the second input of the node, 30 comparison, and the channel separation unit, the protection signal generating unit and the match node are made in the form of the first, second and third diodes The first diode is connected via an anode to the output of a differential amplifier, and its cathode serves as the output of a reference node, voltage divider,. which is connected to the power supply with one clip, and the second to the common output, the lower arm being made in the form of a potentiometer, to the middle link of which a second diode is connected, the cathode of which also serves as the node output compared to IH, the transistor, the collector of which is connected to the upper terminal and the lower shoulder of the divider, and the emitter to the common. the output of a resistor that is connected to the upper terminal of the divider by one output, and the base of the transistor connected to the anode of the third diode is connected to the other terminals, the cathode is connected to the QO input of a differential amplifier. FIG. 1 is a block diagram of a proposed stabilized power source; in fig. 2 is a diagram of one of the possible options for implementing a stabilized power source. The power source (Fig. 1) contains a current source 1 with a multiple winding according to a transformer 3 at the output, one of the secondary windings of which is connected via a rectifier 3 to a filter 4 with a circuit for connecting the load 5, into which the current sensor 6 is also connected connected to one input of the comparison node 7 with a second input of a reference signal connected to the source 8, and an output to the channel separation unit 9 by the polarity of the input signals, one output of which is connected to the first input of the collecting node 10, and the other to the input of the Single 11 generates audio protection signal, the output of which is connected to the second inlet of the collecting unit, whose output is connected to an input of the current regulator 12. The source (Fig. 2) contains a current source 1, a multiwinding matching transformer 2, rectifier 3, filter 4, load 5, current sensor 6, comparison node 7, made in the form of a polarity converter signal on a differential amplifier, the inverting input of which is To the output of the source 8 of the reference signal, a current regulator containing rectifier 9, transistor 10, resistor 11, transistor 12, block section 1) channels, the node forming the protection signal and the collecting node, made in the form of the first 13, second 1 and third 15 diodes, prich The first diode anode is connected to the output of a differential amplifier, and its cat serves as the output of the reference node, sharing the voltage that is connected to the supply mains with one clamp, and the second terminal to the common terminal, with the lower arm being the potentiometer 16. the point of which is connected to the second diode, the cathode of which also serves as the output of the reference node, the transistor 17, the collector of which is connected to the common terminal of the arm 18 and the lower arm of the divider, and the emitter to the common terminal of the resistor 19, which is connected to the top by one output the terminal of the divider, and another output - to the base of the transistor connected to the anode of the third diode, the cathode of which is connected to the input of the differential amplifier. The power source works as follows. In the mode of stabilization of the load current 5 at the output of the comparison node 7, there is a voltage of a certain polarity proportional to the voltage difference at its inputs. This control signal through the first channel of the channel separation unit 9 and the collecting unit 10 is fed to the input of the controller 12, which maintains the magnitude of the load current 5 at the mass level. The second channel of the channel separation unit 9, through which the idle voltage of the power source is regulated, is locked. When disconnecting or breaking the load circuit 5 at the output of the comparison node 7, made in the form of an input polarity converter, the polarity of the output signal is reversed. This signal locks the first channel and unlocks the second block 9, through which the specified signal enters the input of the protection signal generating unit 11 and starts it. The unit 11 generates a signal of the previous polarity with a continuously adjustable level, which is fed to the input of the regulator 12 through the collecting unit 10. In accordance with this signal, the regulator consumes an excess of power that occurs at the output of the current source 1 at idle. Thus, a smooth regulation of the no-load voltage level of the power source is carried out. In the operating mode, at the output of the comparison node 7, a control voltage of positive polarity is formed, proportional to the difference of the signals from the current sensor 6 and the source 8 of the reference signal. The control voltage is applied to the base of the transistor 12 of the current regulator through the diode 13 connected in the forward direction. The transistor 12 controls the operation mode of the transistor 10, which shunts one of the secondary windings of the transformer through a rectifier 9. As a result of the redistribution of currents between the secondary windings of the specified transformer, the current in the load circuit is maintained at a predetermined level.

The second channel, through which the signal passes, in accordance with which the no-load voltage level of the power supply source is regulated, is blocked because the diode 15 is turned on U in the opposite direction with respect to the polarity of the control signal, which eliminates the influence of the operating mode. When the load circuit 5 is broken, the voltage on the capacitors of the rectifier 3 and the filter 4 begins to increase in a linear manner, since the capacitors are charged with a stable current of the current source. At the same time, at the non-inverting input of the comparison node, the signal changes polarity and becomes equal to the saturation voltage of the microcircuit. This voltage closes the first channel, since now the diode 13 turns on with respect to it (in the opposite direction. Through the diode 15, the voltage goes to the input of transistor 17 and blocks it. Transistor 17 stops shunting potentiometer 16 and to the controller input through The diode 14 is supplied with a positive voltage, which is the control signal of the regulator in idle mode. According to this signal, the excess power generated in the idle mode is drawn into the regulator. ntsiometra nelichina regulated voltage which is supplied to the input of the regulator in idle mode, and hence the value of idling on the output power supply.

In this case, when the load can be connected to a current source without a matching transformer, the current regulator rectifier 9 is connected directly to the output terminals of the current source, i.e. parallel to the load circuit.

The control circuit of the proposed stavilized power supply is versatile and can be used with torso-adjusting and other types that allow adjusting the idle voltage of the power supply.

The application of the proposed power source allows not only to regulate the value of the no-load voltage at its output, but also to improve its technical and economic indicators. This is due to the fact that in the new source there are no additional power elements for regulating and stabilizing the idling voltage. In the proposed source, if necessary, the idling voltage can be set lower so that the maximum operating voltage is observed without disrupting the operation of the power source. operating mode, since the no-load voltage regulation scheme in the operating mode does not work.

Claims (3)

1. A stabilized power source containing a current source with a multiple winding matching transformer at the output, one of the secondary windings of which is connected via a rectifier with a filter to a circuit for connecting the load to which the current sensor is also connected, the output of which is connected to one input of the comparison node, the second input connected to the source of the reference signal, the current controller, the control input of which is connected to the output of the reference node, and the output is connected to another Secondary winding of the matching transformer, and Formation of a protection signal, characterized in that, in order to improve the mass and size parameters of the device and to provide control of the idle voltage, the reference node is designed as a signal polarity converter, the output of which is connected to the channel separation unit according to the polarity of the input signals, one the output of which is connected to the first of the inputs of the input node of the match, and the other to the input of the signal generation unit, the output of which is connected to the second input g of the match node, the output of which connected to current controller input. 2. Source POP.1, characterized in that the polarity converter of the signal is made on a differential amplifier, the inverting input of which is used as the second of the indicated inputs of the comparison node. 3. The source of PP.1 and 2, which is connected with the fact that the channel separation unit, the protection signal generating unit and the coincidence unit are made in the form of the first, second and third diodes, with the first diode connected to the output of the differential amplifier and its cathode serves as the output of a reference node, a voltage divider, which is connected by one clamp to the supply, and the second to the common output, and the lower shoulders are made in the form of a potentiometer, to the middle point of which a second diode is connected, the cathode of which also serves as the output of the reference node, the transistor, whose collector is connected to the common terminal of the upper and lower arms of the divider, and the emitter to the common output a resistor that is connected by one lead to the upper terminal of the divider and the other the output is connected to the base of the transistor connected to the anode of the third diode, the cathode of which is connected to the input of the differential amplifier. Sources of information taken into account in the examination 123 t 1. Mil x A.N. and Volkov I.V. Systems of constant current based on inductive-capacitive converters. Kiev, Naukova Dumka, 1974, p. 154. 2. Problems of technical electrodynamics. Kiev, Naukova Dumka, 1974, no. 45, s. 103, Fig. 1. fpue.1