SU1275407A1 - Multichannel stabilized power supply unit - Google Patents

Abstract

The invention relates to electrical engineering, in particular to power supplies, stabilized by a voltage of several loads. The purpose of the invention is to increase the efficiency of a multi-channel stabilized power supply. The initial voltage stabilization in all channels occurs as in the classical linear compensation voltage regulator circuits. The presence of an additional feedback circuit with voltage sensors in the form of regulating transistors 88p and executive elements in the form of thyristor rectifiers 5-5p at the input of stabilizers increases the efficiency of the device. The minimum of the output signals from the voltage sensors 1010p is selected as the feedback signal. This signal corresponds to a voltage drop across the 8-8 p transistor of the most loaded channel. Voltage at the outputs of all channels (L is maintained nominal. 1 Il.

Description

The invention relates to electrical engineering, in particular, to power sources, and can be used for powering electrical circuits that require the supply of a number of stabilized voltages.

The purpose of the invention is to increase the efficiency,

The drawing shows a functional diagram of a multi-channel stabilized power supply.

The proposed unit contains an adjustable source of alternating voltage 1 connected by an output to the primary winding 2 of a power transformer 3, 1C to secondary windings 4-4p (where n is the number of stabilized voltages) of which 5–5p connected respectively, 5–5p filters, 6- 6p and linear stabilizers 7-7p. The latter contain regulating transistors 8-8p and control blocks 9-9p. Voltage sensors 10-10p are connected by their inputs to the collector-emitter junctions of control transistors 8-8p, the first output to the inputs of the feedback signal generator 11, which is connected to the control 1; to it the input of the adjustable alternating voltage source 1, the second output - To the first input of the corresponding comparison unit 12-12p, to the second input of which is connected the source 131Зп of the reference voltage, and its output is connected to the input of the amplifier 1414p5, the input of which is connected to the input of the driver 15-15p of the control pulses , The output of the latter is connected to the gate electrodes of the thyristors rectifiers 5-5p corresponding PTS lean channel.

The device works as follows.

The voltages of the secondary windings 4-4p of the power transformer 3 are fed to the inputs of the 5Pn thyristor rectifiers, where they are rectified and then fed to the filters, where they are smoothed, and then fed to the collectors of control transistors 8-8p.

The control blocks 9-9p compare the values of the output voltages of the corresponding linear stabilizers 7-7p with the set values and, in the error signal function, set the base currents of the corresponding polarizers, their

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transistors 8-8p, and an increase in the output voltage of the linear stabilizer 7-7p leads to a decrease in the base current of the corresponding

5 of the control transistor 8-8p, and the voltage reduction increases the current, while the voltage drop across the control transistor 8-8p increases with decreasing base voltage.

0 current.

The change in voltage at the output of the linear stabilizer 7-7p is determined by the parameters of the control unit 9-9p, is very small, due to

S, with which the voltage change at the input of the 7-7p linear stabilizer is almost equal to the voltage change at the corresponding control transistor 8-8p.

20 Voltage sensors 10-10p measure the actual values of the voltage drops on the control transistors 8-8p, the feedback signal shaper 11 selects from the output

25 voltage sensor signals 10-10p minimum signal and supplies it to the corresponding input of the adjustable source 1 AC voltage, where the signal is compared

30 feedback with a predetermined value and regulation of the alternating voltage on the primary winding 2 of the power transformer 3 as a function of the error signal. With this change

J.5 of the feedback signal results in a change in the variable Xeni variable, in which the change in the feedback signal is compensated.

The resulting change in the feedback signal is determined by the corresponding parameters — adjustable source 1 of alternating voltage and is insignificant. Therefore, the magnitude of the feedback signal is kept almost constant.

Claims (1)

The quality of the feedback signal is selected from the minimum output signals of the sensors 10-10p voltage. This signal corresponds to the voltage drop across the control transistor B-8p of the most loaded channel, since it decreases due to an increase in the voltage drop across the internal resistance of the power supply unit. 55. At the same time, the sensors 10-1 On of the voltage of the remaining channels measure the increased values of the voltage drops on the control transistors 8-8p. The measured voltage value is compared by blocks 12-12p compared with the voltage value of the source 13-13p of the reference voltage and amplified by amplifiers 14-14p. Signals from amplifiers 14-14p through the formers 15-15p of control pulses are fed to the thyristor control electrodes of the 5-5p mars of the respective channels reduce the voltage drop on the control transistors 8-8p of the less loaded channels to their nominal value. In this case, the voltage at the outputs of all channels has a value equal to the nominal. Thus, the proposed device maintains at a predetermined level the voltage drop across the control transistor of all channels, which ensures minimal energy losses in the linear stabilizers, thereby increasing the efficiency of the device. Claims of the Invention A multichannel stabilized power supply unit containing an adjustable alternating voltage source connected by an output to the primary winding of a power transformer, to the secondary windings of which are connected in series a converter, a filter and a line stabilizer, voltage sensors connected in parallel to a collector-emitter circuit m regulating transistors of linear stabilizers of corresponding channels, feedback signal shaper, the input of which is connected to the sensor A voltage, and an output - with a control input of an adjustable AC voltage source, characterized in that, in order to improve the efficiency, the rectifiers of all channels are made on thyristors and additionally a comparison block with a voltage source, the input of which is connected to with the second output of the voltage sensor of the corresponding channel, and the output is connected to the input of the amplifier, the code of which is connected to the input of the control pulse generator, and the output of the latter is connected to the controls by the pf electrodes tors vtr DC converter corresponding channel.