SU1065841A1 - Stabilized d.c. voltage source - Google Patents

Abstract

A STABILIZED SOURCE OF CONSTANT VOLTAGE, containing a transformer, the secondary winding of which has an average, two extreme and two symmetrical intervals of exact outputs, a series linear voltage regulator consisting of the first and second control transistors, kollek. The tori of which are connected to the first output terminal, the bases are connected respectively to the first and second outputs of the feedback node, and the emitters through the first and second rectifying nodes to the capacitive filter are connected respectively to the intermediate and extreme terminals of the secondary winding of the transformer, the middle terminal of which as well as the outputs of the filters and the feedback node are connected to the second output terminal of the source, characterized in that, in order to increase the stabilization factor and improve the specific mass and size parameters, A third i regulating transistor and an auxiliary source of the reference voltage are introduced into it (the third regulating transistor is an emitter-collector junction connected between the first and second capacitance by the straightening node filters, and the base is connected to the second output voltage through the auxiliary reference voltage source the conclusion is. 05 el 00 4

Description

The invention relates to regulating DC voltage frames. A direct current regulator is known, which contains main and additional control pass-through transistors with a feedback circuit to the input of which are connected respectively to the main and additional input power sources connected between themselves. flj. However, with the indicated connection of input sources, it is difficult to use their redundant capabilities, for example, to use the filter capacity of a source that is not working at a given moment for a source operating at that moment. Closest to the proposed technical essence and the achieved result is a stable source which contains a transformer the secondary winding of which has an average, two extreme and two symmetrical intermediate terminals, sequential linear stabilization The voltage of the first and second regulating transistors whose collectors are connected to the first output terminal, the bases are connected to the first priority and second outputs of the feedback node, respectively, and the emitters through the first and second rectifier nodes the bone filters are connected respectively to the intermediate and edge terminals of the secondary winding of the transformer, the middle terminal of which, as well as the terminals of the filters and the communication node, are connected to the second output terminal of the source 2j. The drawbacks of the device are low specific weight and size parameters due to the large total capacity of the filters, which causes an increase in the calculated power of rectifiers and transformers, as well as a relatively low stabilization factor. The purpose of the invention is to improve the specific mass and size parameters and to reduce the stabilization factor. I The goal is achieved by having a stabilized DC voltage source containing a transformer, the secondary winding of which has a medium, two edges and two symmetrical intermediate terminals, a series linear voltage regulator consisting of first and second control transistors, collectors which are connected to the first output terminal, the bases are connected respectively to the first priority and the second outputs of the feedback node, and the emitters through the first and second rectifying nodes to the capacitive Ilthrom is connected respectively to the intermediate and outermost terminals of the secondary winding of the transformer, the middle terminal of which, as well as the terminals of the capacitive filters and the feedback node are connected to the second output terminal of the source, a third regulating transistor and an auxiliary reference voltage source 5 are inserted an emitter-collector junction is connected between the first and second capacitive filters of the rectifier units, and the base is connected to the base through an auxiliary source of voltage The second output terminal, FIG. 1, is a functional diagram of a stabilized DC voltage source; in fig. 2 is a circuit diagram of one of the possible variants of its execution. The device consists of the first and second pass-through control transistors 1 and 2, controlled separately from the source output, from the terminals 3 and 4 by the feedback node 5. The collectors of transistors 1 and 2 are combined into one common point with pin 3, and the emitters of these transistors are connected to the Outputs of control nodes b and 7, respectively, which are supplied with voltage from the secondary winding of the transformer 8. The outputs of rectifying terminals b and 7 are bridged respectively by capacitive filters 9 and 10 for common shchin. The third control transistor 11 is connected by its power leads between the outputs of the rectifiers b and 7, and the control input is connected to the common bus through the source 12 of the reference voltage. The stabilized constant voltage source operates as follows. The output voltage, rectifier 6 is 30-50% higher than the input voltage of rectifier 7. At the maximum input voltage, node 5 provides the conducting state of transistor 1 and the locked state 2, the output voltage of rectifier 7 is greater the voltage of the reference source 12, therefore, the transistor 11 is closed. As the input voltage decreases, the output voltage of the rectifier 7 also decreases, and when the level of the reference source 12 is reached, the transistor 11 begins to open. In this case, the voltage on the filter 10 arising due to the discharge of its capacitances is compensated by the voltage

filter 9, supplied through a regulating transistor 11, the conductivity of which depends directly proportional to the voltage difference between the reference source and filter 10. With a further decrease in input voltage, when regulating transistor 1 starts to close, the feedback node 5 circuit provides Neither the transistor 2. In this case, the voltage of the filter 9 begins to be used in full measure.

Thus, in the proposed device, compared with the prototype, filters 9 and 10 operate in such a mode that requires approximately two times less than the nominal value of the capacitances that make up the filters, i.e., reduces the weight and size of the source. associated with the introduction of the adjustable transistor 11 and the source of the reference voltage 12, are smaller compared with the savings obtained by reducing the total installed capacity of capacitors,

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Claims (1)

A STABILIZED DC VOLTAGE SOURCE, containing a transformer, the secondary winding of which has a middle, two extreme and two symmetrical intermediate terminals, a series linear voltage regulator, consisting of the first and second control transistors, collect. whose tori are connected to the first output terminal, the bases are connected respectively to the first and second outputs of the feedback node, and emitters are connected through the first and second nodes. Rectifier channels with a capacitive filter are connected respectively to the intermediate and extreme terminals of the transformer's secondary winding, the middle terminal of which, as well as the terminals of the filters and the feedback unit, are connected to the second output terminal of the source, characterized in that, in order to increase the stabilization coefficient and improved specific weight and size, incorporated into it _with the third transistor and regulating vspomo- <g gatelny reference voltage source, said third regulating transistor emitter-collector junction is connected between the first and second capacitance filters of the rectification units, and the base, through an auxiliary voltage reference source, is connected to the second output terminal,. > fig /