SU1101993A1 - A.c.voltage-to-d.c.voltage converter - Google Patents

Abstract

AC VOLTAGE VOLTAGE CONVERTER containing three diodes with a common anode, forming the first output pin, and three diodes with a common cathode, forming the second output pin connected to the summation circuit with the output for connecting to the neutral of the power source, as well as three main resistors, one the pins of which form the input pins to connect to the three phases of the power source, while others are connected to the free pins of the three diodes, I differ in that, in order to increase its accuracy, three additional x resistor, one end connected to the free terminals of the other three diodes, and others - to the corresponding input terminals, and the summing circuit comprises two series SOS unity resistors, the total point S which is connected to a terminal for podW Turning to neutral source pitas audio.

Description

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The invention relates to electrical engineering, in particular, to devices for converting alternating current into a constant voltage, and can be used in various control circuits and measuring circuits where a three-phase voltage conversion with low harmonics corresponding to each other is required. twelve phase rectification. A twelve-phase converter is known, containing two secondary windings of a transformer connected in a star and a triangle and connected to two three-phase bridges of rectifier L11. The disadvantage of the converter lies in its complexity and low accuracy. The closest to the invention is a constant-to-voltage converter that provides a twelve-phase rectification and contains three diodes with a common anode, forming the first vertical lead, and three diodes with a common cathode forming the second output terminal connected to the summation circuit. type of load resistor and series-connected diodes, the common point of which is connected to the neutral of the power source, as well as three resistors, some of the terminals of which form the input terminals The six free C2J diodes can be used with free signals. A disadvantage of the known device is the low conversion accuracy due to the presence of a diode in the output circuits and the summation of signals and the absence of measures to level the resistance values in the phase circuits. The purpose of the invention is to improve the accuracy of converting variable voltage to constant voltage by equalizing the resistance values in the phase circuits and making the summation chain simpler. This goal is achieved by ITO into a transducer for converters (aprons into a constant, containing a greece diode with a common anode forming the first output, and three diodes with a common cathode forming the second output, connected to the summation circuit with the output power source, as well as three main resistors, one of which form the input terminals for connection to the three phase m of the power source, and others are connected to the free terminals of three diodes, three additional resistors are introduced, one which are connected to the free terminals of the three remaining diodes, and others to the corresponding terminals, and the summation circuit is made in the form of two series-connected resistors, the common point of which is connected to the terminal for connection to the power supply neutral. Fig. 1 is a schematic diagram of the proposed converter; Fig. 2 shows input and output voltage timing diagrams The converter contains a three-phase voltage source 1 with zero and phase leads, diodes 2-4 with an o6roiM anode, diodes 5-7 with a common cathode, summing ep 8 formed of two series-connected resistors 9 and 10, the total point which is connected to the zero terminal 1 power source neutral. Anodes of diodes 5-7 are connected to resistors 11-13, the free terminals of which form the input terminals for connection to the phases of power supply 1 and are also connected to resistors 14-16 connected to the cathodes of diodes 2-4. The device works the footing in a skinny way. The output of the twelve-fold ripple frequency converter output is based on the fact that in each of the resistors 9 and 10 of circuit 8 the summation is provided by the addition of currents from two three-phase voltage systems corresponding to the linear and phase voltages of source 1 and having between them a natural phase shift of 30 el.grad. The closure of the currents from the phase voltages is due to the connection of the common point of resistors 9 and 10 with the zero output (neutral) of the power supply 1, the condition for obtaining at the output of the voltage converter with a twelvefold ripple frequency is fulfilled if at each time point t – ts separated 3 from each other at T / 12 (T is the period of input alternating voltages), the amplitude values of the ripples equal to each other are contained in the output voltage U 6b (x. For the moment t (Fig. 2), the wire is diodes 3 and drops for example In this case, U and U on resistors 9 and 10 are equal and are determined by the expression i. M where and is the amplitude value of the input variable voltages; id is the value of the direct fall of the diodes; the size of the resistors 11-16 is the value of resistors 9 and 1; , at the output of the converter at the moment of time t, taking into account (1), the /t.Zib is written: e1 R + R For a time t (Fig. 2), diodes 5 and 7 are in a conducting state. This voltage component I and and and on the resistors 9 and 10 are represented as,. D A The voltage at the output of the converter at the time t with,. (3) is written ((R, R,) Equating the expressions in (2) and (4), i.e., / t 34 - tsuX -j we obtain the relations for the choice of the values of resistors R, and R 1 (2-VI) From (5) it follows the need for an individual selection of resistors R-, in each of the phase circuits depending on the magnitude of the direct incidence on the diodes. the ripple amplitudes are equal at times t and t and the accuracy of converting the input alternating voltage to the output constant with two is high At each of the subsequent moments of time t - t (Fig. 2), the expression (2) or (4) is fulfilled, which confirms the validity of equation (5). If the converter requires low accuracy, then the choice of the values of resistors R and R can be produced by a simpler expression. Neglect of Id value in comparison with U, i.e., when U IL O, from expression (5) we get R YI R. (6U Thus, the presence of an alternating voltage into a constant voltage converter resistors connected in series with each of the phase rectifier diodes, as well as the execution of the summation circuit of two series-connected resistors, the common point of which is connected to the zero output of a three-phase voltage source, makes it possible to compensate for the variation of the parameters of the diodes in each of the phase circuits and, as a result, to improve the accuracy of obtaining the output DC voltage twelvefold ripple frequency.

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Claims (1)

AC VOLTAGE CONVERTER TO DC, containing three diodes with a common anode forming the first output terminal, and three diodes with a common cathode forming the second output terminal, connected to the summing circuit with the terminal for connecting to the power source neutral, as well as three main resistors, one the conclusions of which form the input terminals for connection to the three phases of the power source, and the others are connected to the free terminals of three diodes, characterized in that, in order to increase its accuracy, three additional resistors are introduced a, some of the terminals of which are connected to the free terminals of the other three diodes, and others - to the corresponding input terminals, and the summing circuit is made in the form of two series-connected resistors, the common point of which is connected to the terminal to connect to the neutral of the power source. SU „,, 1101993 ί 1 101993