SU1037230A1 - Stabilized voltage converter - Google Patents

Abstract

A STABILIZED VOLTAGE STRUCTURE, containing at least two inverters connected in series along the parallel in the output, a control unit, the first input of which is connected for feedback, and the second input with the protection unit, characterized in that In order to improve equipment saving by ensuring the safety of transistors connected in series at the input of inverters when one of the transistors fails, a current transformer containing at least two primary transformers is introduced at least windings, each of which is included in the power circuit of the transistor of the corresponding inverter, moreover, said windings are opposite and their total magnetizing sipa is zero, and the secondary winding connected via a vanis-1 torus control input, the anode of the switch, which is connected by a switch. an auxiliary input of the said control unit, the secondary winding being shunted by a resistor.

Description

The invention relates to electrical engineering and may be vaporized in secondary sources of electrical power to radioelectronic equipment. Stabilized DC-to-DC converters are known, for example, containing transistor inverters, connected in series with the input voltage and in parallel through the transmitter with an output voltage filter, a control circuit connected to the feedback circuit of the SC. Disadvantage of the converter circuit. It is necessary to use additional windings in power transformers (to obtain equality of voltages on cells) connected in series with each other through low-resistance resistors. This reduces the efficiency of the converter and complicates the design of the power transformer. The closest in technical terms to the invention is a stabilized voltage converter containing at least two cables pai connected in series on the input and in parallel on the output, a control unit, the first input of which is connected to the feedback circuit, and the second input to the protection unit The disadvantage of the known device is in the failure of all consecutively connected transistors of the inverter cells to exit at the exit of one of these transistors. The aim of the invention is to save equipment by ensuring the safety of transistors connected in series at the input of inverters in case of failure of one of the transistors. The set-up is achieved by the fact that a stabilized pigment converter incorporating at least two inverters connected in series along the input and in parallel along the output, a control unit, the first input of which is connected to the feedback circuit, and the second input is connected to the protection unit, at least one current transformer containing at least two primary windings of the gum of which are included in the power circuit of the corresponding inverter, with the indicated primary windings being included vtrechno and their total magnetizes The vortex is zero, the second winding is connected via a high voltage to the control input of the thyristor, the anode of which is connected to the 10-10 -2-2th additional input of the specified control unit, with the secondary winding bounded by a resistor. FIG. I shows a possible variant of inverter charging in a half bridge circuit with one current transformer; in fig. 2 - when splitting the current transformer one by one into two inverters. The device is implemented on transistors I and 2, connected in series, shunted by semiconductor diodes 3 and 4, and connected in parallel with code capacitors 5 and 6, through the primary windings of transformers 7. Transformer current 8 is connected through the primary winding of the power transformer 7, in one from half-bridge inverter cells and is connected by a secondary winding to a load resistor 9. The secondary windings of transformers 7 are connected to the rectifier by a filter. The control circuit of the transistors I and 2 is connected to the outputs of the control unit It. The secondary winding of the transformer 8 is connected to the protection unit 12, to the other INPUT of which the feedback circuit 13 is connected, and the output of the protection unit 12 is connected to the auxiliary input 14 of the control unit 11. The current transformer 15 (FIG. 1) is turned on in such a way that the number of its primary windings rano the number of transistors and primary windings are connected in series across the power circuits of transistors I c 2 so that half of the windings connected to transistors 1 and 2 of the first half of the inverter cells are included in antiphase with respect to half of the windings connected to the transistors I and 2 of the second half of the inverter cells, and the secondary windings of the current transformer 15 are connected to the load resistors 16 and through the diodes 17 of the full-wave rectifier p with the control electrode of the thyristor 18, the anode of which is connected to the load resistor 19 and is connected through the alarm circuit to the third input 20 of the control unit 11. Current transformers 15 (FIG. 2) are turned on in such a way that their number is p / 2, each additional current transformer 15 contains two primary windings, which are connected in series with collectors (or emitters) of power transistors 1 and 2 so that one winding , connected to the upper or lower transistor I and 2 of the previous inverter cell, is turned on in oppositely with respect to the second winding, connected respectively to the upper or lower transistor I and 2 of the subsequent inverter cell, and the secondary windings are additional Yelnia current transformers 15 are connected to the resistor 16 through the diodes 17 and full-wave rectifier connected to the control electrode TE) stories 18, the anode of which is connected to a load resistor via the Yu and an alarm circuit connected to the third input of the control unit 20 It. The device works as follows. -, When the input constant is applied, the ungeneralized Uf of the Ug on the floor is the bridge and the four inverter cells and shggank slabs on the control unit 11,. at the outputs of the control unit appear. the pulses that open transistors t or transistors 2 at different times. The voltage charging capacitors 5 n 6. are inverted by transtransformers w I and 2-lowered by transformers 7, are exported and smoothed by splitter 10 with fshplrom. The feedback circuit 13 supplies the control signal acting on the control unit II in such a way that the duration of the pulses opening the transistor I and 2 is changed, thereby causing the voltage to stabilize. to the input of the unit 13 are sewn up, in which the control over the change and "," in the acceptable limits is made. When taken away. OOL .. OR decrease and ,, over the thresholds, a signal is sent from the unit to the additional input 14 of the control unit, stopping the opening pulses to the transistors I and 2. Using the current transformer 8, the output current in the allowed limit is monitored . . Under the operating mode of the device, the magnetic flux in the cores of the additional current transformers 15 is compensated, since the current pulses in the primary windings of these transformers are the same and act in antiphase. During emergency operation, when a short circuit occurs, one of the transistors 1 and 2 turns out to be an inexpressive magnetic flux in the gray of the additional current transformer 15 of the current. control input to the control input of the I / 2 switches, i.e., all the transistors 1 and 2 are quickly closed and the transistors remain intact. If there are more inv-T1fs, with a simpler design of the current transformer, it can be complete (for example, for each two inverters, this reduces the size of the supply wires and the dimensions of the current transformers. Thus, the invention allows It is possible to increase the output of the equipment by ensuring the safety of the transistors of the inverters in the case of the failure of the front of the resistors.

fig 1

Claims (1)

A STABILIZED VOLTAGE CONVERTER containing at least two inverters connected in series at the input and in parallel at the output, a control unit, the first input of which is connected for feedback, and the second input is wired, characterized in that, in order to increase equipment savings by ensuring the safety of transistors connected in series at the input of the inverters in case of failure of one of the transistors, at least one current transformer is introduced, containing at least two primary windings each of which is included in the power circuit of the transistor of the corresponding inverter, the indicated windings being turned on and their total magnetizing force equal to zero, and a secondary winding connected through a rectifier to the control input of the thyristor q torus, the anode of which is connected to an additional the input of the specified control unit, and the secondary winding is shunted by a resistor. SU „„ 1037230 1 1037 230 '2