SU1005240A2 - Stabilized ac voltage-to-dc voltage converter - Google Patents

Description

The invention relates to electrical engineering and can be used in power supply systems of communication equipment, automation and telemechanics,. as well as in electrical systems.

According to the main author. St. No. 866641 is known a stabilized converter with protection containing a power amplifier with a control unit at the input, a protection trigger connected to the input of the control unit and converter cells, each of which is connected to its output pins through its current sensor, J1 overvoltage control sensors, each of which is connected (parallel to the corresponding output pins and through the diode discharge, one to two, and operational amplifiers are connected to the first input of the actuating protection element, current sensors The transformer cells are connected to the second and third inputs (or only to one of them, depending on the polarity of the output voltage of the converter cells) of the actuator element, one of the outputs of which is connected to the S-input

the aforementioned trigger, and the other to its R input, C.

The drawbacks of such devices are the presence of one or two sources of reference voltage, current sensors even in those cases when the output characteristic of the conversion cell is a falling line, lack of control and protection from the reduction of voltage of the reference sources.

The purpose of the invention is to expand the functionality by providing protection in the event of a decrease in the voltage of the sources used as reference. .

This goal is achieved by the introduction of a DRS circuit, the input of each of which is connected to the corresponding decoupling diode, and the output of one single-half converter cell to one of the outputs, each of these DCSs, to a stabilized converter of alternating voltage. - the chains are shunted by a diode, and as a source of reference eg. marriages are using the output of one of

30 converter cells. The drawing shows the scheme of the proposed Converter. The device contains an amplifier 1, a control unit 2, a protection trigger 3 conversion cells (at least two with the same polarity) 4.1-4p, 1load 5.1-5p, parallel-connected voltage dividers (resistors) 6.1-bp and 7.1-7p, Current sensors 8.1-8 p connected with the load. The connection points of the resistors b.1-bp and 7.1-7p are connected to 9.19p decoupling diodes. A dec circuit consisting of diodes 10.1-lOn, capacitors 11.1, 11.2 and resistors 12.1. and 12.2, connected by the anode (or the cathode of diode 10 depending on the polarity of the output voltage of the converter cell) to the midpoint of the divider of resistors 6.1. and 7.1, the other electrode to the capacitor 11.1, 11.2, the second pole of the common point and resistor 12.1, 12.2, another output of the one-polar outputs of the converter cells connected to the lcrboom. The resistor 12.1, 12.2 is shunted by a diode 13.1, 13.2. One of the inputs of the operational amplifier 14.1, 14.2 is connected to the corresponding diode junctions 9.1-9p-1 and 9.2-9p, the other - to any of the subsequent unipolar voltages of the converter cells. The outputs of the mentioned one-way amplifiers are connected to the anodes of decoupling diodes 15.115 .2, the cathodes of which are connected to the first input of the actuating protection element 16, the second and third inputs of which are connected to the corresponding isolating diodes .17.1-17p-1 and 17.217p, and The outputs of the actuator protection are connected to the RS-inputs of trigger 3. The device operates in the following way. In normal operation, i.e. the absence of overloads in the converter cell circuits, overvoltages at the outputs, decrease of the voltages at the outputs of the 4p-1 and 4p cells, the executive protection element 16 is in such a high setting that the stabilized converter performs its basic functions and to the bases of the transistors of the power amplifier 1 comes from block 2 control signals. In the event of an overload in one of the circuits, for example, a converter cell 4.1, the opening signal is formed on the sensor 8.1-, through the isolation diode 17.1 it goes to the second input of the control j. protection element 16. The signal from one of the outputs of the element 16 is fed to the S input of trigger 3. In this case, the RS flip-flop is set to a position that prevents the transistors of the power amplifier 1 from passing for the control pulses, and the converter stops generating pulses at the exit. j During an overvoltage on the load, for example 5.1, the signal from resistor 7.1 through diode 9.1 goes to one of the inputs of operational amplifier 14.1, the output I of which is connected through diode 15.1 to the first input of node 16, then the signal goes to S-input of the trigger. Further, the device operates as previously described. In normal operation and emergency overload, the ho current and overvoltages of the converter cells do not affect the operation of the device, since the diode 10.1, 10.2 is closed. After turning on the source. Each capacitor 11.1, 11.2 is charged through a resistor 6.1, 6.2 to a voltage defined by the lower side of divider 7.1, 7.2, which is backed up by a DX circuit, which allows the reference voltage to flow to an operational amplifier 14.1, 14.2, previously controlled by Eliminates false positives. To eliminate the effect of the capacitor 11.1, 11.2, in the process of operation, install resis. torus 12.1, 12.2, which charges this capacitor to a voltage greater than the reference. In this case, the diode 10.1, 10.2 disconnects the capacitor from divider 6.1, 6.2, 7.1, 7.2. The diode: .1, 13.2 serves to reduce the time to restore the device after turning off the converter eg. wives When reducing any of the two voltage levels at the output of the operational amplifier 14.1, 14.2, a signal is generated that is equivalent to the disturbances and device considered previously. works the same as described. If the output characteristic of the 4n-lf 4p converter cells is decreasing, then the current sensors 8p-1 and Bp can be excluded. In addition, the dividers 6, 7 and the connecting diodes of 9 sources, the voltages of which are used as reference, can be excluded since the increase in voltage at their output is controlled by other sources. Thus, the proposed device provides comprehensive protection of the voltage converter. Formula of the invention Stabilized AC / DC converter according to auth. St. 866641, distinguished by the fact that, with the goal of expanding-i. There are FUNCTIONAL possibilities, in it: DXC circuits are input, the input of each of them is pd connected to the corresponding decoupling diode, and the output to one of the outputs of any unipolar converter cell, and the resistor of each of the indicated ICE circuits is bypassed by a diode, and as the source the reference voltage is used to output one of the converter cells.

Sources of information,: taken into account in the examination 1. USSR author's certificate 866641, cl. H 02 H 7/12, 1979.

Claims (1)

Claim Stabilized AC to DC Converter No. 866641, with the fact that, in order to expand ,. functional capabilities, DCS circuits are introduced into it, the input of each of which is connected to the corresponding 1005240 s a decoupling diode, and an output to one of the outputs of any unipolar converter cell, moreover, the resistor of each of the indicated dc circuits is connected by a diode, and the output of one of the converter cells is used as a reference voltage source.