SU886173A1 - Static self-exciting dc voltage-to-dc voltage converter - Google Patents

Description

The invention relates to electrical engineering and can be used in secondary power sources. A self-excitable push-pull inverter is known, comprising an output transformer with feedback windings, two transistors and a start circuit, an electromagnetic current relay with opening contacts, which is fed in series with the inverter power supply circuit, one pair of contacts being connected and the other in the collector circuit of the starting transistor SI. . The disadvantage of this inverter is low reliability due to the presence of an electromagnetic relay with mechanical contacts, as well as the limiting power of the converter, due to the input parameters of the electromagnetic relay. A static self-exciting converter made on two transistors and an active transformer with feedback windings is known, with a resistor connected in series at the input of the converter and an opposite type transistor between one of the terminals of this resistor and the base. conduction, the base of which is connected to the intermediate point of a resistive voltage divider connected at the input of the converter parallel to the power circuit t2j The low efficiency of this converter is due to power losses in the resistive divider, especially large in the case of high (hundreds of volts) input voltage, as well as in a resistor connected at the input of the converter to the power supply. The closest in technical essence to the present invention is a converter comprising two transistors, an input filter consisting of a series-connected droplet and a parallel capacitor, a current transformer with a primary winding and a winding of the connection, and a start circuit. The aim of the invention is higher efficiency. The goal is achieved in the static converter the indicated starting circuit is fulfilled on the bases of the parametric stabilizer, the input of which is connected through a protective diode parallel to the input filter choke, and the output through the limiting resistor to the photo emitter of the optocoupler, one photodiode of which is sequential A chain consisting of a tokozadakchegr resistor and a separating capacitor is connected to one of the input terminals of the power supply and the other its electrode is connected with ne of the saturable coils Transformer Matora. There are options for connecting the triggering circuit, when the photodetector's anode through the specified chain, the capacitor and the input filter choke are connected to the positive input terminal of the source, and the photodetector cathode is connected to the connection point of the winding. Reverse connection to the base of the transistor connected by the source to the negative input terminal of the Litani source. In addition, the cathode of the photodetector is connected to the negative input fy through the specified series circuit, the anode to the connection point of the inserted resistor connected in series with the primary winding of the transformer. FIG. 1 is a schematic diagram of a static self-output converter converter. The converter contains two transistors 1 and 2, two capacitors 3 and 4, connected via a half bridge circuit, a power transformer 5, a dross 6, a protective diode 7, a parametric stabilizer on a resistor 8 and a zener diode 9, a limiting resistor 10, a light emitter 11 and a photodetector 12 optoelectronic the device, the cozadding resistor 13, the separator ny1y capacitor 14, an additional resistor 15 and the power transformer 16. 3. four . The Converter operates as follows. At the moment the input voltage is turned on, through the choke 6, the current starts flowing, charging the capacitors 3 and 4. At the same time, the voltage on the choke is so polar that the current through the parametric stabilizer on the resistor 8 and the zener diode 9 does not flow due to the protective diode 7. When capacitors 3 and 4 charge dc, the voltage across the choke; 6 changes polarity, and a diode 7, a resistor 8, a zener diode 9, flows through the circuit. At the same time, the current flows through the resistor 10, the light emitter 11 of the optocoupler. The resistance of the photodetector 12 decreases sharply, the charge current of the capacitor 14 begins to flow through the resistor 13, the capacitor 14 and the photodetector 12 to the base of transistor 2, Transistor 2 opens, and the converter then operates in an auto-oscillator mode. FIG. 2, a converter circuit is provided, which reduces the switching losses of the transistors due to the occurrence of a short circuit mode through one of the transistors. A resistor 15 is inserted into the control winding of the transformer, which, upon saturation of the latter, has a low resistance, is connected in series with the primary winding of a pinch transformer and a power transformer 16. To reduce the current through the photodetector 12, it is connected to the connection point entered. the primary resistor 15 and the primary winding of the saturation of the transformer 5, and the second output through the separation capacitor 14 and the current-developing resistor 13 is connected to one of the input terminals of the converter. After charging the condenser 14, the current in the circuit resistor 13 - capacitor 14 - photodetector 12 stops. The current also stops through the parametric stabilizer on the resistor 8 and the zener diode 9 after the voltage on the choke 6 becomes less than the voltage of the breakdown of the zener diode 9. Thus, the proposed converter has a higher efficiency, since during its operation there is no power consumption in the starting circuit. In addition, since the PULSE is turned on

Claims (3)

1. A static self-exciting converter containing two transistors, an input filter consisting of a series-connected throttle and a parallel capacitor, a saturable transformer with a primary winding and a reverse feedback winding, and a starting circuit that, in order to increase efficiency The indicated start-up circuit is made on the basis of a parametric stabilizer, the input of which through a protective diode is connected in parallel to the throttle of the input filter, and the output through the limiting resistor: .tor to the photo emitter is one electrode through which the photodetector series circuit consisting of a resistor and a divided voltage driving,-inflammatory capacitor associated with one of the input terminals 1 piece ani source "and the other electrode - with one of the windings of the transformer nasyshayuschegos. 2. The converter according to claim 1, stating that the anode of the photodetector is connected through the specified series circuit, the capacitor and the choke of the input filter and the cathode of the photodetector, with the connection point of the feedback winding with the base of the transistor connected by an emitter to the negative terminal of the power source. 3. A converter according to claim. 1, characterized in that. The cathode of the photodetector is connected to the negative input terminal of the power source through the specified serial circuit, and the anode to the connection point of the inserted resistor connected in series with the primary winding of the saturable transformer. Sources of information taken into account in the examination . 1. USSR author's certificate No. 496642, cl. H 02 M 7/537, 1972. 2 .. USSR author's certificate No. 334623, cl. H 02 M 7/537, 1970. 3. USSR author's certificate No. 636592, cl. G. 05 F 1/10, 1976.