SU995079A1 - Stabilized dc voltage converter - Google Patents

Description

(5) STABILIZED CONSTANT VOLTAGE CONVERTER

Claims (2)

The invention relates to converter equipment, in particular, to secondary power sources. Stabilized DC / DC converters are known, comprising a key element connected to a control circuit, a discharge diode, a choke, two transistors connected in series, a capacitive divider consisting of two capacitors, and an output transformer, the second winding of which is an output device, The input device is connected to a capacitive divider and series-connected transistors 1. The disadvantage of this device is the relatively large weight and dimensions of the throttle and the capacitor fil tra, caused by the complete modulation of the input voltage, which limits the possibilities of mini-eturization of such devices. Closest to the invention is a stabilized constant voltage converter containing a key element connected to a control unit, a discharge diode, a choke, two series-connected transistors, a capacitive divider consisting of two capacitors, and an output transformer whose primary winding The first house is connected to a common tran- point. Zistor, and the secondary winding - to the output pins of a stabilized converter, input pins connected to a capacitor divider and t2 series-connected transistors. A disadvantage of the known stabilized voltage converter is its limited functionality, which is due to the need to use a high quality one. regulatory transistor at high. the power supply network, as well as the complete modulation of the input voltage. The purpose of the invention is to expand the functionality of the stabilized converter. This goal is achieved by the fact that a stabilized voltage converter containing a key element connected to a control unit, a discharge diode, a choke, two series-connected transistors, a capacitor divider consisting of two capacitors, and an output transformer the first winding of which is connected to the common point of the transistors, and the secondary winding to the output terminals of the stabilized converter, the input terminals of the solenoid with a capacitive divider and in series with With the help of foreign transistors, a second discharge diode and a third capacitor are introduced, in parallel with which two series-connected additional diodes are connected, and the choke is supplied with series-connected second and third windings, the free ends of which are connected via the first and second discharge diodes to the outlets of the stabilized converter , while the third capacitor is connected between two capacitors of the capacitive divider, and in parallel with it are connected serially connected key element and the first The drossel winding, in addition, the primary winding of the output transformer is connected by a second terminal to the junction point of additional diodes and to the junction point of the second and third drossel windings. The drawing shows a functional diagram of a stabilized DC converter. The converter contains a key element 1 connected to the control unit 2, the discharge diodes 3 and 4, the cores 5, two series-connected transistors 6 and 7, the bases of which are connected to master HeHepator 8, a capacitive divider consisting of two capacitors 9, O and the third capacitor 11, the output transformer 12, the secondary winding 13 of which is the output of the device, the input terminals of the converter are connected to a capacitive divider and series-connected transistors 6 and 7. In addition, parallel to the third capacitor 11 A separate divider is connected to two series-connected additional diodes 1 and 15. The connection point of which is combined with the connection point of the second 16 and third 17 windings of the Drossel 5 whose free ends are connected through the discharge diodes 3 and 4 to the device input, while connected in parallel to the capacitor 11 key element, element 1 and the primary winding 18 of the choke 5. The primary winding 19 of the output transformer 12 is connected at one end to the connection point of transistors 6 and 7, and the other end to the connection point of diodes l and 13- To the output of the device through the rectifier 20, a load 21 is connected. When the stabilized constant voltage converter is turned on, the master oscillator 8 alternately opens and closes transistors 6 and 7. When transistor 6 (7) is open, through the primary winding 19 of the transformer 12 and diode 14 (15) capacitor discharge 9 (Yu) and capacitor charge occur. 11 and 10 (9). At load 21, a voltage appears. To ensure the symmetry of the voltage on the windings of the transformer 12, the capacitances of the capacitors 9 and 10 are chosen to be the same. The period of operation of the key element 1 can be chosen two times smaller than the period of operation of the transistors 6 and 7- When the key element 1 is open, a current flows through the primary winding 18 throttle 5. The difference between the second 16 and the third 17 windings of the chokes 5 is selected so that during the open state time of the key element 1, the discharge diodes 3 and are closed. When the key element 1 is turned off, energy stored in choke 5 through the open discharge diode 3 (when transistor 6 is open) or k (when transistor 7 is open) is transmitted to the primary winding 19 of transformer 12 and capacitor 9 (with open transistor 6) or 10 (with open transistor 7). When the output voltage changes under the influence of various destabilizing factors (change in input voltage, ambient temperature), etc.), control circuit 2 changes the duty cycle of key element 1 in such a way that voltage stability at load 21 is ensured. the voltage on the first winding 18 throttle 5 with the key element 1 on is determined by the voltage on the capacitor 11. The voltage on the second 16 and third 17 windings of the throttle 5 when the state is off is the key element and 1 is limited by the voltage at the input terminals of the stabilized converter. The choice of the capacitance value of the capacitor divider should be carried out using the allowable variable component of the voltage for this type of capacitor, which should not be less than the voltage drop across it during its discharge, jo, and charge. The use of the invention allows to reduce the operating voltage. As a diode and a key element, use low-voltage transistors, which are cheaper and have better pulse properties, as the last. In addition, the stabilization of the output voltage of the stabilized converter can be carried out by the method of partial pulse modulation, which in a number of cases allows reducing the input ripple or throttle mass. Thus, the proposed technical solution, depending, depending on specific requirements, either to reduce the voltage at a key element, or the mass of throttles, or the ripple value at the input, significantly expands the functionality of the stabilized voltage converter. . . The technical and economic effect from the application of the proposed transform, as compared with the known, is determined by the specific ratio of parameters and is especially noticeable at high input voltages. 9 Claims of the invention. Stabilized DC / DC converter containing a key element 1 | t, connected by a control unit, a discharge diode, a choke, two series-connected connectors; four-way transistors; a capacitive divider consisting of two capacitors; and an output transformer, primary. the coil of which is first connected to the common point of the transistors, and the secondary winding is the output of the stabilized converter, the input terminals connected to a capacitive divider and subsequently connected transistors, characterized in that, in order to expand the functionality, it is entered the second discharge diode and the third capacitor, in parallel with which two additional diodes connected in series are connected, and the choke is equipped with the second and third coils connected in series Kami, the free ends of which through the first and second bit diodes are connected to the input terminals of the stabilized converter, while the third capacitor is connected between two capacitors of the capacitive divider, and parallel to it are connected in series the key element and the first winding of the chokes, the primary winding of the output transformer connected to the second terminal to the point of connection of additional diodes and to the point of connection of the second and third windings of the choke. Sources of information taken into account in the examination of 1. Electronic technology in automation. Collection of ed. Yu.I. .Koneva. M., Sov. radio issue E. 1977, p. 93, fig. 9. 2. Electronic equipment in automatics. Collection of ed. Yu.I. Konev. M., Sov. radio issue 6, 197, p. 58, fig. 2