SU604104A1 - Voltage converter - Google Patents

Description

(54) VOLTAGE CONVERTER

The invention relates to the field of spectrology, namely, to power sources and to the clock wave pulses of telemechanical systems, by a rigid-cycle method of synchronization,

Converters are known that are made on two pairs of transistors connected in a half-bridge circuit to the primary windings of the output transformer, which can be used in particular time-based circuits with a rigidly cyclic synchronization method; using as a communication line a two-wire line with a combination of the remote intrinsically safe power channel and the telemechanic channels for the transmission of frequency synchronization signals and high-frequency signals iT. However, to isolate and form synchronization signals, an additional device is needed, which considerably complicates the circuit and increases the power consumption by the equipment of the controlled point.

The use of these converters in an intrinsically safe remote power system is also limited to intrinsic safety.

In this case, the inductance of the primary winding of the converter is galvanically connected by means of a communication line with an intrinsically safe power source.

The closest in technical essence to the present invention is a voltage converter, made in the form of a half-bridge push-pull circuit with two transistors in each arm and with a capacitive divider.

However, this device does not provide enough simple synchronization.

The purpose of the invention is to increase the reliability and simplify the synchronization of the converter.

Claims (1)

This goal is achieved by the fact that a voltage converter containing two pairs of transistors connected in half-bridge to the first windings of the output transformer, one of the secondary windings of which is connected to the output rectifier parallel to the C-circuit connected between the collector and emitter of each transistor, forcing, C-circuits, connected between the base of each transistor and the corresponding winding of the output transformer, and a capacitive divider, the extreme terminals of which are connected to the extreme terminals of the transistor The half-bridge nsistors and the middle output are connected via an additional primary winding of the output transformer to the common output of two pairs of half-bridge transistors, a two-winding high-frequency choke, whose input is connected to the input buses, a protective diode bridge, and an additional transformer, is inserted Two diodes are connected to the base-emitter junctions of the transistors of the same pair, and the primary winding is through the additionally introduced separator ator and quenched shy resistor connected to obshim points You are a compound, the throttle moves to the input of the diode bridge, the outputs of which are connected together with the outermost terminals of the capacitive divider and a transistor half bridge circuit. The drawing shows a circuit diagram of a converter, for example. The voltage converter consists of an input transformer 1, an output driver of the power supply circuit 2, a protection diode bridge 3, a capacitive voltage divider made on the capacitor 1 and 4 and 5, a capacitor 6 of the output rectifier, parallel to; consisting of condensers 7-, 7-2. and resistances & 8-2 one shoulder and capacitors 9--, 9i resistances 1O-i, 1C - 2. another plate, transistors 11-14, forcing T C-ufen check, consisting of capacitors 15-, is and resistances 16- j, 16 2 of one arm and capacitors 17- j, 17--2 and with resistance 18- i . 18- 2 of the other arm, the additional diodes 19 and 20 of the additional synchronization transformer 21 with two outputs, separation capacitor 22 of the damping resistor 23 and two-winding high-frequency droplet 24, the communication line is connected to the input of the transformer, i.e. high-frequency input Drossel 24, the output of which is connected to the input of the protective diode bridge 3 and the split separator capacitor 22 and the damping resistor 23 - to the input winding of the synchronization transformer 21. One ends of the output windings of this transformer are connected diodes 19 and 2O to the bases of one of the pairs of transistors 13 and 14, and the others to their emitters. The output of the protective diode bridge 3 is connected to one diagonal of the converter formed by four transistors 11-14 and a capacitive divider manufactured on the capacitors 4, 5, and to the other diagonal formed by two transistors 11 and 12 of one arm and the capacitor 4 of the capacitive divider included the primary winding of the output transformer 1. Each transistor has an independent basic winding, in series with which the forsuyushie T C-chains 15. i, 15--2 16., 16.2,17 1, 17-2, IS, 18--2 and parallel T G units 7 j, 7- 2 8 i, 8 Q 2 lOj, 10.2, included pas gshlelno emitter-collector circuit. One of the secondary windings of the output transformer 1 is connected to the input of the output rectifier 2 of the power supply circuit of the equipment of the controlled point, the output of which is connected to the capacitor 6, and the other to the clock bus of the equipment of the controlled point. The voltage converter operates as follows. When the converter is connected to the communication line, in which the supply channel from the intrinsically safe source and the telemechanics channels for transmitting the synchronization signals of the distributors and high-frequency signals are combined, the constant supply voltage through the high-frequency choke 24 and the protective diode bridge 3 is fed to the capacitive divider exhausted by capacitors 4 and 5. To equalize the applied voltage and to limit the overvoltage that occurs during the switching process of transistors 11-14, the emitter-collector circuit is parallel to Each of them included K C-Aven 7-- j., 7-2. 6 1. e 2. 2 ,, 1О 1, 10 2 AC synchronization voltage through the coupling capacitor 22 and the damping resistor 23 is fed to the synchronization transformer 21, the output windings of which affect only the opening of the transistors 13 and 14 due to the inclusion of diodes 19 and 20. for example, when transistors 13 and 14 are open, one capacitor (4) is charged and another capacitor (S) is discharged by a capacitive divider, and vice versa - the charge of capacitor 5 and the discharge of capacitor 4 are alternately About connecting capacitors 4 and 5 to the primary winding of the output transformer 1, a variable square voltage is removed at the output of the converter, the steepness of the leading and trailing edges of the pulses of which is forced by the input of forced TS circuits 15 i, 15 2 I 1 HF and 17, i, 17 -2., 18-i, 18 2i The output voltage of the converter is removed from one winding of the output transformer 1, Hcnonbaj eivc for synchronizing the distributors, and removed from the other, for powering the equipment of the controlled point. or short circuit) protective diode bridge 3 eliminates the discharge of capacitors 4 and 5 of the capacitive divider per line. This also eliminates the need for line phasing during repairs. To avoid shunting view-frequency telemechanic signals with a low input impedance of the converter, a high-frequency choke 24 is installed at its input. Laboratory tests showed the reliability of the transducer operation and the possibility of using it in time-frequency systems with a rigid-cycle synchronization method. Claims A voltage converter containing two pairs of transistors connected in a lum-bridge circuit to the first windings of an output transformer, one of the secondary windings of which is connected to an output rectifier, connected between the collector and emitter of each transistor, forcing a C-circuit connected between the base of each transistor and the corresponding winding of the output transformer, and a capacitive divider, the extreme terminals of which are connected to the extreme terminals of the transistors circuits, and the average output is connected via a prepressive primary winding of the output transformer to the common output of two pairs of half-bridge transistors, which is connected with the input busbars, a protective diode bridge and an additional transformer, two secondary windings of which, through the additionally introduced two diodes, are connected to the base-emitter junctions of the transistors of one pair, and the primary skein. through the additionally added separation capacitor and damping resistor are connected to common points of connection of the outputs of the throttle with the input of the diode bridge, the outputs of which are connected simultaneously with the extreme leads of the capacitive divider and transistors of the half bridge circuit. Sources of information taken into account in the examination: 1. USSR author's certificate number 154594, cl. 21 d: i2 / 04, 1962. 2, Sat. Principles of construction and methods for the synthesis of functional angles of body and analog systems. ILIM, Frunze, 1971, p. 67. Trkti "