SU826982A3 - Single-cycle transistor constant voltage transformer - Google Patents

Abstract

A drilling machine (5) is mounted on a bar (13) wh slides in the frame (12) and with the motion controlled by the screwed rod (20) which is rotated by the handle (24). The frame (12) is also able to slide on the bar (10) which is mounted at right angles to the bar (13). A second screwed rod (26) controls the movement along the bar (10). Scales (3, 4) are fitted alongside the bars (13, 10) respectively to indicate the 'x' and 'y' co-ordinates of the centre line of the drilling machine (5). These co-ordinates can be optically projected on to a screen visible to the operator.

Description

The invention relates to electrical engineering and can be used in secondary power supply systems for converting a constant voltage level by means of single-ended transistor converters. Single-ended converters are known with an L-shaped L-C filter on the output, in which, to unload the power transistor when it is turned off, a capacitor is connected in parallel to the transistor through diode 1. The closest in technical essence to the present invention is a single-phase converter with an L-shaped L-C filter / shunt diode and connected via a transformer and a rectifying diode to the power transistor 2. A capacitor connected in parallel with the transistor by the first output to the emitter must, in addition to the functions of reducing the pulse power dissipated in the transistor when it is turned off, provide demagnetization functions of the transformer core. The optimum capacitance value of the capacitor is necessary to perform the first function, usually more than the need to perform the second function, and in this device the capacity is chosen as a compromise. The purpose of the invention is to improve the reliability of the converter by improving the process of turning off the transistor. This goal is achieved by introducing an additional current transformer and a transistor, the emitter of which is connected to the second capacitor terminal, and the collector is connected to the main transistor collector, and between the emitter and the base of the additional transistor is connected the included additional diode, and the secondary winding of the current transformer, the primary winding of which is connected in series with the main transistor m, and an additional winding through the separation diode connected in parallel with a shunt diode at input L-C filter, the parallel collector-emitter circuit of the transistor is serially connected basic R-C chain. A second resistor is connected between the first capacitor lead and the base of the additional transistor.

The drawing shows schematically the proposed Converter.

The converter contains the main transistor 1, which connects to the input terminals 2 and 3 the primary winding of the output transformer 4, the secondary winding of which through the main diode 5 is connected to the output L-shaped LC filter in the form of droplets b and a capacitor 7, shunted by the diode 8. Transistor 1 controlled by a main current transformer 9 from control unit 10. Parallel to transistor 1, a capacitor 12 is connected through an additional transistor 11. The input of transistor 11 is bridged by a chain consisting of a resistor 13 and a diode 14 and connected to the secondary winding II of an additional current transformer 15, the primary winding I of which is connected in series to the emitter circuit of transistor 1 and an additional winding III is connected via a separating diode 16 parallel to the diode 8. Parallel to transistor 1, an RC circuit from a capacitor 17 and a resistor 18 is connected in series. Resistor 19 is connected between the transition base capacitor 11 and outputting the torus 12.

The Converter operates as follows.

Transistor 1 switches with a certain frequency and duty cycle, pulses generated by block 10, and current transformer 9 with positive feedback. Inphase with the transistor 1, the current transistor 15 is opened by the current transformer 15. With the current transistor 1 open, the current consumed from the power source passes through the transformer 4, diode 5 and the choke 6 and is transmitted to the load. The diode 16 is closed. When the transistor 1 is locked, the load current passes to the capacitor 12 through the transistor 11. Due to the fact that the capacitor 12 is slowly charging, the voltage across the transistor 1 is small in the switching process and, therefore, the pulse power dissipated in the transistor is small. At full charge the capacitor current in the circuit of elements 11 and 12 is stopped, the diode 5 is closed, the diode 8 is opened, which causes the transistor 11 to turn off, since the winding 111 of the transformer 15 is short-circuited. Then the demagnetization of the core of the transformer 4 occurs under the action of a current passing through the R-C chain of elements 17 and 18. The capacitor 12 is discharged through the resistor 13, the diode 14 and the resistor 19. At the same time, the voltage drop across the resistor 13 demagnetizes the core.

transformer 15 and forced switching off of the transistor 11. The dissipation inductance of transformer 4 provides small dynamic losses when the transistor is turned on, and thanks to the chain of elements 11 and 12, there is no overvoltage on transistor 11. The capacitance of the capacitor 12 can only be selected from the condition of the best switching process, independently

from the conditions of demagnetization of the core, the transformer 4, which is provided by the capacitor 17. Due to this, the reliability of the converter is increased.

Claims (2)

1. Single-phase constant-voltage transistor converter containing a main transistor, 0 connected in series with the primary winding of the output transformer, the secondary winding of which is connected to the output terminals of the converter through the main diode and G-about 5 different LC filter with a shunt diode at the input, and a capacitor connected by the first output to the emitter circuit of the main transistor, about m and h And in order to increase reliability by improving the process of turning off the transistor, it is equipped with an additional current transformer and an additional transistor, the emitter of which is connected to the second output om said capacitor and whose collector is connected to the collector of the main transistor and between the emitter and base of the additional transistor is turned on chain consisting of a series-connected first resistor and a counter included additional diode and the secondary winding of the current transformer whose primary is connected in series with the main 5 by a transistor, and the additional winding through an isolating diode is connected in parallel with the indicated shunt diode, with the emitter-collector of the main parallel in parallel Q transistor enabled sequential r-c chain. 2. The converter according to claim 1, characterized in that a second resistor is connected between the first capacitor terminal and the base of the additional transistor. Sources of information taken into account in the examination 1. Patent of Germany No. 1537604, cl. 21 a 36/18, 1971.. 0 2. Patent of Germany No. 1175740, cl. H 02 M 3/335, 1971.