SU1396228A1 - Self-excited converter - Google Patents

Abstract

The invention relates to converter equipment and can be used in automation and secondary power devices. The goal is to increase efficiency. The converter contains power transistors with a power transformer, a time setting RC circuit, the capacitor of which is connected to the input of the input threshold node and through diodes with control transitions of the power transistors. The output of the threshold node is connected to the input of the bit key. As a result of the operation of a synchronization circuit consisting of an RC-chain, a threshold element and a discharge key with diodes, the transistors of the oscillator are switched at equal intervals of time, which eliminates the asymmetry introduced into the transformer magnetization mode. 3 h. n. f-ly, 3 ill. S

Description

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The invention relates to electrical engineering and can be used in sources of secondary electron powering of radio engineering, automation and computer systems.

The purpose of the invention is to increase the efficiency of a self-voltage DC converter.

FIG. 1 shows a circuit diagram of a self-voltage constant-voltage converter; in fig. 2 - the same, an example of execution with a single junction transistor; in fig. 3 - the same, an example of execution with the integral timer KR 1006V11.

A self-voltage DC converter contains power transistors 1 and 2, a transformer 3, the positive feedback winding 4 of which is connected to the bases of transistors 1 and 2 via a limiting resistor 5, a starting resistor 6, the time setting RC circuit 7, 8, the connected with power transistors through diodes 9-13, threshold element 14 with deep positive feedback, and radial switch 15.

The device works as follows.

Due to the flow of the bias current through the starting resistor 6 and the base-emitter junctions of transistors 1 and 2, one of the transistors is unlocked and the process of transferring energy to the load 16, reversal of the magnetic core of the transformer 3 and charging the capacitor 8 begins.

The charging time of the capacitor 8 to the pickup voltage of the threshold element 14 must be less than the time of complete reversal of the magnetic circuit of the transformer 3. At the moment that the voltage on the capacitor 8 is equal to the pickup voltage of the threshold element 14, the bit switch is turned on.

The discharge current of the capacitor 8 flows through the circuit: the discharge switch 15 is a diode bridge 10-13, while the bases of the power transistors 1 and 2 are under a negative potential, which causes the open transistor to be locked and, consequently, the power transistors are switched. In the next half period, the processes are repeated with the difference that another power transistor is open and saturated. Thus, as a result of the operation of a synchronization circuit consisting of an RC circuit 7, 8, a threshold element 14, a bit switch 15 and diodes 9-13. The switching of transistors 1 and 2 is carried out through

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strictly identical time intervals, which excludes the asymmetry introduced into the transforming mode of the transformer due to the nonidentity of the parameters of the elements of the synchronizing circuit. Moreover, the presence of diodes 12 and 13, bypassing the base-emitter junctions of power transistors, allows the use of a starting chain in the form of a resistor with a resistance of hundreds of kilo-ohm, which does not lead to a noticeable deterioration of efficiency even at high (100-300 V) supply voltages x

Claims (4)

Invention Formula . A self-voltage DC converter containing two power transistors, the base-emitter junctions of which are bypassed by reverse diodes, the emitters are connected to the first input terminal, and the collectors to the extreme terminals of the transformer primary winding, the middle terminal of which is connected to the second input terminal, the secondary winding is connected to the output terminals, and the feedback winding is connected via a limiting resistor to the bases of the power transistors connected through the first and second diodes to the first terminal of the condenser the time of the master RC circuit, the second terminal of which is connected through a resistor to the second input terminal and via a bit switch to the first input terminal, a starting resistor connected between the second input terminal and the base of one of the power transistors, and the third diode, connected between the first capacitor lead and the first input lead, characterized in that, in order to increase the efficiency, a threshold element with deep positive feedback is inputted into it, the input of which is connected to the junction point of the resistor and capacitor RC-circuit, and an output - to the control input of the discharge switch. 2. A transducer according to claim 1, characterized in that an external short pulse generator is used as the threshold element. 3. A transducer according to claim 1, characterized in that a single junction transistor is used as a threshold element and a bit switch. 4. A converter according to claim 1, characterized in that a transistor analogue of a single junction transistor is used as a threshold element. I 1 II 2 Timer krtbvi1  at ± Fi.Z