SU862361A1 - Transistor switch - Google Patents

Description

(54) TRANSISTOR KEY

Claims (2)

The invention relates to electrical engineering, in particular to the switching elements of converter equipment. A transistor switch comprising a power transistor, a current transformer, and an additional transistor 1 is also known. A transistor switch comprising a power transistor, a current transformer consisting of two sections is also known, with the first section being connected between the power source plus emitter of the power transistor and one of the winding leads the second section, the second output of which is connected to the emitter of the additional transistor 2. The known circuits have low efficiency. The aim of the invention is to increase the efficiency. The goal is achieved in that a transistor switch containing a power transistor and a current transformer consisting of two sections, the first section being connected between the power supply source, the emitter of the power transistor and one of the winding terminals of the second section, the second terminal of which is connected to the emitter of the additional transistor , the diode and the feedback winding of the current transformer are inserted, the diode being connected in anti-parallel to the collector-emitter junction of the additional transistor, and the feedback winding is connected in parallel The transition is an emitter-base of an additional transistor, the base of which is connected to the control input of the transistor switch. The drawing shows a circuit diagram of a transistor switch. The key contains a power transistor 1, a current transformer 2 consisting of sections 3, 4 and a feedback winding 5, an additional transistor 6, a diode 7, resistors 8-10. Transistor key works as follows. The bi-polar control pulses are fed to the input of the additional transistor 6 and the feedback winding 5 of the current transformer 2. When a positive pulse arrives, the transistor 6 is unlocked, and from section 4 of the transformer, a release voltage is applied to the base of the power transistor 1. Transistor 1 begins to open and, due to the action of positive current feedback, enters saturation mode. When a negative control pulse arrives, transistors 6 and 1 are turned off. The transformer is bounded by the energy stored in its core, and a voltage is applied that is proportional to the rate of current change in the primary winding 3. The surge of this voltage, limited by a resistor 8, through a diode 7 locks the transistor 1. The presence of the indicated voltage surge contributes to the active locking of the transistor switch. Further, the transistor 1 is maintained in a closed state by the scientific research institute due to the voltage induced in the second section 4 of the transformer during its reversal by a control signal. The magnitude of the surge depends on the load current, and the larger the load current, the greater its rate of change and the higher the blocking voltage. Thus, for the active locking of the power transistor, the electromagnetic energy stored in the core of the transformer is used, and not the energy consumed from the control circuit. In addition, this energy is corrected depending on the network load current. Claims of the invention A transistor switch comprising a power transistor and a current transformer consisting of two sections, the first section being connected between the plus of the power source, the emitter of the power transistor and one of the winding terminals of the second section, the second terminal of which is connected to the emitter of the additional transistor, characterized by that, in order to increase the efficiency, the diode and the feedback winding of the current transformer are introduced into it, and the diode is connected in parallel with the collector-emitter junction of the additional transistor, and The feedback is connected in parallel to the emitter-base transition of an additional transistor, the base of which is connected to the control input of a transistor switch. Sources of information taken into account during the examination 1. D. Kossov. Power amplifiers in transistors in switching mode, M., “Energie, 1971, p. 29, fig. 5-13. 2. USSR author's certificate number 426301, cl. H 03 K 17/60, 08.05.74 (prototype). W 0l J -0 Have