SU746931A1 - Magnetic-transistorized dc switch - Google Patents

Description

(54) MAGNETIC TRANSISTOR KEY FOR DC CURRENT

Claims (2)

The invention relates to the field of electrical engineering, in particular to magnetic transistor switches, and can be used in the construction of static converters based on key power amplifiers. A direct current magnet-transistor switch is known, which contains power transistors, transformers with windings, the primary winding having a tap from the medium point connected to the key output terminal, a control unit connected to the power transistor control circuits, connected to the edge of the primary winding through the emitter-collector sections of the power transistors 1. A disadvantage of the known key is the presence of power losses in the power transistors at the moments of switching. The closest in technical essence and achieved results to the invention is a permanent-current magnetic transistor switch containing power transistors, a transformer with primary and secondary windings, a tfich primary winding is made with a midpoint tap connected to the output terminal of the key, and the extreme leads of this winding through the emitter-collector sections of the respective power transistors are connected to the input terminal of the switch, an auxiliary transistor connected to one of the power transistors according to the circuit Shutters transistor, the base of the auxiliary transistor is connected to the control terminal 2. The key disadvantage of this option is its complexity associated with the presence of a relatively large number of elements. The aim of the invention is to simplify the key. The goal is achieved by the fact that in it the secondary winding is made with a tap from the middle point, its extreme leads are respectively connected to the bases of the power transistors, and the electrode of the auxiliary transistor is connected to the tap from the mid point. The drawing shows examples of the implementation of a magneto-transistor dc switch according to the invention; in fig. 1 the primary winding of the transformer is included in the emitter circuit of power transistors; in fig. 2 in the collector circuit of these transistors. The magnetically-transistor switch of direct current contains an input terminal 1, pericon) winding 2 (with a tap from the midpoint) of the current transformer 3, the windings of which are included in the output circuits of the power transistors 4 and 5, the secondary winding 6 (with hundreds of water from the midpoint) connected to the extreme terminals of the bases of the power transistors 4 and 5, the auxiliary transistor 7, the output terminal 8, the control output 9, the diodes. io, and, and 12., The DC magnet switch is working as follows. If the unlocking signal arrives at its control terminal 9, currents begin to flow through the secondary winding, and for example, due to the technological variation of the voltages of power transistors 4 and 5, the base current of one of them will be greater, then in the part of the primary winding 2 of the current transformer 3, plugged into the output circuit, the current will also be of greater magnitude. In the event that this is, for example, a power transistor 4, then the windings of the current transformer 3 do not have the voltage specified in FIG. 2. The voltage on the left half of the winding 6 contributes to unlocking the power transistor 4, a: the voltage across the entire winding 6 closes the power transistor 5. After the core of the current transformer 3 is saturated, the base current of the power transistor 4 decreases; when the process of resorption of minority carriers is terminated, in the base of this transistor the direct voltage drop across the junction increases, and the load current decreases. A decrease in the load current causes the EMF of self-induction to appear on the windings 2 and 6 of the current transformer 3. The EMF unlocks the power transistor 5 and locks the power transistor 4. The reverse switching of the x1X transistors 4 and 5 occurs similarly to the above. It should be noted that the switch is avalanche-like, and therefore all changes in the load current during switching due to an increase in voltage are extremely small. The control of the switch can be carried out in the same way as with a conventional composite transistor or by a baea-emitter transition of an auxiliary transistor. In the proposed key, it is also possible to use power transistors of one type of conductivity, and auxiliary transistor of another type of conductivity. Diodes 10, II and 12 have an auxiliary purpose. The invention allows to obtain a simple DC magnet-transistor switch while maintaining its quality and weight-size indicators. The formula of the invention is a magneto-transistor switch of direct current, contents, power transistors, a current transformer with primary and secondary windings, the primary winding of BbmoifiHena with a center outlet connected to the output terminal of the switch, and the extreme terminals of this winding through the emitter-collector sections corresponding power transistors are connected to the input terminal of the switch, an auxiliary power transistor connected to one of the power transistors according to the composite transistor, and the base of the auxiliary transistor Connected to the control output of a key, characterized in that, for the sake of simplicity, the secondary winding is made with a tap from the midpoint, its extreme leads are respectively connected to the bases of the power transistors, and the auxiliary transistor electrode is connected to the tap from the midpoint. Information sources,. . taken into account during the examination 1. USSR author's certificate No. 547011, cl. H 02 M 3 / 135.02.03.70. 2. USSR author's certificate number 470058, cl. H 03 F 3/00, 25.12.72. ,