SU978346A1 - Two-position change-over switch - Google Patents

Description

(5) TWO-POSITION SWITCH

one

The invention relates to switching technology, and more specifically to electronic switching technology, and can be used, for example, in pulsed power amplifiers, frequency converters and stand-alone current and voltage inverters.

A two-way switch is known, containing in each of the two channels a switching transistor and a logic unit, the inputs of which are connected to the control terminal and the output (} of the gate of the gate pulse 1.

The disadvantages of such a device include the high complexity and significant power consumption of the control circuit software.

Closest to the proposed is a two-way switch containing a trans (1urmator with primary and two secondary windings, each of the two channels of the two-way switch contains the first and second transistors and a diode, in the first channel the collector of the first transistor, the emitter of which is connected to the output bus, and the base is connected to the emitter of the second transistor, connected to the first input bus, in the second channel the emitter of the first transistor whose collector is connected to the output bus, and ba10 is connected to the emitter m of the second transistor, connected to the second input bus, a diode is connected between each of the input buses and the output bus, the terminals of the transformer primary winding are connected to control buses 2.

The disadvantages of the known device are low reliability of operation, which is caused by

20 the possibility of through currents between the input buses.

Claims (2)

The purpose of the invention is to increase reliability. The goal is achieved by the fact that in each channel of a two-position switch containing a transformer with primary and two secondary windings, each of the two channels of the two-position switch contains the first and second transistors and a diode, in the first channel the collector of the first transistor, the emitter of which is connected to the output bus, and the base is connected to the emitter of the second transistor, connected to the first input bus, in the second channel the emitter of the first transistor, whose collector is connected to the output bus, and the base is connected with the emitter of the second transistor, connected to the second input bus, a diode is connected between each of the input buses and the output bus, the terminals of the transformer primary winding are connected to control buses, an additional transistor, additional diodes, the first and second rectifiers, the driver of the pulses and resistors are inserted , and the secondary windings of the transformer are equipped with a middle lead, in each channel the middle lead of the secondary winding of the transformer is connected to the input of the first rectifier and to the collector of the second transistor, the base of which is The first second diodes are respectively connected to the collector of the first transistor and the collector of the additional transistor, the emitter of which is connected to the OUT of the first rectifier, and the base through the first resistor is connected to the output of the second rectifier, the input of the second rectifier directly, the base of the first transistor through parallel connected second resistor and the third diode and the base of the second transistor are connected via a third resistor to the extreme terminal of the transformer secondary winding, to which the driver input is connected and The pulses, the other extreme terminal of the secondary winding of the transformer is connected to the emitter of the first transistor, the output of the pulse shaper is connected to the base of the additional transistor. The drawing shows a circuit diagram of a two-way switch. The channels of the on-off switch (except for the inclusion of the first transistors) are identical and on a schematic diagram the detailed schematic diagram is shown for one of the channels (first), the Dip-switch contains the first transistors 1 and 2 (in the first and second channels, respectively); diodes 3 and (in the first and in the second channel, respectively); transformer with primary 5 and secondary 6 and 7 windings. In addition, each channel of a dip switch contains a second transistor 8, an additional transistor I, the first If), the second 11 rectifiers, a driver 12 pulses (which, in the simplest case, is a series-connected resistor and capacitor); the first 13, second and third 15 resistors, the first 16, second 17 and third 18 diodes. The collector of the first transistor 1 in the first channel is connected to the first input bus 19; the emitter of the first transistor 2 in the second channel is connected to the second input bus 20; the emitter of transistor 1 and the collector of transistor 2 are combined and connected to the output bus 21; the leads of the transformer primary winding 5 are connected to the control buses 22, 23. In addition, the Dip switch contains diodes that shunt the base-emitter transitions of transistors 9 and 8. The principle of the Dip switch is as follows. The secondary windings 6 and 7 are designed in such a way that the voltage applied to them is antiphase. If the voltage is positive at the initial output of the secondary winding 6, transistors 1 and 8 are opened by current flowing through resistor 15. Transistor 2 at. This is locked and the voltage from the input bus 19 comes to the output bus 21. Connecting the collector of transistor 8 to the middle terminal of the secondary winding 6 of the transformer ensures that this transistor operates in a linear mode with a low voltage level between the collector and emitter close to the limit value. The diode 16 plays the role of a feedback diode, limiting the voltage at the base of the transistor 8. Transistor 9 in this mode has almost no effect on the operation of the device, since it is locked by a negative bias on the base. 59 At a negative voltage across the initial output of the secondary winding 6 of the transformer, transistors 1 and 8 are broken. The transistor 2 is open and the voltage from the input bus 20 is supplied to the output bus 21. The forced shutdown mode of the transistor 1 is provided with a diode 18. The positive effect of the proposed technical solution is to increase the reliability of the two-position switch by eliminating through currents between the input buses 19 and 20. Indeed, let at some point in time transistor 2 is open, and transistor 1 is closed. When the polarity of the control signal applied to the busbars 22 and 23 is changed, transistor 1 begins to open, and transistor 2 is locked. The locking of transistor 2 is delayed by the resorption process of minority carriers in the base. Therefore, the unlocking of the transistor 1 must be delayed by a time sufficient to absorb minority carriers in the base of the transistor 2. The delay in unlocking the transistor 1 is directly due to the presence of elements 9-13 and 17, connected as described above. In the initial state, the voltage on the base and emitter of transistor 9, equal to the voltage at the outputs of rectifiers 11 and 10, is negative (relative to the emitter of transistor 1), and transistor 9 is locked. At the time of the voltage increase at the initial output of the secondary winding 6 of the transformer (which corresponds to the start time of the locking of the transistor 2), a short unlocking pulse is formed on the base of the transistor 9 by means of the pulse former 12, which is sufficient for reliable locking of the transistor 2. For the duration of this pulse, the base of the transistor 8 is connected through the open transistor 9 to the output of the rectifier 10, the voltage of which is negative. This leads to a delay in unlocking the transistor 1, eliminating the through-currents and increasing the reliability of the device. DETAILED DESCRIPTION A two-way switch comprising a transformer with a primary 66 and two secondary windings, each of the two channels of the two-way switch contains the first and second transistors and a diode, the first channel the collector of the first transistor, the emitter of which is connected to the output bus, and the base is connected to the emitter of the second transistor connected to the first input bus, in the second channel the emitter of the first transistor, the collector of which is connected to the output bus, and the base is connected to the emitter of the second transistor, A diode is connected to the second input bus, a diode is connected between each of the input buses and the output bus, the terminals of the transformer primary winding are connected to control buses, so that, in order to increase reliability, an additional, additional transistor is inserted into each channel of the two-position switch, additional diodes, first and second rectifiers, pulse shaper and resistors, and the secondary windings of the transformer are equipped with an average output, in each channel the average output of the secondary winding of the transformer is connected to the input of the The rectifier is also connected to the collector of the second transistor, the base of which is connected to the collector of the first transistor and the collector of the additional transistor through the first and second diodes, respectively. whose emitter is connected to the output of the first rectifier, and the base through the first resistor is connected to the output of the second rectifier, the input of the second rectifier directly, the base of the first transistor through a parallel-connected resistor and the third diode, and the base of the second transistor through the third resistor are connected to the extreme output of the secondary the transformer winding to which the pulse driver input is connected, the other extreme terminal of the transformer secondary winding is connected to the emitter of the first transistor, the driver pulse output S connected to the base of the additional transistor. Sources of information taken into account in the examination 1. USSR author's certificate "248767, cl. H 03 K 17/08, Ob.09.672. UK Patent No. 15189 7. cl. NRT, 05.30.75. and 5