SU1084976A1 - Bridge-circuit flip-flop - Google Patents

Abstract

A bridge trigger containing the first and second transistors of the first conductivity type, each emitter: of which is connected to the common bus and via the first and second resistors respectively to the base, and the collectors respectively to the collectors of the first and second transistors of the second conductivity type, the emitter of each of which is connected to the power bus and through the third and fourth resistors respectively to the base, the collectors of the first and second transistors of the first conductivity type are connected respectively to the first terminals of the fifth and sixth resistors, characterized in that, in order to expand functionality, increase efficiency and reliability, the third and fourth transistors of the first conductivity type are introduced into it, the collectors of which are connected respectively to the bases of the first and second transistors of the first conductivity type, and the emitters to the common bus, the bases are connected to the first input, the emitters of the fifth and sixth transistors of the first conductivity type are connected to the common bus, the bases to the second and third inputs respectively and through the seventh and eighth resistors to the common (L bus and the collectors to the second terminals of the sixth and fifth resistors, respectively, and through the ninth and tenth resistors, respectively, to the cathodes of the first and second zener diodes, the anodes of which are connected respectively to the bases of the first and second transistors of the first type of conductivity, the collectors of which are connected through The eleventh resistor, the base of the first and second transistors of the second conductivity type are connected via the third and fourth zener diodes to the cathodes of the first and second zener diodes, respectively.

Description

The invention relates to electronic pulse technology and can be used in automation devices, telemechanics and computer technology. A trigger known for transistors of different types of conductivity is known. The disadvantages of this trigger are. There are only two stable states in which the current in the load flows in opposite directions. directions of he, when switching from one state to another, produce through currents, which reduces the efficiency and reliability of the trigger. Also known is a trigger containing the first and second transistors of the perpendicular type of conductivity, the emitter of each of which is connected to a common bus and through resistors to bases and collectors respectively to collectors of the first and second transistors of the second conductivity type, the emitters of which are connected to the power bus and through the corresponding resistors to the bases, the base of each of the transistors is connected via a corresponding resistor to the collector of another transistor of the same conductivity type. 2 The disadvantages of the known device are narrow functional- possible, low efficiency and reliability of the object of the invention - expanding functionality, increase efficiency and reliability. To achieve this goal, a device containing the first and second transistors of the first conductivity type, the emitter of each of which is connected to the common bus and through the first and second resistors respectively to the base 5 and the collectors to the collectors of the first and second transistors of the second type, respectively the emitter of each of them is connected to the power bus and through the third and fourth resistors respectively to the base, the collectors of the first and second transistors of the first conductivity type are connected respectively to the first the third and fourth transistors of the first conductivity type, the collectors of which are connected to the bases of the first and second transistors of the first conductivity type, the emitters to the common bus, and the bases to the first input, emitters of the fifth and sixth transistors of the first conductivity type are connected to a common bus, the bases to the second and third inputs respectively and through the seventh and eighth resistors to the common one, and collectors to the second terminals of the sixth and fifth resistors respectively and nine the tenth and tenth resistors respectively to the cathodes of the first and second zener diodes, the anodes of which are connected respectively to the bases of the first and second transistors of the first conductivity type, whose collectors are connected via eleven resistors, the bases of the first and second transistors of the second conductivity type to the third and fourth Zener diodes the cathodes of the first and second zener diodes. Fig. 1 is a circuit diagram of the proposed bridge trigger; in fig. 2 timing charts of the trigger. The bridge trigger contains the first 1 and second 2 transistors of the first conductivity type, the emitter of which is connected to the common bus and via the first 3 and second 4 resistors to the base respectively, and the collectors to the collectors of the first 5 and second 6 transistors of the second conductivity type, emitter each of which is connected to the power bus and through respectively the third 7 and fourth 8 resistors to the base of the collectors of the first 1 and second 2 transistors of the first conductivity type are connected respectively to the first terminals of the fifth 9 and six tO resistors, collectors of the third 11 and fourth 12 transistors of the first conductivity type are connected respectively to the bases of the first 1 and second 2 transistors of the first conductivity type, emitters to the common bus, and bases to the first input 13, emitters of the 14th and sixth 15 transistors of the first type of conductivity are connected to a common bus, the base respectively to the second 16 and third 17 inputs through the seventh 18 and eighth 19 resistors to the common bus, and collectors to the second terminals of the sixth 10 and fifth resistors respectively and through ninth 20 and ec fifth resistors 21 respectively to the cathodes of the first 22 and E 23 torogo Zener diodes, anodes of which are connected respectively to the bases of the first 1 and second 2 transistors of the first conductivity type kallektory. which are connected via the eleventh resistor 24, the bases of the first 5 and second 6 transistors of the second conductivity type are connected via the third 25 and fourth 26 zener diodes to the cathodes of the first 22 and second 23 zener diodes, respectively. The bridge trigger works as follows. When the power is turned on, all the transistors are closed, since the sum of the robo voltages of the first 22 and third 25 and second 23 and fourth 26 zener diodes is more than the supply voltage and the base currents of the first 1 and second 2 nepBdro transistors of the conductivity type and the first 5 and second 6 transistors of the second conductivity type are equal to zero. This initial state is stable. If the second impulse is applied to the second input 16, the fifth transistor 14 of the first conductivity type opens, the potential at its collector decreases to zero, current flows through the nine resistor 20, the third Zener diode 25 and the base transistor 5 of the second conductivity type. The latter will open and the potential on its collector will increase to voltage, power supply, which leads to the breakdown of the second Zener diode 23 and current will flow through the open first transistor 5 of the second type of conductivity j 5th 9 and ten 21 resistors, the second Zener diode 23 and the base of the second transistor 2 of the first conductivity type, which also opens, causing a current in the eleventh resistor 24. After the end of the pulse at the second input 16, the first transistor 5 of the second conductivity type is kept open by the current through the open th second transistor 2 of the first conductivity type, the sixth and the ninth 10, resistors 20, the third zener diode 25, a trigger This state is also stable. If at this point in time a pulse is applied to the third input 17, the sixth transistor 15 of the first conductivity type opens, the potential at its collector begins to decrease, which leads to a decrease in current through the second zener diode 23 and its closure 6, therefore closing the second transistor 2 of the first Type held tee. Further reduction of the potential at the collector of the sixth transistor 15 of the first conductivity type leads to the breakdown of the fourth Zener diode 26 and the occurrence of a reverse current through the tenth resistor 21 and the fourth Zener diode 26, and consequently, to the opening of the second transistor 6 of the second conductivity type. Closing the second transistor 2 of the first conductivity type leads to a reduction to zero through the sixth 10 and ninth 20 resistors, the third Zener diode 25, and closes the first transistor 5 of the second conductivity type, and opening the second transistor 6 of the second conductivity causes a reverse current through the current the sixth 10 and ninth 20 resistors and the first zener diode 22, which leads to the opening of the first transistor 1 of the first conductivity type and the transition of the trigger to the third steady state. The transition from the second steady state to the third is not accompanied by the emergence of through currents, since the open transistors first close and then the closed ones open, thanks to the zener diodes. If on. The first input 13 to give a positive impulse, then one of the transistors first 1 or second 2 of the first conductivity type, which is in the open state, closes because the current of its base is bridged. This leads to the closing of the first 5 or second 6 transistors of the second conductivity type, since the current in its base disappears and the trigger returns to its original steady state. Thus, by applying pulses to the first 13, second 16 and third 17 inputs, you can sequentially transfer the trigger to any of the three states, regardless of the previous state. If successive pulses are applied to the second 16 and third 17 inputs, the trigger operates as known bridge triggers with two stable states with current reversing in the load. If you consistently apply pulses to the second 16 and first 13 inputs or to the third 17 and first 13

S1054976

entrances, the bridge trtsgger works Technical and economic effect in how known triggers without change - the proposed device is

neither the direction of the current in the load, but only the switching on and off of the current of a certain polarity.

in expanding its functionality, increasing reliability

5 and efficiency.

Claims (1)

A bridge trigger containing the first and second transistors of the first type of conductivity, the emitter of each of which is connected to the common bus and, respectively, through the first and second resistors to the base, and the collectors, respectively, to the collectors of the first and second transistors of the second type of conductivity, the emitter of each of which is connected to the power bus and through the third and fourth resistors to the base, respectively, the collectors of the first and second transistors of the first conductivity type are connected respectively to the first terminals of the fifth and sixth resistors ditch, characterized in that, in order to expand functionality, increase efficiency and reliability, the third and fourth transistors of the first type of conductivity are introduced into it, the collectors of which are connected respectively to the bases of the first and second transistors of the first type of conductivity, the emitters are connected to the common bus, and the bases are connected to the first input, the emitters of the fifth and sixth transistors of the first type of conduction are connected to a common bus, the bases are connected to the second and third inputs, and through the seventh and eighth g resistors to the common bus, and the collectors the second and sixth terminals respectively pyato ^2nd resistors and through the ninth and tenth resistors respectively to the cathodes of the first and second Zener diodes, anodes of which are connected sootvetstvenno.k bases of the first and second transistors of the first conductivity type, whose collectors are connected via an eleventh resistor, the base of the first and second transistors the second type of conductivity is connected respectively through the third and fourth zener diodes to the cathodes of the first and second zener diodes.