SU1150735A1 - Versions of bridge ternary flip-flop - Google Patents

Abstract

1. Bridge ternary trigger containing the first, second, third, fourth, fifth and sixth reverse-conducting transistors, the emitters of which are connected to the common bus, the bases of the first and second transistors are connected to the first input, the common bus through the first and second resistors are connected respectively to the bases the third and fourth transistors, collectors of the first and second transistors, anodes of the first and second zener diodes, the cathodes of which are connected respectively with the first terminals of the third and fourth resistors, the base of the fifth the sixth transistors are connected to the second and third inputs of the trigger, respectively, and through the fifth and sixth resistors are connected to the common bus, the seventh and eighth direct transistors, the emitters of which are connected to the power bus and through the seventh and eighth resistors are connected to their bases and cathodes of the third and the fourth Zener diodes, the collectors of the third and fourth transistors are connected to the first and second outputs of the trigger, characterized in that, in order to expand the field of application, eight In diodes, the collectors of the third and fourth transistors are connected respectively to the cathodes of the first and second, third and fourth diodes, the anodes of the first and third diodes are connected respectively to the third and fourth outputs of the trigger and the cathodes of the fifth and sixth diodes, the anodes of which are connected respectively to the fifth and the sixth trigger outputs and with collectors of the seventh and eighth transistors and respectively with the anodes of the seventh and eighth diodes, the cathodes of which are connected respectively with the anodes of the fourth and third stable Itron, with the second pins of the fourth and third resistors, the first pins of which are connected to the collectors of the sixth and fifth transistors, respectively, the anodes of the second and fourth diodes are connected respectively to the cathodes of the second and first Zener diodes, and the first trigger input is connected through the tenth resistor (L common bus. 2. The bridge ternary trigger containing the first, second, third, and fourth reverse-conducting transistors, the emitters of which are connected to a common length, the bases of the first and second transistors are connected to the first input, and the common through the first and second resistors are connected to the bases of the fifth and second for the reverse transistor transistors, collectors of the first and second transistors and anodes of the first and second zener diodes, the cathodes of which are connected respectively to the first terminals of the third and fourth resistor The third and fourth transistors are connected to the second and third inputs, respectively, and through the fifth and sixth resistors, respectively, are connected to the common busbar, the seventh and eighth direct transistors, the bases of which are connected respectively to the cathodes of the third and fourth zener diodes and through the seventh and eighth resistors are connected to the power bus, characterized in that, in order to expand the area

Description

In this case, the ninth and tenth reverse-transistors, the eleventh and twelfth direct-conductors and two resistors, the emitters of the ninth and tenth transistors are connected to the common bus, and through the ninth and tenth resistors are connected to the bases of the ninth and the tenth transistors and to the emitters of the fifth and sixth transistors, the collectors of the ninth and tenth transistors are connected respectively to the first and second outputs of the trigger and respectively to the collectors of the eleventh and twelve transistors.

the emitters of which are connected to the power bus and, respectively, through the eleventh and twelfth resistors are connected to their bases and respectively to the emitters of the seventh and eighth transistors, whose collectors are connected respectively to the second terminals of the third and fourth resistors, the first trigger input through the thirteenth resistor connected to a common bus, and the cathodes of the first and second zener diodes are connected respectively to the collectors of the sixth and fifth transistors.

The invention relates to a pulse technique and can be used in various automation devices, telemechanics and computer technology. A known bridge trigger is made on four transistors of different types of conductivity 1. A disadvantage of the known bridge trigger is that it has only two stable states, therefore current always flows in the load. In addition, at the moments of switching the trigger, there are "through currents through open transistors, which reduces the efficiency and reliability of the trigger. The closest to the technical essence of the proposed is a bridge ternary trigger containing the first, second, third, fourth, fifth and sixth transistors of reverse conduction, the emitters of which are connected to the common bus, the base of the first and second transistors are connected to the first input, the common bus through the first and second resistors are connected respectively to the bases of the third and fourth transistors, the collectors of the first and second transistors, the anodes of the first and second zener diodes, the cathodes of which are connected respectively to the first pins of the third and fourth resistors, the base of the fifth and sixth transistors and through the fifth and sixth resistors are connected to the common bus, the seventh and eighth direct-conducting transistors, the emitters of which are connected to the power bus and through the seventh and eighth resistors are connected to their bases and the cathodes of the seventh and eighth stabilizers, respectively; the collectors of the third and fourth transistors are connected to the first and second outputs of the flip-flops; the second terminals of the third and fourth resistors are connected respectively to the collector The fifth and sixth transistors and through the ninth and tenth resistors - with the first and second trigger outputs and collectors of the seventh and eighth transistors, the anodes of the third and fourth zener diodes are connected respectively to the anode of the first and second zener diodes, and the first output of the trigger through the eleventh resistor is connected with the second output of trigger 2. A disadvantage of the known bridge ternary trigger is a narrow field of application, since when an asymmetric load is connected, the trigger has two stable states. The purpose of the invention is to expand the scope. To achieve this goal, a bridge ternary trigger containing the first, second, third, fourth, fifth, and sixth reverse transistors, the emitters of which are connected to a common bus, the bases of the first and second transistors are connected to the first input, the total through the first and second resistors connected respectively to the bases of the third and fourth transistors, the collectors of the first and second transistors, the anodes of the first and second zener diodes, the cathodes of which are connected respectively to the first terminals of the third and even The resistors, the bases of the fifth and sixth transistors are connected to the second and third inputs of the trigger, respectively, and through the fifth and sixth resistors are connected to the common bus, the seventh and eighth direct conduction transistors, the emitters of which are connected to the power bus, and through the seventh and eighth resistors are connected to their own

the bases and cathodes of the third and fourth stabilizers respectively, the collectors of the third and fourth transistors are connected respectively to the first and second outputs of the trigger, eight diodes are introduced, the collectors of the third and fourth transistors are connected respectively to the cathodes of the first and second, third and fourth diodes, the anodes of the first and third the diodes are connected respectively to the third and fourth outputs of the trigger and the cathodes of the fifth and sixth diodes, the anodes of which are connected respectively to the fifth and sixth outputs of the trigger Pa and with collectors of the seventh and eighth transistors and respectively with the anodes of the seventh and eighth diodes, the cathodes of which are connected respectively with the anodes of the fourth and third zener diodes, with the second terminals of the fourth and third resistors, the first terminals of which are connected to the collectors of the sixth and fifth transistors, respectively, anodes the second and fourth diodes are connected respectively to the cathodes of the second and first zener diodes, and the first trigger input through the tenth resistor is connected to the common bus. According to the second variant, in the bridge ternary trigger, containing the first, second, third and fourth reverse-conducting transistors, the emitters of which are connected to the common bus, the bases of the first and second transistors are connected to the first input, the common bus is connected through the first and second resistors with bases of the fifth and sixth reverse transistor transistors, collectors of the first and second transistors, anodes of the first and second zener diodes, the cathodes of which are connected respectively to the first terminals of the third and fourth The resistors, the bases of the third and third transistors are connected to the second and third inputs respectively and through the fifth and sixth respectively resistors are connected to the common bus, the seventh and eighth direct transistors, the bases of which are connected respectively to the cathodes of the third and fourth zener diodes and through the seventh and The eighth resistors are connected to the power bus, the ninth and tenth reverse transistors, the eleventh and twelfth direct transistors and two resistors, the ninth emitters are introduced. the first and ten transistors are connected to the common bus and through the ninth and tenth resistors are connected respectively to the bases of the ninth and tenth transistors and to the emitters of the fifth and sixth transistors, the collectors of the ninth and tenth transistors are connected respectively to the first and second outputs trigger and respectively with collectors of the eleventh and twelfth transistors, the emitters of which are connected to the power bus and respectively through the eleventh and twelfth resistors are connected to their bases and respectively to the emit The frame of the seventh and eighth transistors, the collectors 5 of which are connected respectively to the second terminals of the third and fourth resistors, the anodes of the fourth and third zener diodes, the first trigger input through the thirteenth resistor is connected to the common bus, and the cathodes of the first and second stabilitrons are connected respectively to the collectors of the sixth and p addition transistors. FIG. 1 shows a circuit diagram of a bridge ternary trigger according to the first embodiment; on

5 of FIG. 2 is an electrical circuit diagram of a bridge ternary trigger according to the second embodiment.

The bridge ternary trigger shown in FIG. 1, contains six inverse conduction transistors 1-6, seventh and eighth transistors of direct conductivity 7 and 8, four Zener diodes 9-12, eight diodes 13-20, nine resistors 21-29, six outputs 30-35, three inputs 36 -38 to the trigger can be connected

5 in any combination of load 39-43, the emitters of transistors 1-6 are connected to a common bus, the bases of transistors 2 and 5 are connected to input 36 and connected to a common bus through a resistor 24, which is connected through resistors 23 and 29 respectively

0 with bases of transistors 1 and 6, collectors of transistors 2 and 5, anodes of Zener diodes 10 and 12, the cathodes of which are connected respectively to the first terminals of resistors 22 and 28, the anodes of diodes 18 and 16, collectors of transistors 3 and 4, the bases of which are connected respectively to the inputs 37 and 38 and through resistors 25 and 26, respectively, are connected to the common bus, collectors of transistors 1 and 6 are connected respectively to cathodes of diodes 14 and 16

20 and 18 and the outputs 32 and 35, the anodes of the diodes 14 and 20 are connected respectively to the outputs 31 and 34 and the cathodes of the diodes 13 and 19, the anodes of which are connected respectively to the outputs 30 and 33, to the anodes of the diodes 15 and 17, to the collectors of transistors 7 and 8, the emitters of which are connected to the power bus 44 and through resistors 21 and 27 are connected to their bases and respectively to the cathodes of the Zener diodes 9 and 11, the anodes of which are connected respectively to the cathodes of the diodes 17 and 15, to the second terminals of the resistors 22 and 28. To the bridge three-way trigger it is possible to connect both symmetric load 41 and asymmetrical loads 39, 40, 42, 43.

The bridge ternary trigger shown in FIG. 2, contains six inverse conductive transistors 1-6, the seventh and eighth direct transistors 7

and 8, four Zener diodes 9-12, resistors 21-29, outputs 30 and 31, inputs 36-38 to the trigger can be connected in any combination of loads, shown as resistors 39-43, the trigger additionally contains the ninth and tenth reverse transistors 45 and 46, eleventh and twelfth direct transistors 47 and 48 and resistors 49-52, emitters of transistors 2-5 are connected to a common bus, bases of transistors 2 and 5 are connected to input 36 and through a resistor 24 are connected to a common bus bus, which through resistors 23 and 29 is connected respectively to the bases of the transistor 1 and 6, collectors of transistors 2 and 5 and anodes of Zener diodes 10 and 12, the cathodes of which are connected respectively to the first terminals of resistors 28 and 22, collectors of transistors 3 and 4, the bases of which are connected respectively to the inputs 37 and 38 and through resistors 25 and 26 respectively connected to a common bus, which through resistors 50 and 52 is connected respectively to the bases of transistors 45 and 46 and emitters of trans-, resistors 1 and 6, collectors of transistors 45 and 46 are connected respectively to outputs 30 and 31, collectors of transistors 47 and 48, emitters which connect These are connected to the power supply 44 and, respectively, through resistors 49 and 51 to their bases and respectively to the emitters of transistors 7 and 8, the collectors of which are connected respectively to the second terminals of resistors 28 and 22, the anodes of Zener diodes 11 and 9, the cathodes of which are connected respectively to the bases of transistors 8 and 7 and through resistors 27 and 2 are connected to the power bus 44.

It is possible to connect to the bridge trigger both symmetrical loads 41, and asymmetrical loads 39, 40, 42, 43.

The bridge ternary trigger (Fig. 1) works as follows.

When the power is turned on, all transistors are closed, since the sum of the breakdown voltages, respectively, 9, 10 and 11, 12 Zener diodes is greater, the supply voltages and the base currents of transistors 1, 6, 7, 8 are zero. This baseline is stable.

If all five loads are connected to the trigger, then outputs 32 and 35 have high potentials, outputs 30 and 33 have low potentials, and there is no current in the loads.

If a positive pulse is applied to the input 37, the transistor 3 opens, the potential on its collector decreases to zero, current flows through the resistor 22, the zener diode 9 and the base of the transistor 7, the latter opens, which leads to breakdown of the zener diode 12 and the occurrence of current through the diode 15, resistor 28, zener diode

12 and the base of the transistor 6, which also opens.

After the end of the pulse at the input 37, the transistor 7 is held in the open 5 state by the current through the open transistor 6, the diode 18, the resistor 22, the Zener diode 9. This state is also stable. At outputs 30-32 - high, and at outputs 33, 34, 35 - low potentials. In loads 40-42 currents flow.

If at this point in time a positive pulse is applied to input 38, transistor 4 opens, the potential at its collector begins to decrease, which leads to a decrease in current through the zener diode

5 12 and its closing, therefore, to the closing of the transistor 6. Further reduction of the potential at the collector of transistor 4 leads to the breakdown of the Zener diode 11, the occurrence of current through the resistor 28 and therefore to the opening of the transistor

0 8. Closing the transistor 6 leads to a reduction to zero of the current through the diode 18, the resistor 22, the Zener diode 9, the transistor 7 closes, and the opening of the transistor 8 causes a current through the diode 17,

5, resistor 22, zener diode 10, which leads to the opening of transistor 1 and the transition of the trigger to the third steady state.

At outputs 30-32 - low, and at outputs 33-35 - high potentials, in loads 39, 41 and 43 currents flow, in load 41 the current changes direction to the opposite.

If a positive pulse is applied to input 36, then one of the transistors 1 or 6, which is in the open state, is closed, because the current of its base is bridged, which causes the transistors 8 or 7 to close, as the current in its base and the trigger disappears returns to its original steady state. Thus, by applying pulses to

inputs 36-38 can sequentially transfer the trigger to any of the three states regardless of the previous state; switching on one of the loads 39-43, as well as any combination thereof, does not affect the state of the trigger, ensuring all five loads are separated from each other. friend

Bridge ternary trigger (Fig. 2) works as follows.

When the power is turned on, all transistors are closed, since the sum of the breakdown voltages, respectively, 10, 9 and 12, 11 Zener diodes is greater than the supply voltage and the base currents of transistors 1, 6, 45-48 are zero. This baseline is stable.

If a positive pulse is applied to the input 37, the transistor 3 opens, the potential at its collector decreases to zero, current flows through the resistor 22, the zener diode 9 and the bases of the transistors 7 and 47. The latter open, which leads to breakdown of the Zener diode 12 and the occurrence of current through the resistor 28 , the zener diode 12 and the base of the transistor 6, which also opens and causes the opening of the transistor 8. After the end of the pulse at the input 37, the transistor 47 is held in the open state by current through the open transistor 6, resistor 22, Zener diode 9 and open the ramistor 7. This trigger value is also stable. At exit 30, high, and at exit 31, low potentials. If at this point in time a pulse is applied to input 38, then transistor 4 opens, the potential at its collector begins to decrease, which leads to a decrease in current through Zener diode 12 and its closing, consequently, closing of transistors 6, 46. A further decrease in potential at the collector transistor 4 leads to breakdown of the Zener diode 11, the occurrence of current through the resistor 28, and therefore, the opening of the transistor 8, as well as the transistor 48. Closing the transistor 6 leads to a decrease to zero current through the resistor 22, Zener diode 9, the tori 7, 47 are closed, and the opening of the transistors 8, 48 leads to the occurrence of a current through the resistor 22 and the zener diode 10, which will lead to the opening of the transistors 1, 45 and the trigger to the third steady state. At the exit 30 - low, and at the exit 31 - high potentials. If a positive pulse is applied to input 36, then one of the transistors 1 or 6, which is in the open state, is closed, because the current of its base is bridged, and also the transistors 7 or 8 are closed. Closing of the transistors 1 or 6 leads to the closing of the transistors 7 or 8, since the current in its base disappears, transistors 47 or 48 also close, and the trigger returns to its original steady state. Thus, by applying pulses to the inputs 36-38, it is possible to sequentially transfer the trigger to any of the three states regardless of the previous state. Switching one to loads 39-43, as well as any combination thereof, does not affect the state of the trigger. The technical and economic effect of using the proposed devices is achieved by expanding the area of their application.

Claims (2)

1. A bridge ternary trigger containing the first, second, third, fourth fifth and sixth reverse conductivity transistors, the emitters of which are connected to a common bus, the bases of the first and second transistors are connected to the first input, the common bus through the first and second resistors is connected respectively to the bases of the third and the fourth transistors, collectors of the first and second transistors, anodes of the first and second zener diodes, the cathodes of which are connected respectively to the first terminals of the third and fourth resistors, the base of the fifth and sixth of the transistors are connected respectively to the second and third inputs of the trigger and through the fifth and sixth resistors are connected to a common bus, the seventh and eighth direct-current transistors, the emitters of which are connected to the power bus and through the seventh and eighth resistors are connected to their bases and cathodes, respectively, of the third and fourth Zener diodes, collectors of the third and fourth transistors are connected to the first and second outputs of the trigger, characterized in that, in order to expand the scope, eight diodes are inserted into it, the count the lecturers of the third and fourth transistors are connected respectively to the cathodes of the first and second, third and fourth diodes, the anodes of the first and third diodes are connected respectively to the third and fourth outputs of the trigger and the cathodes of the fifth and sixth diodes, the anodes of which are connected respectively to the fifth and sixth outputs of the trigger and collectors of the seventh and eighth transistors and, respectively, with the anodes of the seventh and eighth diodes, the cathodes of which are connected respectively to the anodes of the fourth and third zener diodes, with the second the conclusions of the fourth and third resistors, the first conclusions of which are connected to the collectors of the sixth and fifth transistors, respectively, the anodes of the second and fourth diodes are connected respectively to the cathodes of the second and first zener diodes, and the first input of the trigger through the tenth resistor is connected ~ to a common bus. 2. Bridge ternary trigger, containing the first, second, third and fourth reverse conductivity transistors, the emitters of which are connected to a common bus, the bases of the first and second transistors are connected to the first input, the common bus through the first and second resistors is connected respectively to the bases of the fifth and sixth transistors reverse conductivity, collectors of the first and second transistors and anodes of the first and second zener diodes, the cathodes of which are connected respectively to the first terminals of the third and fourth resistors, the base of the third and the fourth transistors are connected respectively to the second and third inputs and through the fifth and sixth resistors respectively are connected to a common bus, the seventh and eighth direct-current transistors, the bases of which are connected respectively to the cathodes of the third and fourth zener diodes and are connected to the power bus through the seventh and eighth resistors, characterized in that, in order to expand the range of application of SU .. „1150735, the ninth and tenth reverse conductivity transistors, the eleventh and twelfth direct transistors are introduced into it of conductivity and two resistors, emitters of the ninth and tenth transistors are connected to a common bus and through the ninth and tenth resistors are connected respectively to the bases of the ninth and tenth transistors and to emitters of the fifth and sixth transistors, the collectors of the ninth and tenth transistors are connected respectively to the first and second outputs of the trigger and respectively, with the collectors of the eleventh and twelfth transistors, the emitters of which are connected to the power bus and, respectively, through the eleventh and twelfth resistors are connected their bases and, respectively, to the emitters of the seventh and eighth transistors, the collectors of which are connected respectively to the second terminals of the third and fourth resistors, anodes of the fourth and third zener diodes, the first trigger input through the thirteenth resistor is connected to a common bus, and the cathodes of the first and second zener diodes are connected respectively to the collectors sixth and fifth transistors.