SU1160542A1 - Multistable flip-flop - Google Patents

Abstract

A MULTI-STABLE TRIGGER containing the first, second, third and fourth transistors of the first conductivity type, the emitters of which are connected to a common Schina, fifth and sixth transistors of the second conductivity type and two resistors, the collectors of the first and second transistors are connected to the emitter of the fifth transistor, the first output and through the first resistor connected to the power bus, the collectors of the third and fourth transistors are connected to the emitter of the sixth transistor, the second output and through the second resistor connected to the power bus, base The first and fourth transistors are connected respectively to the first and second inputs, characterized in that, in order to expand the functionality and reduce power consumption, four resistors and two diodes are introduced, the additional third input being connected via the first and second diodes to the bases of the second and the third transistors, which respectively through the third and fourth resistors are connected to the collectors of the sixth and fifth transistors, the bases of which, respectively, through the fifth and sixth resistors are connected to the number lecturers of the second and third transistors.

Description

The invention relates to a pulse technique and can be used in various automation devices, telemechanics and computer technology.

Known bridge ternary trigger made on transistors of different types of conductivity, zener diodes, resistors 1

The disadvantage of the ternary trigger is complexity.

The closest in technical essence to the present invention is a trigger containing the first, second, third and fourth transistors of the first conductivity type, the emitters of which are connected to a common bus, the fifth and sixth transistors of the second conductivity type, the collectors of the first and second transistors are connected to the emitter p In addition, the first output and through the first resistor are connected to the power bus, the collectors of the third and fourth transistors are connected to the emitter of the sixth transistor, the second output and through the second resistor connected to the power bus, the base of the first and fourth transistors are connected respectively through the seventh and eighth transistors with the first and second inputs 2.

A disadvantage of the known trigger is narrow functionality, as this trigger has two stable states, and a large power consumption, as in any state, power is consumed.

The purpose of the invention is to expand the functional capabilities and reduce the consumed power of a multistable trigger.

This goal is achieved in that a multistable trigger containing the first, second, third and fourth transistors of the first conductivity type, the emitters of which are connected to a common bus, the fifth and sixth transistors of the second conductivity type, and two resistors, are connected to the first the output, the emitter of the pth transistor, and through the first resistor are connected to the power bus, the collectors of the third and fourth transistors are connected to the second output, the emitter of the sixth transistor and through the second resis The torus is connected to the power bus, the bases of the first and fourth transistors are connected respectively to the first and second inputs, four resistors and two diodes are introduced, while the additional third input is connected via the first and second ddods to the bases of the second and third transistors, respectively through the third and fourth the resistors are connected to the collectors of the sixth and fifth transistors, whose bases through the fifth and sixth resistors are connected to the collectors of the second and third transistors, respectively.

The drawing shows a schematic diagram of a multistable trigger.

The multistable trigger contains the first I, second 2, third 3 and fourth 4 transistors of the first conductivity type whose emitters are connected to a common busbar, fifth 5 and sixth 6 transistors of the second conductivity type, the collectors of transistors 1 and 2 are connected to the first output 7, emitter transistor 5 and through the first resistor 8 are connected to the power supply bus 9, the collectors of transistors 3 and 4 are connected to the second output 10, the emitter of the transistor 6 and through the resistor 11 are connected to the power bus 9, the bases of transistors 1 and 4 are connected respectively to the first 12 and sec m 13 inputs, the base of transistors 2 and 3 through diodes 14 and 15 are connected to the third input 16, and through the third 17 and fourth 18 resistors are connected to the collectors of transistors 6 and 5, the bases of which are connected through resistors 19 and 20 to the collectors of transistors 2 and 3 .

Multistable trigger works as follows.

When the power is turned on, all transistors are closed, at the outputs 7 and 10 high potentials. This state of the trigger is stable and can last indefinitely. In this steady state, the trigger consumes almost no energy.

If a positive pulse arrives at input 12, transistor 1 opens, the potential at output 7 decreases to zero, which leads to current through the circuit: power supply bus 9 - resistor 11 - emitter-base junction of transistor 6 - resistor 19. This leads to opening of the transistor 6, the collector current; opens the transistor 2 costly. After the end of the pulse at the input 12, the transistor 1 closes and the transistors 2 and 6 remain in the open

condition. At the exit 7 - low, and at the exit 10 - high potential. This second trigger state is also stable.

If INPUT 13 receives a positive pulse, the transistor 4 opens, which leads to a decrease in potential at output 10 to zero, transistors 6 and 2 close, and transistors 5 and 3 open (the process of turning on transistors 5 and 3 is similar to the described opening process of transistors 6 and 2 ). Transistors 6 and 2 are closed because the decrease in potential at output 10 leads to a decrease in the base current of transistor 6 to zero and it closes, and the disappearance of the collector current of this transistor leads to closing of transistor 2. At output 10 it is set low and at output 7 - high potential. After the end of the pulse on

3 1160542д

the input 13, the transistor 4 is closed, and the trans-Techno-economical effect of the predolistors 5 and 3 remain in the open state of the pushed trigger lies in the expansion. This trigger state is also robust functionality, since

in like the previous two .. the trigger has three steady states and

If the negative-j arrives at the input 16, it can switch to any of the state impulses, then the transistor 3 (or 2) is for-independently of the previous state. It closes, which leads to the shutdown of all advanced functional potential of the resistors and the switching of triggers, in one of the states the trigger is the first steady state, independently otically does not consume energy, that the previous state goes beyond the efficiency of electronic devices.

Claims (1)

MULTI-STABLE TRIGGER, containing the first, second, third and fourth transistors of the first type of conductivity, the emitters of which are connected to a common bus, the fifth and sixth transistors of the second type of conductivity and two resistors, the collectors of the first and second transistors are connected to the emitter of the fifth transistor, the first output and through the first the resistor is connected to the power bus, the collectors of the third and fourth transistors are connected to the emitter of the sixth transistor, the second output and through the second resistor are connected to the power bus, the base is о and the fourth transistor are connected respectively to the first and second inputs, characterized in that, in order to expand the functionality and reduce power consumption, four resistors and two diodes are introduced, while an additional third input is connected through the first and second diodes to the bases of the second and third transistors, which, respectively, through the third and fourth resistors are connected to the collectors of the sixth and fifth transistors, the bases of which, respectively, through the fifth and sixth resistors are connected to the collectors in orogo and third transistors. SU .... 1160542