SU917306A1 - Flip-flop - Google Patents

Description

(5) TRIGGER

one

The invention relates to a pulse technique and can be used in various electronic devices of automation, telemechanics and computer technology as, for example, a pulse counter, a pulse frequency divider.

A known counting trigger, made on four transistors of the same conductivity, contains a main trigger with cross-coupling and two input transistors, the collectors of which are connected to the counting input, the emitters are connected to the bases of the main trigger, and the bases through the diodes to the collectors of transistors of the main trigger 1.

The disadvantage of such a counting trigger is low reliability of operation, since it is critical to the duration of the pulses at the counting input.

Known counting trigger performed on six transistors of the same conductivity 121.

However, such a counting trigger has a complex circuit and low reliability, since the operation of the input transistors depends on a significant voltage drop across the diodes — included in the emitter circuit of the main trigger.

The closest to the proposed technical entity is a counting trigger, containing a basic 10 trigger on two transistors with cross-resistance links and an auxiliary input trigger on two transistors with a charge accumulation, the emitter of which is connected

15 with the bases of the transistors of the main trigger, the bases are cross-connected with the collectors and connected via resistors to the counting input 3.

However, this counting trigger

20 has a low reliability of operation, since the processing of the auxiliary input trigger is controlled by insignificant re-voltage at the bases of the open and closed transistors of the main trigger. The purpose of the invention is to increase the reliability of the trigger. This goal is achieved by the fact that in a trigger containing four transistors of the same conductivity and six resistors, the emitters of the first and second transistors are connected to a common bus, their collectors are respectively connected through the first and second resistors to the power bus, and through the third and fourth resistors are connected respectively to the bases the second and first and to the emitters of the third and fourth transistors, J ohters of the third and fourth transistors, respectively, through the fifth and sixth resistors are connected to the counting input, entered four additional resistors, with the ba for the third transistor through the first and the second additional resistors connected respectively to the collectors of the first and fourth transistors, and the base of the fourth transistor. The third and fourth additional resistors are connected to the collectors of the second and third transistors, respectively. The drawing shows a circuit diagram of a trigger. The trigger contains transistors of the same conductivity and resistors. The trigger has a counting input 15 and outputs 16.17. The trigger is powered from the power bus 18. The emitters of transistors 1 and 2 are connected to a common bus, the base of transistor 1 is connected to the emitter of transistor 3 directly and to the collator of transistor 2 through a resistor 13, the base of transistor 2 is connected to the emitter of transistor C directly and to the collector of transistor 1 through a resistor 7- Transistor collector 1 is connected to output 1b directly, to the power line through a resistor 5 to the base of the transistor 3 through a resistor 6, the collector of the transistor 2 is connected to output 17 directly to the power line to the resistor And, to the base of the transistor black of the resistor 12, the collector of transistor 3 is connected to the base of transistor 11 through resistor k and with a counting input 15 via the resistor 9, the transistor 64 collector connected to the base of transistor 3 via the resistor 8 and to the counting input 15 via a resistor 10. The trigger operates as follows. Suppose that in the initial state the main trigger, made on transistors 1 and 2, is in such a state when transistor 1 is open, and transistor 2 is closed, and at the counting input 15 and output 16 is zero, the potential output 17 high potential. The current that flows through the resistor 12 and the base-emitter transitions of the transistors and 2 must be small and do not switch the main trigger resistors 6 and 12. must be high enough. When a positive pulse arrives at the counting input 15, the auxiliary trigger on transistors 3 and 4 is set in such a position that the transistor is open and the transistor 3 is closed, because transistor k is prepared for opening by the current passing through resistor 12. The emitter current of the transistor opens the transistor 2 main trigger and switches it to the opposite state, i.e. transistor 2 opens and transistor 1 closes. Switching the main trigger does not entail a change in the state of the auxiliary trigger on the transistors 3 and, since the current through the resistor 6 is not enough to switch the auxiliary trigger in steady state. After the end of the input pulse, the transistor closes. When a second positive pulse arrives at the counting input, the auxiliary trigger is set to such a state that transistor 3 is open and transistor k is closed, since transistor 3 is prepared for current through resistor 6 before the second input pulse arrives. The emitter current of the transistor 3 opens the transistor 1 and switches the main trigger to the initial state, and after the end of the input pulse, fpaH3Hc 3 closes. further, the processes in the counting trigger are repeated. Introduction to the scheme of counting trigger additional links basics

Claims (1)

Claim The trigger, "containing four transistors of the same conductivity and is switched on to the counting input, is connected with the fact that, in order to increase the reliability of operation, four additional res are introduced into it. a resistor, and the base of the third transistor through the first and second additional resistors., connected ^ respectively to the collectors of the first and fourth transistors, and the base <0 of the fourth transistor through the third and fourth additional resistors is connected respectively to the collectors of the second and third six resistors, and the emitters of the first and the second transistors are connected to the common bus j their collectors, respectively, through the first and second resistors are connected to the power bus, and through the third and fourth resistors are connected respectively respectively to the bases of the second and first and to the emitters of the third and fourth transistors, the collectors of the third and fourth transistors, respectively, through the fifth and sixth resistors. . transistors