SU721899A1 - Flip-flop - Google Patents

Description

one

The invention relates to automation and electronics, in particular to triggers on transistors with resistive: capacitor-collector-base connections.

Symmetric triggers on transistors with accelerating capacitors in the cross collector-base links 1 are known.

The disadvantages of triggers with accelerating capacitors in the cross-collector-base circuits are the low noise immunity of the collector power circuit and the possibility of false positives with sudden load changes.

The closest technical solution to this invention is a trigger obtained by converting a multivibrator on transistors with resistive-capacitor collector-base links, containing direct-biased diodes connected to the collector circuits of the transistors between the collector of the transistor and the resistor of the collector load 2.

The disadvantage of this device is low noise immunity in the collector power supply circuit.

The aim of the invention is to improve the noise immunity of the collector power circuit.

The goal is achieved by the fact that in a trigger on transistors with resistive-capacitor collector-base connections, containing direct-shifted diodes connected to collector circuits of transistors between the collector of the transistor and the resistor of the collector load, each of the coupling capacitors is connected to the junction of the diode and the collector of the transistor and each of the communication resistors is connected to the junction of the diode and the collector load resistor.

The drawing shows a circuit diagram of the proposed trigger.

The trigger consists of two ppp transistors 1 and 2, collector resistors 3 and 4, communication resistors 5 and 6, accelerating capacitors 7 and 8, positive bias supply resistors 9 and 10, diodes II and 12. Load The trigger is conventionally designated as resistors 13 and 14.

Suppose that in the initial state, transistor 1 is closed and transistor 2 is open. The capacitor 7 is charged up to the voltage on the collector of transistor 1, and the capacitor 8 is almost discharged (the voltage on the collector of the open transistor 2 is comparable with the voltage on the base of transistor 1).

Let us analyze the effect of noise on the collector power circuit.

Two cases are possible:

nutritional stress has increased dramatically;

The supply voltage has drastically decreased.

When analyzing these two cases, it is easy to see that in the absence of diodes 11 and 12 (these parts of the circuit should be connected shortly) the following happens.

The first case — an increase in the supply voltage (and the load current) has almost no effect on the magnitude of the voltage drop on the open transistor 2 (provided that there is a margin of saturation and the amount of interference is insufficient to bring the transistor to the linear portion)

At the same time, an increase in the supply voltage (or a decrease in the load current) leads to an increase in the negative potential at the collector of the closed transistor 1, but this cannot lead to a false trigger, since the current of the closed transistor 1 increases slightly and the charge current of the capacitor 7 will only confirm the open state of the transistor 2.

The second case is a decrease in the supply voltage (or an increase in the load current) leads to a decrease in the negative potential at the collector of transistor 1, and, consequently, the discharge current of the capacitor 7 can close the transistor 2 and lead to a false trigger, the capacitor can not change abruptly and therefore the potential at the base of transistor 2 will be positive.

Consequently, a false trigger can only occur if the supply voltage decreases (or the load current increases) in the absence of diodes 11 and 12.

Since diodes 1 and 12 are included in the collector circuits of the transistors, as the supply voltage decreases (or the load current increases), the negative potential at the collector of transistor 1 changes slightly, the discharge of capacitor 7 through the closed diode 11 and the closed transistor 1 will occur slowly, which means There will be no blocking of transistor 2 and false triggering. A quick change in the negative potential at the collector of transistor 1 is possible only when it is opened, and this can occur when applying to the base of the closed in the initial state of transistor 1 a negative start pulse or to the base of transistor 2 - a positive start pulse.

Similar conclusions can be made and

under the condition that in the initial state

transistor 1 is open and transistor 2 is closed.

Thus, as follows from the above description of the operation of the device, the invention provides for improving the noise immunity of a symmetric trigger.

Claims (2)

1. USSR author's certificate number 172559, cl. H 03 K 23/22, 1963. 2. USSR author's certificate No. 171433, cl. OSSK 3/281, 1963 (prototype).