SU1205256A1 - Releasing device - Google Patents

Description

I

The invention relates to a pulse technique and can be used in automation equipment and information and computing systems,

 The aim of the invention is to expand the field of use and increase reliability by reducing the number of power sources.

The achievement of the stated objective of the invention is facilitated by the stabilization of the thresholds for triggering and returning the trigger with the help of threshold elements.

The drawing shows the principle electrical circuit of the trigger device.

The release device contains the first 1, second 2 and third 3 transistors, the first 4, the second 5, the third 6 and the fourth 7 resistors, the input bus 8, the output bus 9, the first threshold element 10 (for example, the Zener diode), the second threshold element 11 (for example , zener diode), diode 12.

The first transistor 1 pnp-conductivity, the second transistor 2 ppn-conductivity is connected to the common bus, the base from the emitter of the third transistor 3 pn-p-conduction, the base of which is connected to resistor 4, A resistor 5 is connected between the base of the first transistor 1 and the collector of the second transistor 2. A resistor 7 is connected to the collector of transistor 3, and a resistor 7 is connected to the emitter, the input bus 8 is connected to the emitter of transistor 1J and the collector is connected to the output bus 9, Stabilitron 10 the cathode is connected to the emitter of transistor 1 and ano A second terminal of the resistor 4. The cathode is connected to the collector of transistor 1 and to the anode of the second terminal of resistor 7. The diode 12 is connected to the collector of transistor 1 by the cathode and the second output of the resistor 6 operates as follows.

When the input voltage Ugj on the bus 8, the smaller Uo, | equal to the sum of the voltages - the voltage of the beginning of the conductivity of the threshold element 10 (the voltage of the Zener diode) and the voltage drop between the base of the transistor 3 and the emitter of the trazistor 2 (the voltage of the beginning of the conductivity of two successively

base-emitter junction), transistors 1-3 are locked and Uj ,,, is zero,

In this state, the trigger device does not consume much current, which is an advantage of this device.

At time t, the voltage Ugjj exceeds the value of U ,, is stable, Q ron 10 penetrates through it, the resistor 4 and the base-emitter junction of transistors 3 and 2 current flows, while the transistor 3 is saturated, because the current through its collector in the moment

JJ time t (equal to zero. As soon as a current flows through the emitter of transistor 2, current flows through the collector and the base of transistor 2 begins to flow

2Q through the collector of the transistor 1. This current creates a voltage drop across the load resistance 13, which is applied to the anode of the diode 12. When reaching the output bus

25 9. magnitudes of voltage exceeding the sum of the voltages of the onset of conduction of diode 12 and the voltage of the onset of conduction of the collector-emitter of transistor 3 and the base-emitter of transistor 2 through the collector of transistor 3 a current flows that causes a relaxation process, after which transistor 1 becomes saturated and On bus 8, almost everything is applied to the output bus 9. An avalanche-like process occurs due to the presence of positive feedback through diode 12, resistor 6, emitter-collector of transistor 3, transistor 1 ,

 diode 12, resistor 6, etc.

Thus, at time t, an output impulse 9 is formed with a steep leading edge, whose amplitude is equal to Ug.

 In the following, the voltage repeats the voltage Ugj.

The voltage of the reducibility of the threshold element 11, for example, the voltage of the zener diode is set to a lower conduction voltage of the threshold element 10, and therefore at time t the voltage Ug exceeds the value of the voltages of the zener diode 11 and the voltage drop across the base-emitter junction of transistor 2, therefore a current flows through the base of transistor 2,

thirty

equal to the sum of the emitter currents of the transmitter 3 and the current through the resistor 7.

The resistance value of the resistor 7 is chosen such that the current through it at the voltage Ubji, close to the voltage Uo, is sufficient to keep the transistor 1 in a saturated state. In this connection, if the voltage decreases to a value less than Istz, which leads to the locking of the transistor 3, the transistor 1 will remain in a saturated state due to the current flowing through the resistor 7 to the base of the transistor 2.

At time t, the voltage UB (, |, (sets less than Uoj, so a relaxation process occurs, after which transistor 2 and 3. close and the voltage jumps to zero, i.e., the trailing edge of the output pulse is formed.

The relaxation process is due to a small positive (

feedback through the threshold element 11, the resistor 7, the transistor 2, the resistor 5, the transistor 1, the bus 9, the threshold element 11.

The triggering device triggers again when the voltage Ug exceeds the value U (5, etc.

one . .

Thus, the advantage of the claimed technical solution is to ensure that after triggering the trigger device at the output of the input voltage amplitude, the response thresholds stabilize and the trigger device returns, which are mainly determined by the starting voltage of the conduction thresholds 10 and 11 and depend little with large transistor gains from the parameters of the active elements used, and greater release trigger reliability due to the lack of sources nor to set thresholds.

Claims (1)

A RELEASE DEVICE containing the first, second and third transistors, the collector of the first transistor is connected to the output bus of the device, and the base of the first transistor through the first resistor is connected to the collector of the second transistor, the second and third resistors and the input voltage bus, Furthermore, in order to expand the scope of use, the first and second threshold elements and a diode are additionally introduced, connected by the first output to the output bus and the second output through the second resistor to the collector of the third transistor, the base of the cat through a third resistor and a first threshold element connected in series with the input bus and emitter of the first transistor, the emitter of the third transistor is connected to the base of the second transistor, the emitter of which is connected to the common bus, and the collector of the third transistor through the fourth resistor and second threshold element connected in series with output bus. >