SU974555A1 - Driven multivibrator - Google Patents

Description

(54) WAITING MULTI VIBRATOR

The invention relates to a pulse technique and can be used in precision measuring transducers frequency-gtok, frequency-voltage.

Known waiting multivibrator with emitter LINK; containing two transistors, time specifying a capacitor and a resistor 1.

The disadvantages of such a standby multivibrator, limiting the area of its application, are very low start-ups of the duration of the pulse being formed and the considerable recovery time.

The closest to the proposed technical essence and the achieved result is a waiting unbalanced multivibrator containing a trigger on transistors of different conductivity types, time specifying a capacitor, a current source providing an almost constant slope of the voltage variation of the time specifying a capacitor, cf. A device that sets the charging voltage for the time of the driving capacitor, the power supply diode in the discharge circuit, the time of the driving capacitor 2.

However, the known pending multivibrator has a number of drawbacks. A stabilitron, which sets the magnitude of the charging voltage, sets the capacitor when a given voltage is reached on the capacitor, works in the microcurrent mode (characterized by significant noise, jiecTa6HnbHOCTbTO voltage test circuit, not guaranteed by temperature co-ri, change pattern voltage and low-turn gradient change circuit sweater change pattern Circuit change. one of the transistors of the trigger,

The ts in series with which the zener diode is connected is also sensitive to changes in the input current and the surrounding temperature in the initial part of the input characteristic. This leads to a significant temperature instability of the duration of the formed pulse, the magnitude of which is difficult to apply to the hypnosis for the input of compensating influences, and

Claims (2)

requires individual temperature tests of each multivibrator for temperature corrections. The presence of a diode in the discharge circuit, the time of the driving capacitor increases the recovery time and also leads to instability of the duration of the generated pulse with a change in the resulting temperature, due to a change in the residual voltage on the capacitor due to a change in the voltage drop across the conductive diode,, increasing the stability of the pulse duration and reducing the recovery time. The goal is achieved by the fact that in the waiting multivibrator containing a trigger on transistors; a different type of driver, the time setting the capacitor, the charging circuit, the time of the soft capacitor, performed on a transistor, a zener diode and a resistor, a time discharge circuit of the driver. the capacitor and the threshold element, whose input is connected to the time of the driving capacitor, and the output to the first input of the trigger, the second input of which is connected to the input bus, occasionally, the second element is designed as a current switch on two transistors and a voltage source, The emitters of the transistor current switch through the resistor are connected to the common bus, the base and collector of the first transistor are connected respectively to the input to the output of the threshold element, the collector of the second transistor is connected through a resistor to the power bus, Abaza ijepev resistor to the common bus and the collector of the reference source transigator, the emitter of which is connected via a resistor to the power supply bus, and the base is connected to the zener diode and to the base of the transistor; the target capacitor has a target The discharge time of the driving capacitor is made in the form of a transistor, the emitter of which is connected to a common busbar, the collector to the time of the driving capacitor and the input of the threshold element, and the base through a resistor to the second input of the trigger. The drawing shows the pr-vshialnaya circuitry of the waiting multivibrator. The circuit contains a trigger on transistors 1 and 2 of different types of conductivity, a diode 3 on the trigger input, another input is connected to the input bus, I set the time; 11W capacitor 4, the discharge time of the driving capacitor 4 on the transistor 5 and resistor 6, the charge circuit Yes, the timing of the capacitor 4 is on the control transistor 7, the resistor 8, the zener 9 and the current-limiting resistor 10, the threshold element consisting of the current switch on the transistors 11, 12 and the resistors 13, 14 and 15 of the reference resistor 16 and the reference voltage source on the regulating transit Stopper 17, the resistor 18, the Zener diode 9 with the limiting resistor too 10. The device operates as follows. In the initial state, the transistors 1, 2 and 5 of the discharge circuit of the discharge time of the pre-capacitor 4 are in the saturation state, the time setting of the capacitor 4, switched on is parallel to the transistor 5, is discharged and the voltage on its plates is different to the voltage the saturation of the transistor 5 is almost zero, the current of the charging circuit, the time of the driving capacitor 4 passes through the saturated transistor 5, the charging current of the driving capacitor 4 and the current through the transistor 17, respectively, are equal to,. 9 - EB-G7 3 - R -; - where Ug is the voltage across the zener diode 9; Ugr-, Ug - voltages at the emitter transitions of transistors 7 and 17; resistances of resistors 8, With characteristics identical; transistors 7 and 17 and equality of resistances of resistors 8 and 18,. Transistor 11 is open, the voltage at its base relative to the common power supply bus, is equal to the reference Ug Z. R The voltage drop across the emitter resistor 13 is equal to Uo -Ugg,. Transistor 13 is closed because the voltage across the AC base relative to the common power line is close to zero. When a pulse is applied to the input of the device, transistor 1 closes, causing the transistor 2 to turn off, in turn. cutting the base transistor 5 through the resistor b, transferring it to the cut-off region, the time the driving capacitor 4 is charged with a constant charging current L 2, and the voltage on the latter increases linearly. When for a time the master capacitor 4 has a voltage equal to the reference UQ (the parameters of transistors 11 and 12 are assumed to be identical), the traistor 12 opens and a current pulse arising in its collector voltage peaks through the diode 3 and opens the common transistor 1 , in turn, of acceleration, the unlocking of transistors 2 and 5. The time setting capacitor 4 is discharged from through the saturated transistor 5. The device comes to its initial state. The duration of the impulse formed by the device is 1b94 -. From this it follows that the pulse duration is determined by the parameters of the passive i elements RC and can have high stability. Thus, the use of a current switch with a detached power source (A voltage reference device having identical characteristics with a charging circuit, the time of the driving capacitor due to the use of a single reference element in the latter, and the execution of the discharge unit the time of the driving capacitor in the form of a transistor switch, voltage the saturation of which practically does not change from the influence of the ambient temperature, provides a high stability of the duration of the formed pulse with changes in the supply voltage, temperature circulating air and aging of components. Claim 1. Standby multivibrator containing a trigger on transistors of different conductivity types, Time setting capacitor, charging circuit time of the driving capacitor, performed on the transistor, zener diode and resistor, discharge circuit of the driving capacitor, and threshold an element whose input is connected to the time setting capacitor, and the output to the first input of the trigger, the second input of which is connected to the input bus, which is consistent with that, in order to exaggerate To reduce the duration and decrease the recovery time, the threshold element is designed as a switch of current bodies on two transistors and a voltage source, the emitters of the current switch transistors are connected via a common bus to the common bus, the base and collector of the first transistor are connected respectively to the input and output of the threshold element , the collector of the second transistor is connected through the resistor to the power supply bar, and the base is connected through a resistor to the common bus and to the collector of the transistor of the source of the reference voltage, the emitter of which through a resistor connected to the power bus and the base is connected to the zener diode and to the base of the transistor circuit charge time of the driving capacitor. 2. Multivibrator according to claim 1, characterized in that, the discharge circuit is the time of the driving capacitor made in the form of a transistor, the emitter of which is connected to the common bus, the collector by the time of the driving capacitor and the input of the threshold element, and the base through the resistor to the second input trigger Sources of information taken into account in the examination 1.Yofeev Yu. N. Osnov pulsed technology. Higher School, 1979, p. 257. 2. USSR author's certificate N9 454671, cl. H 03 K 3/284, 08.16.72. 41 oCk