SU746870A1 - Multivibrator - Google Patents

Description

(54) MULTI-VIBRATOR The invention relates to a pulse technique. Known multivibrators are made on triggers with a control circuit that determines the period of oscillation of the multivibrator and can use (for this purpose, thermo-dependent times are given by the elements 1. The multivibrator that includes the trigger with the trigger output divider with heat-sensitive elements included in different shoulders of the divider, and the heater of one-arm thermo-dependent element of the arm is connected to one of the trngger outputs | Sch The disadvantage of such The structure of the system is the effect on the temperature stability of the period of oscillations of the temperature coefficient of resistance of thermodependent elements on temperature and time. The purpose of the invention is to increase the temperature: the period a of oscillations by reducing the influence on the period of oscillation of the environment and the spread of parameters. The goal is achieved by the fact that the thermodependent elements of the control divider are installed in shells equipped with heaters, one of which is connected to the specified output and the other to the inverse ode trigger 5 Functional skhetla multivibrator shown in the drawing. The multivibrator consists of a trigger 1 and a control divider connected to its input on thermo-dependent elements 2 and 3 of indirect heating. Heater 4 one of them is connected to one of the outputs of the trigger. Heater 5 is not involved. Elements 2 and 3 are equipped with shells having heating b and 7 connected to the trigger outputs.

Multivibrator works as follows.

In the half-period of oscillations, when half the trigger 1 is open right, the thermo-dependent element 3, having a negative temperature coefficient, is heated from the preheater 4, as a result of which the voltage at the trigger input (or current at current control) decreases in absolute value.

Tipia determined value of UI of this voltage, corresponding to the trigger threshold, triggers to the state when its left half is open. The cooling of the thermo-dependent element 3 and the increase in absolute value of the voltage at the trigger input to the value corresponding to the second tilting threshold begin, after which the trigger returns to the initial state. The process is then repeated, and so on. When the multivibrator is working in the rear, when the left half of the trigger is open, the casing of the thermal-dependent element 2 is heated, and in half-periods, when the right half of the trigger is open, the casing of the element 3 is heated. Heat is constant; the time of the housing is chosen substantially longer than the constant of the thermo-dependent element itself, and the frequency of oscillations, therefore, the temperature of the housing during the operation of the multivibrator is small.

When the temperature of the medium changes, for example, when it increases, the hddtb of the half-period corresponding to the heating of the element 3 decreases the length of the half-cycle corresponding to the cooling of the element 3, which increases. . This leads to a decrease in the average temperature of the body of element 3 and an increase in the temperature of the body of element 2. As a result, the resistance of element 2 decreases and element 3 increases. In this case, the voltage controlling the trigger is changed in such a way that the driving voltage of the control voltage, due to an increase in the temperature of the medium, is compensated. When lowering

the temperature of the medium stabilizes the period of oscillations in a similar way, but the temperature of the body of the element 3 increases, and the temperature of the body of the element 2 decreases.

the control circuit thermodependent elements can be included in different branches, and the voltage source is excluded. It is possible to use a thermogram element, for example element 2,

with proT1shop6comparable on the sign of temperatures HbHvf coefficient. In this case, both thermal-dependent elements are included in one shoulder of the bridge branch. Between the bridge output and the trigger input can

Comparative devices, such as a diode-regenerative compa- Rotor,:

Formula 3 O brie n i

A multivibrator, including a trigger, to the input of which is connected a control divider voltage output with temperature-dependent elements, including 1 divider in different arms, and a heater, of a thermal-dependent element of one arm connected to one of the trigger outputs, which is In order to increase the stability of the oscillation period of the multivibrator, the thermo dependent elements of the control divider are installed in cases equipped with heaters, one of which is connected to the specified output and the other to the inverse of move the trigger.

Sources of information received in the future during the examination 1. Nikolaevsky I. R. Semiconductor devices in electrical communication equipment, vol. 6, 1970, p. 178-179.

2. USSR author's certificate No. 310361, cl. H 03 K 3/02, 1971 (prototype).

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Claims (1)

25 claims A multivibrator that includes a trigger, to the input of which is connected the output of a control voltage divider with temperature-dependent elements included in different arms of the divider, and a heater of a thermally dependent element of one arm is connected to one of the outputs of the trigger, which In order to increase the stability of the multivibrator oscillation period, the thermally dependent elements of the control divider are installed in cases equipped with heaters, one of which is connected to the specified output, and the other to the inverse trigger output.