SU828373A1 - Frequency converter - Google Patents

Description

The invention relates to a pulse technique and can be used to convert primary electrophysiological parameters, such as temperature, pneumograms, electrocardiograms and other 5 parameters recorded using the corresponding sensors, into frequency.

Known frequency converters based on triggers with emitter coupling for the formation of rectangular pulses of a certain amplitude from a sinusoidal signal or a signal of another non-rectangular shape [1].

A disadvantage of the known converters is a significant dependence of the frequency of oscillations on the stability of the supply voltage.

Closest to the invention in technical essence is a frequency converter containing a symmetrical 20 multivibrator, to the control inputs of which a signal is fed through amplifiers [2]. Its disadvantage is the low stability of the frequency of modulated oscillations when the supply voltage 25 is changed.

The aim of the invention is to increase the stability of the frequency.

This goal is achieved by the fact that a differential amplifier, two transistors and two resistors are introduced into the frequency converter containing the .30 amplifier and multivibrator, the first input of the differential amplifier connected to the input bus, the second input through one of the resistors connected to the emitters of the transistors, which the second resistor is connected to the power bus, the output of the differential amplifier is connected through the amplifier to the bases of transistors, the collectors of which are connected respectively to the inputs of the multivibrator.

The drawing shows a circuit diagram of a converter.

The frequency converter consists of a differential amplifier 1, the unbalanced output of which is connected to the input of the amplifier 2; a symmetric multivibrator 3, to the control inputs of which collectors of bipolar transistors are connected, the bases of the transistors are interconnected and connected to the output of amplifier 2, and the emitters are connected through a resistor 4 to the non-inverting input of differential amplifier 1; the inverting input of the latter is the control; the emitters of bipolar transistors are also connected through a resistor 5 to the power bus.

Yreobrazuyatel works as follows.

The low-frequency modulating input signal is fed to the inverting input of the differential amplifier 1, from its output the signal goes to a single-cycle inverting amplifier 2, the output of which is connected to the base of transistors 6 and 7, which play the role of controlled sources of stable current. The emitters of transistors 6 and 7 are interconnected and through a resistor 5 are connected to the power bus. Thus, a modulating input signal is fed to the bases of bipolar transistors 6 and 7, which is repeated on resistor 5. From resistor 5, the signal is fed to the non-inverting input of differential amplifier 1 — the negative feedback circuit for the modulating signal is closed, which allows a stable linear conversion of the output signal to collector currents of transistors 6 and 7, controlling the overcharge of collector-base capacities in a multivibrator 3.

In addition, this feedback loop provides positive feedback when switching the multivibrator. When the transistor 8 is turned on, the collector potential of the bipolar transistor 6 will change abruptly from + E _p to a certain voltage + Ep <(7 <+ 2Ek, which leads to the appearance of a positive pulse on the resistor 5, which through the feedback circuit enters the bases of transistors 6 and in the opposite polarity AND PRIVO leads to an even greater increase in voltage at the collector of transistor 6 and, therefore, based on transistor 7.

The frequency converter allows you to get a stable frequency when changing the supply voltage.

Claims (1)

Claim A frequency converter containing an amplifier and a multivibrator, which is due to the fact that, in order to increase frequency stability, a differential divider, two transistors and two resistors are introduced into it, the input of the differential amplifier is connected to the input bus, the second input is through one of the resistors are connected to the emitters of the transistors, which are connected via the second resistor to the power bus, the output of the differential amplifier is connected via an amplifier to the bases of the transistors, whose collectors are connected respectively to the input multivibrator.