SU1190497A2 - Device for generating rectangular signal - Google Patents

Abstract

DEVICE FOR THE FORMATION OF A RECTANGULAR FORM SIGNAL by author. St. No. 917368, characterized in that, in order to increase the accuracy of operation in a wide range of input signal frequencies, the first and second differentiating circuits, the first and second keys are inserted into it, the first and second keys connected in series, and the first key connected between the output of the paraphase signal generator and the input of the first additional integrating circuit, and the second differentiating circuit and the second key connected in series are connected between the second output of the paraphase signal generator and the second input An additional integrating circuit, wherein the input of the first differentiating circuit is connected to the control input of the first key, and the input of the second differentiating circuit is connected to the control input of the second key. (L; o o 4 1

Description

The invention relates to a pulse technique, and can be used, for example, to generate a local oscillator signal, in frequency converters, n is an improvement to the device according to the author. St. No. 917368.

The purpose of the invention is to improve the accuracy of operation in a wide frequency range of input signals.

The drawing shows a structural electrical circuit of the device.

The device contains a threshold, adjustable element 1, the input of which is connected to the output of the signal source, a differential amplifier 2 of direct current, integrating circuit 3, and the output of the differential amplifier 2 of direct current through the integrating circuit 3 is connected to the regulating input of the threshold adjustable element 1, driver 4 paraphase signals, the first and second additional integrating circuits 5 and 6, and the input of the imaging device 4 paraphase signals connected to the output of the threshold of the adjustable element 1, and you Odes through the first and second additional integrating circuits 5 and 6 are connected to the inputs of the differential amplifier 2 of direct current, the first and second differentiating circuits 7 and 8, the first and second switches 9 and 10, with the first differentiating circuit 7 and the first switch 9 connected in series between the first output of the former 4 paraphase signals and the input of the first additional integrating circuit 5, and the serially connected second differentiating circuit 8 and the second key 10 are connected between the second output of the former 4 paraphase signals and the input of the second additional integrating circuit 6, and the input of the first differentiating circuit 7 is connected to the control input of the first key 9, the input of the second differentiating circuit 8 to the control input of the second key 10.

The device works as follows.

The input sinusoidal voltage is fed to the input of the threshold adjustable element 1, at the output of which a square wave is formed. The duty cycle of the output pulses of the threshold element 1 depends on its bias voltage. Suppose the bias voltage is positive. In this case, the duration of the positive impulses

at the output of the imager 1 is greater than the value of T / 2, where T is the period of the input signals. Shaper 4 paraphase signals generates a signal at the first output in-phase output signal shaper 4, and at the second output - antiphase. From the outputs of the imaging unit 4, the signals through the circuits 7 and 8 are fed to the inputs of the keys 9 and 10. In this case, the constant component is excluded from the signals, the keys 9 and 10 are controlled by positive pulses from the first and second outputs of the imaging unit 4, respectively. On the capacitors of the chains 5 and b, the amplitudes of the input signals of the keys 9 and 10 are memorized.

g periods of time when they are open. At the outputs of circuits 5 and 6, constant voltages are formed, depending on the duty cycle of the output signals of element 1, and therefore, on its bias voltage, which does not have pulsations, since the constant of the charging time of the capacitances of circuits 5 and 6 can be chosen small value, and the discharge is made through a very large input resistance of the differential amplifier 2, the inputs of which receive signals from the outputs of the circuits 5 and 6.

 Amplifier 2 amplifies the difference in input voltages. The output signal of the amplifier through the integrating circuit 3 is fed to the control input of the threshold element 1, compensating its bias voltage and reducing the duty cycle of its output signals to a value equal to two. Integrating circuit 3 ensures stable operation of the device. As the frequency of the input signal decreases, a slight ripple appears at the output of amplifier 2, due to

the discharge of the capacitances of circuits 5 and 6 through the large resistances of the inputs of amplifier 2 and the private switches 9 and 10. As the input signal frequency increases, the device works normally, as long as the frequency properties of the element base used allow it.

Thus, the proposed device allows the conversion of sinusoidal oscillations into rectangular oscillations, and the result of the conversion does not depend on the bias voltage of the threshold device. At the same time, the frequency range of the input signals when the conversion accuracy is ensured is at least three orders of magnitude larger than that of the known device.

Claims (1)

DEVICE FOR FORMING A SIGNAL OF RECTANGULAR FORM by ed. St. No. 917368, characterized in that, in order to improve accuracy in a wide range of input signal frequencies, the first and second differentiating circuits, the first and second keys are introduced into it, and the first differentiating circuit and the first key are connected in series between the first output of the paraphase signal conditioner and the input of the first additional integrating circuit, and the second differentiating circuit and the second key are connected in series between the second output of the paraphase signal conditioner and the input of the second additional itelnoy integrating circuit, the first input of the differentiating circuit is connected to the control input of the first switch and the second input of the differentiating circuit - to the control input of the second switch.