SU744904A1 - Sinusoidal oscillation generator - Google Patents

Description

(54) SINUSOIDAL OSCILLATION GENERATOR The invention relates to radio engineering, namely, to stable generators of sinusoidal oscillations. It can be used in devices, where p is the 5th source of stable alternating voltage, in calibrators of alternating voltages, in measuring generators. A known generator of sinusoidal oscillations, containing an amplifier and an RC bridge switched on on the day of feedback, in one arm of which an adjustable resistance is included, an amplitude detector connected to the output of the amplifier, an adder, connected in series to an AC voltage converter, a block the comparison, to the other input of which the ISTOSHIK OPOR-1 is connected to the voltage, and the integrator LI However, the known generator of sinusoidal oscillations has an insufficiently high stability of the amplitude of the output voltage, since the RC generator for increments of the amplitude of oscillations falls into an inertial link with a sufficiently large time constant, and in steady state the fast fluctuations of the voltage at the output of the amplifier due to the inertia RC the generator is not working. In addition, the known generator has large non-linear distortions. The purpose of the invention is to increase the stability of the amplitude of the output voltage and reduce nonlinear distortion. To do this, a sinusoidal oscillator containing an amplifier and an RC circuit connected to the feedback circuit, in one arm of which an adjustable resistance is included, an amplitude detector connected to the output of the amplifier, an adder, connected in series to an alternating voltage converter to another the input of which is connected to the source of the reference voltage, and the integrator, is introduced a differential amplifier with a negative feedback circuit, the inverting and non-inverting inputs of which are respectively, through the inputted first n second dividers, the voltage is connected to the output of the amplifier, and the output of the differential amplifier is connected to the first input of the adder, the second input of which is connected to the output of the amplifier, and the output of the adder is connected through the input power amplifier to the input of the AC-DC converter, the control inputs of the adjustable resistance and the first voltage divider are connected to the output of the amplitude detector, and the control input of the second voltage divider is connected to the integrator output. The drawing shows a structural electrical circuit of the proposed generator of sinusoidal oscillations. The generator of sinusoidal oscillations contains an amplifier 1, a HC-bridge consisting of capacitors 2 and 3, resistors 4, 5 and 6 and an adjustable resistance 7, an amplitude detector 8, voltage dividers 9 and 10, di 4x |) a real amplifier 11, with a circuit negative feedback 12, adder 13, power amplifier 14, variable voltage to DC converter 15, comparison unit 16, integrator 17 and reference voltage source 18. The generator operates as follows. An amplifier 1 with an EC bridge at the input and a preliminary system for stabilizing the output voltage, including an amplitude detector 8 and a pej-resistance, 7, forms a driving oscillator (SG) that produces sinusoidal oscillations whose amplitude is determined by the resistor ratio 6 and an adjustable resistance 7. This sinusoidal voltage is fed through the adder 13 to the power amplifier 14 and to the signal inputs of the controlled voltage dividers 9 and 10, the division ratio of which depends on the voltage control inputs. With the same voltage coming from the outputs of the amplitude detector 8 and the integrator 17, the signal at the output of the differential amplifier 11 is zero, and the output voltage of the generator is determined by the nominal characteristics of the forward channel. The instability arising in the master gene will lead to the occurrence of matching at the input of the controlled voltage generator 9. Simultaneously, the instability of the output voltage of the generator is processed by the second stabilization loop by comparing the output voltage converted in the converter 15 with the voltage of the reference voltage source 18 in the comparison unit 16. The error signal is fed through the integrator 17 to the control input of the voltage divider 1O. In the steady state, the output voltage of the generator with an accuracy of stabilization error is proportional to the voltage of the source of the reference voltage 18, and the transmission coefficient of the power amplifier 14 is chosen so that the voltage on the input of the differential amplifier 11 is equal to zero. Normally, the stabilization circuit has a significant inertia and not allows you to work out the rapid changes in the oscillation amplitude of the SG. In the proposed stabilizer, the fast fluctuations decrease due to the fact that the local stabilization circuit in the SG is based on the amplitude detector 8, the output voltage of which contains information about amplitude instability for each period. voltage divider 9 instantaneously changes its transmission coefficient so that the output of the differential amplifier 11 produces a voltage equal in amplitude to the increment of the voltage of the SG and peppermint phase. Then, in the adder 13, the instability of the voltage of the MH is compensated. Naturally, for full compensation it is necessary that the change in the voltage HQ of the output di4x |) of the potential amplifier 11 is equal to the increment of the output voltage of the SG due to instability. This is achieved by choosing equal in magnitude and opposite in sign transmission coefficients for the increment of the output voltage of the SG, which is almost easily performed by adjusting the transmission coefficient of the feedback circuit 12. At the same time, with increasing amplitude stability, the non-linear distortions of the output voltage of the generator decrease. This is due to the fact that non-linear distortions introduced by controllable voltage dividers 9 and 10, performed, for example, on

Claims (1)

Claim A sinusoidal oscillator containing an amplifier and included in the RC feedback bridge — a bridge with adjustable resistance in one arm, an amplitude detector connected to the amplifier output, an adder, an AC / DC converter connected in series, and a comparison unit connected to another input of which a reference voltage source, and an integrator, characterized in that, in order to increase the stability of the amplitude of the output voltage and reduce non-linear distortion, a differential A social amplifier with a negative feedback circuit, whose inverting and non-inverting inputs are connected through the first and second voltage dividers to the amplifier output, and the differential amplifier output is connected to the first adder input, the second input of which is connected to the amplifier output, and the adder output is connected through the input power amplifier to the input of the AC to DC converter, while the control inputs are connected to the output of the amplitude detector, and the control input .. the second voltage divider is connected to the output of the integrator. ,