SU1072242A1 - Rs-generator - Google Patents

Abstract

The RC GENERATOR containing the first and second operational amplifiers with negative feedback, the inverting inputs of which are combined (and also the third operational amplifier and the resistive voltage divider), the outputs of the first operational amplifier with negative feedback and the third operational amplifier are connected to s inverting the input of the second operational amplifier with negative feedback through a RC-link and in order to reduce the level of harmonics, the outputs of the first and second p negative feedback feedback amplifiers are connected via an input resistive adder to the inverter input to the third opera- tion. ZIONNOG.O amplifier, and a resistive voltage divider is connected between the output of the third operational amplifier and the non-inverting input of the first O). The operational amplifier and negative feedback.

Description

The invention relates to radio engineering and is intended to generate harmonic oscillations of low and infra-low frequencies. A known Rc-generator, containing an operational amplifier, a frequency-dependent tone feedback circuit, made in the form of a resistive voltage divider, and a frequency-dependent negative feedback circuit, made in the form of a T-bridge with two RC-links tl3. The disadvantages of this R e-generator include the frequency instability due to the (ai | anichenny bandwidth of the control system, as well as a small degree of harmonic suppression. The closest to the proposed is an RC generator containing the first and second operational amplifiers with negative feedback, the inverting inputs of which are combined, as well as the third operational amplifier into the resistive divider on the yarn, while the codes of the first operational amplifier with negative feedback and the third operational amplifier connected to the non-inverting input of the second operational amplifier with negative feedback through the RC link, another RC-link between the output of the third operational amplifier and the non-inverting input of the first operational amplifier with negative feedback, and a resistive voltage divider connected between, output and inverting input of the third operational amplifier. However, the well-known RC generator does not have a sufficiently high degree of suppression of higher harmonic components. The purpose of the invention is to reduce the harmonic level. The goal is achieved by the fact that the RC generator contains the first - the second operational amplifiers with negative feedback, the inverting inputs of which are combined, as well as the third operational amplifier and the resistive voltage divider, and the outputs of the first operational amplifier with negative feedback connection and the third operational amplifier are connected to the non-inverting input of the second operational amplifier with negative feedback through the RC link, the outputs of the first and second operational amplifiers with negative tion feedback connected through resistive inputted to the adder invertiruyusche mu yhodu third operational .usilitel and reeistivny voltage divider connected between the output of the third operational amplifier and the noninverting input of the first operational amplifiers with negative feedback. The drawing shows the structural electrical circuit of the proposed LS-generator Rc-generator contains the first and second operational amplifiers 1 and 2 with negative feedback, the third operational amplifier 3, resistive voltage divider 4, ftC-link 5 and the resistive adder 6. The first and the second operational, amplifiers 1 and 2 include a capacitor 7 and a resistor 8 negative feedback, respectively. Resistive voltage divider 4 contains resistors 9 and 10, RC-link 5 - capacitor 11 and resistor 12, and the resistive adder b - resistors 13 and 14. The RC generator operates as follows. IF the positive feedback circuit's transfer ratio exceeds the negative feedback circuit's transfer ratio, oscillations close to sinusoidal form occur at the tuning frequency. At frequencies other than the tuning frequency, the negative feedback transfer ratio of the positive feedback circuit and, therefore, the second and higher harmonic components will be suppressed, and the harmonic level will be reduced. The generation frequency of the proposed C-generator is determined by the expression of the UMG time constant, .C ,, C K, K - transfer coefficients + R "Rg, R $, R-, u, Rrf4,% and - resistance of resistors 8.9, 10 , 12.13 and 14; C-, and C "are capacitors 7 and 11. The amplitude balance condition is written in the form of k, y, (.. k, -k, to l-Nc. De tP, V rp" 6fr "6 JW, operational gain amplifier 3; d gsa - losses in capacitors C. and C gr is the limiting frequency of operational amplifiers 1, 2 and 3. If K2 is 1 and 1, then. Since usually s, e, then the coefficient K, is also small, the degree of suppression the harmonic components for tsih are determined by the modulus of the recurrent difference F at the frequency H1-th harmonic, () | where n 2, 3, 4, 5.. With n 2,3,4,5 and K 0,5 (then K l si ) degree of suppression of the second, third, fourth and fifth armonic is equal respectively: 1.5.4 4 8, / U. and 12. jU. In L s-gönerator-prototype, the degree of suppression of these harmonics is respectively equal to: 1.21, 1, 4 and 5 / u. Thus, the proposed The RC generator of harmonic oscillations has a degree of suppression of the second, third, fourth and fifth ha of the tonic components, respectively, by 1.3; 2.5; 2 and 2.4 times greater than in the prototype, Kpcwie, it has a high amplitude stability dy due to the low sensitivity of the amplitude balance to the scattering pa | items of items. The proposed JC generator, in comparison with prototypes, is characterized by higher quality indicators with similar elements used, while its cost does not increase.

Claims (1)

RC-GENERATOR, containing the first and second negative feedback operational amplifiers, the inverting inputs of which are combined, as well as the third operational amplifier and resistive voltage divider, the outputs of the first negative feedback operational amplifier and the third operational amplifier · connected to non-inverting input of the second operational amplifier with negative feedback through the RC-link; This is due to the fact that, in order to reduce the level of harmonics,. the outputs of the first and second operational amplifiers with negative feedback are connected through the introduced resistive adder to the inverting input of the third operational amplifier, and the resistive voltage divider is connected between the output of the third operational amplifier and the body and the non-inverting input of ^l-negative operational amplifier feedback. g