SU813686A1 - Rc-filter - Google Patents

Description

(54) RC FILTER

Claims (1)

The invention relates to radio engineering and can be used in frequency but-selective systems, for example, in generators. Known YAS-filter containing a capacitive circuit consisting of serially connected first, second and third capacitors, two resistive circuits, each of which consists of two series-connected resistors, with the first resistive circuit connected in parallel with the capacitive circuit, the second parallel to its second capacitor and the connection point of the resistors of the second resist circuit is connected to the common bus L1. However, such a filter does not provide a constant attenuation in a wide frequency range. The purpose of the invention is to provide a constant attenuation in a wide frequency range. To achieve this goal, a YS filter contains a capacitive circuit consisting of series-connected first, second, and third capacitors, two resistive circuits each of which consists of two n-connected resistors, the first resistive circuit being connected in parallel to the capacitive circuit, the second parallel to its second circuit. the capacitor, and the connection point of the resistors of the second resistive circuit is connected to the common bus, parallel to the second capacitor of the capacitive circuit, an additional capacitive circuit is inserted, consisting two series-connected capacitors point compound, which is connected to the junction of the first resistor circuit resistors. FIG. 1 shows an electrical schematic diagram of the proposed device; in fig. .2 - plots of the generalized frequency of self-. excitation (7c.) and gain (Ku) of the amplifier from the asymmetry coefficient or filter tuning (n). The DC filter contains the first capacitive circuit consisting of the first, second and third capacitors 1-3, the first resistive circuit consisting of the first and second resistors 4 and 5, the second resistive circuit consisting of the third and fourth resistors 6 and 7 The second capacitive circuit, consisting of fourth and fifth capacitors 8 and 9. The device operates as follows: Ac-Filter operates according to the principle of zero circuits, phasing the voltage From the expression of the transfer function. An 8C-filter after extracting the imaginary and real parts, one can derive the equations for the generalized self-excitation frequency 7 c- and the amplification coefficient of the amplifier K needed for self-excitation of the amplifier K, the value of which is uniquely determined by the attenuation characteristic of the aVlb / b) filter ) 7 + - (biCi2t6ii-l) 3Q.,) I;) - Q2 Ky-H-Ml i-bi jVait 1 where. (-iH) tptji- | Ji7Xi "l ((-n) 3f2 (A + -jbiJb2) (-l) bj. (- in) ocht / bif -) - Hc. () tu: 2 {p + p2) ( ) "- t-2o {p-, H-nc ((+ n)" ip,. (+ -Tfi4 and -r-пpr -I-i) p2}, C i. (Y;. M -OC Rk R ((:) fJ -RCi C5C4 C5 + Rj is the total resistance of resistor 4 and R is the total resistance of resistors 6 RR + R. nR + (1 -n) RR T. e. Does not depend on n. And Ry- resistor b and 7, respectively; C is the capacitance of the capacitors 1. In this case, C, C2 – Cz, the capacitance of the capacitor 8, C5 is the capacitance of capacitor 9. 2 the graphs (curves I, P W) of dependencies and Cu o n are plotted for the known C filter (curves), and constructed based on the equations for the proposed filter, using By looking at the T curves, it is obvious that, starting from the value n, 0.5, corresponding to the symmetric filter, with increasing n, the filter attenuation increases, and consequently, the magnitude of the required Q, also increases. n from 0.5 to 0.9, the KY value varies from –125 to –380. Thus, at the output of the device with this filter, the signal is strongly distorted. especially for smaller values of p. The minus lered ky sign indicates a phase rotation at the output of the RC filter with respect to the input by - (H. P curves are plotted for values of 1-0.65: 6.2: ft 0.55 and p, 0.14 From the graphs it can be seen that the damping of the proposed Filter remains constant over a wide frequency range. Based on this filter, you can design both tunable and master (tunable over a wide frequency range) oscillators. In this case, elements with maximum technological tolerances -1-20%. At the same time The frequency drift is about 80%, the value of K y is about -80 and almost does not change over the entire range, and the value of n is 0.9. Claims E, C-Filter containing a capacitive circuit consisting of a series of first, second, and third capacitors in series, two resistive circuits, each consisting of two series-connected resistors, the first resistive circuit connected in parallel to the capacitive circuit, the second in parallel to its second capacitor, and the junction point The second resistive circuit is connected to common power, which is so that, in order to ensure a constant attenuation in a wide frequency range, an additional capacitive circuit is connected parallel to the second capacitor of the capacitive circuit, consisting of two series-connected capacitors, the connection point of which is connected to the connection point of the resistors of the first resistive circuit. Information sources. Note that during examination 1. US Patent No. 3569863, cl. H 03 H 7/08, 1975 (prototype). 0.5 0.8 0 Fig.d