SU919052A1 - Actide rc-filler with biquadratic transfer function - Google Patents

Description

(54) ACTIVE CLEAR-FOUR-STRIPS WITH A BJVADRATIC TRANSFER FUNG BY IAY

The invention relates to radio engineering and can be used to implement filter links, amplitude and phase correctors (AK and FK), using) 1x in electronic equipment for various purposes. An active RC quadrupole with a biquadratic transfer function, containing an operational amplifier, non-inverted input of which is known through a resistive divider, is known voltage, and the inverting input through a series-connected first resistor and the first capacitor are connected to the input of the device, the second resistor is switched on between the point of connection of the first resistor and the capacitor and the output of the device, as well as the third resistor connected by one output to the input of the device, and the second capacitor P. However, the known device has a sufficiently stable frequency characteristics and a small dynamic range. The purpose of the invention is to increase the stability of frequency characteristics and the expansion of the dynamic range. To do this, an active RC quadrupole with a biquadratic transfer function contains a 1st operational amplifier, non-inverted input which through the first resistive voltage divider, and an inverting input through the series-connected first resistor and the first capacitor connected to the device input, the second resistor, switch between the point of connection of the first resistor and capacitor and the output of the device, as well as the third resistor connected by one output to the input of the device, and the second capacitor, shows the capacitive and The resistor is 1 voltage dividers, the outlets of which are combined and via the fourth resistor are connected to the common pin, and a capacitive voltage divider is connected between the inverting input of the operational amplifier and the output of the device, and the second resistor of the Keny divider is connected between the input and output of the device, the third the capacitor, including the meddude, the connection point of the first resistor and the capacitor and the input of the device, another output of the third resistor is connected to the connection point of the first resistor and capacitor, the second condenser A capacitor is connected between the input of the device and the tap of the second resistive voltage divider. An electrical principle is given on the chart; device schema. where d is the conductivity of the resistor 2-, the conductivity of the resistor. H-, conductivity of resistor 4j; conductivity of resistor 6; conductivity of resistor 7, conductivity of resistor i 1, conductivity of resistor 12; the conductivity of the resistor 13 is the capacitance of the capacitor 5; C, j is the capacitance of the capacitor 9; Cj - capacitor 14; C / is the capacitance of the fourth capacitor 10, C is the capacitance of the capacitor 8, from which it is easy to see the possibilities of realizing all the functions of the second order, choosing the corresponding parameters of the elements, as well as the possibility of providing higher stability of the frequency characteristics due to the deviation of the parameters of passive elements Because the denominator does not contain differences as in the prototype scheme. In addition, higher stability and dynamic range are provided by a small value of the sensitivity (DD gain (/ t), Indeed, in the case of the implementation of the bandwidth function),

Claims (1)

| I1 g (GT, C4) {PL-15e ..) 4 An active RC quadrupole contains an operative amplifier (OU) 1, the first resistive voltage divider consisting of resistors 2 and 3, the first resistor 4, the first capacitor 5, the second resistor 6, the third resistor 7, the second capacitor 8, a capacitive de-shells voltage, consisting of capacitors 9 and 10, the second resistive voltage divider from resistors I and 2, the fourth resistor 3 and the third capacitor 4. The device works in a southeastern way. The transfer function of the device is described by the following expression: the value will be equal to (, H of the C2 implementation) with the required q of poles. It is necessary to ensure the following ratios of the parameters of the elements: Cj () C; 9fe f-9; 97 () | j9, where Q - good quality. Substituting the corresponding values in (.3), we get Even at (we get n 4g, ,, O. (f that in M is -g-: i- -fold less than in the prototype circuit. As a result, the stability of frequency characteristics and dynamic range The proposed device is not less than 2 times higher than in the prototype circuit. Thus, the introduction of additional elements and connections allows to achieve a significant improvement in quality indicators, in particular, the stability of frequency characteristics and dynamic range of an RC four-way speaker with a biquadratic transfer function.This will make it possible for industrial use to significantly improve both the technical and feasibility characteristics of radioelectronic equipment using the proposed invention due to the unification of installation work (or integrated circuit design), simplifying the process of adjustment and adjustment, which leads to a reduction in the overall labor intensity of manufacturing. and will allow to obtain a significant technical and economic effect. Formula of the invention Active RC-four-tupnik with biquadratic transfer function, with An operational amplifier with a non-inverting input through a first resistive voltage divider, and an inverting input through a series-connected nepKiiA resistor and the first capacitor connected to the device input, the second resistor connected between the point of the first resistor and capacitor and the device output, and the third a resistor connected by one output to the input of the device, and a second capacitor, is different from that in order to increase the stability of the frequency characteristics and expand the dynamic distance Capacitive and second resistive voltage dividers, whose taps are connected, are connected via a fourth resistor to the common bus, the capacitive voltage divider connected between the inverting input of the operational amplifier and the device output, and the second resistive voltage divider between the input and output of the device. , the third capacitor, the 1st switch between the connection point of the first resistor and the capacitor and the input of the device, another output of the third resistor is connected to the connection point of the first resistor The capacitor is connected between the input of the device and the tap of the second resistive voltage divider. Sources of information taken into account in the examination 1. USSR author's certificate according to UK application No. 2021344, cl. H 03 H 7/02, 23.03.79 (prototype).