SU1062854A1 - Active rc-filter - Google Patents

Abstract

ACTIVE RC filter containing a non-inverting amplifier, the input of which is connected to the input of the active Rc-filter through serially connected first and second resistors, and through the first capacitor to the common busbar, and also the second capacitor, one output of which is connected to the connection point of the first and second resistors, characterized in that, in order to increase the slope of the slopes of the amplitude-frequency characteristic, a parallel Rc circuit is inserted, connected between the output of the non-inverting amplifier and the output of the active RC filter, and The non-inverting amplifier is connected via an additional series-connected first capacitor, an inverting amplifier, a resistor and a second capacitor to the output of the active RC filter, with the second output of the second g capacitor connected to the output of the AK (Ltcive .Rc filter.

Description

The invention relates to radio engineering and can be used in electric filters whose amplitude-frequency characteristic has a high slope steepness and infinite-decay frequency. An active RC filter is known that contains an operational amplifier in inverting switch, covered by two negative feedback circuits, and two or three aperiodic RC-evens ij. The disadvantage of this active RC filter is the need to amplify a large value when the feedback loop is open, which imposes restrictions on the range of frequencies in which this filter is implemented. The closest to its proposed technical essence is the active RC filter, containing a non-inverting amplifier, the input through a series-connected first and second resistors is connected by the input of an active RC filter, and the first capacitor is connected to a common bus and a second capacitor, one output of which is li ne the point of the connections with the first and second resistors and the other terminal - the non-inverting output of amplifier present 2J, A disadvantage of the known active-RC filter is limited cr Tiznit rays amplitude-frequency characteristics, which may not straight Witzlaus 40 dB per decade. The purpose of the invention is to increase the slope of the slopes of the amplitude-frequency characteristic. The goal is to achieve that the active CA filter containing a non-inverting amplifier, the input of which through the first and second resistors connected in series, is connected to the input of the active Rc filter, and the first capacitor — with a common bus; and a second capacitor, one output of which is connected to the junction of the first and second resistors, is introduced parallel to the CS circuit, connected between the output of the non-inverting amplifier and the output output. a non-inverting amplifier through an additional series-connected first capacitor, an inverting amplifier, a resistor and a second capacitor connected to the output of an active RC filter, the second output of the second capacitor connected to the output of an active (C-filter, the drawing shows an electrical The scheme of the proposed R C-filter. The Active JC filter contains a non-inverting amplifier 1, the first and second resistors 2 and 3, the first and second capacitors 4 and 5, a parallel RC circuit consisting of Sistor 6 and capacitor 7, additional inverting amplifier 8, resistor 9, first and second capacitors 10 and 11, Active COP-FILTER works as follows. The gain of inverting amplifier 8 is set to Kg -2K, where K (the gain of non-inverting amplifier 1, the values of resistors 6 and 9, and capacitors 7 and 11 are chosen from the condition H and b-T: 7 where (Rq, C, C are values resistors 6 and 9 and capacitors 7 and 11, respectively; the angular frequency of the infinite attenuation. Under these conditions, the non-inverting and inverting amplifiers 1 and 8, respectively, together with the circuits form a barrier filter with a Wien bridge, Adding a barrier filter resist 2 and 3 and the capacitors 4 and 5 give the barrier filter a low-pass filter.If the infinite damping frequency of the barrier filter is chosen near the cut-off frequency of the low-pass filter, the resulting amplitude response will have a significant slope. If resistors 2 and 3 are swapped with capacitors 4 and 5, a high pass filter will be obtained, the Condenser 10 will dissociate the inputs of the non-inverting and inverting amplifiers 1 and 8 by DC, which increases the dynamic range Thus, a positive effect is achieved due to a significant increase in the slope of the slope of the amplitude-frequency characteristic of the active i C filter, with a slight complication of the circuit structure. The slope slope of the amplitude-frequency characteristic has almost doubled to 15 dB per octave. In addition, in the operating characteristic of the proposed active (C-filter there is a frequency with attenuation up to 55 dB, and in the known KC filter it is absent. The use of the proposed active RC-filter 3 pa has significantly improved the spectral cleanness of the output signal of frequency synthesizers, which in its 1062854 4 the queue has significantly increased the sensitivity of noise parameters meters.

Claims (1)

ACTIVE RC filter containing a non-inverting amplifier, whose input is in series. the connected first and second resistors are connected to the input of the active Rc filter, and through the first capacitor to the common bus, as well as the second capacitor .'-, one output of which is connected to the connection point of the first and second resistors, which means In order to increase the steepness of the slopes of the amplitude-frequency characteristics, a parallel Rc circuit is introduced, connected between the output of the non-inverting amplifier and the output of the active RC filter, and the input of the non-inverting amplifier through additional first series condensate connected in series , An inverting amplifier, a resistor and a second capacitor connected to the output of the active RC-filter, the second terminal of the second capacitor tg connected to the output of the active Rc-filter, SU. ,,, 106285