SU799107A1 - Active rc-filter - Google Patents

Description

The invention relates to electronics and can be used in I information transfer devices.

An active RC filter is known, which contains inverting and non-inverting amplifiers, two resistors and two capacitors, one of the pins of which are combined, and a voltage divider, while the second pins of the first. θ of the resistor and capacitor are connected respectively to the output and input of the non-inverting amplifier [1Ί.

However, the well-known active RC filter has an insufficient value of the quality factors of zeros and poles of the '5 transfer function, which is equivalent to losses in the filter, as well as increased sensitivity to external influences.

The purpose of the invention is to increase the stability of the quality factor of zero and poles of the transfer function, to increase the filter stability, to obtain a delay band in the low frequency region, and also to obtain a confinement band in the high frequency region.

This goal is achieved by the fact that in an active RC filter containing inverting and non-inverting amplifiers, two resistors and 30 two capacitors, one of the conclusions of which are combined, and a voltage divider, while the second conclusions of the first resistor and capacitor are connected respectively to the output and input non-inverting amplifier, a voltage divider is connected between the output of the inverting and the input of the non-inverting amplifiers, and the second outputs of the second resistor and capacitor are connected respectively to the input and output of the inverting amplifier voltage divider is made in the form of two resistors, one of which is connected between the output of the inverting and the input of the non-inverting amplifiers, and the other is between the input of the non-inverting amplifier and the common bus, the voltage divider is made in the form of two resistors, one of which is connected between the inverting output and the input non-inverting amplifiers, and the other between the input and output of a non-inverting amplifier.

In FIG. 1 shows a circuit diagram of an active RC filter with a delay band in the high frequency region; in FIG. 2 - the same, with a delay band in the low frequency region.

The active RC filter contains inverting 1 and non-inverting 2 amplifiers, resistors 3 and 4, capacitors 5 and 6, and a voltage divider 7, containing resistors 8 and 9.

Active RC filter works as follows.

The input signal is inverted by amplifier 1 and fed to the input of non-inverting amplifier 2. In addition, an input signal is input to amplifier 2 through a resistor 8 and capacitors 5 and 6. An active RC filter with a low frequency (LPF) delay band at a certain frequency corresponding to the zero frequency of the transfer Function, inverted and non-inverted signals are compensated at the input of a non-inverting amplifier 2 (Fig. 1). At this point, the output of the filter, i.e. at the output of amplifier 2, there is a maximum signal attenuation. A positive feedback is carried out through resistor 4 and capacitor 6, which determines the quality factor of the poles of the transfer function. The position of the frequency of the transmission zero relative to the cutoff frequency of the filter is determined by the ratio of resistors 8 and 9.

An active RC filter with a delay band in the high-frequency region (HPF) through the resistor 9 carries out positive feedback, which determines the ratio of the cutoff frequency of the filter and the frequency of transmission zero (Fig. 2).

The proposed filter, in comparison with the known one, has increased stability of the quality factor of zero and the poles of the transfer function, and also allows a simple switching of one resistor to obtain a delay band in the region of high or low frequencies.

Claims (3)

The active RC filter contains the investing 1 and non-inverting 2 amplifiers, resistors 3 and 4, capacitors 5 and 6, and voltage divider 7 containing resistors 8 and 9. The active RC filter works in the following way. The input signal is inverted by amplifier 1 and fed to the input of a non-inverting amplifier 2. In addition to the input of amplifier 2, a resistor 8 and capacitors 5 and 6 receive an input signal. In an active RC filter with a delay band in the low frequency range (LPF), the inverted and non-inverted signals are compensated at the input of the non-inverting amplifier 2 at a certain frequency corresponding to the zero frequency of the transfer function (Fig. 1). that is, at the output of amplifier 2, a maximum attenuation of the signal is observed. Through a resistor 4 and a capacitor 6, positive feedback is performed, determining the quality of the poles of the transfer function. The position of the zero transmission frequency relative to the cutoff frequency of the filter is determined by the ratio of resistors 8 and 9. For an active NF filter with a delay band in the high frequency range (HPF), a positive feedback is performed through the resistor 9, which determines the ratio of the cutoff frequency of the filter and zero transmission frequency (FIG. 2). The proposed filter, in comparison with the known, possesses an increased Q-factor stability of the zero and the transfer function poles, and also allows you to simply obtain a delay band in the high or low frequency region by simply switching one resistor. Claim 1. Active RC-filter containing inverting and non-inverting amplifiers, two resistors and two capacitors, one terminals of which are combined, and a voltage divider, while the second terminals of the first resistor and capacitor are respectively connected to the output and input of the non-inverting amplifier, differing from that, in order to improve the stability of the quality factor of the zero and the poles of the transfer function, as well as to increase the resistance of the filter, the voltage divider is connected between the inverting output and the input non-inverting first amplifier and the second terminal of the second resistor and the capacitor are connected respectively to the input and output of the inverting amplifier. 2.RC filter according to claim 1, in order to obtain in order to obtain a delay band in the low frequency region, the voltage divider is made in the form of two resistors, one of which is connected between the output of the inverting and the non-inverting amplifiers and the other is between the input of a non-inverting amplifier and a common bus. 3.RC filter according to claim 1, in order to obtain a delay band in the high frequency region, the voltage divider is made in the form of two resistors, one of which is connected between the output of the inverting and the input of the non-inverting amplifiers, and the other is between the input and the output of a non-inverting amplifier. Priority points: 28.06.78 p.Z. Sources of information taken into account during the examination 1. Zykova ED, Teplyuk I.N. On the implementation of an active RC filter with zero transfer functions. - Radio 1975, t. 30, 4, p. 31-37 equipment (prototype).