SU430485A1 - ACTIVE FILTER - Google Patents

Description

one

The invention relates to electrical filters and can be used, for example, in communication technology, measurement technology, hydro: bush, automation.

An active filter is known, which contains a series-connected T-shaped RC filter and an operational amplifier (op-amp) e with a resistor in the feedback circuit, in which the T-image of an RC filter is connected to this output via a resistor voltage divider and a capacitor transverse branch - with the output of the OS.

The goal is invented and is to simplify filter setup.

This is achieved by the fact that the output T-image of the RC filter is connected to the non-inverting input of the op-amp, and the input is via a resistor with and another virtual input of the op-amp connected to the resistor of the feedback circuit.

The invention is illustrated in terms of an exemplary scheme.

The proposed filter contains a series-connected T-shaped RC-filter consisting of resistors I, 2 and a capacitor 3, and an operational amplifier with a resistor 5 in the feedback circuit, a resistor divider consisting of resistors 6, 7, a condator 8 and resistor 9. The T-shaped RC filter input is connected to its output through a resistor divider on resistors 6, 7 and capacitor S,

the transverse branch is connected to the output of the operational amplifier 4, the output of the T-shaped RC filter is connected to the non-inverting input of an op-amp, and the input is via a resistor 9 with an inverting input of the op-amp connected to the feedback resistor 5.

The active filter works as follows. The input signal through the resistors 9 and 1, 2, respectively, is fed to the inverting and non-inverting inputs of the op-amp 4. At the output of the op-amp, serving as the output of the device, a difference signal is generated, the value of which depends on the parameters of the op-amp. At low frequencies, where the resistances of the capacitors 5 and S are relatively high, the transmission coefficient for the non-inverting input of an opamp is one more than its transmission coefficient for the inverting input, therefore the resulting signal coincides in phase with

input signal, and its value is equal to the size of the input signal. As the frequency increases, the resistance of the capacitors 5 and S drops, "there comes a moment when the transmission coefficient on the non-inverting input

due to the positive feedback through the transverse branch of the T-shaped RC filter (condator 3), exceeds the transmission coefficient of the inverting input, resulting in an output signal greater than the input

by the value determined by the ratings of the elements forming the filter. With further increase in the frequency of the resistance of the capacitor 8 decreases so much that the magnitude of the signals passing through the inverting and non-inverting inputs of the OS, are equal, and their phases are opposite. Therefore, the input signal to the non-inverting input of the op-amp enters mainly through a resistor divider from resistors b and 7. The device's transmission coefficient is determined, as before, by the difference of the transmission coefficients of the inverting and non-inverting inputs, but it is less than one. Thus, the decay pole is realized. If capacitors 3 and 8 are swapped with resistors 1 and 2, then the device works as a high-pass filter.

Subject invention

An active filter containing a series-connected T-shaped RC filter and an operational amplifier (OU) with a resistor in the feedback circuit, this input of the T-shaped RC filter is connected to this output via a resistor voltage divider and a capacitor, and the transverse branch is OU output, characterized in that, in order to simplify the filter setting, the output of the T-shaped RC filter is connected to a non-inverting OU input, and the input via a resistor with an OU inverting input connected to said feedback circuit resistor.

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