SU678643A1 - Comb-type filter - Google Patents

Description

(54) FAST FILTER

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The invention relates to radio engineering and can be used as a selection device in synthetic telephony equipment.

A comb comb is known, containing AND bandpass filters, the inputs of which are combined, as well as a compensating connection circuit of each bandpass filter with adjacent psios filters l J.

However, this comb filter has insufficient selectivity.

The purpose of the invention is to increase the selectivity of the comb filter.

To do this, in a comb filter containing P bandpass filters, the Inputs of which are combined, as well as a compensating circuit of a bandpass filter with adjacent bandpass filters, each bandpass filter is made on a differential amplifier, the non-inverting inputs of all differential amplifiers of the combination, and a compensating link circuit included mezh.tsu

The output of each bandpass filter and inverting inputs of differential amplifiers of adjacent bandpass filters.

FIG. 1 shows a circuit diagram of a comb f1ttra, FIG. 2 shows the current characteristics of the comb filter.

The comb filter contains AND bandpass filters 1, the Inputs of which are combined, as well as a compensating coupling circuit 2 of each bandpass filter with adjacent bandpass filters, each bandpass filter 1 is made on a differential amplifier, the non-inverting inputs of all differential amplifiers are combined, and the compensating coupling circuit 2 are turned on between the output of each band-pass filter 1 and the inverting inputs of the differential amplifiers of the neighboring resend-to filters, input source 3, load resistance 4.

The device works as follows.

From source 3, the signal goes to the non-inverted inputs of the differential amplifiers (RC), and from the outputs to the load resistors 4.

At the average passband frequency of each filter, the 1 phase of the output signal with respect to the input signal is O or 180 (depending on the construction of the link circuit in the filters). At the same time, the amplitudes of the output signal are maximal and decrease with the distance. This allows, at the zero phase of the link, to supply the inverting inputs of each remote control from the outputs of neighboring fvdtroRs with the help of circuits 2, which are connected to the signal part of the signal so that it passes through the filter and being folded out of phase with the signal from source 3, completely destroyed, This ensures that the zeros of the ireredachn coefficient are obtained at the mid frequencies of adjacent filters.

This method of obtaining additional attenuation is most easily implemented in active filters that have a Forward and Phase Inversion input system, which provides for isolation of source 3.

Ponsure relationship. When passivated Filters are used, the inputs of the signals from source 3 and the signals from circuits 2 of the compensating link should be used at their inputs.

If the signal at the output of the filters 1 is rotated by 180 with respect to the signal at the input, then to get zero

the current transfer ratio from the source 3 of the signal and from the circuit 2 of the computational communication must be given the same filter inputs.

The use of the proposed comb filter allows reducing the number of links, increasing the stability of the filter parameters, reducing its dimensions and current consumption from the power sources, the proposed comb pattern

A filter can be implemented for any number of links in each bandpass filter, since at the center frequency of its passband the phase shift is 0 ° and 180 °.

Claims (1)

Invention Formula A comb filter containing I bandpass filters whose inputs are combined, as well as a compensating connection circuit of each bandpass filter with adjacent bandpass filters, is characterized in that, in order to increase the selectivity, each bandpass filter is made on differential amplification e, non-inverting Inputs all differential amplifiers are connected, and compensating circuits are connected between the output of each bandpass filter and the inverting inputs of the differential amplifiers of adjacent bandpass filters. Sources of information taken into account in the examination I, Experimental equipment for secondary telephone channel operation by three telephone connections. Report of the Research Institute of Electrical Equipment (Leningrad).