RU2701046C1 - Active tunable two-link band-pass filter - Google Patents

Abstract

FIELD: receiving-transmitting devices.

SUBSTANCE: invention relates to means of frequency selection of signals in receiving-transmitting communication devices. Filter includes two-terminal devices connected to differential amplifier, as well as inductance coils equipped with communication windings, filter includes additional input and output two-terminal circuits containing series-connected capacitor and varicap.

EFFECT: technical result is wider range of technical means of active band-pass filters.

1 cl, 3 dwg

Description

The invention relates to electronics and can be used for frequency selection of signals in transceiver communication devices.

An active frequency-selective device is known that contains input and output potential terminals, a common bus, a differential amplifier having two inputs and two outputs, the first and second two-terminal devices connected by the first terminals to the potential input terminal, and the second to the corresponding input of the differential amplifier, the third and the fourth two-terminal connected by the first output to the potential input terminal, and the second with the corresponding output of the differential amplifier, while the first, second and third two-pole and it is in the form of piezoelectric resonators, and a fourth two-pole is formed as a resistor. The known frequency-selective device is an active piezoelectric bandpass filter with a notch of part of the spectrum in the passband [1]. This device can be taken as a prototype.

The objective of the invention is to obtain a tunable two-link bandpass filter. The technical result is the expansion of the arsenal of means of an active band-pass filter.

The technical result is achieved in that an active tunable two-link bandpass filter containing a common bus, input and output potential terminals, as well as a differential amplifier connected to its inputs, the first conclusions of the first and second two-terminal, the second conclusions of which are connected to each other, and its outputs the first conclusions of the third and fourth two-terminal, the second conclusions of which are connected to each other, according to the invention, the second conclusions of the first and second two-terminal are connected to the first output an additional input inductor, in which the second terminal is connected to a common bus, the inductor is equipped with a coupling winding, in which the first terminal is connected to an input potential terminal, and the second is connected to a common bus, the first and second two-terminal circuits are made in the form of capacitors, in the first the output of the additional inductor is connected to the first output of the additional input two-terminal, in which the second output is connected to a common bus, the additional input two-terminal contains consecutively connected The sensor and the varicap, the second terminals of the third and fourth two-terminal circuits are connected to the first terminal of the additional output inductor, in which the second terminal is connected to a common bus, the inductor is equipped with a coupling winding in which the first terminal is connected to the potential output terminal, and the second to the common bus , the third and fourth two-terminal are made in the form of capacitors, the first output of an additional output two-terminal, in which the second The th output is connected to the common bus, the additional output two-terminal contains a capacitor and a varicap connected in series.

The essence of the invention lies in the fact that the active tunable two-link bandpass filter containing a common bus, input and output potential terminals, as well as a differential amplifier connected to its inputs, the first conclusions of the first and second two-terminal, the second conclusions of which are connected to each other, and to its outputs, the first conclusions of the third and fourth two-terminal, the second conclusions of which are connected to each other, the second conclusions of the first and second two-terminal are connected to the first output of an additional input coil inductance, in which the second output is connected to a common bus, the inductor is equipped with a coupling winding, in which the first is connected to the input potential terminal, and the second is connected to the common bus, the first and second two-terminal are made in the form of capacitors, connected to the first output of the additional inductor the first terminal of the additional input two-terminal network, in which the second terminal is connected to a common bus, the additional input two-terminal network contains a capacitor and a varicap connected in series, the second terminals are third it and the fourth two-terminal are connected to the first terminal of the additional output inductor, in which the second terminal is connected to the common bus, the inductor is equipped with a coupling winding, in which the first terminal is connected to the output potential terminal, and the second to the common bus, the third and fourth two-terminal in the form of capacitors, to the first output of an additional output inductor is connected the first output of an additional output two-terminal device, in which the second output is connected to a common bus, The solid output bipolar contains a capacitor and a varicap connected in series.

When comparing the claimed invention not only with the prototype, but also with other technical solutions known in science and technology, solutions with similar features were not found.

In FIG. 1 shows the source and equivalent electrical circuits of the input link of the band-pass filter, FIG. 3 shows the source and equivalent electrical circuits of the output link of the band-pass filter.

The band-pass filter contains a common bus 1, an input potential terminal 4. To the inputs of the differential amplifier 3 are connected the first leads of the two-terminal 5 and 6, which are made in the form of capacitors. The second terminals of the bipolar 5 and 6 are connected to the first terminal of the input inductor 7, in which the second terminal is connected to a common bus. The inductor 7 is equipped with a coupling winding 8, in which the first terminal is connected to the input potential terminal 2, and the second is connected to a common bus. To the first terminal of the input inductor 7 is connected the first terminal of the input two-terminal 9, in which the second terminal is connected to a common bus. The two-terminal 9 is made in the form of a capacitor 10 and a varicap connected in series 11. The first outputs of the two-terminal 12 and 13, which are made in the form of capacitors, are connected to the outputs of the differential amplifier 3. The second terminals of the two-terminal 12 and 13 are connected to the first terminal of the output inductor 14, in which the second terminal is connected to a common bus. The inductor 14 is equipped with a coupling winding 15, in which the first terminal is connected to the output potential terminal 4, and the second is connected to a common bus. The first terminal of the output two-terminal 16, in which the second terminal is connected to a common bus, is connected to the first output of the inductor 14. The bipolar 16 is made in the form of a series-connected capacitor 17 and a varicap 18.

The device operates as follows.

Elements 5-11 together with the input part of the differential amplifier 3 form the input circuit (see Fig. 2A). This circuit is equivalent to the differential bridge circuit shown in FIG. 2b, which in turn is equivalent to the differential bridge circuit shown in FIG. 2c. The circuit contains in each arm a two-terminal device containing in parallel connected inductors and capacitors of constant and variable capacitance. The filter passband is limited by parallel resonance frequencies. When the capacitance of the varicap 11 changes, the resonant frequencies simultaneously change, while the passband remains constant. The circuit has a first class in characteristic attenuation and a second class in characteristic impedance.

Elements 12-18 together with the output part of the differential amplifier 3 form the output link (see Fig. 3a). This circuit is equivalent to the differential bridge circuit of FIG. 3b, which in turn is equivalent to the differential bridge circuit shown in FIG. 3c. The circuit contains in each arm a two-terminal device containing in parallel connected inductors and capacitors of constant and variable capacitance. The filter passband is limited by parallel resonance frequencies. When the capacitance of the varicap 11 changes, the resonant frequencies simultaneously change, while the passband remains constant. The circuit has a first class in characteristic attenuation and a second class in characteristic impedance. The capacity of input 11 and output 19 of the varicaps is changed from the control panel synchronously.

Information sources

1. USSR patent No. 792536, IPC Н03Н 7/12, Publ. 12/30/80, Bull. No. 48.

2. Band-pass tunable filter. RF patent No. 156095. 03/27/2015

Claims (1)

Active tunable two-link bandpass filter containing a common bus, input and output potential terminals, as well as a differential amplifier connected to its inputs by the first outputs of the first and second two-terminal, the second conclusions of which are connected to each other, and to its outputs the first conclusions of the third and fourth two-terminal the second terminals of which are connected to each other, characterized in that the second terminals of the first and second two-terminal devices are connected to the first terminal of an additional inductor, in which the second the output is connected to a common bus, the inductor is equipped with a coupling winding, in which the first output is connected to the input potential terminal, and the second to the common bus, the first and second two-terminal are made in the form of capacitors, the first output of the additional input two-terminal is connected to the first output of the additional inductor , in which the second terminal is connected to a common bus, the additional input two-terminal contains a capacitor and varicap connected in series, the second conclusions of the third and fourth two-pole Ik are connected to the first output of the additional output inductor, in which the second output is connected to the common bus, the inductor is equipped with a coupling winding, in which the first output is connected to the output potential terminal, and the second to the common bus, the third and fourth two-terminal devices are made in the form of capacitors , to the first output of the additional output inductor connected to the first output of the additional output bipolar, in which the second output is connected to a common bus, an additional output bipolar IR includes a capacitor connected in series and varicap.

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