RU2668733C2 - M-channel frequency-selective device - Google Patents

Abstract

FIELD: wireless communications.SUBSTANCE: invention relates to radio communication and can be used in radio receivers of the decameter wave band. M-channel frequency selective device comprises a common bus, an input potential terminal, to which an input of an input broadband filter is connected, an amplifying element, a group containing M output narrowband filters. Input broadband filter includes the inputs of a differential amplifier, in which a first subgroup containing M/2 output narrowband filters with odd numbers is connected to a first output, and a second subgroup containing M/2 output narrowband filters with even serial numbers is connected to a second output, in each group, the inputs of all filters are connected in parallel, the output of each filter is simultaneously the output of the device. Implementation of the input broadband filter and the generated channels is disclosed.EFFECT: technical result consists in expanding the arsenal of technical means for the specified purpose.1 cl, 3 dwg

Description

The invention relates to radio communications and can be used in radio receivers decameter wavelength range.

A frequency-selective device is known comprising a series-connected input, a broadband filter, a first switch, a group of narrow-band filters, a second switch and an output. This device performs the role of a single-channel preselector in the WI 8888 radio receiver of the Watkins Johnson company [1]. This device can be taken as a prototype.

The objective of the invention is the expansion of the arsenal of technical means in the field of M channel frequency-selective systems ..

The technical result is an increase in functional and technical capabilities.

The technical result is achieved in that an M-channel frequency selective device containing a common bus has an input potential terminal to which an input of an input wide-band filter is connected, an amplifying element, a group containing M output narrow-band filters,

according to the invention, the broadband filter includes inputs of a differential amplifier, in which the first output is connected to the first subgroup containing M / 2 output narrow-band filters with odd numbers, and the second output is connected to the second output, which contains M / 2 output narrow-band filters with even serial numbers, in each group, the inputs of all filters are connected in parallel, the output of each filter is simultaneously the output of the device, while

the input broadband filter contains a common bus and an input potential terminal connected to the input potential terminal of the frequency selective device, to which the first terminals of the first, second, third, fourth, fifth and sixth inductors are connected, as well as the first and second capacitors, the second terminal of the second the inductor is connected to the first terminal of the third capacitor, the second terminal of the third inductor is connected to the first terminal of the fourth capacitor, the second terminal of the fifth inductor with single with the first terminal of the fifth capacitor, the second terminal of the sixth inductor connected to the first terminal of the sixth capacitor, the second terminals of the first inductor, third, fourth and fifth capacitors connected to the first input of the differential amplifier, the second terminals of the second inductor, second, fifth and sixth capacitors connected to the second input of a differential amplifier,

each output bandpass filter contains a common bus, input and output potential terminals, the first output of the first inductor is connected to the input potential terminal, in which the second output is connected through the first capacitor to the first outputs of the second and third inductors, the second and third capacitors and the first piezoelectric resonator, the second terminals of the second inductor and the second capacitor are connected to a common bus, the second terminals of the third inductor, the third capacitor and the first piezo the resonator is connected to the first terminals of the fourth and fifth inductors, the fourth and fifth capacitors and the second piezoresonator, the second terminals of which are connected to the first terminals of the sixth and seventh inductors, and the sixth capacitor, the second terminals of the sixth inductor and sixth capacitor are connected to a common bus, the second the output of the seventh inductor by means of the seventh capacitor is connected to the first terminals of the eighth capacitor and to the output potential terminal of the channel, the second terminal is the eighth the first capacitor connected to the common bus.

The essence of the proposal lies in the fact that the M channel frequency-selective device containing a common bus, the input potential terminal, to which the input of the input broadband filter is connected, an amplifier element, a group containing M output tunable bandpass filters,

the broadband filter includes the inputs of the differential amplifier, in which the first output is connected to the first subgroup containing M / 2 output narrow-band filters with odd numbers, and the second output is connected to the second output, which contains M / 2 output narrow-band filters with even serial numbers, in each group the inputs of all filters are connected in parallel, the output of each filter is simultaneously the output of the device, while

the input broadband filter contains a common bus and an input potential terminal connected to the input potential terminal of the frequency selective device, to which the first terminals of the first, second, third, fourth, fifth and sixth inductors are connected, as well as the first and second capacitors, the second terminal of the second the inductor is connected to the first terminal of the third capacitor, the second terminal of the third inductor is connected to the first terminal of the fourth capacitor, the second terminal of the fifth inductor connected to the first terminal of the fifth capacitor, the second terminal of the sixth inductor connected to the first terminal of the sixth capacitor, second terminals of the first inductor, third, fourth and fifth capacitors connected to the first input of the differential amplifier, second terminals of the second inductor, second, fifth and sixth capacitors connected to the second input of a differential amplifier,

each output bandpass filter contains a common bus, input and output potential terminals, the first output of the first inductor is connected to the input potential terminal, in which the second output is connected through the first capacitor to the first outputs of the second and third inductors, the second and third capacitors and the first piezoelectric resonator, the second terminals of the second inductor and the second capacitor are connected to a common bus, the second terminals of the third inductor, the third capacitor and the first piezo the resonator is connected to the first terminals of the fourth and fifth inductors, the fourth and fifth capacitors and the second piezoresonator, the second terminals of which are connected to the first terminals of the sixth and seventh inductors, and the sixth capacitor, the second terminals of the sixth inductor and sixth capacitor are connected to a common bus, the second the output of the seventh inductor by means of the seventh capacitor is connected to the first terminals of the eighth capacitor and to the output potential terminal of the channel, the second terminal is the eighth the first capacitor connected to the common bus.

In FIG. 1 is an electric circuit M of a channel frequency selective device, FIG. 2 is an electrical diagram of an input wideband filter; FIG. 3 shows the electrical circuit of the output bandpass tunable filter.

M-channel frequency-selective device (see Fig. 1) contains a common bus 1, input potential terminal 2, input broadband filter 3, including inputs of differential amplifier 4. The first subgroup 5 of output narrow-band filters 6 is connected to the first output of differential amplifier 4, containing M / 2 filters with odd sequence numbers. The second subgroup 7 of narrow-band filters 8 is connected to the second output of the differential amplifier 4, which contains filters with even serial numbers. The output of each filter 7 and 8 is simultaneously the output of the devices.

The input broadband filter 3 (see Fig. 2) contains a common bus 9, an input potential terminal 10, to which the first leads of the inductors 11, 12, 13, 14, 15, 16, and the capacitors 17 and 18 are connected. The second terminal of the inductor 12 is connected to the first terminal of the capacitor 19. The second terminal of the inductor 13 is connected to the first terminal of the capacitor 20. The second terminal of the inductor 15 is connected to the first terminal of the capacitor 21. The second terminal of the inductance 16 is connected to the first terminal of the capacitor 22. Second terminals of the inductor 1 1, capacitors 17, 19 and 20 are connected to the first input 23 of the differential amplifier 4. The second terminals of the inductor 14, capacitors 18, 21 and 22 are connected to the second input 24 of the differential amplifier 4.

The input broadband filter has two attenuation poles below and above the passband. That allows to obtain a large steepness of the attenuation characteristics in the transition regions. In FIG. 3 shows an electrical diagram of subgroup 5 containing M / 2 output band pass tunable filters 6 with odd serial numbers. In the subgroup, the filter inputs are connected in series, while the potential input terminal of the subgroup is connected to the first output 25 of the differential amplifier 4.

Each output narrow-band filter (see Fig. 3) contains a common bus 27, an input potential terminal 28, to which the first terminal of the inductor 29 is connected, in which the second terminal is connected through the capacitor 30 to the first terminals of the inductors 31, 32, capacitors 33, 34 and piezoresonator 35. The second terminals of the inductor 31 and the capacitor 33 are connected to a common bus. The second leads of the inductor 32, the capacitor 34 and the piezoresonator 35 are connected to the first leads of the inductors 36, 37, the capacitors 38, 39 and the piezoresonator 40, the second leads of which are connected to the first leads of the inductors 41, 42, and the capacitor 43. The second leads of the inductor 41 and capacitor 43 are connected to a common bus. The second terminal of the inductor 42 is connected via the capacitor 44 to the first terminals of the capacitor 45 and to the output terminal of the channel, the second terminal of the capacitor 45 is connected to the common bus, the second terminal of the eighth inductor is connected to the first terminal of the variable capacitor, in which the second terminal is connected to the common by bus.

The device operates as follows.

From the input, the group signal is fed to the input of the input broadband filter 3, and then to the inputs of the differential amplifier 4. The amplified signal is fed to the inputs of all output bandpass filters. Each narrow-band filter passes only its own frequency spectrum.

An analog-to-digital converter can be connected to the output of each channel.

Frequency-selective device can be performed with a gap between adjacent passbands, and with adjacent ones.

Information sources

1. O.V. Golovin. Decameter professional radio receivers. - M., Radio and Communications, 1985, p. 271, fig. 9.22.

Claims (5)

M-channel frequency selective device containing a common bus, input potential terminal, to which the input of the input broadband filter is connected, an amplifying element, a group containing M output narrow-band filters, characterized in that the input broadband filter includes the inputs of a differential amplifier, in which the first output is connected to the first subgroup containing M / 2 output narrow-band filters with odd numbers, and the second output is connected to the second output, which contains M / 2 output narrow-band filters with even ordinal numbers, in each group the inputs of all filters are connected in parallel, the output of each filter is simultaneously the output of the device, while the input broadband filter contains a common bus and an input potential terminal connected to the input potential terminal of the frequency selective device, to which the first terminals of the first, second, third, fourth, fifth and sixth inductors are connected, as well as the first and second capacitors, the second terminal of the second the inductor is connected to the first terminal of the third capacitor, the second terminal of the third inductor is connected to the first terminal of the fourth capacitor, the second terminal of the fifth inductor connected to the first terminal of the fifth capacitor, the second terminal of the sixth inductor connected to the first terminal of the sixth capacitor, second terminals of the first inductor, third, fourth and fifth capacitors connected to the first input of the differential amplifier, second terminals of the second inductor, second, fifth and sixth capacitors connected to the second input of a differential amplifier, each channel contains a common bus, input and output potential terminals, the first terminal of the first inductor is connected to the input potential terminal, in which the second terminal is connected through the first capacitor to the first terminals of the second and third inductors, the second and third capacitors and the first piezoresonator, the second conclusions the second inductor and the second capacitor are connected to a common bus, the second terminals of the third inductor, the third capacitor and the first piezoelectric resonator are connected first terminals of the fourth and fifth inductors, fourth and fifth capacitors, and the second piezo resonator, the second terminals of which are connected to first terminals of the sixth and seventh inductors, and the sixth capacitor, the second terminals of the sixth inductor and a sixth capacitor connected to the common bus, the second terminal of the seventh inductor through the seventh capacitor is connected to the first terminals of the eighth capacitor, the eighth inductor and the output potential terminal of the channel, the second terminal of the eighth capacitor is connected to a common bus, the second terminal of the eighth inductor is connected to the first terminal of the variable capacitor, in which the second the output is connected to a common bus.

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