RU2727615C1 - M-channel frequency-selective device - Google Patents

Abstract

FIELD: radio engineering and communications.SUBSTANCE: invention relates to radio communication and can be used in radio receivers of decametre wavelength range, namely to M-channel frequency-selective device. Device comprises a common bus and an input potential terminal, as well as a frequency-selective system comprising M channels. Each channel comprises first and second input terminals, a common bus, an input oscillating circuit comprising parallel connected input variable capacitance element and an inductance coil, provided with a communication winding, which outputs are connected to input terminals, respectively, first output of oscillatory circuit is connected to common bus, second output of oscillatory circuit is connected to first terminals of first and second two-terminal network made in form of capacitors, second outputs of which are connected to the first and second inputs of the operational amplifier, the output of which is connected to the output potential terminal of the channel, the input capacitive element is made in the form of a capacitor and a varicap connected in series. At first channel first input terminal is connected to input potential terminal of device, second input terminal is connected to first input terminal of second channel, in which second input terminal is connected to first input terminal of next channel, and so forth, second input terminal M channel is connected to common bus.EFFECT: technical result is the possibility of operation of the disclosed device as a channel two-link tunable bandpass filter having a second class of characteristic resistance and a first class of characteristic attenuation.1 cl, 3 dwg

Description

The invention relates to radio communication and can be used in radio receivers of the decameter wave range.

Known is an input device of a multichannel radio receiving system containing a series-connected antenna input, a spark gap, an anti-location filter, a protection circuit, a device for selecting, amplifying and converting signals, including an M-channel broadband frequency selective device containing one input connected to the output of the protection device, and M outputs, to each output of which a sub-band radio channel is connected.

A device that is part of the input device can be taken as a prototype, namely, an M-channel broadband frequency-selective device contains M band-pass filters, the inputs of which are connected to the input of the device, with each filter having a separate output [1].

The objective of the invention is to expand the arsenal of technical means in the field of frequency selective systems.

EFFECT: obtaining a circuit of a two-link tunable bandpass filter.

This is achieved by the fact that in an M-channel frequency selective device containing a common bus and an input potential terminal, as well as a frequency selective system including M channels, each channel having a separate output, according to the invention,

each channel contains the first and second input terminals, a common bus, an input oscillating circuit containing a parallel-connected input element of variable capacitance and an inductor provided with a coupling winding, the leads of which are connected to the input terminals, respectively, the first output of the oscillating circuit is connected to a common bus, the second output the oscillating circuit is connected to the first terminals of the first and second two-pole networks, made in the form of capacitors, the second terminals of which are connected to the first and second inputs of the operational amplifier, the output of which is connected to the output potential terminal of the channel, the input capacitive element is made in the form of a capacitor and a varicap connected in series, in the first channel, the first input terminal is connected to the input potential terminal of the device, the second input terminal is connected to the first input terminal of the second channel, in which the second input terminal is connected to the first input terminal of the next channel, etc., the second input glue mma M channel is connected to the common bus.

The essence of the invention lies in the fact that in the M-channel frequency-selective device containing a common bus and an input potential terminal, as well as a frequency-selective system, including M channels, while

each channel contains the first and second input terminals, a common bus, an input oscillating circuit containing a parallel-connected input element of variable capacitance and an inductor provided with a coupling winding, the leads of which are connected to the input terminals, respectively, the first output of the oscillating circuit is connected to a common bus, the second output the oscillating circuit is connected to the first terminals of the first and second two-pole networks, made in the form of capacitors, the second terminals of which are connected to the first and second inputs of the operational amplifier, the output of which is connected to the output potential terminal of the channel, the input capacitive element is made in the form of a capacitor and a varicap connected in series, in the first channel, the first input terminal is connected to the input potential terminal of the device, the second input terminal is connected to the first input terminal of the second channel, in which the second input terminal is connected to the first input terminal of the next channel, etc., the second input glue mma M channel is connected to the common bus.

FIG. 1 shows an electrical diagram of an M-channel frequency selective device, FIG. 2 shows the electrical diagram of the bandpass filter of the channel; FIG. 3 shows the basic and equivalent differential bridge circuit of the input filter.

The frequency selective device (see Fig. 1) contains a common bus 1, an input potential terminal 2, M channels 3, each of which contains an input tunable bandpass filter, the output of which is connected to the output potential terminal of channel 4. Each channel has input terminals 5 and 6, wherein for the first channel, terminal 5 is connected to the input terminal 2, and terminal 6 is connected to the terminal 5 of the second channel. For channel M, terminal 5 is connected to terminal 6 of the previous channel, and terminal 6 is connected to terminal 1 (common bus) of the frequency selective device. Thus, all input channels are connected in series.

FIG. 2 shows an electrical diagram of a tunable channel bandpass filter. The filter contains input terminals 5 and 6, an input oscillatory circuit containing a parallel-connected inductor 7 and an input variable capacitance element 8. The inductor 7 is equipped with a coupling winding 9, in which the leads are connected to the input terminals 5 and 6. The variable capacitance input element 8 contains the capacitor 10 and the varicap 11 connected in series. The connection point of the capacitor 11 and the varicap 12 is connected to the control unit. The first terminal of the oscillatory circuit is connected to the common bus, the second to the first terminals of the capacitors 12 and 13, the second terminals of which are connected to the inputs of the operational amplifier 14, the output of which is connected to the potential terminal of channel 4.

Input elements 7-13, together with the input part of the operational amplifier 14, form a circuit (see Fig. 3), which is equivalent to a differential-bridge circuit containing in each arm a parallel-connected inductor, a variable capacitor and a constant capacitor.

This circuit is an input tunable bandpass filter having a second class in characteristic impedance and a first class in characteristic attenuation.

Thus, the channel device performs the function of a tunable bandpass filter.

Sources of information

1. RF patent No. 116724, CL. 7 Н04В 1/06, publ. 05/25/2012.

Claims (1)

M-channel frequency selective device containing a common bus and an input potential terminal, as well as a frequency selective system including M channels, each channel has a separate output, characterized in that each channel contains the first and second input terminals, a common bus , an input oscillating circuit containing a parallel-connected input element of variable capacitance and an inductor provided with a coupling winding, the leads of which are connected to the input terminals, respectively, the first output of the oscillating circuit is connected to a common bus, the second output of the oscillating circuit is connected to the first leads of the first and second two-pole networks, made in the form of capacitors, the second leads of which are connected to the first and second inputs of the operational amplifier, the output of which is connected to the output potential terminal of the channel, the input capacitive element is made in the form of a capacitor and a varicap connected in series, at the first channel the first input terminal is connected to the input potential terminal of the device, the second input terminal is connected to the first input terminal of the second channel, in which the second input terminal is connected to the first input terminal of the subsequent channel, etc., the second input terminal M of the channel is connected to the common bus.

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