RU186032U1 - BAND ROTARY FILTER - Google Patents

Abstract

The proposed utility model relates to radio electronics and can be used in the input circuits of radio receivers for frequency selection of signals.

The objective of the utility model is to increase the attenuation in the delay band.

A tunable bandpass filter containing a first inductor, the first terminal of which is connected to the first terminal of the second inductor, while the second terminal of the first inductor is connected to a common bus, the filter also contains four sections identical in structure, each of which contains N parallel connected varicaps, the anodes of the varicaps of the first section are connected to the second terminal of the second inductor, the anodes of the varicaps of the second and third sections are connected to each other and simultaneously through the third the inductor is connected to a common bus, the anodes of the fourth section are connected to the second terminal of the fourth inductor, the first terminal of which is connected to the first terminal of the fifth inductor, while the second terminal of the fifth inductor is connected to the common bus, in addition, the cathodes of the varicaps of the first and second sections are connected connected to each other and through the first resistor to a voltage source, and the cathodes of the varicaps of the third and fourth sections are connected to each other and also connected to the source through a second resistor voltage, while the sixth inductor included between the input potential terminal of the filter and the first output of the first inductor, as well as the seventh inductor connected between the output potential terminal of the filter and the first output of the fourth inductor, are additionally introduced into the filter.

Description

The proposed utility model relates to radio electronics and can be used in the input circuits of radio receivers for frequency selection of signals.

For frequency selection of signals in the input circuits of radio receivers, band tunable filters are widely used. One of these circuit solutions is given in [1] and is a quasi-polynomial-type ladder filter consisting of two identical units, the longitudinal branches of which are sequential circuits made in the form of inductors and varicaps, and inductors are included in the transverse branches. The calculation of the half links of such a filter is given in [2].

Such a circuit contains a first inductor, the first output of which is connected to the first output of the second inductor and simultaneously with the input potential terminal of the filter, while the second output of the first inductor is connected to a common bus, the filter also contains four sections identical in structure, each of which contains N parallel connected varicaps, while the anodes of the varicaps of the first section are connected to the second terminal of the second inductor, the anodes of the varicaps of the second and third sections are connected to each other ohm and simultaneously through the third inductor are connected to a common bus, the anodes of the fourth section are connected to the second terminal of the fourth inductor, the first terminal of which is connected to the first terminal of the fifth inductor and simultaneously with the output potential terminal of the filter, while the second terminal of the fifth inductor is connected to a common bus, in addition, the cathodes of the varicaps of the first and second sections are connected to each other and connected to a voltage source through the first resistor, and the cathodes of the varicaps of the third and fourth th sections are connected to each other and through a second resistor are also connected to a voltage source. This filter is selected as a prototype.

The disadvantage of the prototype is a small attenuation in the strip of detention, due to the asymmetry of the amplitude-frequency characteristics of the filter.

The objective of the utility model is to increase the attenuation in the delay band.

The problem is solved in that in the filter containing the first inductor, the first output of which is connected to the first output of the second inductor, while the second output of the first inductor is connected to a common bus, the filter also contains four sections identical in structure, each of which contains N parallel connected varicaps, while the anodes of the varicaps of the first section are connected to the second terminal of the second inductor, the anodes of the varicaps of the second and third sections are connected to each other and at the same time Through the third inductor are connected to a common bus, the anodes of the fourth section are connected to the second terminal of the fourth inductor, the first terminal of which is connected to the first terminal of the fifth inductor, while the second terminal of the fifth inductor is connected to the common bus, in addition, the cathodes of the varicaps of the first and second sections connected to each other and through the first resistor connected to a voltage source, and the cathodes of the varicaps of the third and fourth sections are connected to each other and through the second resistor are also connected to According to the proposed solution, the sixth inductor included between the input potential terminal of the filter and the first output of the first inductor, as well as the seventh inductor connected between the output potential terminal of the filter and the first output of the fourth inductor, are additionally introduced to the voltage transmitter according to the proposed solution.

Comparative analysis shows that the claimed device differs from the prototype in that the sixth inductor included between the input potential terminal of the filter and the first output of the first inductor is additionally introduced into the device, as well as the seventh inductor connected between the output potential terminal of the filter and the first output of the fourth inductors

When comparing the claimed utility model not only with the prototype, but also with other technical solutions known in science and technology, no solutions were found that have similar characteristics.

The electrical circuit of the utility model is shown in FIG. one.

The filter contains a first inductor 1, the first output of which is connected to the first output of the second inductor 2, while the second output of the first inductor is connected to a common bus. The filter also contains four sections identical in structure, each of which contains N parallel connected varicaps, with the anodes of the varicaps of the first section 3 connected to the second output of the second inductor, the anodes of the varicaps of the second 4 and third 5 sections connected to each other and simultaneously through the third coil the inductors 6 are connected to a common bus, the anodes of the fourth section 7 are connected to the second terminal of the fourth inductor 8, the first terminal of which is connected to the first terminal of the fifth inductor 9, while The swarm terminal of the fifth inductor is connected to a common bus. In addition, the cathodes of the varicaps of the first and second sections are connected to each other and connected to the voltage source through the first resistor 10, and the cathodes of the varicaps of the third and fourth sections are connected to each other and are also connected to the voltage source through the second resistor 11. An additionally introduced sixth inductor 12 is connected between the input potential terminal of the filter and the first terminal of the first inductor, and an additional seventh inductor 13 is connected between the output potential terminal of the filter and the first terminal of the fourth inductor.

The device operates as follows.

The filter circuit consists of two links, each of which is a L-shaped half-link of a band-pass filter (Fig. 2), the calculation of which is given in [2]. Capacitive elements in the longitudinal branches of the filter are made using varicaps. Moreover, to minimize non-linear distortion, varicaps are turned on in parallel. The frequency tuning of the filter is carried out by changing the capacitance of the varicaps by changing the control voltage supplied to their cathodes.

The introduction of additional inductors connected between the input potential terminal of the filter and the input of the first link, and the output potential terminal of the filter and the output of the second link, allows for better symmetry of the amplitude-frequency characteristics of the filter and thereby improve the attenuation in the delay band. In FIG. 3, a solid lily shows the calculated amplitude-frequency characteristic of the claimed model, and a dotted line shows the calculated characteristic of the prototype.

Information sources:

1. I.V. Zabegailo, A.I. Tyumentsev, T.S. Khrolenko. Tunable bandpass filters using varicaps over a wide frequency range. // Radio communication technology - 2014. Issue. 3 (23), pp. 100-106.

2. Cerne H.I. Inductive coupling and transformations in electric filters. Svyazizdat, M., 1962.

Claims (1)

A tunable bandpass filter containing a first inductor, the first terminal of which is connected to the first terminal of the second inductor, while the second terminal of the first inductor is connected to a common bus, the filter also contains four sections identical in structure, each of which contains N parallel connected varicaps, the anodes of the varicaps of the first section are connected to the second terminal of the second inductor, the anodes of the varicaps of the second and third sections are connected to each other and simultaneously through the third the inductor is connected to a common bus, the anodes of the fourth section are connected to the second terminal of the fourth inductor, the first terminal of which is connected to the first terminal of the fifth inductor, while the second terminal of the fifth inductor is connected to the common bus, in addition, the cathodes of the varicaps of the first and second sections are connected connected to each other and through the first resistor to a voltage source, and the cathodes of the varicaps of the third and fourth sections are connected to each other and also connected to the source through a second resistor voltage, characterized in that between the input potential terminal of the filter and the first output of the first inductor, a sixth inductor is additionally introduced, and between the potential output terminal of the filter and the first output of the fourth inductance, the seventh inductor is additionally included.

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