RU222013U1 - LC bandpass filter with improved selectivity - Google Patents

Abstract

The utility model relates to radio electronics. The technical result is an increase in attenuation in the stopband. This result is achieved due to the fact that a fourth capacitor is additionally introduced into the input and output links of the bandpass LC filter, the first terminal of which is connected to the second terminal of the first capacitor, and the second terminal of the fourth capacitor is connected to a common bus; in addition, N identical sections connected in series, each section consists of a fifth and sixth capacitor, while the first output of the fifth capacitor is the input of the section, and the second output of the sixth capacitor is the output of the section, in addition, the seventh, eighth, ninth and tenth capacitors are introduced into the filter, in addition, each of the sections contains a second inductor, the first terminal of which is connected to the second terminal of the fifth capacitor, and the second terminal of the coil is connected to the first terminal of the sixth capacitor, the output of the input section is connected to the input of the first section, the input of the output section is connected to the output of the Nth section section, at the same time the filter input is connected to the first terminal of the additionally introduced eleventh capacitor, and the filter output is connected to the first terminal of the twelfth capacitor. 2 ill.

Description

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

Bandpass filters are widely used for frequency selection of signals in the input circuits of radio receivers and the input stages of exciter devices. One of such circuit solutions is given in [1] and is a ladder filter consisting of M identical links, the longitudinal branches of which are parallel circuits made using inductors and capacitors, and coupling capacitors are included in the transverse branches. The calculation of the links of such a filter is given in [1,2].

Such a circuit is M of units identical in structure, connected in series, each of the units consists of the first and second capacitors, wherein the first output of the first capacitor is the input of the unit, and the second output of the second capacitor is the output of the unit, the second output of the first capacitor is connected to the first output of the second capacitor , in addition, each link contains a first inductor and a third capacitor, the first terminal of the first inductor is connected to the second terminal of the first capacitor, and the first terminal of the third capacitor is connected to the first terminal of the second capacitor, the second terminals of the first inductor and the third capacitor are connected to a common bus, the first terminal of the first capacitor of the input link is connected to the input potential terminal of the filter, and the second terminal of the second capacitor of the output link is connected to the output potential terminal of the filter.

This filter was chosen as a prototype.

The disadvantage of the prototype is a slight attenuation in the stopband, which is due to the asymmetry of the amplitude-frequency response of the filter.

The purpose of the utility model is to increase the attenuation in the stopband. The problem is solved by the fact that in a filter consisting of an input and output link, each of which consists of a first and second capacitor, the first terminal of the first capacitor is the input of the link, and the second terminal of the second capacitor is the output of the link, the second terminal of the first capacitor is connected with the first terminal of the second capacitor, in addition, each link contains a first inductor and a third capacitor, the first terminal of the first inductor is connected to the second terminal of the first capacitor, and the first terminal of the third capacitor is connected to the first terminal of the second capacitor, the second terminals of the first inductor and the third capacitor in this case, they are connected to a common bus, the first terminal of the first capacitor of the input link is connected to the input potential terminal of the filter, and the second terminal of the second capacitor of the output link is connected to the output potential terminal of the filter, a fourth capacitor is additionally introduced into the input and output links, the first terminal of which is connected to the second the output of the first capacitor, and the second output of the fourth capacitor is connected to a common bus, in addition, N sections identical in structure, connected in series, are additionally introduced into the filter, each section consists of a fifth and sixth capacitor, while the first output of the fifth capacitor is the input of the section, and the second terminal of the sixth capacitor is the output of the section, in addition, the seventh, eighth, ninth and tenth capacitors are introduced into the filter, the first terminal of the seventh capacitor is connected to the first terminal of the fifth capacitor, the first terminal of the eighth capacitor is connected to the second terminal of the fifth capacitor, the first terminal of the ninth capacitor is connected with the first terminal of the ninth capacitor, and the first terminal of the tenth capacitor with the second terminal of the sixth capacitor, the second terminals of the seventh, eighth, ninth and tenth capacitors are connected to a common bus, in addition, each section contains a second inductor, the first terminal of which is connected to the second terminal the fifth capacitor, and the second terminal of the coil is connected to the first terminal of the sixth capacitor, the output of the input section is connected to the input of the first section, the input of the output section is connected to the output of the Nth section, at the same time the filter input is connected to the first terminal of the additionally introduced eleventh capacitor, and the filter output is to the first terminal of the twelfth capacitor, the second terminals of the eleventh and twelfth capacitors are connected to a common bus.

A comparative analysis shows that the claimed device differs from the prototype in that a fourth capacitor is additionally introduced into the input and output links, the first terminal of which is connected to the second terminal of the first capacitor, and the second terminal of the fourth capacitor is connected to a common bus, in addition, N sections identical in structure, connected in series, each section consists of a fifth and sixth capacitor, while the first output of the fifth capacitor is the input of the section, and the second output of the sixth capacitor is the output of the section, in addition, the seventh, eighth, ninth and tenth are introduced into the filter capacitors, the first terminal of the seventh capacitor is connected to the first terminal of the fifth capacitor, the first terminal of the eighth capacitor is connected to the second terminal of the fifth capacitor, the first terminal of the ninth capacitor is connected to the first terminal of the ninth capacitor, and the first terminal of the tenth capacitor is connected to the second terminal of the sixth capacitor, the second terminals of the seventh , the eighth, ninth and tenth capacitors are connected to a common bus, in addition, each of the sections contains a second inductor, the first terminal of which is connected to the second terminal of the fifth capacitor, and the second terminal of the coil is connected to the first terminal of the sixth capacitor, the output of the input section is connected to the input of the first section, the input of the output link is connected to the output of the N-th section, at the same time the filter input is connected to the first terminal of the additionally introduced eleventh capacitor, and the filter output is connected to the first terminal of the twelfth capacitor, the second terminals of the eleventh and twelfth capacitors are connected to a common bus.

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 features.

The electrical diagram of the utility model is shown in Fig.1. The filter consists of an input 1 and an output link 2, each of which consists of a first 3 and a second capacitor 4, with the first terminal of the first capacitor being the input of the link, and the second terminal of the second capacitor being the output of the link, the second terminal of the first capacitor is connected to the first terminal of the second capacitor. In addition, each link contains a first inductor 5 and a third capacitor 6, the first terminal of the first inductor is connected to the second terminal of the first capacitor, and the first terminal of the third capacitor is connected to the first terminal of the second capacitor, the second terminals of the first inductor and the third capacitor are connected to common bus. The first terminal of the first capacitor of the input link is connected to the input potential terminal of the filter, and the second terminal of the second capacitor of the output link is connected to the output potential terminal of the filter. In addition, the input and output sections contain a fourth capacitor 7, the first terminal of which is connected to the second terminal of the first capacitor, and the second terminal of the fourth capacitor is connected to a common bus. The filter also contains N sections 8, identical in structure, connected in series. Each of the sections consists of a fifth 9 and a sixth 10 capacitors, with the first terminal of the fifth capacitor being the input of the section, and the second terminal of the sixth capacitor being the output of the section. In addition, the filter contains a seventh 11, eighth 12, ninth 13 and tenth 14 capacitors, the first terminal of the seventh capacitor is connected to the first terminal of the fifth capacitor, the first terminal of the eighth capacitor is connected to the second terminal of the fifth capacitor, the first terminal of the ninth capacitor is connected to the first terminal the ninth capacitor, and the first terminal of the tenth capacitor - with the second terminal of the sixth capacitor. The second terminals of the seventh, eighth, ninth and tenth capacitors are connected to a common bus. Each of the sections contains a second inductor 15, the first terminal of which is connected to the second terminal of the fifth capacitor, and the second terminal of the coil is connected to the first terminal of the sixth capacitor. The output of the input link is connected to the input of the first section, the input of the output link is connected to the output of the N-th section, at the same time the filter input is connected to the first terminal of the eleventh capacitor 16, and the filter output is connected to the first terminal of the twelfth capacitor 17, the second terminals of the eleventh and twelfth capacitors connected to a common bus. The device works as follows. The input 1 and output 2 sections together with the eleventh capacitor 16 and the seventh 11 capacitor of the input section, as well as the twelfth 17 and tenth 14 capacitor of the N-th section, respectively, represent bandpass filters on circuits with capacitive couplings. The amplitude-frequency response of these filters is asymmetrical and is characterized by a high level of attenuation to the left of the passband. The additionally introduced sections 8 also represent units of bandpass filters with an asymmetric amplitude-frequency response. In this case, the amplitude-frequency response of these links has a higher level of attenuation to the right of the passband. As a result, the overall filter response has better symmetry and provides greater attenuation in the filter stopband.

In Fig. 2, the solid lily shows the calculated amplitude-frequency characteristic of the claimed fourth-order model, and the dashed line shows the calculated characteristic of the prototype of the same order.

Information sources:

1. Alekseev L.V., Znamensky A.E., Lotkova E.D. Electric filters for meter and decimeter ranges. - M. Communications, 1976. - 280 p.

2. Hanzel G.E. Handbook for calculating filters / Transl. from English edited by A.E. Znamensky. - M.: Sov. radio, 1974. - 288 p.

Claims (1)

An LC bandpass filter consisting of an input and an output section, each of which consists of a first and a second capacitor, wherein the first terminal of the first capacitor is the input of the circuit, and the second terminal of the second capacitor is the output of the circuit, the second terminal of the first capacitor is connected to the first terminal of the second capacitor, in addition, each link contains a first inductor and a third capacitor, the first terminal of the first inductor is connected to the second terminal of the first capacitor, and the first terminal of the third capacitor is connected to the first terminal of the second capacitor, the second terminals of the first inductor and the third capacitor are connected with a common bus, the first terminal of the first capacitor of the input link is connected to the input potential terminal of the filter, and the second terminal of the second capacitor of the output link is connected to the output potential terminal of the filter, characterized in that a fourth capacitor is additionally introduced into the input and output links, the first terminal of which is connected to the second terminal of the first capacitor, and the second terminal of the fourth capacitor is connected to a common bus; in addition, N sections identical in structure, connected in series, are additionally introduced into the filter, each section consists of a fifth and sixth capacitor, while the first terminal of the fifth capacitor is the input of the section , and the second terminal of the sixth capacitor is the output of the section, in addition, the seventh, eighth, ninth and tenth capacitors are introduced into the filter, the first terminal of the seventh capacitor is connected to the first terminal of the fifth capacitor, the first terminal of the eighth capacitor is connected to the second terminal of the fifth capacitor, the first terminal of the ninth of the capacitor is connected to the first terminal of the sixth capacitor, and the first terminal of the tenth capacitor is connected to the second terminal of the sixth capacitor, the second terminals of the seventh, eighth, ninth and tenth capacitors are connected to a common bus, in addition, each of the sections contains a second inductor, the first terminal of which is connected with the second terminal of the fifth capacitor, and the second terminal of the coil is connected to the first terminal of the sixth capacitor, the output of the input section is connected to the input of the first section, the input of the output section is connected to the output of the Nth section, at the same time the filter input is connected to the first terminal of the additionally introduced eleventh capacitor, and the filter output is to the first terminal of the twelfth capacitor, the second terminals of the eleventh and twelfth capacitors are connected to a common bus.