KR20000021003A - Dielectric filter - Google Patents

Abstract

PURPOSE: A dielectric is provided to selectively adjust pass band width of a frequency signal. CONSTITUTION: A dielectric filter(10) comprises: a conductor coating(14) for having a first resonance hole(11) and a second resonance hole(12) in conic shapes inside, and separating electric polarization by an electric field; an input terminal/an output terminal(15,16) for processing the conductor coating(14) in partly-grinding; a width adjuster(18) of a frequency pass band, capable of selectively adjusting the band width of the frequency, passing through according to the width size of connection, by grinding so that the grinding processing parts can be connected each other for implementing the input terminal/the output terminal(15,16).

Description

Dielectric filter

The present invention relates to a dielectric filter, and more particularly, in order to implement the input and output terminals on the surface of the dielectric body to grind the parts for grinding the conductor coating to be interconnected to pass through according to the size of the connecting grinding width The present invention relates to a dielectric filter capable of selectively adjusting the bandwidth of a frequency.

Generally, as illustrated in FIGS. 1 and 2, the dielectric filter 10 includes a first cylindrical resonance hole 11 and a second cylindrical resonance hole 12 having a substantially cylindrical shape therein to induce electrical polarization by an electric field. An input terminal 15 and an output implemented by partially grinding the dielectric body 13, the conductor coating 14 plated on the surface of the dielectric body 13, and the conductor coating 14. The terminal 16 and the inner surface of the first resonant hole 11 and the second resonant hole 12 are ring-shaped to be trimmed to have a trim 17 having a predetermined capacitance C _S.

At this time, the first resonance hole 11 and the second resonance hole 12 are horizontally formed in the longitudinal direction of the dielectric body portion 13 while being vertically formed through the same diameter up and down, the first resonance hole ( 11) and the inner circumference of the second resonant hole 12 is plated with a conductor coating 14, which is partially cut into a ring shape through the grinding process to implement the trim 17.

In general, the diameters of the first resonant hole 11 and the second resonant hole 12 have an inductance, and the conductor coating is formed from the inner circumference of the first resonant hole 11 and the second resonant hole 12. The distance to 14 has a capacitance, and the trim portion 17 generally has a coupling capacitance.

As shown in FIG. 3, the dielectric filter 10 according to the related art having the above structure realizes a filtering characteristic having good attenuation characteristics at low and high frequencies.

By the way, the dielectric filter 10 according to the prior art can implement a filtering characteristic having good attenuation characteristics in the low and high ranges to pass a high quality desired frequency signal, but due to a relationship in which the frequency selection width (BW) is too narrow It was too sensitive to the desired signal, so the filtering was rather inferior.

Accordingly, the present invention has been made to solve the above problems, and its object is to grind the interconnecting parts for grinding the conductor coating to implement the input terminal and the output terminal on the surface of the dielectric body portion. By providing a frequency pass band width adjusting section for selectively adjusting the band width of the passing frequency according to the size of the connecting grinding width, it provides a dielectric filter that can be used in a variety of circuits for passing through the desired frequency signal. Is in.

1 is a perspective view showing a dielectric filter according to the prior art.

2 is a cross-sectional view showing a dielectric filter according to the prior art.

3 is a graph showing filtering characteristics implemented through a dielectric filter according to the prior art.

4 is a perspective view showing a dielectric filter according to the present invention;

5 is a graph showing filtering characteristics implemented through the dielectric filter according to the present invention.

* Description of the symbols for the main parts of the drawings *

10 dielectric filter 11 first resonance hole

12 second resonant hole 13 dielectric body portion

14: conductor coating 15: input terminal

16: output terminal 17: trim

18: frequency pass band width adjustment unit

In order to achieve the above object, the present invention provides a dielectric body having a substantially cylindrical first resonance hole and a second resonance hole therein for inducing electrical polarization by an electric field, and a conductive coating plated on the surface of the dielectric body part. And a dielectric filter including an input terminal and an output terminal implemented by partially grinding the conductor coating, wherein the grinding parts are ground to be connected to each other to implement the input terminal and the output terminal. It is a basic feature of the technical configuration that a frequency passband width adjusting section for selectively adjusting the bandwidth of a passing frequency according to the size of the connecting grinding width is provided.

Hereinafter, a preferred embodiment of the dielectric filter according to the present invention will be described with reference to FIGS. 4 and 5.

4 is a perspective view illustrating a dielectric filter according to the present invention, and FIG. 5 is a graph showing filtering characteristics implemented through the dielectric filter according to the present invention.

As shown in FIG. 4, the dielectric filter 10 according to the present invention has a substantially cylindrical first resonance hole 11 and a second resonance hole 12 therein and induces electrical polarization by an electric field. An input terminal 15 and an output terminal implemented by partially grinding the body portion 13, the conductor coating 14 plated on the surface of the dielectric body portion 13, and the conductor coating 14. (16), a trimming part (17) having a predetermined capacitance (C _S ) value by grinding a ring shape on the inner surfaces of the first resonance hole (11) and the second resonance hole (12), and the input terminal. (15) and the band width (BW ') of the frequency passing according to the size of the connecting grinding width (GW) to grind the parts for grinding the conductor coating (14) to interconnect to implement the output terminal (16) It is made of a frequency pass band adjusting unit 18 that can be adjusted.

In this case, when the grinding width GW of the frequency passband adjusting unit 18 is wide, the bandwidth BW ′ of the passing frequency shown in FIG. 4 becomes wider, while the frequency passband width adjusting is performed. When the grinding width GW of the unit 18 is narrow, it can be seen that the band width BW 'of the frequency to be passed is narrowed to selectively adjust the passband width BW' of the desired frequency signal. .

As described above, according to the dielectric filter according to the present invention, in order to implement an input terminal and an output terminal on the surface of the dielectric body part, the grinding parts are ground to be interconnected so as to interconnect with each other according to the size of the connecting grinding width. By providing a frequency pass band width adjusting section that can adjust the bandwidth of the frequency, there is an excellent effect that can be used in a wide variety of circuits obtained by passing the desired frequency signal.

That is, when the grinding width of the frequency passband adjusting unit is formed to be wider, the band width of the passing frequency is wider, and when the grinding width of the frequency passband adjusting unit is formed to be narrower, the band width of the passing frequency is More narrow implementations have the beneficial effect of selectively adjusting the passband width of the desired frequency signal.

Claims (1)

A dielectric body portion having a substantially cylindrical first resonance hole and a second resonance hole therein for inducing electrical polarization by an electric field, a conductive coating plated on the surface of the dielectric body portion, and a partial grinding process of the conductive coating; In the dielectric filter comprising an implemented input terminal and an output terminal, In order to implement the input terminal and the output terminal, the frequency passband width adjusting unit for grinding the conductive coating grinding parts so as to be interconnected to selectively adjust the bandwidth of the passing frequency according to the size of the connecting grinding width. Dielectric filter, characterized in that provided.