KR20010018614A - A dielectric filter - Google Patents

Abstract

PURPOSE: A dielectric filter is provided to completely remove noise signals introduced in low and high frequency bands by achieving the transmission zero in the high frequency band. CONSTITUTION: A dielectric filter(100) comprises a dielectric body section(110) having a plurality of resonance holes(111,112). The dielectric body section(110) has a rectangular shape. A conductive coating portion(120) is coated on the dielectric body section(110). An input terminal(131) and an output terminal(132) are provided by partially grinding process of the conductive coating portion(120). A filtering section(140) capable of improving the filtering feature is provided. In order to form the filtering section(140), the coating portion(120) is removed from an upper surface of the dielectric body section(110). In addition, the conductive coating portion(120) coated on an upper edge portion formed between the resonance holes(111,112) is partially removed. In this state, in order achieve the input and output terminals(131,132), the conductive coating portion(120) coated along the edge of the dielectric body section(110) is removed from a position in which the conductive coating portion(120) is partially removed to the upper surface of the dielectric body section(110).

Description

Dielectric Filters {A DIELECTRIC FILTER}

The present invention relates to a dielectric filter. More particularly, the present invention relates to a dielectric filter having a filtering characteristic improvement unit capable of further inclining filtering characteristics in a low or high frequency region other than a pass band of a signal, thereby making the filtering characteristic very good. The present invention relates to a dielectric filter capable of completely eliminating unwanted noise signals that are likely to occur.

Generally, the dielectric filter 10 includes a dielectric body 12 having a cylindrical resonance hole 11 therein and inducing electrical polarization by an electric field, as shown in FIGS. 1 and 2, and the dielectric body. A conductor coating 13 plated on the surface of the part 12, an input terminal 14 and an output terminal 15 which are provided through a partial grinding process of the conductor coating 13 and connected to a circuit board; In addition, the inner surfaces of the plurality of resonance holes 11 are formed by grinding the trim 16 having a predetermined capacitance C _S by grinding the ring shape.

At this time, the plurality of resonant holes 11 are horizontally formed in the longitudinal direction of the dielectric body portion 12 and are formed through the cylindrical shape, the surface of the resonant holes 11 to the conductor coating (13) Although plated, the conductor coating 13 is partially cut into a ring through grinding. Here, the diameter of the resonance hole 11 has an inductive capacitance, and the distance from the inner circumference of the resonance hole 11 to the conductor coating 13 generally has a capacitance.

The length of the dielectric body portion 12 is λ / 4, and λ is defined as a wavelength of a frequency signal to be passed, and the input terminal 14 and the output terminal 15 are soldered and connected to a circuit board. Used.

On the other hand, the filter must satisfy a specific frequency response, which includes a predetermined center frequency and bandwidth, and the stop band and return loss that the designer must improve. (return loss).

Recently, as the demand for a filter having a very small size and excellent characteristics increases, there is a situation in which the dielectric filter 10 having the maximized electrical characteristics is minimized as the size is minimized.

However, in the related art, in order to maintain the characteristics of the dielectric filter 10 as described above, it is necessary to improve the Q value of the dielectric or increase the number of the resonance holes 11, but such a structure has a disadvantage that the volume is too large. On the other hand, the addition of transmission zero, which is taken on the other hand, has to use screen-printed patterns on top of the dielectric filter 10 in order to implement transmission zero, which leads to an increase in cost and complexity of operation.

Accordingly, the present invention has been made to solve the above-mentioned problems, the object of which is that low or high band other than the passband of the signal to completely eliminate the unnecessary noise signal that is easy to be mixed in the low or high band The present invention provides a dielectric filter having a filtering characteristic improving unit which makes the filtering characteristic of the inclination more inclined to make the filtering characteristic very good.

1 is a perspective view including partial peeling 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 perspective view including partial stripping showing a dielectric filter according to a first embodiment of the present invention;

4 is a graph showing the characteristics of the dielectric filter according to the first embodiment of the present invention.

5 is a perspective view including a partial stripping showing a dielectric filter according to a second embodiment of the present invention.

6 is a graph showing the characteristics of a dielectric filter according to a second embodiment of the present invention.

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

100 dielectric filter 110 dielectric body portion

111,112: resonance hole 120: conductor coating

131: input terminal 132: output terminal

140: filtering characteristics improvement unit

The present invention for achieving the above object is a rectangular body portion having a plurality of resonant holes in parallel to each other and induces electrical polarization by an electric field, a conductor coating plated on the surface of the dielectric body portion, A dielectric filter comprising an input terminal and an output terminal implemented through a partial grinding process of a conductor coating, wherein the upper edges between the plurality of resonance holes are removed with the conductor coating plated on the upper surface of the dielectric body portion removed. A portion of the conductor coating coated on the substrate is removed, and along the edge of the dielectric body portion from the position where the conductor coating is partially removed to the top surface of the dielectric body portion from which the conductor coating is removed to realize the input terminal and the output terminal. Filtering to improve the filtering characteristics by removing the plated conductor coating What consists of the characteristic improvement part is made into the basic characteristic on the technical structure.

Hereinafter, a preferred embodiment of the dielectric filter according to the present invention will be described with reference to FIGS. 3 to 6.

Figure 3 is a perspective view including a partial stripping showing a dielectric filter according to a first embodiment of the present invention, Figure 4 is a graph showing the characteristics of the dielectric filter according to a first embodiment of the present invention, Figure 5 is a view of the present invention FIG. 6 is a perspective view showing a part stripping showing a dielectric filter according to a second embodiment, and FIG. 6 is a graph showing characteristics of the dielectric filter according to the second embodiment of the present invention.

As shown in FIG. 3, the dielectric filter 100 according to the present invention includes a plurality of resonance holes 111 and 112 formed in parallel to each other, and has a rectangular body portion having a rectangular shape for inducing electrical polarization by an electric field. (110), the conductor coating 120 plated on the surface of the dielectric body portion 110, and the input terminal 131 and the output terminal (implemented through the partial grinding (grinding) processing of the conductor coating 120) 132 and a filtering characteristic improvement unit 140 which inclines the characteristics in the low or high region other than the pass band of the signal to further improve the filtering characteristics, as shown in FIG. 4.

In this case, the filtering characteristic improving unit 140 is coated on the upper edges between the plurality of resonance holes 111 and 112 in a state where the conductive coating 120 plated on the upper surface of the dielectric body 110 is removed. A dielectric having a portion of the conductor coating 120 removed, and the conductor coating 120 removed from a position where the conductor coating 120 was partially removed to implement the input terminal 131 and the output terminal 132. It is preferable that the conductive body 120 is molded into a shape in which the conductive coating 120 is plated along the edge of the dielectric body 110 up to the upper surface of the body 110.

As a result of testing the characteristics of the dielectric filter 100 having the filtering characteristic improving unit 140 having the shape as described above, as shown in FIG. 4, the filtering characteristics in the low and high ranges are higher than those of the conventional filtering characteristics (a). It can be seen that (A) is implemented in a very inclined state, so that there is a useful function that can completely eliminate unnecessary noise signals that are likely to be mixed in the low range or the high range.

In addition, the filtering characteristic improving unit 140 may remove the conductor coating 120 plated on the upper surface of the dielectric body 110 as shown in FIG. 5. A dielectric having the conductor coating 120 removed from the position where the conductor coating 120 is partially removed to implement the output terminal 132, and remove a portion of the conductor coating 120 coated on the upper edge between the portions. The conductive coating 120 plated along the edge of the dielectric body 110 may be removed from the top of the body 110 to the bottom of the dielectric body 110.

As a result of testing the characteristics of the dielectric having the filtering characteristic improving unit 140 having such a shape, as shown in FIG. 6, the filtering characteristics B at the low and high frequencies are inclined very much as compared to the conventional filtering characteristics (b). In addition, it is possible to implement a transmission zero in the high range, and thus, it can be seen that there is a useful function to more completely eliminate unnecessary noise signals that are likely to be mixed in the low or high range.

As described above, according to the dielectric filter 100 according to the present invention, the upper side between the plurality of resonance holes 111 and 112 in a state where the conductor coating 120 plated on the upper surface of the dielectric body 110 is removed. A portion of the conductor coating 120 coated on the edge is removed, and the conductor coating 120 is removed from the position where the conductor coating 120 is partially removed to implement the input terminal 131 and the output terminal 132. Removing the conductive coating 120 plated along the edge of the dielectric body portion 110 up to the top surface of the dielectric body portion 110 to incline the characteristics in the low or high range other than the passband of the signal By providing the filtering characteristic improving unit 140 to make the characteristics very good, there is an excellent effect that can completely eliminate the unnecessary noise signal that is easy to be mixed in the low or high range.

In addition, a portion of the conductor coating 120 coated on the upper edge between the plurality of resonance holes 111 and 112 is removed while the conductor coating 120 plated on the upper surface of the dielectric body 110 is removed. The upper surface of the dielectric body portion 110 from which the conductor coating 120 is removed and the lower surface of the dielectric body portion 110 from the position where the conductor coating 120 is partially removed to implement the output terminal 132. By implementing the filtering characteristic improvement unit 140 to the shape to remove the conductor coating 120 plated along the edge of the dielectric body portion 110 to be further inclined filtering characteristics in the low and high frequencies, It also has the excellent effect of achieving transmission zero at high frequencies.

Claims (2)

A rectangular body portion 110 having a plurality of resonance holes 111 and 112 parallel to each other and inducing electrical polarization by an electric field, and a conductor plated on the surface of the dielectric body portion 110. In the dielectric filter 100 including the sheath 120 and the input terminal 131 and the output terminal 132 implemented through a partial grinding process of the conductor coating 120, While removing the conductive coating 120 plated on the upper surface of the dielectric body portion 110 to remove a portion of the conductive coating 120 is coated on the upper edge between the plurality of resonant holes 111, 112 From the position where the conductor coating 120 is partially removed to implement the input terminal 131 and the output terminal 132, the upper surface of the dielectric body portion 110 from which the conductor coating 120 has been removed Dielectric filter (100) characterized in that it comprises a filtering characteristic improving unit (140) for removing the conductive coating (120) plated along the edge of the dielectric body portion (110) to improve the filtering characteristics. The method of claim 1, The filtering characteristic improving unit 140, While removing the conductive coating 120 plated on the upper surface of the dielectric body portion 110 to remove a portion of the conductive coating 120 is coated on the upper edge between the plurality of resonant holes 111, 112 On the upper surface of the dielectric body portion 110 from which the conductor coating 120 is removed and the lower surface of the dielectric body portion 110 from the position where the conductor coating 120 is partially removed to implement the output terminal 132. Dielectric filter (100), characterized in that formed in the shape to remove the conductive coating plated 120 along the edge of the dielectric body portion (110) until.