KR100218190B1 - 3-coaxial resonator filter for compensating temperature using mobile communication station antenna - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave filter, and more particularly, to a filter for reducing a frequency variation due to a temperature change of a resonator by providing a temperature compensation function.

Especially, it is aimed to reduce the natural frequency fluctuation of the filter by keeping the length of the resonator constant by using the resonator of the filter as three coaxial axes made of metals having different temperature change coefficients to obtain the compensation effect according to the temperature change.

The three coaxial resonators and the harmonic absorption type resonators having different temperature coefficients are provided to maintain the characteristics constant irrespective of the change in temperature and to provide stable communication service in any climate and environmental conditions and to provide stable communication service. And absorbs the frequency, thereby reducing the signal distortion due to noise and the generation of unnecessary waves.

Description

Temperature Compensated 3 Coaxial Resonant Filter for Mobile Base Station Antenna

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave filter, and more particularly, to a filter that reduces a frequency variation due to a resonator temperature change by providing a temperature compensation function.

Generally, the resonator of a resonant filter is a state in which the frequency of the external vibration is equal to the designed resonant frequency of the object. In other words, the input frequency incident on the input stage coincides with the natural frequency of the filter, and the factor determining the natural frequency of the filter is the resonator and the internal volume of the filter. The resonance occurs when the wavelength and space of the resonant frequency coincide with each other or when the length of the resonator coincides with the wavelength of the resonant frequency. Therefore, the designed resonance frequency of the filter is changed by the change of the internal volume where the resonance occurs and the length of the resonator.

The resonator of such a filter is mainly made of metal, and the shape and volume of the metal are changed depending on the temperature. This deformation of the metal changes the length of the resonator and consequently the designed resonant frequency changes.

This phenomenon is caused by the occurrence of spurious waves other than the frequency used in communication, which is a factor that hinders quality communication and stable communication.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a resonator of a filter having three coaxial axes made of metals having different temperature coefficients, It is aimed to reduce the resonance frequency fluctuation.

Figure 1 (a) is a side view of the present invention.

FIG. 1 (b) is a plan view of the □ type of the present invention.

Fig. 1 (c) is a plan view of a mold of the present invention. Fig.

Figure 1 (d) A plan view of the mold.

DESCRIPTION OF THE REFERENCE NUMERALS

1,1 ': High frequency input connector 2,2': High frequency output connector

3: Resonator enclosure

4: coaxial resonator primary internal metallic conductor 5: coaxial resonator secondary internal metallic conductor

6: Thermal expansion compensator 7: Harmonic absorption type resonator

8: Frequency adjusting device 11: Plate type unbalanced feeder line coupler

17: ring-shaped insulator

The present invention has been conceived in order to achieve the above object, and its constitution is largely composed of a filter housing (3); A high frequency input / output connector unit for inputting and outputting frequencies; A frequency adjusting device 8; And a resonance part for resonating the input frequency internally.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings, in which: FIG. 1 (a) shows a side view of the present invention;

The present invention relates to a filter housing (3) which is an external body of a filter; A high frequency input connector 1 on one side of the upper end surface; A high frequency output connector (2) on the other side; A frequency adjusting device 8 at the center; A high frequency input connector 1 'for inputting a very high frequency; And a high frequency output connector (2 ') for outputting when a very high frequency is used; A harmonic wave absorbing resonator 7 in an appropriate space in the upper end of the filter; A thermal expansion compensator (6) inserted in a protruding shape at the center of the filter and a coaxial resonator secondary internal metal conductor (5) surrounding the outside of the thermal expansion compensator (6); A coaxial resonator primary inner metal conductor (4) which surrounds the coaxial resonator secondary inner metal conductor (5); A ring-shaped insulator (1) is installed at the upper end and the lower end of the coaxial resonator second internal metal conductor (5) while keeping the first internal metal conductor (4) and the coaxial resonator second internal metal conductor (5) Frequency coaxial resonant filter for a mobile communication base station antenna according to claim 1, wherein the frequency containing the signal is input to the high-frequency input connector (1) Is input to the high-frequency input connector 1 '. The input frequency is transmitted to the inside of the filter, and the frequency is propagated to the inside of the filter by the electronic vibration due to the frequency of the transmission terminal. The propagated frequency oscillates the coaxial resonator primary internal metallic conductor 4 and the coaxial resonator secondary internal metallic conductor 5 and the coaxial resonator primary internal metallic conductor 4 and the coaxial resonator secondary internal metallic conductor 5 And resonates at a natural frequency. The input frequency is converted into a natural frequency by a resonator, and the natural frequency is outputted to the high frequency output connector 2 in the case of a high frequency by the high frequency output connector 2 '.

Particularly, in the present invention, a thermal expansion compensator (6) is inserted in a coaxial resonator primary internal metal conductor (4) and a coaxial resonator secondary internal metallic conductor (5). The thermal expansion compensator (6) (Super invar and equivalent). When the temperature changes, the coaxial resonator primary internal metallic conductor 4 thermally expands or shrinks, but the coaxial resonator secondary internal metallic conductor 5 does not expand due to the thermal expansion compensator 6. As a result, The sum of the length of the first internal metallic conductor 4 and the length of the second internal metallic conductor 5 of the coaxial resonator does not vary.

In addition, the harmonic absorption type resonator 7 in the proper space at the upper end of the filter removes the harmonics generated periodically rather than the natural frequency inside the filter.

1 (b) is a plan view of a square of the present invention, (c) is a plan view of a circle of the present invention, and (d) The shape of the filter housing 3 can be variously implemented.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments.

As described above, the present invention includes a three-coaxial resonator and a harmonic absorption resonator 7 having different temperature coefficients to maintain a constant characteristic regardless of a change in temperature, so that good quality filter characteristics It provides visible and stable communication service, absorbs unnecessary frequency, and reduces signal distortion and noise generation due to noise.

Claims (2)

A filter housing 3 as a body; A high frequency input / output connector for frequency input / output; A frequency adjusting device 8; A resonator having a resonance part for resonating an input frequency internally, comprising: an absorption type resonator (7); A thermal expansion compensator (6) inserted in a protruding shape at the center of the filter and a coaxial resonator secondary internal metal conductor (5) surrounding the outside of the thermal expansion compensator (6); A coaxial resonator primary inner metal conductor (4) which surrounds the coaxial resonator secondary inner metal conductor (5); A ring-shaped insulator (4), a coaxial resonator primary inner metal conductor (4), and a coaxial resonator secondary inner metal conductor (5) (17) are provided to form three coaxial coaxial resonator type filters for the mobile communication base station antenna. The filter according to claim 1, wherein the filter housing (3), which is a body, Wherein the temperature compensated three coaxial resonant filter for a mobile communication base station antenna is characterized in that the coaxial resonant filter is formed in the shape of a triangle.