KR200153044Y1 - Band pass filter - Google Patents

Abstract

The present invention relates to a coaxial band pass filter used for transmission in a code division multiple access (CDMA) digital mobile telephone base station system. The present invention has a rectangular parallelepiped shape, but the outside is wrapped with a grounding conductor. The interior has a plurality of housings 11 formed in a predetermined arrangement of a predetermined size of the cavity; It is formed in a cylindrical shape having a predetermined height at the bottom surface of each cavity to be a resonator in association with the cavity of the housing 11, the lower portion is integral with the housing 11, the upper portion of the open rod 10 ; A cover 9 provided to shield an upper portion of the housing 11; RF input and output stages (3,6) mounted on one side wall of the housing (11) so as to penetrate the upper and lower cavities, and perform the input and output function of the signal output from the transmitter; And a coupling loop 2 mounted at the rear ends of the RF input terminal and the output terminal 3 and 6, respectively, to excite the signal input from the transmitter.

Description

Coaxial Bandpass Filter

1 is a perspective view showing an embodiment configuration of a coaxial bandpass filter according to the present invention.

Figure 2 is a detailed configuration showing the inside of the housing according to the present invention.

3 is a front cross-sectional view of FIG.

* Explanation of symbols for the main parts of the drawings

1a to 1f: cavity of filter 2: coupling loop

3: RF input terminal 4: Monitoring terminal

5: coupling element 6: RF output terminal

7: resonator 8: post

9: filter cover 10: conductor rod

11 housing 12 coupling window

The present invention relates to a coaxial band pass filter used for transmission in a code division multiple access (CDMA) digital mobile telephone base station system.

In general, a single sector CDMA base station consists of a radio part, a digital part, a transmit antenna, and two or more receive antennas for spatial diversity reception.

This filter has the function to pass only the frequency within the required band and not to pass the frequency outside the band.It is installed between the high power amplifier and the transmitting antenna and suppresses the spurious that causes various harmonics in the signal path so that unnecessary signals are not sheared. This prevents intrusion of other radio waves by transmission intermodulation, thereby preventing unnecessary radiation of radio waves.

On the other hand, the characteristics of the transmission filter used in the base station of the CDMA digital mobile telephone system require large attenuation in the reception band, low loss and high power bandpass filter to prevent the transmitter noise from entering the receiver.

However, the combline bandpass filter used in the current analog system has a large insertion loss and insufficient attenuation characteristics in the cutoff band, so that various noise signals and spurious is not completely blocked. In addition, there is a problem in that a large amount of reflected waves that cause phase delay and input / output contacts are bidirectionally occupy a lot of space when mounted in the system.

Therefore, the present invention was devised to solve the above problems, and the transmission frequency band of the mobile telephone base station is 869 ~ 894MHz, and the frequency and bandwidth are varied according to the required bands such as A, B and all bands in the band. It is an object of the present invention to provide a coaxial bandpass filter capable of setting a predetermined position in any band in the mobile phone base station transmitter rack design, since any band can be conveniently used.

In order to achieve the above object, the present invention, in the coaxial bandpass filter used in the code division multiple access (CDMA) mobile telephone base station system, provided with a plurality of cavities having a rectangular shape of a predetermined size with an open top, An exterior of each of the plurality of cavities is encased in a ground conductor, each interior of which is comprised of a conductor; Is formed in a cylindrical shape of a predetermined height upwards from the center of the bottom surface of each cavity to be a resonator in association with the cavity of the housing, the lower portion of which is open while being integrally coupled with the housing bottom surface, the upper end is shielded Conductor rod; A cover for shielding an upper portion of the housing; An RF input terminal and an RF output terminal mounted on one side wall of the housing and mounted to penetrate the cavity inside the housing, for inputting and outputting an RF signal output from a transmitter; The RF output stage; A coupling loop mounted to each rear end of the RF input terminal and the RF output terminal to excite a signal input from the transmitter; A resonator provided on an upper portion of the conductive rod, the upper end of the conductive rod being vertically coupled to each other, the resonator configured to adjust the capacitance between the cover and the conductive rod to a shank east; And one side of the plurality of cavities coupled to opposite sides of the inner wall of the housing, which forms an interline boundary between the cavities located at the center of the plurality of cavities, and the other side of the plurality of cavities faces the conductive rods respectively provided in the central cavity. It provides a coaxial bandpass filter comprising a coupling element for adjusting the amount of attenuation by the interval of.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is a perspective view showing an embodiment configuration of a coaxial bandpass filter according to the present invention, FIG. 2 is a detailed configuration view showing the inside of the housing according to the present invention, and FIG. 3 is a front sectional view of FIG.

1a to 1f are cavities of the filter, 2 is a coupling loop, 3 is an RF input terminal, 4 is a monitoring terminal. 5 represents a coupling element, 6 represents an RF output stage, 7 represents a resonator, 8 represents a post, 9 represents a filter cover, 10 represents a conductor rod, 11 represents a housing, and 12 represents a coupling window.

As shown in FIG. 1, the band pass filter according to the present invention has a rectangular parallelepiped shape of a predetermined size, the outside of which is surrounded by a grounding conductor, and the inside of the band 1a to 1f of a predetermined size is formed in a constant arrangement. It consists of the housing 11 and the cover 9 which covers the upper part.

The housing 11 in this embodiment is formed with six cube cavities 1a to 1f arranged in two rows and three columns laterally as shown in the figure. The cavities 1a to 1f are coaxial resonators whose inner walls are composed of conductors, and together with the housing 11, the conductor rods 10 forming the resonators are integrally formed to increase the Q value. It suggests a reducing structure.

Here, the conductor rods 10 are arranged at regular intervals at the centers of the respective cavities 1a to 1f and are coupled to each other, and are formed in a cylindrical shape that is hollowly opened by a predetermined height at the lower end of the housing 11, and the upper end is Coupling occurs only between the adjacent conductive rods 10 'by forming a shielded shape, and each conductive rod 10 is transmitted to the ground conductor and the TEM mode.

In addition, as a preferred embodiment of the conductor rod 10, the size of each conductor rod 10 The capacitance value is formed by a predetermined size smaller than / 8, and the resonator 7 formed by a hand wheel of a predetermined size penetrates from the upper end of each of the conductor rods 10 to the inner side so as to be coupled to the shanghai copper of the resonator 7. To adjust it.

A coupling window 12 is formed on the inner wall of the housing 11, which is the boundary of each of the cavities 1a to 1f, by a predetermined size at an upper predetermined position thereof, and from the outside of the housing cover 9 to the coupling window 12. Posts 8 are vertically penetrated to be fastened to adjust the amount of coupling between the conductive rods 10 at intervals between the coupling window 12 and the posts 8.

Here, the bandwidth can be varied by adjusting the size of the coupling window 12, and the inner wall of the conductor rod 10 and the respective cavities 1a to 1f is subjected to a temperature gold to improve conductivity, thereby reducing the insertion loss. Try to improve the characteristics.

On the other hand, one side wall of the housing 11 is mounted to the RF input terminal 3 and the output terminal 6 through which the signal output from the transmitter to pass through the upper and lower cavities (1a, 1d), the conventional bidirectional configuration The installation space is minimized by forming the letter “C” to have the same direction as the input / output connector.

Coupling loops 2 are mounted at the rear ends of the RF input terminal 3 and the RF output terminal 6 to excite the signals applied from the RF input terminal 3 to pass through the respective cavities 1a to 1f. The RF output terminal 6 transmits the transmission power to the antenna.

In addition, between the intermediate resonators, that is, the upper and lower cavities forming a boundary, both sides of the inner wall of the housing 11 in which the cavity 1b and the cavity 1e are located have a predetermined length to give a high attenuation characteristic to the reception band. The coupling elements 5 were mounted to face the second conductor rod and the fifth conductor rod, respectively, so as to form a predetermined interval with each of the conductor rods 10.

In this embodiment, each length of the coupling element 5 By presenting a structure formed of a conductor shorter than / 4 by a predetermined length, the attenuation amount can be adjusted by adjusting the interval with the conductor rod 10.

The monitoring terminal 4 is mounted to one side wall of the housing 11 so as to be located between the RF input terminal 3 and the RF output terminal 6 to perform inspection and simulation service test of own equipment.

The structure of the band pass filter of the present invention having the configuration as described above is a structure having a constant appearance, and the cavity is composed of a coaxial resonator composed of a cube, and passes through the comline band pass filter used in current analog systems. Maximize the transmission by minimizing the transmission loss in the band, improve the attenuation in the cut-off band to lower the overall noise level of the system, prevent the interference from the noise signal and the spurious, and improve the phase delay by improving the V.SW.R. It reduces the amount of reflected wave which is the factor, and enables the inspection and simulation service test of its own equipment by setting the monitoring terminal, and it has the effect of making it easy to install in the system with the input / output connectors in the same direction.

The above-described embodiments and the accompanying drawings are not intended to limit the scope of the present invention, but are provided only for understanding, and various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. It is apparent to those skilled in the art to which the present invention pertains.

Claims (4)

In the coaxial bandpass filter used in a CDMA mobile telephone base station system, a plurality of cavities having a rectangular shape of a predetermined size with an open top thereof are provided in a matrix structure, and the outer surface thereof is a ground conductor. Enclosed, the housing having a conductor; Is formed in a cylindrical shape of a predetermined height upwards from the center of the bottom surface of each cavity to be a resonator in association with the cavity of the housing, the lower portion of which is open while being integrally coupled with the housing bottom surface, the upper end is shielded Conductor rod; A cover for shielding an upper portion of the housing; An RF input terminal and an RF output terminal mounted on one side wall of the housing and mounted to penetrate the cavity inside the housing, for inputting and outputting an RF signal output from a transmitter; A coupling loop which is fixed to respective rear ends of the RF input terminal and the RF output terminal to excite the signal input from the transmitter; A resonator provided on an upper portion of the conductive rod, the upper end of the conductive rod being vertically coupled to each other, the resonator configured to adjust the capacitance between the cover and the conductive rod to a shank east; And one side of the plurality of cavities provided in each row of the matrix structure to be opposed to both sides of the inner wall of the housing, which forms an interline boundary between the cavities located at the center of the plurality of cavities. And a coupling element for adjusting the attenuation amount by the gap with the conductor rod. The housing of claim 1, further comprising a coupling window formed in a housing inner wall forming a boundary of each cavity and a post fastened vertically through the outer side of the housing cover toward the curling window. Coaxial bandpass filter, characterized in that for controlling the coupling amount between the conductor rod by adjusting the interval between the posts. The coaxial bandpass filter as claimed in claim 2, wherein the plurality of cavities have a matrix structure of two columns and three rows, and the bandwidth is varied as the coupling window is enlarged or reduced in size. The coaxial bandpass filter according to claim 1, wherein the conductor rod and the inner wall of each cavity are silver plated.