KR100625685B1 - A base station system using circular polarization antenna - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a base station system using a circular polarization antenna, and modulates a signal transmitted from an external base station controller in a code division multiple access scheme, converts the signal into a corresponding high frequency of a service frequency band, and outputs the received high frequency band digital signal. A signal processor converting the signal and outputting the signal to the base station controller; And radiating the transmission signal of the signal processing unit to a mobile phone of a corresponding area as a radio signal of circular polarization type, receiving a linear polarization type radio signal transmitted from the mobile phone, converting it into a wired signal, and outputting the converted signal to the signal processing unit. An antenna is included, and the reception sensitivity of the mobile phone is improved by using a circularly polarized antenna as a base station transmission antenna. In addition, the shape of the circularly polarized intenna is formed in a rectangular parallelepiped shape to facilitate installation on the roof of a building.

Circular polarization, linear polarization, base station, exchanger, weak electric field, PCS

Description

A base station system using circular polarization antenna

1 is a view showing the direction of the electric field and the propagation propagation direction according to the polarity of the radio waves.

2 shows two electric field polarities of circular polarization polarity.

3 is a diagram illustrating an example of a reception state according to polarities of circular and linear polarizations in a visible distance and a scattering environment.

4 is an external view of a base station system according to an embodiment of the present invention.

5 is a block diagram of a base station system according to an embodiment of the present invention.

6 is a diagram illustrating a reception sensitivity of a mobile telephone by installing a linear antenna in a base station.

7 is a diagram illustrating the reception sensitivity of a mobile telephone by installing a circular polarization antenna in a base station.

8 is an internal structural diagram of a circularly polarized antenna applied to an embodiment of the present invention.

The present invention relates to a base station system using a circular polarization antenna, and more particularly, to a base station system using a circular polarization antenna for enhancing the strength of radio waves in a building or a weak field area.

These days, mobile phones are so prevalent that they have become a necessity in life, and mobile phone operators are evaluated according to the sensitivity of reception.

In general, a conventional base station transmits a radio wave to a mobile phone using a linear polarized antenna.

However, in a region where radio waves are scattered a lot, such as inside a building or downtown, reception of a radio wave is smaller than the original size because the polarity of the base station and the polarity of the mobile phone do not match.

Therefore, conventionally, a repeater is installed in such a weak electric field area to increase the intensity of radio waves.

However, using a repeater is expensive.

It is therefore an object of the present invention to provide a base station system using a circularly polarized antenna which enables a mobile phone subscriber to make a smooth call without a weak electric field.

Base station system using a circularly polarized antenna according to an aspect of the present invention,

A signal processor for modulating a signal transmitted from an external base station controller in a code division multiple access scheme, converting the signal from a high frequency band of a corresponding service frequency band and outputting the signal, and converting the received high frequency band signal into a digital signal and outputting the digital signal to the base station controller; And

Radiating the transmission signal of the signal processing unit to a mobile phone of a corresponding area as a radio signal of circular polarization type, receiving a linear polarization type radio signal transmitted from the mobile phone, converting it into a wired signal, and outputting the converted signal to the signal processing unit. It includes an antenna.

The signal processing unit,

A digital unit for allocating a signal transmitted from an external base station controller in a code division multiple access scheme, spreading and outputting the signal, modulating the received signal into a digital signal, and outputting the signal to the base station controller; And

And a high frequency module unit converting the output signal of the digital unit into a high frequency of a service frequency band and converting the received high frequency band signal to a low frequency to output the digital signal to the digital unit.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a view showing the direction of the electric field and the propagation propagation direction according to the polarity of the radio waves.

As shown in Fig. 1, the linearly polarized wave is formed in the electric field perpendicular to the propagation direction of the radio wave, and the circularly polarized wave is formed while the electric field rotates in the left or right direction when viewed in the advancing direction of the radio wave over time.

Radio waves propagate into free space and then pass through various paths, and also encounter polarization obstacles such as building trees and the polarity is reversed.

In this case, in order to obtain the highest intensity of the radio wave, it is most preferable that the polarity of the receiving antenna coincides with the polarity of the radio wave. The mobile phone uses a linear antenna. If the polarities of the radio waves match the polarities of the mobile phone antennas, they can receive all the strengths of the radio waves, but the polarity of the radio waves through the various paths and obstacles is the same as that of the mobile phone antennas. It does not always match. Thus, a radio wave of a magnitude smaller than the actual magnitude of the radio wave may be received.

On the other hand, as shown in Figure 1, the two components of the circularly polarized wave is progressed in a circular shape when the electric field is seen in the direction of propagation of radio waves.

Fig. 2 shows two polarities of circular polarization, in which the electric field of circular polarization is composed of two components, E1 and E2, which are always perpendicular to each other and the polarity is possible in all directions about the circle. do.

FIG. 3 is a diagram illustrating a reception state according to polarities of circular and linear polarizations in a visible distance and a scattering environment, where linear polarizations at visible distances are identical in polarity to receive all radio wave strengths, but circular polarizations are two components. Among them, only the components matching the receiving antenna polarity are received, and their strength is reduced by half compared to the linear polarization.

However, since the circular polarization is composed of two components, even if the polarity is changed by reflection and scattering, the receiving antenna of the mobile phone has a higher probability of receiving the same polarity than the linear polarization, so the reception strength is better than the linear polarization.

In the present invention, such a principle of circular polarization is used, so that a linearly polarized antenna of a mobile telephone smoothly receives a transmission wave as a circular polarized wave even in a scattering environment.

4 is an external view of a base station system according to an embodiment of the present invention;

5 is a block diagram of a base station system according to an embodiment of the present invention.

As shown in Figure 4 or 5, the base station system according to an embodiment of the present invention,

Digital unit 220 is connected to the external base station controller 300, the channel is transmitted by the code division multiple access method, the band spreading and output, and modulates the received signal into a digital signal and outputs to the base station controller ;

A high frequency module unit 230 converting an output signal of the digital unit 220 into a high frequency of a service frequency band and converting the received high frequency band signal to a low frequency to be output to a digital unit 220; And

Radiating the transmission signal of the high frequency module unit 230 to the mobile phone 100 of the local area as a radio signal of circular polarization type, and receives a linear polarization type radio signal transmitted from the mobile phone 100, It includes an antenna 210 to convert the output to the high-frequency module 230.

The operation of the base station system having such a configuration will be described in detail.

First, the base station 200 using the circular polarization antenna 210 is installed in an urban area where radio waves are severely scattered, and the circular polarization antenna 210 is used as a transmission / reception antenna.

In this state, when an external third party makes a call to the mobile telephone 100 in the area where the present invention is installed by using a public telephone network or a mobile communication network, the signal is transmitted to the switch 400 and the base station controller 300. It is transmitted to the base station 200 through the path. Here, signal paths of the public telephone network, the switch 400, the base station controller 300, and the base station 200 are well known in the art, and thus detailed descriptions are avoided.

Next, the digital unit 220 of the signal processing unit 240 of the base station 200 performs channel allocation on the signal input from the base station controller 300 in a code division multiple access scheme, and spreads and outputs the signal.

Then, the high frequency module unit 230 converts the output signal of the digital unit 220 to a high frequency of the service frequency band, that is, a frequency of 1.7 to 1.8 GHz in the case of a PCS service provider.

Then, the circularly polarized antenna 210 wirelessly transmits signals of high frequency band in the form of circularly polarized wave.

Then, the radio signal in the form of circular polarization is correctly received by the linear antenna of the mobile telephone 100 even when scattered.

In addition, the transmission signal of the mobile telephone 100 is transmitted by linearly polarized wave and received by the circularly polarized antenna 210 of the base station 200.

Then, the signal is converted into a wired signal by the circular polarization antenna 210, demodulated by low frequency in the high frequency module unit 230, and input to the digital unit 220.

Then, the digital unit 220 modulates the signal of the code division multiple access method demodulated by the high frequency module unit 230 into a digital signal and outputs the digital signal to the base station controller 300.

Six circularly polarized antennas 210 are installed in the pylon 50 to form a pair of two each to service the entire area divided into three sectors, which can be variously modified by service providers.

In the present invention as described above, since the circularly polarized antenna 210 is used, the reception sensitivity of the mobile phone in the scattering area is improved.

6 and 7 show results of experiments in Naedong-dong, Bundang-gu, Seongnam-si, Gyeonggi-do, using a linear antenna and a circularly polarized antenna.

6 is a diagram illustrating a reception sensitivity of a mobile telephone by installing a linear antenna in a base station.

7 is a diagram illustrating the reception sensitivity of a mobile telephone by installing a circular polarization antenna in a base station.

In fact, after each antenna is installed at the base station, the mobile phone is used to walk around the area, and the strength of the radio wave received from the mobile phone is measured. The polarized antenna was much higher. This is shown in Table 1.

     area  Linear antenna  Circularly polarized antenna        A     -95 dBm or less   -95 to -90 dBm or less        B     -95 dBm or less   -95 to -90 dBm or less        C     -95 dBm or less   -95 to -90 dBm or less        D     -95 dBm or less        -93 dBm

As can be seen from Table 1, the use of a circularly polarized antenna has an improvement of about 3dB or more compared to a linear antenna.

The detailed configuration of the circularly polarized antenna described above will be described with reference to FIG.

8 is an internal structural diagram of a circularly polarized antenna applied to an embodiment of the present invention.

As shown in FIG. 8, the circularly polarized antenna 210 is a rectangular parallelepiped enclosure, and a supporting rod 211 is formed to be supported by a steel tower, and six spiral radiators 212 are formed therein for signal radiation. It is connected to the high frequency module 230 through a wire.

Since the circularly polarized antenna 210 has a rectangular parallelepiped enclosure, the circularly polarized antenna 210 can be easily installed as a sector antenna on a roof of a building.

The invention is not limited to mobile phones, but can be used for other mobile communication devices capable of two-way wireless communication.

As described above, in the embodiment of the present invention, by using the circularly polarized antenna to radiate the radio wave in the downtown area to eliminate the weak electric field area due to the scattering of the radio wave, it is manufactured by a rectangular parallel cell has the advantage of easy installation on the roof of the building It is possible to provide a base station system having.

In particular, the present invention does not need to install a repeater, compared to the case of installing a repeater to solve the weak electric field in the existing, it costs very little to build a mobile communication network.

Claims (4)

A digital unit for allocating a signal transmitted from an external base station controller in a code division multiple access scheme, spreading and outputting the signal, converting the received signal into a digital signal, and outputting the digital signal to the base station controller; A high frequency module unit converting an output signal of the digital unit into a high frequency of a service frequency band and converting the received high frequency band signal into a low frequency band and outputting the low frequency signal to the digital unit; An antenna for radiating the signal output from the high frequency module unit into a radio signal in the form of circular polarization, receiving a linear polarization type radio signal, converting it into a wired signal, and then outputting it to the high frequency module unit. Including; The antenna is a base station system, characterized in that it comprises a plurality of radiators of the spiral type connected to the high frequency module unit through a wire. The method of claim 1, The base station system, characterized in that the external shape of the antenna has a rectangular parallelepiped form. delete The method of claim 1, The antenna is a base station system, characterized in that it comprises a support rod supported on the pylon.

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