KR200325815Y1 - Tower Top Booster for Base Station Transceiver System - Google Patents

Abstract

The present invention provides a separate tower top booster between the three-way splitter and each antenna of the mobile communication base station to low noise amplification of the RF signal transmitted and received between the mobile communication base station and the mobile phone. By suppressing the increase as much as possible, the reception sensitivity can be improved to expand the service area of the mobile communication base station and to improve the service quality.

Description

Tower Top Booster for Base Station Transceiver System for Expansion of Service Area

The present invention relates to a tower tower booster for a mobile communication base station to expand the service area, and more particularly, low-noise amplification of the RF signal transmitted and received between a mobile communication base station and a mobile phone such as a mobile phone or a PDA to service in a mobile communication base station. The present invention relates to a tower tower booster for a mobile communication base station for extending a service area for extending a communication area.

Conventionally, in order to improve the performance and efficiency of the micro base station and the pico base station, the omni base station is operated as a sector base station using a 3-way divider.

If the base station is operated in the manner described above, the transmission (Tx) output is reduced by about 10 to 13 dB due to the use of a pylon feed cable or a three-way splitter, and a noise figure due to loss. figure) There is a problem that the reception sensitivity is degraded due to the increase. Furthermore, there is a problem that the call quality with the mobile phone is deteriorated due to the deterioration of the performance of the mobile communication base station.

The present invention proposed to solve the above-mentioned shortcomings is to minimize the increase in the noise figure due to the loss of the tower feed cable or the loss by the three-way splitter to improve the reception sensitivity to expand the service area of the base station and the quality of service It is an object of the present invention to provide a tower tower booster for a mobile communication base station for extending the service area to improve the performance.

1 is a block diagram showing a tower tower booster for a mobile communication base station for extending the service area according to the present invention.

FIG. 2 is a diagram illustrating the tower top booster of FIG. 1 in more detail.

Explanation of symbols on the main parts of the drawings

10: bias tee 20: three-way divider

30: Tower Top Booster 31,33: Duplexer

32: HPA 34,35: bypass path

36: LNA 37: DC / DC Controller

40: antenna SW1-SW4: switching element

C: Capacitor L: Coil

The tower tower booster for the mobile communication base station for the service area expansion according to the present invention for achieving the above object is arranged in a predetermined unit, the mobile communication base station responsible for transmitting and receiving with a wireless mobile phone such as a mobile phone or PDA In a tower tower booster for a mobile communication base station for expanding a service area including a base station transceiver system, voice and data modulated by a CDMA method transmitted and received between a three-way splitter and an antenna of the mobile communication base station. A tower top booster is installed to amplify an RF signal, wherein the tower top booster is used for a wireless telephone call between a duplexer connected to a three-way splitter of the mobile communication base station and a duplexer connected to an antenna. HPA (High Power Amplifier) to amplify RF signal for transmission (Tx) and reception (Rx) for wireless telephone call A low noise amplifier (LNA) for low noise amplification of the RF signal is characterized in that it is connected in parallel.

In addition, in the tower tower booster for a mobile communication base station for extending the service area according to the present invention, a bypass path is connected to the HPA and the LNA in parallel, respectively, and the HPA and the bypass path and the LNA and the bypass path input / output terminals. It is preferable that the switching elements are connected to each other so that, in the event of a power failure or an abnormality in the tower top booster, the output of the three-way splitter is directly connected to the antenna through the respective bypass paths without passing through the HPA and the LNA.

In addition, in the tower tower booster for a mobile communication base station for the service area expansion according to the present invention, a bias tee separating power is provided in a cable connecting the mobile communication base station and the three-way splitter. The obtained power is preferably configured to be converted by the DC / DC controller to be supplied to the drive power of the tower top booster.

Hereinafter, the present invention will be described in detail.

FIG. 1 is a block diagram illustrating a tower top booster for a mobile communication base station for expanding a service area according to the present invention, and FIG. 2 is a block diagram illustrating the tower top booster of FIG. 1 in more detail.

Referring to FIG. 1, a base station transceiver system, which is arranged in a predetermined unit and performs transmission and reception with a wireless mobile phone such as a mobile phone or a PDA, transmits an RF signal to 1/3 through a cable. A three-way splitter 20 for distributing is connected, and the voice and data modulated by the CDMA method transmitted and received between the three-way splitter 20 and each antenna 40 between the splitter 20 and each antenna 40. Tower tower booster 30 for amplifying the made RF signal is provided. In addition, a cable connecting the mobile communication base station with the three-way splitter 10 is equipped with a bias tee 10 having a function of separating and synthesizing a power or RF signal from the cable.

FIG. 2 shows tower tower booster 30 in more detail, wherein a wireless telephone call is made between a duplexer 31 connected to a three-way divider of a mobile communication base station and a duplexer 33 connected to an antenna 40. FIG. The HPA 32 for amplifying the RF signal for transmission (Tx) and the LNA 36 for low noise amplifying the RF signal for reception (Rx) for radiotelephone communication have a structure connected in parallel.

In addition, bypass paths 34 and 35 are connected to the HPA 32 and the LNA 36 in parallel, respectively, and the HPA 32 and the bypass path 34 and the LNA 36 and the bypass path ( The switching elements SW1 to SW4 are connected to the input / output terminals of the 35, respectively, so that in the event of a power failure or an abnormality in the tower top booster 30, the output of the three-way distributor does not go through the HPA 32 and the LNA 36, respectively. It is directly connected to the antenna 4 through the bypass paths 34 and 35.

The cable connecting the mobile communication base station and the three-way splitter is provided with a bias tee 10 consisting of a capacitor C and a coil L to separate power from the cable. The obtained power is converted by the DC / DC controller 37 and configured to be supplied to the drive power of the tower top booster 30.

Therefore, the RF signal for transmission (Tx) is usually amplified by the HPA 32 and wirelessly transmitted to the mobile phone via the antenna 40, and on the contrary, the reception (Rx) received from the mobile phone via the antenna 40 via the antenna (Rx). RF signal is low noise amplified by the LNA 36 and transmitted to the mobile communication base station.

Of course, when a power failure or abnormality occurs in the tower top booster 3, the switching elements SW1 to SW4 automatically connect the duplexers 31 and 33 to the input / output terminals of the bypass paths 34 and 35, respectively. RF signals transmitted and received between the mobile phone and the mobile communication base station are directly transmitted and received through the bypass paths 34 and 35 without passing through the HPA 32 or the LNA 36.

Therefore, according to the present invention,

1) Transmit (Tx) By applying HPA (High Power Amplifier), the output of mobile communication base station can be increased by 5 ~ 7 dB on average to compensate for the loss of pylon feed cable and three-way splitter. There is a scalable effect.

2) In addition, the present invention can improve the reception (Rx) sensitivity of the mobile communication base station by 5 dB on average by employing a low noise amplifier, and can also improve the call quality with the mobile phone. .

3) In addition, the present invention is to be directly transmitted and received without going through the tower top booster automatically when the power off (off) or the system of the mobile communication base station, the effect of improving the call cutting rate due to power off or system failure There is.

4) In addition, the present invention has the effect of not having to provide a separate power supply to the power supply to the mobile communication base station by a pylon feed cable.

5) In addition, the present invention has the effect of selectively improving the call quality in a specific direction at a minimum cost by installing a sector unit of the tower tower booster.

6) In addition, the present invention is easy to install outdoors by making the tower tower booster waterproof type, and can be manufactured in a small and lightweight, there is an effect that it is easy to attach to any place in the mobile communication base station regardless of the place.

7) In addition, the present invention has a low installation and maintenance of the tower tower booster, thereby reducing the operating cost of the tower tower booster.

Although the present invention has been described in detail only with respect to the specific embodiments described, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims of utility model registration. It is natural.

Claims (3)

In the tower tower booster for a mobile communication base station to expand the service area including a base station transceiver system (Base Station Transceiver System) which is arranged in a unit and is responsible for transmitting and receiving with a wireless mobile phone such as a mobile phone or PDA, A tower top booster for amplifying an RF signal consisting of voice and data modulated by a CDMA method transmitted and received between the three-way splitter and each antenna of the mobile communication base station, The tower top booster is configured to receive an HPA for amplifying an RF signal for transmission (Tx) for a wireless telephone call and a duplexer connected to a three-way splitter of the mobile communication base station and an antenna connected to an antenna. Rx) tower tower booster for mobile communication base station for service area expansion, characterized in that the LNA for low noise amplification of the RF signal is connected in parallel. The method of claim 1, Bypass paths are respectively connected to the HPA and the LNA in parallel, and switching elements are connected to the HPA and the bypass path and the LNA and the bypass path input / output terminals, respectively, so that an output of a three-way splitter occurs in the event of a power failure or a tower top booster. A tower tower booster for a mobile communication base station for extending service area, characterized in that configured to be directly connected to the antenna through each bypass path without passing through the HPA and LNA. The method of claim 1, A bias tee separating power is installed in the cable connecting the mobile communication base station and the three-way splitter, and the power obtained by the bias tee is converted by a DC / DC controller to be supplied to the driving power of the tower tower booster. Tower tower booster for mobile communication base station for extending the service area, characterized in that the.