KR100529762B1 - System and method for optical coupler output of wireless mobile telecommunication network - Google Patents

Abstract

The present invention relates to an optical coupler output monitoring system and a method thereof in a wireless mobile communication network. In particular, the system of the present invention is an optical coupler for coupling the RF signal of the BTS and CDMA2000-1X BTS for IS-95, and the output of the optical coupler Is connected to the optical repeater used to expand the service area in the wireless mobile communication network, and the RF signals of the IS-95 BTS and CDMA2000-1X BTS are input to remotely monitor the status of these base stations and monitor the output of the optical combiner. It is provided with an RF monitoring device that receives the input and checks the abnormality of the optical coupler, and the direction coupler for transmitting the output of the optical coupler to the RF monitoring device and monitors the output. Accordingly, the present invention provides a directional coupler for transmitting the optical coupler output to the RF monitor in the system for monitoring the RF signal of the BTS for the IS-95 and the CDMA2000-1X BTS. You can remotely monitor whether the combiner is operating normally or not due to a failure.

Description

Optical coupler output monitoring system and method thereof in wireless mobile communication network {SYSTEM AND METHOD FOR OPTICAL COUPLER OUTPUT OF WIRELESS MOBILE TELECOMMUNICATION NETWORK}

The present invention relates to a wireless mobile communication network that can be used for cellular phones, PCS, PDA, IMT-2000, etc. In particular, the RF signal of the BTS (Base Station Transceiver Subsystem) and the CDMA2000-1X BTS (base station) for IS-95 The present invention relates to an optical coupler output monitoring system and a method for monitoring a wireless mobile communication network which can monitor the presence / absence of the optical combiner which combines the signals of the base stations and transmits the signals to the optical repeater.

In general, a base station and an optical repeater are used in a wireless mobile communication network according to the traffic density to expand the service area. The base station is installed according to the number of subscribers distributed in the service area in the area with high traffic density and the number of subscribers that can accommodate the service quality required by the mobile communication network. In addition, the optical repeater is used to economically expand the service area in a relatively low subscriber density area by relaying radio signals from a base station to a service area. Moreover, optical repeaters are installed in areas such as apartment villages, buildings, basements of buildings, subways, farming and fishing villages, and mountainous areas where the subscriber density is low and signals are difficult to reach from ground stations.

However, in such a wireless mobile communication network, the maintenance of the system constituting the network must be continuously performed to continuously provide a good call quality to the subscriber. Among them, the operation management service for the base station collects and analyzes the information collected from the base station manager (BSM) installed in the base station using a dedicated line connected between the base station and the base station controller (BSC). .

1 is a block diagram showing a base station monitoring system in a wireless mobile communication network according to the prior art. Referring to FIG. 1, a base station monitoring system in a conventional wireless mobile communication network includes a CDMA2000-1X BTS 10, an IS-95 BTS 12, an optical combiner 20, and an optical repeater donor 30 as follows. And an optical repeater 40, an RF monitoring device 50, and a BSM 60.

The CDMA2000-1X BTS 10 and the IS-95 BTS 12 process a CDMA channel as a base station device of a mobile communication system, and perform a wireless matching function and a base station controller (BSC) of a mobile communication terminal (MS). It is in charge of wire matching function. Each BTS (10, 12) modulates the baseband signal and the RFU (Radio Frequency Unit) for frequency modulation and gain control for radio matching, and transmits and receives to the base station controller (BSC) through various information packet T1 / E1 trunk Consists of DU (Digital Unit) and is redundant in case of failure.

In the wireless mobile communication network, as the CDMA2000-1X BTS 10 is released, an optical coupler 20 for integrating RF signals of the existing BTS 12 for the IS-95 and the CDMA2000-1X BTS 10 is inevitably required. It became. The optical coupler 20 transmits the RF signals of the CDMA2000-1X BTS 10 and the IS-95 BTS 12 to serve the RF signals of the CDMA2000-1X and IS-95 through one optical repeater 40. Combined and transmitted to the optical repeater donor 30. The optical repeater donor 30 transmits the signal of the optical combiner 20 to the optical repeater 40. The optical repeater 40 serves to relay RF signals of the CDMA2000-1X BTS 10 and the IS-95 BTS 12 transmitted through the optical repeater donor 30 to a service area having low subscriber density.

On the other hand, the RF monitoring device 50 receives the RF signals of the CDMA2000-1X BTS 10 and the IS-95 BTS 12 to remotely monitor the state of each base station (BTS), but the three base stations (BTS) And at least two measuring units 52, 54, 56 for detecting the antenna signals α, β, and γ divided into sectors, 130 °.

If the set base station type is OMNI, this means that one antenna signal α is transmitted to the mobile communication terminal. If the base station type is two sectors, two antenna signals α and β are transmitted to the mobile communication terminal, and if three sectors are used, three antenna signals α, β and γ are transmitted. The RF monitoring apparatus 50 currently operating in the base station is installing and operating three measuring units 52, 54, and 56 so as to detect antenna signals α, β, and γ divided into a total of sectors.

In the base station monitoring system configured as described above, the maintenance management of the modules and boards of the RFU and DU need to be performed at all times for the normal operation of the base station (BTS). In particular, continuous maintenance is essential because RFU's malfunctions do not appear instantaneously, and often the characteristics gradually deteriorate.

The RF monitoring device 50 detects the RF signals of the CDMA2000-1X BTS 10 and the IS-95 BTS 12 through the measuring units 52, 54, and 56, and the base station (BTS) 10, 12. I am checking the functions and characteristics of the boards and modules of my RFU and DU. The BSM 60 continuously maintains and manages information on the base stations (BTS) 10 and 12 measured by the RF monitoring apparatus 50.

However, since the conventional base station monitoring system merely checks the function and characteristics of the base station (BTS), if the failure occurs due to various factors such as degradation in the operation of the optical combiner 20, the RF of CDMA2000-1X and IS-95 The signals could not be combined and serviced by one optical repeater 40.

SUMMARY OF THE INVENTION An object of the present invention is to provide an optical coupler in an RF monitoring apparatus by providing a directional coupler for transmitting an optical coupler output in an apparatus for monitoring an RF signal of a BTS for an IS-95 and a CDMA2000-1X BTS for solving the problems of the prior art. The present invention provides an optical coupler output monitoring system in a wireless mobile communication network that can remotely monitor whether a failure occurs in the course of operating the optical coupler by checking the output of the coupler.

Another object of the present invention is to receive the RF signal of the BTS and CDMA2000-1X BTS for IS-95 and combine it through the optical coupler, and then transmit the optical coupler output by the directional coupler to the RF monitoring device. The present invention provides a method of monitoring an optical combiner output in a wireless mobile communication network that can remotely monitor whether an error occurs in the course of operating the optical combiner by checking the output.

In order to achieve the above object, the present invention provides a monitoring system for detecting RF transmission / reception of each base station in a wireless mobile communication network in which an IS-95 BTS (base station) and a CDMA2000-1X BTS (base station) are installed. Optical combiner that combines RF signal of CDMA2000-1X BTS, Optical repeater donor which transmits the output of optical coupler to optical repeater used for expanding service area in wireless mobile communication network, BTS and CDMA2000-1X BTS for IS-95 It monitors the status of these base stations by receiving the RF signal of the RF signal and receives the output of the optical coupler to check the optical coupler for abnormalities, and transmits the output of the optical coupler to the RF monitoring device and monitors the output. It has a directional coupler.

In order to achieve the above object, the present invention provides a monitoring method for detecting RF transmission / reception of each base station in a wireless mobile communication network in which a BTS (base station) for IS-95 and a CDMA2000-1X BTS (base station) are installed. Receiving RF signals of the CDMA2000-1X BTS and combining the RF signals of these base stations through an optical coupler; and monitoring the RF signal of the IS-95 / CDMA2000-1X base station at the direction combiner with the output of the optical coupler. Transmitting to the device, determining whether the output of the optical coupler is detected by the RF monitor, and if the output of the optical coupler is detected by the RF monitor, the optical coupler is in a normal state, and the output of the optical coupler is not detected. And determining the optocoupler in a bad state.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a block diagram showing an optical coupler output monitoring system in a wireless mobile communication network according to the present invention. 2, the optical coupler output monitoring system of the present invention is CDMA2000-1X BTS 100, IS-95 BTS 102, optical coupler 110, directional coupler 120, optical repeater The donor 130, the optical repeater 140, the RF monitoring device 150, and the BSM (160).

Here, the CDMA2000-1X BTS 100 and the IS-95 BTS 102 process a CDMA channel as a base station apparatus of a mobile communication system, and perform a wireless matching function of a mobile communication terminal (MS) and a wired base station controller (BSC). It is in charge of matching function. Each BTS (100, 102) is composed of an RFU for frequency modulation and gain control for radio matching, and a DU modulating the baseband signal and transmitting and receiving to the base station controller (BSC) through various information packet T1 / E1 trunk, Redundant in case of failure

Optical coupler 110 combines RF signals with CDMA2000-1X BTS 100 and IS-95 BTS 102 to service the CDMA2000-1X and IS-95 RF signals through one optical repeater 140. To the direction combiner 120.

The direction coupler 120 transmits the output of the optical coupler 110 to the RF monitor 150 and the output of the optical coupler 110 to the optical repeater donor 130. The direction coupler 120 may measure RF frequency, amplitude, phase, etc. by monitoring the output shape and size of the optical coupler 110.

The optical repeater donor 130 transmits the signal of the optical combiner 110 to the optical repeater 140, and the optical repeater 140 transmits the CDMA2000-1X BTS 100 and the IS- that are transmitted through the optical repeater donor 130. It serves to relay the RF signal of the BTS 102 for 95 to a service area with low subscriber density.

The RF monitoring unit 150 receives RF signals from the CDMA2000-1X BTS 100 and the IS-95 BTS 102 to remotely monitor the state of each of the base stations (BTSs), and the three sectors of the base station (BTSs). In order to detect the antenna signals α, β, and γ divided by 130 °, at least two measurement units 152, 154, and 156 are included. In addition, the RF monitoring apparatus 150 of the present invention receives a signal of the direction coupler 120 transmitted through the direction coupler 120 and checks whether the output of the optical coupler 110 is abnormal.

If the base station (BTS) type is OMNI, one antenna signal α is transmitted to the mobile communication terminal, and the RF monitoring device 150 typically has two or more measuring units 152, 154, and 156. The antenna unit (α) of the CDMA2000-1X and the IS-95 base station (BTS) is detected through one measuring unit 152. In the present invention, the signal of the direction coupler 120 is received by any one of the two measurement units 154 and 156 in the idle state, and the output abnormality of the optical coupler 110 is checked.

If the base station (BTS) type is set to two sectors, two antenna signals α and β are transmitted to the mobile communication terminal. Accordingly, the RF monitoring apparatus 150 typically has three measuring units 152, 154, and 156. ) Detects antenna signals α and β of the CDMA2000-1X and the IS-95 base station (BTS) through two measuring units 152 and 154. In the present invention, the signal received from the directional coupler 120 through the one measuring unit 156 in the remaining idle state is checked whether or not the output abnormality of the optical coupler 110. Alternatively, when the RF monitoring apparatus 150 detects antenna signals α, β, and γ of the CDMA2000-1X and the IS-95 base station (BTS) through the three measuring units 152, 154, and 156, The RF monitoring device 150 is provided with a separate optical coupler measuring unit (not shown) and receives the signal of the directional coupler 120 through the added optical coupler measuring unit. Checks whether the output of is abnormal or not.

As described above, the RF monitoring apparatus 150 of the present invention detects the output of the optical coupler 110 when the signal of the directional coupler 120 is received, and determines the operation state of the optical coupler 110 as normal. On the contrary, when the signal of the directional coupler 120 is not received, the output state of the optical coupler 110 is not sensed, so that the operation state of the optical coupler 110 is determined to be defective.

The base station management apparatus (BSM) 160 maintains and manages the information of the CDMA2000-1X and IS-95 base station (BTS) 100 and 102 measured by the RF monitoring apparatus 150 of the optical combiner 110. Notify the administrator if the operating status is normal or bad. That is, the base station management apparatus (BSM) 160 according to the signal detection of the direction combiner 120 sensed by the measurement unit in the idle state or the optical coupling unit provided separately from the base station measurement in the RF monitoring device 150 It informs the administrator whether the optical coupler 110 operates normally or a failure occurs in the course of operation.

3 is a flowchart illustrating an optical coupler output monitoring method in a wireless mobile communication network according to the present invention. Referring to FIGS. 2 and 3, an operation process of the optical coupler output monitoring system according to the present invention is as follows.

First, the optical combiner 110 receives the RF signals of the CDMA2000-1X BTS 100 and the IS-95 BTS 102 and receives the RF signals of the CDMA2000-1X and IS-95 through one optical repeater 140. The RF signals of these base stations (BTSs) 100 and 102 are combined and transmitted to the direction combiner 120 for servicing. (S10 to S20)

The direction coupler 120 receives the output of the optical coupler 110 and idle measuring units 154 and 156 of the RF monitoring apparatus 150 for monitoring the RF signal of the IS-95 / CDMA2000-1X base station (BTS). Or transmits to the added optical coupling measurement unit (not shown). (S30)

Then, the RF monitoring apparatus 150 detects whether the signal of the direction combiner 120 is received from the measuring unit 154 or 156 in the idle state among the measuring units 152, 154 and 156 measuring the base station RF signal. Alternatively, the RF monitor 150 detects whether an output signal of the direction combiner 120 is received from the measurement unit for optical coupling separately added (S40).

As a result of the determination of S40, when the output signal of the direction combiner 120 is detected by the RF monitoring apparatus 150, the operating state of the optical coupler 110 is measured to be normally operated and transmitted to the base station management apparatus (BSM) 160. (S50)

On the other hand, as a result of the determination of S40, if the output signal of the directional coupler 120 is not detected by the RF monitoring device 150, it is measured that the operating state of the optical coupler 110 is not operated due to a defect. The measured bad signal is transmitted to the base station management apparatus (BSM) 160. (S60)

4A and 4B are graphs illustrating examples of a base station RF signal and an optical coupler output signal measured by an RF monitoring apparatus in an optical coupler output monitoring system in a wireless mobile communication network according to the present invention.

The RF monitoring apparatus of the optical combiner output monitoring system according to the present invention monitors the RF signal of the CDMA2000-1X BTS and the BTS for IS-95 (FIG. 4A), and monitors the output signal of the optical combiner transmitted through the directional coupler. You can check. At this time, the RF signal of the base station (BTS) measured by the RF monitoring device and the output signal waveform of the optical coupler are similar, but there is only a difference in signal strength.

As described above, the present invention has a direction coupler for transmitting the optical coupler output to the RF monitoring device in the system for monitoring the RF signal of the BTS for IS-95 and the CDMA2000-1X BTS. By checking, it is possible to remotely monitor whether the optical coupler is operating normally or not due to a failure.

On the other hand, the present invention is not limited to the above-described embodiment, various modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims to be described later.

1 is a block diagram showing a base station monitoring system in a wireless mobile communication network according to the prior art,

2 is a block diagram showing an optical coupler output monitoring system in a wireless mobile communication network according to the present invention;

3 is a flowchart illustrating a method of monitoring an optical coupler output in a wireless mobile communication network according to the present invention;

4A and 4B are graphs illustrating an example of a base station RF signal and an optical coupler output signal measured by an RF monitoring apparatus in an optical coupler output monitoring system in a wireless mobile communication network according to the present invention;

<Description of the code | symbol about the principal part of drawing>

100: BTS for CDMA2000 1X (Base Station)

102: BTS for base station (base station)

110: optical coupler 120: directional coupler

130: optical repeater donor 140: optical repeater

150: RF monitoring device 152, 154, 156: two or more measuring units

160: BSM (base station management device)

Claims (9)

In the monitoring system for detecting the RF transmission and reception of each base station in a wireless mobile communication network equipped with a BTS (base station) and a CDMA2000-1X BTS (base station) for IS-95, An optical coupler for coupling the RF signal of the BTS for IS-95 and the CDMA2000-1X BTS; An optical repeater donor for transmitting the output of the optical coupler to an optical repeater used for expanding a service area in the wireless mobile communication network; An RF monitoring device for receiving the RF signals of the IS-95 BTS and the CDMA2000-1X BTS to remotely monitor the state of the base stations, and checking the abnormality of the optical coupler by receiving the output of the optical coupler; And And a directional coupler for transmitting the output of the optical coupler to the RF monitoring device and monitoring the transmitted output. The apparatus of claim 1, wherein the RF monitoring apparatus receives a signal of the direction combiner from one measuring unit in an idle state in at least two measuring units respectively detecting antenna signals divided into three sectors of the base station. Optical coupler output monitoring system in a wireless mobile communication network. The optical linking device according to claim 1 or 2, wherein the directional coupler transmits the output of the optical coupler to at least one measuring unit in an idle state in at least two measuring units of the RF monitoring apparatus. Combiner output monitoring system. The apparatus of claim 1, wherein the RF monitoring apparatus includes a separate optical coupler measuring unit in addition to at least two measuring units respectively detecting antenna signals divided into three sectors of the base station. Optical coupler output monitoring system in a wireless mobile communication network, characterized in that receiving the signal of the directional coupler. The optical coupler output monitoring system according to claim 1 or 4, wherein the directional coupler transmits the output of the optical coupler to an additional optical coupler measuring unit of the RF monitoring apparatus. The apparatus of claim 1, wherein the RF monitoring apparatus determines that the optical coupler is in a normal state when the output of the optical coupler is detected, and the optical coupler is in a bad state when the output of the optical coupler is not detected. Optical coupler output monitoring system in a wireless mobile communication network. A monitoring method for detecting RF transmission / reception of each base station in a wireless mobile communication network in which a BTS (base station) and a CDMA2000-1X BTS (base station) for IS-95 are installed, Receiving RF signals of the BTS for the IS-95 and the CDMA2000-1X BTS and combining RF signals of these base stations through an optical combiner; Transmitting the output of the optical coupler to an RF monitoring apparatus for monitoring the RF signal of the IS-95 / CDMA2000-1X base station in a direction combiner; Determining whether an output of the optical coupler is detected by the RF monitoring apparatus; And Determining that the optical coupler is in a normal state when the output of the optical coupler is detected by the RF monitoring device, and determining the optical coupler in a bad state when the output of the optical coupler is not detected. Optical coupler output monitoring method in mobile communication network. The method of claim 7, wherein the transmitting of the output of the optical coupler to the RF monitoring device for monitoring the RF signal of the IS-95 / CDMA2000-1X base station in the direction combiner, The output of the optical coupler is transmitted from the directional coupler to one measuring unit which is idle among two or more measuring units of the RF monitoring apparatus each detecting antenna signals divided into three sectors of the base station. The optical coupler output monitoring method in a wireless mobile communication network, characterized in that receiving the signal of the directional coupler to one of the measuring unit idle state. The method of claim 7, wherein the transmitting of the output of the optical coupler to the RF monitoring device for monitoring the RF signal of the IS-95 / CDMA2000-1X base station in the direction combiner, The directional coupler transmits the output of the optical coupler to an optical coupler measuring unit separately provided in addition to at least two measuring units of the RF monitoring apparatus each detecting antenna signals divided into three sectors of the base station. Apparatus is a method for monitoring the optical coupler output in a wireless mobile communication network, characterized in that receiving the signal of the directional coupler through an additional optical coupler measuring unit.