KR100916106B1 - Intermodulation effect minimization technique for using existing using infra in mobile communication network - Google Patents

Abstract

The present invention relates to an intermodulation detection system and method for utilizing an existing infrastructure in a mobile communication network. The present invention relates to a device that is added to an existing infrastructure. It is an invention of a system and method for adding new equipment by utilizing an existing infrastructure by checking and adjusting a part giving an abnormality or generating an abnormal alarm.

In the mobile communication network according to the present invention, the intermodulation sensing method for utilizing an existing infrastructure includes a first stage in which the PIM measuring instrument measures the degree of intermodulation, and a degree of intermodulation measured by the PIM measuring instrument in the first step is determined by the receiving end of the system. Step 2 of checking whether the PIM meter is causing the intermodulation, and step 3 of checking whether the PIM meter is the cause of the intermodulation; And four steps of notifying where the cause of occurrence is caused.

Infrastructure, Intermodulation, PIM, Splitter.

Description

Intermodulation effect minimization technique for using existing using infra in mobile communication network}

1 is a block diagram of a conventional mobile communication network according to the addition of a new system.

2 is a configuration diagram of a mobile communication network for utilizing a conventional existing infrastructure.

3 is a block diagram of an intermodulation sensing system for utilizing an existing infrastructure in a mobile communication network according to the present invention.

4 is a flowchart of a method for detecting intermodulation for utilizing an existing infrastructure in a mobile communication network according to the present invention.

The present invention relates to an intermodulation detection system and method for utilizing an existing infrastructure in a mobile communication network. This invention is a system and method for adding new equipment by utilizing the existing infrastructure by measuring and adjusting and identifying areas that affect intermodulation when an error occurs or generating an alarm.

As the mobile network evolves, various systems (eg, 2G, CDMA20001X, 1X EV-DO, WCDMA, WiBro, satellite DMB, etc.) have been added, so that mobile operators can move to use the newly added system as shown in FIG. We have to add a network.

However, in addition to casting cost (additional cost of main equipment to operate additional system) when constructing a system for expansion of mobile communication network, additional cost (feeder, distributor, antenna, etc.) and construction cost are expensive. Efforts were made to utilize the infrastructure.

Therefore, as shown in FIG. 2, only the main equipment added to the existing infrastructure (feeder, divider, band combiner, antenna, etc.) was operated in combination, but in the existing infrastructure shared with each other, the frequency band used by the system is different, and the intermodulation generated between frequencies. In order to prevent this, the intermodulation phenomenon was solved by lowering the output of frequency than usual because of the situation that the infrastructure cannot be shared due to (IM: Intermodulation) .However, in order to secure good service coverage and maintain quality, the method of always lowering the output There is no realization, and there is a problem in that it cannot detect or process an intermodulation phenomenon due to an error of a feeder or an antenna other than a band combiner or a divider to which signals of each system are combined.

The present invention has been made to solve the inconvenience of the prior art as described above,

An object of the present invention is to install a PIM measurer to measure the degree of power intermodulation (PIM) in the existing infrastructure to measure the PIM of the existing infrastructure and cause the intermodulation before the existing infrastructure cannot be shared due to the intermodulation phenomenon. It is to provide a system and method for ensuring good service coverage and maintaining quality by detecting and notifying the manager to process.

An object of the present invention is to install a PIM measuring instrument to measure the degree of intermodulation in the existing infrastructure to measure the PIM of the existing infrastructure, if the cause of the intermodulation frequency before output becomes impossible to share the existing infrastructure due to the intermodulation phenomenon is one hour It is to provide a system and method for ensuring good service coverage and maintaining quality by lowering the output of each frequency to eliminate intermodulation and improving the degree of intermodulation to increase output again.

In order to achieve the above object, an intermodulation sensing device for utilizing an existing infrastructure in a mobile communication network according to the present invention includes a sensor for receiving an external signal, transmitting a signal generated from the system to the outside, and detecting a tightening state and whether a signal is transmitted or received. One or more antennas included and the signals transmitted from the antennas or signals transmitted from the in-building equipment of the mobile communication system are combined into one or divided into different antennas or in-building equipment of the mobile communication system, and are being distributed and combined. One or more distribution combiners including a sensor for detecting intermodulation and an adjustment unit for adjusting the output of each signal to stop the mutual modulation, a feeder for connecting the antenna and the distribution coupler, and a signal in contact with the feeder Cannot send or receive signals or modulation occurs in the transmitted or received signal A feeder breakage measuring device for checking whether there is a power supply; And a PIM meter for measuring the degree of intermodulation.

In the mobile communication network according to the present invention, the intermodulation sensing method for utilizing an existing infrastructure includes the step 1 of measuring the PIM by the PIM measurer, and the PIM measured by the PIM measurer of the step 1, without affecting the quality of the receiving end of the system. Step 2 of checking whether or not the predetermined value, and the step 3 of the PIM measuring device to check whether the antenna is tightened and the signal transmission and reception of the antenna through the sensor of the antenna, and the PIM measuring device through the sensor of the distribution combiner Step 4 to check whether the intermodulation occurs during distribution and coupling of the signal, and 5 to check whether the signal is not transmitted or received due to a breakdown or break in the feed line through the feed line breakage measuring device, or the modulation occurs in the signal transmitted and received Step and work where the PIM meter can be eliminated by adjusting the cause of the intermodulation Step 6 to check whether the sheds, step 7, to eliminate the adjustment portion intermodulation phenomenon intermodulation lowering the output of the frequency takes place in the combiner and distribution; The PIM measuring unit includes an eight step of notifying the administrator of the fact that the intermodulation has occurred and the part causing the intermodulation.

Hereinafter, the intermodulation sensing system and method for utilizing the existing infrastructure in the mobile communication network according to the present invention will be described in more detail.

3 is a structural diagram of an intermodulation sensing system for utilizing an existing infrastructure in a mobile communication network according to the present invention.

In the mobile communication network according to the present invention, an intermodulation sensing system for utilizing an existing infrastructure is provided with at least one antenna 100, at least one distributor 200, a band combiner 300, and the antenna 100 as shown in FIG. The feeder is configured to include a feeder for connecting the divider 200 and the band combiner 300, the feeder breakage measuring unit 400 and the PIM measuring unit 500.

The antenna 100 is configured to receive an external signal and transmit a signal generated by the system to the outside, and includes a sensor for detecting whether the antenna is tightened and whether the signal is transmitted or received by the antenna 100.

As shown in FIG. 3, the divider 200 is connected to a plurality of antennas 100 or the antenna and other divider 200 to combine the signals transmitted from the antenna 100 or the other divider 200 into one. The signal is transmitted to the other splitter 200 or the band combiner 300, and the signal transmitted from the other splitter 200 or the band combiner 300 is divided and transmitted to the connected antenna 100 or the other splitter 200. Sensors that detect whether intermodulation occurs during distribution and coupling of the controller and an adjuster for stopping intermodulation by adjusting the output of each signal.

The band combiner 300 is coupled between the divider 200 and various mobile communication systems (eg, 2G, CDMA20001X, 1X EV-DO, WCDMA, WiBro, satellite DMB, etc.) as shown in FIG. Is a sensor that divides and transmits the signals transmitted to the various systems, and combines the signals transmitted from the various mobile communication systems and transmits them to the distributor 200. An adjustment is included to stop the intermodulation by adjusting the output.

The feed line breakage measuring unit 400 is configured to check for breakage by contacting the feed line connecting the antenna 100, the divider 200, and the band combiner 300, so that a signal is not transmitted or received due to an abnormality or break in the feed line. It is a sensor to check whether modulation occurs in the transmitted / received signal.

PIM measuring unit 500 is a configuration for measuring the PIM (Power InterModulation) value indicating the degree of intermodulation is coupled between the band combiner and various systems, and transmits a search signal to the band combiner 400 and transmits to the antenna 100 If the PIM value of the returned frequency is greater than or equal to a predetermined value, it is determined that the intermodulation occurs. If the intermodulation occurs, the sensor of the antenna 100, the distributor 200, the band combiner 300, and the feed line breakage measuring unit 400 It operates to find and adjust the cause of the intermodulation or notify the administrator.

The search signal is a signal transmitted at a general frequency instead of a frequency of a specific band, and may be differently designated according to a system in which the PIM measuring apparatus 500 is combined.

The PIM value is an intermodulation (IM: InterModulation) that is transmitted to various antennas in the splitter 200 and then transmitted to the outside antenna when the signals transmitted from various mobile communication systems are combined in the band combiner 300. The higher the value, the greater the information of intermodulation.

4 is a flowchart of a method for detecting intermodulation for utilizing an existing infrastructure in a mobile communication network according to the present invention.

In the mobile communication network according to the present invention, the intermodulation detection method for utilizing the existing infrastructure is performed in the IM measuring step S100, as shown in FIG. (S300), distributor check step (S400), band combiner check step (S500), feeder line check step (S600), self-adjustment check step (S700), self-adjustment step (S800) and notification to the administrator step (S800) It includes.

The IM measurement step (S100) is a step in which the PIM measuring unit 500 transmits a search signal to the band combiner 400 and transmits a search signal to the antenna 100 and measures the degree of intermodulation according to the PIM value of the search signal returned. to be.

In the step S200 of checking whether the IM is less than the lowest value at which the quality does not decrease, the PIM measurer 500 determines whether the PIM value measured in the IM measurement step S100 is equal to or less than a predetermined value that does not affect the receiving end of the system. It's a step.

Whether the IM is less than the lowest value that does not decrease the quality The lowest value that does not decrease the quality of the step (S200) is a different value for each system output, environment.

In the antenna checking step (S300), if the IM is less than the lowest value at which the quality does not decrease, when the PIM value is higher than the minimum value at step S200, the PIM measuring unit 500 tightens the antenna through the sensor of the antenna 100. It is a step of checking whether the state and the signal transmission and reception in the antenna 100 are being performed.

The distributor checking step (S400) is a step in which the PIM measuring unit 500 determines whether intermodulation occurs during the distribution and coupling of signals through the sensor of the distributor 200.

The band combiner checking step (S500) is a step in which the PIM measuring unit 500 determines whether intermodulation occurs during distribution and combining of signals through a sensor of the band combiner 300.

The feed line check step (S600) is a step in which the PIM measuring unit 500 checks whether a signal is not transmitted or received due to an abnormality or break in the feed line through the feed line breakage measuring unit 400, or modulation occurs in the transmitted or received signal.

The step of checking whether the self adjustment is possible (S700) is a step in which the PIM measuring unit 500 checks whether the cause of the intermodulation is solved by adjustment.

In the step of checking whether the self-adjustment is possible (S700), the PIM measuring unit 500 is capable of self-adjustment when intermodulation occurs in the splitter 200 and the band combiner 300, which can eliminate intermodulation according to the adjustment of the adjusting unit. To judge.

The self-adjusting step (S800) is a step in which the adjuster of the divider 200 and the band combiner 300 lowers the output of the frequency at which the intermodulation has occurred, thereby eliminating the intermodulation phenomenon.

The step of notifying the manager (S800) is the mutual information to the manager if it is confirmed that the PIM measuring unit 500 is capable of self-adjustment in the step (S700) where the intermodulation occurs in the non-splitter 200 and the band combiner 300 It is the step of notifying the fact that modulation is occurring and what is causing the intermodulation.

The method of notifying the manager to the manager in the step of notifying the manager (S800) includes an email, a text message, and a method of directly displaying the manager terminal.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. You will understand that. Accordingly, the embodiments described above are exemplary in all respects and not restrictive.

In the mobile communication network according to the present invention as described above, an apparatus and method for detecting an intermodulation for utilizing an existing infrastructure may be installed by installing a PIM measuring device measuring the degree of intermodulation in an existing infrastructure and measuring the degree of intermodulation of the existing infrastructure. By detecting and notifying the cause of intermodulation before the existing infrastructure becomes impossible to share due to the modulation, it is effective to secure good service coverage and maintain quality.

Claims (7)

One or more antennas including a sensor for receiving an external signal, transmitting a signal generated by the system to the outside, and detecting a tightening state of the antenna and whether a signal is transmitted or received; A signal transmitted from the antennas or a signal transmitted from an inbuilding device of a mobile communication system is combined into one or divided into different antennas or inbuilding devices of a mobile communication system, and detecting whether intermodulation occurs during distribution and combination of signals. One or more distribution combiners comprising an adjustment section for adjusting the output of the sensor and each signal to stop intermodulation; A feeder that connects the antenna and the distribution coupler; A feeder breakage measuring device which checks whether a signal cannot be transmitted or received due to contact with the feeder or if modulation occurs in a signal that is transmitted or received; A PIM measurer for transmitting a search signal to the distribution combiner and measuring a degree of intermodulation according to a power intermodulation (PIM) value of a search signal transmitted to the antenna and returned; The PIM measuring device detects and adjusts the cause of the intermodulation by operating the sensor of the antenna and the distribution combiner and the feeder breakage measuring device if the intermodulation occurs, or notifies the administrator of the intermodulation for utilizing the existing infrastructure. Device. The method according to claim 1, The distribution combiner, A band combiner coupled to in-building equipment of one or more mobile communication systems to combine signals transmitted from the in-building equipment of the mobile communication system, and to divide a signal transmitted from an antenna into in-building equipment of each mobile communication system; And a one or more splitters coupled between the band combiner and the antenna to combine the signals transmitted from one or more antennas, transmit the signals to the band combiner, and divide the signals transmitted from the band combiner into antennas. Intermodulation Sensing Device for Leveraging Existing Infrastructure in Office. The method according to claim 1, The search signal transmitted from the PIM measuring device is a signal transmitted at a general frequency instead of a frequency of a specific band and may be differently designated according to a system in which the PIM measuring device is combined. Sensing device. One or more antennas including a sensor for receiving an external signal, transmitting a signal generated by the system to the outside, and detecting a tightening state of the antenna and whether a signal is being transmitted or received, and a signal or a mobile communication system transmitted from the antennas. The signals transmitted from the in-building equipment of the unit are combined into one or divided into different antennas or in-building equipment of the mobile communication system, and intermodulation is performed by adjusting the output of each signal and a sensor that detects whether intermodulation occurs during distribution and combining of the signals. One or more distribution combiners including an adjustment unit for stopping the feeder, a feeder line connecting the antenna and the distribution coupler, and a feeder line check to check that no signal is transmitted or received by contacting the feeder line or modulation occurs in the transmitted or received signal. Meter and PIM to measure degree of intermodulation In a system that includes a meter, the intermodulation sensing method A step 1 in which the PIM meter measures power intermodulation (PIM); Step 2 to check whether the PIM measuring device measured in step 1 is below a certain value does not affect the quality of the receiving end of the system, The PIM measuring unit checks whether the antenna is tightened and whether the signal is transmitted or received by the antenna through a sensor of the antenna; A step 4 of checking, by the PIM measuring device, that the intermodulation occurs during the distribution and coupling of the signal through the sensor of the distribution combiner; Checking, by the PIM measuring unit, whether or not a signal is transmitted or received due to an abnormality or break in the feed line through a feed line breakage measuring device, or modulation occurs in the transmitted / received signal; And a sixth step in which the PIM measuring unit notifies an administrator of the fact that the intermodulation has occurred and a part causing the intermodulation. 6. The method according to claim 4, Step 7 of confirming, by the PIM measuring unit, that the cause of the intermodulation is being solved by adjustment; The control unit of the distribution combiner further comprises an eight step of eliminating the intermodulation phenomenon by lowering the output of the frequency at which the intermodulation has occurred, the intermodulation sensing method for utilizing the existing infrastructure in the mobile communication network. The method according to claim 4 or 5, The predetermined value that does not affect the quality of the receiving end of the two-stage system is a different value for each of the system output, environment, mutual modulation detection method for utilizing the existing infrastructure in the mobile communication network. The method according to claim 4 or 5, The method of notifying the administrator by the PIM measuring device in step 6 includes an e-mail and a text message.

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