KR100735471B1 - Automatic gain control system and method for repeater - Google Patents

Abstract

An automatic gain control system and method of a repeater are provided to reduce human sources and costs required for checking and managing a repeater by automatically controlling the gain of a repeater without necessity for an operator to directly visit a site. A repeater remote module(31) detects a forward signal output value of a repeater and transfers it, and controls output gain of the forward signal. A repeater doner module(32) controls the remote module(31) to detect the forward signal output value of the repeater and transfers the detected signal output value, and controls attenuation value of an attenuator of the remote module(31) according to a forward gain control command. A repeater controller(33) transmits a forward signal detect command to the doner module(32), compares the forward signal output value of the repeater and a pre-set forward signal reference output value to calculate a forward signal output difference value, and transmits the forward gain control command including the attenuation value to the doner module(32) to control the attenuation value of the attenuator of the remote module(31) to thus control the forward gain of the repeater.

Description

Repeater Automatic Gain Control System and Method {Automatic Gain Control System And Method For Repeater}

1 is a block diagram showing a forward gain automatic adjustment system of a repeater according to the present invention.

Figure 2 is a flow chart for explaining the operation of automatically adjusting the forward gain of the repeater in the system according to the present invention.

3 is a block diagram illustrating a system for automatically adjusting a reverse gain of a repeater according to the present invention.

4 is a flowchart illustrating an operation of automatically adjusting a reverse gain of a repeater in a system according to the present invention.

5 is a block diagram illustrating a system for automatically adjusting a reverse gain of a repeater according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

11, 31, 51: remote module 11-1: signal output detector

11-2: Attenuator 31-1, 51-1: Signal Generator

12, 32, 52: donor module 12-1, 32-2, 52-2: control unit

32-1, 52-1: attenuator 13, 33, 53: repeater control device

34, 54: RF monitoring device 55: gain adjustment device

The present invention relates to repeater gain adjustment, and more particularly, to a repeater automatic gain adjustment system and method for automatically adjusting the forward and reverse signal output levels of a repeater connected to a base station in a mobile communication network.

In general, a repeater is installed and operated as a method for efficiently operating a base station resource or providing a normal communication service for a communication range or economically expanding a coverage of a base station in a mobile communication network. Is connected to a base station, and mainly uses an optical repeater comprising a donor module for transmitting and receiving signal links with the base station and a remote module for transmitting and receiving signal links with the mobile station.

Since the donor module and the remote module are typically connected by an optical cable, the repeater has very stable transmission and reception signal transmission and reception between the base station and the repeater.

In addition, in order to connect the donor module and the remote module of the repeater with an optical cable, connection materials such as an optical connector and an optical jumper cord are required. In the past, when the repeater is operated for a long time, dust or incomplete detachment or an optical jumper of the optical connector portion As the loss of light gradually increases due to improper curvature of the cord, the stress of the optical cable, etc., the signal output of the repeater may be lower than the initially set value, or, conversely, the signal of the repeater may be caused by the failure of the repeater itself or other causes. There is a problem that the output is larger than the initially set value.

However, when there is a characteristic defect such that the signal output of the repeater decreases or becomes larger than the initially set value in the mobile communication network, the service area of the corresponding base station or repeater may be reduced or the call quality may deteriorate. The mobile communication operator operating the repeater has a problem in that it is inconvenient to periodically visit the repeater and directly check its signal output characteristics, and there is a problem that a considerable cost occurs in the checking process.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to implement a repeater automatic gain adjustment system and method capable of periodically adjusting forward and reverse signal output levels of a repeater connected to a base station in a mobile communication network.

It is another object of the present invention to reduce the manpower and costs for repeater inspection and management by automatically performing repeater gain adjustments without the operator visiting the site directly.

Another object of the present invention is to be able to continuously maintain the call quality of the repeater.

A feature of the present invention for solving the above object is a module that supports the transmission and reception signal link with the mobile station, detects and transmits the forward signal output value of the repeater, and adjusts the output gain of the forward signal according to the attenuation value control. A repeater remote module; A module supporting a transmission / reception signal link with a base station, wherein the remote module is controlled according to a forward signal detection command to detect a forward signal output value of a repeater, and then the detected forward signal output value is transmitted, and the forward gain adjustment command is performed. A repeater donor module for controlling the attenuation value of the attenuator in the remote module; Sends a forward signal detection command to the donor module, compares the forward signal output value of the repeater and the predetermined forward signal reference output value as a result, calculates a forward signal output difference value, and corresponds to the calculated forward signal output difference value Implementing a repeater automatic gain adjustment system comprising a repeater control device for adjusting the forward gain of the repeater by adjusting the attenuation value of the attenuator in the remote module by transmitting a forward gain adjustment command carrying the attenuator control attenuation value to the donor module. It is.

Here, the repeater control device, characterized in that for managing the forward signal reference output value of each repeater and the attenuator control attenuation value of the remote module corresponding to the forward signal output difference value, and manages the forward gain adjustment function of the repeater After performing, the forward gain adjustment function including at least one of the forward gain adjustment, the forward signal output value, and the forward gain adjustment number for each repeater is stored, managed together with the forward gain adjustment function execution time information, and reported to the operator. It is done.

Another feature of the present invention is a module for supporting a transmission / reception signal link with a mobile station, the repeater remote module having a built-in signal generator which is driven on / off by external control and generates a reverse reference carrier of a constant output level during on-drive. ; A module supporting a transmission / reception signal link with a base station, the signal generator of the remote module being driven on according to a reverse carrier generation command to output a reverse reference carrier, delivering the reverse reference carrier to a base station receiving end, and adjusting a reverse gain. A repeater donor module for controlling the attenuation value of the internal attenuator in accordance with the command; An RF monitoring apparatus for measuring and transmitting a reverse reference carrier output value at the base station receiver when the reverse reference carrier outputted by the signal generator of the remote module is input to the base station receiver through the donor module; After transmitting a reverse carrier generation command to the donor module, a reverse signal output difference value is calculated by comparing a reverse reference carrier output value and a predetermined reverse signal reference output value at a base station receiving end transmitted from the RF monitoring apparatus to calculate the reverse signal. Repeater control apparatus including a repeater control device for adjusting the reverse gain of the repeater by adjusting the attenuation value of the attenuator in the donor module by transmitting a reverse gain adjustment command containing the attenuator control attenuation value corresponding to the signal output difference value to the donor module It is to implement an automatic gain adjustment system.

Here, the reverse reference carrier delivered to the base station receiving end is input to the directional coupler connected to the output terminal of the low noise amplifier in the base station receiving end.

The RF monitoring apparatus is connected to a path divider located between the directional coupler of the base station receiving end and the intermediate frequency converter, and is connected at the base station receiving end through a path divider connected to the output end of the directional coupler according to a reverse carrier measurement request of the repeater control device. It characterized by measuring the reverse reference carrier output value of.

The repeater control device may be configured to manage the reverse signal reference output value for each repeater and the attenuator control attenuation value of the donor module corresponding to the reverse signal output difference value, and manage the reverse gain adjustment function of the repeater. After performing, the reverse gain adjustment function including at least one of the reverse gain adjustment, the reverse signal output value, and the reverse gain adjustment number for each repeater is stored and managed together with the reverse gain adjustment execution time information, and reported to the operator. It is done.

In addition, another aspect of the present invention, the step of transmitting a forward signal detection command to the repeater donor module when the forward gain adjustment command is input to the repeater control device or reaches a predetermined forward gain adjustment period; Controlling, by the donor module, a signal output detection unit of a remote module to detect a forward signal output value of the repeater, and transferring the forward signal output value of the repeater to the repeater control device as a result; A process of calculating an output difference value by comparing the forward signal output value of the repeater transmitted from the donor module with a predetermined forward signal reference output value, and then extracting an attenuation value for attenuator control from the database using the calculated output difference value. and; Transmitting a forward gain adjustment command carrying the extracted attenuation value to the donor module and automatically adjusting the forward gain of the repeater by adjusting the attenuation value of the attenuator in the remote module according to the forward gain adjustment command in the donor module. To implement a repeater automatic gain adjustment method comprising a.

In the above-described repeater automatic gain adjustment method, the repeater control device automatically adjusts the forward gain of the repeater, stores and manages the performance of the corresponding forward gain adjustment function with current time information, and forwards the gain gain adjustment function to the operator if necessary. The method may further include reporting a performance history. When the forward signal output value of the repeater transmitted from the donor module is the same as a preset forward signal reference output value, the performance of the corresponding forward gain adjustment function is recorded together with the current time information. Store and manage, and if necessary, further comprising reporting a performance history of the forward gain adjustment function to the operator.

Still another aspect of the present invention is to transmit a reverse carrier generation command to a repeater donor module when a reverse gain adjustment command is input to a repeater control device or to reach a preset reverse gain adjustment period, and to measure the reverse carrier of the repeater using an RF monitoring device. Requiring a process; Generating a reverse reference carrier of a predetermined output level by driving the signal generator of the remote module in the donor module, and then transmitting the reverse reference carrier generated by the signal generator to a base station receiving end; Measuring a reverse reference carrier output value input from the RF monitoring apparatus to the base station receiving end, and then transmitting the measured reverse reference carrier output value from the base station receiving end to the repeater control device; Comparing the reverse reference carrier output value at the base station receiving end transmitted from the RF monitoring apparatus with a predetermined reverse signal reference output value and calculating the output difference value, the attenuation value required for attenuator control from the database using the calculated output difference value Extracting the process; A repeater including a step of transmitting a reverse gain adjustment command carrying the extracted attenuation value to the donor module and automatically adjusting the reverse gain of the repeater by adjusting the attenuation value of the internal attenuator according to the reverse gain adjustment command in the donor module. Implementing an automatic gain adjustment method.

In the above-described repeater automatic gain adjustment method, the repeater control device automatically adjusts the reverse gain of the repeater, and then stores and manages the performance of the corresponding reverse gain adjustment function with current time information, and if necessary, reverse gain adjustment to the operator. The method may further include reporting a performance history. When the reverse signal output value from the base station receiver transmitted from the RF monitoring apparatus is the same as the preset reverse signal reference output value, the corresponding reverse gain adjustment function is performed at a current time. Store and manage with the information, and if necessary, further comprising reporting to the operator the performance of the reverse gain adjustment function.

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

In the present invention, to implement a repeater automatic gain adjustment system that can automatically adjust the forward and reverse signal output of the repeater connected to the base station at the remote location without the operator's intervention, such a system is a forward and reverse It is divided into cases.

First, the automatic forward gain adjustment system of the repeater according to the present invention has a configuration in which the remote module 11 of the repeater, the donor module 12 and the repeater control device 13 interlock with each other.

The remote module 11 is a repeater module implemented on an actual field for the purpose of transmitting / receiving a signal link with a mobile station. The remote module 11 detects the forward signal output value of the repeater under the control of the donor module 12 and converts the forward signal output value to the donor module ( A signal output detection unit 11-1 for transmitting to 12) and attenuator 11-2 in which the attenuation value is controlled by the donor module 12 when automatically adjusting the output gain of the forward signal. .

The donor module 12 is a repeater module implemented on the base station side for the purpose of transmitting and receiving signal links with the base station. The donor module 12 is a signal output detecting unit 11-1 of the remote module 11 according to a forward signal detection command of the repeater control device 13. ) To detect the forward signal output value of the repeater, and then transmit the detected forward signal output value to the repeater control device 13, and according to the forward gain adjustment command of the repeater control device 13, It has the structure containing the control part 12-1 which controls the attenuation value of the attenuator 11-2.

The repeater control device 13 is connected to the donor module 12, and forwards a forward signal to the control unit 12-1 of the donor module 12 when the operator inputs a forward gain adjustment command or a predetermined forward gain adjustment period. Forwards the detection command, compares the forward signal output value of the repeater with the predetermined forward signal reference output value, calculates the forward signal output difference value, and forwards the attenuation value corresponding to the calculated forward signal output difference value. By transmitting a gain adjustment command to the control unit 12-1 of the donor module 12, the attenuation value of the attenuator 11-2 in the remote module 11 is adjusted to serve to adjust the forward gain of the repeater. In addition, when the forward signal output value of the repeater transmitted from the donor module 12 is the same as the preset forward signal reference output value, the forward gain adjustment of the repeater is not performed.

At this time, the repeater control device 13 is configured to automatically adjust the forward gain of each repeater connected to the base station, and the attenuation value corresponding to the forward signal reference output value for each repeater and the forward signal output difference value (ie Adjust the attenuator to manage the attenuation value required to automatically adjust the forward signal output level of the repeater to the reference output level.Manage the database and execute the repeater forward gain adjustment function. Forward signal output value, number of forward gain adjustments, etc.) are stored and managed along with the information on the execution time of the forward gain adjustment function and reported to the operator.

An operation of automatically adjusting the forward gain of the repeater in the system having such a configuration will be described in detail with reference to FIG. 2.

First, when the donor module 12 of the repeater and the repeater control device 13 are connected, when the operator inputs a forward gain adjustment command or reaches a preset forward gain adjustment period (eg, one day period), the repeater The control device 13 first transmits a forward signal detection command to the donor module 12 connected thereto for adjusting the forward gain of the repeater (step S21).

When the control unit 12-1 of the donor module 12 receives the forward signal detection command from the repeater control device 13, the remote module (12) detects the forward signal output value of the repeater according to the forward signal detection command. The signal output detector 11-1 of 11 is controlled.

At this time, when the forward signal output value of the repeater is detected by the signal output detector 11-1 of the remote module 11 under the control of the donor module 12, the forward signal output value is transmitted to the donor module 12, The control unit 12-1 of (12) transmits the forward signal output value of the repeater received from the remote module 11 to the repeater control device 13 (step S22).

In this way, when the repeater control device 13 receives the forward signal output value of the repeater from the donor module 12, the repeater control device 13 compares the forward signal output value of the repeater with a predetermined forward signal reference output value managed in the database to determine whether they are the same. If the forward signal output value of the repeater transmitted from the donor module 12 is the same as the preset forward signal reference output value, the forward gain adjustment of the repeater is not performed, except that the forward direction of the repeater is performed. Details of the performance of the forward gain adjustment function for gain management, for example, information indicating that forward gain adjustment is not performed for the repeater, forward signal output value of the repeater, information on the number of forward gain adjustments to date, and so on. Store and manage with function execution time information It is (step S24).

However, when the forward signal output value of the repeater transmitted from the donor module 12 is not the same as the preset forward signal reference output value, the repeater control device 13 may be configured with the forward signal output value of the repeater transmitted from the donor module 12. The forward signal reference output value is compared to calculate the output difference value, that is, the forward signal output difference value (step S25).

After the repeater control device 13 calculates the forward signal output difference value, the repeater control device 13 searches the database using the forward signal output difference value obtained as a result of the calculation to control the attenuator 11-2 of the remote module 11. After extracting the required attenuation value, that is, the attenuation value necessary to automatically adjust the forward signal output level of the repeater to the reference output level, the forward gain of the repeater is automatically transmitted to the donor module 12 by sending a forward gain adjustment command containing the extracted attenuation value. Will be adjusted.

That is, when the repeater control device 13 transmits the forward gain adjustment command carrying the attenuation value to the donor module 12, the control unit 12-1 of the donor module 12 is input from the repeater control device 13. The forward signal output level of the repeater is adjusted to the preset forward signal reference output level by adjusting the attenuation value of the attenuator 11-2 in the remote module 11 of the repeater according to the forward gain adjustment command. Forward gain is automatically adjusted (step S26).

In addition, after the repeater control device 13 automatically adjusts the forward gain of the repeater, the forward gain adjustment function for the repeater, for example, the forward gain adjustment performance information for the repeater and the forward signal of the repeater for the forward gain management of the repeater. The output value, the forward gain adjustment frequency information, and the like are stored and managed together with the current time, that is, the forward gain adjustment function execution time information (step S27).

On the other hand, the repeater control device 13 performs the forward gain adjustment function for each repeater, or at the request of the operator, the details of the forward gain adjustment function for each repeater that is stored and managed by the operator terminal screen or email Or, by printing to the printer can report the performance of the forward gain adjustment function to the operator.

Next, the reverse gain automatic adjustment system of the repeater according to the present invention will be described, which is, as shown in Figure 3, the remote module 31, the donor module 32, the repeater control device 33, the base station of the repeater , RF monitoring device 34 has a configuration that interlocks.

The remote module 31 is a repeater module implemented on an actual field for the purpose of transmitting / receiving a signal link with a mobile station. The remote module 31 is driven on / off under the control of the donor module 32 and is driven on. It has a configuration including a signal generator (31-1) for generating a reverse reference carrier of a constant output level.

The donor module 32 is a repeater module implemented on the base station side for the purpose of transmitting and receiving signal links with the base station. The donor module 32 is an attenuator 32-1 for adjusting the output gain of the reverse signal and a reverse carrier of the repeater control device 33. According to the generation command, the signal generator 31-1 of the remote module 31 is driven on to output the reverse reference carrier, and the attenuator 32-1 is attenuated according to the reverse gain adjustment command of the relay control device 33. It has a structure including the control part 32-2 which adjusts a reverse gain by controlling a value. The donor module 32 also has a directional coupler connected to the base station receiver, more particularly the output of the low noise amplifier (LNA) at the base station receiver, output from the signal generator 31-1 of the remote module 31. Pass it on.

The repeater control device 33 is connected to the donor module 32 and transmits a reverse carrier generation command to the donor module 32 when a reverse gain adjustment command input by the operator or a preset reverse gain adjustment period is reached. The reverse reference carrier is input from the signal generator 31-1 of 31 to the base station receiving end through the donor module 32, and then transmitted from the RF monitoring device 34 through the communication network. A reverse signal output difference value is calculated by comparing the output value (that is, the reverse reference carrier output value of the repeater) with the preset reverse signal reference output value, and a donor reverse gain adjustment command containing the attenuation value corresponding to the calculated reverse signal output difference value is obtained. By transmitting to the control unit 32-2 of the module 32, the attenuation value of the attenuator 32-1 in the donor module 32 is adjusted to reverse the repeater. It serves to adjust the gain flavor. In addition, when the reverse signal output value at the base station receiving end transmitted from the RF monitoring device 34 is equal to the preset reverse signal reference output value, the reverse gain adjustment of the repeater is not performed.

At this time, the repeater control device 33 automatically adjusts the reverse gain of each repeater connected to the base station, and the attenuation value corresponding to the reverse signal reference output value for each repeater and the reverse signal output difference value (that is, to the actual donor module). By adjusting the attenuator, the attenuation value necessary to automatically adjust the reverse signal output level of the repeater to the reference output level is managed by the database. After performing the reverse gain adjustment function of the repeater, the details (whether the reverse gain is adjusted for each repeater) , The reverse signal output value, the number of reverse gain adjustment, etc.) are stored and managed together with the time gain information of the reverse gain adjustment function and reported to the operator.

The RF monitoring device 34 is connected to a path divider (eg, 6-way divider) located between the directional coupler of the base station receiver and the down converter, and performs a remote module of the repeater when performing the reverse gain adjustment function of the repeater. 31, when the reverse reference carrier output by the signal generator 31-1 provided in the 31 is input to the directional coupler of the base station receiving terminal through the donor module 32, the directionality according to the reverse carrier measurement request of the repeater control device 33 is determined. After measuring the reverse reference carrier output value at the base station receiving end, that is, the reverse reference carrier output value of the repeater, through the path divider connected to the output end of the combiner, the reverse reference carrier output value at the base station receiving end is transmitted to the repeater control device 33 through the communication network. Deliver it.

An operation of automatically adjusting the reverse gain of the repeater in a system having such a configuration will be described in detail with reference to FIG. 4.

First, while the donor module 32 of the repeater and the repeater control device 33 are connected, and the RF monitoring device 34 is connected to the base station receiver, the operator inputs a reverse gain adjustment command or sets a preset reverse gain adjustment period ( For example, once a day is reached, the repeater control device 33 first transmits a reverse carrier generation command to the control unit 32-2 of the donor module 32 connected to the repeater to adjust the reverse gain of the repeater. At the same time, the RF monitoring device 34 requests the reverse carrier measurement of the repeater (step S41).

When the control unit 32-2 of the donor module 32 receives the reverse carrier generation command from the repeater control device 33, the signal generator 31-1 of the remote module 31 according to the reverse carrier generation command is received. ) On to generate a reverse reference carrier of a constant output level (e.g., -60 dBm or -80 dBm) (step S42).

In this case, the reverse reference carrier generated by the signal generator 31-1 of the remote module 31 is connected to the output terminal of the low noise amplifier (LNA) at the base station receiving end, more specifically, the base station receiving end via the donor module 32. The RF monitoring device 34 is inputted to the directional coupler, and the RF monitoring device 34 outputs the reverse reference carrier output value at the base station receiving end through a path divider connected to the output end of the directional combiner at the base station receiving end according to the reverse carrier measurement request of the repeater control device 33. After measuring the reverse reference carrier output value of the repeater, the reverse reference carrier output value at the base station receiving end is transmitted to the repeater control device 33 through the communication network (step S43).

In this way, when the repeater control device 33 receives the reverse reference carrier output value at the base station receiving end, which is the reverse reference carrier output value of the repeater, from the RF monitoring device 34, the reverse reference carrier output value and the database at the base station receiving end are received. By comparing the preset reverse signal reference output values managed in step (step S44), it is confirmed that they are equal to each other (step S44), and at this time, the reverse reference carrier output value at the base station receiving end transmitted from the RF monitoring apparatus 34 is the preset reverse signal reference output value. In this case, the reverse gain adjustment of the repeater is not performed, except that the reverse gain adjustment function is performed for the reverse gain management of the repeater, for example, that the reverse gain adjustment is not performed for the repeater and the reverse direction of the repeater. Signal output value, reverse gain to date The adjustment count information and the like are stored and managed together with the current time, that is, the time for performing the reverse gain adjustment function (step S45).

However, when the reverse signal output value at the base station receiving end transmitted from the RF monitoring device 34 is not the same as the preset reverse signal reference output value, the repeater control device 33 at the base station receiving end transmitted from the RF monitoring device 34. The reverse signal output value and the preset reverse signal reference output value are compared to calculate the output difference value, that is, the reverse signal output difference value (step S46).

After the repeater control device 33 calculates the reverse signal output difference value, the repeater control device 33 searches the database using the reverse signal output difference value obtained as a result of the calculation to control the attenuator 32-1 of the donor module 32. After extracting the required attenuation value, that is, the attenuation value necessary to automatically adjust the reverse signal output level of the repeater to the reference output level, the reverse gain of the repeater is automatically transmitted by sending a reverse gain adjustment command containing the extracted attenuation value to the donor module 32. Will be adjusted.

That is, when the repeater control device 33 transmits the reverse gain adjustment command carrying the attenuation value to the donor module 32, the control unit 32-2 of the donor module 32 receives the input from the repeater control device 33. According to the reverse gain adjustment command, the attenuation value of the attenuator 32-1 inside the module is adjusted to adjust the reverse signal output level of the repeater to the preset reverse signal reference output level. Accordingly, the reverse gain of the repeater is automatically adjusted. (Step S47).

In addition, after the repeater control device 33 automatically adjusts the reverse gain of the repeater, the reverse gain adjustment function is performed for the reverse gain management of the repeater, for example, the reverse gain adjustment performance information for the repeater, and the reverse signal of the repeater. The output value, the number of reverse gain adjustment information, and the like are stored and managed together with the current time, that is, the time of performing the reverse gain adjustment function (step S48).

On the other hand, the repeater control device 33 performs the reverse gain adjustment function for each repeater or, if requested by the operator, the details of the performance of the reverse gain adjustment function for each repeater stored and managed by the operator terminal screen or e-mail. Alternatively, the printer can report the performance of the reverse gain adjustment function to the operator.

In addition, the embodiment according to the present invention is not limited to the above, and various alternatives, modifications and changes can be made within the scope apparent to those skilled in the art in connection with the present invention, for example In performing the reverse gain adjustment function of the repeater, in the above-described embodiment, the reverse reference carrier output value at the base station receiving end transmitted from the RF monitoring device 34 in the repeater control device 33 is equal to the preset reverse signal reference output value. If it is not the same as the preset reverse signal reference output value, calculate the reverse signal output difference value, and then search the database to extract the attenuation value necessary to control the attenuator 32-1 of the donor module 32. Although described, in another embodiment of the present invention based on the configuration shown in Figure 5 attached to the system configuration of FIG. In will also be implemented to perform the gain adjustment unit 55 for interlocking the function of the transfer control device 53 through a communication network (e.g., LAN, etc., or PSDN). In this case, the gain adjusting device 55 extracts the attenuation value corresponding to the reverse signal output difference value and transmits it to the repeater control device 53, and the repeater control device 53 is transferred from the gain adjusting device 55. By transmitting a reverse gain adjustment command containing the attenuation value to the control unit 52-2 of the donor module 52, the attenuation value of the attenuator 52-1 in the donor module 52 is adjusted to adjust the reverse gain of the repeater. Play a role. In addition, the gain adjusting device 55 manages a database of the reverse signal reference output value for each repeater and the attenuation value corresponding to the reverse signal output difference value in order to automatically adjust the reverse gain of each repeater, and controls the reverse gain of the repeater. After performing the function, the details (whether the reverse gain adjustment for each repeater, the reverse signal output value, the number of reverse gain adjustments, etc.) are stored and managed together with the time gain information of the reverse gain adjustment function and reported to the operator.

As described above, the present invention implements a system and method for periodically adjusting the forward and reverse signal output levels of a repeater connected to a base station in a mobile communication network, so that an operator can automatically perform repeater gain adjustment without directly visiting the field. As a result, labor savings and cost savings for repeater inspection and management can be achieved, and the call quality of the repeater can be continuously maintained.

Claims (14)

A module for supporting a transmission / reception signal link with a mobile station, comprising: a repeater remote module for detecting and transmitting a forward signal output value of a repeater and adjusting an output gain of the forward signal according to attenuation value control; A module supporting a transmission / reception signal link with a base station, wherein the remote module is controlled according to a forward signal detection command to detect a forward signal output value of a repeater, and then the detected forward signal output value is transmitted, and the forward gain adjustment command is performed. A repeater donor module for controlling the attenuation value of the attenuator in the remote module; Sends a forward signal detection command to the donor module, compares the forward signal output value of the repeater and the predetermined forward signal reference output value as a result, calculates a forward signal output difference value, and corresponds to the calculated forward signal output difference value A repeater control device for adjusting the forward gain of the repeater by adjusting the attenuation value of the attenuator in the remote module by transmitting a forward gain adjustment command carrying the attenuator control attenuation value to the donor module. Adjustment system. The method of claim 1, The repeater control device is a repeater automatic gain adjustment system, characterized in that for managing the forward signal reference output value for each repeater and the attenuator control attenuation value of the remote module corresponding to the forward signal output difference value. The method of claim 1, The repeater control device, after performing the forward gain adjustment function of the repeater, the forward gain adjustment function details including at least one of the forward gain adjustment for each repeater, the forward signal output value, and the number of forward gain adjustment times. Repeater automatic gain adjustment system, characterized in that stored along with the information to manage and report to the operator. A module for supporting a transmission / reception signal link with a mobile station, comprising: a repeater remote module having a signal generator which is driven on / off by external control and generates a reverse reference carrier of a constant output level when driven on; A module supporting a transmission / reception signal link with a base station, the signal generator of the remote module being driven on according to a reverse carrier generation command to output a reverse reference carrier, delivering the reverse reference carrier to a base station receiving end, and adjusting a reverse gain. A repeater donor module for controlling the attenuation value of the internal attenuator in accordance with the command; An RF monitoring apparatus for measuring and transmitting a reverse reference carrier output value at the base station receiver when the reverse reference carrier outputted by the signal generator of the remote module is input to the base station receiver through the donor module; After transmitting a reverse carrier generation command to the donor module, a reverse signal output difference value is calculated by comparing a reverse reference carrier output value and a predetermined reverse signal reference output value at a base station receiving end transmitted from the RF monitoring apparatus to calculate the reverse signal. And a repeater control device for adjusting a reverse gain of the repeater by adjusting attenuation value of the attenuator in the donor module by transmitting a reverse gain adjustment command carrying the attenuator control attenuation value corresponding to the signal output difference value to the donor module. Repeater automatic gain adjustment system featured. The method of claim 4, wherein And a reverse reference carrier transmitted to the base station receiving end is input to a directional coupler connected to an output end of a low noise amplifier at the base station receiving end. The method of claim 4, wherein The RF monitoring device is connected to a path divider located between the directional coupler of the base station receiving end and the intermediate frequency converter, and is reversed at the base station receiving end via a path divider connected to the output end of the directional combiner according to a reverse carrier measurement request of the repeater control device. Repeater automatic gain adjustment system characterized by measuring the reference carrier output value. The method of claim 4, wherein The repeater control device is a repeater automatic gain adjustment system, characterized in that for managing the reverse signal reference output value for each repeater and the attenuator control attenuation value of the donor module corresponding to the reverse signal output difference value. The method of claim 4, wherein The repeater control device, after performing the reverse gain adjustment function of the repeater, the reverse gain adjustment function of the reverse gain adjustment function including at least one of the reverse gain adjustment for each repeater, the reverse signal output value, and the number of reverse gain adjustment times. Repeater automatic gain adjustment system, characterized in that stored along with the information to manage and report to the operator. Transmitting a forward signal detection command to the repeater donor module when a forward gain adjustment command is input to the repeater control device or when a preset forward gain adjustment period is reached; Controlling, by the donor module, a signal output detection unit of a remote module to detect a forward signal output value of the repeater, and transferring the forward signal output value of the repeater to the repeater control device as a result; Calculating an output difference value by comparing the forward signal output value of the repeater transmitted from the donor module with a predetermined forward signal reference output value, and extracting an attenuation value for attenuator control from the database using the calculated output difference value; ; Transmitting a forward gain adjustment command carrying the extracted attenuation value to the donor module and automatically adjusting the forward gain of the repeater by adjusting the attenuation value of the attenuator in the remote module according to the forward gain adjustment command in the donor module. Repeater automatic gain adjustment method comprising a. The method of claim 9, After the repeater control device automatically adjusts the forward gain of the repeater, the forward gain adjustment function is stored and managed along with the current time information, and if necessary, further comprising the step of reporting the forward gain adjustment function to the operator. Repeater automatic gain adjustment method characterized in that. The method of claim 9, When the forward signal output value of the repeater transmitted from the donor module is the same as the preset forward signal reference output value, the corresponding forward gain adjustment function is stored with the current time information and managed, and if necessary, the forward gain adjustment function is performed to the operator. Repeater automatic gain adjustment method characterized in that it further comprises a process of reporting. Transmitting a reverse carrier generation command to the repeater donor module when a reverse gain adjustment command is input to the repeater control device or reaches a preset reverse gain adjustment period, and requesting a reverse carrier measurement of the repeater to the RF monitoring device; Generating a reverse reference carrier of a predetermined output level by driving the signal generator of the remote module in the donor module, and then transmitting the reverse reference carrier generated by the signal generator to a base station receiving end; Measuring a reverse reference carrier output value input from the RF monitoring apparatus to the base station receiving end, and then transmitting the measured reverse reference carrier output value from the base station receiving end to the repeater control device; Comparing the reverse reference carrier output value at the base station receiving end transmitted from the RF monitoring apparatus with a predetermined reverse signal reference output value and calculating the output difference value, the attenuation value required for attenuator control from the database using the calculated output difference value Extracting the process; Transmitting a reverse gain adjustment command carrying the extracted attenuation value to the donor module, and adjusting the attenuation value of the internal attenuator according to a reverse gain adjustment command in the donor module to automatically adjust the reverse gain of the repeater. Repeater automatic gain adjustment method characterized by the above. The method of claim 12, After the repeater control device automatically adjusts the reverse gain of the repeater, and storing the management history of the reverse gain adjustment function with the current time information, if necessary, further comprising the step of reporting the reverse gain adjustment function performed to the operator Repeater automatic gain adjustment method characterized in that. The method of claim 12, If the reverse signal output value from the base station receiving end transmitted from the RF monitoring device is equal to the preset reverse signal reference output value, the corresponding reverse gain adjustment function is stored with the current time information and managed, and if necessary, the reverse gain adjustment is performed to the operator. The method of claim 1, further comprising the process of reporting the performance history.

Images