KR101391578B1 - Optical repeater having automatic gain compensation function and automatic gain compensation method therefor - Google Patents

Abstract

According to an optical repeater having an automatic gain compensation function of a desirable embodiment and an automatic gain compensation method therefor, A gain which can indicate different aspects in FA bands by generating, detecting, and equalizing a test signal in the FA bands can be flatted. In addition, errors within the respective FA bands can be minimized by detecting the signals during a predetermined time within the respective FA bands. The optical repeater automatic gain compensation method of the desirable embodiment comprises the steps of successively generating the test signal during the first predetermined time for a first FA band or an N FA band (a) and of successively detecting the output of a slave unit during the first predetermined time for the first FA band or the N FA band (b) in a master unit for receiving a signal from a base station and the slave unit for transmitting to a portable terminal by receiving the signal from the master unit.

Description

TECHNICAL FIELD [0001] The present invention relates to an optical repeater having an automatic gain compensation function, and an automatic gain compensation method thereof. [0002]

The present invention relates to an optical repeater having an automatic gain compensation function and an automatic gain compensation method thereof, and more particularly, to an optical repeater having an automatic gain compensation function capable of automatically compensating a gain of a slave unit of an optical repeater, And an automatic gain compensation method thereof.

According to Japanese Laid-Open Patent Application No. 10-2006-0086129 (hereinafter referred to as "Prior Art"), a pilot signal of a forward final output is extracted to measure a pilot power, periodically measures a deviation from a reference value, An apparatus and a method for stabilizing cell coverage of an optical repeater capable of obtaining a stable forward final output by automatically adjusting the cell coverage of the optical repeater.

However, since the prior art does not relate to gain compensation in consideration of the FA band, it is difficult to directly apply it to an optical repeater including a slave unit that compensates gain for signals of a plurality of FA (frequency allocation) bands.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the technical problems as described above, and it is an object of the present invention to provide a method and apparatus for generating test signals for each FA band and detecting and averaging them to flatten the gain, And an object of the present invention is to provide an optical repeater having an automatic gain compensation function and an automatic gain compensation method thereof.

It is another object of the present invention to provide an optical repeater and an automatic gain compensation method capable of minimizing an error within each FA band by detecting and averaging a plurality of signals within a predetermined time period in each FA band It has its purpose.

An optical repeater having an automatic gain compensation function according to a preferred embodiment of the present invention includes an optical repeater including a master unit for receiving a signal from a base station and a slave unit for receiving a signal from the master unit and transmitting the signal to a mobile terminal Wherein the slave unit comprises: an amplifying unit for amplifying and outputting a signal; A test signal generator for generating a test signal for testing a gain of the slave unit; And a control unit for generating a control signal for controlling operations of the test signal generator and the amplification unit.

Specifically, the control unit may include: a signal generation controller that controls the test signal generator to generate the test signal for each of the first to N-th FA bands for a first predetermined time; A detector for continuously detecting the output of the slave unit by the test signal for the first predetermined time for each of the first to N-th FA bands; And averaging the output of the slave unit continuously detected for each of the first FA band to the N FA band to calculate an average value of each of the first FA band average value to the Nth FA band average value, And an average value calculator.

Also, the controller may include: a second average value calculator for calculating an average value of all the bands, which is an average value of the first FA band average value to the Nth FA band average value; A difference value calculator for calculating a difference value between the total band mean value and a predetermined target output value of the slave unit; A gain adjuster for adjusting a gain of the slave unit using a difference value from the difference value calculator; And a reporting unit reporting the completion of gain adjustment to the master unit.

An optical repeater automatic gain compensation method according to a preferred embodiment of the present invention includes an optical repeater using an optical repeater including a master unit for receiving a signal from a base station and a slave unit for receiving a signal from the master unit and transmitting the signal to a mobile terminal A method for automatic gain compensation comprising the steps of: (a) generating a test signal for each of a first FA band to an N FA band for a first predetermined time, Continuously detecting an output of the slave unit by the test signal generated during the time; (b) averaging magnitudes of outputs of the slave units continuously detected for each of the first to N-th FA bands to calculate average values of the first and second FA band average values, ; And (c) calculating an average value of all bands, which is an average value of the first FA band average value to the Nth FA band average value.

The optical repeater automatic gain compensation method may further include the steps of: (d) calculating a difference value between the entire band average value and a predetermined target output value of the slave unit; And (e) adjusting an amplification gain of the slave unit using the difference value.

In addition, the optical repeater automatic gain compensation method preferably repeats the steps (a) to (e) until the difference value falls within a predetermined range.

In addition, the optical repeater automatic gain compensation method may further include reporting the gain adjustment completion to the master unit when the difference value is within a predetermined range.

According to an embodiment of the present invention, an optical repeater having an automatic gain compensation function and an automatic gain compensation method thereof can generate test signals for each FA band, detect and average them, and display different aspects for a plurality of FA bands The gain can be flattened.

Further, according to the present invention, errors within each FA band can be minimized by detecting and averaging a plurality of signals for a predetermined period of time within each FA band.

1 is a configuration diagram of an optical repeater having an automatic gain compensation function according to a preferred embodiment of the present invention.
2 is a flow chart of an optical repeater automatic gain compensation method according to a preferred embodiment of the present invention.

Hereinafter, an optical repeater having an automatic gain compensation function and an automatic gain compensation method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 is a block diagram of an optical repeater 100 having an automatic gain compensation function according to a preferred embodiment of the present invention.

1, an optical repeater 100 having an automatic gain compensation function according to the present invention receives signals from a master unit 10 and a master unit 10 that receive signals from a base station, And a slave unit 20 for transmitting the slave unit 20.

Specifically, the slave unit 20 preferably includes an amplification unit 21, a test signal generation unit 22, and a control unit 23. The amplifying unit 21 amplifies the input signal and outputs the amplified signal. The test signal generating unit 22 generates a test signal for testing the gain of the slave unit 20. The control unit 23 also generates a control signal for controlling the operation of the test signal generating unit 22 and the amplifying unit 21. [

The operation of the control unit 23 of the present invention will now be described in more detail.

The control unit 23 of the present invention includes a signal generation controller 231, a detector 232, a first average value calculator 233, a second average value calculator 234, a difference value calculator 235, 236, and a report unit 237.

First, the signal generation controller 231 controls the test signal generator 22 to continuously generate a test signal for each of the first to N-th FA bands for a first predetermined time. The detector 232 continuously detects the output of the slave unit 20 by the test signal for the first predetermined time for each of the first to N-th FA bands.

The first average value calculator 233 averages the sizes of the outputs of the slave units 20 continuously detected for each of the first FA band to the N FA band, And calculates an average value for each band, which is an average value. Next, the second average value calculator 234 calculates an overall band mean value that is an average value of the first FA band average value to the Nth FA band average value. The difference value calculator 235 of the present invention calculates the difference value between the total band mean value and the target output value of the slave unit 20 which is set in advance.

The gain adjuster 236 serves to adjust the gain of the slave unit 20 using the difference value from the difference value calculator 235. [ When the difference value is within a certain range, the report unit 237 reports the completion of gain adjustment to the master unit 10, and completes the gain compensation.

The control unit 23 of the present invention generates, detects, and averages test signals for each FA (frequency allocation) band, thereby flattening a gain that can display different aspects for a plurality of FA bands. In order to minimize the shaking or error in the measurement of each initial FA band, the output of a plurality of slave units 20 is detected and averaged for each FA band for a predetermined time to minimize the error within each FA band . Gain compensation can be achieved by the most stable and objectively measured gain information by the averaging of these two stages. That is, the output of the slave unit 20 for the first FA band is detected and averaged for the first predetermined time, and the output of the slave unit 20 for the second FA band is detected and averaged And subsequently detects and averages the output of the slave unit 20 with respect to the N FA band for the N-th first predetermined time. In addition, a two-stage averaging process is performed to calculate the average value of the average values in each band in the first stage.

For example, assuming that the FA band is 7 at a total BW of 10 MHz, a test signal can be generated for each band for 5 seconds to perform gain compensation.

2 is a flowchart of an optical repeater automatic gain compensation method according to a preferred embodiment of the present invention.

As shown in FIG. 2, the optical repeater automatic gain compensation method according to the preferred embodiment of the present invention generates test signals for the first FA band to the N FA band for a first predetermined time, (Step S10) of continuously detecting the output of the slave unit 20 based on the test signal generated for the first predetermined time period for each of the first FA band to the Nth FA band, (S20) averaging magnitudes of outputs of the slave units 20 continuously detected for the first FA band average value to the Nth FA band average value, And a step (S30) of calculating a total band mean value which is an average value of the FA band average values.

In addition, a method of compensating for an automatic gain of an optical repeater according to the present invention includes a step of calculating a difference value between an average band total value and a target output value of a slave unit 20 that is set in advance (S40) and determining whether the difference value falls within a predetermined range It is preferable to further include step S50. If it is determined in step S50 that the difference value does not fall within a predetermined range, the amplification gain of the slave unit 20 is adjusted using the difference value (S60). If the difference value is within a predetermined range The process from step S10 is repeated until it belongs.

If the difference value is within the predetermined range as a result of the determination in step S50, the step of reporting the completion of gain adjustment to the master unit 10, including step S70, finally completes the gain compensation.

However, it is also possible to restrict the execution to one-time execution instead of the iterative execution. In this case, it is not necessary to perform step S50, and it is sufficient to perform steps S60 and S70 after step S40. In addition, steps S10 through S70 can be repeatedly performed without determining the step S50.

As described above, according to the optical repeater 100 having the automatic gain compensation function of the preferred embodiment of the present invention and the automatic gain compensation method thereof, test signals are generated, detected and averaged for each FA band, The gain that can represent different aspects can be flattened. Further, according to the present invention, errors within each FA band can be minimized by detecting and averaging a plurality of signals for a predetermined period of time within each FA band.

100: An optical repeater having an automatic gain compensation function of an embodiment of the present invention
10: Master unit 20: Slave unit
21: amplification unit 22: test signal generation unit
23:
231: Signal Generation Controller 232: Detector
233: first average value calculator 234: second average value calculator
235: Difference value calculator 236: Gain adjuster
237: Reporting

Claims (13)

1. An optical repeater comprising: a master unit for receiving a signal from a base station; and a slave unit for receiving a signal from the master unit and transmitting the signal to the mobile terminal,
The slave unit includes:
An amplifier for amplifying and outputting a signal;
A test signal generator for generating a test signal for testing a gain of the slave unit; And
And a controller for generating a control signal for controlling operations of the test signal generator and the amplifier,
Wherein,
A signal generation controller for controlling the test signal generator to generate the test signal for each of the first to N-th FA bands for a first predetermined time;
A detector for continuously detecting the output of the slave unit by the test signal for the first predetermined time for each of the first to N-th FA bands;
A first average value calculation unit for calculating the average value of each of the first FA band average value to the Nth FA band average value by averaging magnitudes of outputs of the slave units continuously detected for each of the first FA band to the N FA band, group;
A second average value calculator for calculating a total band mean value that is an average value of the first FA band average value to the Nth FA band average value; And
And a difference value calculator for calculating a difference value between the total band average value and a predetermined target output value of the slave unit. delete delete delete delete The method according to claim 1,
Wherein,
And a gain adjuster for adjusting a gain of the slave unit using a difference value from the difference value calculator. The method according to claim 6,
Wherein,
And a reporting unit reporting the completion of gain adjustment to the master unit. 1. An optical repeater automatic gain compensation method using an optical repeater including a master unit for receiving a signal from a base station and a slave unit for receiving a signal from the master unit and transmitting the signal to the mobile terminal,
(a) a test signal generator included in the slave unit generates a test signal for a first predetermined time period for each of the first to N-th FA bands, and the controller included in the slave unit generates a test signal for the first FA band Continuously detecting an output of the slave unit by the test signal generated for the first predetermined time period for each of the Nth FA bands;
(b) The controller averages the sizes of outputs of the slave units continuously detected for each of the first FA band to the N-th FA band to calculate average values of the first FA band average value to the Nth FA band average value Calculating; And
(c) calculating a total band mean value, which is an average value of the first FA band average value to the Nth FA band average value, by the controller;
(d) the control unit calculating a difference value between the total band mean value and a predetermined target output value of the slave unit; And
(e) adjusting the amplification gain of the slave unit using the difference value by the control unit. delete delete 9. The method of claim 8,
The optical repeater automatic gain compensation method includes:
Wherein the control unit repeats the steps (a) to (e) until the difference value falls within a predetermined range. 12. The method according to any one of claims 8 to 11,
The optical repeater automatic gain compensation method includes:
After the step (d)
And when the difference value is within a predetermined range, reporting the completion of gain adjustment to the master unit by the control unit. delete

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