KR20090054341A - Improving apparatus for snr in microwave repeater system - Google Patents

Abstract

The present invention relates to a signal-to-noise ratio improvement apparatus for a microwave relay system that can prevent a deterioration in communication quality due to poor signal-to-noise ratio during relaying, even when a weak signal is transmitted from a base station or a mobile station, as in the case of maximum time. .

To this end, in the present invention, in the microwave relay system having a donor part and a remote part, the power of the signal output from the duplexer in the forward link is adjusted to the high power as in the busy time, and the power of the signal output from the low noise amplifier in the reverse link. A donor M / W automatic power compensation device that adjusts the power to the power before the busy time; Remote M / W automatic power compensation device that adjusts the power level of the signal output from the duplexer in the forward link to the power before the application, and adjusts the power of the signal output from the low noise amplifier in the reverse link to the same high power as the busy time. It provides a signal-to-noise ratio improvement device for a microwave relay system characterized in that it has a.

Repeater, donor part, remote part, SNR.

Description

Signal-to-noise ratio improvement device for microwave relay system {Improving apparatus for SNR in microwave repeater system}

The present invention relates to a signal-to-noise ratio improvement apparatus for a microwave relay system, and more particularly, even if a weak signal is transmitted from a base station or a mobile station as in the case of the minimum time, the signal-to-noise ratio is poor during the relaying process, thereby degrading the communication quality. The present invention relates to a signal to noise ratio improvement device for a microwave relay system that can be prevented.

In general, in the mobile communication, the microwave relay system is a system for relaying signals using 300 ~ 3,000MHz belonging to UHF band and 3 ~ 30GHz microwave belonging to SHF band. Due to this, it is widely used to improve the wireless communication environment of the shaded area where the radio wave is not received by the outlying area or the mountain or other features that the radio wave transmitted from the base station cannot reach.

Such a microwave relay system is generally composed of a donor unit and a remote unit. First, the donor unit receives an RF signal from a base station, converts the microwave signal into a microwave signal through a microwave module, and then transmits it to a remote unit, or a microwave transmitted from a remote unit. It converts the signal into an RF signal through the microwave module and transmits the signal to the base station.

The remote unit transmits the microwave signal transmitted from the donor unit through a service antenna through filtering, low noise amplification, high power amplification, frequency conversion, etc., and thus performs a forward link operation or vice versa. Done.

However, the microwave relay system has a good signal-to-noise ratio (SNR) because a high power signal is transmitted from the base station in case of busy times such as commute time or work time. In the case of the dawn or the minimum time when there is little talk, the signal is very weak or only the overhead channel is transmitted from the base station.

As described above, when the weak signal inputted from the base station is converted into a microwave signal and outputted, the signal is close to the noise level, and the signal-to-noise ratio is almost white noise. Therefore, even if the microwave signal is received by the remote unit and the frequency is converted and transmitted, the signal is almost white noise, so a reliable call or data transmission cannot be made, which seriously degrades the quality and reliability of communication. This occurred.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned general problems, and an object of the present invention is to prevent noise leveling of a signal when there are few call calls, such as the minimum time, to improve signal-to-noise ratio and to improve communication reliability. It is to provide a signal to noise ratio improvement device for microwave relay system that can be increased.

As described above, an object of the present invention is to adjust the power of the signal output from the duplexer in the forward link to the high power as in the busy time in the relay system having the donor part and the remote part, and the power of the signal output from the low noise amplifier in the reverse link. A donor M / W automatic power compensation device that adjusts the power to the power before the busy time; Remote M / W automatic power compensation device that adjusts the power level of the signal output from the duplexer in the forward link to the power before the application, and adjusts the power of the signal output from the low noise amplifier in the reverse link to the same high power as the busy time. It can achieve through the signal-to-noise ratio improvement device for the microwave relay system having a.

According to the present invention, even when a weak signal is transmitted from the base station, the present invention compensates and transmits the same power level as the busy time, and the compensated power level is attenuated by the remote unit. Therefore, in the case of the shortest time, there is a very useful effect that can maintain a good signal-to-noise ratio, thereby improving the quality and reliability for mobile communication.

In addition, the present invention compensates and transmits the same power level as the busy hour in addition to the busy hour and the busy hour, and the compensated power is attenuated by the remote unit. Therefore, not only the time limit, but also the signal-to-noise ratio is always kept good, which is a very useful effect to further improve the quality and reliability for mobile communication.

Hereinafter, the detailed configuration of the embodiment of the present invention will be described in detail with the accompanying drawings.

 1 is a block diagram showing a donor portion of a signal-to-noise ratio improvement apparatus for a microwave relay system of the present invention, Figure 2 is a block diagram showing a remote portion of the signal-to-noise ratio improvement apparatus for a microwave relay system of the present invention, As described above, the present invention includes a donor M / W automatic power compensation device 300 and a remote M / W automatic power compensation device 500.

First, the donor M / W automatic power compensation device 300 shown in FIG. 1 adjusts the power of the signal output from the duplexer DP1 to the high power as in the busy time in the forward link, and the low noise amplifier LNA1 in the reverse link. In this invention, the first and second power detectors 310 and 330 and the first and second variable attenuators 320 and 340 and the control unit are adjusted. It consisted of (350).

Here, the first power detector 310 detects the power of the signal input to the first variable attenuator 320, inputs the value to the controller 350, and the second power detector 330 is the second variable attenuator 340. Detects the power of the signal input to the) and inputs the value to the controller 350.

The first and second variable attenuators 320 and 340 are installed between the duplexer DP1 and the low noise amplifier LNA1 of the donor part 200 to attenuate the power of signals along the forward link and the reverse link, respectively. Performs the function of matching power level.

The controller 350 controls the first and second variable attenuators 320 and 340 according to the power levels detected by the first and second power detectors 310 and 330, respectively, so that the power level of the signal is the same as the power level. Each compensation adjustment is performed, and the compensation value is transmitted to or received from the remote unit 400 through the modem M1 installed in the donor unit 200.

Meanwhile, the remote M / W automatic power compensator 500 shown in FIG. 2 adjusts the power of the signal output from the duplexer DP3 in the forward link to the power before the bus is applied, and the low noise amplifier LNA2 in the reverse link. In this invention, the first and second power detectors 510 and 530 and the first and second variable attenuators 520 and 540 are adjusted. The control unit 550 was configured.

Here, the first power detector 510 detects the power of the signal input to the first variable attenuator 520, inputs the value to the controller 550, and the second power detector 530 is the second variable attenuator 540. Detects the power of the signal input to the) and inputs the value to the controller 550.

In addition, the first and second variable attenuators 520 and 540 are installed between the duplexer DP3 and the low noise amplifier LNA2 of the remote unit 400 to attenuate the power of the signal. Perform.

The controller 550 controls the first variable attenuator 520 according to the power level compensation value transmitted from the modem M1 of the donor unit 200 and the power detection of the first power detector 510. We adjust deduction to power before application at busy time. In addition, since the controller 550 controls the second variable attenuator 540 according to the power level detected from the second power detector 530, the controller 550 compensates and adjusts the power level of the signal to the same power as the busy time, and remotely adjusts the compensation value. An operation of transmitting to the donor unit 200 through the modem M2 of the unit 400 is performed.

The operation and effect of the present invention configured as described above will be described by dividing each time into a busy time having a large amount of call and a minimum time having a very small amount of call in the forward link.

<Forward link busy time>

In case of busy times such as commute time or work time, the signal to noise ratio (SNR) is good because a high power signal is transmitted from the base station to the donor unit 200.

Accordingly, as shown in FIG. 1, since the first and second power detectors 310 detect high power, the controller 350 controls the first variable attenuator 320 to perform a normal attenuation function to match power levels of various stages. Through the modem M1 installed in the donor unit 200, the compensation value of the attenuation-adjusted power level is transmitted to the remote unit 400.

In this case, since the signal-to-noise ratio at the busy time is good, the controller 350 does not need to increase the power of the signal. Therefore, the compensation value of the power level attenuated by the controller 350 is almost the same as the compensation value according to the normal attenuation function.

Meanwhile, as shown in FIG. 2, since the control unit 550 of the remote unit 400 receives the compensation value according to the normal attenuation function through the modem M2, the first variable attenuator 520 performs a normal attenuation function. It will play a role to control.

As such, the apparatus for improving the signal-to-noise ratio of the present invention has a good signal-to-noise ratio because the signal of the high power is transmitted from the base station 100 in the case of the forward link busy time, and thus does not perform any other function.

On the other hand, in the case of the reverse link busy time other than the forward link busy time, other operations are the same except that the signal relaying is performed in the reverse direction, and thus a detailed description of the operating process will be omitted.

<Forward link minimum time>

In the case of the dawn or the minimum time with little traffic, the signal is very weak or only the overhead channel is transmitted from the base station 100, and the weak signal input from the base station 100 is simply converted into a microwave signal and output. In this case, the signal is close to the noise level, and the signal-to-noise ratio is almost close to Additive White Gaussian Noise (AWGN).

Therefore, since the present invention detects low power through the first power detector 310 as shown in FIG. 1, the control unit 350 controls the first variable attenuator 320 to have a high power level as in a busy time, and accordingly The attenuation adjusted power level compensation value is transmitted to the remote unit 400 through the modem M1.

Since the signal-to-noise ratio of the signal input from the base station is poor, the control unit 350 increases the power of the signal by the busy hour. Accordingly, the compensation value of the power level attenuated and adjusted by the control unit 350 has a difference from the compensation value according to the normal attenuation function, and the difference becomes larger as the time becomes closest and becomes smaller as the time becomes closest.

 Meanwhile, the controller 550 of the remote unit 400 compensates and attenuates power of the signal by controlling the first variable attenuator 520 according to the compensation value transmitted through the modem M2. In the donor unit 200, the power level is attenuated by the compensation value according to the busy time application.

Therefore, the signal input to the low noise amplifier (LNA2) is the same as the conventional power level as a result, but the signal-to-noise ratio is good, so that the white noise of the signal does not occur, and thereafter does not generate an overload due to the power amplification.

The control unit 350 of the donor unit 200 compensates and transmits the same power level as that of the busy hour, and the remote unit 400 attenuates the power level as much as the compensated time even between the busy hour and the shortest hour. Can always be kept good.

As described above, the apparatus for improving the signal-to-noise ratio for the microwave relay system of the present invention compensates and transmits the same power level as the busy time even when a weak signal is transmitted from the base station 100 in the case of the minimum time, and the remote unit 400 compensates for the improvement. As the power level is attenuated, the weakest signal at the minimum time can maintain a good signal-to-noise ratio, thereby improving the quality and reliability of the mobile communication.

On the other hand, in the case of the reverse link minimum time in addition to the forward link minimum time, other operations are the same except that the signal relay process is performed in the reverse direction, and thus detailed description of the operation process is omitted.

3 and 4 show donor parts and a remote part according to another embodiment of the present invention, and are the same as those described with reference to FIGS. 1 and 2, but the first and second power detectors are the first, second, third and fourth power detectors. (310) (311) (330) and (331), the first and second variable attenuator, the first, second, third, and fourth variable attenuator (320, 321, 340 (341) There is a difference.

Therefore, the present invention shown in FIGS. 3 and 4 is provided from the third and fourth variable attenuators 321 and 341 by the additional third and fourth power detectors 311 and 331 of the donor part 200 as shown. Since the power of each output signal is detected and input to the controller, the controller 350 can more accurately adjust the power level of the signal. In addition, the controller 550 of the remote unit 400 may adjust the power level of the signal more accurately by the third and fourth power detectors 511 and 531 and the third and fourth variable attenuators 521 and 541.

Therefore, the signal output according to the present invention has a power value of the most busy time accurately and consistently with little error, thereby preventing further white noise, thereby improving quality and reliability for mobile communication.

As described above, the embodiments of the present invention are merely illustrative of preferred examples, and the scope of application of the present invention is not limited thereto, and may be appropriately changed within the scope of the same idea.

1 is a block diagram showing a donor portion of a signal-to-noise ratio improvement apparatus for a microwave relay system of the present invention.

Figure 2 is a block diagram showing a remote portion of the signal-to-noise ratio improvement apparatus for a microwave relay system of the present invention.

3 and 4 is a block diagram showing a donor M / W module and a remote M / W module as another embodiment of the signal-to-noise ratio improvement device for a microwave relay system of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: base station 200: donor part

300: Donor M / W Automatic Power Compensation Device

310,330: first and second power detector 311,331: third and fourth power detector

320,340: First and second variable attenuators 321,341: Third and fourth variable attenuators

350: control unit 400: remote unit

500: Remote M / W Automatic Power Compensation Device

510,530: First and second variable attenuators 511,531: Third and fourth variable attenuators

520,540: First and second power detectors 521,541: Third and fourth power detectors

550 control unit DP1, DP2, DP3, DP4: duplexer

M1, M2: Modem MW1, MW2: Microwave Module

LNA1, LNA2: Low Noise Amplifier

Claims (5)

In the microwave relay system having a donor part and a remote part, Donor M / W automatic power compensation device that adjusts the power of the signal output from the duplexer to the high power as in the case of the forward link and the power of the signal output from the low noise amplifier to the power before the busy time in the reverse link. ; Remote M / W automatic power compensation device that adjusts the power level of the signal output from the duplexer in the forward link to the power before the application, and adjusts the power of the signal output from the low noise amplifier in the reverse link to the same high power as the busy time. Signal to noise ratio improvement device for a microwave relay system, characterized in that having a. According to claim 1, wherein the donor M / W automatic power compensation device First and second variable attenuators for attenuating the power of the signal between the duplexer and the low noise amplifier; First and second power detectors detecting power of a signal between the duplexer and the low noise amplifier; Since the first variable attenuator is controlled according to the power level detected from the first power detector, the power level of the signal is compensated and adjusted to the same power as the busiest time, and the compensation value is transmitted to the remote unit, and the second power detector is detected from the second power detector. The second variable attenuator is controlled according to the supplied power level and the power level compensation value transmitted from the remote unit, so that the control unit adjusts the power level of the signal to the power before application in the busy time. Signal-to-noise ratio improvement device for a microwave relay system, characterized in that consisting of. According to claim 1, wherein the remote M / W automatic power compensation device First and second variable attenuators for attenuating the power of the signal between the duplexer and the low noise amplifier; First and second power detectors detecting power of a signal between the duplexer and the low noise amplifier; Since the first variable attenuator is controlled according to the power level detected from the first power detector and the power level compensation value transmitted from the donor unit, the power level of the signal is adjusted to the power before the first application, and from the second power detector. The second variable attenuator is controlled according to the detected power level, so that the control unit compensates and adjusts the power level of the signal to the same power as the busy hour, and transmits the compensation value to the donor unit. Signal-to-noise ratio improvement device for a microwave relay system, characterized in that consisting of. According to claim 1, wherein the donor M / W automatic power compensation device First, second, third, and fourth variable attenuators for attenuating the power of the signal between the duplexer and the low noise amplifier; First, second, third and fourth power detectors for detecting power of a signal between the duplexer and the low noise amplifier; Since the first and third variable attenuators are controlled according to the power levels detected by the first and third power detectors, the power level of the signal is compensated and adjusted to the same power as the busiest times, and the compensation value is transmitted to the remote unit. The controller controls the second and fourth variable attenuators according to the power level detected by the 2,4 power detector and the power level compensation value transmitted from the remote unit, so that the power level of the signal is adjusted to the power before the timely application. Signal-to-noise ratio improvement device for a microwave relay system, characterized in that consisting of. According to claim 1, wherein the remote M / W automatic power compensation device First, second, third, and fourth variable attenuators for attenuating the power of the signal between the duplexer and the low noise amplifier; First, second, third and fourth power detectors for detecting power of a signal between the duplexer and the low noise amplifier; The first and third variable attenuators are controlled according to the power level detected by the first and third power detectors and the power level compensation value transmitted from the donor unit, so that the power level of the signal is adjusted to the power before the first application. The control unit controls the second and fourth variable attenuators according to the power level detected by the 2,4 power detectors, and adjusts the power level of the signal to the same power as the busiest time, and transmits the compensation value to the donor unit. Signal-to-noise ratio improvement device for a microwave relay system, characterized in that consisting of.

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