KR100761385B1 - Apparatus for compensating cable loss and detecting fault of cable connection system - Google Patents

Abstract

An apparatus for compensating cable loss and detecting a fault in a cable connection system is provided to enable a transmitting terminal to detect the cable loss generated between the transmitting terminal and a receiving terminal and automatically perform gain control based on the detected cable loss, thereby simplifying the configuration of the receiving terminal and reducing a control function which the receiving terminal performs. An apparatus for compensating cable loss and detecting a fault in a cable connection system comprises the followings: a transmitting terminal(100) which transmits a RF(Radio Frequency) signal used in cable loss detection to a receiving terminal(200) connected through a RF cable, detects the RF signal returned from the receiving terminal, and compares the strength of the detected RF signal with that of the RF signal transmitted to the receiving terminal, and detects the cable loss, and performs gain control based on the detected cable loss; and the receiving terminal which extracts a RF signal used in the cable loss detection among the signals received from the transmitting terminal through the RF cable, and returns the extracted RF signal to the transmitting terminal.

Description

Automatic cable loss compensation and fault detection device for cable connection system {APPARATUS FOR COMPENSATING CABLE LOSS AND DETECTING FAULT OF CABLE CONNECTION SYSTEM}

1 is a view schematically showing the configuration of a system composed of several enclosures connected by RF cable.

2 is a view for explaining the automatic cable loss compensation process of the cable connection system according to an embodiment.

3 is a view for explaining the automatic cable loss compensation process of the cable connection system according to another embodiment.

4 is a view showing the configuration of the automatic cable loss compensation device of the cable connection system according to an embodiment of the present invention.

5 is a view showing the configuration of the automatic cable loss compensation device of the cable connection system according to another embodiment of the present invention.

6 is a view showing a configuration of a failure detection device of a cable connection system according to an embodiment of the present invention.

7 is a view showing the configuration of a failure detection device of a cable connection system according to another embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

100. transmitting end, 105, 245. duplexer,

110, 250. Forward receive amplifier, 115, 255. Forward filter,

120, 260. forward converter, 125, 265. forward attenuator,

130, 270. Forward output amplifier, 135, 205. Multiplexer,

140, 175. Signal detector, 145, 220. Reverse receive amplifier,

150, 225. Reverse filter, 155, 230. Reverse converter,

160, 235. Reverse attenuator, 165, 240. Reverse output amplifier,

170, 280. controller, 180. signal generator,

185, 250, 310. Forward signal detector, 190, 285 Reverse first signal detector,

195, 290. Reverse second signal detector, 200. Receiver,

210, 295. First coupler, 215, 300. Frequency converter,

275, 305. Second coupler

The present invention relates to an automatic cable loss compensation and fault detection apparatus of a cable connection system, and more particularly, to automatically compensate for cable loss in a cable connection system that detects and compensates a cable loss at a transmitting end, and to detect a failure part. It relates to a detection device.

Among the repeaters for Advanced Mobile Phone Service System (AMPS), Global System for Mobile Communications (GSM), Code Division Multiple Access (CDMA), Orthogonal Frequency Division Multiplexing (OFDM), as shown in FIG. It is constructed and installed at a long distance in a pylon, telephone pole, building, etc., and each enclosure installed at a long distance is connected by RF cable to transmit a signal.

 As described above, in a system in which one system is separated into several enclosures and connected by RF cables (hereinafter, referred to as a 'cable connection system'), each enclosure is connected by an RF cable, and cable loss caused by the RF cable is lost. This occurs, the call quality is not constant due to the cable loss, it is impossible to provide a high quality service to the mobile subscriber.

Accordingly, in order to prevent the call quality from being inconsistent due to the cable loss, the cable loss must be detected and the amplification gain of the transmission signal must be controlled and compensated according to the detected cable loss.

FIG. 2 is a diagram illustrating an automatic cable loss compensation process of a cable connection system according to an exemplary embodiment of the present invention. In FIG. When 2) transmits a signal having a signal strength already known to the receiver 2, the signal detector 3 located at the reverse input terminal of the receiver 2 detects a signal transmitted for cable loss detection, After converting the intensity into a voltage, it is applied to the control unit 4 of the receiving end 2, and the control unit 4 knows the signal intensity corresponding to the voltage applied from the signal detection unit 3 and the control unit 4 already known. The cable loss is calculated based on the difference with the signal strength, and the gain is controlled by controlling the reverse attenuator 5 and the forward attenuator 6 based on the calculated cable loss.

As described above, in the cable loss automatic compensation method of the conventional cable connection system, since the cable loss is detected at the reverse input terminal of the receiver 2, the receiver 2 has two signal detectors, that is, a mobile communication terminal. A signal detector (not shown) for detecting the strength of the RF signal output and provided in the reverse output terminal for gain control of the RF signal transmitted to the side and a reverse input terminal for detecting the strength of the signal used to detect cable loss The signal detection unit 3 is required.

On the other hand, Figure 3 is a road for explaining the automatic cable loss compensation process of the cable connection system according to another conventional embodiment, transmitting a signal of the signal strength already known to the receiving end 2 from the transmitting end 1 to the receiving end 2 In this case, the signal detector 7 located at the reverse output terminal of the receiver 2 detects a signal transmitted for cable loss detection, converts the detected signal intensity into a voltage, and then controls the controller 4 of the receiver 2. The controller 4 calculates the cable loss based on the difference between the signal strength corresponding to the voltage applied from the signal detector 7 and the signal strength already known by the controller 4, and calculates the cable loss. The gain is controlled by controlling the reverse attenuator 5 and the forward attenuator 6 based on the losses.

As described above, in the conventional cable loss automatic compensation method of the cable connection system according to another embodiment, the cable loss is detected along with the function of detecting the strength of the RF signal output from the signal detector 7 provided in the reverse output terminal. All of the functions of detecting the strength of the signal used to perform the function.

As described above, in the related art, a cable loss caused by an RF cable connecting a transmitter and a receiver is detected at a receiver to control gain.

Accordingly, there is a conventional problem that the structure of the receiving end becomes complicated.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. The present invention provides a high quality to a mobile subscriber by detecting a cable loss occurring between a transmitter and a receiver at the transmitter, and automatically performing gain control based on the detected cable loss. The object of the present invention is to provide an automatic cable loss compensation device of a cable connection system that can provide a service of a.

On the other hand, another object of the present invention is to provide a failure detection apparatus of a cable connection system that can detect the portion where a failure occurs by analyzing the signal strength of each portion of the cable loss is measured.

Cable loss automatic compensation device of the cable connection system according to an embodiment of the present invention for achieving the above object, transmits the RF signal used for the cable loss detection to the receiving end connected via the RF cable, the receiving end A transmitter for detecting the returned RF signal, comparing the detected RF signal with the strength of the RF signal transmitted to the receiver, detecting a cable loss, and performing gain control based on the detected cable loss; Preferably it comprises a receiving end for sending the RF signal received from the transmitting end via the RF cable to the transmitting end.

Further, the transmitting end may include a signal detecting unit provided at a reverse input terminal for detecting the RF signal returned from the receiving end and converting the detected RF signal into a voltage; The cable loss is calculated based on the difference between the signal strength corresponding to the voltage received from the signal detector and the RF signal transmitted to the receiver to detect cable loss, and based on the calculated cable loss, It is preferable to include a control unit for controlling the forward attenuator to perform gain control.

The transmitter may include a signal detector configured to be provided at a reverse output terminal to detect the RF signal returned from the receiver and convert the detected RF signal into a voltage; The cable loss is calculated based on the difference between the signal strength corresponding to the voltage received from the signal detector and the signal strength transmitted to the receiver to detect cable loss, and based on the calculated cable loss, the backward attenuator and the forward direction are calculated. It is preferable to include a control unit for controlling the attenuator to perform gain control.

The receiving end may include: a first coupler provided at a reverse input terminal and branching an RF signal used for detecting cable loss among signals received from the transmitting end through the RF cable; A frequency converter configured to receive and convert the frequency of the RF signal branched from the first coupler; It is preferable to include a second coupler which is provided at the forward output stage and combines and outputs the RF signal received from the frequency converter and the RF signal to be transmitted to the transmitter.

The receiving end may include: a first coupler provided at a reverse output end to branch an RF signal used for detecting cable loss among signals received from the transmitting end through the RF cable; A frequency converter configured to receive and convert the frequency of the RF signal branched from the first coupler; It is preferable to include a second coupler provided in the forward input terminal to combine the RF signal received from the frequency converter and the RF signal received from the mobile communication terminal through the duplexer to transmit to the output terminal side.

On the other hand, the failure detection apparatus of the cable connection system according to an embodiment of the present invention, provided in the reverse input terminal of the receiving end connected to the transmitting end by the RF cable detects the RF signal transmitted by the transmitting end for cable loss detection, A reverse first signal detector converting the detected RF signal into a voltage; A second reverse signal detecting unit provided at a reverse output terminal to detect an RF signal used for detecting cable loss among signals applied from the reverse input terminal and converting the detected RF signal into a voltage; Loopback means for extracting an RF signal used for cable loss detection from a signal applied to a duplexer for transmission to a mobile communication terminal and applying it to a forward input terminal; A forward signal detecting unit provided at a forward output terminal to detect an RF signal for detecting cable loss among signals applied from the forward input terminal and converting the detected RF signal into a voltage; Gain control is performed based on the difference between the signal strength corresponding to the voltage applied from the reverse first signal detector and the strength of the RF signal used to detect the cable loss already known at the receiver, and from the reverse second signal detector. Detecting a failure in the reverse path of the receiver based on the signal strength corresponding to the applied voltage, and detecting a failure in the forward path of the receiver based on the signal strength corresponding to the voltage applied from the forward signal detector. It is preferable to include a control unit.

Furthermore, a signal generator for generating and outputting an RF signal which is provided in the forward input terminal of the transmitting end used for the cable loss detection; A forward signal detecting unit provided at a forward output terminal to detect an RF signal for detecting cable loss among signals applied from the forward input terminal and converting the detected RF signal into a voltage; A reverse first signal provided at a reverse input terminal of a transmitting end connected to the receiving end by the RF cable to detect an RF signal used for detecting cable loss among signals received at the receiving end, and converting the detected RF signal into a voltage A detector; A second reverse signal detecting unit provided at a reverse output terminal to detect an RF signal used for detecting cable loss among signals received from the reverse input terminal, and converting the detected RF signal into a voltage; The signal generator controls the signal generator to generate and output an RF signal used for detecting cable loss, detects a failure occurring in a forward path of a transmitter based on a signal strength corresponding to a voltage applied from the forward signal detector, and reverses the reverse direction. Gain control is performed based on the difference between the signal strength corresponding to the voltage applied from the first signal detector and the strength of the RF signal used to detect the cable loss output by controlling the signal generator, and the reverse second signal detector. Preferably, the control unit further comprises a control unit for detecting a failure occurring in the reverse path of the transmitter based on the signal strength corresponding to the voltage applied from the transmitter.

The loopback means includes: a first coupler for branching an RF signal used to detect cable loss among signals applied to the duplexer; A frequency converter configured to receive and convert the frequency of the RF signal branched from the first coupler; It is preferable to include a second coupler which is provided at the forward input terminal and combines the RF signal received from the frequency converter and the RF signal received from the mobile communication terminal through the duplexer to transmit to the forward output terminal side.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the automatic cable loss compensation and failure detection device of a cable connection system according to an embodiment of the present invention.

Prior to the description, the embodiment of the present invention will be described by taking a repeater as an example of the cable connection system.

The repeater, which is a cable connection system applied to the present invention, converts an RF signal received from a base station into an intermediate frequency and outputs the received signal to the receiving end, and converts an intermediate frequency input from the receiving end into an RF signal and transmits the RF signal to the base station, and an RF cable. The receiver converts the intermediate frequency received from the connected transmitter into an RF signal and transmits the RF signal to the mobile communication terminal.

Figure 4 is a road showing the configuration of the automatic cable loss compensation device of the cable connection system according to an embodiment of the present invention, the transmitter 100 is a duplexer 105, the forward receiving amplifier 110, the forward filter 115, Forward converter 120, forward attenuator 125, forward output amplifier 130, multiplexer 135, signal detector 140, reverse receive amplifier 145, reverse filter 150, reverse converter 155 ), A reverse attenuator 160, a reverse output amplifier 165, and a controller 170, and the receiver 200 includes a multiplexer 205, a first coupler 210, and a frequency converter 215. , Reverse receive amplifier 220, reverse filter 225, reverse converter 230, reverse attenuator 235, reverse output amplifier 240, duplexer 245, forward receive amplifier 250, forward filter 255, the forward converter 260, the forward attenuator 265, the forward output amplifier 270, the second coupler 275, and the controller 280. .

In such a configuration, the duplexer 105 of the transmitter 100 receives the RF signal from the base station through the antenna and outputs the RF signal to the forward receiving amplifier 110, the antenna received from the reverse output amplifier 165 to the antenna Send to the base station through.

The forward receiving amplifier 110 amplifies and outputs the RF signal received through the duplexer 105 with an appropriate signal strength.

The forward filter 115 removes noise of the signal amplified by the forward receive amplifier 110 and selectively passes only a reception frequency.

The forward converter 120 converts the RF signal applied from the forward filter 115 to an intermediate frequency and outputs the intermediate frequency.

The forward attenuator 125 controls and outputs the power of the signal applied from the forward converter 120.

The forward output amplifier 130 amplifies and outputs the signal received from the forward attenuator 125.

The multiplexer 135 multiplexes a signal received from the forward output amplifier 130 to the receiver 200 through an RF cable, and demultiplexes a signal received from the receiver 200 through an RF cable to detect a signal. (140).

The signal detector 140 detects a signal transmitted for cable loss detection among the signals applied from the multiplexer 135, converts the detected RF signal into a voltage, and applies the signal to the controller 170.

The reverse reception amplifier 145 amplifies and outputs the signal received through the signal detector 140 with an appropriate signal strength.

The reverse filter 150 removes noise of the signal amplified by the reverse reception amplifier 145 and selectively passes only a reception frequency.

The reverse converter 155 converts the signal received from the reverse filter 150 into an RF signal and outputs the RF signal.

The reverse attenuator 160 controls and outputs power of the RF signal applied from the reverse converter 155.

The reverse output amplifier 165 amplifies the signal received from the reverse attenuator 160 and outputs the amplified signal to the duplexer 105.

The controller 170 transmits a signal having a constant intensity to the receiving terminal 200 through signal control to detect cable loss, and to detect signal strength and cable loss corresponding to a voltage applied from the signal detector 140. The cable loss is calculated based on the difference between the signal strength transmitted from the transmitter 100 and the receiver 200, and the gain is controlled by controlling the reverse attenuator 160 and the forward attenuator 125 based on the calculated cable loss. do.

As described above, the controller 170 controls the reverse attenuator 160 and the forward attenuator 125 based on the calculated cable loss to control the gain, and sets the reverse attenuator 160 and the forward attenuator 125 to the same value. Gain control may be performed, and gain control of the reverse attenuator 160 to a smaller value, and gain control of the reverse attenuator 160 to a larger value.

In addition, as a method of transmitting a signal of a constant intensity to detect the cable loss to the receiving terminal 200 through signal control, a method of transmitting a signal of a service band at a constant intensity and a pilot using a constant intensity There are a method of sending a signal and a method of sending a signal at a constant intensity by sweeping a pilot.

As described above, the controller 170 preferably informs the receiver 200 of the start and end of a signal for detecting cable loss through a modem or synchronization.

Meanwhile, the multiplexer 205 of the receiver 200 demultiplexes a signal received from the transmitter 100 through an RF cable to the first coupler 210, and applies the signal received from the second coupler 275. Multiplexed and transmitted to the transmitting end 100 via the RF cable.

The first coupler 210 branches the RF signal transmitted for cable loss detection among the signals received from the multiplexer 205 and transmits the RF signal to the frequency converter 215.

The frequency converter 215 frequency-converts the RF signal received from the first coupler 210 and transmits the frequency to the second coupler 275.

The reverse reception amplifier 220 amplifies and outputs the signal received through the first coupler 210 with an appropriate signal strength.

The reverse filter 225 removes the noise of the signal amplified by the reverse reception amplifier 220 and selectively passes only the reception frequency.

The reverse converter 230 converts the signal received from the reverse filter 225 into an RF signal and outputs the RF signal.

The reverse attenuator 235 controls and outputs power of the RF signal applied from the reverse converter 230.

The reverse output amplifier 240 amplifies the signal received from the reverse attenuator 235 and outputs the amplified signal to the duplexer 245.

The duplexer 245 transmits the signal received from the reverse output amplifier 240 to the mobile communication terminal through the antenna, and outputs the RF signal received from the mobile communication terminal to the forward reception amplifier 250 through the antenna.

The forward receiving amplifier 250 amplifies and outputs the RF signal received through the duplexer 245 with an appropriate signal strength.

The forward filter 255 removes noise of the signal amplified by the forward receive amplifier 250 and selectively passes only a reception frequency.

The forward converter 260 converts the RF signal applied from the forward filter 255 into an intermediate frequency and outputs the intermediate frequency.

The forward attenuator 265 controls and outputs the power of the signal applied from the forward converter 260.

The forward output amplifier 270 amplifies and outputs the signal received from the forward attenuator 265.

The second coupler 275 combines the RF signal received from the frequency converter 215 and the signal received from the forward output amplifier 270, and then transmits the RF signal to the transmitter 100 through the multiplexer 205.

The controller 280 controls the overall operation of the receiver 200.

Referring to Figure 4 with respect to the operation of the cable loss automatic guarantee device of the cable connection system according to an embodiment of the present invention.

First, the transmitter 100 transmits an RF signal used to detect cable loss through signal control to the receiver 200 through an RF cable.

The signal transmitted from the transmitter 100 is received by the multiplexer 205 of the receiver 200, and the RF signal used for detecting cable loss among the signals received through the multiplexer 205 is received by the receiver 200. Multiplexing unit is branched from the first coupler 210 provided on the input end side is applied to the frequency converter 215, the frequency is converted, then coupled to the signal transmitted to the transmitter 100 through the second coupler 275 Looping back to the transmitting end 100 through 205.

As described above, the signal detecting unit 140 provided at the reverse input terminal of the transmitting terminal 100 detects the signal returned by looping back from the input terminal of the receiving terminal 200 and converts the detected signal strength into a voltage to control the controller 170. And the controller 170 based on the difference between the signal strength corresponding to the voltage applied from the signal detector 140 and the signal strength transmitted from the transmitter 100 to the receiver 200 for detecting cable loss. The cable loss is calculated, and the gain is controlled by controlling the reverse attenuator 160 and the forward attenuator 125 based on the calculated cable loss.

On the other hand, Figure 5 is a road showing the configuration of the automatic cable loss compensation device of the cable connection system according to another embodiment of the present invention, the transmitter 100 is a duplexer 105, the forward receiving amplifier 110, the forward filter 115 ), Forward converter 120, forward attenuator 125, forward output amplifier 130, multiplexer 135, reverse receive amplifier 145, reverse filter 150, reverse converter 155, reverse attenuator 160, a reverse output amplifier 165, a signal detector 175, and a controller 170. The receiver 200 includes a multiplexer 205, a first coupler 210, and a frequency converter ( 215, the reverse receive amplifier 220, the reverse filter 225, the reverse converter 230, the reverse attenuator 235, the reverse output amplifier 240, the duplexer 245, the forward receive amplifier 250, With forward filter 255, forward converter 260, forward attenuator 265, forward output amplifier 270, second coupler 275, control unit 280 The lure is.

In such a configuration, the duplexer 105 of the transmitter 100, the forward receiving amplifier 110, the forward filter 115, the forward converter 120, the forward attenuator 125, the forward output amplifier 130, Multiplexer 135, Reverse Receive Amplifier 145, Reverse Filter 150, Reverse Converter 155, Reverse Attenuator 160, Reverse Output Amplifier 165, Control Unit 170, and Receiver 200 Multiplexer 205, first coupler 210, frequency converter 215, reverse receive amplifier 220, reverse filter 225, reverse converter 230, reverse attenuator 235, reverse output amplification Unit 240, duplexer 245, forward receive amplifier 250, forward filter 255, forward converter 260, forward attenuator 265, forward output amplifier 270, second coupler 275 The controller 280 is similar in configuration and operation to the automatic cable loss compensator of the cable connection system according to an exemplary embodiment, and thus description thereof will be omitted.

However, the signal detector 175 provided between the reverse output amplifier 165 and the duplexer 105 of the transmitter 100 transmits a signal transmitted for detecting cable loss among the signals applied from the reverse output amplifier 165. Is detected, the detected RF signal is converted into a voltage and applied to the controller 170.

Referring to Figure 5 with respect to the operation of the cable loss automatic guarantee device of the cable connection system according to another embodiment of the present invention.

First, the transmitter 100 transmits an RF signal used to detect cable loss through signal control to the receiver 200 through an RF cable.

The signal transmitted from the transmitter 100 is received by the multiplexer 205 of the receiver 200, and the RF signal used for detecting cable loss among the signals received through the multiplexer 205 is received by the receiver 200. It is branched by the first coupler 210 provided at the input end side, applied to the frequency converter 215, and frequency-converted, and then coupled to a signal transmitted to the transmitter 100 through the second coupler 275 and multiplexed. Looping back to the transmitting end 100 via the block 205.

As described above, the signal detection unit 175 included in the reverse output terminal of the transmitting terminal 100 detects the signal returned from the input terminal of the receiving terminal 200 and converts the detected signal strength into a voltage to control the controller 170. And the controller 170 based on the difference between the signal strength corresponding to the voltage applied from the signal detector 175 and the signal strength transmitted from the transmitter 100 to the receiver 200 for detecting cable loss. The cable loss is calculated, and the gain is controlled by controlling the reverse attenuator 160 and the forward attenuator 125 based on the calculated cable loss.

Figure 6 is a road showing the configuration of the failure detection apparatus of the cable connection system according to an embodiment of the present invention, the transmitting end 100 is a duplexer 105, the forward receiving amplifier 110, the forward filter 115, the forward converter 120, forward attenuator 125, forward output amplifier 130, multiplexer 135, reverse receive amplifier 145, reverse filter 150, reverse converter 155, reverse attenuator 160, A reverse output amplifier 165 and a control unit 170 are provided, and the receiver 200 includes a multiplexer 205, a reverse first signal detector 285, a reverse receive amplifier 220, and a reverse filter 225. ), Reverse converter 230, reverse attenuator 235, reverse output amplifier 240, reverse second signal detector 290, first coupler 295, frequency converter 300, duplexer 245, Second coupler 305, forward receive amplifier 250, forward filter 255, forward converter 260, forward attenuator 265, forward output amplifier 270, forward The signal detector 310 and the controller 280 are provided.

In such a configuration, the duplexer 105 of the transmitter 100, the forward receiving amplifier 110, the forward filter 115, the forward converter 120, the forward attenuator 125, the forward output amplifier 130, Multiplexer 135, Reverse Receive Amplifier 145, Reverse Filter 150, Reverse Converter 155, Reverse Attenuator 160, Reverse Output Amplifier 165, and Multiplexer 205 of Receiver 200. ), Reverse receive amplifier 220, reverse filter 225, reverse converter 230, reverse attenuator 235, reverse output amplifier 240, duplexer 245, forward receive amplifier 250, forward Since the filter 255, the forward converter 260, the forward attenuator 265, and the forward output amplifier 270 are similar in configuration and operation to the automatic cable loss compensation device of the cable connection system according to the exemplary embodiment of FIG. The description thereof will be omitted.

However, the control unit 170 of the transmitting terminal 100 transmits a signal for detecting cable loss, which is already known by the receiving terminal 200, to the receiving terminal 200 through a signal control in order to detect the cable loss of the receiving terminal 200. do.

The first signal detector 285 of the receiver 200 detects a signal transmitted for detecting cable loss among the signals applied from the multiplexer 205, converts the detected RF signal into a voltage, and then controls the controller 280. Is applied.

The reverse second signal detector 290 detects a signal transmitted for detecting cable loss among the signals applied from the reverse output amplifier 240, converts the detected RF signal into a voltage, and applies it to the controller 280.

The first coupler 295 branches the RF signal transmitted for cable loss detection among the signals received from the reverse second signal detector 290 and transmits the RF signal to the frequency converter 300.

The frequency converter 300 converts the RF signal received from the first coupler 295 and transmits the frequency signal to the second coupler 305.

The second coupler 305 combines the RF signal received from the frequency converter 300 and the signal received from the duplexer 245 and transmits the combined RF signal to the forward receiving amplifier 250.

The forward signal detector 310 detects an RF signal transmitted for detecting cable loss among the signals received from the forward output amplifier 270, converts the detected RF signal into a voltage, and applies it to the controller 280.

The controller 280 performs gain control based on the difference between the signal strength corresponding to the voltage applied from the reverse first signal detector 285 and the signal strength for the cable loss detection known by the controller 280. Based on the signal strength corresponding to the voltage applied from the reverse second signal detector 290, it is determined whether the gain of the signal output to the antenna through the duplexer 245 of the receiving terminal 200 is normal, and thus it is generated in the reverse path. Detect a failure.

In addition, the controller 280 detects a signal for detecting cable loss transmitted by frequency conversion in the forward direction of the receiver 200 through the first coupler 295, the frequency converter 300, and the second coupler 305. On the basis of the signal strength corresponding to the voltage applied from the forward signal detector 310, it is determined whether the gain for the signal output to the transmitter 100 through the multiplexer 205 of the receiver 200 is normal and is forward. Detect a fault in the path.

Referring to Figure 6 with respect to the operation of the failure detection device of the cable connection system according to an embodiment of the present invention.

First, the transmitter 100 transmits an RF signal used to detect cable loss through signal control to the receiver 200 through an RF cable.

When the receiver 200 receives the signal transmitted from the transmitter 100, the first signal detector 285 provided at the reverse input terminal of the receiver 200 detects an RF signal used for cable loss detection. The controller 280 converts and transmits the detected signal strength to the controller 280, and the controller 280 receives a voltage from the reverse first signal detector 285 corresponding to the voltage applied from the reverse first signal detector 285. The gain control is performed by controlling the reverse attenuator 235 and the forward attenuator 265 based on the difference between the signal strength and the signal strength for the cable loss detection known in the controller 280.

Thereafter, the reverse second signal detector 290 provided at the reverse output terminal of the receiving terminal 200 detects an RF signal used for detecting cable loss among the signals transmitted from the input terminal side, converts the detected signal strength, and controls the control unit. The controller 280 transmits the signal to the antenna through the duplexer 245 of the receiver 200 based on the signal strength corresponding to the voltage applied from the reverse second signal detector 290. Determine if the gain is normal and detect a failure in the reverse path.

Subsequently, the RF signal used for detecting cable loss is branched by the first coupler 295 provided at the reverse output terminal of the receiver 200 and applied to the frequency converter 300 to be frequency-converted. 305 is coupled to the signal transmitted in the forward direction of the receiver 200 is transmitted to the forward output terminal side of the receiver 200, the forward signal detector 310 provided in the forward output terminal of the receiver 200 is a signal Detects the transmitted RF signal for cable loss detection, converts the detected RF signal into a voltage, and transmits the detected RF signal to the controller 280, and the controller 280 receives a signal strength corresponding to the voltage applied from the forward signal detector 310. Based on the determination of whether the gain for the signal output to the transmitter 100 through the multiplexer 205 of the receiver 200 is normal, it detects a failure in the forward path.

Figure 7 is a road showing the configuration of the failure detection apparatus of the cable connection system according to another embodiment of the present invention, the transmitting end 100 is a duplexer 105, the signal generator 180, the forward receiving amplifier 110, the forward direction Filter 115, forward converter 120, forward attenuator 125, forward output amplifier 130, forward signal detector 185, multiplexer 135, reverse first signal detector 190, reverse receive amplification A unit 145, a reverse filter 150, a reverse converter 155, a reverse attenuator 160, a reverse output amplifier 165, a reverse second signal detector 195, a control unit 170, The receiver 200 includes a multiplexer 205, a reverse first signal detector 285, a reverse receive amplifier 220, a reverse filter 225, a reverse converter 230, a reverse attenuator 235, and a reverse output amplifier. 240, reverse second signal detector 290, first coupler 295, frequency converter 300, duplexer 245, second coupler 305, forward reception The amplifier 250, the forward filter 255, the forward converter 260, the forward attenuator 265, the forward output amplifier 270, the forward signal detector 310, and the controller 280 are provided.

In such a configuration, the duplexer 105 of the transmitter 100, the forward receiving amplifier 110, the forward filter 115, the forward converter 120, the forward attenuator 125, the forward output amplifier 130, Multiplexer 135, Reverse Receive Amplifier 145, Reverse Filter 150, Reverse Converter 155, Reverse Attenuator 160, Reverse Output Amplifier 165, and Multiplexer 205 of Receiver 200. ), Reverse first signal detector 285, reverse receive amplifier 220, reverse filter 225, reverse converter 230, reverse attenuator 235, reverse output amplifier 240, reverse second signal detector 290, the first coupler 295, the frequency converter 300, the duplexer 245, the second coupler 305, the forward receive amplifier 250, the forward filter 255, the forward converter 260, The forward attenuator 265, the forward output amplifier 270, the forward signal detector 310, and the controller 280 are a failure detecting apparatus and a device of the cable connection system according to the exemplary embodiment of FIG. 6. Since sex and operation are similar, a description thereof will be omitted.

However, the signal generator 180 of the transmitter 100 generates and outputs an RF signal having a constant intensity used for detecting cable loss, converts the generated RF signal into a voltage, and applies it to the controller 170.

The forward signal detector 185 detects a signal transmitted for detecting cable loss among the signals applied from the forward output amplifier 130, converts the detected RF signal into a voltage, and applies it to the controller 170.

The reverse first signal detector 190 detects a signal transmitted for cable loss detection among the signals applied from the multiplexer 135, converts the detected RF signal into a voltage, and applies it to the controller 170.

The reverse second signal detector 195 detects a signal transmitted for detecting cable loss among the signals applied from the reverse output amplifier 165, converts the detected RF signal into a voltage, and applies it to the controller 170.

The controller 170 controls the signal generator 180 to generate and output an RF signal for detecting cable loss, and performs gain control based on a signal strength corresponding to a voltage applied from the signal generator 180. In addition, based on the signal strength corresponding to the voltage applied from the forward signal detector 185, it is determined whether the gain for the signal output to the receiver 200 through the multiplexer 135 of the transmitter 100 is normal, Detect failures in the forward path.

In addition, the controller 170 may obtain a gain based on a difference between a signal strength corresponding to a voltage applied from the reverse first signal detector 190 and a signal output from the signal generator 180 for detecting cable loss. After the control is performed, it is determined whether the gain for the signal output to the antenna through the duplexer 105 of the transmitter 100 is normal based on the signal strength corresponding to the voltage applied from the reverse second signal detector 195. To detect faults in the reverse path.

Referring to FIG. 7, the operation of the failure detection apparatus of the cable connection system according to another embodiment of the present invention will be described.

First, when the signal generator 180 provided at the forward input terminal of the transmitting terminal 100 is controlled to generate and output an RF signal used for detecting cable loss, the cable is forwarded by the forward signal detector 185 provided at the forward output terminal. The signal for detecting the loss is detected, and the detected signal strength is converted into a voltage and applied to the controller 170, and the controller 170 based on the signal strength corresponding to the voltage applied from the forward signal detector 185. It is determined whether the gain for the signal output to the receiver 200 through the multiplexer 135 of the transmitter 100 is normal and detects a failure occurring in the forward path.

Subsequently, when the receiving terminal 200 receives the signal transmitted from the transmitting terminal 100, the reverse first signal detecting unit 285 provided at the reverse input terminal of the receiving terminal 200 detects an RF signal used for detecting cable loss. The controller 280 converts the intensity of the detected signal to the control unit 280, and receives a voltage from the reverse first signal detector 285 to the voltage applied from the reverse first signal detector 285. The gain control is performed by controlling the reverse attenuator 235 and the forward attenuator 265 based on the difference between the corresponding signal strength and the signal strength for the cable loss detection known by the controller 280.

In addition, the reverse second signal detector 290 provided at the reverse output terminal of the receiving terminal 200 detects an RF signal used for detecting cable loss among the signals transmitted from the input terminal side, converts the detected signal intensity, and controls the control unit. The controller 280 transmits the signal to the signal output to the antenna through the duplexer 245 of the receiver 200 based on the signal strength corresponding to the voltage applied from the reverse second signal detector 290. By determining whether the gain is normal, the failure in the reverse path is detected.

Subsequently, the RF signal used for detecting cable loss is branched by the first coupler 295 provided at the reverse output terminal of the receiver 200 and applied to the frequency converter 300 to be frequency-converted. 305 is coupled to the signal transmitted in the forward direction of the receiver 200 is transmitted to the forward output terminal side of the receiver 200, the forward signal detector 310 provided in the forward output terminal of the receiver 200 is a signal Detects the transmitted RF signal for cable loss detection, converts the detected RF signal into a voltage, and transfers the detected RF signal to the controller 280, and the controller 280 corresponds to a signal corresponding to the voltage applied from the forward signal detector 310. Based on the strength, it is determined whether the gain for the signal output to the transmitter 100 through the multiplexer 205 of the receiver 200 is normal, and detects a failure occurring in the forward path.

Subsequently, as described above, when the transmitter 100 receives a signal that is looped back from the receiver 200 and returns, the reverse first signal detector 190 provided at the reverse input terminal of the transmitter 100 detects the cable loss. The RF signal to be used is detected, the intensity of the detected signal is converted and transmitted to the controller 170, and the controller 170 receiving the voltage from the reverse first signal detector 190 receives the reverse first signal detector 190. The reverse attenuator 160 and the forward attenuator 125 are controlled based on the difference between the signal strength corresponding to the voltage applied from the signal and the signal strength for detecting cable loss generated and transmitted by the signal generator 180. Perform control.

In addition, the reverse second signal detector 195 provided at the reverse output terminal of the transmitting terminal 100 detects an RF signal used for detecting cable loss among the signals transmitted from the input terminal side, and converts the detected signal strength to control the control unit. The control unit 170 transmits the signal to the signal output to the antenna through the duplexer 105 of the transmitting terminal 100 based on the signal strength corresponding to the voltage applied from the reverse second signal detector 195. By determining whether the gain is normal, the failure in the reverse path is detected.

The automatic cable loss compensation and failure detection apparatus of the cable connection system of the present invention can be implemented in various modifications within the range allowed by the technical idea of the present invention without being limited to the above-described embodiments. For example, in the embodiment of the present invention, in order to detect cable loss, the RF signal transmitted from the transmitter is frequency-converted at the receiver and returned to the transmitter, but the frequency converter is replaced with a time delay unit, and the signal received at the transmitter is fixed for a predetermined time. After a delay, you can return it as is.

In addition, in the embodiment of the present invention, the RF signal transmitted from the transmitting end is looped back to the transmitting end and returned to the transmitting end to detect the cable loss, but the RF signal transmitted from the transmitting end is looped back from the output end of the receiving end to detect the cable loss. Can be sent back to the sender.

According to the cable loss automatic compensation and fault detection apparatus of the cable connection system of the present invention as described above, the transmitter detects the cable loss occurring between the transmitter and the receiver, and automatically controls the gain control based on the detected cable loss. By doing this, the configuration of the receiving end can be simplified, and the control function in charge of the receiving end can be reduced.

Further, by automatically performing gain control on cable loss, it is possible to provide high quality service to mobile communication subscribers.

On the other hand, by analyzing the signal strength of each portion of the cable loss is measured by detecting the failure portion, it is possible to automatically determine the state of the equipment.

Claims (8)

The RF signal used for cable loss detection is transmitted to a receiving end connected through an RF cable, the RF signal returned from the receiving end is detected, and the strength of the detected RF signal and the RF signal transmitted to the receiving end are compared. A transmitter for detecting cable loss, and performing gain control based on the detected cable loss; It includes a receiving end for extracting the RF signal used for the cable loss detection from the signal received from the transmitting end via the RF cable, and returning the extracted RF signal back to the transmitting end, The transmitter includes a signal detector configured to detect an RF signal provided at a reverse input terminal and return from the receiver, and convert the detected RF signal into a voltage; The cable loss is calculated based on the difference between the signal strength corresponding to the voltage received from the signal detector and the RF signal transmitted to the receiver to detect cable loss, and based on the calculated cable loss, And a control unit for controlling the forward attenuator to perform gain control, The receiving end includes: a first coupler provided at a reverse input end to branch an RF signal used for detecting the cable loss among signals received from the transmitting end through the RF cable; A frequency converter configured to receive and convert the frequency of the RF signal branched from the first coupler; And a second coupler coupled to a forward output terminal and configured to combine and output an RF signal applied from the frequency converter and an RF signal to be transmitted to the transmitter. delete The method of claim 1, wherein the transmitting end, A signal detector configured to be provided at a reverse output stage to detect the RF signal returned from the receiver and convert the detected RF signal into a voltage; The cable loss is calculated based on the difference between the signal strength corresponding to the voltage received from the signal detector and the signal strength transmitted to the receiver to detect cable loss, and based on the calculated cable loss, the backward attenuator and the forward direction are calculated. Cable loss automatic compensation device of the cable connection system characterized in that it comprises a control unit for controlling the attenuator to perform a gain control. delete delete A reverse first signal detector provided at a reverse input terminal of a receiver connected to a transmitter by an RF cable and detecting an RF signal transmitted by the transmitter for cable loss detection, and converting the detected RF signal into a voltage; A second reverse signal detecting unit provided at a reverse output terminal to detect an RF signal used for detecting cable loss among signals received from the reverse input terminal, and converting the detected RF signal into a voltage; Loopback means for extracting an RF signal used for cable loss detection from a signal applied to a duplexer for transmission to a mobile communication terminal and applying it to a forward input terminal; A forward signal detecting unit provided at a forward output terminal to detect an RF signal for detecting cable loss among signals applied from the forward input terminal and converting the detected RF signal into a voltage; Gain control is performed based on the difference between the signal strength corresponding to the voltage applied from the reverse first signal detector and the strength of the RF signal used to detect the cable loss already known at the receiver, and from the reverse second signal detector. Detecting a failure in the reverse path of the receiver based on the signal strength corresponding to the applied voltage, and detecting a failure in the forward path of the receiver based on the signal strength corresponding to the voltage applied from the forward signal detector. Device for detecting a failure of a cable connection system comprising a control unit. 7. The apparatus of claim 6, further comprising: a signal generator which is provided at a forward input terminal of the transmitter to generate and output an RF signal used to detect cable loss; A forward signal detecting unit provided at a forward output terminal to detect an RF signal for detecting cable loss among signals applied from the forward input terminal and converting the detected RF signal into a voltage; A reverse first signal provided at a reverse input terminal of a transmitting end connected to the receiving end by the RF cable to detect an RF signal used for detecting cable loss among signals received at the receiving end, and converting the detected RF signal into a voltage A detector; A second reverse signal detecting unit provided at a reverse output terminal to detect an RF signal used for detecting cable loss among signals received from the reverse input terminal, and converting the detected RF signal into a voltage; The signal generator controls the signal generator to generate and output an RF signal used for detecting cable loss, detects a failure occurring in a forward path of a transmitter based on a signal strength corresponding to a voltage applied from the forward signal detector, and reverses the reverse direction. Gain control is performed based on the difference between the signal strength corresponding to the voltage applied from the first signal detector and the strength of the RF signal used to detect the cable loss output by controlling the signal generator, and the reverse second signal detector. And a control unit for detecting a failure occurring in a reverse path of a transmitting end based on a signal strength corresponding to a voltage applied from the apparatus. The method of claim 6, wherein the loopback means, A first coupler for branching an RF signal used to detect cable loss among signals applied to the duplexer; A frequency converter configured to receive and convert the frequency of the RF signal branched from the first coupler; And a second coupler provided at a forward input terminal to combine the RF signal received from the frequency converter and the RF signal received from the mobile communication terminal through the duplexer and transmit the combined RF signal to a forward output terminal. Fault detection device.

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