KR100388981B1 - Apparatus for checking receive path of base station in mobile communication system - Google Patents

Abstract

The present invention is to check the reception path of the base station in the mobile communication system, the present invention is the first directional coupling unit 11, the band pass filter 12, the low noise amplifier 13, low frequency conversion unit (14), a base station of a mobile communication system having an A / D converter (15) and an antenna (16), wherein the antenna (16), the first directional coupler (11), and a reception path checker ( A switch 21 for preventing a signal from flowing into the antenna 16 by performing a switching operation therebetween; A first signal distributor (22) for distributing the signal of the low noise amplifier (13) and transmitting the signal to the low frequency converter (14) and the reception path checker (30); A second directional coupler (23) for sampling the output of the low frequency converter (14) and transmitting it to the A / D converter (15) and the receiving path checker (30); A reception path checking unit connected to the switch 21, the first signal distribution unit 22, and the second directional coupler 23 to monitor an input signal to determine a normal flow of an output on a reception path ( 30), it is possible to check the status and failure of each block on the base station receiving path.

Description

Apparatus for checking receive path of base station in mobile communication system}

The present invention relates to a device for checking the abnormality of the reception path of the base station of the mobile communication system, and in particular, the signal receiving path check device of the base station of the mobile communication system to be suitable for checking the status and defects of each block on the base station signal receiving path It is about.

In general, a mobile communication system is a communication system that targets mobile devices such as people, cars, ships, trains, and airplanes, which includes key phone systems, mobile phones (mobile phones, vehicle phones), port phones, aircraft phones, and mobile phones. Trains, cruise ships, express buses), radio calling, radiotelephony, satellite mobile communication, amateur radio, and fishing service ships.

Thus, a general mobile communication system includes: a network operation unit which receives an operator's input and reflects it to systems in a network; A base station controller which collects data of the network operation unit and base stations in the lower base station and transmits the collected data to a switching system; A base station for transmitting data of the base station controller to user terminals, collecting data of the user terminals, and transmitting the collected data to the base station controller; The user's mobile terminal transmits the information transmitted from the base station to the user, converts the transmitted voice or code level information into wireless data and transmits the information to the base station.

1 is a block diagram of a signal receiver of a conventional base station in such a mobile communication system.

As shown therein, the directional coupler 1 performs directional coupling of data received through the antenna 6; A band pass filter (2) for filtering only a reception frequency from a signal output from the directional coupler (1); A low noise amplifier (3) for amplifying the output of the band pass filter (2); A low frequency converter 4 for converting a high frequency signal output from the low noise amplifier 3 into a low frequency; The A / D converter 5 converts the low frequency signal output from the low frequency converter 4 into A / D (Analog to Digital conversion).

Therefore, the signal entering the antenna 6 of the base station passes through the directional coupler (1). The signal passing through the directional coupler 1 passes through the bandpass filter 2 to filter only commercial reception frequencies.

The signal passing through the bandpass filter 2 has a low output and needs to be amplified. Thus, the low noise amplifier 3 passes to the next stage of the band pass filter 2.

Since the signal from the low noise amplifier 3 is a high frequency signal, the signal must first be converted to low frequency in order to convert from analog to digital. Thus, the output of the low noise amplifier 3 is fed to the low frequency converter 4. The signal from the low frequency converter 4 is input to the A / D converter 5 to convert from analog to digital.

Referring to the signal reception operation of the conventional base station configured and operated as described above in detail.

First, a signal enters the reception antenna 6 of the base station.

Then, the directional coupler 1 passes through the signal for sampling. In the receiving antenna 6, all kinds of signals are received according to the frequency band used by the antenna. The band pass filter 2 is used to filter only signals of frequency bands operated by the user among these signals. The band pass filter 2 has a bandwidth for passing all the reception operating frequencies of the user.

Since the signal passed through the bandpass filter 2 has a very small output size of the signal itself, it is necessary to amplify the signal. The low noise amplifier 3 is used to amplify this signal. The amplifier amplifies only the desired signal and reduces noise.

In addition, since the signal from the low noise amplifier 3 is a high frequency signal of 1.8 to 1.9 GHz, a low frequency conversion is required to convert the analog to the digital signal. Thus, the signal from the low noise amplifier 3 is input to the low frequency converter 4. The signal entered into the low frequency converter 4 enters the A / D converter 5 for the analog-to-digital conversion through the frequency conversion process and the amplifier of the low frequency converter 4 itself.

This series of steps is a schematic operation of the receiving end of the base station.

As can be seen in the operation of the base station, the block having the concept of an active element in each block is a low noise amplifier 3 and a low frequency converter 4. It is necessary to check the status of these two blocks from time to time.

Therefore, conventionally, there is only a method of confirming simple state management in order to confirm these two blocks. That is, only the operation of the low noise amplifier and the low frequency conversion unit can be confirmed from the control board.

However, in the conventional base station signal receiver, the path was checked only by an alarm for state management occurring in the low noise amplifier and the low frequency converter. In this case, there was a problem in that the normal flow of the signal for each block of the receiver could not be confirmed. Therefore, even if the low noise amplifier or the low frequency conversion unit operates, it may not be normal operation. In other words, the gain may drop. Therefore, when the received signal passes through the low noise amplifier, information on whether the low noise amplifier is operating normally is insufficient only by the status display. In practice, the low noise amplifier and low frequency converter operate normally, but the gain does not come out properly. In this case, there is a need for a method that can more accurately monitor the state of the low noise amplifier and low frequency converter.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, an object of the present invention is to check the signal reception path of the base station of the mobile communication system that can check the status and defects of each block on the base station signal receiving path To provide.

1 is a block diagram of a signal receiving end of a base station of a conventional mobile communication system,

2 is a block diagram of a signal receiving path checking apparatus of a base station of a mobile communication system according to the present invention.

Explanation of symbols on the main parts of the drawings

11: first directional coupling portion 12: band pass filter

13 low noise amplifier 14 low frequency converter

15: A / D conversion unit 16: receiving antenna

21 switch 22 first signal distribution unit

23: second directional coupling unit 30: receiving path check unit

31: first signal attenuator 32: second signal distributor

33: bidirectional bandpass filter 34: terminal

35: second signal attenuator 36: controller

37: output monitor 41, 44: communication port

42: Transmission sample port 43, 45, 46: Monitor port

In order to achieve the above object, the signal receiving path check apparatus of a base station of a mobile communication system according to the present invention,

A base station of a mobile communication system having a first directional coupler, a band pass filter, a low noise amplifier, a low frequency converter, an A / D converter, and an antenna, the antenna and the first directional coupler A switch for preventing a signal from flowing into the antenna by performing a switching operation between the receiving path checking units; A first signal distribution unit for distributing the signal of the low noise amplifier unit and transmitting the signal to the low frequency conversion unit and the reception path checking unit; A second directional coupler for sampling an output of the low frequency converter and transmitting the sample to the A / D converter and the reception path checker; It is characterized in that the technical configuration consists of a reception path checker which is connected to the switch, the first signal distribution unit and the second directional coupler to monitor the input signal to determine the normal flow of the output on the reception path.

Hereinafter, an embodiment according to the technical idea of the signal receiving path check apparatus of the base station of the mobile communication system according to the present invention will be described.

2 is a block diagram of a signal receiving path checking apparatus of a base station of a mobile communication system according to the present invention.

As shown therein, the first directional coupler 11, the bandpass filter 12, the low noise amplifier 13, the low frequency converter 14, the A / D converter 15 and the antenna In the base station of the mobile communication system having a (16), the signal to the antenna 16 by performing a switching operation between the antenna 16, the first directional coupler 11 and the reception path check unit 30 A switch 21 for preventing inflow; A first signal distributor (22) for distributing the signal of the low noise amplifier (13) and transmitting the signal to the low frequency converter (14) and the reception path checker (30); A second directional coupler (23) for sampling the output of the low frequency converter (14) and transmitting it to the A / D converter (15) and the receiving path checker (30); A reception path checking unit connected to the switch 21, the first signal distribution unit 22, and the second directional coupler 23 to monitor an input signal to determine a normal flow of an output on a reception path ( 30).

In the above, the reception path checking unit 30 artificially applies a signal to the receiving end of the base station to recognize the applied value, and then distributes the output of the low noise amplification unit 13 to monitor the output value and the low frequency conversion unit. The output value of 14 is monitored by monitoring the output value, and then the normal flow of the output on the reception path is determined based on the monitored value.

The reception path check unit 30 includes: a first signal attenuator 31 connected to the switch 21 to attenuate an input signal; A second signal distributor 32 for distributing the output of the bidirectional bandpass filter 33 to the signal attenuator 31 and the output monitor 37; A bidirectional bandpass filter 33 connected to the signal distribution unit 32 and performing bidirectional bandpass filtering; A terminal (34) connected to the bidirectional bandpass filter (33) and controlling a normal flow determination operation of an output on a reception path of the reception path checker (30); A second signal attenuator (35) connected to the bidirectional bandpass filter (33) and attenuating the input signal; A control unit (36) connected to the switch (21) and the output monitor unit (37) to control an operation of the reception path check unit (30); And an output monitor unit 37 which monitors output values of the first and second signal distribution units 22 and 32 and the second directional coupler 23 and transmits the results to the control unit 36. .

The reception path check unit 30 includes: a first communication port 41 for connecting in communication so as to control the control unit 36 with a terminal; A transmission sample port 42 for outputting a transmission sample of the second signal attenuator 35; A first monitor port 43 connecting the switch 21 and a first signal attenuation part; A second communication port 44 connecting the switch 21 and the control unit 36; A second monitor port 45 connecting the first signal distributor 22 and the output monitor 37; And a third monitor port 46 connecting the second directional coupler 23 and the output monitor 37.

The operation of the signal receiving path checking apparatus of the base station of the mobile communication system according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First of all, the present invention is configured to monitor power among a reception antenna input, a low noise amplifier, and a frequency conversion board on a conventional reception path. Therefore, the reception path checker 30 prevents the inflow into the antenna 16 by using the switch 21 to prevent the signal inflow into the existing reception antenna 16, and artificially outputs the output of the terminal for the path check to the system. Allow it.

Thus, reference numerals 11 to 16 in Fig. 2 are the same as the conventional configuration.

The reception path checking unit 30 includes a signal attenuation unit 31 and a signal distribution unit 32, a bidirectional band pass filter 33, a terminal 34, a control unit 36, and an output monitor unit 37. And ports 41 to 46.

In addition, a switch 21 is added to the stage next to the antenna 16 on the reception path, and a signal divider 22 is added to the stage after the low noise amplifier 13. A directional coupler 23 is added to the stage after the low frequency converter 14 to sample the output of the low frequency converter 14.

Referring to the schematic operation of the present invention, after artificially applying a signal to the receiving end of the base station and recognizing the value, the output of the low noise amplifier 13 is distributed to monitor the output value, and the low frequency converter 14 Sample the output to monitor the output. Based on this monitored value, the normal flow of output on the receiving path is determined. The reception path checking unit 30 is controlled by a personal computer or a terminal. In addition, the sampling path 42 of the transmission output of the base station should be connected to the reception path checking unit 30.

Referring to the operation of the present invention in more detail as follows.

First, the terminal 34 is embedded in the reception path checker 30. Therefore, the output of the terminal 34 is used as a signal for checking the reception path. The terminal 34 is wired through the transmission output of the base station, and the output of the terminal 34 is also wired to the base station receiving end.

Therefore, in order to check the reception path, by connecting a personal computer to the first communication port 41 of the reception path checking unit 30 and switching the switch 21, the antenna 16 and the base station receiving end are separated, and the reception path checking is performed. The unit 30 is connected to the base station receiving end.

In addition, the transmission output sampling port of the base station is connected to the transmission sample port 42 of the reception path check unit 30.

Accordingly, when the terminal 34 detects the transmission of the base station, the terminal 34 calls the terminal 34. The call is a virtual call between the terminal 34 and the base station. When the call is made from the base station to the terminal 34, the terminal responds to the base station, and all of these operations are possible for each base station. When the base station places a call, the terminal responds to it and uses the terminal output at that time.

The terminal then receives the base station output and also transmits a signal to the base station. However, since the transmit / receive frequencies are different, the bidirectional bandpass filter 33 is required when connecting the base station output to the terminal and connecting the terminal output to the base station. Thus, when the transmission output of the base station enters the terminal 34, the magnitude of the output can be adjusted through the second signal attenuator 35.

Accordingly, the transmission output of the base station enters the second signal attenuator 35 through the sample port 42, and the signal from the second signal attenuator 35 passes through the bidirectional bandpass filter 33 to the terminal 34. The signal comes in. In response, the terminal 34 responds with a frequency different from that of the base station, and the signal enters the bidirectional bandpass filter 33 again. Since the frequency is different when the terminal 34 enters the terminal 34 and the frequency is different when the terminal 34 exits the terminal 34, the signal passing through the bidirectional bandpass filter 33 enters the second signal distributor 32.

The signal divided by the second signal distribution unit 32 enters the output monitor 37 and the first signal attenuation unit 31 at the base station receiving end. The output value at this time is stored in the control unit 36, and the signal passing through the first signal attenuation unit 31 enters the base station through the switch 21.

On the other hand, the signal entering the base station receiving path passes through the first directional coupler 11, the low pass filter 12, and the low noise amplifier 13, as in the conventional configuration and operation described above.

Then, the signal from the low noise amplifier 13 passes through one path through the first signal divider 22 to the low frequency converter 14, and the other through the output monitor unit 37 of the reception path checker 30. Enter). At this time, the output value is stored in the control unit 36.

In addition, the signal entering the low frequency conversion unit 14 is converted into a low frequency after the frequency is converted into the second directional coupling unit 23, the sampling value of the second directional coupling unit 23 is the reception path check unit 30 It enters the output monitor part 37 in the inside, and the value is stored in the control part 36. FIG.

The output of the second directional coupler 23 enters the A / D converter 15 to convert from analog to digital.

In this way, the output values of the signals measured at three points on the reception path are stored in the control unit 36, and then converted into respective absolute values. Thus, the gain of the output of the low noise amplifier 13 is calculated to check the state of the low noise amplifier 13 and monitor the output of the low frequency converter 14 in comparison with the reference value.

In this way, the output can be judged correctly, and information about the result can be passed to other processor boards.

In addition to the storage, conversion, and output of the values detected by the output monitor 37, the controller 36 may perform software reporting to a higher processor. If the path on the receiver is multipath, the switch can be used to check the status of multiple paths.

As described above, the present invention can check the status and defect of each block on the base station reception path.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the signal receiving path checking apparatus of the base station of the mobile communication system according to the present invention can check the state on the receiving path of the base station with a quantitative value, and not only that the receiving path is formed, but also what state it is. Since it can be confirmed that there is an effect that can ensure accuracy in base station management.

In addition, the present invention has the advantage of extending the path to be checked by checking not only the reception path of one path but also the reception path of several paths.

In addition, the present invention has the effect of checking the reception path in an environment almost similar to the actual operating situation of the system because the use signal when the base station checks the signal of the base station to test the signal output looped back using the terminal.

In addition, the present invention can be connected to the upper processor of the base station to the output value sensed and measured by the reception path checker of the base station, so that the base station can be efficiently managed.

Claims (5)

And a first directional coupler 11, a band pass filter 12, a low noise amplifier 13, a low frequency converter 14, an A / D converter 15 and an antenna 16. In the signal receiving end of the base station of the mobile communication system, A switch (21) for preventing a signal from flowing into the antenna (16) by performing a switching operation between the antenna (16), the first directional coupler (11) and the reception path checker (30); A first signal distributor (22) for distributing the signal of the low noise amplifier (13) and transmitting the signal to the low frequency converter (14) and the reception path checker (30); A second directional coupler (23) for sampling the output of the low frequency converter (14) and transmitting it to the A / D converter (15) and the receiving path checker (30); A reception path checking unit connected to the switch 21, the first signal distribution unit 22, and the second directional coupler 23 to monitor an input signal to determine a normal flow of an output on a reception path ( Signal receiving path check device of the base station of the mobile communication system, characterized in that consisting of. The method of claim 1, wherein the reception path check unit 30, After artificially applying a signal to the receiving end of the base station to recognize the applied value, the output of the low noise amplifier 13 is distributed to monitor the output value, and the output of the low frequency converter 14 is sampled to monitor the output value. Then, the signal receiving path check apparatus of the base station of the mobile communication system, characterized in that for determining the normal flow of the output on the receiving path based on the monitored value. The method of claim 1, wherein the reception path check unit 30, A first signal attenuator 31 connected to the switch 21 for attenuating an input signal; A second signal distributor 32 for distributing the output of the bidirectional bandpass filter 33 to the signal attenuator 31 and the output monitor 37; A bidirectional bandpass filter 33 connected to the signal distribution unit 32 and performing bidirectional bandpass filtering; A terminal (34) connected to the bidirectional bandpass filter (33) and controlling a normal flow determination operation of an output on a reception path of the reception path checker (30); A second signal attenuator (35) connected to the bidirectional bandpass filter (33) and attenuating the input signal; A control unit (36) connected to the switch (21) and the output monitor unit (37) to control an operation of the reception path check unit (30); And an output monitor unit 37 which monitors output values of the first and second signal distribution units 22 and 32 and the second directional coupler 23 and transmits the results to the control unit 36. A signal receiving path checking device of a base station of a mobile communication system. The method of claim 3, wherein the reception path check unit 30, A first communication port (41) for communication connection to control the control unit (36) with a terminal; A transmission sample port 42 for outputting a transmission sample of the second signal attenuator 35; A first monitor port 43 connecting the switch 21 and a first signal attenuation part; A second communication port 44 connecting the switch 21 and the control unit 36; A second monitor port 45 connecting the first signal distributor 22 and the output monitor 37; And a third monitor port (46) for connecting the second directional coupler (23) and the output monitor (37) to the base station of the mobile communication system. The method of claim 3, wherein the switch 21, A signal receiving path checking apparatus of a base station of a mobile communication system, characterized in that for performing a switching operation to check the status of the various paths when the paths on the receiving path are multiple paths.