KR100537783B1 - Method and system for controlling forward transmit power of a code division multiple access repeater - Google Patents

Abstract

The present invention relates to a method and system for automatically controlling its output in a repeater coupled to a code division multiple access (CDMA) base station. In the method for automatically controlling the output of a CDMA repeater according to the present invention, the control unit periodically repeats a real time based on GPS and a pilot channel value (Ec / Io value) from a monitoring terminal mounted in the repeater, Determining whether the actual time is within the set time, determining whether the Ec / Io value has been kept above the minimum call output value within the set time, and as a result of the determination, the minimum call output within the set time. If it has been kept above the value, controlling the output attenuator such that the currently measured output value is the maximum call output value.

Description

Automatic control method and system of output of CDMA repeater {METHOD AND SYSTEM FOR CONTROLLING FORWARD TRANSMIT POWER OF A CODE DIVISION MULTIPLE ACCESS REPEATER}

The present invention relates to a method and system for automatically controlling its output in a repeater coupled to a code division multiple access (CDMA) base station.

In general, a repeater coupled to a base transceiver station (BTS) of a wireless communication network is a device that is used for improving call quality and extending coverage, such as difficult to reach a radio wave or a radio blocking region due to a feature. Such a repeater usually consists of donor equipment installed in a base station and remote equipment installed in a radio wave shadow area. The donor and the remote are coupled via electrical connection means such as an optical cable.

In the case of a digital optical repeater, the donor receives a CDMA signal from a base station through a communication cable, converts it into a digital signal, and then converts the optical signal into an optical signal and transmits it to the remote. The remote converts the optical signal into a digital signal, reconverts and amplifies the digital signal into a CDMA signal, and sends it to the shadow area.

As described above, the repeater is a communication device that is coupled to the base station by wire or wireless to solve the radio wave shadow area as shown in FIGS. 1A and 1B. This repeater will be described in more detail with reference to FIG. 1B. Figure 1b is a block diagram schematically showing the structure of a conventional repeater. The repeater here is wirelessly coupled to the base station.

As shown in FIG. 1B, a conventional repeater includes a base station facing antenna 300, a first duplexer 310, a forward signal processor 320, a second duplexer 330, a mobile station facing antenna 340, and a reverse signal processor. And 350. The base station facing antenna 300 and the mobile station facing antenna 340 are both transmit and receive antennas.

The forward signal processor 320 includes a first band pass filter 321, a first low noise amplifier 322, a first variable attenuator 323, a first RF / IF converter 324, and a first surface acoustic wave (SAW) filter. 325, a second IF / RF converter 326, a second low noise amplifier 327, a second variable attenuator 328, and a first high power amplifier 329. The reverse signal processor 350 may include a second band pass filter 351, a third low noise amplifier 352, a third variable attenuator 353, a second RF / IF converter 354, and a second surface acoustic wave filter 355. And a second IF / RF converter 356, a fourth low noise amplifier 357, a fourth variable attenuator 358, and a second high power amplifier 359.

The conventional repeater properly processes a signal received from the base station through the base station facing antenna 300 and transmits the signal to the mobile station, and appropriately processes the signal received through the mobile station facing antenna 340 to transmit the signal to the base station.

The output characteristics of such a repeater will be described with reference to FIGS. 2A and 2B. 2A is a diagram for explaining an output variation of a base station according to a call volume. 2B is a diagram illustrating output variation of an actual base station according to a call volume.

In general, the base station exhibits an output difference of about 5 dB between a time when there is almost no call and a time when the call is the most. For example, as shown in Fig. 2A, the base station has an output difference of about 5 kHz at 5.3 watts and 16 watts at the time of no talk and the output at the maximum call, respectively.

In fact, referring to the graph of FIG. 2B measuring the output variation of the repeater in the city for 40 hours, the transmission output of the base station is generated between its maximum output value between 15 and 16 hours, and its minimum output value is between 2 and 4 hours. You can see that it occurs between hours.

Next, the output characteristics of the conventional repeater will be described with reference to FIGS. 3A and 3B.

3A is a diagram illustrating a change in output of a base station and a repeater according to an increase in call volume. In other words, Figure 3a is a graph showing the output characteristics of the base station and the repeater when the output of the repeater is properly set.

Referring to the graph of Figure 3a, the maximum output value of the repeater increases or decreases in direct proportion to the maximum output value of the base station according to the increase or decrease of the call volume. As such, when the output of the repeater is properly set, the repeater has the maximum output utilization and provides the appropriate call quality within the set range.

3B is a diagram illustrating another example of the output change of the base station and the repeater according to the increase in the call volume. In other words, Figure 3b is a graph showing the output characteristics of the repeater when the output of the repeater is excessively set.

Referring to the graph of FIG. 3B, the maximum output value of the repeater is partially proportionally increased as the maximum output value of the base station increases with increasing call volume, and reaches the set output value and saturates. At this time, the maximum output value of the base station cannot be increased to the maximum allowable capacity of the base station due to the output saturation of the repeater. As such, when the output of the repeater is set excessively, the repeater output is saturated when the call volume increases, thereby decreasing the output utilization of the base station, and the call by the repeater or the base station seriously degrades its quality.

As described above, in the conventional CDMA base station, an increase in power of about 5-6 kHz occurs at the maximum call compared to the time when there is no call at all. Therefore, when setting the output of the repeater subordinate to the base station, it should be set considering the output change of about 5 kHz.

However, it is not a problem to set 5 시간 lower than the maximum output of the repeater at the dawn time when there is no call volume at all, but it is difficult to know how much the output margin should be maintained during the daytime when the call volume exists. For example, if the output of the repeater's high power amplifier (HPA) is set somewhat low, the output utilization of the high power amplifier is poor. On the contrary, if the output of the repeater's high output amplifier is set slightly higher, the output saturation occurs in the high output amplifier when the call volume increases from that point, causing severe call quality degradation.

Accordingly, there is a need for a method or apparatus capable of appropriately controlling the output of a repeater dependent on a base station in order to solve the above problems.

SUMMARY OF THE INVENTION An object of the present invention is to propose a method and system for automatically controlling output of a CDMA repeater such that its output is automatically set in a repeater coupled to a base station of code division multiple access.

Another object of the present invention is to propose a method and system for automatically controlling output of a CDMA repeater that does not degrade call quality while maintaining high output utilization of a repeater coupled to a base station of code division multiple access.

It is still another object of the present invention to propose a method and system for setting an output of a repeater with reference to a pilot channel value of a test terminal embedded in a repeater coupled to a code division multiple access scheme base station.

It is still another object of the present invention to propose a method and system for preventing output saturation of a repeater by periodically referring to a value of a pilot channel of a test terminal embedded in a repeater coupled to a base station of a code division multiple access scheme.

According to an aspect of the present invention to achieve the above object, in the method for automatically controlling the output in the repeater coupled to the base station of the code division multiple access (Code Division Multiple Access) scheme and manages at least one monitoring terminal, The controller of the repeater periodically obtains the GPS-based actual time and the pilot channel value (Ec / Io value) from the monitoring terminal, and determines whether the actual time is within a preset time. And determining whether the Ec / Io value has been kept above the minimum call output value within the set time, and as a result of the determination, if the Ec / Io value has been kept above the minimum call output value within the set time, Control the output attenuator so that the current measured output value is the maximum call output value, but the preset time It is a time zone when the call volume of the terminals managed by the repeater is minimum, and the minimum call output value is an output value when there is substantially no call volume on the repeater, and the maximum call output value smoothly makes a call even when a maximum call amount is generated in the repeater. It is possible to provide a method for automatically controlling output of a CDMA repeater, which is an output value that can be provided.

In a preferred embodiment, receiving the Ec / Io value from the monitoring terminal again to determine whether the value is greater than the minimum call output value, storing the final output value of the current repeater as a reference output value in the memory, Transmitting a control command to the output attenuator such that a reference output value is increased by 5 ms or output at a maximum output value, retrieving the final output value of the repeater from the monitoring terminal, wherein the final output value is substantially the reference value; Determining whether the output value is increased by 5 ms or at the maximum output value, and when the determination result is that the final output value is substantially increased by less than the increase in the reference output value, correction is made in the own output correction system. The method may further include transmitting a job execution command.

In addition, the minimum call output value is -2㏈ compared to the maximum output, the maximum call output value is characterized in that -5㏈ compared to the maximum output.

According to another aspect of the present invention, an output automatic control system coupled to a code division multiple access (CDMA) base station and controlling the output automatically in a repeater for managing at least one monitoring terminal, the memory in which the program is stored And a processor coupled to the memory to execute the program, wherein the processor is configured to perform, by the program, the controller of the repeater from the monitoring terminal to the actual time based on GPS and a pilot channel with the repeater. Periodically take a value (Ec / Io value), determine whether the actual time is within a preset time, determine whether the Ec / Io value has been kept above the minimum call output value within the set time, As a result of the determination, the Ec / Io value continues above the minimum call output value within the set time. If so, the output attenuator is controlled so that the current measured output value becomes the maximum call output value, wherein the preset time is a time zone during which the call volume of the terminals managed by the repeater is minimum, and the minimum call output value is substantially at the repeater. An output value when there is no call volume, and the maximum call output value may provide an output automatic control system for a CDMA repeater, which is an output value capable of smoothly providing a call even when a maximum call amount occurs in the repeater.

In a preferred embodiment, the processor, by the program, receives the Ec / Io value again from the terminal, determines whether the value is equal to or greater than the minimum call output value, and uses the final output value of the current repeater as the reference output value. Send a control command to the output attenuator such that the reference output value is increased by 5 ms or output at the maximum output value after being stored in memory, and the final output value of the repeater is obtained from the monitoring terminal, and the final output value is It is judged whether or not the output value is substantially increased by 5 dB from the reference output value or outputted at the maximum output value. If the final output value is substantially increased by less than the increase in the reference output value, the self-output correction system is determined. And a command to perform a correction operation.

In addition, the minimum call output value is -2㏈ compared to the maximum output, the maximum call output value is characterized in that -5㏈ compared to the maximum output.

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

4 is a block diagram illustrating an automatic output control system of a CDMA repeater according to an exemplary embodiment of the present invention.

4, the automatic output control system 200 of the CDMA repeater according to the present invention is installed in the repeater.

The repeater is the antenna 100 facing the base station (BTS), the first duplexer 110, the first low noise amplifier 111, the forward level controller 112, the first high power amplifier 113, the second low noise amplifier 114 Self-correction system, including a reverse level controller 115, a second high power amplifier 116, a second duplexer 120, an antenna 130 facing the end user terminal, and a self-transmitting side correction system 170. Include. Since the description of the repeater has already been described in the above-mentioned prior art with reference to FIG. 1B, a detailed description thereof will be omitted. Only forward level controller 112 according to an embodiment of the present invention includes at least a forward variable attenuator or an output attenuator.

The output automatic control system installed in the repeater basically consists of the control unit 140, the memory 150 and the monitoring terminal 160.

The controller 140 includes a processor mounted in the repeater. The controller 140 is coupled to the memory 150 and controls the repeater according to a program or a series of commands stored in the memory 150. In addition, the controller 140 is coupled to the monitoring terminal 160.

The memory 150 is mounted in the repeater and coupled to the controller 140. The memory 150 stores a program or instructions necessary for the controller 140 to control the repeater. In addition, the memory 150 stores various data generated in the repeater and input to or output from the repeater.

The monitoring terminal 160 is a device that monitors the repeater by being coupled to an uplink input end side and a downlink output end side near the antenna 130 in the repeater. The monitoring terminal 160 basically includes a repeater monitoring function, a pilot channel reception function, a timer, and its own memory.

Here, the pilot channel refers to an unmodulated direct sequence spread spectrum (DSSS) signal continuously transmitted by a base station of a code division multiple access scheme. This pilot channel allows the mobile station to capture the timing of the forward CDMA channel, provides a reference phase for coherent modulation, and provides a means of comparing signal strength between base stations to determine when call channel hand-off occurs. .

The pilot channel is also always transmitted on the forward CDMA channel by the base station. The pilot signal transmits a fixed zero as an unmodulated spread spectrum signal. The zero of the pilot channel is 64 * 64 Hadamard Matrix and uses channel 0 of Walsh code.

The pilot channel may be used for phase tracking of a base station signal as a system initial operation signal of mobile stations operating in one base station area. That is, since the mobile stations continuously track the pilot signal, the base station can vary the size of the cell area according to the transmission level of the pilot signal.

Among these pilot channels, the Ec / Io value of the forward pilot channel represents a quality value of the corresponding radio wave. That is, when the mobile terminal accesses the CDMA network, the forward pilot channel is a channel for selecting the largest signal among the received signals to find an adjacent base station and sector. Therefore, the signal transmitted through the forward pilot channel is shared by all mobile terminals in the cell. In the forward pilot channel, there are a transmit diversity pilot channel, an auxiliary pilot channel, and an auxiliary transmit diversity channel for various services.

In particular, an auxiliary pilot channel is needed to control the beam of the antenna, such as a smart antenna. That is, it is used to reduce mutual interference from neighboring base stations by allocating auxiliary pilot channels in units of several mobile terminals located in similar directions. And the transmission level (Tx levels) in the forward direction is adjusted by the value transmitted to the base station by measuring the reception level of the mobile station in the reverse enhanced access channel or reverse common control channel.

In the above-described Ec / Io, the Ec component refers to a signal energy component, and the Io component refers to an interference / interference component. That is, the signal energy (Ec) component refers to the component in the command function of the base station transmit power, which is expressed according to the percentage of pilots allocated in the forward direction, and the disturbance / interference (Io) component mainly interferes with the base position or sector. Say ingredient.

Since the ratio of the forward pilot channel is the largest in CDMA propagation, the Ec / Io value of the forward pilot channel is the propagation quality of the CDMA propagation.

As described above, in the CDMA repeater output automatic control system according to an embodiment of the present invention, the control unit mounted in the repeater checks the actual time and Ec / Io value from the monitoring terminal 160, and the time zone where there is substantially no call volume in the repeater. To control the output automatically. In addition, the automatic output control system of the CDMA repeater according to an embodiment of the present invention may perform a correction process for checking the current repeater state after performing the aforementioned automatic output control. This output braking control process will be described in more detail with reference to FIGS. 5 and 6.

5 is a flowchart illustrating a method for automatically controlling output of a CDMA repeater according to an exemplary embodiment of the present invention.

Referring to Figure 5, the CDMA repeater, for example, at initial installation, its forward output is set to -5 dB relative to the maximum output (step 10). As mentioned in the description of the prior art, this is set in consideration of the difference between the output at the maximum call amount generation and the output at the minimum call amount generation time in the repeater.

When the repeater performs its function, the controller mounted in the repeater checks the actual time from the monitoring terminal every 30 minutes (step 11). This is for the control unit to determine whether the actual time has been set. As such, when the controller checks the actual time and the preset time is reached, the controller performs automatic control of the output of the repeater (step 12).

In this case, the actual time is the exact time transmitted by the GPS to the monitoring terminal through the base station. And the confirmation of the actual time is to determine whether the current time is the set time for the automatic control of the output of the repeater. And the setting time is set to a time zone where there is almost no call volume on the repeater. For example, with reference to FIG. 2B, the set time may be set between 2 and 4 hours.

The controller checks the set time and obtains a pilot channel value (Ec / Io value) from the monitoring terminal. Then, it is determined whether the Ec / Io value is -2 dB or more relative to the minimum call output value, that is, the maximum output (step 13). That is, when the set time is reached, the controller reads the pilot channel value (Ec / Io value) from the monitoring terminal to determine whether the Ec / Io value has been kept above -2 dB over the maximum output within the set time. This is to distinguish the time period when it is judged that there is no call volume in the repeater.

Here, the limit of the Ec / Io value to -2 dB or more of the maximum output is limited to the range that can be considered that there is practically no call in the case of a normal repeater, and may be appropriately adjusted in the case of a special repeater.

As a result of the determination in step 13, if the Ec / Io value is not more than -2 dB relative to the maximum output, it is determined whether the Ec / Io value is more than -2 dB relative to the maximum output again after a predetermined time (step 14). In addition, if the determination result of step 13, the Ec / Io value is more than -2 kHz compared to the maximum output, the current measured output value is set to be the maximum call output value, that is -5 대비 relative to the maximum output (step 15). This setting is made by the controller controlling the forward level controller. The forward level controller, of course, includes an output attenuator for controlling the output of the first high output amplifier.

Thus, according to the present invention, it is possible to automatically control the output of the repeater dependent on the CDMA base station. By such automatic control of the output of the repeater, the repeater can be appropriately operated both at the time of generating the maximum call amount and at the time of generating the minimum call amount. That is, the repeater automatically controls the output utilization of the high output amplifier while maintaining the output utilization of the high output amplifier at the same time. Therefore, the failure rate of the repeater is reduced.

Next, referring to FIG. 6, a repeater output automatic control checking process is additionally performed in a repeater whose output is automatically controlled according to an embodiment of the present invention. In the following detailed description with reference to FIG. 6, descriptions of steps 10 to 15 with reference to FIG. 5 are duplicated, and thus description thereof will be omitted.

6 is a flowchart illustrating a method for automatically controlling output of a CDMA repeater according to this embodiment of the present invention.

Referring to FIG. 6, after performing step 15, the controller first measures an output level input to the monitoring terminal (step 16). That is, the control unit obtains a pilot channel value (Ec / Io value) representing the quality of CDMA radio waves from the monitoring terminal.

After performing step 16, the controller determines whether the Ec / Io value is at least -2 dB relative to the minimum call output value, that is, the maximum output (step 17). This determination is to distinguish the time zone where the repeater is substantially free of traffic as mentioned above. That is to control the output using the time zone without the call volume and to automatically calibrate the repeater as needed.

If it is determined in step 17 that the Ec / Io value is more than -2 dB relative to the maximum output, the controller stores the final output value of the current repeater as a reference output value in the memory, and increases the reference output value by 5 dB, for example. Or control the output attenuator included in the forward level controller such that the reference output value is equal to the maximum output value (step 18).

After performing step 18, the controller measures the final output value of the repeater (step 19). And it is determined whether the measured final output value actually increased by 5㏈. Or determine whether the measured final output value is substantially equal to the maximum output value (step 20). This judgment makes it possible to know whether the output control of the repeater is normally performed.

Therefore, if the final output value is normally increased in comparison with the reference output value as a result of the determination in step 20, the controller performs a process of automatically checking output after a predetermined time (step 21). If the final output value does not increase normally compared to the reference output value as a result of the determination in step 20, the controller controls the self output correction system to perform its own output correction process (step 22).

As described above, according to the present invention, it is possible not only to automatically control the output of the CDMA repeater, but also to automatically control the output of the repeater and to automatically check whether the automatic control of the output of the repeater is normally performed.

The present invention is not limited to the above embodiments, and many variations are possible by those skilled in the art within the spirit of the present invention.

According to the present invention, there is an advantage that the output is automatically set in the repeater coupled to the base station of the code division multiple access method.

In addition, according to the present invention, there is an advantage that the call quality is not degraded while maintaining the high output utilization of the repeater coupled to the base station of the code division multiple access method.

In addition, according to the present invention, there is an advantage that the output of the repeater can be automatically appropriately set with reference to the value of the pilot channel of the test terminal embedded in the repeater coupled to the code division multiple access method base station.

In addition, according to the present invention, there is an advantage that the output saturation of the repeater can be prevented by periodically referring to the value of the pilot channel of the test terminal built in the repeater coupled to the base station of the code division multiple access method.

1A is a diagram illustrating a forward link structure of a repeater linked to a base station.

Figure 1b is a block diagram schematically showing the structure of a conventional repeater.

2A is a diagram for explaining an output variation of a base station according to a call volume.

2b is a diagram illustrating output variation of an actual base station according to call volume.

Figure 3a is a view showing the change in output of the base station and repeater with increasing call volume.

Figure 3b is a view showing another example of the output change of the base station and repeater with increasing call volume.

4 is a block diagram showing a system for automatically controlling output of a CDMA repeater according to an exemplary embodiment of the present invention.

5 is a flowchart illustrating a method for automatically controlling output of a CDMA repeater according to an exemplary embodiment of the present invention.

6 is a flowchart illustrating a method for automatically controlling output of a CDMA repeater according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100, 130: antenna 110, 120: duplexer

111, 114: low noise amplifier 112: forward level controller

113,116: high power amplifier 115: reverse level controller

140: control unit 150: memory

160: monitoring terminal 170: self-transmission side correction system

200: output automatic control system

Claims (6)

A method of automatically controlling an output in a repeater that is coupled to a base station of a code division multiple access method and manages at least one monitoring terminal, A control unit of the repeater periodically obtaining, from the monitoring terminal, a real time based on GPS and a value (Ec / Io value) of a pilot channel with the repeater; Determining whether the actual time is within a preset time; Determining whether the Ec / Io value has been kept above the minimum call output value within the set time; And Controlling the output attenuator so that the current measured output value becomes the maximum call output value if the Ec / Io value is continuously maintained above the minimum call output value within the set time. Wherein the predetermined time is the time zone when the call volume of the terminals managed by the repeater is the minimum, the minimum call output value is the output value when the caller is substantially no call amount, the maximum call output value is the repeater Is an output value that can smoothly provide a call even when the maximum call volume occurs Automatic control method of output of a CDMA repeater, characterized in that. The method of claim 1, Receiving the Ec / Io value from the monitoring terminal again and determining whether the value is equal to or greater than the minimum call output value; As a result of the determination, when the Ec / Io value is equal to or greater than the minimum call output value, the final output value of the current repeater is stored in the memory as a reference output value, and the reference output value is increased by 5 ms or outputted as the maximum output value. Sending a control command to the output attenuator; Obtaining a final output value of the repeater from the monitoring terminal; Determining whether the final output value substantially increased by 5 dB from the reference output value or output as a maximum output value; And If the final output value is substantially increased by less than the increase in the reference output value, transmitting a command to perform a calibration operation to the self output calibration system. Output automatic control method of a CDMA repeater, characterized in that it further comprises. The method according to claim 1 or 2, The minimum call output value is -2 dB relative to the maximum output and the maximum call output value is -5 dB relative to the maximum output Automatic output control method of a CDMA repeater characterized in that. An output automatic control system coupled to a code division multiple access (CDMA) type base station and automatically controlling an output at a repeater managing at least one monitoring terminal, A memory in which a program is stored; A processor coupled to the memory to execute the program Including but not limited to: The processor by the program, The controller of the repeater periodically obtains the GPS-based actual time and the pilot channel value (Ec / Io value) from the monitoring terminal, and determines whether the actual time is within a preset time. And determining whether the Ec / Io value has been kept above the minimum call output value within the set time, and as a result of the determination, if the Ec / Io value has been kept above the minimum call output value within the set time, The output attenuator is controlled so that the currently measured output value becomes the maximum call output value, but the preset time is a time zone during which the call volume of the terminals managed by the repeater is minimum, and the minimum call output value is substantially no call volume at the repeater. Is the output value of the case, and the maximum call output value is smooth even when the maximum call amount occurs in the repeater. Output value that can provide currency. Output automatic control system of a CDMA repeater characterized in that. The method of claim 4, wherein The processor by the program, The Ec / Io value is again received from the terminal to determine whether the value is equal to or greater than the minimum call output value. When the determination result indicates that the Ec / Io value is equal to or greater than the minimum call output value, the final output value of the current repeater is used. After storing in the memory as an output value, the control command is sent to the output attenuator so that the reference output value is increased by 5 ms or output at the maximum output value, and the final output value of the repeater is obtained from the monitoring terminal, and the final It is determined whether the output value is substantially increased by 5 dB from the reference output value or outputted as the maximum output value. If the final output value is substantially increased less than the increase in the reference output value as a result of the determination, Sending a command to perform a calibration operation to the output calibration system Output automatic control system of a CDMA repeater characterized in that. The method according to claim 4 or 5, The minimum call output value is -2 dB relative to the maximum output and the maximum call output value is -5 dB relative to the maximum output Output automatic control system of a CDMA repeater characterized in that.