KR20060040135A - Automatic gain control method using preamble in rf repeater of wireless broadband system and rf repeater therefor - Google Patents

Abstract

The present invention relates to an automatic gain control method using a preamble in the RF repeater of the WiBro system to control the automatic gain of the RF repeater in an OFDM-TDD type WiBro system and an RF repeater for the same.

When the reception level measuring device of the present invention receives the forward RF signal transmitted from the base station through the LNA, the reception level of the forward RF signal is measured and transmitted to the control unit, the control unit preamble of the RF signal transmitted from the RF repeater to the mobile communication terminal Level is calculated from the preamble level transmitted from the base station and received by the RF repeater to calculate the forward automatic gain control value and transmitted to the forward side variable attenuator, and the forward side variable attenuator reflects the forward automatic gain control value to adjust the RF signal level. By adjusting and transmitting the RF signal to the mobile communication terminal, the signal output of the RF repeater forward circuit can be adjusted to the repeater standard.

RF repeater

Description

Automatic Gain Control Method Using Preamble in RFC Repeater of WiBro System and RFC Repeater for It {{Automatic Gain Control Method Using Preamble in RF Repeater of Wireless Broadband System and RF Repeater therefor}

1 is a view for explaining the operation of the conventional RF repeater,

2 is a view for explaining the operation of the automatic gain control circuit in the conventional RF repeater,

3 is a view showing the configuration of an RF repeater according to the present invention;

4 is a view showing a structure of a forward signal according to the present invention;

5 is a flowchart illustrating an embodiment of an automatic gain control method according to the present invention;

6 is a flowchart illustrating another embodiment of the automatic gain control method according to the present invention.

<Description of the symbols for the main parts of the drawings>

10, 100, 200: repeater 30: base station

110, 210: donor antenna 111, 131: duplexer

113, 133, 213, 233: LNA 115, 135, 215, 235: variable attenuator

117, 137, 217, 237: HPA 130, 230: service antenna

150, 250: reception level meter 170, 270: control unit                 

211, 231: switch

The present invention relates to an automatic gain control method using a preamble in an RF repeater of the WiBro system and an RF repeater for the same. More specifically, the present invention relates to a WiBro system capable of controlling automatic gain of an RF repeater in an OFDM-TDD type WiBro system. An automatic gain control method using a preamble in an RF repeater and an RF repeater therefor.

As shown in FIG. 1, the RF repeater 10 is a wireless type repeater that amplifies a radio signal transmitted from the base station 30 and transmits a signal to a shaded area, and is located at the position of the repeater 10. Accordingly, the path loss between the base station 30 and the repeater 10 and the reception level of the repeater receiving the signal transmitted from the base station 30 are changed.

However, since the RF repeater 10 has an output value of the forward signal determined by the standard of the RF repeater, the RF repeater 10 adjusts the amplification gain of the forward circuit inside the RF repeater to adjust the RF repeater output signal to a predetermined output value. Therefore, the gain value of the RF repeater 10 forward circuit is changed for each RF repeater position.

In addition, since the reverse circuit of the RF repeater 10 amplifies and transmits a signal of a terminal located in an area where the RF repeater provides a service to a base station, it also transmits a noise signal that amplifies thermal noise generated by the RF repeater circuit itself. The gain of the reverse circuit of the RF repeater 10 should be determined according to the path loss of the base station and the relay period.

The relationship between the reverse circuit gain of the RF repeater, the path loss between the base station and the RF repeater, and the noise level generated by the RF repeater and transmitted to the base station receiver is shown in Equation 1.

(Equation 1) Noise Level = (RF Repeater Reverse Circuit Gain + RF Repeater Noise Signal) + Thermal Noise Level in Nature-Path Loss between Base Station and RF Repeat Period

In addition, if the noise level generated by the RF repeater and received by the base station receiver is greater than the thermal noise level present in the base station receiver, the reception performance of the base station is degraded and a capacity decrease occurs. Accordingly, the path loss between the base station and the RF relay period is calculated to set the repeater reverse circuit gain.

2 is a view for explaining the operation of the automatic gain control circuit in the conventional RF repeater.

The RF repeater 100 may include a control unit 170, a donor antenna 110, a service antenna 130, duplexers 111 and 131, low noise amplifiers 113 and 133, variable attenuators 115 and 135, It includes a high power amplifier (HPA) (117, 137) and the reception level meter 150.

In more detail, when the RF repeater 100 receives a signal transmitted from the base station through the donor antenna 110, the RF repeater 100 amplifies the signal through a low noise amplifier (LNA) 113 and inputs it to the reception level measurer 150. Check the base station reception level. When the checked reception level is transmitted to the control unit 170, the control unit 170 adjusts the attenuation value of the variable attenuator 115 provided in the forward circuit of the repeater 100 to change the gain value of the forward circuit to change the forward direction of the repeater. The circuit output conforms to the RF repeater 100 standard. Here, the gain value of the forward circuit is calculated by subtracting the repeater reception level value from the forward output value specified in the repeater standard.

In addition, the controller 170 adjusts the attenuation value of the variable attenuator 135 provided in the reverse circuit of the repeater 100 to change the gain value of the reverse circuit, so that the thermal noise output of the reverse circuit of the repeater 100 reaches the base station. The repeater reverse gain is adjusted to be below the natural heat noise level. At this time, the gain value of the reverse circuit is calculated by subtracting the noise figure (NF) of the reverse circuit from the repeater 100 from the path loss between the base station and the repeater period, or first subtracting the repeater 100 reception level value from the base station forward output value. Calculate by subtracting NF of repeater reverse circuit. The base station forward output value is applied according to the base station standard. The actual base station forward output value is always present in a code division multiple access-frequency division duplex (CDMA-FDD) system, and changes only about 3 to 6 dB depending on the traffic volume. There is no problem in the automatic gain control function of the repeater 100.

However, in the Orthogonal Frequency Division Multiplexing-Time Division Duplex (OFDM-TDD) system, since a forward signal and a reverse signal exist alternately for each time, an instant occurs when no base station signal exists and a base station signal exists. In the meantime, the output of the base station varies greatly depending on the traffic volume of the base station. Therefore, the conventional automatic gain control technique cannot be applied.

In addition, in the OFDM-TDD system, since the forward signal and the reverse signal exist alternately over time, the donor antenna and the service antenna side of the RF repeater are provided with switches, not duplexers, respectively, so that the forward signal section and the reverse signal section exist. Switch according to time.

However, when the automatic gain control technique applied to the CDMA-FDD system is applied to the OFDM-TDD system, the following problems occur.

First, there is no base station signal at the time when the reverse signal transmitted by the mobile communication terminal exists, only signals of the mobile communication terminal using the same frequency. Therefore, the RF repeater that receives the base station transmission signal and controls the gain of the RF repeater does not transmit a signal from another mobile communication terminal around the donor antenna of the repeater or the other mobile communication terminal around the repeater donor antenna during the time that the reverse signal is present. Even if the signal is transmitted from the reverse direction, the reverse gain of the repeater cannot be set based on the signal since the reverse signal is not a signal providing a path loss to the base station.

Second, the RF repeater may determine the gain of the signal section in which the forward signal and the reverse signal exist based on the signal level received by the repeater donor antenna during the period in which the forward signal is present. However, when there is no data transmitted from the base station to the mobile communication terminal in the OFDM modulation system, the output of the base station is low, and the output value of the base station varies according to the amount of traffic, so it is difficult to set the gain of the repeater.

Therefore, in view of the fact that it is practically difficult to operate a plurality of RF repeaters without the automatic gain control function in the OFDM-TDD system, a study on the automatic gain control technique in the OFDM-TDD system is required.

The present invention has been made to solve the above problems, to provide an automatic gain control method using a preamble in the RF repeater of the WiBro system to realize the automatic gain control function to a plurality of RF repeaters of the WiBro network and an RF repeater for the same There is a technical problem.

The present invention for achieving the above object is used in the mobile communication system of the OFDM-TDD type, the donor antenna for transmitting and receiving signals with the base station, the service antenna for transmitting and receiving signals with the mobile communication terminal, which distinguishes the forward signal and the reverse signal Switch, LNA for reducing noise component of RF signal and amplifying signal component, Receiving level meter for measuring reception level of received signal, Forward-side variable attenuator for adjusting RF signal level, Effective for transmitting RF signal wirelessly An RF repeater that performs automatic gain control, including an HPA and a control unit to amplify the output,

When the reception level measuring unit receives a forward RF signal transmitted from the base station through the LNA, the reception level of the forward RF signal is measured and transmitted to the controller, and the controller is transmitted from the RF repeater to the mobile communication terminal. A preamble level transmitted from the base station at the preamble level of the RF signal is reduced to calculate a forward automatic gain control value by transmitting the preamble level to the forward side variable attenuator, and the forward side variable attenuator is forwarded. Adjust the RF signal level by reflecting the automatic gain control value, and transmits it to the HPA to transmit the RF signal to the mobile communication terminal.

Another embodiment of the present invention is used in a mobile communication system of the OFDM-TDD type, a donor antenna for transmitting and receiving a signal with a base station, a service antenna for transmitting and receiving a signal with a mobile communication terminal, a switch for separating the forward and reverse signals, noise of the RF signal LNA for reducing components and amplifying signal components, Receiving level meter for measuring reception level of received signal, Reverse side variable attenuator for adjusting signal level of RF signal, HPA for amplifying effective output for transmitting RF signal wirelessly And a control unit, the RF repeater performing automatic gain control,

When the reception level measuring unit receives the forward RF signal transmitted from the base station through the LNA, the reception level of the forward RF signal is measured and transmitted to the control unit, and the control unit preamble level of the RF signal transmitted from the base station. In Equation 3, a subtractor calculates a reverse automatic gain control value by subtracting a sum of a preamble level received by a repeater and a repeater reverse noise figure, and transmits the reverse auto gain control value to the reverse side variable attenuator, and the reverse side variable attenuator The RF signal level transmitted from the mobile communication terminal is adjusted by reflecting a gain control value, and the RF signal level is transmitted to the HPA to transmit the RF signal to the base station.                     

Another embodiment of the present invention is used in a mobile communication system of the OFDM-TDD type, a donor antenna for transmitting and receiving a signal with a base station, a service antenna for transmitting and receiving a signal with a mobile communication terminal, a switch for separating the forward and reverse signals, RF signal of LNA for reducing noise and amplifying signal components, Receiving level meter for measuring the reception level of the received signal, Forward-side variable attenuator for adjusting the signal level of the RF signal, Amplifying the effective output for transmitting RF signals wirelessly An automatic gain control method in an RF repeater that performs automatic gain control, including an HPA and a control unit,

A first step of receiving a forward RF signal transmitted from the base station; A second step of calculating a forward automatic gain control value by subtracting a preamble level transmitted from the base station and received by the RF repeater at a preamble level of the RF signal transmitted from the RF repeater to the mobile communication terminal; And a third step of transmitting the RF signal to the mobile communication terminal by adjusting the RF signal level based on the forward automatic gain control value calculated in the second step.

In addition, the present invention is used in the mobile communication system of the OFDM-TDD type, the donor antenna for transmitting and receiving signals with the base station, the service antenna for transmitting and receiving signals with the mobile communication terminal, the switch for separating the forward and reverse signals, RF signal LNA reduces noise components and amplifies signal components, reception level meter for measuring reception level of received signal, reverse variable attenuator for adjusting signal level of RF signal, and effective output for wireless transmission of RF signal. An automatic gain control method in an RF repeater for performing automatic gain control, including an HPA and a control unit,                     

A first step of receiving a forward RF signal transmitted from the base station; A second step of calculating a reverse automatic gain control value by subtracting the sum of the preamble level of the RF signal received from the base station to the repeater and the repeater reverse noise figure at the preamble level transmitted from the base station; Thereafter, when receiving the RF signal transmitted from the mobile communication terminal, a fourth step of transmitting the RF signal to the base station by adjusting the level of the RF signal based on the reverse automatic gain control value calculated in the second step Include.

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

FIG. 3 is a diagram illustrating a configuration of an RF repeater according to the present invention, and will be described with reference to FIG. 4 illustrating a structure of a forward signal.

The RF repeater 200 includes a donor antenna 210 for transmitting and receiving a signal to and from a base station, a service antenna 230 for transmitting and receiving a signal to and from a mobile communication terminal, switches 211 and 231 for distinguishing a forward signal from a reverse signal, and an RF signal. Low noise amplifiers (213, 233) for reducing noise components and amplifying signal components, a reception level meter (250) for measuring a reception level of a received signal, and a variable attenuator (215, for adjusting a signal level of an RF signal). 235, a high power amplifier (HPA) 217 and 237 for amplifying the effective output to wirelessly transmit the RF signal, and a controller 270 for controlling the overall operation of the RF repeater 200.                     

In more detail, when the RF repeater 200 receives the forward RF signal transmitted from the base station through the donor antenna 210, the RF repeater amplifies it through a low noise amplifier (LNA) 213 and then receives the reception level measurer 250. To measure the base station reception level. Here, the forward RF signal has a preamble signal (pilot signal) including the system control information as shown in FIG. 4, and the preamble signal is always present at a predetermined time regardless of the presence or absence of base station forward traffic. Keep the level constant.

(Eq. 2) Forward gain = level of the preamble output from the repeater to the mobile communication terminal (determined according to the repeater standard)-level of the preamble transmitted from the base station and received by the repeater

When the measured reception level is transmitted to the control unit 270, the control unit 270 calculates the forward automatic gain control value as shown in Equation 2, and attenuates the attenuation value of the variable attenuator 215 provided in the forward circuit of the repeater 200. By adjusting and changing the gain value of the forward circuit, the forward circuit output of the repeater conforms to the RF repeater 200 standard.

The variable attenuator 215 adjusts the RF signal level according to the forward automatic gain control value calculated by the controller 270, and transmits the adjusted RF signal to the HPA 217.

When the HPA 217 amplifies the RF signal received from the variable attenuator 215 up to the effective output to wirelessly transmit to the switch 231, the switch 231 moves the RF signal through the service antenna 230 Send to the communication terminal.

(Equation 3) Reverse gain = level of preamble transmitted from the base station-preamble level transmitted from the base station and received by the repeater-repeater reverse noise figure (NF)

In addition, the control unit 270 calculates a reverse automatic gain control value of Equation 3 and a value by using the reception level of the base station, and adjusts the attenuation value of the variable attenuator 235 provided in the reverse circuit of the repeater 200 and reverses the reverse direction. By changing the gain value, the reverse circuit output of the repeater conforms to the RF repeater 200 standard. Then, when the variable attenuator 235 receives the reverse signal, the variable attenuator 235 adjusts the RF signal level according to the reverse automatic gain control value calculated by the controller 270, and transmits the adjusted RF signal to the HPA 237.

When the HPA 237 amplifies the effective output to the switch 211 to wirelessly transmit the RF signal received from the variable attenuator 235, the switch 211 transmits the RF signal through the donor antenna 210 to the base station To send.

5 is a flowchart illustrating an embodiment of an automatic gain control method according to the present invention.

When the RF repeater 200 receives the forward RF signal transmitted from the base station through the donor antenna 210, it is amplified through the LNA 213 and input to the reception level measuring unit 250 to measure the base station reception level, This is transmitted to the control unit 270 (S101).                     

Here, the forward RF signal has a preamble signal (pilot signal) including the system control information as shown in FIG. 4, and the preamble signal is always present at a predetermined time regardless of the presence or absence of base station forward traffic. The level also remains constant.

(Formula 2) Forward gain = level of the preamble output from the repeater to the mobile communication terminal (determined according to the repeater standard)-level of the preamble transmitted from the base station and received by the repeater

Subsequently, upon receiving the measured reception level, the control unit 270 calculates the forward automatic gain control value as shown in Equation 2 to adjust the attenuation value of the variable attenuator 215 provided in the forward circuit of the repeater 200 and forward. The forward circuit output of the repeater is adjusted to the RF repeater 200 standard by changing the gain value of the circuit (S103).

Thereafter, the variable attenuator 215 adjusts the RF signal level according to the forward automatic gain control value calculated by the controller 270 to transmit the RF signal to the HPA 217 (S105).

The HPA 217 amplifies and transmits the RF signal received from the variable attenuator 215 to the effective output to the switch 231 for wireless transmission. When the switch 231 receives the RF signal transmitted from the HPA 217, the switch 231 transmits the RF signal to the mobile communication terminal through the service antenna 230.

6 is a flowchart illustrating another embodiment of the automatic gain control method according to the present invention.

When the RF repeater 200 receives the forward RF signal transmitted from the base station through the donor antenna 210, it is amplified through the LNA 213 and input to the reception level measuring unit 250 to measure the base station reception level, This is transmitted to the control unit 270 (S201).

(Equation 3) Reverse gain = level of preamble transmitted from the base station-preamble level transmitted from the base station and received by the repeater-repeater reverse noise figure (NF)

Subsequently, upon receiving the measured reception level, the controller 270 calculates a reverse automatic gain control value as shown in Equation 3 to adjust the attenuation value of the variable attenuator 235 provided in the reverse circuit of the repeater 200 and reverse the reverse direction. The reverse circuit output of the repeater is adjusted to the RF repeater 200 standard by changing the gain value of the circuit (S203).

Subsequently, when the variable attenuator 215 receives the RF reverse signal transmitted through the LNA 233, the variable attenuator 215 adjusts the RF signal level according to the reverse automatic gain control value calculated by the control unit 270, and then returns to the HPA 237. The RF signal with the adjusted level is transmitted (S205).

The HPA 237 amplifies the effective output signal to the switch 211 to wirelessly transmit the RF signal received from the variable attenuator 235. When the switch 231 receives the RF signal transmitted from the HPA 237, the switch 231 transmits the RF signal to the base station through the donor antenna 210.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the automatic gain control method using the preamble in the RF repeater of the WiBro system of the present invention and the RF repeater for the same calculate the forward automatic gain control value by using the preamble of the RF signal included in the forward RF signal. The signal output of the repeater forward circuit can be adjusted to the repeater specifications.

In addition, since the present invention calculates the reverse automatic gain control value by using the preamble of the RF signal, the RF repeater reverse gain can be adjusted to be lower than the natural thermal noise level when the thermal noise signal of the RF repeater reverse circuit reaches the base station. .

Claims (6)

Used in OFDM-TDD type mobile communication system, donor antenna for transmitting and receiving signal to and from base station, service antenna for transmitting and receiving signal to and from mobile communication terminal, switch for distinguishing forward and reverse signals, reducing noise component of RF signal LNA for amplifying the components, a reception level measuring device for measuring the reception level of the received signal, a forward-side variable attenuator for adjusting the level of the RF signal, HPA and a control unit for amplifying the effective output to wirelessly transmit the RF signal RF repeater for automatic gain control, When the reception level measuring unit receives a forward RF signal transmitted from the base station through the LNA, the reception level of the forward RF signal is measured and transmitted to the controller, The control unit calculates a forward automatic gain control value by subtracting the preamble level transmitted from the base station at the preamble level of the RF signal transmitted from the RF repeater to the mobile communication terminal and receiving the RF repeater. To, And the forward side variable attenuator adjusts an RF signal level by reflecting the forward automatic gain control value, and transmits the RF signal to the HPA to transmit an RF signal to the mobile communication terminal. Used in OFDM-TDD type mobile communication system, donor antenna for transmitting and receiving signal to and from base station, service antenna for transmitting and receiving signal to and from mobile communication terminal, switch for distinguishing forward and reverse signals, reducing noise component of RF signal LNA for amplifying the components, a reception level measuring device for measuring the reception level of the received signal, a reverse side variable attenuator for adjusting the signal level of the RF signal, HPA and a control unit for amplifying the effective output to wirelessly transmit the RF signal RF repeater for performing automatic gain control, When the reception level measuring unit receives a forward RF signal transmitted from the base station through the LNA, the reception level of the forward RF signal is measured and transmitted to the controller, The control unit calculates a reverse automatic gain control value by subtracting the sum of the preamble level transmitted from the base station and received by the repeater at the preamble level of the RF signal transmitted from the base station and the repeater reverse noise figure, and the reverse variable attenuator. To, The reverse side variable attenuator adjusts the RF signal level transmitted from the mobile communication terminal by reflecting the reverse automatic gain control value, and transmits the RF signal to the base station by transmitting it to the HPA. . The method according to claim 1 or 2, And the preamble is a pilot signal that is always present for a predetermined time irrespective of base station forward traffic and maintains a constant level. Used in OFDM-TDD type mobile communication system, donor antenna for transmitting and receiving signal to and from base station, service antenna for transmitting and receiving signal to and from mobile communication terminal, switch for distinguishing forward and reverse signals, reducing noise component of RF signal LNA for amplifying the components, a reception level measuring device for measuring the reception level of the received signal, a forward-side variable attenuator for adjusting the signal level of the RF signal, HPA and a control unit for amplifying the effective output to transmit the RF signal wirelessly As an automatic gain control method in an RF repeater that performs automatic gain control, A first step of receiving a forward RF signal transmitted from the base station; A second step of calculating a forward automatic gain control value by subtracting a preamble level transmitted from the base station and received by the RF repeater at a preamble level of the RF signal transmitted from the RF repeater to the mobile communication terminal; And A third step of adjusting an RF signal level based on a forward automatic gain control value calculated in the second step and transmitting an RF signal to the mobile communication terminal; Automatic gain control method comprising a. Used in OFDM-TDD type mobile communication system, donor antenna for transmitting and receiving signal to and from base station, service antenna for transmitting and receiving signal to and from mobile communication terminal, switch for distinguishing forward and reverse signals, reducing noise component of RF signal LNA to amplify the component, a reception level meter for measuring the reception level of the received signal, a reverse side variable attenuator for adjusting the signal level of the RF signal, HPA and a controller for amplifying the effective output to transmit the RF signal wirelessly As an automatic gain control method in an RF repeater that performs automatic gain control, A first step of receiving a forward RF signal transmitted from the base station; A second step of calculating a reverse automatic gain control value by subtracting the sum of the preamble level of the RF signal received from the base station to the repeater and the repeater reverse noise figure at the preamble level transmitted from the base station; And Thereafter, when receiving the RF signal transmitted from the mobile communication terminal, a third step of transmitting the RF signal to the base station by adjusting the level of the RF signal based on the reverse automatic gain control value calculated in the second step; Automatic gain control method comprising a. The method according to claim 4 or 5, The preamble is always present for a predetermined time irrespective of the base station forward traffic, automatic gain control method characterized in that the pilot signal to maintain a constant level.

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