KR20060112270A - Method for detecting of sync signal using mobile communication terminal in rf repeater of wireless broadband system - Google Patents

Abstract

A method for extracting a synchronization signal by using a mobile terminal in an RF repeater of a WiBro system is provided to simply construct an RF repeater circuit by determining a TX/RX switching point based on GPS time which a mobile terminal receives from a base station within a synchronous network. A link controller of an RF repeater receives synchronization time information transmitted from a mobile terminal(S101). The link controller analyzes the synchronization time information and determines a switching point(S103). The link controller transmits a switching control signal to switches according to the determined switching point(S105).

Description

Method for Detecting of Sync Signal Using Mobile Communication Terminal in RF Repeater of Wireless Broadband System}

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

2 is a view for explaining a method of determining a conventional switching point,

3 is a view for explaining the concept of a synchronization signal extraction method according to the present invention;

4 is a flowchart illustrating a synchronization signal extraction method according to the present invention.

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

100: RF repeater 110: donor antenna

111, 131: filter 113, 133: bypass

115, 135: LNA 117, 137: switch

119, 139: HPA 150: link control

The present invention relates to a method for extracting a synchronization signal using a mobile communication terminal in an RF repeater of a WiBro system, and more particularly, an RF repeater of a WiBro system for determining a TX / RX switching point using a GPS time transmitted from a mobile communication terminal. The present invention relates to a synchronization signal extraction method using a mobile communication terminal.

1 is a view for explaining the operation of the switching circuit in the conventional RF repeater.

The RF repeater 100 may include a link control unit 150, a donor antenna 110, a remote antenna 130, filters 111 and 131, a circulator 113 and 133, an LNA 115 and 135 and a switch. 117, 137 and HPA 119, 139.

More specifically, the donor antenna 110 of the RF repeater 100 transmits and receives a downlink signal or an uplink signal with a WiBro base station, and the filter A 111 The downlink signal transmitted from the donor antenna 110 and the uplink signal passing through the bypass unit 113 are filtered, and the bypass circuit 113 transmits the HPA_B 139 signal to the filter A 111. Then, the forward signal transmitted from the filter A 111 is transmitted to the switch A 117. The low noise amplifier (LNA_A) 115 low noise amplifies the downlink signal and is on in the downlink signal and off in the uplink signal, and the high power amplifier (HPA_A) 119 outputs the downlink signal. It is amplified and turned on for the downlink signal and turned off for the uplink signal.

In addition, the remote antenna 130 of the RF repeater 100 transmits and receives a downlink signal or an uplink signal with a WiBro mobile communication terminal, and the filter B 131 transmits an uplink signal transmitted from the remote antenna 130. And a downlink signal passing through the bypass unit 133, and the bypass unit B 133 transmits the HPA_A 119 signal to the filter B 131 and switches the reverse signal transmitted from the filter B 131. Transmit to B 137 (LNA_B). The low noise amplifier (LNA_B) 135 low noise amplifies the uplink signal, is turned on in the uplink signal and turned off in the downlink signal, and the high power amplifier (HPA_B) 139 receives the uplink signal. Amplify and on the uplink signal and off the downlink signal.

In addition, the link control unit 150 detects an RF signal on the downlink, extracts a synchronization signal, and then controls the switches 117 and 137, and the switch B 137 controls the TTG (in accordance with the control of the link control unit 150). ON in the Transmit Time Gap, OFF in the RTG (Receive Time Gap), Switch A 117 is OFF in the TTG under the control of the link control unit 150, ON in the RTG.

On the other hand, 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 according to the amount of base station traffic.

The RF repeater 100 shown in FIG. 1 is a repeater applied to an OFDM-TDD system and includes a donor antenna switch and a non-duplexer switch on the side of the donor antenna 110 and the remote antenna 130 of the RF repeater, respectively. Switch according to the time when the reverse signal section is present.

There are three methods for determining the switching time. The first method is to determine a switching point using a preamble signal, and the second method is to determine a switching point using an RF power level. The switching point is determined by analyzing the OFDM / TDD signal waveform. The third method is to determine the switching point within the same time as the base station by installing GPS in the RF repeater.

However, the above method has a problem in that the RF repeater needs to extract a synchronization signal by configuring a separate circuit to determine the switching point.

Accordingly, there is a demand for a method of extracting a synchronization signal for determining a switching point without configuring a separate circuit of an RF repeater.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and the TX using the mobile communication terminal in the RF repeater of the WiBro system determines the TX / RX switching point using the GPS time received from the base station in the synchronization network. There is a technical problem to provide a / RX synchronization signal extraction method.

The present invention for achieving the above object 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 remote antenna for transmitting and receiving a signal with a mobile communication terminal, which is turned on or off according to a switching signal Switch, LNA which reduces noise component of RF signal and amplifies signal component, HPA which amplifies effective output to wirelessly transmit RF signal, and link that extracts synchronization signal by detecting RF signal on downlink and controls the switch As a method for extracting a synchronization signal, including a control unit,

The mobile communication terminal receives a GPS message through a synchronization channel with a base station in a synchronous mobile communication system, extracts synchronization time information by restoring the GPS message, and transmits it to the link control unit,

A first step of receiving synchronization time information transmitted from the mobile communication terminal; A second step of determining a switching point by analyzing the synchronization time information received in the first step; And transmitting a switching control signal to the switch according to the switching point determined in the second step.

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

3 is a view for explaining the concept of a synchronization signal extraction method according to the present invention, the mobile communication terminal disclosed in FIG. 3 means a mobile communication terminal using a synchronization network (CDMA 1X, IS-95A or IS-95B). .

First, when a base station located in a synchronous mobile communication network transmits a GPS message to a mobile communication terminal through a synchronization channel, the mobile communication terminal receives the GPS message transmitted from the base station, restores the GPS message, and provides the clock information. Extract it and send it to the link control unit (①).

Subsequently, the link control unit analyzes the synchronization time information transmitted from the mobile communication terminal to determine the switching point (②), and then transmits a control signal to the switch according to the switching point determined in step ② (③). Here, the synchronization time information transmitted from the base station and recovered in the GPS message includes an absolute time value.

WiBro frame is 5ms, and is composed of 42 symbols, TTG (Transmit Time Gap) 121.2us, and RTG (Receive Time Gap) 40.4us, and switching should be performed between TTG and RTG sections.

4 is a flowchart illustrating a synchronization signal extraction method according to the present invention.

Before the RF repeater 100 determines the switching point, the mobile communication terminal receives a GPS message through a synchronization channel with a base station, restores the GPS message, extracts synchronization time information, and transmits the extracted synchronization time information to the RF repeater. do. The sync time information contains the same absolute time value as the base station, and is referenced to determine the switching point to attempt switching at the time agreed upon with the base station.

The link control unit 150 of the RF repeater 100 receives the synchronization time information transmitted from the mobile communication terminal (S101).

Subsequently, the link control unit 150 of the RF repeater 100 determines the switching point by analyzing the synchronization time information received in step S101 (S103).

Thereafter, the link controller 150 transmits a switching control signal to the switches 117 and 137 according to the switching point determined in step S103 (S105).

Although not shown, the switches 117 and 137 turn the switch ON or OFF according to the switch control signal transmitted from the link control unit 150.

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, in the RF repeater of the WiBro system of the present invention, the synchronization signal extraction method using the mobile communication terminal determines the switching point according to the synchronization time information transmitted from the mobile communication terminal. Since the RF repeater circuit does not need to be additionally configured, the RF repeater circuit can be easily configured.

In addition, the present invention has the advantage that can reduce the cost of building an RF repeater.

Claims (2)

Used in an OFDM-TDD type mobile communication system, a donor antenna for transmitting and receiving a signal to and from a base station, a remote antenna for transmitting and receiving a signal to and from a mobile communication terminal, a switch that is turned on or off according to a switching signal, and reduces a noise component of an RF signal. LNA for amplifying components, HPA for amplifying the effective output to wirelessly transmit the RF signal, and a link control unit for detecting the RF signal on the downlink, extracting the synchronization signal, and controlling the switch. As a method, The mobile communication terminal receives a GPS message through a synchronization channel with a base station in a synchronous mobile communication system, extracts synchronization time information by restoring the GPS message, and transmits it to the link control unit, A first step of receiving synchronization time information transmitted from the mobile communication terminal; A second step of determining a switching point by analyzing the synchronization time information received in the first step; And Transmitting a switching control signal to the switch in accordance with the switching point determined in the second step; Synchronization signal extraction method using a mobile communication terminal in the RF repeater of the WiBro system comprising a. The method of claim 1, The synchronization time information is a synchronization signal extraction method using a mobile communication terminal in the RF repeater of the WiBro system, characterized in that it contains the same absolute time value.

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