Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP4010372B2 - Wireless repeater amplifier - Google Patents
[go: Go Back, main page]

JP4010372B2 - Wireless repeater amplifier - Google Patents

Wireless repeater amplifier Download PDF

Info

Publication number
JP4010372B2
JP4010372B2 JP2006243335A JP2006243335A JP4010372B2 JP 4010372 B2 JP4010372 B2 JP 4010372B2 JP 2006243335 A JP2006243335 A JP 2006243335A JP 2006243335 A JP2006243335 A JP 2006243335A JP 4010372 B2 JP4010372 B2 JP 4010372B2
Authority
JP
Japan
Prior art keywords
signal
base station
amplifier
antenna
mobile station
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
JP2006243335A
Other languages
Japanese (ja)
Other versions
JP2007068192A (en
Inventor
剛 梅原
真 野田
明義 小川
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
SoftBank Corp
Original Assignee
SoftBank BB Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by SoftBank BB Corp filed Critical SoftBank BB Corp
Priority to JP2006243335A priority Critical patent/JP4010372B2/en
Publication of JP2007068192A publication Critical patent/JP2007068192A/en
Priority to TW96130282A priority patent/TW200814583A/en
Priority to TW096130284A priority patent/TW200814584A/en
Priority to KR1020070087819A priority patent/KR100852675B1/en
Priority to KR20070087810A priority patent/KR20080023124A/en
Application granted granted Critical
Publication of JP4010372B2 publication Critical patent/JP4010372B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B7/00Radio transmission systems, i.e. using radiation field
    • H04B7/14Relay systems
    • H04B7/15Active relay systems
    • H04B7/155Ground-based stations
    • H04B7/15528Control of operation parameters of a relay station to exploit the physical medium
    • H04B7/15535Control of relay amplifier gain
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B7/00Radio transmission systems, i.e. using radiation field
    • H04B7/14Relay systems
    • H04B7/15Active relay systems
    • H04B7/155Ground-based stations
    • H04B7/15564Relay station antennae loop interference reduction
    • H04B7/15578Relay station antennae loop interference reduction by gain adjustment
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B7/00Radio transmission systems, i.e. using radiation field
    • H04B7/24Radio transmission systems, i.e. using radiation field for communication between two or more posts
    • H04B7/26Radio transmission systems, i.e. using radiation field for communication between two or more posts at least one of which is mobile
    • H04B7/2603Arrangements for wireless physical layer control
    • H04B7/2606Arrangements for base station coverage control, e.g. by using relays in tunnels

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Radio Relay Systems (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To make it possible to stop signal relaying when there is no signal to be relayed, and to improve an accuracy of judging whether there is any radio signal to be relayed without a necessity of controlling a change in gain of an amplifier. <P>SOLUTION: A repeater device 1 receives a signal transmitted from a base station by means of a base station antenna 10, then amplifies the signal received by the antenna 10 by means of the amplifier 14, and then outputs the amplified signal toward a mobile station from a mobile station antenna 11. A signal detecting section 17 detects whether a downlink signal (a signal to be relayed) transmitted from the base station is contained in the signal received by the base station antenna 10 based on the output signal of the amplifier 14. A switch 16 operates according to a control signal S1 output from the signal detecting section 17, and electrically connects the amplifier 14 with the antenna 11 when the downlink signal is detected while electrically cutting off the amplifier 14 from the antenna 11 when the downlink signal is not detected. <P>COPYRIGHT: (C)2007,JPO&amp;INPIT

Description

本発明は、DS−CDMA方式の移動体通信システムなどで使用され、受信した無線信号の中継増幅を行う無線中継増幅装置に関する。   The present invention relates to a radio relay amplification apparatus that is used in a DS-CDMA mobile communication system and the like and performs relay amplification of a received radio signal.

無線通信システムでは、中継元の無線通信局から信号を受信し、受信した信号を増幅して中継先の無線通信局に送信する無線中継増幅装置(以下、リピータ装置と呼ぶ)が用いられている。例えば、移動体通信システムでは、基地局(BS:Base station)と移動局(MS:Mobile Station)の間で無線信号を中継増幅するリピータ装置を設置することによって、基地局からの電波が届きにくい地域(いわゆる不感地域)の通信環境を改善し、新規に基地局を建設することなく基地局のカバーエリアを拡大することができる。   A wireless communication system uses a wireless relay amplification device (hereinafter referred to as a repeater device) that receives a signal from a relay-source wireless communication station, amplifies the received signal, and transmits the signal to a relay-destination wireless communication station. . For example, in a mobile communication system, by installing a repeater device that relays and amplifies a radio signal between a base station (BS) and a mobile station (MS), radio waves from the base station are difficult to reach. The communication environment in the area (so-called insensitive area) can be improved, and the coverage area of the base station can be expanded without constructing a new base station.

一般的なリピータ装置は、近くに基地局が存在しない場合などの中継すべき無線信号が存在しない場合においても中継増幅動作を継続しており、バックグラウンドノイズを増幅して送信アンテナから送信している。このため、リピータ装置の送出する無線信号が、リピータ装置の近辺に存在する他の無線システムの妨害波となるおそれがある。例えば、基地局建設前にリピータを設置する場合や、基地局の送信装置の故障などにより正常な信号が送信されない場合に問題となる。   The general repeater device continues the relay amplification operation even when there is no radio signal to be relayed, such as when there is no base station nearby, and amplifies the background noise and transmits it from the transmission antenna. Yes. For this reason, there is a possibility that the radio signal transmitted by the repeater device becomes an interference wave of another radio system existing in the vicinity of the repeater device. For example, it becomes a problem when a repeater is installed before the base station is constructed, or when a normal signal is not transmitted due to a failure of the transmission device of the base station.

特許文献1には、リピータ装置の消費電力の削減を目的として、中継すべき信号が存在しないときには増幅器の動作電力を減少させるリピータ装置が開示されている。具体的には、特許文献1に開示されたリピータ装置は、中継元の無線通信局から送信された無線信号を受信し、受信信号を増幅器によって増幅した後に中継先の無線通信局に送信するものであり、増幅器に入力される前の受信信号の信号電力が所定の閾値レベルに比べて小さい場合に、信号増幅用の増幅器の動作電力を減少させたり、動作電力をゼロにしたりする。つまり、特許文献1に開示されたリピータ装置は、増幅器への入力信号の信号電力に応じて、増幅器の利得を変更する構成を採用している。
特開2000−82983号公報
Patent Document 1 discloses a repeater device that reduces the operating power of an amplifier when there is no signal to be relayed for the purpose of reducing the power consumption of the repeater device. Specifically, the repeater device disclosed in Patent Document 1 receives a radio signal transmitted from a relay-source radio communication station, amplifies the received signal by an amplifier, and transmits the amplified signal to a relay-destination radio communication station When the signal power of the received signal before being input to the amplifier is smaller than a predetermined threshold level, the operating power of the amplifier for signal amplification is reduced or the operating power is made zero. That is, the repeater device disclosed in Patent Document 1 employs a configuration in which the gain of the amplifier is changed according to the signal power of the input signal to the amplifier.
JP 2000-82983 A

上述したように、特許文献1に開示されたリピータ装置は、増幅器に対する入力信号の信号電力に応じて、増幅器の利得を変更する構成を採用する。しかしながら、このような構成には以下に述べる問題がある。第1に、増幅器の利得を変更する制御機構が必ず必要であるため、リピータ装置の低コスト化を図ることが困難である。第2に、増幅前の受信信号に基づいて中継すべき信号の有無を判定するため、リピータ装置が基地局から受信する受信信号の信号電力が小さい場合に、中継すべき信号の有無を誤判定しやすいことが懸念される。   As described above, the repeater device disclosed in Patent Document 1 employs a configuration in which the gain of the amplifier is changed according to the signal power of the input signal to the amplifier. However, such a configuration has the following problems. First, since a control mechanism for changing the gain of the amplifier is indispensable, it is difficult to reduce the cost of the repeater device. Second, in order to determine the presence / absence of a signal to be relayed based on the received signal before amplification, if the signal power of the received signal received from the base station by the repeater device is small, the presence / absence of the signal to be relayed is erroneously determined Concern is easy to do.

本発明は、上述した問題を考慮してなされたものであり、中継すべき信号が存在しない場合に信号中継を停止することが可能であり、かつ、増幅器の利得変更制御を必須とせず、中継すべき無線信号の有無の判定精度を向上させたリピータ装置を提供することを目的とする。   The present invention has been made in consideration of the above-described problems, and can stop signal relay when there is no signal to be relayed, and does not require gain change control of the amplifier, and relays the signal. It is an object of the present invention to provide a repeater device that improves the accuracy of determining the presence or absence of a radio signal to be transmitted.

本発明にかかるリピータ装置は、移動体通信体通信システムの基地局と移動局との間で無線信号を中継する無線中継増幅装置であって、前記基地局から送信される中継対象信号を受信する受信アンテナと、前記受信アンテナによって受信された受信信号を増幅する増幅器と、前記増幅器によって増幅された信号を中継先の前記移動局に向けて出力する送信アンテナと、前記受信信号前記中継対象信号が含まれるか否かを、前記増幅器の出力信号に基づいて検出する検出部と、前記増幅器と前記送信アンテナとの間の配線上に設けられ、前記検出部により前記受信信号に前記中継対象信号が含まれないことが検出された場合に、前記増幅器から前記送信アンテナへの信号入力を停止させる制御手段とを備える。 A repeater apparatus according to the present invention is a radio relay amplification apparatus that relays radio signals between a base station and a mobile station of a mobile communication system, and receives a relay target signal transmitted from the base station a receiving antenna, an amplifier for amplifying a received signal received by the receiving antenna, the transmitting antenna and the relay signal to the reception signal to output toward the signal amplified by said amplifier to said mobile station the relay destination detector and, provided on the wiring between the amplifier and the transmitting antenna, the relay signal to the received signal by the detection unit whether included is detected based on an output signal of the amplifier Control means for stopping signal input from the amplifier to the transmitting antenna when it is detected that the signal is not included .

このような構成により、前記中継対象信号が検出された場合には前記増幅器によって増幅された信号を前記送信アンテナから出力し、前記中継対象信号が検出されない場合には前記送信アンテナからの前記増幅された信号の出力を停止することができる。   With this configuration, when the relay target signal is detected, the signal amplified by the amplifier is output from the transmission antenna, and when the relay target signal is not detected, the amplified signal from the transmission antenna is output. Output of the signal can be stopped.

さらに、上述した本発明にかかるリピータ装置は、前記増幅器によって増幅された信号に基づいて前記中継対象信号の存在を検出するため、前記受信アンテナにより受信される受信信号の信号電力が非常に小さい場合にも、前記中継対象信号の有無の判定に必要な信号電力を得ることができる。このため、増幅前の受信信号の信号レベルによって前記中継対象信号の有無を判定する構成に比べて、前記中継対象信号の有無の判定精度を向上させることができる。   Furthermore, since the repeater device according to the present invention described above detects the presence of the relay target signal based on the signal amplified by the amplifier, the signal power of the received signal received by the receiving antenna is very small. In addition, it is possible to obtain signal power necessary for determining the presence or absence of the relay target signal. For this reason, compared with the structure which determines the presence or absence of the said relay object signal by the signal level of the received signal before amplification, the determination precision of the presence or absence of the said relay object signal can be improved.

さらに、上述した本発明にかかるリピータ装置は、前記増幅器と前記送信アンテナとの間の配線上に設けられた制御手段によって信号中継を停止することができるため、前記増幅器の利得変更制御を行うことは必須ではない。したがって、例えば、前記増幅器を利得が実質的に一定である固定利得増幅器とすることができ、利得変更制御が不要な簡易な構成を採用することができる。 Further, the repeater apparatus according to the present invention described above, it is possible to stop the signal relayed by the control means provided on the wiring between the amplifier and the transmitting antenna, to perform the gain change control of the amplifier Is not required. Therefore, for example, the amplifier can be a fixed gain amplifier having a substantially constant gain, and a simple configuration that does not require gain change control can be employed.

上述した本発明にかかるリピータ装置において、前記制御手段は、前記増幅器と前記送信アンテナの間の配線上に設けられ、前記検出部から出力される制御信号に応じて前記増幅器と前記送信アンテナの間を電気的に接続又は切断するスイッチ回路を備えてもよい。   In the repeater device according to the present invention described above, the control means is provided on a wiring between the amplifier and the transmission antenna, and is arranged between the amplifier and the transmission antenna in accordance with a control signal output from the detection unit. A switch circuit for electrically connecting or disconnecting may be provided.

上述した本発明にかかるリピータ装置において、前記検出部は、前記増幅器の出力信号電力が所定の閾値を上回る場合に、前記受信アンテナによって受信された信号に前記中継対象信号が含まれると判定するよう構成してもよい。   In the repeater device according to the present invention described above, the detection unit determines that the signal to be relayed is included in the signal received by the reception antenna when the output signal power of the amplifier exceeds a predetermined threshold value. It may be configured.

さらに、上述した本発明にかかるリピータ装置において、前記中継対象信号が直接拡散方式によって拡散変調されたパイロット信号を含む場合には、前記検出部は、前記パイロット信号に対応する逆拡散処理を前記増幅部の出力信号に対して実行し、前記パイロット信号に対応する逆拡散処理を行った後の信号電力が所定の閾値を下回る場合に、前記制御手段に前記増幅器から前記送信アンテナへの信号入力を停止させ、前記閾値は逆拡散処理による処理利得を考慮した値に設定するよう構成してもよい。このような構成により、逆拡散処理による処理利得が得られるため、前記中継対象信号の周波数帯域に妨害波が存在する場合における前記検出部の誤検出を抑制することができる。 Furthermore, in the repeater device according to the present invention described above, when the relay target signal includes a pilot signal that is spread-modulated by a direct spreading method, the detection unit performs a despreading process corresponding to the pilot signal in the amplification When the signal power after performing the despreading process corresponding to the pilot signal is less than a predetermined threshold, the control means receives a signal input from the amplifier to the transmitting antenna. The threshold value may be stopped, and the threshold value may be set to a value that takes into account the processing gain by the despreading process . With such a configuration, since a processing gain by despreading processing is obtained, erroneous detection of the detection unit when there is an interference wave in the frequency band of the relay target signal can be suppressed.

本発明により、中継すべき無線信号が存在しない場合に信号中継を停止することが可能であり、かつ、無線信号の増幅を行う増幅器の利得変更制御を必須とせず、中継すべき無線信号の有無の判定精度を向上させたリピータ装置を提供することができる。   According to the present invention, it is possible to stop signal relay when there is no radio signal to be relayed, and the presence or absence of a radio signal to be relayed is not required, without requiring gain change control of an amplifier that amplifies the radio signal. It is possible to provide a repeater device with improved determination accuracy.

以下では、本発明を適用した具体的な実施の形態について、図面を参照しながら詳細に説明する。各図面において、同一要素には同一の符号が付されており、説明の明確化のため、必要に応じて重複説明は省略する。   Hereinafter, specific embodiments to which the present invention is applied will be described in detail with reference to the drawings. In the drawings, the same elements are denoted by the same reference numerals, and redundant description will be omitted as necessary for the sake of clarity.

発明の実施の形態1.
本実施の形態にかかるリピータ装置1は、W−CDMA方式の無線通信システムにおいて、基地局(BS)と移動局(MS)の間の信号中継を行う装置である。リピータ装置1の構成を図1に示す。基地局から移動局に向かうダウンリンクの信号中継を行う場合、リピータ装置1は、基地局の送信信号を基地局側アンテナ10によって受信し、受信した信号を増幅器14によって増幅した後に移動局側アンテナ11より送信する。一方、移動局から基地局に向かうアップリンクの信号中継を行う場合、リピータ装置1は、移動局の送信信号を移動局側アンテナ11によって受信し、受信した信号を増幅器15によって増幅した後に基地局側アンテナ10より送信する。以下では、図1に示した各構成要素について説明する。
Embodiment 1 of the Invention
The repeater device 1 according to the present embodiment is a device that performs signal relay between a base station (BS) and a mobile station (MS) in a W-CDMA wireless communication system. The configuration of the repeater device 1 is shown in FIG. When performing downlink signal relay from the base station to the mobile station, the repeater apparatus 1 receives the transmission signal of the base station by the base station antenna 10, amplifies the received signal by the amplifier 14, and then the mobile station antenna. 11 to transmit. On the other hand, when performing uplink signal relay from the mobile station to the base station, the repeater apparatus 1 receives the transmission signal of the mobile station by the mobile station side antenna 11, amplifies the received signal by the amplifier 15, and then the base station Transmit from the side antenna 10. Below, each component shown in FIG. 1 is demonstrated.

図1において、基地局側アンテナ10は、基地局から送信された信号の受信と、基地局への信号送信を行うアンテナである。また、移動局側アンテナ11は、移動局への信号送信と、移動局から送信された信号の受信を行うアンテナである。   In FIG. 1, a base station side antenna 10 is an antenna that receives a signal transmitted from a base station and transmits a signal to the base station. The mobile station side antenna 11 is an antenna that performs signal transmission to the mobile station and reception of signals transmitted from the mobile station.

デュプレクサ12は、基地局側アンテナ10を送信及び受信で共用するために設けられている。具体的には、基地局側アンテナ10によって受信されたダウンリンクの周波数帯域(W−CDMAでは2.1GHz帯)の信号を増幅器14へ分配する。また、増幅器15から入力されるアップリンクの周波数帯域(W−CDMAでは1.9GHz帯)の信号を基地局側アンテナ10に出力する。   The duplexer 12 is provided to share the base station side antenna 10 for transmission and reception. Specifically, a signal in the downlink frequency band (2.1 GHz band in W-CDMA) received by the base station antenna 10 is distributed to the amplifier 14. In addition, an uplink frequency band signal (1.9 GHz band in W-CDMA) input from the amplifier 15 is output to the base station antenna 10.

デュプレクサ13は、移動局側アンテナ11を送信及び受信で共用するために設けられている。具体的には、移動局側アンテナ11によって受信されたアップリンクの周波数帯域の信号を増幅器15へ分配する。また、増幅器14からスイッチ16を介して入力されるダウンリンクの周波数帯域の信号を移動局側アンテナ11に出力する。   The duplexer 13 is provided to share the mobile station side antenna 11 for transmission and reception. Specifically, an uplink frequency band signal received by the mobile station side antenna 11 is distributed to the amplifier 15. In addition, a signal in the downlink frequency band input from the amplifier 14 via the switch 16 is output to the mobile station side antenna 11.

増幅器14は、ダウンリンクの周波数帯域において電力増幅を行う増幅器であり、デュプレクサ12から入力される信号の信号電力を増幅して出力する。また、増幅器15は、アップリンクの周波数帯域において電力増幅を行う増幅器であり、デュプレクサ13から入力される信号の信号電力を増幅して出力する。   The amplifier 14 is an amplifier that performs power amplification in the downlink frequency band, and amplifies the signal power of the signal input from the duplexer 12 and outputs the amplified signal power. The amplifier 15 is an amplifier that performs power amplification in the uplink frequency band, and amplifies the signal power of the signal input from the duplexer 13 and outputs the amplified signal power.

スイッチ16は、増幅器14とデュプレクサ13の間を接続するための配線上に設けられており、後述する信号検出部17から出力されるスイッチ制御信号S1に応じて増幅器14と移動局側アンテナ11の間を電気的に接続又は切断する回路である。つまり、スイッチ16は、増幅器14と移動局側アンテナ11の間の電気的な接続状態を制御する回路である。   The switch 16 is provided on a wiring for connecting the amplifier 14 and the duplexer 13, and the amplifier 14 and the mobile station side antenna 11 are connected in accordance with a switch control signal S 1 output from a signal detection unit 17 described later. It is a circuit that electrically connects or disconnects. That is, the switch 16 is a circuit that controls the electrical connection state between the amplifier 14 and the mobile station side antenna 11.

信号検出部17は、移動局に向けて中継すべき信号、つまり基地局から送信されるダウンリンク信号の有無を増幅器14の出力信号を用いて判定し、中継すべきダウンリンク信号が存在しない場合には、増幅器14の出力信号が移動局側アンテナ11から送出されないようにスイッチ16を開放する。なお、信号検出部17によるスイッチ16の制御は、スイッチ制御信号S1により行われる。   The signal detection unit 17 determines the presence / absence of a signal to be relayed toward the mobile station, that is, the presence / absence of a downlink signal transmitted from the base station, using the output signal of the amplifier 14, and there is no downlink signal to be relayed. The switch 16 is opened so that the output signal of the amplifier 14 is not transmitted from the mobile station side antenna 11. The control of the switch 16 by the signal detection unit 17 is performed by a switch control signal S1.

ダウンリンク信号の有無を増幅器14の出力信号によって判定する簡便な構成の1つは、増幅器14を利得が実質的に一定である固定利得増幅器とし、増幅器14の出力信号の信号電力を所定の閾値レベルと比較する構成である。このような構成において、増幅器14の出力信号電力が所定の閾値より大きい場合には、スイッチ16を閉じて増幅器14の出力信号をデュプレクサ13及び移動局側アンテナ11に出力し、増幅器14の出力信号電力が所定の閾値より小さい場合には、スイッチ16を開放して増幅器14とデュプレクサ13の接続を遮断すればよい。   One simple configuration for determining the presence or absence of a downlink signal based on the output signal of the amplifier 14 is a fixed gain amplifier having a substantially constant gain, and the signal power of the output signal of the amplifier 14 is set to a predetermined threshold value. It is a configuration to compare with the level. In such a configuration, when the output signal power of the amplifier 14 is larger than the predetermined threshold, the switch 16 is closed and the output signal of the amplifier 14 is output to the duplexer 13 and the mobile station side antenna 11, and the output signal of the amplifier 14 is output. When the power is smaller than the predetermined threshold, the switch 16 is opened to disconnect the connection between the amplifier 14 and the duplexer 13.

しかしながら、上述した簡便な構成では、中継すべきダウンリンク信号の有無の判定精度が低いという問題がある。例えば、ダウンリンクの周波数帯域に妨害波が存在する場合には、妨害波が増幅されることによって増幅器14の出力信号電力が閾値レベルを超えて大きくなり、中継すべきダウンリンク信号が存在しないにもかかわらず中継処理を実行してしまう可能性がある。このような誤動作を防止するため、基地局から送信される信号に対応した逆拡散処理を増幅器14の出力信号に行った後に、逆拡散後の信号を用いてダウンリンク信号の有無を判定することが望ましい。具体的には、基地局から常時送信されているパイロット信号を復調するための逆拡散処理を行えばよい。   However, the simple configuration described above has a problem that the determination accuracy of the presence / absence of a downlink signal to be relayed is low. For example, when an interference wave exists in the downlink frequency band, the output signal power of the amplifier 14 increases beyond the threshold level by amplifying the interference wave, and there is no downlink signal to be relayed. However, there is a possibility that relay processing will be executed. In order to prevent such a malfunction, the despreading process corresponding to the signal transmitted from the base station is performed on the output signal of the amplifier 14, and then the presence or absence of the downlink signal is determined using the despread signal. Is desirable. Specifically, a despreading process for demodulating a pilot signal constantly transmitted from the base station may be performed.

図2は、基地局から送信されるパイロット信号を用いてダウンリンク信号の有無を判定するための信号検出部14の構成例を示している。図2において、ミキサ140、局部発振器141及びローパスフィルタ(LPF)142は、増幅器14から入力されたRF(Radio Frequency)信号をIF(Intermediate Frequency)信号にダウンコンバートするために設けられている。つまり、入力されたRF信号とローカル発振器141によって生成される信号とがミキサ140によって乗算され、ミキサ140の出力信号がLPF142によって帯域選択されて出力される。   FIG. 2 shows a configuration example of the signal detection unit 14 for determining the presence / absence of a downlink signal using a pilot signal transmitted from the base station. In FIG. 2, a mixer 140, a local oscillator 141, and a low-pass filter (LPF) 142 are provided to down-convert an RF (Radio Frequency) signal input from the amplifier 14 into an IF (Intermediate Frequency) signal. That is, the input RF signal and the signal generated by the local oscillator 141 are multiplied by the mixer 140, and the output signal of the mixer 140 is band-selected by the LPF 142 and output.

CPICH逆拡散部143は、LPF142からIF信号を入力し、共通パイロットチャネル(CPICH:Common Pilot Channel)に対応した逆拡散処理を実行する。なお、CPICHは、W−CDMA方式の基地局から送信されるパイロット信号である。CPICH逆拡散部143には、例えば、アナログマッチドフィルタを使用することができ、又は、A/D変換後のIF信号を入力することによってデジタルマッチフィルタを使用することができる。拡散符号発生部144は、基地局においてCPICHの拡散処理に使用される拡散符号(具体的には、チャネライゼーションコード及びスクランブルコード)と共通の拡散符号をCPICH逆拡散部143に出力する。   The CPICH despreading unit 143 receives the IF signal from the LPF 142 and executes a despreading process corresponding to a common pilot channel (CPICH). CPICH is a pilot signal transmitted from a W-CDMA base station. For the CPICH despreading unit 143, for example, an analog matched filter can be used, or a digital match filter can be used by inputting an IF signal after A / D conversion. The spreading code generation unit 144 outputs a spreading code common to the spreading code (specifically, channelization code and scramble code) used for the CPICH spreading process in the base station to the CPICH despreading unit 143.

信号レベル判定部145は、CPICH逆拡散部143における逆拡散処理によって狭帯域化された信号の信号電力を所定の閾値と比較し、比較結果に応じてスイッチ制御信号S1を出力する。具体的には、逆拡散処理後の信号電力が所定の閾値より大きい場合にスイッチ16を閉じ、所定の閾値より小さい場合にスイッチ16を開放するようスイッチ制御信号S1を出力する。   The signal level determination unit 145 compares the signal power of the signal narrowed by the despreading process in the CPICH despreading unit 143 with a predetermined threshold, and outputs the switch control signal S1 according to the comparison result. Specifically, the switch control signal S1 is output so that the switch 16 is closed when the signal power after the despreading process is larger than a predetermined threshold, and the switch 16 is opened when the signal power is smaller than the predetermined threshold.

なお、信号レベル判定部145に適用する閾値は、CPICHの逆拡散による処理利得を考慮した電力レベルに設定することが望ましい。つまり、CPICHに対応する拡散符号を用いた逆拡散を行うことで、CPICH以外の妨害波の信号電力は平均的に拡散率(Spread Factor)分の1に低減される。このため、中継すべきダウンリンク信号の有無を逆拡散後のCPICHの有無によって判定することにより、ダウンリンクの周波数帯域に妨害波が存在する場合の誤判定を抑制することができる。   Note that the threshold applied to the signal level determination unit 145 is preferably set to a power level that takes into account the processing gain due to CPICH despreading. That is, by performing despreading using a spreading code corresponding to CPICH, the signal power of interference waves other than CPICH is reduced to 1 / (Spread Factor) on average. For this reason, by determining the presence / absence of the downlink signal to be relayed based on the presence / absence of the CPICH after despreading, it is possible to suppress erroneous determination when an interference wave is present in the downlink frequency band.

上述したように、本実施の形態にかかるリピータ装置1は、増幅器14によって増幅された信号を用いて中継すべきダウンリンク信号の有無を判定している。これにより、リピータ装置1が基地局から受信する受信信号の信号電力が非常に小さい場合にも、ダウンリンク信号の有無の判定に必要な信号電力を得ることができる。このため、増幅前の受信信号の信号レベルによって中継すべき信号の有無を判定する構成に比べて、中継すべき信号の有無の判定精度を向上させることができる。   As described above, the repeater device 1 according to the present embodiment determines whether there is a downlink signal to be relayed using the signal amplified by the amplifier 14. Thereby, even when the signal power of the reception signal received by the repeater apparatus 1 from the base station is very small, it is possible to obtain the signal power necessary for determining the presence or absence of the downlink signal. For this reason, the determination accuracy of the presence / absence of the signal to be relayed can be improved as compared with the configuration in which the presence / absence of the signal to be relayed is determined based on the signal level of the reception signal before amplification.

また、リピータ装置1は、中継すべき信号が存在しない場合に、増幅器14と移動局側アンテナ11との間の接続を遮断する構成としたため、増幅器14の動作を停止せずにダウンリンク方向の信号中継を停止することができる。つまり、リピータ装置1は、増幅器14の利得変更制御を必須としていないため、一定利得の増幅器を用いた簡便な構成を採用して低コスト化を図ることができる。また、特許文献1に開示されたリピータ装置のように、受信信号の信号レベルに応じて増幅器の利得変更を行う構成を採用すると、受信信号の信号レベル変動が頻繁に発生した場合に増幅器の動作が不安定になることや、増幅器の利得変更が受信信号の信号レベル変動に十分に追随できないことが懸念されるが、一定利得の増幅器を用いた簡便な構成を採用することにより、このような問題を解消できる。   Further, since the repeater device 1 is configured to cut off the connection between the amplifier 14 and the mobile station side antenna 11 when there is no signal to be relayed, the operation in the downlink direction is not stopped without stopping the operation of the amplifier 14. Signal relay can be stopped. That is, since the repeater device 1 does not require the gain change control of the amplifier 14, it is possible to reduce the cost by adopting a simple configuration using a constant gain amplifier. Further, when a configuration in which the gain of the amplifier is changed according to the signal level of the received signal as in the repeater device disclosed in Patent Document 1, the operation of the amplifier is performed when the signal level fluctuation of the received signal frequently occurs. Is unstable, and it is feared that the gain change of the amplifier cannot sufficiently follow the signal level fluctuation of the received signal. However, by adopting a simple configuration using an amplifier with a constant gain, The problem can be solved.

その他の実施の形態.
上述したリピータ装置1は、増幅器14と移動局側アンテナ11の間の電気的な接続状態を制御する回路として、制御信号S1に応じて動作するスイッチ16を用いたが、増幅器14と移動局側アンテナ11の間の電気的な接続状態を制御する手段はスイッチ16に限られない。例えば、減衰量を変更可能な可変減衰器を増幅器14と移動局側アンテナ11の間の配線上に設け、CPICHが検出されない場合に可変減衰器の減衰量を増大させ、CPICHが検出される場合に可変減衰器の減衰量を減少させればよい。
Other embodiments.
The above-described repeater device 1 uses the switch 16 that operates according to the control signal S1 as a circuit for controlling the electrical connection state between the amplifier 14 and the mobile station side antenna 11, but the amplifier 14 and the mobile station side The means for controlling the electrical connection state between the antennas 11 is not limited to the switch 16. For example, when a variable attenuator capable of changing the attenuation is provided on the wiring between the amplifier 14 and the mobile station side antenna 11, the CPICH is detected by increasing the attenuation of the variable attenuator when CPICH is not detected. The attenuation amount of the variable attenuator may be reduced.

上述したリピータ装置1が備える増幅器14は利得が実質的に一定である固定利得増幅器として説明した。しかしながら、増幅器14は利得一定でなくてもよい。例えば、増幅器14を可変利得増幅器とし、増幅器14の出力信号電力が一定となるような利得制御、いわゆるAGC(Automatic Gain Control)を行ってもよい。   The amplifier 14 included in the repeater device 1 described above has been described as a fixed gain amplifier having a substantially constant gain. However, the amplifier 14 may not have a constant gain. For example, the amplifier 14 may be a variable gain amplifier, and so-called AGC (Automatic Gain Control) may be performed so that the output signal power of the amplifier 14 becomes constant.

上述したリピータ装置1は、アップリンクとダウンリンクの双方向の中継を行う構成であるが、どちらか片方向の中継を行う構成としてもよい。   The repeater device 1 described above is configured to perform uplink and downlink bidirectional relay, but may be configured to perform either one-way relay.

上述したリピータ装置1は、ダウンリンク方向のみを中継すべき信号の有無に応じて信号中継を停止する構成としたが、アップリンク方向も中継すべき信号の有無に応じて信号中継を停止する構成としてもよい。   The repeater apparatus 1 described above is configured to stop signal relaying according to the presence / absence of a signal to be relayed only in the downlink direction, but is configured to stop signal relaying according to the presence / absence of a signal to be relayed also in the uplink direction. It is good.

上述したリピータ装置1は、W−CDMA方式の無線通信システムにおいて使用されるものとして説明したが、本発明は、cdma2000方式などの他のDS−CDMA方式にも適用可能である。また、DS−CDMA方式に限らず、他の直接拡散方式の無線通信システムやその他の無線通信システムにも適用可能である。   The repeater apparatus 1 described above has been described as being used in a W-CDMA wireless communication system, but the present invention is also applicable to other DS-CDMA systems such as the cdma2000 system. Further, the present invention is not limited to the DS-CDMA system, and can be applied to other direct spreading wireless communication systems and other wireless communication systems.

さらに、本発明は上述した実施の形態のみに限定されるものではなく、既に述べた本発明の要旨を逸脱しない範囲において種々の変更が可能であることは勿論である。   Furthermore, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention described above.

本発明にかかるリピータ装置の構成図である。It is a block diagram of the repeater apparatus concerning this invention. 本発明にかかるリピータ装置が備える信号検出部の構成図である。It is a block diagram of the signal detection part with which the repeater apparatus concerning this invention is provided.

符号の説明Explanation of symbols

1 リピータ装置
10 基地局側アンテナ
11 移動局側アンテナ
12、13 デュプレクサ
14、15 増幅器
16 スイッチ
17 信号検出部
140 ミキサ
141 局部発振器
142 ローパスフィルタ(LPF)
143 CPICH逆拡散部
144 拡散符号発生部
145 信号レベル判定部
DESCRIPTION OF SYMBOLS 1 Repeater apparatus 10 Base station side antenna 11 Mobile station side antenna 12, 13 Duplexer 14, 15 Amplifier 16 Switch 17 Signal detection part 140 Mixer 141 Local oscillator 142 Low pass filter (LPF)
143 CPICH despreading unit 144 Spreading code generating unit 145 Signal level determining unit

Claims (6)

移動体通信システムの基地局と移動局との間で無線信号を中継する無線中継増幅装置であって、
基地局側受信アンテナと、
前記基地局側受信アンテナによって受信されたダウンリンク受信信号を増幅するダウンリンク増幅器と、
前記ダウンリンク増幅器によって増幅された信号を中継先の前記移動局に向けて出力する移動局側送信アンテナと、
移動局側受信アンテナと、
前記移動局側受信アンテナによって受信されたアップリンク受信信号を増幅するアップリンク増幅器と、
前記アップリンク増幅器によって増幅された信号を中継先の前記基地局に向けて出力する基地局側送信アンテナと、
前記基地局より送信される前記基地局の存在を示す信号が前記ダウンリンク受信信号から検出されない場合に、前記ダウンリンク受信信号の増幅中継及び前記アップリンク受信信号の増幅中継を共に停止する制御手段と、
を備える無線中継増幅装置。
A wireless relay amplification device that relays a wireless signal between a base station and a mobile station of a mobile communication system,
A base station side receiving antenna;
Downlink amplifier for amplifying a downlink reception signal received by the base station side reception antenna,
A mobile station-side transmitting antenna that outputs the signal amplified by the downlink amplifier toward the relay destination mobile station;
A mobile station side receiving antenna;
An uplink amplifier for amplifying an uplink received signal received by the mobile station side receiving antenna;
A base station side transmission antenna that outputs the signal amplified by the uplink amplifier toward the relay destination base station;
Control means for stopping both amplification relay of the downlink reception signal and amplification relay of the uplink reception signal when a signal indicating the presence of the base station transmitted from the base station is not detected from the downlink reception signal When,
A wireless relay amplification device comprising:
前記基地局側受信アンテナと前記基地局側送信アンテナとが共用化され、前記移動局側受信アンテナと前記移動局側送信アンテナとが共用化されている請求項1に記載の無線中継増幅装置。The radio relay amplification apparatus according to claim 1, wherein the base station side receiving antenna and the base station side transmitting antenna are shared, and the mobile station side receiving antenna and the mobile station side transmitting antenna are shared. 前記基地局の存在を示す信号は、直接拡散方式によって拡散変調されたパイロットチャネルである請求項1又は2に記載の無線中継増幅装置。The radio relay amplifying apparatus according to claim 1 or 2, wherein the signal indicating the presence of the base station is a pilot channel spread-modulated by a direct spreading method. 前記パイロットチャネルに対応する逆拡散処理を前記ダウンリンク増幅部の出力信号に対して実行する検出部をさらに備え、A detector that performs despreading processing corresponding to the pilot channel on the output signal of the downlink amplifier;
前記制御手段は、前記検出部による逆拡散処理後の信号電力が所定の閾値を下回る場合に、前記ダウンリンク増幅器から前記移動局側送信アンテナへの信号入力及び前記アップリンク増幅器から前記基地局側送信アンテナへの信号入力を停止させ、When the signal power after the despreading processing by the detection unit is lower than a predetermined threshold, the control means inputs a signal from the downlink amplifier to the mobile station side transmission antenna and from the uplink amplifier to the base station side. Stop signal input to the transmitting antenna,
前記閾値は前記パイロットチャネルの逆拡散処理による処理利得を考慮した値に設定されている請求項3に記載の無線中継増幅装置。The radio relay amplification apparatus according to claim 3, wherein the threshold is set to a value that takes into account a processing gain due to despreading processing of the pilot channel.
移動体通信システムの基地局と移動局との間で無線信号を中継する無線中継増幅装置の制御方法であって、A method for controlling a radio relay amplification apparatus that relays radio signals between a base station and a mobile station of a mobile communication system,
前記基地局より送信される前記基地局の存在を示す信号が、基地局側受信側アンテナによって受信されたダウンリンク受信信号に含まれるか否かを検出し、  Detecting whether or not a signal indicating the presence of the base station transmitted from the base station is included in a downlink reception signal received by a base station side receiving antenna;
前記基地局の存在を示す信号が検出されない場合に、前記ダウンリンク受信信号を中継する処理とともに、移動局側受信アンテナによって受信されるアップリンク受信信号を中継する処理を停止させる、無線中継増幅装置の制御方法。  A radio relay amplifying apparatus that stops the process of relaying the downlink reception signal and the process of relaying the uplink reception signal received by the mobile station side reception antenna when the signal indicating the presence of the base station is not detected Control method.
前記基地局の存在を示す信号は、前記基地局の使用周波数帯において各々異なる拡散符号により拡散変調されて送信される複数のチャネルに含まれているパイロットチャネルである請求項5に記載の制御方法。6. The control method according to claim 5, wherein the signal indicating the presence of the base station is a pilot channel included in a plurality of channels transmitted by being spread-modulated by different spreading codes in the use frequency band of the base station. .
JP2006243335A 2006-09-07 2006-09-07 Wireless repeater amplifier Active JP4010372B2 (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
JP2006243335A JP4010372B2 (en) 2006-09-07 2006-09-07 Wireless repeater amplifier
TW96130282A TW200814583A (en) 2006-09-07 2007-08-16 Radio repeater device
TW096130284A TW200814584A (en) 2006-09-07 2007-08-16 Radio repeater device and method for controlling the radio repeater device
KR1020070087819A KR100852675B1 (en) 2006-09-07 2007-08-30 Wireless repeater and control method of wireless repeater
KR20070087810A KR20080023124A (en) 2006-09-07 2007-08-30 Control method of wireless relay amplifier and wireless relay amplifier

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2006243335A JP4010372B2 (en) 2006-09-07 2006-09-07 Wireless repeater amplifier

Publications (2)

Publication Number Publication Date
JP2007068192A JP2007068192A (en) 2007-03-15
JP4010372B2 true JP4010372B2 (en) 2007-11-21

Family

ID=37929753

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2006243335A Active JP4010372B2 (en) 2006-09-07 2006-09-07 Wireless repeater amplifier

Country Status (3)

Country Link
JP (1) JP4010372B2 (en)
KR (1) KR20080023124A (en)
TW (1) TW200814583A (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US8787825B2 (en) * 2007-12-14 2014-07-22 Telefonaktiebolaget Lm Ericsson (Publ) Method and apparatus for controlling the activation of an amplifier arrangement in a repeater device disposed in a radio communication system
JP4729591B2 (en) * 2008-02-13 2011-07-20 株式会社エヌ・ティ・ティ・ドコモ Non-regenerative radio relay apparatus, radio communication system, and radio signal relay method
JP2010187188A (en) * 2009-02-12 2010-08-26 Softbank Mobile Corp Radio relay device and radio relay system
JP2010239533A (en) * 2009-03-31 2010-10-21 Maspro Denkoh Corp TV broadcast retransmitter
JP2011254132A (en) * 2010-05-31 2011-12-15 Fujitsu Ltd Relay station and relay method, and wireless communication system

Also Published As

Publication number Publication date
TW200814583A (en) 2008-03-16
KR20080023124A (en) 2008-03-12
JP2007068192A (en) 2007-03-15

Similar Documents

Publication Publication Date Title
EP1081883B1 (en) System and method for boosting and monitoring
KR100893051B1 (en) AFEC and method, and TDD radio repeating apparatus using that
US7783318B2 (en) Cellular network amplifier with automated output power control
JP5171529B2 (en) Relay transceiver
KR20080023124A (en) Control method of wireless relay amplifier and wireless relay amplifier
JP2009055185A (en) Radio relay apparatus and control method of radio relay apparatus
JP4034332B1 (en) Radio relay apparatus and control method of radio relay apparatus
JP2010187188A (en) Radio relay device and radio relay system
KR20020044827A (en) Signal-Sensed Path-Switching Optical Repeater Systems for Relaying CDMA/TDD Signals
KR100852675B1 (en) Wireless repeater and control method of wireless repeater
EP2290840A2 (en) Wireless communication method and relay apparatus
KR101840657B1 (en) RF Repeater of Time Division Duplex
JPH1127196A (en) Frequency conversion type relay amplifier
KR102954507B1 (en) Rf mimo repeater equipment capable of energy saving and carbon emission reduction based on traffic pattern and its control method
KR100728625B1 (en) Marine mobile communication repeater and its control method
KR20030028890A (en) Apparatus for repeating a single Radio Frequency to Both-direction
KR100697470B1 (en) Apparatus and method for eliminating interference signal in TD system
JP2008205576A (en) Radio relay amplifier
KR100629245B1 (en) Noise Power Blocker of Mobile Communication System
JP2009055191A (en) Repeater oscillation detector, repeater oscillation detection method, repeater oscillation detection program, and repeater
JP2009182367A (en) Radio communication device
KR100683860B1 (en) Gain measuring method and apparatus for mobile communication repeater
JP2005184272A (en) Bidirectional communication relay amplifier and control method of bidirectional communication relay amplifier
KR20090120207A (en) Communication relay system and method
KR20070071567A (en) Wireless relay system with interference cancellation

Legal Events

Date Code Title Description
A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20070306

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20070427

A711 Notification of change in applicant

Free format text: JAPANESE INTERMEDIATE CODE: A712

Effective date: 20070522

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20070807

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20070828

R150 Certificate of patent or registration of utility model

Ref document number: 4010372

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20170914

Year of fee payment: 10

RD01 Notification of change of attorney

Free format text: JAPANESE INTERMEDIATE CODE: R3D01

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20170914

Year of fee payment: 10

RD02 Notification of acceptance of power of attorney

Free format text: JAPANESE INTERMEDIATE CODE: R3D02

S111 Request for change of ownership or part of ownership

Free format text: JAPANESE INTERMEDIATE CODE: R313111

R350 Written notification of registration of transfer

Free format text: JAPANESE INTERMEDIATE CODE: R350

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

S531 Written request for registration of change of domicile

Free format text: JAPANESE INTERMEDIATE CODE: R313531

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R350 Written notification of registration of transfer

Free format text: JAPANESE INTERMEDIATE CODE: R350

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250