JP3922099B2 - Wireless communication device - Google Patents

Description

であることが知られている。
【００１１】
図５において、送受信アンテナ６までの経路の利得をＧｂ、雑音指数をＦｂとし、フィルタ回路５の利得をＧｃ、雑音指数をＦｃとし、送受信切替スイッチ４の利得をＧｄ、雑音指数をＦｄとし、受信用ローノイズアンプ１１の利得をＧｆ、雑音指数をＦｆとし、送受信信号処理部１の利得をＧｇ、雑音指数をＦｇとしたとき、この受信系の総合雑音指数Ｆ１は、

である。
【００１２】
ここで、Ｇｂ，Ｇｃ，Ｇｄは線路の電力損失（ロス）分であることから
Ｇｂ＜１，Ｇｃ＜１，Ｇｄ＜１
である。
また、Ｇｂ・Ｆｂ＝１，Ｇｃ・Ｆｃ＝１，Ｇｄ・Ｆｄ＝１より、

である。
【００１３】
従って、

である。
【００１４】
この式（１）より、受信用ローノイズアンプ１１の利得Ｇｆを大きくすることで、後段に接続されている送受信信号処理部１等の雑音指数の影響は小さくなり、更に送受信アンテナ６よりこの受信用ローノイズアンプ１１までの電力損失を削減することで、この受信用ローノイズアンプ１１の雑音指数Ｆｆがこの受信系の総合雑音指数Ｆ１に対して支配的になる。
【００１５】
【発明が解決しようとする課題】
然しながら、この受信用ローノイズアンプ１１の利得Ｇｆを大きく設定すると送受信信号処理部１等の後段回路に入力される受信信号のレベルが増大し歪特性を悪化させ中電界及び強電界の信号を安定して受信することが困難となる不都合がある。
【００１６】
また、送受信アンテナ６までの経路、フィルタ回路５、送受信切替スイッチ４における電力損失は、その経路長や素子特性に起因し、受信特性を劣化させる要因となっている。この特性を改善するためには、高価な部品を使用しなければならないため、コストアップにつながってしまう不都合があった。
【００１７】
本発明は斯る点に鑑み、受信系における総合雑音指数を改善することを目的とする。
【００１８】
【課題を解決するための手段】
本発明無線通信装置は、送受信信号処理手段よりの送信信号を送受信切替スイッチ及びフィルタ回路を介して送受信アンテナに供給すると共にこの送受信アンテナよりの受信信号をこのフィルタ回路及びこの送受信切替スイッチを介してこの送受信信号処理手段に供給するようにした無線通信装置において、このフィルタ回路とこの送受信切替スイッチとの間に受信用ローノイズアンプ及びバイパススイッチの並列回路を挿入し、送信時にはこの送信用ローノイズアンプを不動作、このバイパススイッチをオンとし、信号受信時にはこの送受信信号処理手段の信号レベル検出回路が、受信した信号レベルに基づいてこのバイパススイッチをオン、オフすると共にこの受信用ローノイズアンプを不動作、動作するようにしたようにしたものである。
【００１９】
斯る、本発明によれば、送受信アンテナと送受信切替スイッチとの間にバイパスフィルタ及び受信用ローノイズアンプの並列回路を挿入するようにしたので、送信時はこのバイパススイッチをオンとし、受信用ローノイズアンプを不動作とすれば従来同様の作用効果が得られると共に受信時は、このバイパススイッチをオフとし、受信用ローノイズアンプを作動状態とすれば、この受信用ローノイズアンプが従来に比し、より受信経路の前段側に挿入されるので受信系における総合雑音指数を改善することができ、また、更に本発明によれば、受信した信号レベルに基づいてこのバイパススイッチをオン、オフすると共にこの受信用ローノイズアンプを不動作、動作するようにしたようにしたので受信信号レベルが小さいときのみならず大きいときにも良好に受信することができる。
【００２０】
【発明の実施の形態】
以下、図１を参照して本発明無線通信装置の実施の形態の一例につき説明する。この図１において、図５に対応する部分には同一符号を付し示す。
【００２１】
図１例において、送受信信号処理部１は、例えばＩＥＥＥ８０２．１１ｂの準拠規格により構成したもので、例えば２．４ＧＨｚ帯の送信信号を形成すると共に例えば２．４ＧＨｚ帯の受信信号を復調する如くなされているものである。
【００２２】
この送受信信号処理部１等はマイクロコンピュータより成る中央制御装置（ＣＰＵ）２により制御される如くなされている。
【００２３】
また、この送受信信号処理部１はこの中央制御装置２により送受信信号処理部１が所定の動作をする如く制御されると共に後述するバイパススイッチ１０及び受信用ローノイズアンプ１１の並列回路１２を制御する如くする。この受信用ローノイズアンプ１１は例えばガリウムヒ素を原料とする電界効果トランジスタより構成する。
【００２４】
この制御は、バイパススイッチ１０をオンとしたときにはこの受信用ローノイズアンプ１１の電源をオフとしてこの受信用ローノイズアンプ１１を不動作とすると共にこのバイパススイッチ１０をオフとしたときには、このローノイズアンプ１１を動作状態とする如くする。
【００２５】
また、この送受信信号処理部１において、受信信号の信号レベルを検出する如くする。
【００２６】
この送受信信号処理部１に得られる例えば２．４ＧＨｚ帯の送信信号を中央制御装置２の制御により電力アンプ３を介して送受信切替スイッチ４の送信側固定接点４ａに供給する如くする。この送受信切替スイッチ４の可動接点４ｃは送信時は、送信側固定接点４ａに接続され、受信時は受信側固定接点４ｂに接続される如くなされている。
【００２７】
本例においては、この送受信切替スイッチ４の可動接点４ｃに得られる送信信号をバイパススイッチ１０及び受信用ローノイズアンプ１１の並列回路１２のバイパススイッチ１０及びこの２．４ＧＨｚ帯の送信信号を通過するフィルタ回路５を介して２．４ＧＨｚ帯の信号を送受信する送受信アンテナ６に供給し、この送信信号を送信する如くする。
【００２８】
この場合、並列回路１２の受信用ローノイズアンプ１１は送受信信号処理部１よりの指令により電源がオフとされ、この受信用ローノイズアンプ１１は不動作とされる。
また、この場合、希望の送信電力を得るために、この送受信アンテナ６の特性や、この送信アンテナ６までの経路及びバイパススイッチ１０の電力損失を考慮し、この電力アンプ３の利得を決定する。
【００２９】
また、このバイパススイッチ１０は送信特性を保持するために低電力損失、低歪特性であることが望まれるが、電力アンプ３の増幅能力の範囲内であれば電力損失は問題にならない。
【００３０】
また、この送受信アンテナ６で受信した例えば２．４ＧＨｚ帯の受信信号を、この２．４ＧＨｚ帯の受信信号を通過するフィルタ回路５とバイパススイッチ１０及び受信用ローノイズアンプ１１の並列回路１２の受信用ローノイズアンプ１１との直列回路を介して送受信切替スイッチ４の可動接点４ｃに供給する如くする。
【００３１】
この受信信号の受信時はバイパススイッチ１０をオフとすると共に受信用ローノイズアンプ１１は動作状態となる。この送受信切替スイッチ４の可動接点４ｃに得られる受信信号を受信側固定接点４ｂを介して送受信信号処理部１に供給する。
【００３２】
この送受信信号処理部１においては、この２．４ＧＨｚ帯の受信信号の信号レベルを検出すると共にこの受信信号を復調し、所定のデータ信号、音声信号、映像信号を得る如くする。
【００３３】
この場合、送受信アンテナ６までの経路の利得をＧｂ、雑音指数をＦｂとし、フィルタ回路５の利得をＧｃ、雑音指数をＦｃとし、受信用ローノイズアンプ１１の利得をＧｆ、雑音指数をＦｆとし、送受信切替スイッチ４の利得をＧｄ、雑音指数をＦｄとし、送受信信号処理部１の利得をＧｇ、雑音指数をＦｇとしたとき、この受信系の総合雑音指数Ｆ２は、

である。
【００３４】
ここでＧｂ，Ｇｃ，Ｇｄは線路の電力損失（ロス）分であることから
Ｇｂ＜１，Ｇｃ＜１，Ｇｄ＜１
である。
また、Ｇｂ・Ｆｂ＝１，Ｇｃ・Ｆｃ＝１，Ｇｄ・Ｆｄ＝１より、

である。
【００３５】
従って、

である。
【００３６】
この式（２）と式（１）より

である。但し、Ｆｄ≧１，Ｆｆ≧１，Ｆｇ≧１，Ｇｆ≧１である。
【００３７】
この（３）式より図１例に示す如き本例の受信系の総合雑音指数Ｆ２が図５に示す如き従来の受信系の総合雑音指数Ｆ１より改善されたことが確認できる。
【００３８】
また図１例においては送受信切替スイッチ４の可動接点４ｃを受信側固定接点４ｂに接続して受信状態としたときにおいて、中電界又は強電界の信号レベルの高い受信信号を受信したときには、送受信信号処理部１の中央制御装置２の指令により、バイパススイッチ１０をオンとすると共に受信用ローノイズアンプ１１を不動作とする如くする。この為、本例においては、受信用ローノイズアンプ１１の利得Ｇｆを送受信信号処理部１等の後段回路の歪特性を考慮せずに大きくすることができる。
【００３９】
従って本例によれば、受信時における雑音特性を従来に比較して向上することができると共に電界強度の強弱に関わらず安定した受信動作を行うことができる。即ち本例によれば通信距離の延長と近距離通信時における安定した受信動作との両立を簡単且つ安価に実現することができる。
【００４０】
図２、図３及び図４は夫々本発明の実施の形態の他の例を示す。この図２、図３及び図４につき説明するに、この図２、図３及び図４において、図１に対応する部分には同一符号を付して示し、その詳細な説明は省略する。
【００４１】
図２例は図１例において、受信用ローノイズアンプ１１を利得制御機能を有する受信用ローノイズアンプ１３とし、受信時において、この受信用ローノイズアンプ１３の利得Ｇｆを送受信信号処理部１に得られる受信信号の信号レベルに応じて可変する如くする。
【００４２】
例えば弱電界時の受信信号の信号レベルが小さいときはこの受信用ローノイズアンプ１３の利得Ｇｆを大利得とし、中電界時の受信信号の信号レベルが比較的大きいときはこの受信用ローノイズアンプ１３の利得Ｇｆを小利得とし、強電界時の受信信号の信号レベルが大きいときには、バイパススイッチ１０をオンとし、この受信用ローノイズアンプ１３を不動作とする如くする。その他は図１例同様に構成する。
【００４３】
斯る、図２例によれば、図１例と同様の作用効果が得られると共に送受信信号処理部１及びその後段回路に一定した信号レベルの受信信号を供給することができ、より安定した受信動作を得ることができる。
【００４４】
図３例は、図１例において、バイパススイッチ１０及び受信用ローノイズアンプ１１の並列回路１２を送受信アンテナ６とフィルタ回路５との間に挿入し、その他は図１例同様に構成したものである。
【００４５】
この図３例においても、図１例同様の作用効果が得られると共に受信用ローノイズアンプ１１が図１例よりも受信経路前段側に挿入されるので、受信系における総合雑音指数を図１例よりも向上することができる。
【００４６】
送受信アンテナ６までの経路の利得をＧｂ、雑音指数をＦｂとし、受信用ローノイズアンプ１１の利得をＧｆ、雑音指数をＦｆとし、フィルタ回路５の利得をＧｃ、雑音指数をＦｃとし、送受信切替スイッチ４の利得をＧｄ、雑音指数をＦｄとし、送受信信号処理部１の利得をＧｇ、雑音指数をＦｇとしたとき、この受信系の総合雑音指数Ｆ３は、Ｆ１、Ｆ２と同様に

となる。
【００４７】
この式（４）と式（２）より

である。但し、Ｆｃ≧１，Ｆｄ≧１，Ｆｆ≧１，Ｆｇ≧１，Ｇｆ≧１である。
【００４８】
この（５）式より図３例に示す如き本例の受信系の総合雑音指数Ｆ３が図１に示す如き本例の受信系の総合雑音指数Ｆ２より改善されたことが確認できる。
【００４９】
図４例は、図１例の送受信アンテナ６をダイバーシティアンテナ構成としたもので、図４例においては、２個の送受信アンテナ６ａ及び６ｂを設け、一方の送受信アンテナ６ａをアンテナ切替スイッチ１４の一方の固定接点１４ａに接続すると共に他方の送受信アンテナ６ｂをアンテナ切替スイッチ１４の他方の固定接点１４ｂに接続し、このアンテナ切替スイッチ１４の可動接点１４ｃに得られる受信信号を２．４ＧＨｚ帯を通過するフィルタ回路５に供給する如くする。
【００５０】
本例においては、このアンテナ切替スイッチ１４の可動接点１４ｃを受信信号の信号レベルの大きい方の送受信アンテナ６ａ，６ｂに接続する如くする。その他は図１例同様に構成する。
【００５１】
斯る図４例においては、図１例同様の作用効果が得られると共に移動体通信に適用して好適である。
【００５２】
尚、本発明は、上述例に限ることなく、本発明の要旨を逸脱することなく、その他種々の構成が採り得ることは勿論である。
【００５３】
【発明の効果】
本発明において、受信時に、バイパススイッチをオフとし、受信用ローノイズアンプを動作状態とすれば、この受信用ローノイズアンプが従来に比し、より受信経路前段側に挿入されるので、受信系における総合雑音指数を改善することができる。
【図面の簡単な説明】
【図１】本発明無線通信装置の実施の形態の一例を示す構成図である。
【図２】本発明の実施の形態の他の例を示す構成図である。
【図３】本発明の実施の形態の他の例を示す構成図である。
【図４】本発明の実施の形態の他の例を示す構成図である。
【図５】従来の無線通信装置の例を示す構成図である。
【図６】従属接続回路の雑音指数を説明する図である。
【符号の説明】
１‥‥送受信信号処理部、２‥‥中央制御装置、３‥‥電力アンプ、４‥‥送受信切替スイッチ、５‥‥フィルタ回路、６，６ａ，６ｂ‥‥送受信アンテナ、１０‥‥バイパススイッチ、１１‥‥受信用ローノイズアンプ、１２‥‥並列回路、１３‥‥利得制御機能を有する受信用ローノイズアンプ、１４‥‥アンテナ切替スイッチ[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless communication apparatus suitable for use in a wireless local area network (LAN), a transceiver, a mobile communication device, and the like.
[0002]
[Prior art]
Conventionally, a wireless communication apparatus suitable for use in a wireless LAN, a transceiver, a mobile communication device or the like has been proposed as shown in FIG.
[0003]
In FIG. 5, reference numeral 1 denotes a transmission / reception signal processing unit. The transmission / reception signal processing unit 1 is configured according to, for example, an IEEE802.11b compliant standard, and forms a transmission signal in the 2.4 GHz band, for example. The received signal of 4 GHz is demodulated.
[0004]
The transmission / reception signal processing unit 1 is configured to be controlled by a central control unit (CPU) 2 composed of a microcomputer.
[0005]
For example, a 2.4 GHz transmission signal obtained by the transmission / reception signal processing unit 1 is supplied to the transmission side fixed contact 4a of the transmission / reception changeover switch 4 through the power amplifier 3 according to the control of the central control unit 2. The movable contact 4c of the transmission / reception selector switch 4 is connected to the transmission-side fixed contact 4a during transmission, and is connected to the reception-side fixed contact 4b during reception.
[0006]
The transmission signal obtained at the movable contact 4c of the transmission / reception changeover switch 4 is supplied to the transmission / reception antenna 6 for transmitting / receiving a 2.4 GHz band signal via the filter circuit 5 that passes the 2.4 GHz band transmission signal, This transmission signal is transmitted.
[0007]
In this case, in order to obtain a desired transmission power, the gain of the power amplifier 3 is determined in consideration of the characteristics of the transmission / reception antenna 6 and the power loss of the path to the transmission / reception antenna 6.
[0008]
Further, for example, a 2.4 GHz band received signal received by the transmitting / receiving antenna 6 is supplied to the movable contact 4 c of the transmission / reception selector switch 4 through the filter circuit 5 that passes the 2.4 GHz band received signal. A reception signal obtained at the reception-side fixed contact 4b of the switch 4 is supplied to the transmission / reception signal processing unit 1 via a reception low noise amplifier 11 constituted by a field effect transistor made of, for example, gallium arsenide.
[0009]
The transmission / reception signal processing unit 1 demodulates the 2.4 GHz band reception signal under the control of the central controller 2 to obtain a predetermined data signal, audio signal, video signal, and the like.
[0010]
In general, the noise figure of a circuit composed of a plurality of stages including an amplifier (shown in FIG. 6) is

It is known that
[0011]
5, the gain of the path to the transmission / reception antenna 6 is Gb, the noise figure is Fb, the gain of the filter circuit 5 is Gc, the noise figure is Fc, the gain of the transmission / reception selector switch 4 is Gd, and the noise figure is Fd. When the gain of the reception low noise amplifier 11 is Gf, the noise figure is Ff, the gain of the transmission / reception signal processing unit 1 is Gg, and the noise figure is Fg, the total noise figure F1 of this reception system is

It is.
[0012]
Here, since Gb, Gc, and Gd are the power loss (loss) of the line, Gb <1, Gc <1, Gd <1
It is.
From Gb · Fb = 1, Gc · Fc = 1, Gd · Fd = 1,

It is.
[0013]
Therefore,

It is.
[0014]
From this equation (1), by increasing the gain Gf of the reception low noise amplifier 11, the influence of the noise figure of the transmission / reception signal processing unit 1 connected in the subsequent stage is reduced, and the reception antenna 6 further receives the reception gain. By reducing the power loss up to the low noise amplifier 11, the noise figure Ff of the reception low noise amplifier 11 becomes dominant over the total noise figure F1 of the reception system.
[0015]
[Problems to be solved by the invention]
However, if the gain Gf of the reception low noise amplifier 11 is set to be large, the level of the reception signal input to the subsequent circuit such as the transmission / reception signal processing unit 1 is increased, the distortion characteristic is deteriorated, and the signal of the middle electric field and the strong electric field is stabilized. Inconvenient to receive.
[0016]
Further, the power loss in the path to the transmission / reception antenna 6, the filter circuit 5, and the transmission / reception selector switch 4 is caused by the path length and the element characteristics, and is a factor that degrades the reception characteristics. In order to improve this characteristic, expensive parts must be used, which has the disadvantage of increasing costs.
[0017]
The present invention has been made in view of this point, and an object thereof is to improve the overall noise figure in the receiving system.
[0018]
[Means for Solving the Problems]
The wireless communication device of the present invention supplies a transmission signal from the transmission / reception signal processing means to the transmission / reception antenna via the transmission / reception changeover switch and the filter circuit, and receives a reception signal from the transmission / reception antenna via the filter circuit and the transmission / reception changeover switch. In the wireless communication apparatus to be supplied to the transmission / reception signal processing means, a parallel circuit of a reception low noise amplifier and a bypass switch is inserted between the filter circuit and the transmission / reception changeover switch, and the transmission low noise amplifier is connected at the time of transmission. Inactive, this bypass switch is turned on, and at the time of signal reception, the signal level detection circuit of this transmission / reception signal processing means turns this bypass switch on and off based on the received signal level and deactivates this reception low noise amplifier, Monodea you like to have to work .
[0019]
According to the present invention, since the parallel circuit of the bypass filter and the reception low noise amplifier is inserted between the transmission / reception antenna and the transmission / reception selector switch, the bypass switch is turned on at the time of transmission, and the reception low noise is set. If the amplifier is deactivated, the same effect as before can be obtained, and at the time of reception, this bypass switch is turned off and the reception low noise amplifier is in the operating state. since inserted in the preceding stage of the receiving path can improve the overall noise factor in the reception system, also according further to the present invention, on the bypass switch based on the signal level received, this reception turns off The low-noise amplifier is not activated or operated, so it is not only large when the received signal level is small. It can be received successfully even when.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an example of an embodiment of the wireless communication apparatus of the present invention will be described with reference to FIG. In FIG. 1, parts corresponding to those in FIG.
[0021]
In the example of FIG. 1, the transmission / reception signal processing unit 1 is configured according to, for example, an IEEE 802.11b compliant standard, and forms a transmission signal in the 2.4 GHz band, for example, and demodulates a reception signal in the 2.4 GHz band, for example. It is what.
[0022]
The transmission / reception signal processing unit 1 and the like are controlled by a central control unit (CPU) 2 comprising a microcomputer.
[0023]
The transmission / reception signal processing unit 1 is controlled by the central controller 2 so that the transmission / reception signal processing unit 1 performs a predetermined operation, and controls a parallel circuit 12 of a bypass switch 10 and a reception low-noise amplifier 11 described later. To do. The low noise amplifier 11 for reception is composed of a field effect transistor using gallium arsenide as a raw material, for example.
[0024]
In this control, when the bypass switch 10 is turned on, the power of the reception low noise amplifier 11 is turned off to make the reception low noise amplifier 11 inoperable. When the bypass switch 10 is turned off, the low noise amplifier 11 is turned off. The operation state is set.
[0025]
The transmission / reception signal processing unit 1 detects the signal level of the received signal.
[0026]
For example, a 2.4 GHz band transmission signal obtained by the transmission / reception signal processing unit 1 is supplied to the transmission side fixed contact 4 a of the transmission / reception changeover switch 4 through the power amplifier 3 under the control of the central control device 2. The movable contact 4c of the transmission / reception selector switch 4 is connected to the transmission-side fixed contact 4a at the time of transmission and is connected to the reception-side fixed contact 4b at the time of reception.
[0027]
In this example, the transmission signal obtained at the movable contact 4c of the transmission / reception selector switch 4 is a filter that passes the bypass switch 10 and the bypass switch 10 of the parallel circuit 12 of the reception low noise amplifier 11 and the transmission signal of the 2.4 GHz band. A 2.4 GHz band signal is supplied to the transmitting / receiving antenna 6 via the circuit 5 and transmitted, and the transmission signal is transmitted.
[0028]
In this case, the power of the reception low noise amplifier 11 of the parallel circuit 12 is turned off by a command from the transmission / reception signal processing unit 1, and the reception low noise amplifier 11 is deactivated.
In this case, in order to obtain a desired transmission power, the gain of the power amplifier 3 is determined in consideration of the characteristics of the transmission / reception antenna 6, the path to the transmission antenna 6, and the power loss of the bypass switch 10.
[0029]
Further, the bypass switch 10 is desired to have low power loss and low distortion characteristics in order to maintain transmission characteristics, but power loss is not a problem as long as it is within the amplification capability of the power amplifier 3.
[0030]
For example, a reception signal in the 2.4 GHz band received by the transmission / reception antenna 6 is received by the parallel circuit 12 of the filter circuit 5 and the bypass switch 10 and the reception low noise amplifier 11 that pass the reception signal in the 2.4 GHz band. The signal is supplied to the movable contact 4 c of the transmission / reception selector switch 4 through a series circuit with the low noise amplifier 11.
[0031]
When receiving this reception signal, the bypass switch 10 is turned off and the reception low-noise amplifier 11 is in an operating state. A reception signal obtained at the movable contact 4c of the transmission / reception selector switch 4 is supplied to the transmission / reception signal processing unit 1 via the reception side fixed contact 4b.
[0032]
The transmission / reception signal processing unit 1 detects the signal level of the 2.4 GHz band received signal and demodulates the received signal to obtain a predetermined data signal, audio signal, and video signal.
[0033]
In this case, the gain of the path to the transmission / reception antenna 6 is Gb, the noise figure is Fb, the gain of the filter circuit 5 is Gc, the noise figure is Fc, the gain of the reception low noise amplifier 11 is Gf, and the noise figure is Ff, When the gain of the transmission / reception selector switch 4 is Gd, the noise figure is Fd, the gain of the transmission / reception signal processing unit 1 is Gg, and the noise figure is Fg, the total noise figure F2 of this reception system is

It is.
[0034]
Here, since Gb, Gc, and Gd are the power loss (loss) of the line, Gb <1, Gc <1, Gd <1
It is.
From Gb · Fb = 1, Gc · Fc = 1, Gd · Fd = 1,

It is.
[0035]
Therefore,

It is.
[0036]
From this formula (2) and formula (1)

It is. However, Fd ≧ 1, Ff ≧ 1, Fg ≧ 1, Gf ≧ 1.
[0037]
From this equation (3), it can be confirmed that the overall noise figure F2 of the receiving system of this example as shown in FIG. 1 is improved from the total noise figure F1 of the conventional receiving system as shown in FIG.
[0038]
In the example of FIG. 1, when the movable contact 4c of the transmission / reception selector switch 4 is connected to the reception-side fixed contact 4b to be in a reception state, when a reception signal having a high signal level of a medium electric field or a strong electric field is received, In response to a command from the central controller 2 of the processing unit 1, the bypass switch 10 is turned on and the reception low noise amplifier 11 is deactivated. Therefore, in this example, the gain Gf of the reception low noise amplifier 11 can be increased without considering the distortion characteristics of the subsequent circuit such as the transmission / reception signal processing unit 1.
[0039]
Therefore, according to this example, the noise characteristic at the time of reception can be improved as compared with the conventional case, and a stable reception operation can be performed regardless of the strength of the electric field strength. That is, according to this example, it is possible to easily and inexpensively realize both the extension of the communication distance and the stable reception operation during the short-range communication.
[0040]
2, 3 and 4 show other examples of the embodiment of the present invention. 2, 3 and 4, in FIG. 2, FIG. 3 and FIG. 4, parts corresponding to those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0041]
FIG. 2 shows an example in which the reception low noise amplifier 11 is a reception low noise amplifier 13 having a gain control function in the example of FIG. 1, and the reception G / F signal processor 1 obtains the gain Gf of the reception low noise amplifier 13 during reception. It is made variable according to the signal level of the signal.
[0042]
For example, when the signal level of the reception signal in the weak electric field is small, the gain Gf of the reception low noise amplifier 13 is set to a large gain, and when the signal level of the reception signal in the medium electric field is relatively high, the reception low noise amplifier 13 When the gain Gf is a small gain and the signal level of the reception signal in a strong electric field is high, the bypass switch 10 is turned on and the reception low noise amplifier 13 is deactivated. The rest of the configuration is the same as in FIG.
[0043]
According to the example of FIG. 2, the same operation effect as that of the example of FIG. 1 can be obtained, and a reception signal having a constant signal level can be supplied to the transmission / reception signal processing unit 1 and the subsequent circuit, thereby achieving more stable reception. You can get action.
[0044]
In the example of FIG. 3, the parallel circuit 12 of the bypass switch 10 and the reception low noise amplifier 11 is inserted between the transmission / reception antenna 6 and the filter circuit 5 in the example of FIG. .
[0045]
In the example of FIG. 3 as well, the same operational effects as in the example of FIG. 1 can be obtained, and the reception low noise amplifier 11 is inserted on the upstream side of the reception path from the example of FIG. Can also be improved.
[0046]
The gain to the transmission / reception antenna 6 is Gb, the noise figure is Fb, the gain of the reception low noise amplifier 11 is Gf, the noise figure is Ff, the gain of the filter circuit 5 is Gc, the noise figure is Fc, and the transmission / reception changeover switch When the gain of 4 is Gd, the noise figure is Fd, the gain of the transmission / reception signal processing unit 1 is Gg, and the noise figure is Fg, the total noise figure F3 of this receiving system is the same as F1 and F2.

It becomes.
[0047]
From this formula (4) and formula (2)

It is. However, Fc ≧ 1, Fd ≧ 1, Ff ≧ 1, Fg ≧ 1, Gf ≧ 1.
[0048]
From this equation (5), it can be confirmed that the overall noise figure F3 of the receiving system of this example as shown in FIG. 3 is improved from the total noise figure F2 of the receiving system of this example as shown in FIG.
[0049]
In the example of FIG. 4, the transmission / reception antenna 6 of FIG. 1 has a diversity antenna configuration. In the example of FIG. 4, two transmission / reception antennas 6 a and 6 b are provided, and one transmission / reception antenna 6 a is connected to one of the antenna changeover switches 14. And the other transmitting / receiving antenna 6b is connected to the other fixed contact 14b of the antenna changeover switch 14, and the reception signal obtained at the movable contact 14c of the antenna changeover switch 14 passes through the 2.4 GHz band. The filter circuit 5 is supplied.
[0050]
In this example, the movable contact 14c of the antenna selector switch 14 is connected to the transmission / reception antennas 6a and 6b having the larger signal level of the reception signal. The rest of the configuration is the same as in FIG.
[0051]
In the example of FIG. 4, the same operational effects as in the example of FIG. 1 can be obtained, and it is suitable for application to mobile communication.
[0052]
Of course, the present invention is not limited to the above-described examples, and various other configurations can be adopted without departing from the gist of the present invention.
[0053]
【The invention's effect】
In the present invention, at the time of reception, if the bypass switch is turned off and the reception low-noise amplifier is in an operating state, this reception low-noise amplifier is inserted on the upstream side of the reception path more than in the prior art. The noise figure can be improved.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an example of an embodiment of a wireless communication apparatus of the present invention.
FIG. 2 is a configuration diagram illustrating another example of the embodiment of the present invention.
FIG. 3 is a block diagram showing another example of the embodiment of the present invention.
FIG. 4 is a configuration diagram showing another example of the embodiment of the present invention.
FIG. 5 is a configuration diagram illustrating an example of a conventional wireless communication apparatus.
FIG. 6 is a diagram illustrating a noise figure of a subordinate connection circuit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Transmission / reception signal processing part, 2 ... Central controller, 3 ... Power amplifier, 4 ... Transmission / reception changeover switch, 5 ... Filter circuit, 6, 6a, 6b ... Transmission / reception antenna, 10 ... Bypass switch, DESCRIPTION OF SYMBOLS 11 ... Low noise amplifier for reception, 12 ... Parallel circuit, 13 ... Low noise amplifier for reception having gain control function, 14 ... Antenna changeover switch

Claims (4)

A transmission signal from the transmission / reception signal processing means is supplied to the transmission / reception antenna via a transmission / reception changeover switch and a filter circuit, and a reception signal from the transmission / reception antenna is supplied to the transmission / reception signal processing means via the filter circuit and the transmission / reception changeover switch. In the wireless communication device designed to
Insert a parallel circuit of a low noise amplifier for reception and a bypass switch between the filter circuit and the transmission / reception selector switch,
Not operating the receiving credit low-noise amplifier, the bypass switch is turned on at the time of transmission,
The signal level detection circuit of the transmission / reception signal processing means at the time of signal reception turns on and off the bypass switch based on the received signal level and disables and operates the low-noise amplifier for reception. Wireless communication device. A transmission signal from the transmission / reception signal processing means is supplied to the transmission / reception antenna via a transmission / reception changeover switch and a filter circuit, and a reception signal from the transmission / reception antenna is supplied to the transmission / reception signal processing means via the filter circuit and the transmission / reception changeover switch. A parallel circuit of a low-noise amplifier for reception and a bypass switch is inserted between the filter circuit and the transmission / reception selector switch, the low-noise amplifier for reception is deactivated at the time of transmission, the bypass switch is turned on, and at the time of reception In the wireless communication device that operates the low noise amplifier for reception and turns off the bypass switch,
The radio communication apparatus according to claim 1, wherein the low-noise amplifier for reception has a variable gain control function. A transmission signal from the transmission / reception signal processing means is supplied to the transmission / reception antenna via a transmission / reception changeover switch and a filter circuit, and a reception signal from the transmission / reception antenna is supplied to the transmission / reception signal processing means via the filter circuit and the transmission / reception changeover switch. A parallel circuit of a low-noise amplifier for reception and a bypass switch is inserted between the filter circuit and the transmission / reception selector switch, the low-noise amplifier for reception is deactivated at the time of transmission, the bypass switch is turned on, and at the time of reception In the wireless communication device that operates the low noise amplifier for reception and turns off the bypass switch,
The radio communication apparatus according to claim 1, wherein the transmission / reception antenna includes a plurality of transmission / reception antennas, and is switched to a transmission / reception antenna having a high reception signal level during reception. A transmission signal from the transmission / reception signal processing means is supplied to the transmission / reception antenna via a transmission / reception changeover switch and a filter circuit, and a reception signal from the transmission / reception antenna is supplied to the transmission / reception signal processing means via the filter circuit and the transmission / reception changeover switch. In the wireless communication device designed to
Insert a parallel circuit of a low noise amplifier for reception and a bypass switch between the transmission / reception antenna and the filter circuit,
At the time of transmission, the low noise amplifier for reception is disabled, the bypass switch is turned on,
The signal level detection circuit of the transmission / reception signal processing means at the time of signal reception turns on and off the bypass switch based on the received signal level and disables and operates the low-noise amplifier for reception. Wireless communication device.

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