JP3645052B2 - Receiver - Google Patents

Description

【００４２】
このように、この受信装置では、タイミング選択制御部37の受信スロット管理部304が、それぞれのスロットの次サブフレームが受信不要であるかどうかを判断し、受信不要である場合に、そのダイバーシチタイミングをＢタイミング（ｓｌｏｔ（ｎ）の直前の位置）に設定することにより、ダイバーシチ効果を高めている。
【００４３】
（第２の実施の形態）
第２の実施形態の受信装置は、パケットチャネルのスロット使用数により、次スロット受信のためのダイバーシチタイミングを指示することができる。
【００４４】
この受信装置は、図４に示すように、タイミング選択制御部57に、ＲＴ（無線管理）制御を行なう無線管理部505を具備している。この無線管理部505は、基地局から通知されるパケットチャネルのスロット使用数を受信スロット管理部504へ通知する。その他の構成は、第１の実施形態（図１）と変わりがない。
【００４５】
この受信装置の受信スロット管理部504は、無線管理部505、アイドルスロット判定部502及び自局／他局判定部503からの情報により、次スロットが受信不要かどうかを判定して、次スロットのダイバーシチタイミングを選択し、アンテナ切替タイミング発生部58に指示を出す。
【００４６】
例えば、図５のパタン▲１▼に示すように、ｓｌｏｔ０とｓｌｏｔ１との２スロットがパケットチャネルとして使用されている場合には、受信スロット管理部504は、基地局の下り信号で通知されるその構造を無線管理部505を通じて知ることによりｓｌｏｔ２が固定的に受信不要であることを識別する。
【００４７】
このとき、受信スロット管理部504は、ｓｌｏｔ２の受信タイミングで、ダイバーシチタイミングとして常にＢ（ｓｌｏｔ（ｎ）の直前の位置）タイミングを取るようにアンテナ切替タイミング発生部58に対して指示を出す。
【００４８】
また、パタン▲２▼のように、パケットチャネルとして使用されるスロット数が１の場合には、ｓｌｏｔ１、ｓｌｏｔ２が常に受信不要となる。このときには、受信スロット管理部504は、ｓｌｏｔ１の受信タイミングでは、ダイバーシチタイミングとしてＡ、Ｂいずれのタイミングをも許容し（不定）、ｓｌｏｔ２の受信タイミングでは、ダイバーシチタイミングとしてＢタイミングを取るように、アンテナ切替タイミング発生部58に対して指示を出す。このパタン▲２▼では、これまでの音声移動機のような動作となる。
【００４９】
なお、パケットチャネルのスロットと非パケットチャネルのスロットとの組み合わせは、このパタン▲１▼、▲２▼だけに限らず、その他の組み合わせについても同様に実施可能である。
【００５０】
このように、この実施形態の受信装置では、タイミング選択制御部57に設けた無線管理部505からの情報によって、パケットチャネルに使用されないスロットが分かる。この未使用スロットは常に受信不要となるから、次スロット受信のためのダイバーシチタイミングを、常に次スロットの受信直前に設定することができ、それによって、安定した高いダイバーシチ効果を実現することができる。
【００５１】
（第３の実施の形態）
第３の実施形態の受信装置は、同時送受信を行なう際に、ダイバーシチタイミングを送信信号の送出期間と重ならないように設定する。
【００５２】
この受信装置では、同時送受信を行なう場合に、図１に示す構成のタイミング選択制御部37からアンテナ切替タイミング発生部38に対して、その旨が伝えられる。
【００５３】
ＰＤＣシステムでは、同時送受信の場合に、受信スロットの受信期間と送信スロットの送信期間とは、図６に示す関係にある。
【００５４】
このとき、アンテナ切替タイミング発生部38は、タイミング選択制御部37から同期ワード位置でのダイバーシチが指示された場合には、図６に示すように、Ａにおけるダイバーシチタイミングを設定し、また、次スロットの直前でのダイバーシチが指示された場合には、Ｂ１に示す、次スロットの直前ではあるが、送信タイミングに掛からない（送信スロットの送信期間に重ならない）時点でのダイバーシチタイミングを設定する。
【００５５】
このように、送信期間を外してダイバーシチタイミングを設定することにより、送信による受信系への感度抑圧の影響を受けずにダイバーシチ処理を行なうことができ、効果的なダイバーシチの実行が可能となる。
【００５６】
（第４の実施の形態）
第４の実施形態の受信装置は、同時送受信の場合であっても、送信期間に実際に送信が行なわれるときだけ、ダイバーシチタイミングを送信期間から外すように設定する。
【００５７】
この受信装置は、図７に示すように、タイミング選択制御部87に、送信データを発生する送信制御部806と、チャネルコーダ、スロット構成部等で構成され、送信データをスロットフォーマットに変換するバースト多重部805とを具備している。送信制御部806は、発生した送信データをバースト多重部805に出力するときに、送信が行なわれることを知らせる通知信号をアンテナ切替タイミング発生部88に出力する。その他の構成は第１の実施形態（図１）と変わりがない。
【００５８】
この受信装置の動作を図８及び図９を用いて説明する。
【００５９】
この受信装置は、図８に示す受信スロットをアンテナスイッチ34が選択したアンテナ81または82で受信する。受信信号は受信回路86でベースバンド信号に変換され、タイミング選択制御部87のバースト分離部801で復号される。アイドルスロット判定部802は、復号データからアイドルスロットを見つけて受信スロット管理部804へ伝え、また、自局／他局判定部803は、復号データから自局スロットと他局スロットとを識別して受信スロット管理部804へ伝える。
【００６０】
受信スロット管理部804は、アイドルスロット判定部802及び自局／他局判定部803からの情報を基に、受信スロットの受信の必要性を判断し、現スロットが受信不要な場合にハイ（Ｈ）レベルとなり、現スロットが受信必要な場合にロウ（Ｌ）レベルとなるアンテナ切替選択信号▲２▼をアンテナ切替タイミング発生部88に出力する。
【００６１】
また、同時送受信を行なう場合に、送信制御部806は送信データを発生する。この送信データは、バースト多重部805でスロットフォーマットに変換され、送信回路85で送信ＲＦ信号に変調され、アンテナ共用器83を経て、アンテナ81から送信される。この送信スロットの送信タイミングを図８では、網掛けで示している。
【００６２】
送信制御部806は、送信データの出力に合わせて、アンテナ切替タイミング発生部88に対し、送信を知らせる送信スロット通知信号▲１▼を出力する。この送信スロット通知信号▲１▼は、次の送信スロットのタイミングで送信を行なうときはハイ（Ｈ）レベルとなり、次の送信スロットのタイミングで送信を行なわないときはロウ（Ｌ）レベルとなることによって送信の有無を伝える。
【００６３】
このとき、アンテナ切替タイミング発生部88は、図９に示すように、ダイバーシチタイミングを設定する。即ち、
受信スロット（ｎ−１）が受信必要なスロットであるときは、
Ａ：ｓｌｏｔ（ｎ−１）の同期ワード位置
受信スロット（ｎ−１）が受信不要なスロットであり、次の送信スロットのタイミングで送信が行なわれるときは、
Ｂ１：ｓｌｏｔ（ｎ）の直前であるが、送信タイミングに掛からないようにさらに早いタイミング
受信スロット（ｎ−１）が受信不要なスロットであり、次の送信スロットのタイミングで送信が行なわれないときは、
Ｂ２：送信スロットの送信期間に重なってしまうがｓｌｏｔ（ｎ）の直前であるタイミング
をそれぞれダイバーシチタイミングとして設定する。
【００６４】
図８の場合では、受信スロットａについては、送信制御部806から、次スロットタイミングで送信スロットがあることを示すＨの送信スロット通知信号▲１▼が出力され、受信スロット管理部804から、現スロットが受信不要であることを示すＨのアンテナ切替選択信号▲２▼が出力されているので、アンテナ切替タイミング発生部88は、現スロットのダイバーシチタイミングとして、Ｂ１のタイミングを設定するアンテナ切替信号▲３▼を発生する。
【００６５】
また、受信スロットｂ及びｃについては、送信制御部806から、次スロットタイミングで送信スロットなしを示すＬの送信スロット通知信号▲１▼が出力され、受信スロット管理部804から、現スロットが受信不要であることを示すＨのアンテナ切替選択信号▲２▼が出力されているので、アンテナ切替タイミング発生部88は、現スロットのダイバーシチタイミングとして、Ｂ２のタイミングを設定するアンテナ切替信号▲３▼を発生する。
【００６６】
また、受信スロットｄについては、送信制御部806から、次スロットタイミングで送信スロットありを示すＨの送信スロット通知信号▲１▼が出力され、受信スロット管理部804から、現スロットが受信必要であることを示すＬのアンテナ切替選択信号▲２▼が出力されているので、アンテナ切替タイミング発生部88は、現スロットのダイバーシチタイミングとして、Ａのタイミングを設定するアンテナ切替信号▲３▼を発生する。
【００６７】
また、受信スロットｅについては、送信制御部806から、前スロットに引き続いて次スロットタイミングでも送信スロットありを示すＨの送信スロット通知信号▲１▼が出力され、受信スロット管理部804からは、現スロットが受信不要であることを示すＨのアンテナ切替選択信号▲２▼が出力されている。この場合、現スロットが受信不要であるから、ダイバーシチタイミングとしてＢ１またはＢ２を選択するが、Ｂ１、Ｂ２のいずれを選択しても送信中のダイバーシチ動作となる。このときには、アンテナ切替タイミング発生部88は、次スロット直前のＢ２のタイミングでアンテナ切替を行なわせるアンテナ切替信号▲３▼を発生する。
【００６８】
また、受信スロットｆについては受信スロットｂと同じ動作であり、受信スロットｇ、ｈについては、それぞれ受信スロットａ、ｂと同じ動作となる。
【００６９】
以上の動作を纏めると、表２のようになる。アンテナ切替ダイバーシチ発生部88は、表２の論理でアンテナ切替タイミングを発生する。
【表２】

【００７０】
このように、実際に送信する送信スロットに対してだけ、受信系のアンテナ切替タイミングが重ならないように設定することにより、送信による受信系への感度抑圧の影響を排除することができ、ダイバーシチ効果を保持することができる。
【００７１】
このように、この実施形態の受信装置では、現スロットが受信不要である場合のアンテナ切替タイミングとして、送信が無い場合には次スロット受信の直前を、また、送信がある場合には送信に掛からないように、ダイナミックにダイバーシチタイミングを選択する。それにより、非送信時には効果的なダイバーシチを行なうことができ、また、送信時には、送信による感度抑圧の影響を回避したダイバーシチ処理が可能となる。
【００７２】
（第５の実施の形態）
第５の実施形態の受信装置は、音声通信モードの場合に、それに応じたダイバーシチタイミングを設定する。
【００７３】
この受信装置では、図１０に示すように、タイミング選択制御部107からアンテナ切替タイミング発生部108へ動作モードが通知される。
【００７４】
アンテナ切替タイミング発生部108は、タイミング選択制御部107から音声通信の動作モードが通知された場合に、図１１に示すように、アンテナ切替タイミングを受信スロットの直前に固定する。
【００７５】
これは、音声移動機では、通話中／待ち受け中によらず、１サブフレーム中で１スロットだけを固定的に使用して、送受信が行なわれるためである。図１１では、送受信に使用するスロットを網掛けで示している。
【００７６】
このように、この実施形態の受信装置では、パケット通信でない音声通信モードを選択した場合に、それに応じた固定的なダイバーシチタイミングへの切り換えが行なわれる。
【００７７】
【発明の効果】
以上の説明から明らかなように、本発明の受信装置は、ＰＤＣ移動機におけるダイバーシチ効果を高めることができる。パケットチャネルでスロットを連続的に受信する場合でも、適切なダイバーシチタイミングを設定することができ、また、受信に並行して送信スロットを送信する場合でも、送信による感度抑圧の影響を避けてダイバーシチ処理を行なうことができ、効果的なダイバーシチを実現することができる。
【図面の簡単な説明】
【図１】本発明の第１の実施形態における受信装置の構成を示すブロック図、
【図２】第１の実施形態の受信装置における動作説明用のダイバーシチタイミング図、
【図３】第１の実施形態の受信装置におけるダイバーシチタイミングを示す図、
【図４】本発明の第２の実施形態における受信装置の構成を示すブロック図、
【図５】第２の実施形態の受信装置におけるダイバーシチタイミングを示す図、
【図６】本発明の第３の実施形態における受信装置でのダイバーシチタイミングを示す図、
【図７】本発明の第４の実施形態における受信装置の構成を示すブロック図、
【図８】第４の実施形態の受信装置におけるダイバーシチタイミングを示す図、
【図９】第４の実施形態の受信装置における動作説明用のダイバーシチタイミング図、
【図１０】本発明の第５の実施形態における受信装置の構成を示すブロック図、
【図１１】第５の実施形態の受信装置におけるダイバーシチタイミングを示す図、
【図１２】従来の受信装置におけるダイバーシチ構成を示すブロック図である。
【符号の説明】
31、51、81、101 送受信共用アンテナ
32、52、82、102 ダイバーシチ用受信専用アンテナ
33、53、83、103 アンテナ共用器
34、54、84、104 アンテナスイッチ
35、55、85、105 送信回路
36、56、86、106 受信回路
37、57、87、107 タイミング選択制御部
38、58、88、108 アンテナ切替タイミング発生部
301、501、801 バースト分離部
302、502、802 アイドルスロット判定部
303、503、803 自局／他局判定部
304、504、804 受信スロット管理部
505 無線管理部
805 バースト多重部
806 送信制御部
121、122 受信アンテナ
123 アンテナ切替器
124 受信レベル検出器
125 アンテナ制御器
126 アンテナ制御信号
127 受信機[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a receiving apparatus used for a mobile device of a PDC (personal digital cellular) system, and particularly to improve a diversity function.
[0002]
[Prior art]
Diversity selects the antenna with the highest received wave level from multiple antennas to deal with fluctuations in the received level due to fading, or receives the received waves from multiple antennas at the reception level at each antenna. The weighting is performed in accordance with the combination. In the diversity method, the received wave is selected before the detector, and the received wave from the selected antenna is detected by a single detector, and the received wave of multiple antennas is detected by multiple detectors. There is a post-detection selection method in which an optimum received signal is selected from the received signals detected by the detector, and each received signal is synthesized. The post-detection selection method requires a plurality of reception sequences from the antenna to the detector, which has the disadvantage of complicating the receiving device. For mobile communication mobile devices, it is necessary to reduce the size and weight before detecting. The selection method is more appropriate.
[0003]
2. Description of the Related Art Conventionally, as a mobile device of a PDC system that performs diversity in the pre-detection selection method, a device described in Japanese Patent Laid-Open No. 5-75506 is known. As shown in FIG. 12, the mobile device receiving apparatus includes a plurality of receiving antennas 121 and 122, an antenna switch 123 that selects a receiving antenna, and a receiver that demodulates a received signal received by the selected antenna. 127, a reception level detector 124 for detecting the reception level of the received wave received by each antenna, and an antenna controller 125 for outputting an antenna control signal for selecting an antenna to the antenna switch 123. .
[0004]
In this receiving apparatus, under the PDC system adopting the TDMA system, immediately before receiving the slot of the local station, the receiving antenna is switched by the antenna switch 123, and the receiving level at each receiving antenna 121, 122 is changed to the receiving level detector. Detect at 124. The detection result of the reception level detector 124 is transmitted to the antenna controller 125, and the antenna controller 125 outputs an antenna control signal for selecting the antenna having the highest reception level to the antenna switch 123 based on the detection result. . The antenna switch 123 selects an antenna according to the control signal, and the local station slot is received by the selected antenna.
[0005]
This operation is repeated every time a local slot is received.
[0006]
In this receiving apparatus, when the control signal or the frame synchronization signal is arranged in the middle of the slot, the antennas 121, 122 are provided before the slot reception and during the reception period of the control signal or the frame synchronization signal. There is also a method in which the reception level is detected and the antenna having the highest reception level is selected based on the detection result. In other words, the reception level detector 124 monitors the reception level during reception of the local station slot, and when the reception level falls below a predetermined value, notifies the antenna controller 125 of it. In response to this, the antenna controller 125 instructs the antenna switch 123 to switch the antenna to the other antenna, and the antenna is switched during reception of the local station slot accordingly.
[0007]
[Problems to be solved by the invention]
However, the diversity system in the conventional mobile device has the following problems when receiving a slot continuously using a multi-slot operation, that is, using a plurality of slots.
[0008]
At this time, basically, the receiving operation is required for all the slots, and therefore the antenna switching timing is lost. For this reason, the conventional PDC mobile station adopts post-detection selection diversity despite the complexity of the receiver configuration.
[0009]
An object of the present invention is to solve such a conventional problem and to provide a receiver for a PDC mobile device capable of efficient diversity using a pre-detection selection method even in a multi-slot operation.
[0010]
[Means for Solving the Problems]
Therefore, in the receiving apparatus of the present invention, the antenna switching means for switching the antenna and the timing for selecting either the synchronization word position of the slot or the slot before the receiving slot as the antenna switching diversity timing according to the configuration of the receiving slot A selection control means and an antenna switching timing generation means for starting the antenna switching operation of the antenna switching means by measuring the timing based on an instruction from the timing selection control means are provided.
[0011]
In this apparatus, the diversity effect can be enhanced by changing the diversity timing in accordance with the configuration of the reception slot.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
  The invention according to claim 1 of the present invention is an antenna switching means for switching antennas in a receiving apparatus for a PDC mobile device that performs antenna switching diversity,Based on the information received from the base station, the used slot that the local station uses as the packet channel and the unused slot that the local station does not use as the packet channel are identified,As antenna switching diversity timing,In the reception timing of the slot used,Slot sync word positionAnd at the reception timing of the unused slot immediately before the used slot,In front of the slotSelect the timing of the reception of other unused slots.Timing selection control means for selecting any one of the above and an antenna switching timing generation means for starting the antenna switching operation of the antenna switching means by measuring the timing based on an instruction from the timing selection control means. ,The diversity effect can be enhanced by setting the diversity timing immediately before the next reception slot at the reception timing of the slot that is not always required to be received, which is determined from the number of used slots.
[0015]
  Claim2The invention described inIn a receiving apparatus for a PDC mobile device that performs antenna switching diversity, the antenna switching means for switching antennas and the timing of antenna switching diversity, depending on the configuration of the reception slot, the synchronization word position of the slot or the slot before the next slot to be received Timing selection control means for selecting either, and antenna switching timing generation means for starting the antenna switching operation of the antenna switching means based on an instruction from the timing selection control means,Antenna switching timing generation meansIsWhen performing simultaneous transmission and reception,When the timing of the antenna switching diversity from the timing selection control means is designated before the next slot to be received,When there is a transmission during the transmission period, the antenna switching operation of the antenna switching means is activated so that the antenna switching timing does not overlap with the transmission period of the transmission slot. The timing of switchingnextStart the antenna switching operation of the antenna switching means so that it is immediately before the receiving slot.LikeTherefore, effective diversity can be performed during non-transmission, and diversity processing can be performed during transmission without being affected by sensitivity suppression due to transmission.
[0017]
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the embodiment, a packet communication mobile device will be described as an example of the multi-slot operation.
[0018]
(First embodiment)
As shown in FIG. 1, the receiving apparatus according to the first embodiment includes a transmission / reception shared antenna (RX1 / TX) 31, a diversity reception dedicated antenna (RX2) 32, and an antenna duplexer that separates transmission / reception RF signals. 33, an antenna switch 34 for selecting a reception signal from the antenna (RX1 / TX) 31 or the antenna (RX2) 32, a modulator, a power amplifier, and the like, and a transmission circuit 35 for generating a transmission RF signal from the baseband signal And a reception circuit 36 that converts a reception signal selected by the antenna switch 34 into a baseband signal, a timing selection control unit 37 that selects diversity timing, and a logic circuit. An antenna that generates a diversity timing signal at a timing instructed by the timing selection control unit 37 to the antenna switch 34. And a Na switching timing generating unit 38.
[0019]
The timing selection control unit 37 includes a descrambler, a deinterleaver, a channel decoder, and the like. A burst separation unit 301 that decodes and decodes downlink demodulated data, and a reception slot is idle from the layer 1 configuration information (W) of the decoded data. An idle slot determination unit 302 that determines whether the slot is (vacant), a local station / other station determination unit 303 that determines whether the slot is addressed to the local station or another station from the layer 2 header of the decoded data, an idle A reception slot management unit 304 that determines whether a slot is a reception unnecessary slot based on information from the slot determination unit 302 and the own station / other station determination unit 303, selects a diversity timing, and transmits the diversity timing to the antenna switching timing generation unit 38 It is equipped with.
[0020]
In this receiving apparatus, the received signal selected by the antenna switch 34 is converted into a baseband signal by the receiving circuit 36 and input to the timing selection control unit 37.
[0021]
Burst separation section 301 decodes the baseband signal, idle slot determination section 302 finds an idle slot from the decoded data and transmits it to reception slot management section 304, and the own station / other station determination section 303 also decodes the decoded data. The local station slot and the other station slot are identified and transmitted to the reception slot management unit 304.
[0022]
The reception slot management unit 304 determines the reception necessity of the slot based on information received from the idle slot determination unit 302 and the own station / other station determination unit 303, and selects a diversity timing based on the determination. This is transmitted to the switching timing generation unit 38. The antenna switching timing generation unit 38 outputs a diversity timing signal at a designated timing to activate the antenna switch 34, and causes the antenna switch 34 to perform antenna switching.
[0023]
As shown in FIG. 2, the antenna switching timing generation unit 38 generates a diversity timing signal at the next timing A or B according to the control of the timing selection control unit 37 when receiving slot (n).
[0024]
A: synchronization word position of slot (n-1)
B: Position immediately before slot (n)
In this case, if the diversity timing is A, diversity can be performed without destroying the data in slot (n−1). On the other hand, if the diversity timing is B, the data at the B position of the slot (n−1) may be destroyed by noise during antenna switching. However, considering the diversity gain related to slot n, it is preferable to perform diversity at B timing immediately before reception slot n rather than A timing.
[0025]
Therefore, in principle, the reception slot management unit 304 of the timing selection control unit 37 controls the antenna switching timing generation unit 38 to perform diversity at the timing B when the slot (n−1) does not need to be received. When it is necessary to receive the slot (n−1) or when it is not clear whether the slot (n−1) is unnecessary to receive, the antenna switching timing generation unit 38 is controlled to perform diversity at the timing A. The reception slot management unit 304 determines whether the slot does not need to be received based on information from the idle slot determination unit 302 and the own station / other station determination unit 303.
[0026]
However, in order to maintain the frame synchronization, it is necessary to control so as not to perform the diversity at the timing A or to prevent the diversity from being performed at the timing of either A or B. In some cases.
[0027]
Thus, by generating the timing B in addition to the timing A without fixing the diversity timing to A, a diversity effect with a large gain can be realized.
[0028]
The reception slot management unit 304 determines the necessity of receiving a slot from the information of the idle slot determination unit 302 and the own station / other station determination unit 303, for example, as follows, and controls diversity timing.
[0029]
First, the case where an idle slot is included in the received signal will be described with reference to FIG.
[0030]
The reception slot data input from the reception circuit 36 to the timing selection control unit 37 is decoded by the burst separation unit 301, and then the idle slot determination unit 302 determines whether it is an idle slot. Assume that slot1 is an idle slot. The following description will be made by paying attention only to slot1.
[0031]
In the case of the reception pattern (1), when the idle slot determination unit 302 identifies that it is an idle slot from the layer 1 configuration information (W) of the data a of slot 1, it is embedded in the layer 1 configuration information (W). The number of continued idle slots (the number of remaining idle slots to be continued in the future) is extracted and notified to the reception slot management unit 304.
[0032]
The reception slot management unit 304 determines whether or not reception of the slot 1 of the next subframe is unnecessary based on the number of continuous idle slots. That is, if the continuation is not 0 but 1 or more, it is determined that slot 1 of the next subframe is not required to be received. Then, the antenna switching timing generator 38 is instructed to set the diversity timing in slot 1 (data b) of the next subframe to be the B timing.
[0033]
Similarly, when the idle slot determination unit 302 notifies the reception slot management unit 304 of the number of continuous idle slots “1” extracted from the data b, the reception slot management unit 304 determines that the number of continuous idle slots is not 0. The slot 1 of the subframe is determined not to be received, and the antenna switching timing generation unit 38 is instructed to set the diversity timing in the slot 1 (data c) of the next subframe as the B timing.
[0034]
Next, when the idle slot determination unit 302 notifies the reception slot management unit 304 of the number of continuous idle slots “0” extracted from the data c, the reception slot management unit 304 determines the diversity timing in slot 1 (data d) of the next subframe. Is set to A timing to the antenna switching timing generation unit 38. This is because whether or not the data d of the next subframe is data that does not need to be received is not known unless it is received and must be received anyway.
[0035]
Even when the diversity timing is set to A timing and reception is started as in the reception pattern (2), the slot at that time is the idle slot 1 (data c) having the number of continuous idle slots “0”. Designates the diversity timing of slot 1 (data d) of the next subframe as the A timing.
[0036]
Thus, it is necessary to determine the diversity timing for each slot.
[0037]
Next, a case where the received signal includes a slot addressed to the own station and a slot addressed to another station will be described.
[0038]
The own station / other station determination unit 303 determines whether the slot is addressed to the own station or another station from the layer 2 header of the slot data decoded by the burst separation unit 301, The reception slot management unit 304 is notified of the distinction to other stations and the number of continuation slots extracted from the data.
[0039]
When the slot is a slot addressed to another station, the reception slot management unit 304 determines that the slot of the next subframe is not required if the number of continuing slots is not 0, exactly as in the case of the idle slot. The antenna switching timing generation unit 38 is instructed to set the diversity timing in the slot at the same position in the next subframe as the B timing. When the number of continuing slots is 0, it is determined that reception of the slot of the next subframe is necessary, and the antenna switching timing generation unit 38 is instructed to set the diversity timing in the slot of the next subframe to A timing.
[0040]
On the other hand, when the slot is a slot addressed to the own station, the reception slot management unit 304 determines that the reception of the slot of the next subframe is necessary regardless of whether the continuation slot number is 1 or more, or 0. The antenna switching timing generation unit 38 is instructed to set the diversity timing in the slot at the same position in the next subframe as the A timing.
[0041]
Table 1 summarizes how the reception slot management unit 304 determines the necessity of reception in the same slot of the next subframe according to the contents of the current reception slot and the number of continuation slots.
[Table 1]

[0042]
As described above, in this receiving apparatus, the reception slot management unit 304 of the timing selection control unit 37 determines whether or not the next subframe of each slot does not need to be received. Is set to B timing (position immediately before slot (n)), thereby enhancing the diversity effect.
[0043]
(Second Embodiment)
The receiving apparatus according to the second embodiment can instruct diversity timing for receiving the next slot according to the number of slot usage of the packet channel.
[0044]
As shown in FIG. 4, the receiving apparatus includes a radio management unit 505 that performs RT (radio management) control in the timing selection control unit 57. The radio management unit 505 notifies the reception slot management unit 504 of the slot usage number of the packet channel notified from the base station. Other configurations are the same as those of the first embodiment (FIG. 1).
[0045]
The receiving slot management unit 504 of this receiving apparatus determines whether the next slot is unnecessary for reception based on information from the radio management unit 505, the idle slot determination unit 502, and the own station / other station determination unit 503, and determines the next slot. Diversity timing is selected, and an instruction is given to the antenna switching timing generator 58.
[0046]
For example, as shown in pattern (1) in FIG. 5, when two slots, slot 0 and slot 1, are used as a packet channel, the reception slot management unit 504 notifies the base station of the downlink signal. By knowing the structure through the wireless management unit 505, it is identified that the slot 2 is fixedly unnecessary to receive.
[0047]
At this time, the reception slot management unit 504 instructs the antenna switching timing generation unit 58 to always take the B (position immediately before slot (n)) timing as the diversity timing at the reception timing of slot2.
[0048]
Further, when the number of slots used as a packet channel is 1 as in pattern (2), slot 1 and slot 2 are not always required to be received. At this time, the reception slot management unit 504 allows the timings A and B as the diversity timing at slot 1 reception timing (undefined), and takes the B timing as the diversity timing at the slot 2 reception timing. An instruction is issued to the switching timing generator 58. In this pattern (2), the operation is the same as that of a conventional voice mobile device.
[0049]
The combinations of the slot for the packet channel and the slot for the non-packet channel are not limited to the patterns (1) and (2), and other combinations can be similarly implemented.
[0050]
As described above, in the receiving apparatus of this embodiment, the slot not used for the packet channel can be known from the information from the radio management unit 505 provided in the timing selection control unit 57. Since this unused slot does not always require reception, the diversity timing for receiving the next slot can always be set immediately before reception of the next slot, thereby realizing a stable high diversity effect.
[0051]
(Third embodiment)
The receiving apparatus according to the third embodiment sets the diversity timing so as not to overlap the transmission period of the transmission signal when performing simultaneous transmission and reception.
[0052]
In this receiving apparatus, when simultaneous transmission / reception is performed, the fact is transmitted from the timing selection control unit 37 having the configuration shown in FIG. 1 to the antenna switching timing generation unit 38.
[0053]
In the PDC system, in the case of simultaneous transmission / reception, the reception period of the reception slot and the transmission period of the transmission slot have the relationship shown in FIG.
[0054]
At this time, when the diversity at the synchronization word position is instructed from the timing selection control unit 37, the antenna switching timing generation unit 38 sets the diversity timing in A as shown in FIG. When the diversity immediately before is instructed, the diversity timing at the point of time immediately before the next slot shown in B1 but not related to the transmission timing (does not overlap the transmission period of the transmission slot) is set.
[0055]
In this way, by setting the diversity timing outside the transmission period, diversity processing can be performed without being affected by sensitivity suppression to the reception system due to transmission, and effective diversity can be executed.
[0056]
(Fourth embodiment)
Even in the case of simultaneous transmission / reception, the receiving apparatus according to the fourth embodiment sets the diversity timing to be excluded from the transmission period only when transmission is actually performed during the transmission period.
[0057]
As shown in FIG. 7, this receiving apparatus comprises a timing selection control unit 87, a transmission control unit 806 that generates transmission data, a channel coder, a slot configuration unit, and the like, and a burst that converts transmission data into a slot format. And a multiplexing unit 805. When transmitting the generated transmission data to burst multiplexing section 805, transmission control section 806 outputs a notification signal notifying that transmission is performed to antenna switching timing generation section 88. Other configurations are the same as those of the first embodiment (FIG. 1).
[0058]
The operation of this receiving apparatus will be described with reference to FIGS.
[0059]
This receiving apparatus receives the receiving slot shown in FIG. 8 by the antenna 81 or 82 selected by the antenna switch 34. The reception signal is converted into a baseband signal by the reception circuit 86 and decoded by the burst separation unit 801 of the timing selection control unit 87. The idle slot determination unit 802 finds an idle slot from the decoded data and notifies the reception slot management unit 804, and the own station / other station determination unit 803 identifies the own station slot and the other station slot from the decoded data. This is transmitted to the reception slot management unit 804.
[0060]
The reception slot management unit 804 determines the necessity of reception of the reception slot based on the information from the idle slot determination unit 802 and the own station / other station determination unit 803, and when the current slot does not require reception, it is high (H ), And when the current slot needs to be received, an antenna switching selection signal {circle around (2)} that is a low (L) level is output to the antenna switching timing generator 88.
[0061]
Further, when simultaneous transmission / reception is performed, transmission control section 806 generates transmission data. This transmission data is converted into a slot format by the burst multiplexing unit 805, modulated into a transmission RF signal by the transmission circuit 85, and transmitted from the antenna 81 via the antenna duplexer 83. The transmission timing of this transmission slot is shown by shading in FIG.
[0062]
The transmission control unit 806 outputs a transmission slot notification signal (1) notifying the transmission to the antenna switching timing generation unit 88 in accordance with the transmission data output. This transmission slot notification signal {circle around (1)} is at a high (H) level when transmission is performed at the timing of the next transmission slot, and is at a low (L) level when transmission is not performed at the timing of the next transmission slot. Tell the presence or absence of transmission.
[0063]
At this time, the antenna switching timing generator 88 sets the diversity timing as shown in FIG. That is,
When the reception slot (n-1) is a slot that needs to be received,
A: synchronization word position of slot (n-1)
When the reception slot (n-1) is a slot that does not require reception, and transmission is performed at the timing of the next transmission slot,
B1: Immediately before slot (n), but earlier so as not to affect transmission timing
When the reception slot (n-1) is a slot that does not require reception, and transmission is not performed at the timing of the next transmission slot,
B2: Timing that overlaps the transmission period of the transmission slot but immediately before slot (n)
Are set as diversity timings.
[0064]
In the case of FIG. 8, for the reception slot a, the transmission control unit 806 outputs an H transmission slot notification signal {circle around (1)} indicating that there is a transmission slot at the next slot timing. Since the antenna switching selection signal {circle around (2)} indicating that the slot does not need to be received is output, the antenna switching timing generator 88 sets the antenna switching signal that sets the timing of B1 as the diversity timing of the current slot. 3 ▼ is generated.
[0065]
For reception slots b and c, the transmission control unit 806 outputs an L transmission slot notification signal (1) indicating no transmission slot at the next slot timing, and the reception slot management unit 804 does not need to receive the current slot. Since the antenna switching selection signal (2) indicating H is output, the antenna switching timing generator 88 generates the antenna switching signal (3) for setting the timing of B2 as the diversity timing of the current slot. To do.
[0066]
For the reception slot d, the transmission control unit 806 outputs an H transmission slot notification signal (1) indicating that there is a transmission slot at the next slot timing, and the reception slot management unit 804 needs to receive the current slot. Therefore, the antenna switching timing generator 88 generates an antenna switching signal (3) for setting the timing A as the diversity timing of the current slot.
[0067]
For the reception slot e, the transmission control unit 806 outputs an H transmission slot notification signal (1) indicating that there is a transmission slot even at the next slot timing following the previous slot. An antenna switching selection signal {circle around (2)} indicating that the slot does not require reception is output. In this case, since the current slot does not need to be received, B1 or B2 is selected as the diversity timing. Even if either B1 or B2 is selected, the diversity operation during transmission is performed. At this time, the antenna switching timing generator 88 generates an antenna switching signal {circle around (3)} for performing antenna switching at the timing B2 immediately before the next slot.
[0068]
The operation for the reception slot f is the same as that for the reception slot b, and the operation for the reception slots g and h is the same as that for the reception slots a and b.
[0069]
The above operations are summarized as shown in Table 2. The antenna switching diversity generator 88 generates antenna switching timing according to the logic shown in Table 2.
[Table 2]

[0070]
In this way, by setting so that the antenna switching timing of the reception system does not overlap only for the transmission slot that is actually transmitted, the influence of sensitivity suppression on the reception system due to transmission can be eliminated, and the diversity effect Can be held.
[0071]
Thus, in the receiving apparatus of this embodiment, as the antenna switching timing when the current slot does not require reception, the transmission immediately before the next slot is received when there is no transmission, and the transmission starts when there is transmission. The diversity timing is selected dynamically so that there is no such a problem. Thereby, effective diversity can be performed at the time of non-transmission, and diversity processing that avoids the influence of sensitivity suppression by transmission can be performed at the time of transmission.
[0072]
(Fifth embodiment)
In the case of the voice communication mode, the receiving apparatus according to the fifth embodiment sets the diversity timing corresponding to the voice communication mode.
[0073]
In this receiving apparatus, as shown in FIG. 10, the operation mode is notified from the timing selection control unit 107 to the antenna switching timing generation unit 108.
[0074]
When the operation mode of voice communication is notified from the timing selection control unit 107, the antenna switching timing generation unit 108 fixes the antenna switching timing immediately before the reception slot as shown in FIG.
[0075]
This is because the voice mobile station performs transmission / reception using only one slot in a fixed manner in one subframe regardless of whether the call is in progress or in standby. In FIG. 11, slots used for transmission / reception are indicated by shading.
[0076]
As described above, in the receiving apparatus of this embodiment, when a voice communication mode other than packet communication is selected, switching to a fixed diversity timing is performed accordingly.
[0077]
【The invention's effect】
As is clear from the above description, the receiving apparatus of the present invention can enhance the diversity effect in the PDC mobile device. Even when slots are continuously received on the packet channel, appropriate diversity timing can be set, and even when transmission slots are transmitted in parallel with reception, diversity processing avoids the effects of sensitivity suppression due to transmission. Effective diversity can be realized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a receiving apparatus according to a first embodiment of the present invention;
FIG. 2 is a diversity timing diagram for explaining operations in the receiving apparatus according to the first embodiment;
FIG. 3 is a diagram showing diversity timing in the receiving apparatus according to the first embodiment;
FIG. 4 is a block diagram showing a configuration of a receiving apparatus according to the second embodiment of the present invention;
FIG. 5 is a diagram showing diversity timing in the receiving apparatus according to the second embodiment;
FIG. 6 is a diagram showing diversity timing in the receiving apparatus according to the third embodiment of the present invention;
FIG. 7 is a block diagram showing a configuration of a receiving apparatus according to the fourth embodiment of the present invention;
FIG. 8 is a diagram showing diversity timing in the receiving apparatus according to the fourth embodiment;
FIG. 9 is a diversity timing diagram for explaining operations in the receiving apparatus according to the fourth embodiment;
FIG. 10 is a block diagram showing a configuration of a receiving apparatus according to the fifth embodiment of the present invention;
FIG. 11 is a diagram showing diversity timing in the receiving apparatus according to the fifth embodiment;
FIG. 12 is a block diagram showing a diversity configuration in a conventional receiving apparatus.
[Explanation of symbols]
31, 51, 81, 101 Antenna for transmitting and receiving
32, 52, 82, 102 Diversity receive antenna
33, 53, 83, 103 Antenna duplexer
34, 54, 84, 104 Antenna switch
35, 55, 85, 105 Transmitter circuit
36, 56, 86, 106 Receiver circuit
37, 57, 87, 107 Timing selection controller
38, 58, 88, 108 Antenna switching timing generator
301, 501, 801 Burst separator
302, 502, 802 Idle slot determination unit
303, 503, 803 Own station / other station determination section
304, 504, 804 Receive slot manager
505 Radio Management Department
805 Burst multiplexer
806 Transmission control unit
 121, 122 receiving antenna
123 Antenna selector
124 Reception level detector
125 Antenna controller
126 Antenna control signal
127 Receiver

Claims (2)

In a receiving apparatus of a PDC mobile device that performs antenna switching diversity,
An antenna switching means for switching the antenna;
Based on the information received from the base station, the slot used by the own station is identified as a packet channel and the unused slot not used by the own station as a packet channel, and the received slot is received as the antenna switching diversity timing. In the timing, the synchronization word position of the slot is selected, and in the reception timing of the unused slot immediately before the used slot, the previous used slot to be received next is selected, and reception of the other unused slots is performed. In timing, a timing selection control means for selecting either the synchronization word position of the slot or the previous slot to be received next ;
An antenna switching timing generating means for measuring timing based on an instruction from the timing selection control means and activating an antenna switching operation of the antenna switching means. In a receiving apparatus of a PDC mobile device that performs antenna switching diversity,
An antenna switching means for switching the antenna;
Timing selection control means for selecting either the synchronization word position of the slot or the previous slot to be received next, depending on the configuration of the reception slot, as the antenna switching diversity timing;
Antenna switching timing generating means for timing the timing based on an instruction from the timing selection control means and activating an antenna switching operation of the antenna switching means;
With
The antenna switching timing generating means, when performing simultaneous transmission and reception, as the timing of the antenna switching diversity from said timing selection control means, when the previous received next slot is specified, if there is transmission in the transmission period as the timing of the antenna switching does not overlap with the transmission period of the transmission slot, start the antenna switching operation of the antenna switching unit, when there is no transmission during the transmission period, the slot timing of the antenna switching will be received A receiving apparatus, wherein the antenna switching operation of the antenna switching means is started immediately before.

Images