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JPH0474028A - Cordless telephone system - Google Patents

Cordless telephone system

Info

Publication number
JPH0474028A
JPH0474028A JP2185838A JP18583890A JPH0474028A JP H0474028 A JPH0474028 A JP H0474028A JP 2185838 A JP2185838 A JP 2185838A JP 18583890 A JP18583890 A JP 18583890A JP H0474028 A JPH0474028 A JP H0474028A
Authority
JP
Japan
Prior art keywords
frequency
circuit
reception
local
oscillation circuit
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.)
Pending
Application number
JP2185838A
Other languages
Japanese (ja)
Inventor
Isamu Matsuda
勇 松田
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.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electric Industrial Co Ltd
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 Matsushita Electric Industrial Co Ltd filed Critical Matsushita Electric Industrial Co Ltd
Priority to JP2185838A priority Critical patent/JPH0474028A/en
Publication of JPH0474028A publication Critical patent/JPH0474028A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Landscapes

  • Mobile Radio Communication Systems (AREA)

Abstract

PURPOSE:To reduce power consumption and to make the size and the weight small by using a local frequency obtained from an exclusive crystal oscillation circuit in a frequency synthesizer circuit so as to implement a reception opera tion in the standby state. CONSTITUTION:A high frequency changeover switch 22 and a power supply changeover switch 23 are thrown respectively to the position (a) in the standby operation to supply power to a 1st local oscillation circuit 20 and a crystal vibrator 21, from which a 1st local frequency is oscillated. The input of a recep tion frequency is awaited by a mixer circuit 6 and an intermediate frequency BPF 7 by using the frequency so as to be tuned to the control channel. When a radio wave is inputted from an antenna 1, a high frequency signal tuned by the 1st local frequency is demodulated by a detection circuit 12 to be a low frequency signal, a control data is demodulated and outputted, and a discrim ination output of the presence of a carrier is informed to a control circuit. When talking is finished and the standby operation is transited again, the change over switches 22, 23 are thrown to the position (a) to stop power supply of a frequency synthesizer circuit 17 so as to reduce the current consumption of the reception circuit.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、電話回線に接続された基地局とこの基地局に
無線で接続された移動局とからなるコードレス電話装置
に関し、特にその移動局の無線受信回路の構成に関する
ものである。
DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a cordless telephone device comprising a base station connected to a telephone line and a mobile station wirelessly connected to the base station, and particularly relates to a wireless This relates to the configuration of a receiving circuit.

従来の技術 第2図は従来のコードレス電話装置の移動局における無
線受信回路の構成を示している。第2図において、1は
空中線、2は送信周波数と受信周波数を弁別するための
DPX(アンテナ共用器)、3.5は受信周波数のみを
通過させるバンドパスフィルタ、4.8.10は高周波
増幅回路、6は第10−カル周波数と受信周波数のミキ
サー回路、7は第1中間周波バンドパスフィルタ、9は
第20−カル周波数と中間周波数のミキサー回路、11
は第2中間周波バンドパスフィルタ、12は検波回路、
13は低周波増幅回路、14は第10−カル周波数を発
振させるVCO(電圧制御発振回路)、15は第10−
カル周波数を制御するPLL(位相同期回路)、16は
PLL15の基準周波数を得るための水晶振動子を含む
基準水晶発振回路、17はこれらVCO14、PPLI
5および基準水晶発振回路16からなる周波数シンセサ
イザ回路、18は第20−カル周波数を得るための第2
0−カル発振回路、19は水晶振動子である。
BACKGROUND OF THE INVENTION FIG. 2 shows the configuration of a radio receiving circuit in a mobile station of a conventional cordless telephone device. In Figure 2, 1 is an antenna, 2 is a DPX (antenna duplexer) for distinguishing between transmitting and receiving frequencies, 3.5 is a bandpass filter that passes only the receiving frequency, and 4.8.10 is a high-frequency amplification 6 is a mixer circuit for the 10th Cull frequency and reception frequency, 7 is a first intermediate frequency band pass filter, 9 is a mixer circuit for the 20th Cull frequency and intermediate frequency, 11
is a second intermediate frequency band pass filter, 12 is a detection circuit,
13 is a low frequency amplifier circuit, 14 is a VCO (voltage controlled oscillation circuit) that oscillates the 10th-cal frequency, and 15 is a 10th-
16 is a reference crystal oscillation circuit including a crystal oscillator for obtaining the reference frequency of the PLL 15; 17 is a reference crystal oscillation circuit including these VCOs 14, PPLI
5 and a reference crystal oscillation circuit 16; 18 is a second frequency synthesizer circuit for obtaining the 20th-cal frequency;
0-Cal oscillation circuit, 19 is a crystal resonator.

次に前記従来例の動作について説明する。コードレス電
話機が未使用で待ち受け動作を行なっている場合、第2
図に示す受信回路は、一般に間欠的に電源をオン、オフ
して消費電力を減らすようになっている。間欠的に電源
が・入っている時、Vco14、PLL15および基準
水晶発振回路16からなる周波数シンセサイザ回路17
により制御チャネルにおける受信を行ない、基地局から
の着信動作を待ち受けている。この時、基地局からの送
信波が受信されると、この受信回路を連続給電に切り替
えて、着信動作の制御データを復調して、指定された通
話チャネルへの移行を行なう。
Next, the operation of the conventional example will be explained. If the cordless phone is unused and in standby mode, the second
The receiving circuit shown in the figure generally turns on and off the power intermittently to reduce power consumption. When the power is intermittently turned on, the frequency synthesizer circuit 17 consisting of the Vco 14, PLL 15 and reference crystal oscillation circuit 16
The base station performs reception on the control channel and waits for an incoming call from the base station. At this time, when a transmission wave from the base station is received, this receiving circuit is switched to continuous power supply, demodulates the control data for the incoming call operation, and shifts to the designated communication channel.

チャネルの設定は、第10−カル周波数を発生する周波
数シンセサイザ17により行なわれる。
Setting of the channel is performed by a frequency synthesizer 17 which generates the 10th-cal frequency.

発明が解決しようとする課題 しかしながら、前記従来のコードレス電話装置では、受
信の待ち受け動作時に周波数シンセサイザ回路]7を含
む受信回路全体を間欠的に給電して動作させているので
、その消費電力は、単一チャネルの受信回路に比べて周
波数シンセサイザ回路分だけ多(なり、その間欠周期と
全受信回路の消費電力により決まる待ち受け時の実効電
力をあまり小さくできないという問題があった。このた
め、移動局に内蔵された電源である充電式の電池の容量
により決まる待ち受け時間に制約があり、長時間の待ち
受け動作を実現するには限界があった。
Problems to be Solved by the Invention However, in the conventional cordless telephone device, the entire receiving circuit including the frequency synthesizer circuit 7 is intermittently supplied with power during the reception standby operation, so that its power consumption is Compared to a single channel receiving circuit, the number of frequency synthesizer circuits is larger (therefore, there is a problem that the effective power during standby, which is determined by the intermittent period and the power consumption of all receiving circuits, cannot be reduced very much. There was a limit to the standby time determined by the capacity of the rechargeable battery that was the built-in power source, and there was a limit to how long standby operation could be achieved.

課題を解決するための手段 本発明は、前記目的を達成するために、第10−カル周
波数を制御チャネルに設定するために、周波数シンセサ
イザ回路を働かせることなしに、より少ない消費電流で
動作可能な専用の水晶発振回路を備えることにより、待
ち受け時の必要な電力を最小限におさえるようにしたも
のである。
Means for Solving the Problems In order to achieve the above object, the present invention provides a system that can operate with less current consumption without operating a frequency synthesizer circuit in order to set the 10th-cal frequency on a control channel. By providing a dedicated crystal oscillation circuit, the power required during standby can be kept to a minimum.

作用 本発明は、前記構成により、待ち受け時の制御チャネル
における間欠受信動作時にチャネルの設定を行なう第1
0−カル周波数を専用の水晶発振回路から得ることによ
り、周波数シンセサイザ回路を動かすことなく、より少
ない電力で受信回路を働かせることができ、同一の容量
の電池であれば、より長い待ち受け時間を実現すること
ができる。また、同一の待ち受け時間を得るためには、
より小容量の電池で実現することができるので、装置の
より小型化および軽量化を図ることができる。
Effects The present invention has the above-mentioned configuration, and provides a first method for setting a channel during an intermittent reception operation on a control channel during standby.
By obtaining the 0-cal frequency from a dedicated crystal oscillator circuit, the receiver circuit can operate with less power without running the frequency synthesizer circuit, and with the same capacity battery, a longer standby time can be achieved. can do. Also, in order to obtain the same standby time,
Since this can be achieved using a battery with a smaller capacity, the device can be made smaller and lighter.

実施例 第1図は本発明の一実施例を示すコードレス電話装置の
移動局における無線受信回路のブロック図であり、第2
図に示した従来例と同様な要素には同じ符号を付しであ
る。すなわち第1図において、1は空中線、2は送信周
波数と受信周波数を弁別するためのDPX(アンテナ共
用器)、3゜5は受信周波数のみを通過させるバンドパ
スフィルタ、4.8.10は高周波増幅回路、6は第1
0−カル周波数と受信周波数のミキサー回路、7は第1
中間周波バンドパスフィルタ、9は第20−カル周波数
と中間周波数のミキサー回路、11は第2中間周波バン
ドパスフィルタ、12は検波回路、13は低周波増幅回
路、14は第10−カル周波数を発振させるVCO(電
圧制御発振回路)、15は第10−カル周波数を制御す
るPLL(位相同期回路)、16はPLL15の基準周
波数を得るための水晶振動子を含む基準水晶発振回路、
17はこれらVCo 14、P P L 15オヨび基
準水晶発振回路16からなる周波数シンセサイザ回路、
18は第20−カル周波数を得るための第20−カル発
振回路、19は水晶振動子である。
Embodiment FIG. 1 is a block diagram of a radio reception circuit in a mobile station of a cordless telephone device showing an embodiment of the present invention.
Elements similar to those of the conventional example shown in the figure are given the same reference numerals. In other words, in Fig. 1, 1 is an antenna, 2 is a DPX (antenna duplexer) for distinguishing between transmitting and receiving frequencies, 3.5 is a bandpass filter that passes only the receiving frequency, and 4.8.10 is a high frequency. Amplification circuit, 6 is the first
0 - mixer circuit for the cull frequency and reception frequency, 7 is the first
9 is a mixer circuit for the 20th-cal frequency and intermediate frequency; 11 is the second intermediate frequency band-pass filter; 12 is a detection circuit; 13 is a low-frequency amplification circuit; 14 is a 10th-cal frequency mixer circuit; A VCO (voltage controlled oscillation circuit) for oscillating, 15 a PLL (phase locked loop) for controlling the 10th-cal frequency, 16 a reference crystal oscillation circuit including a crystal oscillator for obtaining a reference frequency of the PLL 15,
17 is a frequency synthesizer circuit consisting of these VCo 14, PPL 15 and reference crystal oscillation circuit 16;
18 is a 20th-Cull oscillation circuit for obtaining the 20th-Cull frequency, and 19 is a crystal oscillator.

また、20は制御チャネル用の第10−カル発振回路で
あり、21は水晶振動子であり、待ち受け時に周波数シ
ンセサイザ回路17に代わって第1ミキサー回路16に
第10−カル周波数を供給する。22は高周波スイッチ
であり、移動局に内蔵されている制御回路により、待ち
受け動作にあるときにはa側に接続されて、制御チャネ
ルを受信するだけの固定のローカル周波数を得る。23
は高周波スイッチ22に同期して切り替わる電源切替ス
イッチであり、待ち受け時にはa側に接続されて、第1
0−カル発振回路20に電源を接続し、周波数シンセサ
イザ回路17側の電源を切断する。
Further, 20 is a 10th-Cull oscillation circuit for the control channel, and 21 is a crystal oscillator, which supplies the 10th-Cull frequency to the first mixer circuit 16 instead of the frequency synthesizer circuit 17 during standby. Reference numeral 22 denotes a high frequency switch, which is connected to side a during standby operation by a control circuit built into the mobile station to obtain a fixed local frequency sufficient to receive the control channel. 23
is a power supply changeover switch that switches in synchronization with the high frequency switch 22, and is connected to the a side during standby, and the first
A power supply is connected to the 0-cal oscillation circuit 20, and the power supply on the frequency synthesizer circuit 17 side is cut off.

次に前記実施例の動作について説明する。待ち受け動作
時には、高周波スイッチ22および電源切替スイッチ2
3をそれぞれa側に切り替えて、第10−カル発振回路
20および水晶振動子21に電源を接続して、第10−
カル周波数を発振させる。この第10−カル周波数によ
り、ミキサー回路6と中間周波バンドパスフィルタ7と
により制御チャネルに同調して、受信周波数の入力を待
ち受けている。
Next, the operation of the above embodiment will be explained. During standby operation, the high frequency switch 22 and the power selector switch 2
3 to the a side, connect the power supply to the 10th-cal oscillation circuit 20 and the crystal resonator 21, and
oscillates the cull frequency. The mixer circuit 6 and the intermediate frequency bandpass filter 7 are tuned to the control channel using this 10th-cal frequency, and are waiting for input of the reception frequency.

空中線1から制御チャネルにおける電波か入力されると
、前記第10−カル周波数により同調された高周波信号
は以降の各段を経て検波回路12により復調されて低周
波信号となり、送られてくる制御データを復調出力する
とともに、キャリア有りの判定出力を図示されない制御
回路に通知する。
When a control channel radio wave is input from the antenna 1, the high-frequency signal tuned by the 10th Cal frequency is demodulated by the detection circuit 12 through the subsequent stages and becomes a low-frequency signal, and the control data is transmitted. It demodulates and outputs the signal, and notifies a control circuit (not shown) of the carrier presence determination output.

制御チャネルで受信が完了し、接続動作に移行する場合
は、前記各スイッチ22.23をb側に切り替え、周波
数シンセサイザ回路17を動作させることにより、PL
L15に設定されるチャネルに対応した第10−カル周
波数を発生させる。
When reception is completed on the control channel and the connection operation is to be started, each of the switches 22 and 23 is switched to the b side and the frequency synthesizer circuit 17 is operated.
A 10th-Cull frequency corresponding to the channel set to L15 is generated.

以後、通話チャネルへの移行は、PLL15に設定する
チャネルデータを書き替えることにより行なうのは、従
来のコードレス電話装置と同様である。
Thereafter, the transition to the communication channel is performed by rewriting the channel data set in the PLL 15, as in the conventional cordless telephone device.

通話が終了し、再び待ち受け動作に移行する際は、各ス
イッチ22.23をa側に切り替えて、周波数シンセサ
イザ回路17の電源供給を停止させ、受信回路の消費電
流を減少させる。
When the call ends and the system returns to standby mode, the switches 22 and 23 are switched to the a side to stop the power supply to the frequency synthesizer circuit 17 and reduce the current consumption of the receiving circuit.

発明の効果 本発明は、前記実施例から明らかなように、待ち受け時
の受信回路の第10−カル周波数を周波数シンセサイザ
回路を働かすことなく、制御チャネル受信専用の第10
−カル発振回路と水晶振動子から得ているので、その消
費電力を大幅に削減することができる。このため、待ち
受け可能時間を延長することかでき、頻繁な充電を使用
者に行なわせる必要がなくなり、充電忘れにより使用で
きな(なったり、使用者が通話しようとした時に電池切
れにより使用できないといった不便さを解消することが
できる。また、同一の連続待ち受け時間を得るためには
、より小容・量の電池により構成できるので、移動局の
小型化および軽量化を図ることができ、使用者の使い勝
手を向上させることができるという効果を有する。
Effects of the Invention As is clear from the embodiments described above, the present invention allows the 10th-cal frequency of the receiving circuit during standby to be converted to the 10th-cal frequency exclusively used for control channel reception without operating the frequency synthesizer circuit.
- Since the power is obtained from the Cull oscillator circuit and the crystal oscillator, the power consumption can be significantly reduced. Therefore, it is possible to extend the standby time, eliminate the need for the user to charge the battery frequently, and eliminate the need for the user to charge the battery frequently. In addition, in order to obtain the same continuous standby time, the mobile station can be configured with a smaller capacity and weight battery, making it possible to make the mobile station smaller and lighter. This has the effect of improving usability.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は本発明の一実施例におけるコードレス電話装置
の無線受信回路の構成を示すブロック図、第2図は従来
のコードレス電話装置の無線受信回路の構成を示すブロ
ック図である。 1・・・空中線、2・・・送・受信周波数を弁別するD
PX(アンテナ共用器)、3.5・・・受信周波数のバ
ンドパスフィルタ、4,8.10・・・高周波増幅回路
、6・・・第1ミキサー回路、7・・・第1中間周波バ
ンドパスフィルタ、9・・・第2ミキサー回路、11・
・・第2中間周波バンドパスフィルタ、12・・・検波
回路、13・・・低周波増幅回路、14・・・VcO(
電圧制御発振回路)、15・・・PLL(位相同期回路
)、16・・・基準水晶発振回路、17・・・周波数シ
ンセサイザ回路、18・・・第20−カル発振回路、2
0・・・第10−カル発振回路(制御チャネル用)、2
1・・・水晶振動子、22・・・高周波スイッチ、23
・・・電源切替スイッチ。
FIG. 1 is a block diagram showing the configuration of a wireless receiving circuit of a cordless telephone device according to an embodiment of the present invention, and FIG. 2 is a block diagram showing the configuration of a wireless receiving circuit of a conventional cordless telephone device. 1... Antenna, 2... D that discriminates between transmitting and receiving frequencies
PX (antenna duplexer), 3.5... Reception frequency band pass filter, 4, 8.10... High frequency amplification circuit, 6... First mixer circuit, 7... First intermediate frequency band Pass filter, 9...Second mixer circuit, 11.
...Second intermediate frequency band pass filter, 12...Detection circuit, 13...Low frequency amplification circuit, 14...VcO (
voltage controlled oscillation circuit), 15... PLL (phase locked loop), 16... reference crystal oscillation circuit, 17... frequency synthesizer circuit, 18... 20th-cal oscillation circuit, 2
0...10th-Cal oscillation circuit (for control channel), 2
1... Crystal resonator, 22... High frequency switch, 23
...Power selector switch.

Claims (1)

【特許請求の範囲】[Claims] 電話回線に接続された基地局とこの基地局に無線で接続
された移動局とからなり、複数の無線チャネルについて
送受信を可能とするために周波数シンセサイザ方式を用
いたマルチチャネル方式の無線受信回路を備えたコード
レス電話装置において、待ち受け時の制御チャネルにお
ける受信動作を、周波数シンセサイザ回路により得られ
るローカル周波数を使用することなく、専用の水晶発振
回路により得られるローカル周波数を使用して行なうこ
とを特徴とするコードレス電話装置。
It consists of a base station connected to a telephone line and a mobile station wirelessly connected to this base station, and uses a multi-channel radio receiving circuit that uses a frequency synthesizer method to enable transmission and reception on multiple radio channels. The cordless telephone device is characterized in that reception operation on a control channel during standby is performed using a local frequency obtained by a dedicated crystal oscillation circuit, without using a local frequency obtained by a frequency synthesizer circuit. Cordless telephone equipment.
JP2185838A 1990-07-13 1990-07-13 Cordless telephone system Pending JPH0474028A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2185838A JPH0474028A (en) 1990-07-13 1990-07-13 Cordless telephone system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2185838A JPH0474028A (en) 1990-07-13 1990-07-13 Cordless telephone system

Publications (1)

Publication Number Publication Date
JPH0474028A true JPH0474028A (en) 1992-03-09

Family

ID=16177765

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2185838A Pending JPH0474028A (en) 1990-07-13 1990-07-13 Cordless telephone system

Country Status (1)

Country Link
JP (1) JPH0474028A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6381204B1 (en) 1998-01-20 2002-04-30 Fujitsu Limited Power save mode control method and storage unit

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6381204B1 (en) 1998-01-20 2002-04-30 Fujitsu Limited Power save mode control method and storage unit

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