JP2773697B2 - Cordless telephone equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cordless telephone apparatus capable of making an extension call between slave units, and more particularly to reducing the consumption of a battery and shortening the time required for connecting an extension call between slave units. on household de I digital cordless telephone device.

[0002]

2. Description of the Related Art Analog cordless telephones are first widely used as cordless telephones, and cordless telephone devices having various functions are used mainly for home use. Some home cordless telephone devices can use a plurality of child devices and can make an extension call between the child devices through the parent device between the child devices.

When making an extension call between slave units, it is necessary to independently connect the wireless communication paths between each slave unit and the master unit, and the master unit is equipped with at least two wireless units. There is a need to.

Recently, a digital cordless telephone has been put to practical use in Japan, and a standard for a second generation cordless telephone system (RCR STD-28) has been formulated at the Radio System Development Center.

This second generation cordless telephone system has four
A channel division multiplexing time division duplex (TDD) system is adopted, and the above-described extension communication between slave units can be realized with only one wireless unit if the master unit supports four channels. A compatible radio must have a frequency synthesizer capable of high-speed switching.

As this kind of cordless telephone, Japanese Patent Laid-Open No.
Japanese Patent Application Laid-Open No. 136437 discloses a method of detecting a vacant communication channel from a plurality of communication channels when a calling terminal calls a called terminal, and thereafter transmitting the transmission frequency of the calling terminal. Is set to the reception frequency of the control channel in the called handset, and the reception frequency of the calling handset is set to the transmission frequency of the control channel in the called handset,
The passband is also switched accordingly, and the called channel is specified to the called terminal using the control channel, and the calling terminal and the called terminal use this communication channel to mutually communicate with each other. Is what you do. In this method, the communication channel is switched in accordance with the instruction of the master unit even when the slave units communicate with each other.

Another example is disclosed in Japanese Patent Application Laid-Open No. 2-241.
129 is disclosed. This is because, when a handset in a predetermined zone calls any handset in the area, first, a calling request and a response call are made between the calling handset and the incoming call-only master handset, and they are sent to the same channel. The link status is set. Thereafter, in response to the extension number input by the calling slave unit, the extension number of the calling-only master unit in each zone is automatically dialed by the called-only master unit. As a result, the dial signal of the extension number is transmitted to the exchange, and the exchange transmits a ringing tone signal to the calling master unit and the calling subunit in each zone. When the ID code of the called slave unit is input by the calling slave unit, the ID code is sent to the calling master unit of each zone via the called master unit and the exchange, and the ID is transmitted.
The code is transmitted and called to the slave unit in the zone.
When a call is made by the slave unit corresponding to the ID code, the call is received by the calling-only master unit in the zone,
The calling-only master unit and the called slave unit in the zone are set to the same channel and brought into a link state. In this way, the calling slave unit and the called slave unit are connected to each other by the receiving-only master unit, the exchange, and the calling-only master unit, and the slave units can communicate with each other.

[0008] Also in this method, the slave unit switches the channel to the communication channel according to the control of the master unit.

[0009]

The radio equipment corresponding to four channels in the above-described four-channel multiplexing time division duplex (TDD) system requires a frequency synthesizer capable of high-speed switching, so that it becomes expensive. There is.

[0010] In addition, when the direct communication function between handset units is used, an extension call between handset units can be made even if the base unit is not equipped with a 4-channel compatible radio unit. It is necessary to wait for the incoming signal destined for itself on the control carrier, and in order to perform a direct call between slave units, some operation must be performed to shift to the mode of direct talk between slave units. If an attempt is made to make an extension call between slave units by using the direct call function, the slave units of both the calling side and the called side must be verbally shifted to the direct talk mode between the slave units, or
It is necessary for the slave unit to be able to perform standby reception on both the control carrier and the communication unit between the slave units.

In the former case, the convenience of wireless communication cannot be utilized, which is inconvenient. In the latter case, the battery consumption is greater than in the case where only the control carrier is intermittently received. Further, in the direct communication method between handset units described in the standard specification RCR STD-28, a calling handset that activates a direct call between handset units is allocated to a 10-wavelength band that is assigned as a wireless carrier for direct communication between handset units. , A vacant carrier is selected by carrier sense, and a paging signal including the identification code of the called child device is transmitted there. On the other hand, since it is not possible to specify on which carrier the paging signal is transmitted and when it is transmitted among the 10 waves, the called handset always scans the 10 wave carriers in order to determine whether the paging signal is transmitted to itself. Need to be. For this reason, efficient intermittent reception operation cannot be performed. As a result, battery consumption is large and it is difficult to operate for a long time, and the time required for connection becomes long.

The present invention has been made in view of such a background, and provides a cordless telephone device that can reduce battery consumption at a low cost and reduce the time required for connection. The purpose is to do.

[0013]

To achieve the above object, according to the solution to ## according to the main aspect of the present invention, a base unit which is fixedly connected to a wired telephone line, a plurality of wirelessly connected to the base unit and a slave unit, originating whistle device which is one of child machine, the parent device on a radio channel a signal requesting a call between the other one of the whistle machine the master unit waits And a means for transmitting, to the called slave, a signal for calling the called slave over a communication channel capable of directly communicating with the called slave, wherein the master Comprises means for receiving a signal requesting a call from the calling handset and transmitting a signal requesting a direct call between the handset to the called handset over a wireless channel on which the called handset waits, The called slave receives a signal requesting a direct call from the master. Is activated, comprises means for receiving a signal to call the object whistle machine from the calling whistle machine in the call channel, call the object whistle machine in the call channel
Said means for receiving a signal comprises a
A cordless telephone device is provided that includes means for searching for the signal .

In connection with the above main aspect, the present invention has the following embodiments.

That is, it is desirable that the signal for requesting a call between the called handsets in the above-mentioned main mode includes identification information of the called handsets.

In the main mode, the means for receiving a signal for calling the called handset on the call channel may include means for searching for the signal over a plurality of call channels, and further comprising means for requesting a call between the called handsets. signal to the said may include information on a call channel for transmitting a signal to call the object whistle machine, also to the al, digital radio communications apparatus is applied is desirably as a communication device for a cordless telephone.

According to the present invention having each of the above aspects, when a certain slave unit makes an extension call with another slave unit, the slave unit notifies the master unit of the identification information of the partner slave unit, The other slave unit is called by the wireless channel for direct communication between slave units.
The parent device that has received the notification performs an activation operation to enable direct communication between the child devices with respect to the child device specified by the identification information. The other handset detects the start of the direct call between the handset by the master and detects a call signal for specifying itself by the radio channel for direct call between the handset, and performs a call between the handset.

[0018] Further, the calling handset notifies the base unit of radio channel information for direct communication between handset units used to identify and call a called handset to be a call partner. May be notified to the called handset, and the called handset may detect a call signal for identifying itself from the notified direct communication wireless channel between the handset, and perform a call between the handset. By this means, even if the slave unit does not receive and receive on both the control wireless channel of the master unit and the wireless channel for direct communication between slave units,
It is possible to automatically shift from the standby state on the control wireless channel to the direct communication mode between the slave units, and further, it is unnecessary to perform the scanning operation on the carrier for the direct communication between the slave units, thereby conserving the battery. In addition, the time required for connection can be reduced.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a block diagram showing the overall configuration of an embodiment of the present invention, FIG. 2 is an explanatory diagram showing the concept of a channel in the embodiment of the present invention, and FIG. FIG. 4 is a block diagram showing the configuration of the master unit according to the embodiment of the present invention.

In the embodiment of the present invention, as shown in FIG. 1, a master unit Z fixedly connected to a wired telephone line and a plurality of slave units (for example, A, B, C
The master unit Z designates a plurality of communication channels using a control channel and establishes a two-way radio line between the master units A, B, and C as shown in FIG. Configure. The master unit Z and the slave units A, B, and C are connected by a control channel when a call is not being performed, and are switched to any of the call channels during a call.

As shown in FIG. 3, the master unit Z includes a line relay circuit 1, an incoming call detection circuit 2, a hybrid circuit 3, amplifiers 4, 5, mute circuits 6, 7, a transmission unit 8, a reception unit 9, Synthesizers 10, 11, bandpass filters 12,
13, a data transmission unit 14, a data detection unit 15, an empty channel detection circuit 16, an interference detection circuit 17, an antenna 18,
A dial circuit 19 and a control circuit 20 are provided.

Further, each of the slave units A, B and C has the configuration shown in FIG.
, The antenna 21, the bandpass filters 22, 2
3, receiving section 24, data detecting section 25, empty channel detecting circuit 26, interference detecting circuit 27, mute circuit 28,
9, amplifiers 30, 31, receiver 32, ringer 33, dial key 34, transmitter 35, internal / external line switch 3
6, hook switch 37, data sending unit 38, sending unit 3
9, frequency synthesizers 40 and 41, switching circuits 42 and 4,
3 and a control circuit 44 are provided.

As a feature of the present invention, the control circuit 44 of the slave units A, B, and C sends a signal requesting a call between the other slave units to the master unit Z when the slave unit is the calling slave unit. Means for transmitting to the base unit Z on the standby radio channel, and means for transmitting to the called unit a signal for calling the called unit on a communication channel capable of directly communicating with the called unit. The control circuit 20 of the master unit Z receives a signal requesting a call from the calling slave unit, and sends a signal requesting a direct call between the slave units via a wireless channel on which the called slave unit is on standby. The control circuit 44 of the called terminal is activated by receiving a signal requesting a direct call from the base unit Z, and is activated by the control circuit 44 of the called terminal. A means for receiving a signal for calling the handset, between the called handsets; The signal requesting the definitive call includes the identification information of the whistle machine. First Embodiment: In the first embodiment, in addition to the basic configuration, a means for receiving a signal for calling a called sub unit through a communication channel provided in the control circuit 44 of the sub units A, B, and C includes a plurality of units. Means for searching for that signal over the traffic channel of

Next, the basic operation of the first embodiment of the present invention will be described with reference to FIG.

Master unit Z is connected to a fixed telephone network and a wired telephone line, and slave units A, B, and C are configured to communicate with master unit Z through a radio circuit for digital cordless telephones. Each of the slave units A, B, and C is given in advance a slave unit number corresponding to an extension number for distinguishing a call or the like. For example, the slave unit A has a slave unit number of 1, Is assigned a slave unit number of 2 and the slave unit C is assigned a slave unit number of 3.

Normally, handset A, handset B, and handset C all wait on their control channels for incoming call signals transmitted from master handset Z.

Here, the operation when the slave A tries to make an extension call between the slave A and the slave B will be described.

Upon receiving the extension call button and the slave unit number of the called slave unit B, the slave unit A as the calling slave unit receives an extension call request signal a including the slave unit number of the slave unit B with respect to the master unit Z. to send _1. When the extension call request signal a ₁ is received,
Subsequently, the slave unit B is set using the channel for direct communication between the slave units.
The transmission of the direct communication calling signal b between the slave units including the slave unit number is started to the slave unit B. Subsequent operations are based on the second generation cordless telephone system standard RCR STD-28.
Is performed in the same manner as the direct telephone call between the slave units indicated by.

Master unit Z receives extension request speech signal a from slave unit A.
When receiving the _1, transmitted in the control channel the extension call activation signal c ₁ including handset number included in contrast slave unit B.

The slave unit when B receives the extension call activation signal c ₁ containing its own handset number by the control channel, then the standard between standards RCR handset indicated by STD-28 directly calls the same Perform the operation. That is, in order to check whether or not the inter-slave direct communication paging signal b transmitted from the slave A has been received, the inter-slave direct communication carrier shown in the standard RCR STD-28 is cracked. The wireless devices are sequentially switched to the 10 wave carriers. When receiving the direct communication call signal b between the slave units addressed to itself,
A ringing tone is sounded, and a standby state for a response button operation is entered. A direct communication response signal d between child units is transmitted to the child unit A to enter a communication state.

At this time, the extension call start signal c ₁ is
Does not operate, because the included slave unit number 2 is different from its own slave unit number 3.

FIG. 5 shows a sequence for explaining a signal transmission / reception state in the first embodiment of the present invention. Second Embodiment In the second embodiment, in addition to the above-described basic configuration, an extension call from the calling terminal A that transmits to the base unit Z to request a call with the called terminal B. The request signal includes information on a communication channel for transmitting a signal for calling the called slave B from the master Z, that is, wireless channel information for direct communication between slaves.

That is, the difference from the first embodiment is that
There before sending the extension call request signal a ₁ shown in FIG. 1 to the base unit Z, then select an available carrier through the carrier sense from a direct communication carrier between handset, also extension call request that carrier number The signal is transmitted to the base unit Z while being included in the signal a ₁ , and the transmission of the direct telephone call signal b between the sub units is started at the carrier to the sub unit B. number is also transmitted to the slave unit B including the extension call activation signal c _1, further sequential switching of direct communication carrier between handset B is the slave unit is not performed, extension call start from the base unit Z received there are featured at entering the waiting between handset direct communication call signal b from the handset between direct communication carrier Niteko machine a represented by the carrier number included in the signal c _1. The sequence shown in FIG. 5 describes the above operation in the standard RCR S
An extension call request signal a ₁ , an extension call acceptance signal a ₂ , an extension call activation signal c _1, and an extension call activation acceptance signal transmitted and received between the master unit and the slave unit, which are shown in accordance with the expression of TD-28. c ₂ are those defined using the option field as a signal standard RCR STD-28 link channel establishment phase.

The messages and sequences transmitted and received between the slaves are the same as those defined in RCR STD-28 for direct communication between slaves.

[0035]

As described above, according to the present invention, the control wireless channel can be controlled even if the slave does not wait for reception on both the control wireless channel of the master and the wireless channel for direct communication between the slaves. Can be automatically shifted from the standby state to the direct communication mode between child devices. In addition, there is no need to perform a scanning operation with a carrier for direct communication between slave units,
This has the effect of saving battery and shortening the time required for connection.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an overall configuration of an embodiment of the present invention.

FIG. 2 is a diagram showing a concept of a channel in the embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of a master unit in the embodiment of the present invention.

FIG. 4 is a block diagram illustrating a configuration of a slave unit according to the embodiment of the present invention.

FIG. 5 is a sequence diagram illustrating a signal transmission / reception state in the embodiment of the present invention.

[Explanation of symbols]

A, B, communication response directly between C handset Z base unit a ₁ extension call request signal a ₂ extension call acceptance signal b handset direct communication between call signal c ₁ extension call start signal c ₂ extension call start acceptance signal d handset Signal 1 Line relay circuit 2 Incoming detection circuit 3 Hybrid circuit 4, 5, 30, 31 Amplifier 6, 7, 28, 29 Mute circuit 8, 39 Transmitter 9, 24 Receiver 10, 11, 40, 41 Frequency synthesizer 12, 13, 22, 23 Bandpass filter 10 External base area 14, 38 Data transmission unit 15, 25 Data detection unit 16, 26 Free channel detection circuit 17, 27 Interference detection circuit 18, 21 Antenna 19 Dial circuit 20, 44 Control circuit 32 receiver 33 ringer 34 dial key 35 transmitter 36 inside / outside switch 37 hook switch 42, 43 switching circuit

Claims (7)

(57) [Claims] And 1. A wired telephone line fixedly connected master unit, and a plurality of slave units are wirelessly connected to the parent machine, originating whistle device which is one of child machine, Means for transmitting a signal requesting a call with another called slave to the master via a wireless channel on which the master stands by, and directly talking with the called slave. Means for transmitting a signal for calling the called handset to the called handset on a possible communication channel, wherein the base unit receives a signal requesting a call from the calling handset, and the called handset Means for transmitting a signal requesting a direct call between the slave units to the called slave unit on a standby wireless channel, wherein the called slave unit receives a signal requesting a direct call from the master unit, Activated, a signal for calling the called handset from the calling handset on the call channel. Comprising means for receiving, the call switch
Said means for receiving a signal for paging said called handset in a channel.
The stage is a means to search for the signal over multiple traffic channels.
A cordless telephone device comprising a step . 2. A base unit fixedly connected to a wired telephone line.
And a plurality of slaves wirelessly connected to the master,
The calling handset, which is one of the handset, is the other called handset.
The base unit waits for a signal requesting a call between
Means for transmitting to said master unit over a wireless channel
A call channel that allows you to talk directly to the called
A signal for calling the called terminal in the channel is transmitted to the called terminal.
Means for transmitting the call, and
The called slave unit waits after receiving a signal requesting a call from the slave unit
Signal to request a direct call between
Means for transmitting to the called handset, further comprising
The called slave receives a signal requesting a direct call from the master.
Received and activated, the calling channel
Means for receiving a signal for calling the called handset, a signal requesting a call with the called handset includes identification information of the called handset, and the signal is transmitted over the communication channel.
The means for receiving a signal for calling a called handset includes a plurality of
A cordless telephone device comprising means for searching for the signal over a talk channel . 3. A base unit fixedly connected to a wired telephone line.
And a plurality of slave units wirelessly connected to the master unit, wherein the calling slave unit, which is one of the slave units, has the master unit in a standby state.
Between the other called handset on the wireless channel
A child of the called child device during an extension call request signal for requesting a telephone call.
Means for transmitting including the unit number, and extension communication from the master unit.
After receiving the talk acceptance signal, talk directly with the called slave unit
Can be in front of the called unit in the communication channel
Sends a direct communication call signal between slave units that calls the called slave unit.
Means for receiving the extension call request signal, and
Means for transmitting an extension call acceptance signal to the handset;
The called handset responds to the called handset via a radio channel on standby.
Requesting a direct call between slave units including the slave unit number
Sends an extension call start signal to request a direct call between slave units.
Means for transmitting a signal to the called handset to the called handset, wherein the called handset includes the extension call activation signal from the base unit.
And a direct communication calling signal between the slave units from the calling slave unit.
Cordless telephone device characterized by comprising means for communicating
Place . 4. The cordless telephone device according to claim 3, wherein the signal requesting a call with the called handset includes information on a call channel for transmitting a signal for calling the called handset. 5. A base unit fixedly connected to a wired telephone line.
And a plurality of slave units wirelessly connected to the master unit.
When making a call between devices, one of the child devices
Handset requests a call with another called handset
Signal to the base unit via a wireless channel on which the base unit waits.
As well as direct calls with the called handset
Call the called unit on a call channel that can
A signal to the called handset, while the master
Receiving a signal requesting a call from the calling terminal and receiving a call;
Request a direct call between slave units on the wireless channel on which the slave unit is on standby
A signal to the called terminal, and further
The handset receives a signal requesting a direct call from the base unit
And is activated by the calling channel
Configured to receive a signal to page the called handset,
The called handset calls the called handset on the call channel.
When receiving signals over multiple channels
A cordless telephone device characterized by searching for the signal . Signal requesting a call between the wherein said object whistle machine is characterized in that it comprises the information of the traffic channel for transmitting a signal for calling the object whistle machine according to claim 1 and 2
6. The cordless telephone device according to any one of 5 . 7. The cordless telephone device according to claim 1, wherein a digital wireless communication system is applied as a communication system in the cordless telephone.