JP3582200B2 - Wireless device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a multi-channel access (MCA) wireless device including a cordless telephone.
[0002]
[Prior art]
In a wireless device having a multi-channel access method (MCA method), a large number of channels (for example, 30 channels) are prepared. When one terminal performs transmission scanning while switching channels among the large number of channels, the transmission signal is transmitted. Are started when the other terminal can receive the communication. In the case where one terminal is fixed to a certain channel for transmission, the other terminal performs a reception scan while switching channels, and if a signal can be received, communication can be started.
[0003]
Among such MCA wireless devices, in particular, in a cordless telephone including a base terminal, ie, a base unit and a portable terminal, ie, a mobile unit, which is movable, a receiver of the base unit transmits radio waves transmitted from a transmitter of the base unit. When receiving, in order to save power, an intermittent reception system in which a receiver of a slave unit is set to a reception mode intermittently at a constant cycle is often used. In other words, power for operation is supplied to the receiving unit at a certain time interval, and the receiving operation is performed intermittently with a predetermined pause.
[0004]
By the way, if it is not known on which channel the calling signal of the master unit is sent, it is necessary for the slave unit to perform reception scanning over all channels (1 ch to 30 ch) in order to catch the calling signal from the master unit. In addition, it is necessary to perform an access scan for identifying whether or not the signal received in each channel is a legitimate signal from the master unit.
[0005]
For example, if the total number of channels is 30, it is necessary to perform access scanning over 30 channels while operating the receiver once. FIG. 6 is an expanded view on the time axis showing the repetition of the reception mode in which access scanning is performed on all channels.
[0006]
[Problems to be solved by the invention]
As described above, in the conventional intermittent reception mode, all channels are channel-scanned at a certain time interval, the presence or absence of a call signal on the base transmission side is determined in each channel, and the state is shifted to the radio link operation. .
[0007]
However, as the number of channels to be accessed increases, the time occupied by the reception mode becomes larger than the ratio of the time occupied by the sleep mode. In addition, in the case of access scanning, it takes time to lock and stabilize the channel every time one channel is received and to determine whether or not there is a call signal. If the total number of channels is several tens, scanning all the channels is necessary. Will spend these times for all channels, and will try to supply power to the receiver for that scan time. Also, the access scan on each channel must be performed periodically at a certain time period, the rise time from the rise of the reception mode to the next reception mode is limited, and the time of the pause mode between them is the time of the reception mode. The longer it extends, the more it shrinks, so a large power saving effect cannot be expected even with the intermittent reception method.
[0008]
In addition, the slave unit is usually driven by a battery, and it is ideal that a standby state is continued for a long time without using power as much as possible, and a transmission signal from the base transmitter is quickly and reliably captured and wirelessly linked. It is necessary to shorten the time required for the reception scan of the slave unit, shorten the time until the link is established, and save power during standby reception.
[0009]
The present invention has been made in view of the above-described conventional problems, and has as its object to provide a wireless device capable of saving power during intermittent reception and increasing the time required for link establishment.
[0010]
[Means for Solving the Problems]
In the present invention, in order to solve the above-described conventional problem, the slave unit scans a predetermined channel group included in all channels that can be transmitted and received by the transmission / reception unit, and confirms the presence or absence of a call signal from the master unit.
[0011]
Further, the master unit calls the slave unit using a channel in the channel group on which the slave unit is scanning.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
The invention according to claim 1 of the present invention includes a master unit connected to a wired line, and a slave unit including a transmission / reception unit that performs transmission and reception with the master unit. First storage means for storing channel numbers for transmission and reception; , At the time of standby, the transmission / reception unit is controlled to perform intermittent reception for receiving at predetermined time intervals. The reception scan is performed in a channel group that is included in all channels that can be transmitted and received by the transmission / reception unit and that is smaller than the number of all channels, and the calling signal from the master unit is transmitted. Receive When a wireless link is established between the first control means and the master unit and the slave unit, a channel number indicating the channel at that time is set. Stored in the first storage means, Second control means for determining a channel group starting from a channel The master unit has a second storage unit for storing channel numbers for transmission and reception, and a channel stored in the second storage unit when a call to the slave unit is required. It is determined whether or not it can be used, and if it can be used, a signal is sent to the slave unit on that channel. If the channel stored in the storage in this second storage means cannot be used, the second storage is performed. Third control means for searching for an available channel from a channel group starting from the channel stored in the means and transmitting a signal to the slave unit. According to such a configuration, in the limited scan in the channel group, not all the channels but some of them are scanned, so that the operation time of the slave side receiver in one cycle can be reduced. There is action. Moreover, if there is jamming radio waves, the channel to be used is busy and switched to another channel, and the subsequent channel group changes accordingly, so that all channels will be used evenly over time, and all channels will be used evenly. Is used effectively.
[0013]
Also, the master unit is When it becomes necessary to call the slave unit, the first control unit of the slave unit sets the second transmitting / receiving unit so as to call the slave unit using a channel in the channel group to be scanned. The first to control 3 Since the master unit calls the slave unit in the channel group in which the slave unit is scanning without scanning on all channels, the master unit can relatively quickly communicate with the slave unit. A wireless link can be established between them.
[0014]
Hereinafter, a cordless telephone according to an embodiment of the present invention will be described with reference to FIGS.
[0015]
(Embodiment 1)
In FIG. 1, reference numeral 10 denotes a base terminal, that is, a parent device, of a cordless telephone, and reference numeral 11 denotes a portable terminal, that is, a child device. 1 is a telephone line.
[0016]
In the parent machine 10, reference numeral 2 denotes a button operation unit, and reference numeral 3 denotes a storage device. Reference numeral 5 denotes a transmitting / receiving unit that converts an audio signal, control data, or the like into a wireless signal and transmits the signal, and demodulates and outputs an audio signal, control data, or the like from the received signal. Reference numeral 4 denotes a control unit in the base unit 10, which detects input / output of the telephone line 1, controls the button operation unit 2, the storage device 3, and the transmission / reception unit 5.
[0017]
In the slave unit 11, a transmission / reception unit 6 converts an audio signal, control data, or the like into a wireless signal and transmits the signal, and demodulates and outputs an audio signal, control data, or the like from the received signal. 8 is a storage device, and 9 is a button operation unit. Reference numeral 7 denotes a control unit of the slave unit 11, which controls the button operation unit 9, the storage device 8, and the transmission / reception unit 6. The control unit 7 includes a timer 7a for controlling intermittent reception, and the timer 7a sends an operation command signal to the transmission / reception unit 6 periodically. Reference numeral 12 denotes a battery for driving the slave unit 11.
[0018]
In the standby state, in order to establish a wireless link between the master unit 10 and the slave unit 11, a reception channel scan is constantly performed to check whether a transmission signal of the other party is being transmitted. In the cordless telephone according to the present embodiment, as transmission and reception channels, 30 channels are prepared for transmission and reception pairs on a full-duplex line. The slave unit 11 is driven by power supplied from the battery 12, and is in a state of waiting for reception of a transmission signal from the master unit 10 except during a call.
[0019]
FIGS. 2 and 3 are flowcharts showing a control procedure of the slave unit 11 of the wireless device according to Embodiment 1 of the present invention. First, the standby state will be described. In FIG. 2, in step 1, it is checked whether a transmission request has been made by the user. In step 2, it is determined whether or not the timer 7a for intermittent reception control is on. If the timer 7a is not on, the process returns to step 1. If the timer 7a is on in step 2, the process proceeds to the next step 3 to enter the reception state. In step 3, the channel of the number stored in the storage device 8 is given to the transmission / reception unit 6 as a starting channel, and the reception operation of the transmission / reception unit 6 is started. The channel number stored in the storage device 8 is the number of the channel used when the wireless link was formed last time.
[0020]
In step 4, it is determined whether or not data has been received from master device 10. If data has not been received, the channel number given to the transmission / reception unit 6 is updated to the number of another channel in the restricted scan channel group (step 6), and the process returns to step 4. If the scanning has been completed for all the channels in the limited scan channel group (step 5), the receiving state is terminated, and the process returns to the original step 1.
[0021]
As described above, in the present embodiment, the intermittent reception is performed. For example, as shown in FIG. 7, the power supply to the receiving unit is started at a certain time interval by the timer 7a, and the master unit 10 transmits the channels in the limited scan channel group. It monitors whether a transmission signal is being issued.
[0022]
Further, in the present embodiment, a total of 30 channels are allocated as a channel space. However, in the limited scan, the number of channels is not 30 channels, but 1/6 of 30 channels, that is, 5 channels. , The rise time of the power supplied to the receiving unit is reduced. When the power supplied to the receiver rises, if the starting channel at that time is 1ch, scanning is started from 1ch, and signals are received by switching channels within the limited scan channel group in the order of 4ch, 7ch, 10ch, 13ch, etc. If no signal is detected, the power supply to the receiving unit is stopped and the system enters the sleep mode.
[0023]
By the way, when all the channels are scanned as in the related art, as shown in FIG. 6, when the power supplied to the receiving unit rises, the scanning starts from 1ch, and 2ch, 3ch, ---, 29ch, and 30ch. Channels are switched among all channels to check whether a signal is received. In this case, data for channel setting is transmitted to the PLL for each channel by the number of all channels, and the channels are locked and stabilized. This requires the time for all the channels, and the power consumed by the receiving unit is required accordingly.
[0024]
In FIG. 2, when data reception from the master unit 10 is detected in step 4, the process proceeds to step 7, and the information of the channel given to the transmission / reception unit 6 at that time is stored in the storage device 8. Then, by transmitting control data for response to the base unit 10 on the channel (step 8), a wireless link is formed, and a circuit for voice communication is operated to shift to a voice communication state (step). 9). Note that the channel stored in the storage device 8 in step 7 is the starting channel thereafter.
[0025]
When the user performs the operation of terminating the call, the wireless link is released (step 10). Then, in step 11, a restricted scan channel group is determined based on the starting channel at that time.
[0026]
Next, a case where a call is transmitted from the slave unit 11 will be described. When the user performs a transmission operation, the presence of a transmission request is detected in step 1 of FIG. 2, and the process proceeds to step 12 of FIG. In step 12, the latest channel number information stored in the storage device 8 is given to the transmission / reception unit 6. Next, in step 13, the transmitting / receiving unit 6 is caused to perform a receiving operation, and the state of the electric field in that channel at that time is checked.
[0027]
If it is determined in step 13 that the electric field is weak, the channel is recognized as being idle, and the process immediately proceeds to the step of transmitting control data. If it is determined in step 13 that the electric field is strong, the channel is recognized as being unusable, and the channel is switched to another channel. That is, if it is determined that the electric field is a strong electric field, the number of the channel to be given to the transmitting / receiving section 6 is updated (step 14), the transmitting / receiving section 6 is made to perform a receiving operation on another channel, and the state of the electric field in that channel at that time is examined. (Step 15). For example, the number is updated to a number obtained by adding 15 to the number of the first received channel.
[0028]
The channel number is updated, and if it is determined in step 15 that the electric field is weak, the process immediately proceeds to the step of transmitting control data. If it is determined in step 15 that the electric field is strong, the process returns to step 14 to further increase the channel number. To check the state of the electric field in the channel.
[0029]
If it is determined in steps 13 and 15 that the electric field is weak, the channel number at that time is written in the control data for transmitting to the base unit 10 in step 16 and a transmission request is sent together with this control data in step 17. Is transmitted to the base unit 10.
[0030]
When the user performs the transmission operation in this way, the data transmission to the base unit 10 is performed after checking whether the channel used for transmission is idle or not, and the starting channel checked first cannot be used. If so, switch to another channel and transmit.
[0031]
After transmitting the data to the base unit 10, it is checked in step 18 whether response data is received from the base unit 10. When the response data from the base unit 10 is received, the process proceeds to step 7 shown in FIG. 2, and the information of the channel given to the transmitting / receiving unit 6 at that time is stored in the storage device 8, and the process proceeds to the step for forming a wireless link. Move on. If no response data is received from the base unit 10 in step 18, the process returns to step 14 to further update the channel number to be given to the transmission / reception unit 6, but a predetermined time has elapsed since the user has already performed the calling operation. If so (step 19), the channel update and transmission are stopped, and the process returns to step 1 to be in a standby state.
[0032]
4 and 5 are flowcharts showing a control procedure of master device 10 of the wireless device according to Embodiment 1 of the present invention. First, the standby state will be described. In FIG. 4, in step 20, it is checked whether or not a transmission request (such as an incoming call from a telephone line) to the slave unit 11 has occurred. If no transmission request has been issued to the slave unit 11, the standby state is maintained. In step 21, it is checked whether control data has been received from the slave unit 11. If data has not been received on the channel at that time, the channel is updated by adding 1 to the channel number given to the transmitting / receiving section 5 (step 22), and the control data reception from the slave unit 11 is checked subsequently. As described above, in the standby state, the control data reception from the slave unit 11 is checked while switching the channel number by one.
[0033]
When the data reception from the slave unit 11 is detected in step 21, the process proceeds to step 23, and the information of the channel given to the transmission / reception unit 5 at that time is stored in the storage device 3. Then, by transmitting control data for response to the slave unit 11 on the channel (step 24), a wireless link is formed, and a circuit for voice communication is operated to shift to a voice communication state (step). 25).
[0034]
Next, a case where the parent device 10 calls the child device 11 due to an incoming call or the like will be described. If there is an incoming call from the telephone line, the presence of a transmission request is detected in step 20 in FIG. 4, and the process proceeds to step 30 in FIG. In step 30, information on the channel number stored in the storage device 3 at that time is given to the transmission / reception unit 5. Next, in step 31, the transmitting / receiving unit 5 is caused to perform a receiving operation, and the state of the electric field in that channel at that time is checked. At this time, the channel number given from the storage device 3 to the transmission / reception unit 5 is the channel number used when the wireless link was formed last time. Check the state of the electric field with.
[0035]
If it is determined in step 31 that the electric field is weak, the channel is recognized as being idle, and the process immediately proceeds to the step of transmitting control data. If it is determined in step 31 that the electric field is strong, the channel is recognized as being unusable, and the process proceeds to a step for switching to another channel. That is, if it is determined in step 31 that the electric field is a strong electric field, the number of the channel given to the transmission / reception unit 5 is updated to the number of another channel in the limited scan channel group (step 32). (Step 33). If it is determined in step 33 that the electric field is weak, the process immediately proceeds to step 34 for sending control data. If it is determined in step 33 that the electric field is a strong electric field, the flow returns to step 32 to further update the channel to another channel in the limited scan channel group and check the state of the electric field in that channel.
[0036]
If it is determined in step 31 and step 33 that the electric field is weak, the channel number at that time is written in the control data for transmitting to the slave unit 11 in step 34, and the control unit and the slave unit The call data is transmitted to the slave unit 11.
[0037]
As described above, when it becomes necessary to call the slave unit 11 from the master unit 10 due to an incoming call or the like, the master unit 10 checks whether the channel used for transmission is idle, and then transmits the data for calling the slave unit. If the first channel checked is unusable, a search is made for a channel that is free from other channels in the limited scan channel group at that time and transmitted.
[0038]
After transmitting the slave unit calling data to the slave unit 11, it is checked in step 36 whether response data is received from the slave unit 11. When the response data from the slave unit 11 is received, the process proceeds to step 23 shown in FIG. 4 and the information of the channel provided to the transmitting / receiving unit 5 at that time is stored in the storage device 3, and the process proceeds to the step for forming a wireless link. Move on. If no response data is received from the slave unit 11 in step 36, the process returns to step 32 to further update the channel number given to the transmission / reception unit 5, but if a predetermined time has elapsed since the incoming call has already been received, (Step 37) The channel update and transmission are stopped, and the process returns to Step 20 to be in a standby state.
[0039]
Next, a specific example of determining a limited scan channel group will be described. FIG. 8 is an explanatory diagram for describing a specific example of determining a restricted scan channel group of the wireless device according to the first embodiment, and shows a starting channel and a restricted scan channel group corresponding to the starting channel.
[0040]
When the restricted scan channel group is determined, the channel that was previously wirelessly linked is selected as a starting channel by skipping plus three channels, and a total of five channels are set as the channel group for the restricted scan. For example, as shown in FIG. 8, when the starting channel is 1, the limited scan channel groups are 1ch, 4ch, 7ch, 10ch and 13ch channels, and the receiving channel scan is performed in the group including these 5 channels. When the starting channel is 2, the restricted channels are the 2ch, 5ch, 8ch, 11ch and 14ch channels, and the receiving channel scan is performed in this group.
[0041]
For example, at one time, if the starting channel is 2ch, when the master unit 10 transmits to the slave unit 11, it is first checked whether or not 2ch is an empty channel. If the starting channel 2ch has an electric field (for example, another wireless device is in use), it is checked whether the next 5ch is an empty channel. If the 5ch is empty and the master unit 10 and the slave unit 11 have completed the wireless link operation on that channel, the starting channel for determining the limited scan channel group is updated to 5ch. Then, in step 11 shown in FIG. 2 and step 27 shown in FIG. 4, a limited scan channel group is determined starting from the 5 ch. That is, the originating channel is set to the channel on which the wireless link was formed immediately before.
[0042]
When the call between the parent device and the child device ends and the wireless link is released, the child device 11 enters the intermittent reception mode. As described above, if the starting channel of the restricted scan channel group is updated to 5ch at the time of the previous wireless link, the restricted receiving scan is performed while switching from 5ch to 5 channels such as 8ch, 11ch, 14ch, and 17ch. Is performed.
[0043]
Conversely, when a call is transmitted from the slave unit 11 to the master unit 10, if the originating channel cannot be used due to the presence of an electric field (for example, another wireless device is in use), an empty channel is searched by skipping plus 15 channels. Perform a wireless link operation. When a certain starting channel cannot be used due to the presence of an electric field, the channel is automatically switched to another channel, and electric field detection and transmission are performed. If the channel is automatically switched to another channel and a wireless link between the parent device and the child device is formed, the originating channel is updated.
[0044]
As described above, the originating channel at a certain point in time is the channel on which the wireless link was previously established between the parent device and the child device, and if the wireless link was established on a channel different from the previous originating channel, the originating channel thereafter Will be changed. Therefore, if a channel with an electric field is present at the time of sending a call, the originating channel changes, and the limited scan channel group changes accordingly.
[0045]
In this way, since the originating channel changes according to the situation at that time, it is possible to move and cover the entire channel band, so that the channel space is used over time and the effective use of the communication path is improved. It is possible.
[0046]
As described above, in the present embodiment, when compared with a cordless telephone adopting the intermittent reception system that performs all scans, for example, the standby time when all 30 channels are scanned is 60 hours. In the cordless telephone using the method, the standby time is drastically increased to 168 hours (7 days) by the intermittent reception system of the five-channel limited scan, and the battery life of the slave unit 11 can be extended.
[0047]
Further, by limiting the number of channels to be linked, the reception hit rate at the time of reception scanning is increased, so that time for scanning unnecessary channels is not required, and the time required for link establishment can be shortened.
[0048]
(Embodiment 2)
The circuit configuration and the like in the second embodiment of the present invention are almost the same as those in the first embodiment, but the method for determining the limited scan channel group is different. In the present embodiment, a total of 60 channels are allocated, and devices using odd-numbered channel groups and devices using even-numbered channel groups are determined by ID codes. In addition, in both the odd-numbered channel group and the even-numbered channel group, channels are selected by skipping plus 14 channels, and a total of five channels are set as channel groups for limited scanning.
[0049]
For example, in an apparatus defined to use an odd-numbered channel group by an ID code, in FIG. 9, if, for example, 15ch is a starting channel, the limited scan channel groups are 15ch, 29ch, 43ch, 57ch, and 11ch surrounded by a solid line frame. A channel scan is performed on a group consisting of these five channels. When the starting channel is 29 ch, the limited channel groups are 29 ch, 43 ch, 57 ch, 11 ch, and 25 ch surrounded by a broken line frame, and channel scanning is performed in this group.
[0050]
Also, in an apparatus determined to use an even-numbered channel group by an ID code, in FIG. 9, for example, if 2ch is a starting channel, the limited scan channel groups are 2ch, 16ch, 30ch, 44ch, and 58ch.
[0051]
As described above, by selecting the channel for the limited scan by skipping plus 14 channels, even during the limited scan, the channel is used in the entire permitted frequency band. Even if noise or the like occurs partially, the limited scan is performed over a wide range, so that there is little possibility that the noise or the like will be disturbed.
[0052]
【The invention's effect】
According to the present invention, in order to solve the above-described conventional problems, a slave scans a predetermined channel group included in a wireless channel that can be transmitted and received by a transceiver, confirms whether a calling signal from a master is present, and Since the handset uses the channels in the channel group that the handset is scanning to call the handset, the time required for one scan is shorter than scanning all wireless channels. Therefore, when intermittent reception is performed, the time during which the transceiver is operating is shorter than when all channels are scanned, and power saving can be achieved. In addition, since the number of radio channels to be scanned is limited, the detection of a call from the master unit is quickened, so that the time until the link between the master unit and the slave unit is established can be shortened.
[Brief description of the drawings]
FIG. 1 is a block diagram of a wireless device according to Embodiment 1 of the present invention.
FIG. 2 is a flowchart showing a control procedure of a slave unit of the wireless device according to the first embodiment;
FIG. 3 is a flowchart showing a control procedure of a slave unit of the wireless device according to the first embodiment;
FIG. 4 is a flowchart showing a control procedure of a master unit of the wireless device according to the first embodiment;
FIG. 5 is a flowchart showing a control procedure of a master unit of the wireless device according to the first embodiment;
FIG. 6 is a time chart when intermittent reception is performed during scanning of all channels.
FIG. 7 is a time chart when intermittent reception is performed during limited channel scanning.
FIG. 8 is an explanatory diagram for describing a specific example of determining a limited scan channel group of the wireless device according to the first embodiment of the present invention.
FIG. 9 is an explanatory diagram for describing a specific example of determining a limited scan channel group of a wireless device according to Embodiment 2 of the present invention.
[Explanation of symbols]
1 telephone line
2 Button operation unit
3 Storage device
4 control unit
5 Transceiver
6 Transceiver
7 control section
7a Timer
8 Storage device
9 Button operation part
10 Base unit
11 slave unit
12 Battery

Claims (3)

A base unit, comprising a slave unit having a transmitting and receiving unit that performs transmission and reception with the master unit, the slave unit,
First storage means for storing channel numbers for transmission and reception ;
At the time of standby, the transmission / reception unit is controlled to perform intermittent reception for receiving at a predetermined time interval. First control means for performing a reception scan in a channel group consisting of: and receiving a call signal from the master unit;
When a wireless link is established between the master unit and the slave unit, a channel number indicating a channel at that time is stored in the first storage unit, and a second control unit that determines a channel group starting from the channel is provided. ,
The master unit is
Second storage means for storing channel numbers for transmission and reception;
When it becomes necessary to call the slave, it is determined whether or not the channel stored in the second storage means is usable. If the channel is usable, a signal is transmitted to the slave on the channel. If the channel stored in the second storage means cannot be used, an available channel is searched for from a channel group starting from the channel stored in the second storage means, and the slave unit is searched. And third control means for transmitting a signal.
Wireless device characterized by the following: When calling the master unit from the slave unit, first, the first control means of the slave unit gives a channel selected from a channel group to be scanned to the first transmitting / receiving unit to determine whether the channel is usable. Judgment is made, and if available, a signal is sent to the master unit on that channel. If this channel is unavailable or there is no normal response from the master unit on this channel, it can be used from all channels 4. The wireless device according to claim 1 , further comprising: fourth control means for searching for a suitable channel and transmitting a signal to the parent device. Consisting of a master unit connected to a wired line and a slave unit performing wireless communication with the master unit,
The slave unit is
A first transmitting / receiving unit capable of accessing a plurality of wireless channels and transmitting / receiving to / from the parent device via the wireless channels;
At the time of standby, the first transmission / reception unit is controlled to perform intermittent reception for receiving at predetermined time intervals. In this intermittent reception, the number of all channels included in all the channels that can be transmitted / received by the first transmission / reception unit is included. First control means for causing a reception scan to be performed in a channel group composed of a smaller number of channels and confirming the presence / absence of a call signal from the base unit;
First storage means for storing channel numbers for transmission and reception ;
When a wireless link is established between the master unit and the slave unit, a channel number indicating a channel at that time is stored in the first storage unit, and a second control unit for newly determining a channel group starting from the channel is provided. ,
When it is necessary to transmit a signal from the slave unit to the master unit, first, the channel number stored in the first storage unit is read, and the reception channel of the first transmission / reception unit is matched with the channel. Judge whether the channel is available or not, and if available, send a signal to the master unit on that channel. If this channel is unavailable or there is no normal response from the master unit on that channel, send another signal. It is determined whether or not it can be used by switching to the channel, and if it can be used, a signal is transmitted to the base unit in a manner of transmitting a signal to the base unit on that channel. Control means,
The master unit is
A second transmitting / receiving unit capable of accessing a plurality of wireless channels and transmitting / receiving to / from the slave unit via the wireless channels;
Second storage means for storing channel numbers for transmission and reception;
In the standby state, a seventh control unit that matches the channel number stored in the second storage unit with the transmission / reception channel of the second transmission / reception unit and maintains the reception state on this channel;
When it becomes necessary to call the slave unit, the channel number stored in the second storage means is first read out, the reception channel of the second transmission / reception unit is matched with the channel, and the channel is used. It is determined whether or not it is possible, and if it is usable, a signal is transmitted to the slave unit on that channel. If the channel stored in the second storage means is not usable, the channel group at that time is used. An eighth control means for switching to another channel in the system to determine whether or not it can be used, and transmitting a signal to the child device on that channel if available ;
A wireless device comprising: ninth control means for storing a channel number indicating a channel at that time in a second storage means when a wireless link is established between a slave unit and a master unit.

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