JP2864625B2 - Cordless telephone - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

Description will be made in the following order. A Industrial Field of Use B Summary of the Invention C Prior Art D Problems to be Solved by the Invention E Means for Solving the Problems (FIG. 1) F Function G Embodiment G ₁ First Embodiment (1st Embodiment) Figure ~ Figure 7) G ₂ a second embodiment (Figure 8) field of the effect a industrial G ₃ another embodiment H iNVENTION this invention relates to a cordless telephone. B. Summary of the Invention The present invention relates to a cordless telephone which, when a cordless telephone is added, uses a call code given to the cordless telephone as a personal identification number to erroneously call the cordless telephone to the cordless telephone of another cordless telephone. Is not written. C. Prior Art A cordless telephone is based on a set of a base unit (base unit) connected to a telephone line and a handset (slave unit) connected to the base unit by a telephone. In some units, a second or subsequent handset can be added to a unit. By the way, the handset and the base unit are provided with a unique system identification code (call code) to prevent the handset and the base unit from being connected to another cordless telephone. In this case, the identification code is 25 bits, of which the upper bits are assigned to different values for each manufacturer, and the lower bits are assigned to different values for each set of cordless telephones at each manufacturer. Therefore, for example, when a call is made, the handset transmits a call request signal and a system identification code to the base unit. The base unit compares the transmitted system identification code with its own system identification code, and when both codes match, performs the call processing in accordance with the call request signal. If they do not match, the call request signal is ignored. Use a system identification code, such as Therefore, when adding a handset, it is necessary to register a system identification code in the additional handset. As a method for registering the system identification code in the handset to be added, there is a method of connecting the handset to be added and the base unit through radio waves. That is, the system identification code is input to the handset.
Enter the password ID for the additional handset. A system identification code registration start instruction is input to the base unit. Enter the password ID into the base unit. Then, a channel by radio waves is opened between the extension handset and the base unit using the secret code ID instead of the system identification code at the time of the above-mentioned call, and thereafter, the system is transmitted from the base unit to the extension handset through this channel. An identification code is sent and registered in the additional handset. D Problems to be Solved by the Invention However, in order to register the system identification code in the additional handset as described above, a numeric keypad for inputting a password ID into the base unit is required. In this case, if the base unit also has a dial key and a handset and can make a call from the base unit, the dial key can be used as a numeric keypad for inputting a password ID. However, if the base unit cannot make a telephone call, the personal identification number ID cannot be input, and therefore, an additional handset cannot be realized. In addition, the user has to input the personal identification number ID to each of the additional handset and the base unit, which complicates the operation. Especially for those who lack this kind of knowledge, it can be troublesome. The present invention is intended to solve such a problem. E. Means for Solving the Problems When examining a cordless telephone, the system identification code given to the cordless telephone is different for each maker and for each one as described above. The system identification code is required to be displayed outside or inside the base unit by the Radio Law. The present invention focuses on such a point. That is, in the present invention, a predetermined key of the additional handset is pressed, and a part of the system identification code displayed on the base unit is input from the dial key as a personal identification number ID. Then, the additional handset transmits to the base unit the signal of the request for writing the system identification code and the password ID input by dialing. At this time, if a predetermined key on the base unit is pressed, the security code ID transmitted from the
And the corresponding part of the own system identification code,
If they match, the base unit sends a system identification code to the handset. The handset registers the transmitted system identification code in the memory. It is like that. Function F Regardless of the presence or absence of the dial key of the base unit, the system identification code is registered in the additional handset by a simple key operation. G Example G ₁ First Example FIG. 1 shows a case of a cordless telephone of a low power type, wherein (1) is its handset, (2) is a base unit, and (3) is a telephone line. In the handset (1), (110) is its transmitting circuit, (120) is its receiving circuit, and the transmitting circuit (11
0) converts the voice signal St and the command signal CMND (to be described in detail later) into an upstream channel FM signal Su and transmits the signal. The receiving circuit (120) receives the downstream channel FM signal Sd and It demodulates the audio signal Sr and the command signal CMND. Further, in the handset (1), (131) is a dial key, (132) is a talk key, and the talk key (132) is a non-locking type push switch. Each time the key (132) is pressed, the handset (132) is pressed. 1)
Are alternately switched between the standby mode and the talk mode. In the standby mode, the handset (1) waits for an outgoing call, monitors the reception of a downlink channel and waits for a connection request from the base unit (2), and in the talk mode, the base unit (1). 2) continuous reception and transmission are performed. (133) to (137) are auxiliary keys such as a program key formed by a non-lock type push switch, (139) is a speaker for a ringer or the like, and (140)
Is a microcomputer for system control. Then, in the microcomputer (140), the transmission circuit (110)
And the command signal CMN extracted from the receiving circuit (120).
D is determined. Furthermore, in the microcomputer (140),
Permitting transmission / reception of the transmission circuit (110) and the reception circuit (120)
Control signals TCTL and RCTL for prohibition and channel designation
Is also formed. The microcomputer (140) is also provided with, for example, a routine (300) of a flowchart shown in FIG. Reference numeral (141) denotes a non-volatile memory, for example, a ROM which can be electrically erased and written. The memory (141) has, as described above, a code for distinguishing the cordless telephone from other cordless telephones. A 25-bit system identification code (call code) SYID is stored. Further, when the handset is added, the handset (1)
Is assigned a handset number of one digit, and the handset number is stored in the memory (141) as a 4-bit handset identification code HSID. However, when the handset (1) is purchased, none of these identification codes SYID and HSID are stored. On the other hand, the base unit (2) is a handset (1)
Has a transmission circuit (210) and a reception circuit (210) similar to the transmission circuit (110) and the reception circuit (120), and the reception circuit (220) receives a call from the telephone line (3) in the standby mode. While waiting for a call, it monitors the reception of an uplink channel and waits for a connection request from the handset (1), and performs continuous reception and transmission with the handset (1) in the talk mode. Further, in the base unit (2), (233) is a switch for registering an identification code, (240) is a microcomputer for system control, and this microcomputer (240) is a microcomputer (14) in the handset (1).
It performs the same processing as in (0) and also manages the overall operation of the cordless telephone. The microcomputer (240) is also provided with, for example, a routine (400) of a flowchart shown in FIG. Also, (241) is a memory, which corresponds to the memory (141).
In addition to the SYID, the handset identification code HSID of the handset (1) used with the base unit (2) is also written. Further, (261) is a 4-wire / 2-wire conversion circuit, (262) is a switch circuit corresponding to a hook switch of a general telephone,
(263) is a circuit for forming a dial tone signal (DTMF signal), and (264) is a circuit for detecting a ring tone signal. An identification code SYID is displayed in a portion of the base unit (2) that cannot be seen by the user. FIG. 2 shows an example of a signal format of the command signal CMND. The signal CMND has a 24-bit bit synchronization signal BSYN at the beginning, and then a 16-bit frame synchronization signal.
Has FSYN. In this case, these signals BSYN and FSYN are, for example, BSYN = “101010 ‥‥‥‥‥‥ 10” FSYN = “1100010011010110” ‥‥ for the up channel FSYN = “1001001100110110” ‥‥ for the specific bit indicated for the down channel Has a pattern. Further, the command signal CMND is composed of a 25-bit system identification code (call code) SYID following the signal FSYN, a 12-bit error correction code ECC for this code SYID,
And a 5-bit control code CTRL following the dummy bit DBT. In this case, the control code CTRL is the first byte CT
L1 is a code indicating control contents of the handset (1) and the base unit (2), and the second byte CTL2 to the fifth byte CTL5 are parameters or data related to the first byte CTL1. For example, if the base unit (2) is a handset (1)
CTL1: Code indicating that the call channel is notified CTL2: Identification code HSID of the other handset (1) CTL3: Channel number of the call channel CTL4, CTL5: Dummy. When the handset (1) or the base unit (2) receives the command signal CMND,
In the microcomputer (140) or (240), the signal CM
An identification code whose identification code SYID (and HSID) included in the ND is stored in its own memory (141) or (241)
Check for a match with SYID (and HSID)
Only when they match, the command signal CMND is made valid, and when they do not match, it is made invalid.

[During standby]

At the time of standby, the handset (1) is waiting for an outgoing call, and monitors reception of a downlink control channel and waits for a connection request from the base unit (2). Further, the base unit (2) waits for an incoming call from the telephone line (3), and also monitors reception of an uplink control channel and waits for a connection request from the handset (1).

[Call]

The call from the handset (1) to an outside line may be, for example, a third call.
This is performed as in the connection sequence shown in the figure. That is,
In the figure, the vertical solid line indicates the handset (1).
And a channel used by the base unit (2), C is a control channel, and V is a communication channel.
In addition, the solid line indicating this channel indicates that when there is no hatching, the receiving state is in the standby mode, and when there is hatching, transmission is allowed in the talk mode or the like. However, for the sake of drawing, this time axis is not linear. When the talk key (132) is pressed while the handset (1) is in the standby mode, this is detected by the microcomputer (140), and the transmission control signal TCTL is supplied from the microcomputer (140) to the transmission circuit (110). Thereby, the transmission circuit (110) and the reception circuit (120) are permitted to transmit and receive on the control channel to enter the talk mode, and the microcomputer (140) controls the control code C
The TRL forms a command signal CMND indicating a call request and an identification code HSID.
Is supplied to the transmission circuit (110). Therefore, in the transmission circuit (110), the signal CMND is converted into an FM signal (FSK signal) Su of the uplink control channel, and this signal Su is transmitted to the base unit (2) through the antenna (100). Then, in the base unit (2), the signal (radio wave) Su is received by the antenna (200). At this time, since the base unit (2) is in the reception monitoring state of the uplink control channel, the reception circuit (220) ) In FM
The command signal CMND is demodulated from the signal Su, and this signal CMND
Is supplied to the microcomputer (240), and it is checked whether the identification code SYID included in the signal CMND matches the identification code SYID of the memory (241). Then, in this case, the transmission control signal TCTL is supplied from the microcomputer (240) to the transmission circuit (210) because the transmission and the request are the same from the handset (1). In the microcomputer (240), the control code CTRL is a command signal indicating permission for calling, an identification code HSID, and a channel number of the communication channel.
A CMND is formed, and the command signal CMND of the call response is supplied to the transmission circuit (210). Therefore, the transmission circuit (21) of the base unit (2)
At 0), the signal CMND is converted into an FM signal Sd of the downlink control channel, and this signal Sd is transmitted to the handset (1) via the antenna (200). Then, in the handset (1), the FM signal Sd is transmitted from the base unit (2) through a downlink control channel.
Is received by the antenna (100) and supplied to the receiving circuit (120), and the receiving circuit (120)
Command signal CMND is extracted from the microcomputer (14
0). Then, the identification code included in the command signal CMND
Since the SYIS, HSID matches the identification code SYIS, HSID stored in the memory (141), the transmitting circuit (110) and the receiving circuit (120) receive the command signal CMND in response to the control signals TCTL, RCTL. Of the channel number indicated by the control signal CTRL. In the base unit (2), when the communication channel is instructed to the handset (1A) by the command signal CMND, the microcomputer (240) subsequently sends the transmission circuit (210).
The transmission control signal TCTL and the reception control signal RCTL are supplied to the transmission circuit (210) and the reception circuit (2).
20) is switched to the communication channel of the channel number specified by the microcomputer (240) to the handset (1). Therefore, a communication channel has been opened between the handset (1) and the base unit (2). At this time, if there is a second or later handset (1), the second or later handset (1) also transmits the FM signal Sd transmitted from the base unit (2).
Is received, but since the transmitted identification code HSID does not match its own, the standby mode in the downstream control channel is maintained. Further, in the base unit (2), the switch circuit (262) is turned off-hook, and the transmission circuit (210)
The receiving circuit (220) is connected to the line (3) through the conversion circuit (261) and the switch circuit (262). Therefore, the handset (1) is connected to the line (3) through the communication channel and the base unit (2).

【Dial】

Subsequently, when the caller inputs the telephone number of the other party using the dial key (131) of the handset (1), a control signal CTRL indicates transmission of the telephone number and a command signal CMND indicating the telephone number is formed. , This signal CMND,
The signal is converted into the FM signal Su of the communication channel and transmitted. Therefore, in the base unit (2), the command signal CMND is obtained from the receiving circuit (220).
Since the control mode CTRL of the signal CMND indicates the telephone number and indicates the telephone number, the forming circuit (263) is controlled by the microcomputer (240) according to the telephone number and sent from the handset (1). A dial tone signal corresponding to the telephone number is formed, and this signal is sent to the telephone line (3) through the conversion circuit (261) and further through the switch circuit (263).

[Call]

When the other party answers the phone, the audio signal SR from the other party
The signal is supplied to the transmission circuit (210) through the signal line of the line (3) → the switch circuit (262) → the conversion circuit (261). Therefore, the signal Sr is converted into a downlink FM signal Sd, and this signal Sd is transmitted from the antenna (200). Then, the signal Sd is received by the handset (1), and the audio signal Sr is extracted from the receiving circuit (120).
This signal Sr is supplied to the receiver (121). At the time of transmission, the audio signal St from the transmitter (111) is transmitted.
Is supplied to the transmission circuit (110) and converted into an upstream FM signal Su, and this signal Su is transmitted from the antenna (100) to the base unit (2). Then, the signal Su is received by the base unit (2), and a signal St is extracted from the receiving circuit (220). The signal St is converted into a conversion circuit (261) and a switch circuit (262).
Is supplied to the line (3) and sent to the other party's telephone. Therefore, a communication channel is opened between the handset (1) and the base unit (2), and thereafter, a call can be made between the other party and the handset (1).

[General incoming calls]

A general incoming call from an outside line to the handset (1) is performed, for example, according to a connection sequence shown in FIG. That is, when there is an incoming call through the line (3), the ring tone signal is detected by the detection circuit (264), and this detection signal is supplied to the microcomputer (240). Then, a command signal CMND indicating that the control code CTRL is an incoming call, the identification code SHID of the handset (1) and the channel number of the communication channel is formed, and the incoming call command CMND is transmitted from the base unit (2) It is transmitted through the downlink control channel. Then, in the handset (1), the transmitted identification codes SYID and HSID are checked, and in this case,
Since these match their own, transmission of the FM signal Su is permitted, and a control signal CTRL is formed as a command signal CMND indicating an incoming call response and a handset identification code HSID. CMND is transmitted to the base unit (2) through an uplink control channel. When the command signal CMND of the incoming call response is received in the base unit (2), the channel is switched to the communication channel instructed to the handset (1). In the handset (1), when the command signal CMND indicating the incoming call response is transmitted, the channel is subsequently switched to the communication channel specified by the base unit (2). When there is a second or later handset (1), a command signal CMND indicating an incoming call from the base unit (2) is issued.
Is received, but since the identification codes HSID do not match, the command signal CMND of the call request from the base unit (2) is received.
Is ignored. Then, in the base unit (2),
A command signal CMND indicating that the control code CTRL sounds the ringer is formed, and the signal CMND is transmitted through the communication channel. When the handset receives the ringer's command signal CMND, the microcomputer (140) controls the oscillation circuit (138) to form a ringer signal, which is supplied to the speaker (139) and From (139), a bell is sounded to announce the incoming call. Then, in the handset (1), when the talk key (132) is pressed, the control code CTRL is a response to the called, the identification code HSID, and one of the keys (132) to (137) is pressed. Command signal C indicating that the pressed key is the talk key (132).
MND is formed and this signal CMND is transmitted,
The oscillation circuit (138) of the handset (1) is turned off and the ringer is turned off. And the command signal from this handset (1)
When the CMND is received by the base unit (2), the switch circuit (22) is controlled by the microcomputer (240) to bring the switch circuit (262) of the base unit (2) into an off-hook state, and the base unit (2) , Line (3). Therefore, a communication channel is opened between the handset (1) and the base unit (2), and thereafter, a call can be made between the other party and the handset (1).

[End talk]

When the call is terminated, for example, as shown in FIG. 5, when the talk key (132) of the handset (1) is pressed, a control signal CTRL is generated and a command signal CMND indicating the end of the call and the identification code HSID is generated. Then, the end command signal CMND is transmitted to the base unit (2) by the FM signal Su of the communication channel. Then, the command signal CMND is extracted from the receiving circuit (220) of the base unit (2), and the microcomputer (240) determines that the call has ended. As a result, the transmission of the transmission circuit (210) of the base unit (2) is controlled by the control signal T.
In addition to being inhibited by the CTL, the receiving circuit (220) is set to the receiving mode of the uplink control channel by the control signal RCTL. Further, the switch circuit (262) is also brought into the on-hook state. Therefore, the base unit (2) enters the standby mode. Further, also in the handset (1), after transmitting the command signal CMND indicating the end of the call, the transmission circuit (110) is prohibited from transmitting by the control signal TCTL and receives the reception circuit (12).
0) is set to the standby mode on the downstream control channel by the control signal RCTL.

[Registration of identification code]

When a handset (1) is added (the first is written at factory shipment and sold as a parent-child pair) and a battery (not shown) for the power supply is set, the microcomputer (140) performs a routine (300). Starting from step (301), and then in step (302), the transmission signal (110)
And the receiving circuit (120) is prohibited from transmitting and receiving,
The microcomputer (140) enters a sleep mode (power down mode) and enters a non-operation state in which only the keys (131) to (137) are input, and the handset (1) stands by in this non-operation state. In the base unit (2), when a power supply (this is a commercial AC power supply) is connected, the processing of the microcomputer (240) starts from the step (401) of the routine (400), and then proceeds to the step (402). ), The standby mode is set, the transmission circuit (210) is in the inhibited state, and the reception circuit (2)
20) monitors the uplink control channel and also monitors the registration switch (233). Then, the identification code SYID (and the handset (1))
When registering the HSID, the registration switch (233) of the base unit (2) is temporarily turned on, and the program key (133) of the handset (1), the talk key (132), and the dial key (131) are set. Press the number keys at the same time. In this case, the number pressed with the dial key (131) is a key indicating the handset number (handset identification code) HSID assigned to the handset (1). For example, the handset number "2" is assigned to the additional handset (1). Is assigned, the "2" key is used. Then, in the base unit (2), when the switch (233) is pressed, the process proceeds to step (402).
Then, the process proceeds to step (403). In this step (403), it is checked whether or not the reason that the process has proceeded to this step (403) is that the registration switch (233) has been pressed. Since (233) has been pressed, the process proceeds from step (403) to step (41).
Proceeding to 1), in this step (411), whether or not the control channel is used is checked by checking the presence or absence of the carrier component. Then, when the control channel is not used, the process proceeds from step (411) to step (412), and in this step (412), the control code CTRL
Is formed, a command signal CMND indicating that the registration of the identification codes SYID and HSID is performed.
Is transmitted to the handset (1) by the FM signal Sd of the downlink control channel, and thereafter, in step (413), the transmission of the transmission circuit (210) is prohibited. On the other hand, in the handset (1), since the key is pressed, the process proceeds from the step (302) to the step (303), and in this step (303), the pressed key is a program key (133); Talk key (132),
It is checked whether the key is a numeric key of the dial key (131), and since these keys have been pressed at the current location, the process proceeds from step (303) to step (311). Then, in this step (311), the receiving circuit (1
20) is allowed to receive on the downlink control channel,
The next processing proceeds to step (312), and this step (31)
2) In step (412), the registration command signal CM
It is checked whether the ND has been received, and since it can be received in this case, the processing is performed from step (312) to step (31)
Proceeding to 3), the oscillation circuit (138) is controlled and the speaker (13
A confirmation sound is output from 9), and then, in step (314), the system waits for the input of a personal identification number ID. Therefore, when the lower two digits of the identification code SYID displayed on the base unit (2) are input as a personal identification number ID using the dial key (131), the process proceeds from step (314) to step (321). , This step (32
In 1), it is checked whether the control channel is being used. Then, when the control channel is not used, the process proceeds from step (321) to step (322), and in this step (322), the control code CTRL
Is a response to the registration, a command signal CMND indicating the identification code (slave unit number) HSID input in step (302) and the password ID input in step (314) is formed, and this command signal CMND is Of the uplink control channel
The signal is transmitted to the base unit (2) by the FM signal Su.
At this time, the identification code SYID used in the command signal CMND is the identification code SYID transmitted in step (412). Then, in the base unit (2), the process proceeds to the step (421) following the step (413). In the step (421), the command signal CMND of the step (322) is outputted.
It is checked whether or not the password has been received. If the password has been received, the process proceeds from step (421) to step (422). In this step (422), the personal identification number ID transmitted in step (322) and the memory ( 241) is compared with the last two digits of the identification code SYID, and it is checked whether they match. If they match, the process proceeds to step (422)
To step (423). In this step (423), it is checked whether or not the identification code (slave unit number) HSID transmitted in step (322) has already been used. The process proceeds from step (423) to step (424). In this step (424), the control code CTRL is changed to the identification code SYI.
D and command signal C indicating permission to register identification code HSID
An MND is formed, and this signal CMND is transmitted to the handset (1) through a downlink control channel. And
When this transmission ends, the process returns to step (402), and the base unit (2) returns to the standby state. In the handset (1), the process proceeds to step (323) following step (322). In this step (323), the command signal CMND for inhibiting the registration of the identification code SYID from the base unit (2) is issued. It is checked whether it has been sent (this command signal CMND
Will be described later), such a command signal
When the CMND has not been transmitted, the process proceeds from step (323) to step (324), and the process proceeds to step (32).
4) In the base unit (2), the identification code HSI
It is checked whether a command signal CMND indicating that D is duplicated has been transmitted. If such a command signal CMND has not been transmitted, the process proceeds from step (324) to step (325). Then, in this step (325), step (4
It is checked whether the command signal CMND of 24) has been received. If the command signal CMND has been received, the process proceeds to step (325).
Then, the process proceeds to step (326). In this step (326), the system identification code SYID and the identification code HSID are written in the memory (141), and then in step (327), a confirmation sound is output from the speaker (139). Thereafter, since this handset (1) can be used, step (33)
At 0), the above-mentioned standby mode is entered. As described above, the system identification code SYID and the child device identification code HSID are registered in the additional handset (1). In step (303), the pressed key is
When it is checked whether or not the program key (133), the talk key (132), and the dial key (131) are numeric keys, if these keys are not pressed, the processing proceeds to step From (303), the process proceeds to step (309). In this step (309), a process corresponding to the pressed key is performed. Steps (312), (314), (321), (325)
If the target signal or input cannot be obtained in those steps, the process proceeds from those steps to steps (341) to (344) to check whether the time limit has been exceeded. Returns to the previous step and waits for the target signal or input again. When the time limit is exceeded, the process proceeds from steps (341) to (344) to step (349),
In this step (349), an error tone is output from the speaker (139).
Returning to 2), the handset (1) becomes inactive again. On the other hand, also in the base unit (2), in step (403), if the reason for proceeding to step (403) is not that the registration switch (233) has been pressed, the processing proceeds from step (403) to step (409). The corresponding process is performed in step (409). Further, in steps (411) and (421), when the target signal is not obtained in those steps, the processing is performed from those steps in steps (441) and (4).
Proceeding to step 42), it is checked whether the time limit has been exceeded. If the time limit has not been exceeded, the process returns to the previous step and waits for the target signal or input again. Steps 441) and (442) return to step (402). Further, in step (422), step (421)
If the personal identification number IDs received at step (d) do not match, the process proceeds from step (422) to step (443), where the control code CTRL is replaced with the identification code SYI
D, a command signal CMND indicating inhibition of HSID registration is formed, and this signal CMND is transmitted to the handset (1) through a downlink control channel. Then, the command signal CMND is detected in step (323) of the handset (1), and the processing in the handset (1) proceeds from step (323) to step (349). Further, in step (423), when the handset identification code HSID transmitted by the handset (1) in step (322) is duplicated, the process proceeds to step (42).
Go from step 3) to step (444), this step (444)
In, a command signal CMND is formed in which the control code CTRL indicates that the slave unit identification code HSID is duplicated, and this signal CMND is transmitted to the handset (1) through the downstream control channel. Then, the command signal CMND is detected in step (324) of the handset (1), and the process in the handset (1) proceeds from step (324) to step (345). In this step (345), the speaker (139) ) Produces another error tone, after which the process proceeds to step (349). As described above, according to the present invention, the system identification code SYID is added to the additional or first handset (1).
In this case, in particular, according to the present invention, the base unit (2)
Utilizing the fact that a unique identification code SYID is given to the additional handset (1), the system identification code SYID and the handset identification code HS
Since the password is used as the password when registering the ID, a ten-key for inputting the password into the base unit (2) is not required. Therefore, the handset (1) can be added even with the base unit (2) having no dial key. Furthermore, since it is only necessary to input the security code ID to the handset (1), and the same security code need not be input to the base unit (2), the identification code SYID and the handset identification code HSID can be easily registered. Can be. In addition, for that purpose, it is only necessary to make the identification code (call code) SYID required by the Radio Law visible to the user, and it is not necessary to add a special circuit or element. For example, only the last two digits of the identification code SYID
What is necessary is just to make it visible from the outside of the base unit (2), and to input this in step (314). Further, if the personal identification number ID is displayed on the base unit (2) separately from the identification code SYID by a sticker, for example, the personal identification number ID may be peeled off or contaminated, but in the present invention, it is displayed by the Radio Law. Identifying code
Since SYID is used, there is no problem that occurs when using a sticker or the like. G2 _Second Embodiment In the United States, 10 duplex channels (channels 1 to 10) are provided for cordless telephones, but no control channel is provided. Also, in Japan, a control channel is not prepared for a weak type cordless telephone. In the case of a cordless telephone having no control channel, a method as shown in FIG.
The connection between the handset (1) and the base unit (2) may be made. That is, since the base unit (2) operates on the commercial AC power supply, in the standby mode, the reception monitoring of the first channel to the tenth channel is sequentially performed, and the reception monitoring is constantly repeated to receive the connection request from the handset (1). stand by. At this time, the time required to detect a connection request from the handset (1) is about 120 ms per channel. Therefore, the handset (1) can request connection to the base unit (2) by using an arbitrary channel among the first to tenth channels. In the standby mode, the handset (1) monitors the reception of an available channel, for example, the third channel and the seventh channel, checks a connection request from the base unit (2).
The operation of entering the sleep mode for a second is repeated. Therefore, the base unit (2) can request a connection to the handset (1) using the third channel or the seventh channel. Therefore, registration of the identification codes SYID and HSID may be performed in the same manner as when there is a control channel. G3 Other Examples In the above description, even when the control channel can be used, steps (312), (322), (412), and (421)
Only the control channel may be used, and access to other command signals CMND may use the communication channel. Further, in the above description, in the base unit (2), the personal identification number ID transmitted from the handset (1) is used.
Was compared with the identification code SYID in the memory (241).
In the handset (1), the personal identification number ID transmitted from the base unit (2) and the dial key (131)
The password may be compared with the password ID input from. Further, the handset (1) may be provided with a key dedicated to registering an identification code, and the base unit (2) may be configured to simultaneously press a plurality of specific keys instead of the dedicated key (233). H Advantage of the Invention According to the present invention, the fact that the unique identification code SYID is given to the base unit (2) is used, and a part of the identification code SYID is transmitted to the additional handset (1) for system identification. Since the code SYID and the handset identification code HSID are used as the password ID for registration, there is no need for a numeric keypad for inputting the password ID to the base unit (2). Therefore, the handset (1) can be added even with the base unit (2) having no dial key. Furthermore, since it is only necessary to input the security code ID to the handset (1), and the same security code need not be input to the base unit (2), the identification code SYID and the handset identification code HSID can be easily registered. Can be. In addition, for that purpose, it is only necessary to make the identification code (call code) SYID required by the Radio Law visible to the user, and it is not necessary to add a special circuit or element. For example, only the last two digits of the identification code SYID are made visible from outside the base unit (2),
This may be input in step (314). Further, if the personal identification number ID is displayed on the base unit (2) separately from the identification code SYID by a sticker, for example, the personal identification number ID may be peeled off or contaminated, but in the present invention, it is displayed by the Radio Law. Identifying code
Since SYID is used, there is no problem that occurs when using a sticker or the like.

[Brief description of the drawings]

FIG. 1 is a system diagram showing an example of the present invention, FIG. 2 is a diagram showing an example of a signal format thereof, FIGS. 3 to 5 are sequence diagrams thereof, FIG. 6 and FIG. FIG. 8 is a view for explaining another example of the present invention. (1) is a handset, (2) is a base unit, (11)
0) and (210) are transmission circuits, (120) and (220) are reception circuits, (140) and (240) are microcomputers,
0) and (400) are processing routines.

Claims (1)

(57) [Claims] 1. A base unit connected to a telephone line, and a slave unit connected to an audio signal line through radio waves with the base unit during a call, wherein the base unit connects itself to another cordless telephone. A memory in which an identification code for distinction is written, and a display unit for displaying the identification code, wherein at least a part of the digits of the identification code displayed on the display unit is set to a dial of the slave unit. When inputting from the key, this input data is compared with the corresponding digit of the identification code written in the memory of the master unit. As a result of the comparison, the input data and the corresponding digit of the identification code are compared. A cordless telephone in which the identification code is registered in the slave unit when and.