JP3578208B2 - Mobile phone with emergency signal transmitter - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile phone provided with an emergency signal transmitting device.
[0002]
[Prior art]
Mobile telecommunications equipment, which began with car phones, has been rapidly expanding in quantity along with qualitative rapid progress along with the miniaturization of equipment due to the miniaturization of electronic components and the spread of wireless communication networks. The spread of portable electronic devices, particularly mobile phones, has been remarkable. With mobile phones, it is possible to make emergency calls to police and fire departments by calling out a predetermined emergency phone number in the same way as a conventional ordinary phone, but depending on the physical condition and surrounding environment, using a key matrix It may be difficult to make a call with the specified emergency telephone number.
[0003]
Japanese Patent Application Laid-Open No. 62-11365 discloses that an emergency call switch is provided so that, for example, in the case of taxi robbery or appearance of assault in a parking lot, a predetermined contact is notified of the occurrence of an emergency by a simple operation. Is disclosed.
[0004]
Japanese Patent Application Laid-Open No. 1-194726 discloses that the output of a call signal and a power supply display signal is stopped after an emergency key is input, an emergency call operation is performed when there is an incoming call, and an emergency call operation to an emergency connection destination is performed when there is no incoming call. 2. Description of the Related Art A mobile wireless terminal capable of notifying an intruder of an emergency by notifying an intruder by performing emergency voice output is disclosed.
[0005]
However, in any case, the notification of an emergency is limited to the service area where radio waves reach the mobile phone base, and outside of the service area, communication is not possible and a serious situation may occur. Although another radio such as an amateur radio was also carried together, there was a problem that the burden on the user was large.
[0006]
Japanese Patent Application Laid-Open No. Hei 7-113600 has a function of detecting whether or not a mobile phone is within a service area. When a specific command indicating an emergency state is input, an emergency state mode is set when the mobile phone is outside the service area. The emergency rescue request signal stored in advance is continuously transmitted at the same frequency as that of the mobile phone at a constant interval. A mobile phone with an emergency signal transmission function for confirming a position is disclosed.
[0007]
[Problems to be solved by the invention]
In the mobile phone with an emergency signal transmission function disclosed in Japanese Patent Application Laid-Open No. Hei 7-113600, it is possible to report the occurrence of an emergency even outside the service area, but it is necessary for the user to generate an emergency mode, and for example, When the mobile phone cannot be operated due to a fall in the mountains or the like, there is a problem that the occurrence of an emergency cannot be reported.
[0008]
An object of the present invention is to provide a mobile phone with an emergency signal transmitting device that can automatically notify of occurrence of an emergency after a preset time has elapsed, and can notify the location of the emergency.
[0009]
[Means for Solving the Problems]
The mobile phone with the emergency signal transmitting device of the present invention,
An emergency signal generation device-equipped mobile phone capable of automatically transmitting an emergency signal in an emergency, wherein the emergency signal generation device stores a predetermined time stored in a memory circuit when an emergency notification time set in a timer elapses in advance. Has a circuit that automatically transmits the emergency signal at a frequency different from the frequency used for normal external communicationIn a mobile phone with an emergency signal transmitting device, when a predetermined emergency signal generation command is further received, the predetermined emergency signal stored in the memory circuit is different from the frequency used for normal external communication. It has a circuit that automatically transmits at the frequency.
[0010]
SaFurther, a circuit that performs the same operation by a predetermined key input may be provided.
[0011]
A first wireless circuit for performing external communication at a first frequency used for normal external communication, a voice circuit, a channel codec, a memory circuit, a display circuit, a key matrix, and an emergency signal. A timer circuit capable of presetting a time until transmission, a second radio circuit transmitting a second frequency different from the first frequency, a control circuit controlling operation of each of these components, The control circuit includes a first antenna for a radio circuit and a second antenna for a second radio circuit. When a predetermined emergency command is input from the key matrix, the control circuit presets the timer circuit by the key matrix. When the predetermined emergency signal time elapses and when a predetermined emergency signal generation command is received via the first wireless circuit, the predetermined emergency signal stored in the memory circuit is transmitted to the second emergency circuit. Via a line circuit and the second antenna transmits at a second frequency, continuation is preferably outgoing until the power supply from either the battery stop command is input stops.
[0012]
A first wireless circuit that performs external communication at a first frequency used for normal external communication, a voice circuit, a channel codec, a memory circuit, a display circuit, a key matrix, A first timer circuit which can preset a time until calling an emergency contact at the first frequency, and a time period from the start of calling the emergency contact at the first frequency to the switching to transmission of an emergency signal at the second frequency; A second timer circuit capable of setting a time, a second wireless circuit for transmitting a second frequency different from the first frequency, a control circuit for controlling the operation of each of these components, and a first wireless circuit And a second antenna for a second radio circuit, wherein the control circuit is configured to receive an emergency command from the key matrix and to set a preset time in the first timer circuit. When the notification time elapses, an emergency is notified to a preset emergency contact at the first frequency, and after the emergency contact to the emergency contact is started, the emergency is preset to the second timer circuit. When the set switching time has elapsed and when a predetermined emergency signal generation command is received via the first wireless circuit, the predetermined emergency signal stored in the memory circuit is transmitted to the second wireless circuit and the second wireless circuit. It is preferable that the signal is transmitted at the second frequency via the antenna and the transmission is continued until a stop command is input or power supply from the battery is stopped.
[0013]
An analog signal including an AM modulation signal and an FM modulation signal is used as the emergency signal transmitted at the second frequency, and the emergency signal is preferably transmitted intermittently.
[0014]
The mobile phone with an emergency signal transmitting device of the present invention is characterized in that the mobile phone has a built-in circuit for generating an emergency signal in an emergency, generates an emergency signal in the event of a disaster or distress, and informs the location of the emergency. Can be generated after a predetermined time elapses by operation of a mobile phone, a timer, or an emergency signal generation command from the system.
[0015]
In addition, since an emergency contact can be automatically called using the first frequency before an emergency signal is generated and an emergency notification can be performed, the emergency notification is automatically performed when the mobile terminal is in the service area.
[0016]
The emergency signal uses an analog signal (AM, FM modulated signal, etc.), and by performing intermittent transmission, battery consumption is minimized and transmission can be continued for a long time.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
A mobile phone with an emergency signal generator according to the present invention is characterized in that a circuit for generating an emergency signal in an emergency is built in, an emergency signal is generated in a disaster or distress, and a location is notified.
[0018]
Next, a mobile phone with an emergency signal generator according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic block diagram of a mobile phone with an emergency signal generator according to a first embodiment of the present invention.
[0019]
The mobile phone 10 with an emergency signal generator according to the first embodiment of the present invention includes a first wireless circuit 11 for performing communication with the outside at a first frequency for a normal mobile phone, and a microphone and a speaker. Circuit 12 for performing coder / decoder processing between an electric signal of the radio circuit 11 and audio digital data of the audio circuit 12, a memory circuit 14 for storing data necessary for the processing, A display circuit 15 for displaying necessary contents, a key matrix 16 for key input, a timer circuit 17 for setting in advance a time from setting to transmission of an emergency signal, and a second circuit different from the first frequency. A second radio circuit 18 for transmitting the frequency of the second radio, a control circuit 19 for controlling the operation of each of these components, a first antenna 20 for the first radio circuit 11, and a second radio circuit. And a second antenna 21 for the circuit 18.
[0020]
The control circuit 19 receives an emergency command from the key matrix 16, an emergency notification time set in the timer circuit 17 by the key matrix 16, and a predetermined time via the first wireless circuit 11. When an emergency signal generation command is received, a predetermined emergency signal stored in the memory circuit 14 is transmitted at a second frequency via the second wireless circuit 18 and the second antenna 21 and a stop command is issued. Transmission is continued until is input or the power supply from the battery stops.
[0021]
It is desirable that the emergency signal be transmitted intermittently using an analog signal (such as an AM or FM modulation signal) in order to minimize battery consumption and allow transmission to continue for a long time. By transmitting without passing through the channel codec 13, power consumption can be reduced.
[0022]
Since the second frequency is different from the normal frequency of the mobile phone, calling within the service area does not disturb the normal mobile phone call. For the reception of the second frequency, a receiver capable of receiving the radio wave of that frequency is required. For example, a person concerned with the user of the mobile phone has a receiver capable of receiving the radio wave of that frequency, If a common frequency is assigned to the police and a receiver is installed in the police or fire department, it is possible to respond to such an emergency.
[0023]
Next, the operation of the mobile phone with an emergency signal generator according to the first embodiment of the present invention will be described with reference to FIGS. FIG. 2 is a flowchart of the operation of the mobile phone with an emergency signal generator according to the first embodiment of the present invention.
[0024]
There are the following three methods for generating an emergency signal. That is,
The first method is a state in which the user can operate the key matrix, and the control circuit 19 generates the emergency signal command by key input of the mobile phone, so that the control circuit 19 converts the emergency signal stored in the memory circuit 14 into the second signal. The signal is transmitted at the second frequency via the wireless circuit 18 and the second antenna 21. The command of the emergency signal may be generated by using a dedicated key, but may be performed by continuously pressing a predetermined key for a predetermined time or more, or simultaneously pressing two predetermined keys.
[0025]
Since the user usually does not know whether he is currently in the cell phone service area, he first informs the emergency contact in a normal manner of the occurrence of the emergency using the first frequency of the cell phone, It is desirable to generate an emergency signal command by key input when a call with the other party cannot be made. In this case, the position of the user can be confirmed by a person who senses the abnormality performs a search using a device that can receive the second frequency.
[0026]
The second method is to provide a timer in the mobile phone and generate an emergency signal after a lapse of a predetermined time from the setting. This assumes a case in which an accident occurs during mountain climbing or the like and the ship is distressed (a state in which the user cannot operate the mobile phone by himself, for example, when he is faint or unable to move).
[0027]
When dangers such as mountain climbing are involved, the time to return is important. Therefore, in case of emergency, the time of the scheduled time + α (for example, 2 hours) is set in the mobile phone with the emergency signal generator.
[0028]
After a set time (scheduled time + α) elapses, the mobile phone automatically generates an emergency signal to notify the distress location. This setting is valid even when the power of the mobile phone is “OFF”, and after the set time has elapsed, the power of the mobile phone is automatically turned “ON” and an emergency signal is transmitted. If no return is made after the elapse of the scheduled time, the search can be facilitated by searching for the intended route with a receiver capable of receiving the second frequency.
[0029]
In the third method, an emergency signal transmission command is transmitted from the mobile phone system (base station), and the mobile phone generates a signal.
[0030]
This is for the purpose of searching for a person whose location has become unknown due to being buried alive due to an accident or disaster, and is possible only in a service area where a mobile phone can be used.
[0031]
Since the mobile phone in the service area performs location registration (a function of notifying the system of the identification code of the mobile phone) to the system, the area where the mobile phone exists can be specified by the base station that has received the location registration. Therefore, by transmitting an emergency signal transmission command to the mobile phone, the mobile phone can transmit an emergency signal, thereby enabling accurate location confirmation.
[0032]
This operation will be described with reference to the flowchart of FIG. When the operation is started (S11), if an emergency signal generation timer is to be set (S12Y), an emergency signal generation time is set in the timer circuit 17 (S13), and the process proceeds to step S14. If the timer for generating the emergency signal is not set (S12N), the process directly proceeds to step S14.
[0033]
If an emergency command is input from the key matrix 16 in step 14 (S14Y), the process proceeds to the generation of an emergency signal in step S20, and if no emergency command is input (S14N), the process proceeds to step S15 to check whether the apparatus is in a standby state. I do.
[0034]
If it is in the standby state in step S15 (S15Y), it is checked whether or not an emergency signal generation command has been received from the outside in step S16. If confirmed (S16Y), the process proceeds to step S20 to generate an emergency signal. ), And proceed to step S17. If it is not in the standby state in step S15 (S15N), the process directly proceeds to step S17. ,
In step S17, it is checked whether the time has elapsed until the emergency signal generation time set in the timer. If not (S17N), the process returns to step S14 to repeat the steps. If the power has elapsed (S17Y), it is checked whether the power is on (S18). If the power is not on (S18N), the power is turned on (S19) and the process proceeds to step S20. (S18Y), proceed directly to step S20.
[0035]
In step S20, the control circuit 19 transmits the emergency signal stored in the memory circuit 14 to the outside at the second frequency via the second wireless circuit 18 and the second antenna 21. Waiting for input of the release mode (S21N), if the release mode is input (S21Y), the transmission of the emergency signal is stopped (S22), and the process is terminated (S23).
[0036]
Next, a mobile phone with an emergency signal generator according to a second embodiment of the present invention will be described with reference to the drawings. FIG. 3 is a schematic block diagram of a mobile phone with an emergency signal generator according to a second embodiment of the present invention.
[0037]
The mobile phone 60 with an emergency signal generator according to the second embodiment of the present invention has a first wireless circuit 61 that communicates with the outside at a first frequency of a normal mobile phone, and a microphone or a speaker to output sound. An audio circuit 62 for input / output, a channel codec 63 for performing a coder / decoder process between an electric signal of the radio circuit 61 and audio digital data of the audio circuit 62, a memory circuit 64 for storing data necessary for the process, A display circuit 65 for displaying necessary contents, a key matrix 66 for key input, and a first timer circuit capable of presetting a time until an emergency contact is automatically made to an emergency contact at a first frequency. 67, and a second timer capable of setting a switching time from automatically starting emergency notification to the emergency contact at the first frequency until switching to emergency signal transmission at the second frequency. Path 72, a second radio circuit 68 for transmitting a second frequency different from the first frequency, a control circuit 69 for controlling the operation of each of these components, and a first radio circuit for the first radio circuit 61. , And a second antenna 71 for the second wireless circuit 68.
[0038]
When an emergency command is input from the key matrix 66 or when a predetermined time elapses before the emergency notification is made in the first timer circuit 67, the control circuit 69 sends the emergency notification to the emergency contact at the first frequency. Automatically notify the situation. Further, the control circuit 69 generates a predetermined emergency signal when the switching time set in the second timer circuit 72 has elapsed since the start of calling the emergency contact information and when a predetermined emergency signal is generated via the first wireless circuit 61. When the command is received, a predetermined emergency signal stored in the memory circuit 64 is transmitted at the second frequency via the second wireless circuit 68 and the second antenna 71, and a stop command is input. Or continue sending until the power supply from the battery stops. In order to minimize battery consumption and to allow transmission to continue for a long period of time, it is desirable to perform intermittent transmission using an analog signal (AM, FM modulated signal, etc.).
[0039]
In the first embodiment, when an emergency occurs, the emergency signal is transmitted at the second frequency via the second wireless circuit 18 and the second antenna 21 immediately. In the embodiment, when an emergency command is input from the key matrix 66 and when an emergency notification time set in the timer circuit 67 has elapsed, first, a preset call of a contact at the first frequency is automatically performed. When the connection is established, an emergency notification of the preset contents is performed, and when the time set in the second timer circuit 72 has elapsed since the start of the call, the second wireless circuit 68 and the second wireless circuit 68 are connected to each other. An emergency signal is transmitted at a second frequency via the antenna 71. Therefore, even when the connection to the emergency contact at the first frequency cannot be established, the transmission automatically switches to the emergency signal transmission.
[0040]
Thereby, when the mobile phone is in the service area, an emergency notification of the content preset in the memory circuit 64 is automatically sent to the emergency contact address preset in the memory circuit 64 at the first frequency of the ordinary mobile phone. When a predetermined time has elapsed and an emergency contact has transmitted a predetermined emergency signal generation command and the mobile phone has received the predetermined emergency signal, the predetermined emergency signal stored in the memory circuit 64 is transmitted to the second emergency signal. Since the signal is transmitted at the second frequency via the wireless circuit 68 and the second antenna 71, it is useful for subsequent tracking.
[0041]
When the communication at the first frequency is interrupted for some reason even outside the service area or within the service area, communication at the first frequency cannot be performed. When the switching time elapses, the frequency is automatically switched to the second frequency, and the emergency signal is transmitted at the second frequency via the second wireless circuit 68 and the second antenna 71 as in the first embodiment. Is sent.
[0042]
Thus, an emergency signal can be transmitted in an emergency regardless of inside or outside the service area, and when in the service area, an emergency situation can be notified to the emergency contact using the normal frequency of the mobile phone.
[0043]
Next, the operation of the mobile phone with an emergency signal generator according to the second embodiment of the present invention will be described with reference to FIGS. FIG. 4 is a flowchart of the operation of the mobile phone with an emergency signal generator according to the second embodiment of the present invention.
[0044]
There are the following three methods for generating an emergency signal. That is,
The first method is a state in which the user can operate the key matrix. By generating an emergency signal command by key input of the mobile phone, the control circuit 69 causes the memory circuit to operate at the first frequency of the normal mobile phone. The emergency contact set in advance is made to the emergency contact set to 64 and an emergency notification of the content set in the memory circuit 64 is made, and the time set in the second timer circuit 72 elapses from the start of calling the emergency contact. When an emergency contact or the like transmits a predetermined emergency signal generation command at the first frequency, and the mobile phone receives the command, the mobile phone automatically switches to the second frequency and performs a predetermined emergency signal stored in the memory circuit 64. The signal is transmitted via the second wireless circuit 68 and the second antenna 71, and the person who has sensed the abnormality searches for the abnormality using a device capable of receiving the second frequency, thereby allowing the user to perform the search. Position can be confirmed.
[0045]
The second method is a method in which a timer is installed in a mobile phone and an emergency signal is generated after a lapse of a predetermined time from the setting. This assumes a case in which an accident occurs during mountain climbing or the like and the person is distressed (a state in which the user cannot operate the mobile phone by himself, for example, a state in which he is faint or unable to move).
[0046]
In the case of dangerous activities such as mountain climbing, the time until returning is important. Therefore, in case of emergency, the time of the scheduled time + α (for example, 2 hours) is set in the mobile phone with the emergency signal generator.
[0047]
After the set time (scheduled time + α) elapses, first, the emergency contact information previously set in the memory circuit 64 at the first frequency of the normal mobile phone is stored in the memory circuit 64 with the contents set in advance in the memory circuit 64 When an emergency notification is made and the time set in the second timer circuit 72 has elapsed since the start of the call, and when an emergency contact or the like sends a predetermined emergency signal generation command and the mobile phone receives the emergency call, the mobile phone automatically receives the signal. Switching to the second frequency, a predetermined emergency signal stored in the memory circuit 64 is transmitted via the second wireless circuit 68 and the second antenna 71, and the person who senses the abnormality can use the second emergency signal. By searching using a device capable of receiving a frequency, the position of the user can be confirmed.
[0048]
In the case of the operation by the setting of the first timer, it is valid even when the power of the mobile phone is “OFF”, and after the lapse of the set time, the power of the mobile phone is turned “ON” and the emergency communication by the first frequency is performed. An emergency notification to the destination and an emergency signal on the second frequency are transmitted.
[0049]
In the third method, an emergency signal transmission command is transmitted from a mobile phone system (base station) to generate an emergency signal in the mobile phone.
[0050]
This is for the purpose of searching for a person whose location is unknown due to an accident or disaster, and is possible only in a service area where a mobile phone can be used.
[0051]
Since the mobile phone in the service area performs location registration (a function of notifying the system of the identification code of the mobile phone) to the system, the area where the mobile phone exists can be specified by the base station that has received the location registration. Therefore, by transmitting an emergency signal transmission command to the mobile phone, the mobile phone can transmit an emergency signal, and the location can be accurately confirmed.
[0052]
This operation will be described with reference to the flowchart of FIG. When the operation is started (S61), if an emergency signal generation timer is to be set (S62Y), an emergency signal generation time is set in the first timer circuit 67 (S63), and the process proceeds to step S64. If the timer for generating the emergency signal is not set (S62N), the process proceeds directly to step S64.
[0053]
If an emergency command is input from the key matrix 66 in step 64 (S64Y), the process proceeds to an emergency contact call in step S70. If an emergency command is not input (S64N), the process proceeds to step S65 to determine whether the mobile phone is in a standby state. Confirm.
[0054]
If it is in the standby state in step S65 (S65Y), it is checked whether or not an emergency signal generation command has been received from the outside in step S66. If confirmed (S66Y), the process proceeds to the emergency signal generation in step S76, and if not confirmed (S66N). ), And proceed to step S67. If it is not in the standby state in step S65 (S65N), the process directly proceeds to step S67. ,
In step S67, it is checked whether or not the time has elapsed since the setting until the emergency signal generation time set in the first timer circuit 67. If not (S67N), the process returns to step S64 and repeats the steps. If the power has elapsed (S67Y), it is checked whether the power is on (S68). If the power is not on (S68N), the power is turned on (S69) and the process proceeds to step S70. (S68Y), proceed directly to step S70.
[0055]
Step S70 is activated when an emergency command is input and when the emergency signal generation time set in the first timer circuit 67 has elapsed. In step S70, the control circuit 69 executes the emergency signal stored in the memory circuit 68. A contact is called at a first frequency via a first wireless circuit 61 and a first antenna 70.
[0056]
If the switching time preset in the second timer circuit 72 has not elapsed from the start of calling the emergency contact using the first frequency (S71N), the calling continues until the connection is established (S72N), and the switching time elapses. If so (S71Y), the process proceeds to step S76. When the emergency contact is connected (S72Y), the control circuit 69 transmits the emergency notification contents stored in the memory circuit 68 via the first wireless circuit 61 and the first antenna 70 at the first frequency. The contact is notified (S73). If the switching time preset in the second timer circuit 72 has not elapsed from the start of the call of the emergency contact (S74N), reception of an emergency signal generation command is waited for (S75N), and if the switching time has elapsed (S75N). If the emergency signal generation command has been received (S75Y), the process proceeds to step S76.
[0057]
In step S76, the control circuit 69 transmits the emergency signal stored in the memory circuit 64 to the outside at the second frequency via the second wireless circuit 68 and the second antenna 71. It waits for the release mode to be input (S77N). If the release mode is input (S77Y), the transmission of the emergency signal is stopped (S78), and the process ends (S79).
[0058]
Although the present invention has been specifically described above for a mobile phone, the present invention can be widely applied to other mobile electronic devices other than the mobile phone, such as a mobile information terminal with a communication function.
[0059]
【The invention's effect】
As described above, the present invention has the following effects. That is,
The first effect is that even if the person cannot perform the direct calling operation, it is possible to search for a person who has gone missing due to an accident, distress, disaster or the like.
[0060]
This requires not only a method of transmitting an emergency signal by key operation of a mobile phone as disclosed in Japanese Patent Application Laid-Open No. 8-289369, but also an operation of the holder when the expected return time set in the timer has passed. This is because an emergency signal is transmitted without an emergency, and an emergency signal is automatically transmitted in response to a command from the mobile phone system when an emergency situation is predicted.
[0061]
The second effect is that an emergency signal can be transmitted regardless of the service area of the mobile phone. This is because the emergency signal is transmitted at a frequency different from the frequency for the mobile phone, so that normal communication of the mobile phone is not affected.
[0062]
A third effect is that an emergency signal can be transmitted for a long time. This is because the emergency signal uses an analog signal (AM, FM modulation, etc.) instead of a digital signal from a mobile phone or the like, and uses intermittent transmission with low power transmission, so that there is little effect on others and no channel codec is used. This is because power consumption is small.
[0063]
A fourth effect is that the confirmation distance of the emergency signal can be changed. This is because the intensity of the radio wave can be changed because a frequency different from the frequency for the mobile phone is used.
[0064]
A fifth effect is that, by adopting the second embodiment, when the mobile phone is in the service area, the emergency contact can be automatically notified to the emergency contact using the frequency of the mobile phone. This is because an emergency contact is first called at the frequency of the mobile phone and an emergency signal is transmitted at a different frequency after a predetermined switching time has elapsed.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram of a mobile phone with an emergency signal generator according to a first embodiment of the present invention.
FIG. 2 is a flowchart of an operation of the mobile phone with an emergency signal generator according to the first embodiment of the present invention.
FIG. 3 is a schematic block diagram of a mobile phone with an emergency signal generator according to a second embodiment of the present invention.
FIG. 4 is a flowchart of an operation of the mobile phone with an emergency signal generator according to the second embodiment of the present invention.
[Explanation of symbols]
10,60 Mobile phone with emergency signal generator
11, 61 First wireless circuit
12,62 audio circuit
13, 63 channel codec
14, 64 memory circuit
15, 65 Display circuit
16, 66 key matrix
17 Timer circuit
18, 68 Second wireless circuit
19, 69 Control circuit
20, 70 First antenna
21, 71 Second antenna
67 First Timer Circuit
72 Second timer circuit
S11 to S23, S61 to 79 steps

Claims (5)

A mobile phone with an emergency signal generator that can automatically send an emergency signal in an emergency,
The emergency signal generator automatically generates a predetermined emergency signal stored in the memory circuit at a frequency different from a frequency used for normal external communication when an emergency notification time set in a timer elapses in advance. In a mobile phone with an emergency signal transmitting device having a circuit for transmitting a signal,
Further, a circuit for automatically transmitting a predetermined emergency signal stored in the memory circuit at a frequency different from a frequency used for normal external communication even when a predetermined emergency signal generation command is received. emergency signal transmitter-equipped mobile phone to feature a Rukoto that Yusuke. Furthermore, by a predetermined key input, a predetermined emergency signal stored in the memory circuit has a circuit for transmitting at a different frequency than the frequency used for communication with the normal external emergency according to claim 1 Mobile phone with signal transmitter. A first wireless circuit for communicating with the outside at a first frequency used for normal communication with the outside,
An audio circuit for inputting and outputting audio through a microphone and a speaker,
A channel codec for performing a coder-decoder process between the electric signal of the radio circuit and the audio digital data of the audio circuit,
A memory circuit for storing data required for processing,
A display circuit for displaying necessary contents;
A key matrix for key input,
A timer circuit that can preset a time until an emergency signal is transmitted;
A second radio circuit for transmitting a second frequency different from the first frequency;
A control circuit for controlling the operation of each of these components;
A first antenna for the first radio circuit;
A second antenna for the second radio circuit,
The control circuit, when a predetermined emergency command is input from the key matrix, when the emergency notification time set in advance in the timer circuit by the key matrix, and via the first wireless circuit When a predetermined emergency signal generation command is received, a predetermined emergency signal stored in the memory circuit is transmitted at a second frequency via the second wireless circuit and the second antenna, and stopped. 3. The mobile phone with an emergency signal transmitting device according to claim 2 , wherein the transmission is continued until the command is input or the power supply from the battery is stopped. A first wireless circuit for communicating with the outside at a first frequency used for normal communication with the outside,
An audio circuit for inputting and outputting audio through a microphone and a speaker,
A channel codec for performing a coder-decoder process between the electric signal of the radio circuit and the audio digital data of the audio circuit,
A memory circuit for storing data required for processing,
A display circuit for displaying necessary contents;
A key matrix for key input,
A first timer circuit capable of presetting a time until an emergency contact is called at the first frequency;
A second timer circuit capable of setting a time period from the start of calling the emergency contact at the first frequency to the switching to emergency signal transmission at the second frequency;
A second radio circuit for transmitting a second frequency different from the first frequency;
A control circuit for controlling the operation of each of these components;
A first antenna for the first radio circuit;
A second antenna for the second radio circuit,
The control circuit includes:
When an emergency command is input from the key matrix, and when an emergency notification time preset in the first timer circuit elapses, an emergency situation at the first frequency is sent to a preset emergency contact. Contact me
A predetermined emergency signal generation command is issued when a switching time set in advance in the second timer circuit has elapsed since the communication of the emergency to the emergency contact was started, and when a predetermined emergency signal generation command Is received, a predetermined emergency signal stored in the memory circuit is transmitted at a second frequency via the second wireless circuit and the second antenna, and a stop command is input. 3. The mobile phone with an emergency signal transmission device according to claim 2 , wherein the transmission is continued until power supply from the battery is stopped. The second AM-modulated signal to the emergency signal transmitted in the frequency, the analog signal is used which includes a FM-modulated signal, said emergency signal is transmitted intermittently, either of claims 1 to 4 The mobile phone with an emergency signal transmitting device according to claim 1.

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