JP2016208373A - Communication terminal, control method of the same, and control program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a clock frequency coping with diversification of communication carriers to be adjusted.SOLUTION: A communication terminal (100) includes: a frequency specifying section (112) for specifying a clock frequency according to a communication carrier used for radio communication; and an operation clock setting section (113) for operating an operation section (60) with the clock frequency, by accessing to a management server (200) which manages a clock frequency which does not interfere with a communication frequency band for each communication carrier.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication terminal including a communication unit that performs wireless communication and an operation unit that operates at a set clock frequency. More specifically, the clock frequency of the operation unit interferes with a use frequency of wireless communication. The present invention relates to a communication terminal provided with a function to prevent it.

  It is known that a communication terminal including various devices in addition to a communication unit that performs wireless communication, such as a mobile phone, causes a communication failure due to interference of a clock signal for operating the device with a frequency used for wireless communication. Therefore, techniques for avoiding such obstacles have been developed. For example, Patent Document 1 below discloses a technique for adjusting a clock signal frequency of a CPU (Central Processing Unit) so that when a communication channel is designated by a base station, mutual interference with the communication channel does not occur. Has been.

JP 7-303079 A (published November 14, 1995)

  Recently, MVNO (Mobile Virtual Network Operator) and the like are entering the communication business, and there are cases where a communication carrier that did not exist at the time of purchase of the communication terminal is used. In addition, recently, SIM (Subscriber Identity Module) lock-free communication terminals are becoming widespread, and communication carriers that have not been used at the place of purchase are also being used later. .

  As described above, in recent years, the number of communication carriers that can use one communication terminal has increased, and cases where the communication carriers to be used are switched are increasing. However, in the technique of Patent Document 1, it is necessary to record an appropriate clock signal frequency in advance, so that it is difficult to cope with an increase or switching of communication carriers.

  The present invention has been made in view of this problem, and an object thereof is to flexibly cope with an increase or change in the number of communication carriers, so that the clock frequency for operating the operation unit does not interfere with the communication frequency band. The object is to provide a communication terminal or the like that can be adjusted to a frequency.

  In order to solve the above problems, a communication terminal according to an aspect of the present invention is a communication terminal including a communication unit that performs wireless communication and an operation unit that operates at a set clock frequency. Specify the clock frequency according to the telecommunications carrier used for wireless communication via the communication unit by accessing the management server that manages the telecommunications frequency band used by the carrier for each carrier. And an operation clock setting unit that operates the operation unit at the clock frequency specified by the frequency specification unit.

  In addition, a communication terminal control method according to an aspect of the present invention includes a communication unit that performs wireless communication and an operation unit that operates at a set clock frequency in order to solve the above-described problem. A communication method that is used for wireless communication via the communication unit by accessing a management server that manages, for each communication carrier, a clock frequency that does not interfere with the frequency band used by the carrier, which is a terminal control method. A frequency specifying step for specifying a clock frequency according to a person, and an operation clock setting step for operating the operating unit at the clock frequency specified in the frequency specifying step.

  According to each aspect of the present invention, it is possible to adjust the clock frequency for operating the operation unit to a frequency that does not interfere with the communication frequency band, flexibly corresponding to the increase or switching of the communication carriers. Play.

It is a block diagram which shows the example of the principal part structure of the communication terminal which concerns on one reference example of this invention. It is a figure which shows an example of the corresponding frequency information which the said communication terminal uses for the setting of a clock frequency. It is a flowchart which shows an example of the process performed at the time of starting of the said communication terminal. It is a flowchart which shows an example of the process performed at the time of starting of the communication terminal which can set a clock frequency, when a SIM card is not mounted | worn. It is a block diagram which shows an example of the principal part structure of the communication terminal and management server which comprise the communication system which concerns on one Embodiment of this invention. It is a figure which shows an example of the server side corresponding | compatible frequency information which the said management server stores. It is a flowchart which shows an example of the process performed at the time of starting of the said communication terminal. It is a figure which shows an example of the server side corresponding | compatible frequency information corresponding to roaming.

[Reference Example 1]
Hereinafter, a reference example of the present invention will be described in detail with reference to FIGS.

[Configuration of communication terminal]
First, the configuration of the communication terminal 1 according to this reference example will be described with reference to FIG. FIG. 1 is a block diagram illustrating an example of a main configuration of the communication terminal 1. As illustrated, the communication terminal 1 includes a control unit 10, a storage unit (predetermined recording medium) 20, a SIM card (predetermined recording medium) 30, a reference clock generation unit 40, a wireless communication unit (communication unit) 50, and An operation unit 60 is provided. In the figure, the SIM card 30 is described in the same manner as other blocks that are components of the communication terminal 1, but strictly speaking, the communication terminal 1 includes a SIM card slot (not shown). Is fitted here.

  The communication terminal 1 is a terminal device having a wireless communication function. More specifically, the communication terminal 1 wirelessly communicates with other devices via a communication carrier base station recorded in the SIM card 30 attached. The communication terminal 1 only needs to have a function of performing wireless communication with another device via a base station of a predetermined communication carrier, and may be a device such as a mobile phone or a smartphone.

  The control unit 10 controls the respective units of the communication terminal 1 and controls the identification information acquisition unit (identification information recording processing unit) 11, the frequency specifying unit 12, the operation clock setting unit 13, and the radio control unit 14. Including.

  The identification information acquisition unit 11 acquires country identification information for identifying a country and carrier identification information for identifying a communication carrier from a predetermined recording medium. More specifically, the identification information acquisition unit 11 acquires the country code recorded on the SIM card 30 as the country identification information, and also uses the communication carrier code recorded on the SIM card 30 as the provider identification information. Get as. Then, the identification information acquisition unit 11 outputs the acquired information (country code and carrier code) to the frequency specifying unit 12.

  The frequency specifying unit 12 specifies a clock frequency for operating the operating unit 60. Specifically, when the communication terminal 1 is activated, the frequency specifying unit 12 specifies the initial value of the clock frequency included in the corresponding frequency information 22 as the clock frequency for operating the operating unit 60. Further, when the country code and the carrier code are output from the identification information acquisition unit 11, the frequency specifying unit 12 refers to the corresponding frequency information 22, and outputs a clock corresponding to the output country code and the carrier code. Specify the frequency. Then, the frequency specifying unit 12 outputs the clock frequency specified as described above to the operation clock setting unit 13.

  The operation clock setting unit 13 operates the operation unit 60 at a frequency that does not interfere with the frequency band used for wireless communication (does not affect the frequency channel used by the wireless communication unit 50). One is provided. That is, when a plurality of operation units 60 are provided, the operation clock setting unit 13 is provided for each. Specifically, the operation clock setting unit 13 receives the reference clock signal generated by the reference clock generation unit 40 as an input, generates an input clock that is a clock signal having a frequency that does not interfere with the communication frequency band, and inputs the input clock to the operation unit 60. To do. The operation unit 60 generates an operation clock obtained by multiplying the input clock by an operation clock generation unit (not shown), and operates using this operation clock. When a plurality of operation units 60 operate at the same clock frequency, one operation clock setting unit 13 may be provided for the plurality of operation units 60.

  The wireless control unit 14 registers the location of the communication terminal 1 in the base station of the communication carrier. With this location registration, the communication terminal 1 can wirelessly communicate with other devices via the wireless communication unit 50.

  The storage unit 20 stores various data handled by the communication terminal 1. In the illustrated example, the country / business operator identification information 21 and the corresponding frequency information 22 are stored in the storage unit 20. Note that the storage unit 20 may be a recording medium (recording apparatus) that is detachable from the communication terminal 1. The country / operator identification information 21 is information (operator identification information) indicating the country in which the communication terminal 1 performs wireless communication and the communication carrier used for wireless communication. Details of the country / operator identification information 21 will be described in Reference Example 2. The corresponding frequency information 22 is information indicating a clock frequency that does not interfere with the communication frequency band used by each communication carrier.

  The SIM card 30 is a recording medium on which various information necessary for the communication terminal 1 to perform wireless communication via the wireless communication unit 50 is recorded. The SIM card 30 stores a country code and a carrier code in addition to information such as a telephone number.

  The reference clock generation unit 40 generates a reference clock signal that serves as a reference for the clock signal that operates the operation unit 60, and outputs the reference clock signal to the control unit 10.

  The wireless communication unit 50 is for the communication terminal 1 to wirelessly communicate with other devices, and performs various processes related to transmission / reception of radio frequency signals. Note that the wireless communication unit 50 registers the position of the communication terminal 1 by accessing a wireless communication base station via an antenna (not shown) before starting wireless communication with another device. Thereby, it becomes possible to perform wireless communication with other apparatuses via the base station corresponding to the current position of the communication terminal 1.

  The operation unit 60 operates according to the control of the control unit 10. In the illustrated example, one operating unit 60 is shown, but as described above, the number of operating units 60 is not particularly limited. The operation unit 60 may be any device (device) that operates at a set clock frequency, and may be, for example, an LCD (Liquid Crystal Display) or a camera.

[Example of supported frequency information]
Corresponding frequency information 22 is not particularly limited as long as it indicates a clock frequency that does not interfere with a communication frequency band used by each communication carrier, but may be information as shown in FIG. . FIG. 2 is a diagram illustrating an example of the corresponding frequency information 22. The illustrated corresponding frequency information 22 is information indicating a clock frequency for each operation unit 60 corresponding to a combination of a country code and a carrier code (country-specific company code). In the illustrated example, the clock frequencies of the LCD and the camera are shown, but the corresponding frequency information 22 only needs to indicate the clock frequency corresponding to the operation unit 60 included in the communication terminal 1.

  The corresponding frequency information 22 shown in the figure also includes clock frequencies that are not associated with the country code and the carrier code. These clock frequencies are the above-mentioned “initial values”. When the communication terminal 1 is activated, first, each operation unit 60 is operated with the initial values. When the country code and the carrier code are read from the SIM card 30, the clock frequency corresponding to the read combination of codes is specified from the corresponding frequency information 22, thereby the clock for operating each operation unit 60. The frequency is switched.

  For example, if the country code read from the SIM card 30 is A and the carrier code is 002, the clock frequency for operating the LCD (operation unit 60) is changed from the initial value “f000” to “f002”. Can be switched. Similarly, the clock frequency for operating the camera (operation unit 60) is switched from the initial value “f010” to “f012”. Since the clock frequency after switching is a frequency that does not interfere with the radio frequency band, by performing this switching, it becomes possible to perform wireless communication in a good communication environment without causing interference problems. . Note that the LCD needs to be started when the communication terminal 1 is activated, and the above-described switching needs to be performed. However, the operation unit 60 (for example, a camera) that does not need to start operating when the communication terminal 1 is activated may be started at a frequency that does not interfere with the radio frequency band without starting the operation with the initial value.

[Process flow]
Next, the flow of processing (communication terminal control method) executed by the communication terminal 1 will be described with reference to FIG. FIG. 3 is a flowchart illustrating an example of processing performed when the communication terminal 1 is activated. For simplicity, an example in which the clock frequency is set for one operation unit 60 will be described. However, the clock frequency is set for each operation unit 60.

  When the communication terminal 1 is activated, the frequency specifying unit 12 reads the initial value of the clock frequency from the corresponding frequency information 22, notifies the operation clock setting unit 13 and sets the clock frequency for operating the operation unit 60 (S1). ). Subsequently, the operation clock setting unit 13 activates the operation unit 60 (S2) and operates the notified clock frequency (initial value). For the operation unit 60 such as a camera that does not need to be activated when the communication terminal 1 is activated, the processes of S1 and S2 may be omitted.

  When the communication terminal 1 is activated, the identification information acquisition unit 11 acquires a country code and a communication carrier code from the SIM card 30 (S3, identification information acquisition step) and notifies the frequency specifying unit 12 of the country code and the communication carrier code. And the frequency specific | specification part 12 determines whether the clock frequency corresponding to both notified codes is registered into the corresponding frequency information 22 (S4).

  Here, when it is determined that it is not registered (NO in S4), the radio control unit 14 communicates with the base station while maintaining the clock frequency of the operation unit 60 as an initial value, and registers the location of the communication terminal 1 (S8) ). Thereby, the communication terminal 1 becomes a state in which wireless communication is possible, and the illustrated process ends.

  On the other hand, when it is determined that it is registered in S4 (YES in S4), the frequency specifying unit 12 specifies the clock frequency registered in the corresponding frequency information 22 (S5), and the specified clock frequency is equal to the initial value. (S6).

  If it is determined that the value is equal to the initial value (YES in S6), the process proceeds to S8 described above. On the other hand, when it is determined that the value is different from the initial value (NO in S6), the frequency specifying unit 12 notifies the operation clock setting unit 13 of the clock frequency specified in S5. Then, the operation clock setting unit 13 changes the clock frequency for operating the operation unit 60 to the notified clock frequency (S7, operation clock setting step).

  In addition, after S7, the wireless control unit 14 communicates with the base station and registers the location of the communication terminal 1 (S8). In S8 after S7, since the clock frequency of the operation unit 60 has been switched to a frequency that does not interfere with the frequency band used for wireless communication, location registration can be completed in a short time. The effect of switching to a frequency that does not interfere with the frequency band used for wireless communication extends not only to location registration but also to, for example, waiting for an incoming call, a call, or other communication in general. That is, by the above switching, the communication terminal 1 can perform any communication without interference (or with little interference).

[Reference Example 2]
Another reference example of the present invention will be described with reference to FIG. For convenience of explanation, members having the same functions as those described in the reference example are given the same reference numerals, and descriptions thereof are omitted. In this reference example, when the country code and the carrier code cannot be obtained from the SIM card 30 such as when the SIM card 30 is not attached to the communication terminal 1, these are read from the predetermined data area. An example of acquiring the code will be described. The configuration of the communication terminal 1 of this reference example is the same as that of the reference example 1 (see FIG. 1).

[Process flow]
A flow of processing (communication terminal control method) executed by the communication terminal 1 of this reference example will be described with reference to FIG. FIG. 4 is a flowchart illustrating an example of processing performed when the communication terminal 1 is activated. In FIG. 4, the same processes as those in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted. 4 illustrates an example in which the clock frequency is set for one operation unit 60 as in FIG. 3, the setting of the clock frequency is performed for each operation unit 60. In the example of FIG. 4, S6 of FIG. 3 is omitted, but this processing may also be executed.

  When the communication terminal 1 is activated, the identification information acquisition unit 11 determines whether or not the SIM card 30 is recognized (S10). Here, if it is determined that it is recognized (YES in S10), the country code and the carrier code are acquired from the SIM card 30 (S3, identification information acquisition step). The subsequent processing is the same as in FIG. 3, and the clock frequency for operating the operation unit 60 is changed to the frequency corresponding to the acquired country code and carrier code, and then location registration is performed (S4 to S4). S8). Although omitted in FIG. 4, as in the example of FIG. 3, in FIG. 4, when the communication terminal 1 is activated, the clock frequency is set to the initial value and the operation unit 60 is activated.

  On the other hand, if it is determined in S10 that the SIM card 30 is not recognized (NO in S10), the identification information acquisition unit 11 performs location registration even when the SIM card 30 is not attached (SIM Whether communication is possible without the card 30) is determined (S11). This determination may be made based on, for example, a preset flag (a value when position registration is performed is ON, and a value when position registration is not performed is OFF). Further, the determination of S11 may be performed prior to S10.

  If it is set not to perform location registration (NO in S11), the processing is terminated without performing location registration. On the other hand, if it is set to perform location registration (YES in S11), the identification information acquisition unit 11 acquires a country code and a carrier code from a predetermined data area (S12, identification information acquisition step). The subsequent processing is the same as in FIG. 3, and the clock frequency for operating the operation unit 60 is changed to the frequency corresponding to the acquired country code and carrier code, and then location registration is performed (S4 to S4). S8).

  The “predetermined data area” in S12 may be a data area in the storage unit 20. For example, as in the example of FIG. 1, when the country code and the communication carrier code are stored in the storage unit 20 as the country / operator identification information 21, the country / operator identification information 21 in the storage unit 20 is stored. The storage area is the predetermined data area. Further, the country code and the carrier code of the predetermined data area may be read and recorded by the identification information acquisition unit 11 when the SIM card 30 is attached. The execution subject of this recording process may be a block different from the identification information acquisition unit 11. Further, in this case, whether or not each code is recorded (copied) from the SIM card 30 to a predetermined data area may be set by, for example, a write flag. Thereby, each code can be automatically stored in a predetermined data area when the SIM card 30 is mounted with the write flag ON.

  Further, the acquisition source of the country code and the carrier code recorded in the predetermined data area is not limited to the SIM card 30. For example, when these codes are stored in a recording medium such as an NFC (Near Field Communication) tag or a USB (Universal Serial Bus) memory, the code is obtained from such a recording medium and stored in a predetermined data area. It may be left. In addition, after the communication terminal 1 is ready for wireless communication, it may be acquired from the base station of the communication carrier. Note that the predetermined data area may exist outside the communication terminal 1, and in this case, in S12, the predetermined data area outside the communication terminal 1 is accessed to acquire each code. Become.

Embodiment 1
In the present embodiment, an example of a communication system that makes it possible to specify the clock frequency for operating the operating unit by accessing the management server will be described with reference to FIGS. For convenience of explanation, members having the same functions as those described in the reference example are given the same reference numerals, and descriptions thereof are omitted.

〔System configuration〕
The configuration of the communication system of this embodiment will be described with reference to FIG. FIG. 5 is a block diagram illustrating an example of a main configuration of the communication terminal 100 and the management server 200 configuring the communication system 300. The communication system 300 includes a communication terminal 100 and a management server 200 that can communicate with each other via a communication network. In the illustrated example, only one communication terminal 100 is shown, but the number of communication terminals 100 included in the communication system 300 is not particularly limited, and may be two or more. The communication network may be any network as long as the communication terminal 100 and the management server 200 can communicate with each other via the communication network, and may be the Internet, for example.

  The communication terminal 100 has substantially the same configuration as the communication terminal 1 of the above reference example, but the frequency specifying unit 12 is set to the frequency specifying unit 112, the operation clock setting unit 13 is set to the operation clock setting unit 113, and the country / operator identification is performed. The difference is that the information 21 is changed to the terminal identification information 121. Note that the country / operator identification information 21 may also be stored in the storage unit 20 of the communication terminal 100.

  The frequency specifying unit 112 specifies a clock frequency for operating the operating unit 60. The frequency specifying unit 112 operates the operating unit 60 with the initial value of the clock frequency included in the corresponding frequency information 22, similarly to the frequency specifying unit 12 of the reference example. Further, when the country code and the carrier code are output from the identification information acquisition unit 11, the frequency specifying unit 112 refers to the corresponding frequency information 22 and outputs a clock corresponding to the output country code and the carrier code. Specify the frequency.

  The frequency specifying unit 112 accesses the management server 200 when the corresponding clock frequency is not registered in the corresponding frequency information 22, and specifies the clock frequency registered in the management server 200. 12 and different. Specifically, the frequency specifying unit 112 transmits the country code, the communication carrier code, and the terminal identification information 121 output from the identification information acquisition unit 11 to the management server 200, and manages the clock frequencies corresponding to these information. Receive from server 200. This clock frequency is a frequency that does not interfere with a frequency band used for wireless communication. Then, the frequency specifying unit 112 outputs the acquired clock frequency to the operation clock setting unit 113. The location of the management server 200 that is the access destination may be specified by, for example, a URI (Uniform Resource Identifier).

  The frequency specifying unit 112 also functions as an information updating unit that adds the acquired clock frequency to the corresponding frequency information 22 when the clock frequency is acquired from the management server 200. As a result, when wireless communication is performed using the same communication carrier thereafter, the clock frequency can be set without accessing the management server 200.

  Similar to the operation clock setting unit 13, the operation clock setting unit 113 operates the operation unit 60 at a clock frequency that does not interfere with the communication frequency band. The operation clock setting unit 113 also functions as a stop control unit that stops the operation of the operation unit 60 during the period from the time when the frequency specifying unit 112 accesses the management server 200 and specifies the clock frequency. Thereby, the access to the management server 200 is not hindered by the interference of the operation clock of the operation unit 60. Of course, it is not necessary to stop all the operation units 60, and only the operation unit 60 that operates at a clock frequency that interferes with the frequency band of wireless communication may be stopped. In this case, the presence or absence of interference is determined for each operating unit 60, and the operating unit that has been determined to cause interference is stopped. Note that the function as the stop control unit may be realized by a block different from the operation clock setting unit 113.

  The terminal identification information 121 is information for identifying the communication terminal 100. Here, an example in which IMEI (International Mobile Equipment Identity), which is terminal-specific serial number information that can identify the model of the communication terminal 100, is used as the terminal identification information 121 will be described. However, the terminal identification information 121 may be information that can identify the communication terminal 100 and is not limited to IMEI.

  The management server 200 is a server that manages, for each communication carrier, a clock frequency that does not interfere with the frequency band used by the communication carrier, and includes a control unit 210, a storage unit 220, and a communication unit 250.

  The control unit 210 performs overall control of each unit of the management server 200 and includes a frequency notification unit 211. The frequency notification unit 211 notifies the communication terminal 100 of the clock frequency corresponding to the communication carrier that the communication terminal 100 uses for wireless communication. Specifically, the frequency notification unit 211 receives the country code, the communication carrier code, and the terminal identification information 121 transmitted by the frequency specifying unit 112 of the communication terminal 100. Then, with reference to the server-side corresponding frequency information 221, the clock frequency corresponding to the received information is specified, and the specified clock frequency is notified to the communication terminal 100.

  The storage unit 220 stores various data handled by the management server 200. In the illustrated example, server-side corresponding frequency information 221 is stored in the storage unit 220. Similarly to the corresponding frequency information 22, the server-side corresponding frequency information 221 is information indicating a clock frequency for each communication carrier that does not interfere with the communication frequency band used by the communication carrier. However, the server-side corresponding frequency information 221 is different from the corresponding frequency information 22 in that the clock frequency corresponding to the model of the communication terminal 100 is indicated. This is because various types of communication terminals 100 can access the management server 200, and by referring to the server-side corresponding frequency information 221, the clock frequency corresponding to the type of the accessed communication terminal 100 can be specified. Because.

  The server-side frequency information 221 is updated each time a new communication carrier (for example, a virtual mobile carrier: MVNO: Mobile Virtual Network Operator) is registered. As a result, even when a telecommunications carrier that is not registered in the corresponding frequency information 22 of the communication terminal 100 is used, the clock frequency can be adjusted.

  The communication unit 250 performs various processes for the management server 200 to communicate via a network. The connection to the network may be wireless or wired.

[Example of server-side frequency information]
The server-side frequency information 221 is not particularly limited as long as it indicates the clock frequency according to the country, the communication carrier, and the model of the communication terminal 100, but may be information as shown in FIG.

  FIG. 6 is a diagram illustrating an example of the server side corresponding frequency information 221. The server-side frequency information 221 shown in the figure is information indicating the clock frequency for each operating unit 60 corresponding to the combination of country-specific company code (combination of country code and carrier code) and model. The server-side frequency information 221 shown in the figure includes “IMEI” and “compatible model” (specifically, identification information for identifying the model of the communication terminal 100) corresponding to IMEI as model information. It is.

  Therefore, the clock frequency for each operation unit 60 can be specified from the country code, the carrier code, and the IMEI by referring to the server-side frequency information 221 shown in the figure. For example, when the country code is A, the carrier code is 002, and the IMEI is I00112, it can be specified that the clock frequency for operating the LCD is f002101 and the clock frequency for operating the camera is f002111.

  Note that when the clock frequency is specified using IMEI as in the above example, the “supported model” information is not necessary. Also, model identification information may be stored in advance in the storage unit 20 and the like, and the clock frequency may be specified from this identification information. In this case, IMEI information is not necessary. For example, if the stored identification information is U0010, the identification information is used instead of IMEI, and the clock frequencies of the LCD and the camera are specified as f001001 and f001011 from the server-side corresponding frequency information 221 shown in the figure, respectively. be able to.

  Moreover, the management server 200 may be provided for each model of the communication terminal 100, and the communication terminal 100 may be accessed to the management server 200 according to the model. In this case, the server-side frequency information 221 includes information on the model. Can be omitted.

[Process flow]
A flow of processing (a communication terminal control method) executed by the communication terminal 100 according to the present embodiment will be described with reference to FIG. FIG. 7 is a flowchart illustrating an example of processing performed when the communication terminal 100 is activated. In FIG. 7, the same processes as those in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted. 7 illustrates an example in which the clock frequency is set for one operation unit 60 as in FIG. 3, the clock frequency is set for each operation unit 60. In the example of FIG. 7, S6 of FIG. 3 is omitted, but this process may also be executed.

  In S4, when it is determined that the clock frequency corresponding to the country code and the carrier code acquired in S3 is not registered in the corresponding frequency information 22 (NO in S4), the frequency specifying unit 112 is an operation clock setting unit. This is notified to 113. Then, the operation clock setting unit 113 that has received this notification stops the operation of the operation unit 60 activated in S2 (S20). If the operation unit 60 activated in S2 does not generate noise (the clock frequency does not interfere with the communication frequency band), the process of S20 may be omitted.

  Subsequently, the wireless control unit 14 communicates with the base station and registers the location of the communication terminal 100 (S21). Since the operation unit 60 that generates noise is stopped in S20, in S21, the position registration can be completed in a short time.

  When wireless communication is possible by the location registration in S21, the frequency specifying unit 112 accesses the management server 200 and acquires the clock frequency registered in the management server 200 (S22, frequency specifying step). Further, the frequency specifying unit 112 notifies the operation clock setting unit 113 of the clock frequency acquired in S22. Then, the operation clock setting unit 113 switches the clock frequency of the operation unit 60 stopped in S20 to the clock frequency acquired in S22 (S23, operation clock setting step) and restarts (S24). Further, the frequency specifying unit 112 associates the clock frequency acquired in S22 with the country code and communication congressor code acquired in S3 and registers them in the corresponding frequency information 22. Thereby, the corresponding frequency information 22 is updated (S25), and the illustrated process ends.

  In S3, the country code and the carrier code are obtained from the SIM card 30, but if the communication with the base station is possible, the country code and the carrier code are obtained from the base station. May be. This configuration is based on the premise that the interference before adjustment of the clock frequency is such that communication with the base station is possible, but the clock is also used when a communication carrier different from that recorded on the SIM card 30 is used. There is an advantage that a frequency is possible. Note that a communication carrier different from that recorded in the SIM card 30 is used, for example, during roaming.

[Roaming support]
When the communication terminal 100 is taken overseas, roaming is performed and communication is performed at a communication frequency different from that used in the country. For this reason, even if there is no interference in a certain area, when the communication terminal 100 is moved, there is a possibility that the interference occurs and the communication is hindered.

  Therefore, here, an example of the server-side corresponding frequency information 221 that makes it possible to appropriately adjust the clock frequency even at the roaming destination will be described with reference to FIG. FIG. 8 is a diagram illustrating an example of the server-side compatible frequency information 221 corresponding to roaming. The server side corresponding frequency information 221 in FIG. 8 is different from the example in FIG. 6 in that information regarding the roaming destination is added.

  More specifically, in the example of FIG. 8, a country code is associated with each model, and a carrier code is associated with the country code. For example, in the illustrated example, the country code C is associated with the U0010 model, and three carrier codes 004 to 006 are associated with this country code. This indicates that the U0010 model is a model that can be used in the C country in addition to the A country, and in the C country, 004 to 006 communication carriers can be used. In addition, if the communication terminal 100 can use GPS (Global Positioning System), you may specify which communication carrier is used based on the positional information acquired by GPS. In addition, for example, if a telecommunications carrier has been used in the country in the past, it may be specified using the history information, or may be specified by accessing the base station of the telecommunications carrier. . One carrier code corresponding to one country code may be registered, and in this case, the above identification is unnecessary.

  Each carrier code is associated with the clock frequency of the LCD and the camera. These clock frequencies are frequencies that do not interfere with the communication frequency band used by the carrier of the carrier code. As a result, the operating unit 60 can be operated at a clock frequency that does not interfere with the communication frequency band even at the roaming destination. For example, the U0011 model communication terminal 100 that has been communicating with the carrier 001 in the country A is brought into the country D, and the carrier 008 that has been used in the country D in the past is used. Consider the case of communication. In this case, the communication terminal 100 executes the processing from S20 onward in FIG. 7 triggered by the detection of roaming. At this time, in S22, the frequency specifying unit 112 accesses the management server 200 and specifies the clock frequency corresponding to the model of the communication terminal 100. Specifically, the frequency specifying unit 112 notifies the management server 200 of the model of the communication terminal 100 and the fact that it has roamed. Then, the frequency notification unit 211 of the management server 200 refers to the server-side frequency information 221 in FIG. 8 to determine the clock frequency (LCD: f001105, camera: f001115) of the roaming destination associated with the notified model. Identify and notify the communication terminal 100. When a plurality of carrier codes are associated with one country code, position information, history information, etc. may be acquired from the communication terminal 100 to identify one carrier code. Thereby, also in D country, the clock frequency of the operation | movement part 60 can be adjusted appropriately, and a favorable communication environment can be maintained.

  Also, the corresponding frequency information 22 as shown in FIG. 2 may include roaming destination information. In this case, the frequency specifying unit 12 of the communication terminal 1 can specify the clock frequency after roaming associated with the carrier code before roaming with reference to the corresponding frequency information 22. This makes it possible to specify the clock frequency corresponding to the roaming destination without accessing the management server 200.

[Modification]
In each of the above reference examples and embodiments, the example in which the clock frequency for operating the operation unit 60 is specified using both the country code and the carrier code has been described. However, if it is not necessary to consider movement across countries, the clock frequency may be specified only from the carrier code (carrier identification information).

  In each of the above reference examples and embodiments, the example in which the clock frequency is set when the communication terminal 1 or 100 is activated has been described. However, this setting may be performed at the first activation, and must be set every time activation is performed. There is no. However, it may be necessary to reset the clock frequency when the SIM card is replaced or roamed. For this reason, once the clock frequency is set, it is preferable to set the clock frequency in response to replacement of the SIM card or execution of roaming.

[Example of software implementation]
The control blocks (particularly the control unit 10) of the communication terminals 1 and 100 may be realized by a logic circuit (hardware) formed in an integrated circuit (IC chip) or the like, or using a CPU (Central Processing Unit). It may be realized by software.

  In the latter case, the communication terminals 1 and 100 include a CPU that executes instructions of a program that is software that realizes each function, and a ROM (Read Only Memory) in which the program and various data are recorded so as to be readable by a computer (or CPU). ) Or a storage device (these are referred to as “recording media”), a RAM (Random Access Memory) for expanding the program, and the like. And the objective of this invention is achieved when a computer (or CPU) reads the said program from the said recording medium and runs it. As the recording medium, a “non-temporary tangible medium” such as a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. The program may be supplied to the computer via an arbitrary transmission medium (such as a communication network or a broadcast wave) that can transmit the program. The present invention can also be realized in the form of a data signal embedded in a carrier wave in which the program is embodied by electronic transmission.

[Summary]
A communication terminal (100) according to aspect 1 of the present invention is a communication terminal including a communication unit (wireless communication unit 50) that performs wireless communication and an operation unit (60) that operates at a set clock frequency. By accessing the management server (200) that manages the clock frequency that does not interfere with the communication frequency band used by the communication carrier for each communication carrier, the communication carrier used for wireless communication via the communication unit is provided. A frequency specifying unit (112) for specifying the corresponding clock frequency; and an operation clock setting unit (113) for operating the operating unit at the clock frequency specified by the frequency specifying unit.

  According to said structure, by accessing a management server, the clock frequency according to the communication carrier used for the wireless communication via a communication part (clock frequency which does not interfere with the communication frequency band which this communication carrier uses) And the operation unit is operated at the clock frequency. Therefore, even when a telecommunications carrier whose corresponding clock frequency is not registered in the communication terminal is used, the clock frequency can be set appropriately. That is, according to the above configuration, there is an effect that the clock frequency for operating the operation unit can be adjusted to a frequency that does not interfere with the communication frequency band, flexibly corresponding to the increase or switching of the communication carriers. . The operation clock setting unit may switch the clock frequency if the operation unit is operating, and may set the clock frequency before the operation starts if the operation unit is not operating.

  The communication terminal according to aspect 2 of the present invention is the communication terminal according to aspect 1, wherein the operation control unit stops operation of the operation unit during a period until the operation clock setting unit specifies the clock frequency specified by the frequency specifying unit. (Operation clock setting unit 113).

  According to said structure, operation | movement of an operation | movement part is stopped during the period until the setting of a clock frequency. Therefore, it is possible to prevent the clock frequency of the operating unit from interfering with the wireless communication (access to the management server, etc.) during the period until the clock frequency is set, and thereby the clock frequency can be set quickly and reliably. It can be carried out.

  A communication terminal according to aspect 3 of the present invention includes a storage unit (20) that stores corresponding frequency information (22) indicating, for each communication carrier, a clock frequency that does not interfere with the communication frequency band in the above aspect 1 or 2, The frequency specifying unit specifies the clock frequency from the corresponding frequency information when the clock frequency corresponding to the communication carrier used for wireless communication via the communication unit can be specified from the corresponding frequency information.

  According to the above configuration, it is possible to specify the clock frequency in a shorter time than when accessing the management server, and there is a case where interference has occurred to the extent that communication with the management server is difficult. However, it is possible to set the clock frequency.

  In addition, the communication terminal which concerns on 1 aspect of this invention is equipped with the information update part (frequency specific part 112) which adds the clock frequency which accessed and specified the said management server in the said aspect 3 to the said corresponding | compatible frequency information. Also good.

  According to said structure, when using the same communication carrier next time, an appropriate clock frequency can be specified from the said corresponding | compatible frequency information, without accessing a management server.

  The communication terminal according to one aspect of the present invention is the communication terminal according to any one of the above aspects, wherein, when roaming is performed, the frequency specifying unit accesses the management server and responds to a roaming destination communication carrier. The specified clock frequency may be specified.

  According to the above configuration, since the clock frequency corresponding to the roaming destination communication carrier is specified during roaming, the clock frequency of the operating unit can be prevented from interfering with the communication frequency band even after roaming.

  The communication terminal control method according to aspect 4 of the present invention is a control of a communication terminal (100) including a communication unit (50) that performs wireless communication and an operation unit (60) that operates at a set clock frequency. A communication business that is used for wireless communication via the communication unit by accessing a management server (200) that manages, for each communication carrier, a clock frequency that does not interfere with a frequency band used by the communication carrier. A frequency specifying step (S22) for specifying a clock frequency according to the person, and an operation clock setting step (S23) for operating the operating unit at the clock frequency specified in the frequency specifying step. According to the control method, the same effects as those of the first aspect are obtained.

  The communication terminal according to each aspect of the present invention may be realized by a computer. In this case, the communication terminal is realized by a computer by operating the computer as each unit (software element) included in the communication terminal. A control program for a communication terminal and a computer-readable recording medium on which the control program is recorded also fall within the scope of the present invention.

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention. Furthermore, a new technical feature can be formed by combining the technical means disclosed in each embodiment.

  The present invention can be used for a communication terminal that performs wireless communication.

1 Communication terminal 11 Identification information acquisition unit (identification information recording processing unit)
12 frequency specifying unit 13 operation clock setting unit 20 storage unit (predetermined recording medium)
21 Country / operator identification information (operator identification information)
22 Corresponding frequency information 30 SIM card (predetermined recording medium)
50 Wireless communication unit (communication unit)
60 operation unit 100 communication terminal 112 frequency identification unit (information update unit)
113 Operation clock setting unit (stop control unit)

Claims (5)

A communication terminal including a communication unit that performs wireless communication and an operation unit that operates at a set clock frequency,
By accessing a management server that manages for each telecommunications carrier a clock frequency that does not interfere with the communication frequency band used by the telecommunications carrier, the clock frequency corresponding to the telecommunications carrier used for wireless communication via the communication unit is set. A frequency identification unit to be identified;
An operation clock setting unit that operates the operation unit at a clock frequency specified by the frequency specifying unit.   2. The communication according to claim 1, further comprising a stop control unit configured to stop the operation of the operation unit during a period until the operation clock setting unit specifies the clock frequency specified by the frequency specifying unit. Terminal. A storage unit for storing corresponding frequency information indicating a clock frequency that does not interfere with the communication frequency band for each communication carrier;
An information update unit that adds the clock frequency identified by accessing the management server to the corresponding frequency information,
The frequency specifying unit specifies the clock frequency from the corresponding frequency information when the clock frequency corresponding to a communication carrier used for wireless communication via the communication unit can be specified from the corresponding frequency information. The communication terminal according to claim 1 or 2. A communication terminal control method comprising: a communication unit that performs wireless communication; and an operation unit that operates at a set clock frequency,
Specify the clock frequency according to the telecommunications carrier to be used for wireless communication via the communication unit by accessing the management server that manages for each telecommunications carrier the clock frequency that does not interfere with the frequency band used by the telecommunications carrier. A frequency identification step to perform,
An operation clock setting step of operating the operating unit at the clock frequency specified in the frequency specifying step.   A control program for causing a computer to function as the communication terminal according to claim 1, wherein the control function causes the computer to function as the frequency specifying unit and the operation clock setting unit.

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