JP4510648B2 - Communication terminal - Google Patents

Description

  The present invention relates to a communication terminal having standby functions (dual standby functions) of both PHS (Personal Handyphone System) and GSM (Global System for Mobile Communications).

  In a conventional mobile phone having a function of simultaneously waiting for both PHS and GSM (dual standby function), the frequency band used in PHS is the 1900 MHz band, and the frequency bands used in GSM are the 900 MHz band and the 1800 MHz band Therefore, standby operations were performed using different frequency bands. For this reason, in the conventional mobile phone, when waiting for PHS and GSM, the standby operation is independently performed for PHS and GSM without being aware of both reception states.

  However, as a frequency band used in GSM, there is a mode that uses the same 1900 MHz band as the frequency band used in PHS, in addition to the 900 MHz band and the 1800 MHz band. When the frequency band used in GSM is very close to the frequency band used in PHS, if a standby operation is simultaneously performed for PHS and GSM, there is a case where normal reception cannot be performed due to interference. For this reason, when executing the dual standby operation, it is necessary to stop the reception operation of one of PHS and GSM and perform standby.

  For example, when giving priority to PHS standby, it is necessary to perform dual standby operation for GSM only in the 900 MHz band and the 1800 MHz band. Conversely, if priority is given to GSM standby, the PHS standby operation cannot be executed.

  The present invention provides a communication terminal capable of waiting in both the first communication mode (for example, PHS) and the second communication mode (for example, GSM) and preventing malfunctions due to interference during standby. For the purpose.

The invention according to claim 1 is a standby function of both the first communication form using the frequency band X and the second communication form using one or a plurality of frequency bands Y other than the frequency band X and the frequency band X. In a communication terminal having
The first communication form standby and the second communication form side frequency band when the communication area is in the first communication form and the second communication form side is within the communication range of the second communication form in one of the frequency bands Y on the second communication form side Means for shifting to a dual standby state in which both the standby of the second communication mode in the frequency band with the highest reception level other than X is performed,
Waiting only for the first communication form that only waits for the first communication form when it is within the communication range of the first communication form and is not within the communication range of the second communication form in any of the frequency bands Y on the second communication form side Means to transition to the state,
Only in the second communication mode that only waits for the second communication mode when it is not in the communication range of the first communication mode and is in the communication range of the second communication mode in any of the frequency bands Y on the second communication mode side In the standby state of only the second communication mode and the means for shifting to the standby state, while performing the standby operation of the second communication mode using the frequency band with the highest reception level among the frequency bands on the second communication mode side When the standby operation of the second communication form is temporarily interrupted every predetermined time to determine whether or not the communication range of the first communication form is reached, and when it is determined that the communication range is the first communication form , Means to shift to the dual standby state,
It is characterized by having.

The invention according to claim 2 is a standby function of both the first communication form using the frequency band X and the second communication form using one or a plurality of frequency bands Y other than the frequency band X and the frequency band X. In a communication terminal having
Within the communication area of the second communication form, the frequency band having the highest reception level among the frequency bands on the second communication form side is a frequency band other than the frequency band X, and is within the communication area of the first communication form In this case, a means for shifting to a dual standby state in which both the standby of the second communication form using the frequency band having the highest reception level other than the frequency band X on the second communication form side and the standby of the first communication form are performed.
Within the communication range of the second communication form, the frequency band having the highest reception level among the frequency bands on the second communication form side is a frequency band other than the frequency band X, and is not within the communication range of the first communication form In this case, means for shifting to the standby state of only the first second communication mode for performing only the standby of the second communication mode using the frequency band having the highest reception level other than the frequency band X on the second communication mode side,
The frequency band X on the second communication form side is used when the frequency band having the highest reception level among the frequency bands on the second communication form side is the frequency band X in the communication area of the second communication form Means for shifting to a standby state of only the second second communication mode for performing only standby of the second communication mode;
Means for shifting to a standby state of only the first communication mode for performing only standby of the first communication mode when not within the communication range of the second communication mode and within the reception range of the first communication mode;
In the standby state of only the second second communication mode, it is determined at every predetermined time whether it is within the communication range in each frequency band on the second communication mode side, and communication is performed in any frequency band on the second communication mode side. If the frequency band with the highest reception level is a frequency band other than the frequency band X, whether or not the standby operation of the second communication form is temporarily interrupted to enter the communication area of the first communication form If it is determined that the communication area is within the communication range of the first communication form, it is shifted to the dual standby state. If it is determined that the communication area is not within the communication area of the first communication form, the first second communication form is determined. In the standby state of only the first communication form and the standby state of only the first communication form, the standby operation of the first communication form is temporarily interrupted every predetermined time so as to be within the communication range of the second communication form. If it is determined that the frequency band within the communication range of the second communication mode and the highest reception level is the frequency band X, the standby state of only the second second communication mode is set. Means for shifting to the dual standby state when it is determined that the frequency band within the communication range of the second communication form and having the highest reception level is a frequency band other than the frequency band X,
It is characterized by having.

  According to the present invention, both the first communication mode (for example, PHS) and the second communication mode (for example, GSM) can be standby, and the occurrence of malfunction due to interference at the time of standby can be prevented. .

  Hereinafter, embodiments of the present invention applied to a mobile phone will be described with reference to the drawings.

  FIG. 1 shows the configuration of the main part of a mobile phone.

  Reference numeral 1 denotes a GSM antenna. Reference numeral 2 denotes a GSM communication control unit connected to the GSM antenna 1. Reference numeral 3 denotes a GSM communication CPU connected to the GSM communication control unit 2. Reference numeral 4 denotes a memory connected to the CPU 3.

  11 is a PHS antenna. Reference numeral 12 denotes a PHS communication control unit connected to the PHS antenna 11. Reference numeral 13 denotes a PHS communication CPU connected to the PHS communication control unit 12. Reference numeral 14 denotes a memory connected to the CPU 13. The CPU 3 for GSM communication and the CPU 13 for PHS communication are connected to each other via the I / F unit 10.

  In this embodiment, it is assumed that the frequency band used in PHS includes the 1900 MHz band, and the frequency band used in GSM includes the 900 MHz band, 1800 MHz band, and 1900 MHz band.

  This portable telephone has a function of waiting for both PHS and GSM at the same time (dual standby function). In addition, it is possible for the user to set which of PHS standby and GSM standby is prioritized during dual standby.

[1] When a mode is set that gives priority to PHS standby during dual standby

  FIG. 2 shows a procedure of processing executed by the CPUs 3 and 13 when a mode for receiving with priority on PHS standby is set during dual standby.

  When the power is turned on, first, a search on the PHS side is performed (step S1), and it is determined whether or not the communication range is within the PHS (step S2).

  If it is determined that it is within the PHS communication range, the GSM side search is performed in the 900 MHz band and 1800 MHz band on the GSM side (step S3), and the GSM communication is performed in at least one of the 900 MHz band and 1800 MHz band on the GSM side. It is determined whether or not it is within a range (step S4).

  If it is determined that at least one of the 900 MHz band and the 1800 MHz band on the GSM side is within the GSM communication range, the state shifts to the dual standby state (step S5). In the dual standby state, the GSM signal in the frequency band determined to be within the communication range of the 900 MHz band and 1800 MHz band on the GSM side (the frequency band with the higher reception level when both are in the range); A process of periodically receiving a PHS signal is performed. In the dual standby state, when the PHS reception level falls below a predetermined level, the process shifts to a GSM only standby state in step S9 described later. In the dual standby state, when the GSM reception level becomes a predetermined level or lower, the state shifts to a PHS only standby state in step S6 described later.

  If it is determined in step S4 that it is not within the GSM communication range, the process shifts to a standby state of only PHS (step S6). In the standby state of only PHS, processing such as periodically receiving a PHS signal is performed, and GSM side search is performed in the 900 MHz band and 1800 MHz band on the GSM side at predetermined time intervals. When the PHS reception level is below a predetermined level in the standby state of only PHS, the process returns to step S1. In the standby state of only PHS, if it is determined by the GSM side search that the GSM communication area is in at least one of the 900 MHz band and 1800 MHz band on the GSM side, the process shifts to the dual standby state in step S5.

  If it is determined in step S2 that it is not within the PHS communication range, the GSM side search is performed in the 900 MHz band and 1800 MHz band on the GSM side (step S7), and at least one of the 900 MHz band and 1800 MHz band on the GSM side In step S8, it is determined whether or not it is within the GSM communication range.

  If at least one of the 900 MHz band and 1800 MHz band on the GSM side is determined to be within the GSM communication range, the state shifts to a GSM-only standby state (step S9). Return to step S1.

  FIG. 3 shows a procedure of processing executed in the GSM-only standby state in step S9.

  Only the first GSM standby process is performed (step S11). In the standby processing of only the first GSM, the frequency band determined to be within the communication range of the 900 MHz band and 1800 MHz band on the GSM side (the frequency band with the higher reception level when both are within the range) While performing processing such as periodically receiving GSM signals, the PHS side search is performed at predetermined time intervals. In the standby processing for only the first GSM, when the GSM reception level falls below a predetermined level, the process returns to step S1. In the first GSM standby process, if it is determined by the PHS side search that the communication area is within the PHS communication range, the process shifts to the dual standby state in step S5.

  When the first GSM-only standby process in step S11 is performed and a predetermined time has elapsed (YES in step S12), the GSM-side search is performed in the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side. (Step S13), it is determined whether or not it is within the GSM communication range in at least one of the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side (step S14). If it is determined that it is not within the GSM communication range, the process returns to step S1.

  If it is determined in step S14 that the GSM communication range is within at least one of the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side, it is determined whether or not the frequency band with the highest reception level is 1900 MHz. (Step S14). That is, it is determined whether or not 1900 MHz is selected as the frequency band used for GMS standby. If the frequency band with the highest reception level is not 1900 MHz, the process returns to step S11.

  If it is determined in step S15 that the frequency band with the highest reception level is 1900 MHz, after starting a timer for elapse of the predetermined time T1 (step S16), only the second GSM standby processing Is performed (step S17). In the standby process for only the second GSM, a process of periodically receiving a GSM signal of 1900 MHz band on the GSM side is performed. In this case, the PHS side search is not performed to prevent interference. In the standby processing for the second GSM only, when the GSM reception level becomes a predetermined level or lower, the process returns to step S1.

  When the waiting process for only the second GSM in step S17 is performed, when the time T1 has elapsed (when the timer expires) (YES in step S18), the waiting process for only the second GSM is temporarily stopped. Then, a search on the PHS side is performed (step S19), and it is determined whether or not the communication range is within the PHS (step S20). If it is determined that it is not within the PHS communication range, the process returns to step S13, and if it is determined that it is within the PHS communication range, the process returns to step S3.

[2] When a mode is set that gives priority to GSM standby during dual standby

  FIG. 4 shows a procedure of processing executed by the CPUs 3 and 13 when a mode for receiving with priority on GSM standby is set during dual standby.

  When the power is turned on, first the GSM side is searched in the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side (step S31), and in at least one of the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side, It is determined whether or not it is within the GSM communication range (step S32).

  If it is determined that it is within the GSM communication range, it is determined whether or not the frequency band with the highest reception level is 1900 MHz (step S33). That is, it is determined whether or not 1900 MHz is selected as the frequency band used for GMS standby. If it is determined that the frequency band with the highest reception level is not 1900 MHz, a search on the PHS side is performed (step S34), and it is determined whether or not the communication range is within the PHS (step S35).

  When it is determined that the communication area is within the PHS communication range, the process shifts to a dual standby state (step S36). In the dual standby state, the GSM signal in the frequency band determined to be within the communication range of the 900 MHz band and 1800 MHz band on the GSM side (the frequency band with the higher reception level when both are in the range); A process of periodically receiving a PHS signal is performed. In the dual standby state, when the PHS reception level becomes a predetermined level or lower, the process shifts to the first GSM only standby state in step S37 described later. In the dual standby state, when the GSM reception level becomes a predetermined level or lower, the state shifts to a PHS only standby state in step S41 described later.

  If it is determined in step S35 that it is not within the communication range of PHS, the process shifts to a standby state of only the first GSM (step S37). In the standby state of only the first GSM, the frequency band determined to be within the communication range of the 900 MHz band and 1800 MHz band on the GSM side (the frequency band with the higher reception level when both are within the range) While performing processing such as periodically receiving GSM signals, the PHS side search is performed at predetermined time intervals. When the reception level of GSM becomes lower than a predetermined level in the standby state of only the first GSM, the process returns to step S31. In the standby state of only the first GSM, if it is determined by the PHS side search that it is within the PHS communication range, the process shifts to the dual standby state of step S36.

  If it is determined in step S33 that the frequency band with the highest reception level is 1900 MHz, the state shifts to a standby state for only the second GSM (step S38). Processing executed in the standby state of only the second GSM will be described later.

  If it is determined in step S32 that it is not within the GSM communication range, a search on the PHS side is performed (step S39), and it is determined whether or not it is within the PHS communication range (step S40).

  When it is determined that the communication area is within the PHS communication range, the state shifts to a standby state of only PHS (step S41). Processing executed in the standby state of only PHS will be described later.

  If it is determined in step S40 that the communication area is not within the PHS communication range, the process returns to step S31.

  FIG. 5 shows a procedure of processing executed in the standby state of only the second GSM in step S38.

  After starting a timer for elapse of the predetermined time T2 (step S51), a standby process for only GSM is performed (step S52). In the standby processing for only GSM, processing such as periodically receiving GSM signals of 1900 MHz band on the GSM side is performed. In this case, the PHS side search is not performed to prevent interference. In the GSM only standby process, when the GSM reception level becomes a predetermined level or lower, the process returns to step S31.

  When the standby process of only GSM in step S52 is performed, when time T2 elapses (when the timer expires) (YES in step S53), in the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side, Side search is performed (step S54), and it is determined whether or not it is within the GSM communication range in at least one of the 900 MHz band, 1800 MHz band and 1900 MHz band on the GSM side (step S55). If it is determined that it is not within the GSM communication range, the process returns to step S31.

  If it is determined in step S54 that the GSM communication range is within at least one of the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side, it is determined whether or not the frequency band with the highest reception level is 1900 MHz. (Step S56). That is, it is determined whether or not 1900 MHz is selected as the frequency band used for GMS standby. If the frequency band with the highest reception level is 1900 MHz, the process returns to step S51.

  If it is determined in step S56 that the frequency band with the highest reception level is not 1900 MHz, a search on the PHS side is performed (step S57), and it is determined whether or not the communication range is within the PHS (step S58). . When it is determined that it is within the PHS communication range, the process shifts to the dual standby state in step S36, and when it is determined that it is not within the PHS communication range, the process shifts to the first GSM only standby state at step S37.

  FIG. 6 shows the procedure of the process executed in the standby state of only PHS in step S41.

  After starting the timer for elapse of the predetermined time T3 (step S61), the PHS only standby process is performed (step S62). In the standby processing only for PHS, processing such as periodically receiving a PHS signal is performed. In this case, the GSM side search is not performed to prevent interference. In the PHS only standby process, when the PHS reception level becomes a predetermined level or lower, the process returns to step S31.

  When the standby process of only PHS in step S62 is performed and the time T3 has elapsed (when the timer expires) (YES in step S63), the standby process of only PHS is stopped (step S64). In the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side, a search on the GSM side is performed (step S 65). Is determined (step S66).

  When it is determined that it is not within the GSM communication range, the PHS side search is performed (step S67), and it is determined whether or not it is within the PHS communication range (step S68). If it is determined that the communication range is within the PHS, the process returns to step S61. When it is determined that it is not within the PHS communication range, the process proceeds to step S31.

  If it is determined in step S66 that the GSM communication range is within at least one of the 900 MHz band, 1800 MHz band, and 1900 MHz band on the GSM side, it is determined whether or not the frequency band with the highest reception level is 1900 MHz. (Step S69). That is, it is determined whether or not 1900 MHz is selected as the frequency band used for GMS standby. When the frequency band with the highest reception level is 1900 MHz, only the second GSM in step S38 shifts to the standby state. If the frequency band with the highest reception level is not 1900 MHz, a search on the PHS side is performed (step S70), and it is determined whether or not the communication range is within the PHS (step S71). When it is determined that the communication area is within the PHS communication range, the process shifts to the dual standby state in step S36. If it is determined that it is not within the PHS communication range, only the first GSM in step S37 is shifted to a standby state.

It is a block diagram which shows the structure of the principal part of a portable telephone. It is a flowchart which shows the procedure of the process performed by CPU3, 13 when the mode which gives priority and receives the standby of PHS at the time of dual standby is set. It is a flowchart which shows the procedure of the process performed in the standby state of only GSM of step S9 of FIG. It is a flowchart which shows the procedure of the process performed by CPU3, 13 when the mode which gives priority to GSM standby at the time of dual standby is set. FIG. 5 is a flowchart showing a procedure of processing executed in a standby state of only the second GSM in step S38 of FIG. It is a flowchart which shows the procedure of the process performed in the standby state of only PHS of step S41 of FIG.

Explanation of symbols

1 GSM antenna 2 GSM communication control unit 3 CPU for GSM communication
4 Memory 11 PHS Antenna 12 PHS Communication Control Unit 13 CPU for PHS Communication
14 Memory 10 I / F section

Claims (2)

In a communication terminal having a standby function of both the first communication mode using the frequency band X and the second communication mode using one or a plurality of frequency bands Y and the frequency band X other than the frequency band X,
The first communication form standby and the second communication form side frequency band when the communication area is in the first communication form and the second communication form side is within the communication range of the second communication form in one of the frequency bands Y on the second communication form side Means for shifting to a dual standby state in which both the standby of the second communication mode in the frequency band with the highest reception level other than X is performed,
Waiting only for the first communication form that only waits for the first communication form when it is within the communication range of the first communication form and is not within the communication range of the second communication form in any of the frequency bands Y on the second communication form side Means to transition to the state,
Only in the second communication mode that only waits for the second communication mode when it is not in the communication range of the first communication mode and is in the communication range of the second communication mode in any of the frequency bands Y on the second communication mode side In the standby state of only the second communication mode and the means for shifting to the standby state, while performing the standby operation of the second communication mode using the frequency band with the highest reception level among the frequency bands on the second communication mode side When the standby operation of the second communication form is temporarily interrupted every predetermined time to determine whether or not the communication range of the first communication form is reached, and when it is determined that the communication range is the first communication form , Means to shift to the dual standby state,
A communication terminal comprising: In a communication terminal having a standby function of both the first communication mode using the frequency band X and the second communication mode using one or a plurality of frequency bands Y and the frequency band X other than the frequency band X,
Within the communication area of the second communication form, the frequency band having the highest reception level among the frequency bands on the second communication form side is a frequency band other than the frequency band X, and is within the communication area of the first communication form In this case, a means for shifting to a dual standby state in which both the standby of the second communication form using the frequency band having the highest reception level other than the frequency band X on the second communication form side and the standby of the first communication form are performed.
Within the communication range of the second communication form, the frequency band having the highest reception level among the frequency bands on the second communication form side is a frequency band other than the frequency band X, and is not within the communication range of the first communication form In this case, means for shifting to the standby state of only the first second communication mode for performing only the standby of the second communication mode using the frequency band having the highest reception level other than the frequency band X on the second communication mode side,
The frequency band X on the second communication form side is used when the frequency band having the highest reception level among the frequency bands on the second communication form side is the frequency band X in the communication area of the second communication form Means for shifting to a standby state of only the second second communication mode for performing only standby of the second communication mode;
Means for shifting to a standby state of only the first communication mode for performing only standby of the first communication mode when not within the communication range of the second communication mode and within the reception range of the first communication mode;
In the standby state of only the second second communication mode, it is determined at every predetermined time whether it is within the communication range in each frequency band on the second communication mode side, and communication is performed in any frequency band on the second communication mode side. If the frequency band with the highest reception level is a frequency band other than the frequency band X, whether or not the standby operation of the second communication form is temporarily interrupted to enter the communication area of the first communication form If it is determined that the communication area is within the communication range of the first communication form, it is shifted to the dual standby state. If it is determined that the communication area is not within the communication area of the first communication form, the first second communication form is determined. In the standby state of only the first communication form and the standby state of only the first communication form, the standby operation of the first communication form is temporarily interrupted every predetermined time so as to be within the communication range of the second communication form. If it is determined that the frequency band within the communication range of the second communication mode and the highest reception level is the frequency band X, the standby state of only the second second communication mode is set. Means for shifting to the dual standby state when it is determined that the frequency band within the communication range of the second communication form and having the highest reception level is a frequency band other than the frequency band X,
A communication terminal comprising:

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