JP2015041849A - Mobile terminal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent destruction of data caused by ejection of a SIM card during communication and to facilitate stop and recovery of operation involved in attachment or detachment of the SIM card.SOLUTION: In a mobile terminal device (1), a power receiving and supplying unit of a communication unit of an NFCIC (23) is connected with a power supply (30) via a first conductor part (28) of a SIM tray (22) at a storage position of the SIM tray (22) where a SIM card (21) including an SE 26 is placed, and is disconnected from the power supply (30) in a pullout state.

Description

  The present invention relates to a portable terminal device having a short-range wireless communication function.

  A mobile terminal device such as a smartphone includes, for example, a SIM card (Subscriber Identity Module Card) in which a unique ID number for specifying a telephone number is recorded. In recent years, payment services such as electronic money using NFC (Near Field Communication) have become widespread, and a variety of mobile terminal devices having such a payment service function are commercially available. .

  A mobile terminal device having a settlement service function by NFC has a configuration for preventing troubles in a settlement service.

  Patent Document 1 discloses a configuration in which a mechanical operation switch or the like for cutting a circuit is provided between an antenna and a UIM (User Identity Module). With this configuration, it is possible to prevent an unintended operation of the non-contact communication function.

  Patent Document 2 discloses a configuration in which the security seal that seals the SIM slot also serves as a part of the antenna circuit, and if the SIM is removed irregularly, the antenna circuit is broken and communication is disabled. . This arrangement allows the device to be deactivated when the module is removed or replaced without authorization.

  Patent Document 3 discloses a configuration in which power supply to the storage unit (SIM) is stopped when the start of extraction is detected.

JP 2005-222097 A (published on August 18, 2005) JP 2006-510983 A (published March 30, 2006) JP 2012-242949 A (published December 10, 2012)

  A portable terminal device that uses the above-described payment service requires a circuit called SE (Secure Element) that stores data necessary for transactions. The SE can be mounted in a SIM card, an SD memory card, a dedicated IC, or the like, but in recent years, it has been mainly mounted in a SIM card.

  On the other hand, recent portable terminal devices such as a battery built-in type have been commercialized such that the user can insert and remove the SIM card without removing the battery.

  In such a portable terminal device, there is a concern that data corruption may occur due to an unpredictable error when the SIM card is intentionally or accidentally removed during NFC payment processing.

  With respect to such a problem, the configuration described in Patent Document 1 cannot cope with a situation where the SIM card is intentionally or accidentally removed during NFC communication of the mobile terminal device.

  Further, in the configuration described in Patent Document 2, when the SIM card is removed during NFC communication of the mobile terminal device, the mobile terminal device becomes inactive, thereby avoiding problems such as data corruption. Can do. However, once the SIM card is removed, the portable terminal device cannot be used until the security module is newly installed by the maintenance service and is completely reset.

  Further, in the configuration described in Patent Document 3, the power supply control unit stops the power supply to the storage member (SIM) when the take-out detection unit detects the start operation of taking out the SIM tray. For this reason, communication stop processing cannot be performed safely, and data may be damaged.

  Therefore, the present invention prevents the occurrence of problems such as data corruption when the SIM card is removed during NFC communication, and easily stops and restores the operation associated with the removal and installation of the SIM card. An object of the present invention is to provide a portable terminal device that can be used.

  In order to solve the above problems, a mobile terminal device according to an aspect of the present invention includes a memory module including a secure element, a storage position in which the memory module is disposed, and the memory module is stored, and the memory module. With reference to information held by the secure element, a module holding member that can be pulled out from the storage position, a communication unit that performs short-range wireless communication with an external device, and through the communication unit A communication control unit that controls a short-range wireless communication operation with the external device; a power source that supplies power to the communication unit and the communication control unit; and the module holding member includes a first conductor unit, The communication unit includes a power receiving unit that receives power supply from the power source, and the power receiving unit includes the module holding member in the storage position. The power source is connected to the power source via the first conductor portion in a state where the power source is disposed on the power source, and the connection to the power source via the first conductor portion is cut off in a state where the power source is pulled out from the storage position. It is said.

  According to the configuration of the present invention, when the memory module is removed during the communication by the short-range wireless communication, the communication interruption process between the mobile terminal device and the counterpart terminal device is safely performed, and the data is damaged. Etc. can be prevented. In addition, it is possible to easily stop and restore the operation of the mobile terminal device accompanying the removal and attachment of the memory module.

It is a schematic diagram which shows the structure of the portable terminal device of embodiment of this invention. It is a block diagram which shows the structure of NFCIC shown in FIG. 3A is an exploded perspective view showing a simplified internal structure of the mobile terminal device in a state in which the SIM tray shown in FIG. 1 is housed in the mobile terminal device, and FIG. It is a disassembled perspective view which simplifies and shows the internal structure of the portable terminal device in the state which pulled out the SIM tray shown in the inside from a portable terminal device. It is a front view which shows the structure of the terminal connected with the 1st conductor part and 2nd conductor part of a SIM tray shown in FIG. It is a schematic diagram which shows the structure of the portable terminal device of one Example of this invention. It is a schematic diagram which shows the structure of the portable terminal device of the other Example of this invention. It is a schematic diagram which shows the structure of the portable terminal device of the further another Example of this invention. FIG. 8A is a front view showing an actual SIM card, and FIG. 8B is a front view showing an actual micro SIM card.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic diagram showing a configuration of a mobile terminal device 1 according to an embodiment of the present invention. The mobile terminal device 1 is a mobile phone, a smartphone, a tablet terminal, or other portable electronic devices having an NFC (Near Field Communication) function. In the present embodiment, it is assumed that the mobile terminal device 1 includes a SIM card (Subscriber Identity Module Card) as a memory module.

  As shown in FIG. 1, the mobile terminal device 1 includes a SIM card (memory module) 21, a SIM tray (module holding member) 22, an NFC (Near Field Communication) IC 23, a CPU 24, an NFC antenna 25, a power source. 30 and a discharge circuit 27.

  The SIM card 21 includes a secure element (SE) 26 and is arranged on the SIM tray 22. The secure element 26 is a well-known device used in the mobile terminal device 1 and is, for example, a semiconductor product that includes a memory for safely storing data and a cryptographic logic circuit, and can withstand malicious analysis attacks from the outside. Is designed to be

  The SIM tray 22 is operated by the user to perform a sliding operation, thereby pulling out the mobile terminal device 1 from the inside (moving to the pulling position) and storing the mobile terminal device 1 inside (moving to the storing position). Is possible. The SIM card 21 can be taken out from the SIM tray 22 in a state where the SIM tray 22 has moved to the drawer position.

  The SIM tray 22 includes a first conductor portion 28 and a second conductor portion 29. The first conductor portion 28 is formed in, for example, a circular or rectangular dot shape, and has connection surfaces on the upper surface and the lower surface of the SIM tray 22 through the SIM tray 22. The second conductor portion 29 is formed in a linear shape having a predetermined length, and has a connection surface only on one surface of the SIM tray 22 (in this embodiment, the lower surface of the SIM tray 22 (see FIG. 3)). The first conductor portion 28 and the second conductor portion 29 are provided side by side in the direction in which the SIM tray 22 is pulled out (storage direction). The first conductor portion 28 is on the side in which the SIM tray 22 is pulled out with respect to the second conductor portion 29. Is located.

  The NFCIC 23 is an IC that controls wireless communication using the NFC function of the mobile terminal device 1. FIG. 2 is a block diagram showing the configuration of the NFCIC 23. As shown in FIG. 2, the NFCIC 23 includes a digital circuit unit (communication control unit) 31, a transmission amplifier (communication unit, power reception unit) 32, and a reception amplifier (communication unit, power reception unit) 33. In the NFCIC 23, the digital circuit unit 31, the transmission amplifier 32, and the reception amplifier 33 are each provided with a power supply circuit (not shown) that supplies an appropriate voltage in the circuit.

  The NFCIC 23 is provided with a digital circuit section power supply terminal 31a for supplying power to the digital circuit section 31, the transmission amplifier 32 and the reception amplifier 33, a transmission amplifier power supply terminal 32a and a reception amplifier power supply terminal 33a. The NFC antenna 25 is connected to the transmission amplifier 32 and the reception amplifier 33.

  The NFCIC 23 is electrically connected to the SIM card 21 in a state where the SIM tray 22 is disposed at the storage position. In the following description, electrical connection is simply expressed as connection.

  The digital circuit unit 31 of the NFCIC 23 is directly connected to the power supply 30. At least one of the transmission amplifier 32 and the reception amplifier 33 of the NFCIC 23 is connected to the power supply 30 via the first conductor portion 28 of the SIM tray 22 in a state where the SIM tray 22 is disposed at the storage position. Yes. In addition, at least one of the transmission amplifier 32 and the reception amplifier 33 is connected to the power supply 30 in a state where the SIM tray 22 is disposed at the pulling position or in the process of moving the SIM tray 22 from the storing position to the pulling position. It is cut off and connected to the second conductor portion 29.

  The CPU 24 controls application software included in the mobile terminal device 1. For example, the NFC antenna 25 is provided on the same substrate as the substrate on which the NFCIC 23 is provided, and is connected to the transmission amplifier 32 and the reception amplifier 33. The power supply 30 supplies power to the mobile terminal device 1. The discharge circuit 27 includes, for example, a discharge resistor as a discharge element, and discharges at least one residual charge when connected to at least one of the transmission amplifier 32 and the reception amplifier 33.

  Next, an outline of the internal structure of the mobile terminal device 1 will be described. 3A is an exploded perspective view showing the internal structure of the mobile terminal device 1 in a state in which the SIM tray 22 is housed inside the mobile terminal device 1, and FIG. It is a disassembled perspective view which simplifies and shows the internal structure of the portable terminal device 1 in the state pulled out from the inside of the portable terminal device 1.

  3A and 3B show an example in which the SIM card 21 is arranged on the lower surface of the SIM tray 22, but the arrangement form of the SIM card 21 with respect to the SIM tray 22 is not limited to this, What is necessary is just to set suitably from the positional relationship etc. with another member. In addition, the code | symbol 1a has shown the side end surface of the portable terminal device 1 in which the SIM tray 22 is taken in / out.

  As illustrated in FIGS. 3A and 3B, the mobile terminal device 1 includes a main board 41 and a power supply board 42, and the SIM tray 22 is disposed between the main board 41 and the power supply board 42.

  On the upper surface of the main substrate 41, an NFCIC 23, a CPU 24 (not shown), an NFC antenna 25 (not shown), and a discharge circuit 27 are provided.

  A terminal 27a is connected to the discharge circuit 27 via a power supply line 27b, and a terminal 23a is connected to the NFCIC 23 via a power supply line 23b. Here, at least one of the transmission amplifier power terminal 32a (transmission amplifier 32) and the reception amplifier power terminal 33a (reception amplifier 33) of the NFCIC 23 is connected to the terminal 23a.

  The terminal 27a and the terminal 23a are provided side by side in the pull-out direction (storage direction) of the SIM tray 22 at a predetermined interval. The predetermined interval is set to be equal to or shorter than the length of the second conductor portion 29 so that the terminal 27a and the terminal 23a can be connected to the second conductor portion 29 simultaneously.

  The position of the terminal 23 a is set to a position where the terminal 23 a is connected to the first conductor portion 28 of the SIM tray 22 in a state where the SIM tray 22 is disposed at the storage position. Further, the positions of the terminals 23a and 27a are such that the terminals 23a and 27a are the second conductors in a state where the SIM tray 22 is arranged at the drawing position or in the process of moving the SIM tray 22 from the storage position to the drawing position. The position is set to be connected to the unit 29 at the same time.

  A terminal 30 a is provided on the lower surface of the power supply substrate 42. The terminal 30a is connected to the power supply 30 via the feeder line 30b. The position of the terminal 30 a is set to a position where the terminal 30 a is connected to the first conductor portion 28 of the SIM tray 22 in a state where the SIM tray 22 is disposed at the storage position.

  Further, the SIM card 21 is connected to the NFCIC 23 via a SIM connector (not shown) provided on the upper surface of the main board 41 in a state where the SIM tray 22 is disposed at the storage position.

  FIG. 4 is a front view showing the structure of the terminal 23 a connected to the first conductor portion 28 and the second conductor portion 29 of the SIM tray 22. As shown in FIG. 4, the terminal 23a is formed of, for example, a conductive metal plate having elasticity, and includes a mounting portion 23a1, an elastic deformation portion 23a2, and a contact 23a3. The attachment portion 23a1 is formed in a flat plate shape and is fixed to the main board 41. The elastic deformation portion 23a2 is bent upward from the attachment portion 23a1 so as to be parallel to the attachment portion 23a1. The contact 23a3 is formed at the end of the elastically deforming portion 23a2, protrudes upward, and contacts and is connected to the first conductor portion 28 or the second conductor portion 29 of the SIM tray 22. The other terminals 27a and 30a have the same structure as the terminal 23a.

  In the above configuration, as shown in FIG. 1 and FIG. 3A, when the SIM tray 22 is disposed at the storage position, the terminal 23 a and the terminal 30 a are connected to the first conductor portion 28. The terminal 23 a is connected to at least one of the transmission amplifier 32 and the reception amplifier 33 of the NFCIC 23, and the terminal 30 a is connected to the power supply 30. Therefore, in this case, at least one of the transmission amplifier 32 and the reception amplifier 33 is connected to the power supply 30 via the first conductor portion 28.

  Note that the digital circuit unit 31 (digital circuit unit power supply terminal 31a) of the NFCIC 23 has a power supply 30 regardless of the position of the SIM tray 22 in the storage position, the drawer position, or between the storage position and the drawer position. Connected with.

  Further, when either one of the transmission amplifier 32 and the reception amplifier 33 is configured not to be connected to the power supply 30 via the first conductor portion 28, the amplifier that is not connected is located at the position of the SIM tray 22 as in the digital circuit portion 31. Is connected to the power supply 30 at any of the above positions.

  Therefore, when the SIM tray 22 is disposed in the storage position, power is supplied from the power supply 30 to the digital circuit unit 31, the transmission amplifier 32, and the reception amplifier 33 of the NFCIC 23, and the NFCIC 23 can operate.

  On the other hand, as shown in FIG. 3B, when the SIM tray 22 is pulled out from the storage position, the terminal 23a and the terminal 30a are disconnected from the first conductor portion 28. Further, the terminal 23 a is connected to the second conductor portion 29. A terminal 27 a connected to the discharge circuit 27 is connected to the second conductor portion 29 in advance. Therefore, in this case, the terminal 23 a and the terminal 27 a are simultaneously connected to the second conductor portion 29, and at least one of the transmission amplifier 32 and the reception amplifier 33 is connected to the discharge circuit 27 via the second conductor portion 29. Is done.

  As described above, when the terminal 23a and the terminal 27a are simultaneously connected to the second conductor portion 29 (the state in which the terminal 23a is connected to the second conductor portion 29), the SIM tray 22 is disposed at the drawing position. It may occur in the state where the SIM tray 22 is moved or from the storage position to the pull-out position.

  Therefore, in a state in which the SIM tray 22 is arranged at the drawer position or in the process of moving the SIM tray 22 from the storage position to the drawer position, at least one of the transmission amplifier 32 and the reception amplifier 33 is cut off from the power supply, Further, the residual charge is discharged by being connected to the discharge circuit 27, and the communication operation with the counterpart terminal device (external device, for example, the terminal device connected to the server) is immediately stopped. On the other hand, the digital circuit unit 31 is kept connected to the power source and can operate continuously.

  Here, the sudden interruption of transmission / reception of radio waves between the NFCIC 23 and the counterpart terminal device means that the distance between the mobile terminal device 1 and the counterpart terminal device is small for both the mobile terminal device 1 and the counterpart terminal device. It is a state equivalent to having left, and the communication interruption process can be safely performed using an existing protocol that assumes that state.

  Thus, even if the SIM tray 22 is intentionally or accidentally pulled out during NFC communication between the mobile terminal device 1 and the counterpart terminal device, the communication interruption process can be performed safely. It is possible to prevent the occurrence of problems such as data corruption.

  In addition, the power supply circuit included in the transmission amplifier 32 and the reception amplifier 33 generally stabilizes the power supply voltage by using a capacitance such as a capacitor. For this reason, there is a concern that the voltage level of the transmission amplifier 32 and the reception amplifier 33 does not immediately decrease to a level at which the operation stops, and the transmission / reception of radio waves does not stop immediately if the connection with the power supply 30 is cut off.

  Therefore, in the portable terminal device 1, when the SIM tray 22 is pulled out, the connection between the power supply 30 and the terminal 23 a to which at least one of the transmission amplifier 32 and the reception amplifier 33 is connected is further cut off. 23a is connected to the discharge circuit 27, the power supply voltage of at least one of the transmission amplifier 32 and the reception amplifier 33 is immediately reduced to the GND level, and the NFC communication between the mobile terminal device 1 and the counterpart terminal device is immediately stopped. I am letting. Thereby, higher reliability is ensured.

  Further, the connection between at least one of the transmission amplifier 32 and the reception amplifier 33 of the NFCIC 23 and the power supply 30 can be easily restored by arranging the SIM tray 22 in the storage position.

  In addition, as a SIM card currently marketed, the SIM card shown to (a) of FIG. 8 and the microSIM card shown to (b) of FIG. 8 are known. In the drawings showing the present embodiment, the SIM card 21 having a simplified shape is shown for convenience of explanation, but the one shown in FIGS. 8A and 8B can be used in the same manner. Of course there is.

Example 1
Embodiments of the present invention will be described below with reference to the drawings. FIG. 5 is a schematic diagram showing the configuration of the mobile terminal device 11 according to the embodiment of the present invention.

  As shown in FIG. 5, in the mobile terminal device 1 of the present embodiment, the transmission amplifier power supply terminal 32a and the reception amplifier power supply terminal 33a of the NFCIC 23 are connected to the terminal 23a via the feeder line 23b.

  Therefore, as shown in FIG. 3A, when the SIM tray 22 is disposed at the storage position, the transmission amplifier 32 and the reception amplifier 33 are connected to the power supply 30 via the first conductor portion 28. . The digital circuit unit 31 of the NFCIC 23 is connected to the power source 30 regardless of the position of the SIM tray 22. Thereby, when the SIM tray 22 is arranged at the storage position, the NFCIC 23 can operate by supplying power from the power supply 30 to each unit.

  On the other hand, as shown in FIG. 3B, when the SIM tray 22 is pulled out from the storage position, the transmission amplifier 32 and the reception amplifier 33 are connected to the discharge circuit 27 via the second conductor portion 29. The As a result, the transmission amplifier 32 and the reception amplifier 33 are disconnected from the power supply from the power supply 30 and connected to the discharge circuit 27 to discharge the residual charge, and immediately stop the communication operation with the counterpart terminal device. On the other hand, the digital circuit unit 31 is kept connected to the power source.

  Thus, even if the SIM tray 22 is intentionally or accidentally pulled out during NFC communication between the mobile terminal device 1 and the counterpart terminal device, the communication interruption process can be performed safely. It is possible to prevent the occurrence of problems such as data corruption. Further, the connection between the transmission amplifier 32 and the reception amplifier 33 of the NFCIC 23 and the power supply 30 can be easily restored by arranging the SIM tray 22 in the storage position.

(Example 2)
Another embodiment of the present invention will be described below with reference to the drawings. FIG. 6 is a schematic diagram showing the configuration of the mobile terminal device 12 according to another embodiment of the present invention.

  In the portable terminal device 12 of the present embodiment, as shown in FIG. 6, only the reception amplifier power supply terminal 33a of the NFCIC 23 is connected to the terminal 23a via the feeder line 23b.

  Therefore, as shown in FIG. 3A, when the SIM tray 22 is disposed at the storage position, the reception amplifier 33 is connected to the power supply 30 via the first conductor portion 28. The digital circuit unit 31 and the transmission amplifier 32 of the NFCIC 23 are connected to the power supply 30 regardless of the position of the SIM tray 22. Thereby, when the SIM tray 22 is arranged at the storage position, the NFCIC 23 can operate by supplying power from the power supply 30 to each unit.

  On the other hand, as shown in FIG. 3B, when the SIM tray 22 is pulled out from the storage position, the reception amplifier 33 is connected to the discharge circuit 27 via the second conductor portion 29. As a result, the receiving amplifier 33 is disconnected from the power supply 30 and connected to the discharge circuit 27 to discharge the residual charge, and immediately stops the communication operation with the counterpart terminal device. On the other hand, the digital circuit unit 31 and the transmission amplifier 32 are maintained connected to the power source.

  Thus, even if the SIM tray 22 is intentionally or accidentally pulled out during NFC communication between the mobile terminal device 1 and the counterpart terminal device, the communication interruption process can be performed safely. It is possible to prevent the occurrence of problems such as data corruption. Further, the connection between the reception amplifier 33 of the NFCIC 23 and the power supply 30 can be easily restored by arranging the SIM tray 22 in the storage position.

Example 3
Still another embodiment of the present invention will be described below with reference to the drawings. FIG. 7 is a schematic diagram showing the configuration of the mobile terminal device 13 of still another embodiment of the present invention.

  As shown in FIG. 7, in the mobile terminal device 13 of the present embodiment, the transmission amplifier power supply terminal 32a of the NFCIC 23 is connected to the terminal 23a through the feeder line 23b.

  Therefore, as shown in FIG. 3A, when the SIM tray 22 is disposed at the storage position, the transmission amplifier 32 is connected to the power source 30 via the first conductor portion 28. Note that the digital circuit unit 31 and the reception amplifier 33 of the NFCIC 23 are connected to the power supply 30 regardless of the position of the SIM tray 22. Thereby, when the SIM tray 22 is arranged at the storage position, the NFCIC 23 can operate by supplying power from the power supply 30 to each unit.

  On the other hand, as shown in FIG. 3B, when the SIM tray 22 is pulled out from the storage position, the transmission amplifier 32 is connected to the discharge circuit 27 via the second conductor portion 29. As a result, the transmission amplifier 32 is disconnected from the power supply 30 and connected to the discharge circuit 27 to discharge the residual charge, and immediately stops the communication operation with the counterpart terminal device. On the other hand, the digital circuit unit 31 and the reception amplifier 33 are kept connected to the power source.

  Thus, even if the SIM tray 22 is intentionally or accidentally pulled out during NFC communication between the mobile terminal device 1 and the counterpart terminal device, the communication interruption process can be performed safely. It is possible to prevent the occurrence of problems such as data corruption. Further, the connection between the transmission amplifier 32 of the NFCIC 23 and the power supply 30 can be easily restored by arranging the SIM tray 22 in the storage position.

  In the above description, the discharge circuit 27 has been described as including a discharge element (discharge resistor). However, the present invention is not limited to this, and any configuration that lowers the connected circuit to a GND (ground) potential may be used. .

  Further, in the above description, at least one of the transmission amplifier 32 and the reception amplifier 33 is connected to the discharge circuit 27 via the terminal 23 a and the second conductor portion 29 when the SIM tray 22 is pulled out from the storage position. The configuration is as follows. Such a configuration is preferable in that the potential of the circuit connected to the terminal 23a is immediately lowered to the GND potential and the operation is immediately stopped. However, the present invention is not limited to this, and when the SIM tray 22 is pulled out from the storage position, the connection between the power supply 30 and at least one of the transmission amplifier 32 and the reception amplifier 33 may be simply cut off. .

[Summary]
The mobile terminal device 1 according to the first aspect of the present invention includes a memory module (SIM card 21) including a secure element 26, the memory module disposed therein, a storage position where the memory module is stored, and the memory module can be taken out. The module holding member (SIM tray 22) that can be pulled out from the storage position, a communication unit that performs short-range wireless communication with an external device, and information held by the secure element, A communication control unit (digital circuit unit 31) for controlling a short-range wireless communication operation with the external device via a power source, and a power supply 30 for supplying power to the communication unit and the communication control unit, the module holding member Has a first conductor portion 28, and the communication portion receives a power supply from the power source 30 (a transmission amplifier). 32 or at least one of the reception amplifiers 33), and the power receiving unit is connected to the power source 30 via the first conductor unit 28 in a state where the module holding member is disposed at the storage position, In the state of being pulled out from the storage position, the connection with the power source 30 via the first conductor portion 28 is cut off.

  According to the above configuration, the power receiving unit is disconnected from the power source 30 via the first conductor unit 28 in a state where the module holding member is pulled out from the storage position.

  As a result, when the memory module is removed during the communication by the short-range wireless communication, the communication interruption process between the mobile terminal device 1 and the counterpart terminal device is safely performed, and there is a problem such as data corruption. Can be prevented. In addition, it is possible to easily stop and restore the operation of the mobile terminal device 1 accompanying the removal and attachment of the memory module.

  The portable terminal device 1 according to the second aspect of the present invention includes the discharge circuit 27 according to the first aspect, the module holding member (SIM tray 22) includes the second conductor portion 29, and the power receiving unit (transmission amplifier). 32 or at least one of the reception amplifiers 33) is configured to be connected to the discharge circuit 27 via the second conductor portion 29 in a state where the module holding member is pulled out from the storage position.

  According to the above configuration, in the power receiving unit, in the state where the module holding member is pulled out from the storage position, the residual charge is discharged by the discharge circuit 27, so that the voltage immediately decreases to the GND level. Therefore, the mobile terminal device 1 immediately stops the NFC communication with the counterpart terminal device. As a result, it is possible to further enhance the function of preventing problems such as data corruption when the memory module (SIM card 21) is removed.

  The mobile terminal device 11 according to the aspect 3 of the present invention is the configuration according to the aspect 1 or 2, wherein the communication unit includes a transmission amplifier 32 and a reception amplifier 33 as the power receiving unit.

  According to the above configuration, when the memory module (SIM card 21) is removed during communication by short-range wireless communication, the operations of the transmission amplifier 32 and the reception amplifier 33 of the communication unit are stopped, and the mobile terminal device Since the communication interruption process between the terminal 11 and the counterpart terminal device is performed safely, it is possible to prevent problems such as data corruption.

  The mobile terminal device 12 according to the aspect 4 of the present invention is the configuration according to the aspect 1 or 2, wherein the communication unit includes a reception amplifier 33 as the power receiving unit.

  According to the above configuration, when the memory module (SIM card 21) is removed during communication by short-range wireless communication, the operation of the reception amplifier 33 of the communication unit is stopped, and the mobile terminal device 12 and the other party side Since the communication interruption process with the terminal device is performed safely, it is possible to prevent problems such as data corruption.

  The portable terminal device 13 according to the fifth aspect of the present invention is the configuration according to the first or second aspect, in which the communication unit includes a transmission amplifier 32 as the power receiving unit.

  According to the above configuration, when the memory module (SIM card 21) is removed during communication by short-range wireless communication, the operation of the transmission amplifier 32 of the communication unit stops, and the mobile terminal device 13 and the other party side Since the communication interruption process with the terminal device is performed safely, it is possible to prevent problems such as data corruption.

  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 mobile terminal device such as a smartphone or a tablet terminal that has a short-range wireless communication function and can insert and remove a memory module including the secure element 26.

1 mobile terminal device 1a side end face
11-13 Mobile terminal device 21 SIM card (memory module)
22 SIM tray (module holding member)
23 NFCIC
23a terminal 25 NFC antenna 26 secure element 27 discharge circuit 27a terminal 28 first conductor part 29 second conductor part 30 power supply 30a terminal 31 digital circuit part (communication control part)
31a Digital circuit power supply terminal 32 Transmitting amplifier (communication unit, power receiving unit)
32a Transmission amplifier power supply terminal 33 Reception amplifier (communication unit, power receiving unit)
33a Receive amplifier power supply terminal

Claims (5)

A memory module including a secure element;
A module holding member in which the memory module is disposed, a storage position in which the memory module is stored;
A communication unit that performs short-range wireless communication with an external device;
A communication control unit that refers to information held by the secure element and controls a short-range wireless communication operation with the external device via the communication unit;
A power supply for supplying power to the communication unit and the communication control unit,
The module holding member has a first conductor portion,
The communication unit includes a power receiving unit that receives power supply from the power source,
The power receiving unit is connected to the power source through the first conductor part in a state where the module holding member is disposed at the storage position, and the first conductor part is connected to the power source through the storage position. The mobile terminal device is characterized in that the connection with the power source is cut off. With a discharge circuit,
The module holding member has a second conductor portion,
2. The mobile terminal device according to claim 1, wherein the power receiving unit is connected to the discharge circuit through the second conductor portion in a state where the module holding member is pulled out from the storage position. .   The portable terminal device according to claim 1, wherein the communication unit includes a transmission amplifier and a reception amplifier as the power receiving unit.   The portable terminal device according to claim 1, wherein the communication unit includes a reception amplifier as the power receiving unit.   The portable terminal device according to claim 1, wherein the communication unit includes a transmission amplifier as the power receiving unit.

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