JP6616553B2 - Communication system and power saving method - Google Patents

Description

  The present invention relates to a communication device and a power saving method.

  As a power saving technology in communication, Patent Document 1 discloses that when a communication device receives specific data in a second mode in which power consumption is suppressed compared to the first mode, the communication device changes to the first mode. It is described that it is done.

  Patent Document 2 describes that a data communication unit that performs data communication except for a period necessary for data communication is set in an inactive state.

  Further, in Patent Document 3, the communication device has a first use mode and a second use mode, and when the communication device receives a connection start signal, the reception strength is a predetermined value or more in the second use mode. It is described that a response signal is output in some cases.

JP 2012-34179 A JP 2007-306201 A JP 2013-211161 A

  The inventors perform power saving in communication using a communication device including a BT3 chip corresponding to the Bluetooth (registered trademark) 3 (BT3) standard and a BLE chip corresponding to the Bluetooth LE (BLE) standard. I am considering that.

  The BLE chip operates with lower power consumption than the BT3 chip. On the other hand, the BLE chip has a smaller amount of data that can be communicated per unit time than the BT3 chip, and has lower communication reliability. Therefore, it is desirable that data communication is performed by the BT3 chip.

  Based on this, in the communication device under consideration, when the state of the BT3 chip is in the off state, the BLE chip receives a predetermined signal from the communication partner device. Then, the BT3 chip is turned on in response to reception of the predetermined signal. Then, the BT3 chip switched to the on state starts data communication with the communication partner device.

  However, when data communication is started as described above, the communication partner apparatus cannot recognize the BT3 chip included in the communication apparatus together with the BLE chip that receives a predetermined signal. For example, when there are a plurality of BT3 chips around the communication partner device, the communication partner device cannot recognize the BT3 chip switched to the ON state in response to a predetermined signal.

  In this respect, in the inventions described in Patent Documents 1 to 3, it is not originally assumed that one communication device includes a BT3 chip and a BLE chip.

  The above is not limited to the case where the communication device includes the BT3 chip and the BLE chip, but is generally applicable when the communication device includes a plurality of communication units.

  The present invention has been made in view of the above circumstances, and one of its purposes is to provide a communication unit that switches to an on state in response to receiving a predetermined signal from the communication partner device. It is an object of the present invention to provide a communication device and a power saving method that can be surely recognized.

  In order to solve the above-described problem, a communication device according to the present invention is a communication device including a first communication unit and a second communication unit in which different identification information is set. The communication unit operates with lower power consumption than the first communication unit, and the second communication unit identifies the first communication unit when the state of the first communication unit is off. Starting means for transmitting information and switching the state of the first communication unit to an on state when the second communication unit receives a predetermined signal transmitted from a communication partner device that receives the identification information; The first communication unit whose state is switched to the on state starts communication of data used for predetermined information processing with the communication partner apparatus.

  In one aspect of the present invention, when the second communication unit receives the predetermined signal, the activation unit switches the state of the first communication unit to an on state and the second communication unit Switch state to off state.

  In one aspect of the present invention, the second communication unit broadcasts a packet including identification information of the first communication unit when the state of the first communication unit is an off state, The activation means switches the state of the first communication unit to the on state when the second communication unit receives the predetermined signal transmitted from the communication partner device that receives the broadcast packet.

  In one aspect of the present invention, the processor further includes a processor that reads the identification information of the first communication unit stored in the first communication unit and notifies the second communication unit of the identification information. The communication unit transmits the identification information notified from the processor when the state of the first communication unit is an off state.

  Alternatively, in the second communication unit, the second communication unit stores in advance identification information of the first communication unit, and in the second communication unit, the state of the first communication unit is off. When it is in a state, the stored identification information is transmitted.

  In the aspect of the invention, the first communication unit performs wireless communication in accordance with the Bluetooth 3 standard, and the second communication unit performs wireless communication in accordance with the Bluetooth LE standard.

  Further, in the power saving method according to the present invention, when the state of the first communication unit is OFF, identification information different from that of the first communication unit is set. A second communication unit that operates with low power consumption transmits the identification information of the first communication unit, and a predetermined signal transmitted from a communication partner device that receives the identification information is transmitted to the second communication unit. When the communication unit receives the information, the step of switching the state of the first communication unit to the on state and the first communication unit whose state has been switched to the on state are predetermined information with the communication partner device. Starting communication of data used for processing.

It is a figure which shows an example of the whole structure of the communication system which concerns on one Embodiment of this invention. It is a figure which shows an example of a structure of the card reader which concerns on one Embodiment of this invention. It is a figure which shows an example of a structure of the portable terminal which concerns on one Embodiment of this invention. It is a figure which shows an example of paired apparatus data. It is a figure which shows an example of a selection screen. It is a figure which shows another example of a selection screen. It is a functional block diagram which shows an example of the function mounted by the card reader and portable terminal which concern on one Embodiment of this invention. It is a flowchart which shows an example of the flow of the process performed in the communication system which concerns on one Embodiment of this invention.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram illustrating an example of the overall configuration of a communication system 10 according to an embodiment of the present invention. As shown in FIG. 1, the communication system 10 according to the present embodiment includes a card reader 12 (12-1 to 12-n), a portable terminal 14, and a server 16. The portable terminal 14 and the server 16 are connected to a computer network 18 such as the Internet. Therefore, the mobile terminal 14 and the server 16 can communicate with each other via the computer network 18. The card reader 12 according to the present embodiment performs wireless communication in accordance with the Bluetooth (registered trademark) standard using the mobile terminal 14 as a communication partner device (communication partner device). In addition, the mobile terminal 14 according to the present embodiment performs wireless communication according to the Bluetooth standard using the card reader 12 as a communication partner device (communication partner device).

  In the present embodiment, the card reader 12 is a portable device that serves as a communication device that communicates with the mobile terminal 14, for example. As shown in FIG. 2A, the card reader 12 includes, for example, a processor 20, a storage unit 22, a communication unit 24 (BT3 chip 24a and BLE chip 24b), a card reading unit 26, and the like.

  The processor 20 is a program control device such as a CPU that operates according to a program installed in the card reader 12, for example. The storage unit 22 is, for example, a storage element such as a ROM or a RAM. The communication unit 24 includes a BT3 chip 24a and a BLE chip 24b. The BT3 chip 24a is a communication interface that performs wireless communication in accordance with the Bluetooth 3 standard. The BLE chip 24b is a communication interface that performs wireless communication in accordance with the Bluetooth LE standard. The card reading unit 26 is a device that reads data recorded on various cards such as a credit card.

  In the present embodiment, for example, different identification information (Bluetooth address) is set in the BT3 chip 24a and the BLE chip 24b. Hereinafter, the Bluetooth address that is identification information of the BT3 chip 24a is referred to as a BD3 BD address, and the Bluetooth address that is identification information of the BLE chip 24b is referred to as a BLE BD address.

  The BLE chip 24b operates with lower power consumption than the BT3 chip 24a. On the other hand, the BLE chip 24b has a smaller amount of data that can be communicated per unit time than the BT3 chip 24a, and has lower communication reliability. For this reason, it is desirable that data communication performed between the card reader 12 and the portable terminal 14 is performed by the BT3 chip 24a.

  The portable terminal 14 is a portable device such as a smartphone or a tablet terminal, and plays a role as a communication device that communicates with the card reader 12 in this embodiment. Further, as described above, the mobile terminal 14 can also communicate with the server 16. As shown in FIG. 2B, the mobile terminal 14 includes, for example, a processor 30, a storage unit 32, a communication unit 34, a display unit 36, a sensor unit 38, an audio output unit 40, a camera unit 42, and the like.

  The processor 30 is a program control device such as a CPU that operates according to a program installed in the mobile terminal 14, for example. The storage unit 32 is, for example, a storage element such as a ROM or a RAM. The communication unit 34 is a communication interface including an LTE communication module, a wireless LAN module, a Bluetooth module, and the like. The communication unit 34 may be capable of wireless communication in accordance with the Bluetooth 3 standard and wireless communication in accordance with the Bluetooth LE standard. The communication unit 34 may include a chip that performs wireless communication in accordance with the Bluetooth 3 standard and a chip that performs wireless communication in accordance with the Bluetooth LE standard. The display unit 36 is a display such as a liquid crystal display or an organic EL display. The sensor unit 38 is a sensor such as a motion sensor capable of detecting acceleration and each speed, for example. The audio output unit 40 is, for example, a headphone or a speaker. The camera unit 42 is a camera such as a digital camera, for example.

  In this embodiment, the server 16 is a server computer that executes predetermined information processing such as payment processing.

  In this embodiment, the communication unit 34 of the mobile terminal 14 performs pairing processing with the BT3 chip 24a of the card reader 12, so that the paired device data associated with the card reader 12 is stored in the mobile terminal 14. be registered. In this embodiment, the paired device data is stored in the storage unit 32 of the mobile terminal 14, for example.

  FIG. 3 is a diagram illustrating an example of paired device data. As shown in FIG. 3, the paired device data includes at least name data indicating the name of the communication device that is the partner of the pairing process and the BD3 BD address of the communication device.

  For example, the name of the card reader 12-1 is reader1, the name of the card reader 12-2 is reader2, and the name of the card reader 12-3 is reader3. The paired device data shown in FIG. 3 is stored in the portable terminal 14. In this case, the paired device data of the card reader 12-1 and the card reader 12-3 are registered in the portable terminal 14, and the paired device data of the card reader 12-2 is not registered. It becomes.

  FIG. 4A is a diagram illustrating an example of a selection screen displayed on the display unit 36 of the mobile terminal 14 according to the present embodiment. FIG. 4B is a diagram illustrating another example of the selection screen displayed on the display unit 36 of the mobile terminal 14 according to the present embodiment. Note that the selection screen according to the present embodiment is not limited to that shown in FIGS. 4A and 4B. On the selection screen, one or a plurality of pieces of candidate information 50 that are associated with candidates of the card reader 12 that performs data communication with the mobile terminal 14 are arranged.

  In the present embodiment, the BLE chip 24b that is in a power-on state (on state) broadcasts an advertising packet in accordance with the Bluetooth LE standard. The mobile terminal 14 that has received the broadcast advertising packet displays a selection screen in which candidate information 50 associated with the card reader 12 that has transmitted the advertising packet is arranged.

  Here, for example, it is assumed that the mobile terminal 14 receives the advertising packet transmitted by each of the card reader 12-1, the card reader 12-2, and the card reader 12-3. In this case, as shown in FIG. 4A, candidate information 50-1 associated with the card reader 12-1, candidate information 50-2 associated with the card reader 12-2, and association with the card reader 12-3. Candidate information 50-3 may be arranged on the selection screen. Further, as shown in FIG. 4B, only candidate information 50 associated with the card reader 12 in which paired device data is registered among these card readers 12 may be arranged on the selection screen. In this case, for example, only candidate information 50-1 associated with the card reader 12-1 and candidate information 50-3 associated with the card reader 12-3 are arranged on the selection screen.

  As illustrated in FIG. 4A, the candidate information 50 may include, for example, a character string S1 indicating the name of the card reader 12 associated with the candidate information 50. The candidate information 50 associated with the card reader 12 in which the paired device data is registered may include a character string S2 indicating the BD address of the BT3 of the card reader 12. The candidate information 50 may include, for example, a character string S3 indicating the BD BD address of the card reader 12 associated with the candidate information 50. As shown in FIG. 4B, the candidate information 50 may not include the character string S2 and the character string S3 described above.

  Further, the connection button B may be included in the candidate information 50 associated with the card reader 12 in which paired device data is registered. As described above, since the paired device data of the card reader 12-2 is not registered in the portable terminal 14, the connection button B is not arranged in the candidate information 50-2.

  Here, when the user of the mobile terminal 14 performs an operation of selecting the connection button B included in the candidate information 50 associated with the card reader 12 with which data communication is desired, the BLE chip 24b of the card reader 12 is selected. A predetermined signal is transmitted. Hereinafter, the signal is referred to as a detection signal.

  The card reader 12 that has received the detection signal via the BLE chip 24b activates the BT3 chip 24a of the card reader 12 that is in the off state. Here, for example, the processor 20 of the card reader 12 may activate the BT3 chip 24a. The BLE chip 24b that has received the detection signal may activate the BT3 chip 24a. As a result, the state of the BT3 chip 24a is switched from the off state to the on state. Then, by transmitting a packet such as a communication start request to the BT3 chip 24a in which the mobile terminal 14 is switched on, data communication between the communication unit 34 of the mobile terminal 14 and the BT3 chip 24a is started. The And the predetermined information processing which the card reader 12, the portable terminal 14, and the server 16 cooperated will be performed.

  As an example of use of this embodiment, a settlement process using a credit card can be given. In this settlement processing, for example, the card reader 12 owned by the store reads data recorded on the credit card of the customer who uses the store. Then, the data is transmitted to the mobile terminal 14 by communication between the communication unit 34 of the mobile terminal 14 owned by the store and the BT3 chip 24a of the card reader 12. Then, the mobile terminal 14 transmits the data received from the card reader 12 to the server 16 operated by the company that issues the credit card, and performs settlement processing in cooperation with the server 16.

  In the present embodiment, the card reader 12 that has received the detection signal from the portable terminal 14 via the BLE chip 24b includes the BT3 chip 24a that is included in the card reader 12 and that is switched on in response to the reception of the detection signal. The mobile terminal 14 needs to be surely recognized. For example, the card reader 12 needs to cause the mobile terminal 14 to reliably transmit a packet such as a communication start request that is addressed to the BD 3 BD address associated with the BLE BD address of the detection signal transmission destination.

  Therefore, in this embodiment, the BLE chip 24b included in the card reader 12 transmits the BD address of the BT3 chip 24a included in the card reader 12. In this way, the card reader 12 according to the present embodiment can cause the mobile terminal 14 to reliably recognize the BT3 chip 24a that is provided in the card reader 12 and switches to the on state in response to reception of the detection signal.

  Hereinafter, functions of the card reader 12 and the portable terminal 14 according to the present embodiment and processing executed by the communication system 10 according to the present embodiment will be further described.

  FIG. 5 is a functional block diagram illustrating an example of functions implemented by the card reader 12 and the mobile terminal 14 according to the present embodiment. Note that the card reader 12 and the mobile terminal 14 according to the present embodiment do not have to include all of the functions shown in FIG. 5, and may have functions other than the functions shown in FIG.

  As shown in FIG. 5, the card reader 12 according to the present embodiment functionally includes, for example, a pairing process execution unit 60, a broadcast unit 62, a detection signal reception unit 64, a detection response transmission unit 66, and a start / stop control unit. 68, a communication start request receiving unit 70, and a process execution unit 72.

  The pairing process execution unit 60 and the communication start request reception unit 70 are mainly mounted with the BT3 chip 24a. The broadcast unit 62, the detection signal reception unit 64, and the detection response transmission unit 66 are mainly mounted with the BLE chip 24b. The start / stop control unit 68 mainly includes the processor 20 and the BLE chip 24b. The processing execution unit 72 mainly includes the processor 20, the BT3 chip 24a, and the card reading unit 26.

  The above functions may be implemented by causing the processor 20 to execute a program that is installed in the card reader 12 that is a computer and that includes instructions corresponding to the above functions. Further, this program may be supplied to the card reader 12 via a computer-readable information storage medium such as an optical disk, a magnetic disk, a magnetic tape, a magneto-optical disk, or via the Internet.

  As shown in FIG. 5, the mobile terminal 14 according to the present embodiment functionally includes, for example, a pairing process execution unit 80, a paired device data storage unit 82, a broadcast packet reception unit 84, and a display control unit. 86, a selection reception unit 88, a detection signal transmission unit 90, a detection response reception unit 92, a communication start request transmission unit 94, and a process execution unit 96.

  The pairing process execution unit 80, the broadcast packet reception unit 84, the detection signal transmission unit 90, the detection response reception unit 92, and the communication start request transmission unit 94 are mainly implemented by the communication unit 34. The paired device data storage unit 82 is mainly implemented by the storage unit 32. The display control unit 86 and the selection receiving unit 88 are mainly implemented by the processor 30 and the display unit 36. The process execution unit 96 is mainly implemented by the processor 30 and the communication unit 34.

  The above functions may be implemented by causing the processor 30 to execute a program that is installed in the mobile terminal 14 that is a computer and that includes instructions corresponding to the above functions. In addition, this program may be supplied to the portable terminal 14 via a computer-readable information storage medium such as an optical disc, a magnetic disc, a magnetic tape, a magneto-optical disc, or the like.

  In the present embodiment, for example, the pairing process execution unit 60 executes the pairing process with the mobile terminal 14. The pairing process may be performed via the BT3 chip 24a. In the pairing process, the pairing process execution unit 60 transmits identification data of the BT3 chip 24a included in the card reader 12 such as name data indicating the name of the card reader 12 and a BD address of the BT3 to the mobile terminal 14. May be.

  In the present embodiment, for example, the broadcast unit 62 broadcasts a packet such as an advertising packet when the state of the BT3 chip 24a is off. In the present embodiment, for example, the advertising packet includes a BLE BD address. Here, for example, the advertising packet may include the BD3 BD address. In this embodiment, for example, the broadcast is performed via the BLE chip 24b. Here, for example, the advertising packet may be repeatedly broadcast at a predetermined time interval.

  Here, for example, the processor 20 may read the identification information (such as the BD address of the BT3) stored in the BT3 chip 24a and notify the BLE chip 24b. In this case, for example, the broadcast unit 62 may transmit the identification information of the BT3 chip 24a notified in this way.

  Further, for example, the BLE chip 24b may store the identification information (such as the BD address of BT3) of the BT3 chip 24a in advance. In this case, for example, the broadcast unit 62 may transmit the identification information of the BT3 chip 24a stored in the BLE chip 24b.

  In the present embodiment, for example, the detection signal receiving unit 64 receives a detection signal transmitted from the mobile terminal 14 via the BLE chip 24b. Here, in response to the detection signal receiving unit 64 receiving the detection signal, the broadcast unit 62 may end the broadcasting of the advertising packet.

  In this embodiment, for example, in response to reception of the detection signal, the detection response transmission unit 66 transmits a detection response to the mobile terminal 14 that has transmitted the detection signal via the BLE chip 24b.

  In the present embodiment, the start / stop control unit 68 controls the start and stop of the BT3 chip 24a and the BLE chip 24b, for example. Here, for example, in response to reception of the detection signal, the start / stop control unit 68 may start the BT3 chip 24a whose state is off. Further, for example, the start / stop control unit 68 may stop the BLE chip 24b in response to reception of the detection signal. As described above, when the BLE chip 24b receives a signal transmitted from a communication partner device (for example, the portable terminal 14 in this case) that receives the identification information of the BT3 chip 24a, the state of the BT3 chip 24a is switched to the on state. You may do it. In addition, in this case, the state of the BLE chip 24b may be switched to the off state. Note that the processor 20 and the BLE chip 24b may play the role of the start / stop control unit 68 described above, or the processor 20 or the BLE chip 24b may play a role alone.

  In this embodiment, the communication start request receiving unit 70 receives a communication start request from the mobile terminal 14, for example. Here, for example, the communication start request receiving unit 70 may receive the communication start request from the portable terminal 14 via the BT3 chip 24a whose state is switched to the on state by the activation / stop control unit 68.

  In the present embodiment, for example, the process execution unit 72 executes predetermined information processing in cooperation with the mobile terminal 14 or the server 16. Here, the process execution unit 72 may execute a payment process for paying a credit card inserted into the card reader 12.

  In the present embodiment, for example, in response to the communication start request receiving unit 70 receiving a communication start request, the process executing unit 72 starts communication of data used for predetermined information processing with the mobile terminal 14. . Then, the process execution unit 72 executes predetermined information processing in cooperation with the mobile terminal 14.

  In the present embodiment, for example, the pairing process execution unit 80 executes a pairing process with the BT3 chip 24a of the card reader 12. In the pairing process, the pairing process execution unit 80 receives the identification data of the BT3 chip 24a included in the card reader 12 such as name data indicating the name of the card reader 12 and the BD address of the BT3 from the card reader 12. You may receive it. Moreover, the pairing process execution part 80 may produce | generate the paired apparatus data containing the combination of the name data received from the 1 card reader 12 in the pairing process, and the BD address of BT3. The pairing process execution unit 80 may store the generated paired device data in the paired device data storage unit 82.

  In the present embodiment, the paired device data storage unit 82 stores, for example, paired device data illustrated in FIG.

  In this embodiment, the broadcast packet receiving unit 84 receives a packet broadcast by the broadcast unit 62, for example. The received packet may include identification information of the BT3 chip 24a included in the card reader 12 that transmits the packet, such as a BD address of the BT3. The received packet may include identification information of the BLE chip 24b included in the card reader 12 that transmits the packet, such as the BD address of the BLE.

  The display control unit 86 generates a selection screen illustrated in FIGS. 4A and 4B based on the packet received by the broadcast packet reception unit 84 and causes the display unit 36 to display the selection screen. Here, the selection screen may be generated based on the paired device data stored in the paired device data storage unit 82.

  For example, as the character string S1 indicating the name of the card reader 12, a character string indicated by the name data included in the received packet or a character string indicated by the name data included in the paired device data may be arranged. Further, for example, as the character string S2 indicating the BD address of the BT3 of the card reader 12, the character string indicated by the BD address of the BT3 included in the received packet or the character indicated by the BD address of the BT3 included in the paired device data A column may be arranged. Further, for example, as the character string S3 indicating the BLE BD address of the card reader 12, a character string indicated by the BLE BD address included in the received packet may be arranged.

  Further, as shown in FIG. 4A, a selection screen including candidate information 50 associated with each of all the card readers 12 that are the transmission source of the received packet may be generated. Further, as shown in FIG. 4B, candidate information associated with the card reader 12 that is the transmission source of the received packet, the corresponding paired device data stored in the paired device data storage unit 82. A selection screen including only 50 may be generated.

  Further, as shown in FIGS. 4A and 4B, the candidate information 50 in which the corresponding paired device data is stored in the paired device data storage unit 82 includes a connection button B associated with the candidate information 50. It may be included.

  In this embodiment, the selection receiving unit 88 receives the selection of the card reader 12 that performs data communication with the mobile terminal 14, for example. Here, for example, when receiving a broadcast packet from each of the plurality of card readers 12, the selection receiving unit 88 performs data communication with the mobile terminal 14 from the plurality of card readers 12. You may accept selection of the card reader 12 to perform. In this case, any one of the plurality of card readers 12 is selected as the card reader 12 that performs data communication with the portable terminal 14. For example, the selection receiving unit 88 may receive a tap operation on the connection button B as a selection operation of the card reader 12 that performs data communication with the mobile terminal 14. In this case, the card reader 12 associated with the candidate information 50 in which the connection button B is arranged is selected.

  In the present embodiment, for example, the detection signal transmission unit 90 transmits a detection signal to the card reader 12 specified based on the selection received by the selection reception unit 88. For example, the BLE BD address of the card reader 12 may be set as the destination address of the detection signal.

  In the present embodiment, for example, the detection response receiving unit 92 receives the above detection response from the card reader 12 that is the transmission destination of the detection signal.

  In the present embodiment, for example, the communication start request transmission unit 94 transmits a communication start request to the card reader 12 specified based on the selection received by the selection reception unit 88. For example, the BD address of the BT 3 of the card reader 12 may be set as the destination address of the communication start request. Further, for example, the communication start request transmission unit 94 may transmit the communication start request after the detection signal transmission unit 90 transmits the detection signal. For example, the communication start request transmission unit 94 may transmit a communication start request in response to reception of the detection response by the detection response reception unit 92.

  In the present embodiment, the process execution unit 96 executes predetermined information processing in cooperation with the card reader 12 and the server 16, for example. Here, the process execution unit 96 may execute a payment process for paying a credit card inserted into the card reader 12.

  In the present embodiment, for example, when the communication start request receiving unit 70 of the card reader 12 receives the communication start request, the process execution unit 96 of the mobile terminal 14 performs predetermined information processing with the card reader 12. Start communication of data used for. Then, the process execution unit 96 of the mobile terminal 14 executes predetermined information processing in cooperation with the card reader 12.

  In the above description, for example, signals such as a scan request, a connection request, and a connection end notification in the Bluetooth LE standard may be used as the detection signal. For example, when a scan request in the Bluetooth LE standard is used as a detection signal, a scan response in the Bluetooth LE standard may be used as the above-described detection response. The detection response transmission unit 66 may not transmit the detection response, and the detection response reception unit 92 may not receive the detection response.

  The communication start request reception unit 70 may not transmit the communication start request. In this case, for example, in response to activation of the BT3 chip 24a, communication of data used for predetermined information processing between the card reader 12 and the portable terminal 14 may be started.

  Hereinafter, an example of the flow of processing executed in the communication system 10 according to the present embodiment will be described with reference to the flowchart shown in FIG. In the following processing example, it is assumed that the paired device data illustrated in FIG. 3 is stored in the paired device data storage unit 82. In the following processing example, data communication is started between the card reader 12-1 and the portable terminal 14. Further, at the start of the processing shown in the following processing example, it is assumed that the state of the BT3 chip 24a included in each of the card readers 12-1, 12-2, and 12-3 is an off state.

  In this processing example, the broadcast unit 62 of the card reader 12-1 broadcasts an advertising packet including the BD address of the BT3 of the card reader 12-1. The broadcast unit 62 of the card reader 12-2 broadcasts an advertising packet including the BD address of the BT3 of the card reader 12-2. The broadcast unit 62 of the card reader 12-3 broadcasts an advertising packet including the BD address of the BT3 of the card reader 12-3. These advertising packets are received by the broadcast packet receiver 84 of the mobile terminal 14 (S101). Here, as described above, the advertising packet may be broadcast repeatedly.

  Then, the display control unit 86 of the mobile terminal 14 that has received the advertising packet broadcast in the process shown in S101 generates a selection screen illustrated in FIG. 4A or 4B and displays it on the display unit 36 (S102).

  Here, it is assumed that the user taps the connection button B included in the candidate information 50-1 associated with the card reader 12-1. In this case, the selection receiving unit 88 of the mobile terminal 14 receives the selection of the card reader 12-1 (S103).

  Then, the detection signal transmission unit 90 of the mobile terminal 14 transmits a detection signal to the BLE chip 24b of the card reader 12-1. Then, the detection signal receiving unit 64 of the card reader 12-1 receives the detection signal (S104).

  Then, the detection response transmission unit 66 of the card reader 12-1 transmits a detection response to the BLE chip 24 b of the mobile terminal 14. Then, the detection response receiving unit 92 of the mobile terminal 14 receives the detection response (S105).

  Then, the activation stop control unit 68 of the card reader 12-1 outputs an activation command for activating the BT3 chip 24a of the card reader 12-1 to the BT3 chip 24a of the card reader 12-1 (S106). Then, the BT3 chip 24a of the card reader 12-1 is activated (S107). In this way, the state of the BT3 chip 24a of the card reader 12-1 is switched from the off state to the on state.

  Then, the start / stop control unit 68 of the card reader 12-1 stops the BLE chip 24b of the card reader 12-1 (S108).

  Then, the communication start request transmission unit 94 of the portable terminal 14 transmits a communication start request to the BT3 chip 24a of the card reader 12-1. Then, the communication start request receiving unit 70 of the card reader 12-1 receives the communication start request (S109).

  Then, the process execution unit 72 of the card reader 12-1, the process execution unit 96 of the portable terminal 14, and the server 16 cooperate to execute predetermined information processing such as payment processing (S110). In the information processing, data communication is performed between the card reader 12-1 and the portable terminal 14 and between the portable terminal 14 and the server 16.

  In the above processing example, the advertising packet broadcasted by the broadcast unit 62 in the processing shown in S101 may not include the BD3 BD address. In this case, for example, after the processing shown in S105, the mobile terminal 14 may transmit a transmission request for the BD address of BT3 to the BLE chip 24b of the card reader 12-1. And the card reader 12-1 may transmit the BD address of BT3 to the portable terminal 14 via the BLE chip 24b. In this way, the BD address of BT3 does not need to be broadcast, and may be transmitted to the portable terminal 14 via the BLE chip 24b by the card reader 12-1 when the state of the BT3 chip 24a is in the off state. .

  For example, the portable terminal 14 may transmit a connection end notification to the BLE chip 24b of the card reader 12-1 after the process shown in S105. Then, the start / stop control unit 68 of the card reader 12-1 may start the BT3 chip 24a and stop the BLE chip 24b in response to the reception of the connection end notification.

  Further, for example, the process of stopping the BLE chip 24b of the card reader 12-1 shown in S108 may not be executed.

  In the present embodiment, as described above, the BLE chip 24b included in the card reader 12 transmits the BD address of BT3, so that the mobile terminal 14 can reliably recognize the BT3 chip 24a included in the card reader 12. I was able to do it.

  In the present embodiment, the state of the BT3 chip 24a is off until the BLE chip 24b receives the detection signal. When the BLE chip 24b receives the detection signal, the state of the BT3 chip 24a is switched to the on state. Therefore, according to this embodiment, it is possible to save power in wireless communication. Further, in the present embodiment, the user's operation for switching the state of the BT3 chip 24a such as an operation of a physical button provided in the card reader 12 is unnecessary. Therefore, according to the present embodiment, the user's effort for power saving is reduced.

  In addition, this invention is not limited to the above-mentioned embodiment.

  The application range of the present invention is not limited to communication between the card reader 12 and the portable terminal 14. The present invention is also applicable to communication between general communication devices. Further, the application range of the present invention is not limited to wireless communication. The present invention is also applicable to wired communication.

  The specific character strings and numerical values described above and the specific character strings and numerical values in the drawings are examples, and are not limited to these character strings and numerical values.

Claims (5)

Each A communication system including a plurality of communication devices, the communication partner device, the comprising a second communication unit a first communication unit that is set different identification information to each other,
Each of the plurality of the communication devices;
The second communication unit operates with lower power consumption than the first communication unit,
The second communication unit stores in advance identification information of the first communication unit,
The second communication unit broadcasts a packet including the identification information of the first communication unit stored in the second communication unit when the state of the first communication unit is off. ,
The communication partner device receives a packet including identification information of the first communication unit included in the communication device, broadcast from the second communication unit of each of the plurality of communication devices,
The communication partner device transmits a predetermined signal to the second communication unit of one of the communication devices selected from the plurality of communication devices that are transmission sources of the packet,
The communication device that has received the predetermined signal by the second communication unit switches the state of the first communication unit included in the communication device to an on state,
The first communication unit of the communication device whose state is switched to an on state starts communication of data used for predetermined information processing with the communication partner device.
A communication system characterized by the above. The plurality of communication devices that are transmission sources of the packets, wherein the communication partner device can perform a selection operation on the paired communication device, but cannot perform a selection operation on the communication device that is not paired Display a selection screen with a list of
The communication partner device transmits the predetermined signal to the paired communication device selected by a selection operation on the selection screen;
The communication system according to claim 1. The communication device that has received the predetermined signal by the second communication unit switches the state of the first communication unit included in the communication device to an ON state, and the second communication included in the communication device. Switch the part state to the off state,
The communication system according to claim 1 or 2 . The first communication unit performs wireless communication in accordance with the Bluetooth 3 standard,
The second communication unit performs wireless communication in accordance with the Bluetooth LE standard.
The communication system according to any one of claims 1 to 3, wherein: Each of the plurality of communication devices, the state of the first communication unit included in the communication device when in the OFF state, the are set different identification information from the first communication unit, the first operating in the power saving than the communication unit, stores in advance the identification information of the first communication unit, a second communication unit included in the communication device, wherein the said second communication unit is stored Broadcasting a packet including identification information of one communication unit;
A communication partner device receiving a packet including identification information of the first communication unit included in the communication device, broadcast from the second communication unit of each of the plurality of communication devices;
The communication partner device transmitting a predetermined signal to the second communication unit of one of the communication devices selected from among the plurality of communication devices that are the transmission source of the packet;
The communication device that has received the predetermined signal by the second communication unit switches the state of the first communication unit included in the communication device to an on state;
The first communication unit of the communication device whose state is switched to an on state starts communication of data used for predetermined information processing with the communication partner device;
A power saving method comprising:

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