JP6307878B2 - Communication device - Google Patents

Description

  The present invention relates to a communication device capable of contactless communication with an external device.

  Various communication devices capable of non-contact communication with external devices are provided. By using non-contact communication, for example, it is possible to access a memory in the communication device from an external device to read / write data, or to instruct the communication device to execute a function from the external device. For example, NFC (Near Field Communication) is known as a non-contact communication method.

  In such a communication device, contactless communication with an external device is performed as necessary even if the normal operation is stopped, for example, when the power is turned off or the power outlet is disconnected. It is convenient to be able to do it.

  Patent Document 1 describes a technique for performing non-contact power supply from an external device to a terminal device to which a battery is not attached, thereby starting the terminal device as usual with the supplied power and executing necessary processing. ing.

JP 2012-14422 A

However, in the technique described in Patent Document 1, it is necessary to supply power necessary for starting and operating the terminal device from the external device by non-contact power supply in the same manner as during normal operation.
For this reason, an external device serving as a power supply source is a device having a low power supply capability such as a mobile phone or a smartphone, or a power supply target device is not a small terminal device such as a mobile phone but a relatively large communication device. When a large amount of power is required for the normal operation, there is a possibility that the power required for the normal operation cannot be sufficiently supplied to the power supply target.

  The present invention has been made in view of the above problems, and can perform non-contact communication with an external device while suppressing the power supply amount based on the non-contact power supply from the external device even when the normal operation is stopped. And it aims at providing the communication apparatus which can start the normal operation | movement rapidly, suppressing the influence of the non-contact communication at the time of the start of normal operation | movement.

  The present invention made in order to solve the above-mentioned problems is a communication device, which is a first power supply unit, an antenna, a second power supply unit, a communication control unit, a main control unit, a communication node, and a communication line. With.

The first power supply unit generates a first power supply voltage for operating the communication device. The antenna is provided for performing contactless communication with an external device. The second power supply unit generates a second power supply voltage based on the power received from the external device by the antenna. The communication control unit operates upon receiving the second power supply voltage or the first power supply voltage. The communication control unit is configured to control non-contact communication with an external device via an antenna and to perform data communication with another data communication target using a specific data communication method. The main controller operates upon receiving the first power supply voltage. The main control unit is configured to control execution of functions provided in the communication device and to perform data communication with other data communication targets using the specific data communication method. The communication node is operable by the first power supply voltage or the second power supply voltage, and is configured to be able to perform data communication with other data communication targets using the specific data communication method. The communication line is provided to connect the communication control unit, the main control unit, and the communication node to each other so that data communication is possible with the specific data communication method.

The second power supply unit is configured to be able to supply the second power supply voltage to the communication control unit and the communication node when power is received from the external device by the antenna.
When data communication is being performed between the communication control unit and the communication node when the main control unit is activated, at least the communication control unit stops the data communication function.

  According to the communication device of the present invention, it is possible to perform non-contact communication with an external device even when the operation of the first power supply unit is stopped, and to operate the communication node with the received power from the external device. As a result, the communication node can be accessed from the external device.

  In addition, when the first power supply voltage is supplied from the first power supply unit during non-contact communication with the external device, the data communication is forcibly cut off. Therefore, the main control unit can start the operation quickly without being substantially affected by the non-contact communication being performed (data communication between the communication control unit and the communication node).

  Therefore, according to the communication device of the present invention, it is possible to perform non-contact communication with the external device while suppressing the amount of power supply based on the non-contact power supply from the external device even when the normal operation is stopped, and At the start of the normal operation, the normal operation can be quickly started while suppressing the influence of the non-contact communication.

It is explanatory drawing which shows schematic structure of the multifunctional device 1 of embodiment. 6 is an explanatory diagram illustrating an operation example of the multi function device. FIG. It is a flowchart which shows a main control process. It is a flowchart which shows a NFC control process. It is a flowchart which shows the other Example of NFC control processing.

Preferred embodiments of the present invention will be described below with reference to the drawings.
(1) Configuration of Multifunction Device 1 A multifunction device 1 according to this embodiment shown in FIG. 1 is a multifunction peripheral device having a plurality of functions such as a printer function and a telephone function. The multi-function device 1 has a wireless communication function using two types of wireless communication methods, wireless LAN and NFC. The wireless LAN is, for example, a communication method defined by the IEEE802.11a / b / g / n standard, and uses a radio wave in a frequency band of 2.4 GHz band or 5 GHz band. NFC is a short-range wireless communication (non-contact communication) in which a communicable distance is limited to about 10 cm. For example, radio waves in a frequency band of 13.56 MHz are used. The multi-function device 1 can perform NFC communication with an external communication device having a function of NFC wireless communication (hereinafter referred to as “NFC communication”). In the present embodiment, a smartphone 100 shown in FIG. 1 will be described as an example of a communication device capable of NFC communication.

More specifically, as shown in FIG. 1, the multi-function device 1 includes a control circuit 2, an NFC communication unit 3, an EEPROM 4, a cartridge IC 5, a wireless LAN communication unit 6, a printer unit 7, a communication line connection unit 8, and a power circuit. 9 and serial line cut-off switch (hereinafter referred to as “cut-off switch”) 10
It has.

  The power supply circuit 9 generates a first power supply voltage Vcc that is a main power supply for operating the multi-function device 1 by rectifying and transforming externally input electric power (for example, commercial AC 100 V electric power). The first power supply voltage Vcc generated by the power supply circuit 9 is supplied to each part in the multifunction machine 1 such as the control circuit 2, the NFC communication unit 3, the EEPROM 4, and the cartridge IC 5.

  The control circuit 2 controls various functions that the multifunction device 1 has. The control circuit 2 includes a main control unit 11 and a serial communication I / F (interface) 12. The control circuit 2 includes a serial port 13, a main power input port 14, an interrupt port 15, a switch control port 16, and a reset output port 17 as ports to which power and signals are input or output.

  A serial line L which is a communication bus for serial communication is connected to the serial port 13. The first power supply voltage Vcc is input from the power supply circuit 9 to the main power supply input port 14. When the first power supply voltage Vcc is input from the power supply circuit 9, the control circuit 2 operates using the first power supply voltage Vcc as a power supply.

  An interrupt from the NFC communication unit 3 is input to the interrupt port 15. The interrupt input from the NFC communication unit 3 to the interrupt port 15 is actually a state notification signal St of H (High) level or L (Low) level. The input of an interrupt means that the state notification signal St becomes H level.

  A switch control signal Ss is output from the switch control port 16 to the cutoff switch 10. A reset signal Sr is output from the reset output port 17 to the NFC communication unit 3. The switch control signal Ss and the reset signal Sr are both binary signals of H level or L level.

  In the control circuit 2, the serial communication I / F 12 is a communication interface for performing data communication by serial communication with the NFC communication unit 3 and other communication target communication nodes, and is connected to the serial port 13. Serial communication data is transmitted and received via the serial communication I / F 12 and the serial port 13.

  The control circuit 2 is connected to a plurality of data communication targets including the NFC communication unit 3, the EEPROM 4, and the cartridge IC 5 by a serial line L. Therefore, the control circuit 2 can communicate serially with a plurality of data communication targets including the NFC communication unit 3, the EEPROM 4, and the cartridge IC 5 through the serial line L.

The serial communication of this embodiment is a master-slave type serial communication. The control circuit 2 operates as a master in the master-slave type serial communication. On the other hand, each other communication node operates as a slave. However, the NFC communication unit 3 normally operates as a slave, but in a specific case, operates as a master. That is, the NFC communication unit 3 can operate as a master and a slave in serial communication. The master-slave communication method includes, for example, I2C (Inter-Integrated).
There are various standards such as Circuit (USB), Universal Serial Bus (USB), Secure Digital Input / Output Card (SDIO), and Serial Peripheral Interface (SPI).

In the control circuit 2, the main control unit 11 includes at least a microcomputer having a CPU, a memory, and the like. The main control unit 11 performs control of serial communication via the serial communication I / F 12, control of the wireless LAN communication unit 6, control of the printer unit 7, control of the communication line connection unit 8, and the like. The main control unit 11 also performs various controls based on an interrupt (state notification signal St) input from the NFC communication unit 3 and outputs control of the switch control signal Ss and the reset signal Sr.

  The wireless LAN communication unit 6 executes communication with an external communication device using a wireless LAN. The printer unit 7 forms (prints) images on various recording media. The communication line connection unit 8 is connected to an external communication line and executes communication such as telephone and facsimile.

  The NFC communication unit 3 is a wireless communication module for performing NFC communication with the smartphone 100. The NFC communication unit 3 is mounted on the upper side inside the multifunction machine 1 and is connected to a loop antenna 3a for NFC communication. When the smartphone 100 is brought close to (holds over) a predetermined area near the upper portion of the loop antenna 3a, NFC communication between the multifunction device 1 and the smartphone 100 becomes possible, and wireless communication is performed according to a specific communication procedure.

  In this specification, when the smartphone 100 is “closed” or “holds” the multifunction device 1, the communication device and the multifunction device 1 can perform NFC communication with each other unless otherwise specified. It means that the positional relationship is as follows.

  The NFC communication unit 3 includes a communication control unit 21, an NFC I / F 22, a serial communication I / F 23, and a power feeding circuit 24. The NFC communication unit 3 includes a serial port 25, a main power input port 26, a power supply port 27, a state notification port 28, and a reset input port 29 as ports to which power and signals are input or output.

  A serial line L is connected to the serial port 25. A power supply path from the power supply circuit 9 is connected to the main power supply input port 26, and the first power supply voltage Vcc is input from the power supply circuit 9. When the first power supply voltage Vcc is input from the power supply circuit 9, the NFC communication unit 3 operates using the first power supply voltage Vcc as a power supply. The power supply port 27 outputs the second power supply voltage Vn (details will be described later) generated by the power supply circuit 24. An interrupt (state notification signal St) is issued (output) from the state notification port 28 to the control circuit 2. A reset signal Sr is input from the control circuit 2 to the reset input port 29.

  When the smartphone 100 is held over, the communication control unit 21 issues an interrupt to the control circuit 2 because the serial communication may be executed (the state notification signal St is set to H level).

  In the NFC communication unit 3, the serial communication I / F 23 is a communication interface for performing data communication by the control circuit 2 or other serial communication, and is connected to the serial port 25. Serial communication data is transmitted and received via the serial communication I / F 12 and the serial port 25. The NFC I / F 22 is a wireless communication interface for performing NFC communication with the smartphone 100, and is connected to the loop antenna 3a.

  The power feeding circuit 24 generates the second DC power supply voltage Vn based on the induced electromotive force (that is, the power received from the communication device) induced in the loop antenna 3a when the smartphone 100 is held over the multifunction device 1. To do. In the present embodiment, the value of the second power supply voltage Vn is the same value as the first power supply voltage Vcc generated by the power supply circuit 9. However, the value of the second power supply voltage Vn can be appropriately determined as long as it is a voltage at which a serial communication node such as the EEPROM 4 or the cartridge IC 5 to be supplied can operate.

When power is received from the smartphone 100 by the loop antenna 3a, the power feeding circuit 24 generates the second power supply voltage Vn to generate NFC such as the communication control unit 21 and each I / F 22, 23.
It supplies to each part in the communication part 3. Therefore, even if the first power supply voltage Vcc is not supplied from the power supply circuit 9 to the NFC communication unit 3, if the smartphone 100 is held over and the second power supply voltage Vn is generated, the communication control unit 21 starts operating. .

  The second power supply voltage Vn generated by the power supply circuit 24 can be output from the power supply port 27 to the outside (outside of the NFC communication unit 3 in the multifunction machine 1). In the present embodiment, the output of the second power supply voltage Vn from the power feeding circuit 24 to the outside is controlled by the communication control unit 21. The power supply port 27 is connected to the power input ports 32 and 42 of the communication node such as the EEPROM 4 and the cartridge IC 5 through the second diode D2. When the second power supply voltage Vn is output from the power supply port 27, the second power supply voltage Vn is supplied to a communication node such as the EEPROM 4 or the cartridge IC5.

  The communication control unit 21 includes at least a microcomputer having a CPU, a memory, and the like. The communication control unit 21 controls serial communication via the serial communication I / F 23, controls NFC communication via the NFC I / F 22, and controls the power supply circuit 24 (for example, output control of the second power supply voltage Vn to the outside). I do. The communication control unit 21 normally operates as a slave in the control of serial communication, but in a specific state, sets itself as a master and operates as a master.

  The communication control unit 21 controls the state notification signal St based on the proximity of the smartphone 100, or forcibly stops (resets) the serial communication function based on the reset signal Sr input from the control circuit 2. Reset control is also performed. That is, when the reset signal Sr from the control circuit 2 becomes H level while the communication control unit 21 is executing serial communication with another communication node via the serial communication I / F 23, the serial communication being executed is performed. Is forcibly stopped. The serial communication I / F 23 is configured as hardware, and the data communication interface function is stopped while the reset signal Sr is at the H level regardless of the control content of the communication control unit 21 (for example, The output is constant L level).

  Further, when the serial communication is forcibly stopped by the reset signal Sr, the communication control unit 21 can serially communicate with itself again when the reset is released (that is, the reset signal Sr is set to the L level). Return to the state and shift to the serial communication standby state.

  The EEPROM 4 is a nonvolatile memory capable of electrically rewriting stored contents. In the present embodiment, the EEPROM 4 includes control information necessary for the main control unit 11 of the control circuit 2 to control the execution of various functions, and functions generated by the main control unit 11 controlling the execution of various functions. Various information such as execution information is stored.

  Examples of the control information include product setting information, connection information with an access point (not shown) that is a relay device in wireless LAN communication, ruled line adjustment / color correction information, and the like. The function execution information includes, for example, telephone directory information, error information at the time of failure, use history of genuine cartridges, and the like.

  The EEPROM 4 can operate as a communication node for serial communication. That is, the EEPROM 4 has a serial port 31. A serial line L is connected to the serial port 31. Therefore, the EEPROM 4 can perform serial communication with the control circuit 2, the NFC communication unit 3, and the like via the serial port 31. The EEPROM 4 operates as a slave in serial communication. Various information is written to and read from the EEPROM 4 by serial communication (that is, through the serial line L).

  The EEPROM 4 includes a power input port 32. The power input port 32 is connected to the power supply circuit 9 via the first diode D1 and is connected to the power supply port 27 of the NFC communication unit 3 via the second diode D2. That is, the power supply input port 32 of the EEPROM 4 can be supplied with the first power supply voltage Vcc from the power supply circuit 9 through the first diode D1, and the second power supply from the NFC communication unit 3 through the second diode D2. The voltage Vn can be supplied. For this reason, the EEPROM 4 starts operating when at least one of the first power supply voltage Vcc and the second power supply voltage Vn is supplied, thereby enabling the serial communication described above.

  The cartridge IC 5 is mounted on an ink (or toner) cartridge used by the printer unit 7 for printing. If the printer unit 7 does not have a color printing function but only a monochrome printing function, there is usually only one ink cartridge, and therefore one cartridge IC. On the other hand, when the printer unit 7 has a color printing function, since there are usually a plurality of ink cartridges, there are a plurality of cartridge ICs for each of the plurality of ink cartridges. As an example, the printer unit 7 of this embodiment will be described as having only a monochrome printing function.

  The cartridge IC 5 has a memory capable of storing information, and stores various information related to the ink cartridge in which the cartridge IC 5 is mounted in the memory. The information stored in the memory of the cartridge IC 5 includes, for example, model number information of the ink cartridge and remaining ink information.

  The cartridge IC 5 can operate as a communication node for serial communication. That is, the cartridge IC 5 includes a serial port 41. A serial line L is connected to the serial port 41. Therefore, the cartridge IC 5 can perform serial communication with the control circuit 2, the NFC communication unit 3, and the like via the serial port 41. The cartridge IC 5 operates as a slave in serial communication. Various information is written to and read from the cartridge IC 5 by serial communication (that is, through the serial line L).

  The cartridge IC 5 includes a power input port 42. The power input port 42 is connected to the power supply circuit 9 via the first diode D1, and is connected to the power supply port 27 of the NFC communication unit 3 via the second diode D2. That is, the power supply input port 42 of the cartridge IC 5 can be supplied with the first power supply voltage Vcc from the power supply circuit 9 through the first diode D1, and the second power supply voltage Vcc from the NFC communication unit 3 through the second diode D2. The power supply voltage Vn can be supplied. For this reason, the cartridge IC 5 starts operating when at least one of the first power supply voltage Vcc and the second power supply voltage Vn is supplied, thereby enabling the above-described serial communication.

  In the first diode D1, the second power supply voltage Vn output from the power supply port 27 of the NFC communication unit 3 is other first power supply voltage other than the communication node such as the EEPROM 4 and the cartridge IC5 that are originally supplied. It is provided to block the supply of Vcc from being supplied through the supply path of the first power supply voltage Vcc.

  The second diode D2 blocks the first power supply voltage Vcc output from the power supply circuit 9 from being input to the power supply port 27 of the NFC communication unit 3 via the supply path of the second power supply voltage Vn. Is provided to do.

The serial line L is provided with a cutoff switch 10 for cutting off the connection between the control circuit 2 and another communication node. That is, one end of the cutoff switch 10 is connected to the serial port 13 of the control circuit 2, and the other end of the cutoff switch 10 is connected to the NFC communication unit 3 and the serial ports of the communication nodes 4 and 5.

  Therefore, while the cut-off switch 10 is on, the control circuit 2 is connected to other communication nodes and can perform serial communication with each other. However, while the cut-off switch 10 is off, the control circuit 2 Since the connection with the other communication node is cut off, the control circuit 2 cannot perform serial communication with the other communication node.

  On / off of the cutoff switch 10 is controlled by a switch control signal Ss from the control circuit 2. While the switch control signal Ss is at the L level, the cutoff switch 10 is turned off and the serial line L is cut off. While the switch control signal Ss is at the H level, the cutoff switch 10 is turned on, and the control circuit 2 can serially communicate with other communication nodes.

  In the present embodiment, the cutoff switch 10 is a so-called normally open type switch. For this reason, while the first power supply voltage Vcc is not supplied to the control circuit 2 and the operation of the control circuit 2 is stopped (that is, while the switch control signal Ss is at the L level), the serial line L is cut off. Is maintained.

  The main control unit 11 of the control circuit 2 maintains the cutoff switch 10 in the off state when an interrupt is issued from the NFC communication unit 3 at the time of activation. Then, after the activation, when the interrupt is canceled, the cutoff switch 10 is turned on. The main control unit 11 of the control circuit 2 turns on the cutoff switch 10 when no interrupt is issued from the NFC communication unit 3 at the time of activation. After the start-up, after the shut-off switch 10 is turned on, the on-state of the shut-off switch 10 is continued even if an interrupt is issued again.

  When an interrupt is issued from the NFC communication unit 3 at the time of startup, the main control unit 11 of the control circuit 2 maintains the shut-off switch 10 in the off state as described above, and then serializes the NFC communication unit 3. The communication function is forcibly stopped (reset). Specifically, the reset signal Sr is set to H level. When the interrupt from the NFC communication unit 3 is canceled by resetting the serial communication function of the NFC communication unit 3, the main control unit 11 turns on the cutoff switch 10.

  After starting, the main control unit 11 resets the NFC communication unit 3 and then turns on the cut-off switch 10 as described above by releasing the interrupt, and then other communication nodes (EEPROM 4, cartridge IC5, etc.) other than the NFC communication unit 3 Send a stop command. When the other communication node receives the stop command, it stops the serial communication that has been performed with the NFC communication unit 3 until then, initializes the serial communication function, and shifts to a serial communication standby state.

  After transmitting the stop command as described above, the main control unit 11 performs a predetermined activation process and starts normal operation. Note that the reset to the NFC communication unit 3 is canceled after the start-up process is completed. That is, the reset signal Sr is set to L level. When the reset of the serial communication function is cancelled, the NFC communication unit 3 is in a state where serial communication can be performed thereafter, and shifts to a serial communication standby state.

The control circuit 2, the NFC communication unit 3, the EEPROM 4, and the cartridge IC 5 are all configured by a packaged semiconductor integrated circuit.
(2) Schematic Configuration of Smartphone 100 The smartphone 100 has an Internet connection function in addition to the functions of a general mobile phone such as a mobile phone and a mail function, and various application software (hereinafter abbreviated as “app”). ) Is a multi-function mobile communication terminal to which various functions can be added.

  The smartphone 100 can perform wireless LAN communication and NFC communication. Therefore, the smartphone 100 can communicate with the multifunction device 1 by NFC communication. The smartphone 100 can perform wireless LAN communication with other communication devices.

  The applications that the smartphone 100 has include an application (hereinafter also referred to as “information acquisition application”) that can acquire various information stored in the EEPROM 4 and the cartridge IC 5 in the multifunction device 1 through NFC communication, An application that can write information to the EEPROM 4 or the cartridge IC 5 via NFC communication (hereinafter also referred to as “information writing application”) is included. By using each of these applications, for example, desired information can be read from the multifunction device 1 and written to another multifunction device, or information read from another multifunction device can be written to the multifunction device 1. Moreover, in this embodiment, even when the main power supply of the multifunction device 1 is off (that is, when the first power supply voltage Vcc is not supplied), the smartphone 100 is combined with the contactless power feeding from the smartphone 100 when the smartphone 100 is held over the multifunction device 1. A second power supply voltage Vn is generated in the NFC communication unit 3 of the machine 1. Therefore, each application can be used while the main power supply of the multifunction device 1 is in the off state.

(3) Operation Example of Multifunction Device 1 An operation example of the multifunction device 1 will be described with reference to FIG. In FIG. 2, for simplification of explanation, among the constituent elements included in the multi function device 1, constituent elements necessary for explanation of the operation example are simply illustrated.

  When the power outlet of the multifunction device 1 is unplugged and the smartphone 100 is not held up, neither the first power supply voltage Vcc nor the second power supply voltage Vn is generated, and the control circuit 2 and the NFC communication unit 3 are both The operation has stopped. Even when the power outlet is inserted, the first power supply voltage Vcc is not generated even when the main power supply is turned off by the switch.

  Note that the multifunction device 1 of the present embodiment includes an off mode as an operation mode. Specifically, after the start-up, when a specific off-mode condition is satisfied, the supply of the first power supply voltage Vcc from the power supply circuit 9 is completely stopped to shift to the off-mode. However, in the off mode, only the minimum necessary functions such as on / off detection of the power switch and off mode release condition detection are continued by a backup power source (not shown) such as a secondary battery or a super capacitor. . For this reason, when the power switch is turned on during the off mode, or when an off mode release condition such as an incoming call or facsimile is established, the off mode is released and the power supply circuit 9 is activated for normal operation. Transition.

  In a state where the operation of the multi-function device 1 is stopped without generating the power sources Vcc and Vn, no interrupt is issued (that is, the state notification signal St is L level), and the switch control signal Ss is cut off at the L level. The switch 10 is off and the reset signal Sr is also at the L level.

When the operation of the multifunction device 1 is stopped in this way, for example, when the smartphone 100 is held over the multifunction device 1, the second power supply voltage Vn is generated in the NFC communication unit 3 as shown in FIG. As a result, the NFC communication unit 3 is activated. When the NFC communication unit 3 is activated, the second power supply voltage Vn is supplied from the NFC communication unit 3 to a communication node such as the EEPROM 4 or the cartridge IC 5, thereby enabling serial communication between the NFC communication unit 3 and the communication node. Communication between the communication node 100 and the communication node via the NFC communication unit 3 becomes possible. In the serial communication in this case, the NFC communication unit 3 operates as a master. In addition, when the NFC communication unit 3 detects that the smartphone 100 is held over at the time of activation, the NFC communication unit 3 issues an interrupt to the control circuit 2 (the state notification signal St is at H level).

  In the state shown in FIG. 2A, when the power supply circuit 9 is activated by turning on the power switch or satisfying the off-mode release condition, as shown in FIG. A power supply voltage Vcc is output. As a result, the control circuit 2 is activated. When the control circuit 2 detects that an interrupt is issued at startup, the control circuit 2 maintains the switch control signal Ss at the L level and sets the reset signal Sr to the H level to reset the serial communication function of the NFC communication unit 3. .

  When the serial communication function of the NFC communication unit 3 is reset, as shown in FIG. 2C, the NFC communication unit 3 releases the interrupt (the state notification signal St is at L level). By releasing the interrupt, the control circuit 2 sets the switch control signal Ss to the H level and turns on the cutoff switch 10 while maintaining the reset output. The control circuit 2 transmits a stop command to a communication node such as the EEPROM 4 or the cartridge IC 5 after turning on the cutoff switch 10.

  When the predetermined startup process is executed as described above after transmitting the stop command, the control circuit 2 sets the reset signal Ss to the L level and cancels the reset of the NFC communication unit 3 as shown in FIG. When the reset is released, the NFC communication unit 3 starts an operation as a slave in serial communication. Thereby, the control circuit 2, the NFC communication unit 3, and the EEPROM 4 can serially communicate with each other. Even if the smartphone 100 is separated from the multi-function device 1 after the power supply circuit 9 is activated and the second power supply voltage Vn is not generated, each unit in the multi-function device 1 can continue to operate normally by the first power supply voltage Vcc.

(4) Various control processes executed by the multifunction device 1 In the multifunction device 1, the main control processing executed by the main control unit 11 of the control circuit 2 and the NFC control processing executed by the communication control unit 21 of the NFC communication unit 3 This will be described with reference to FIGS.

(4-1) Main Control Processing Main control processing executed by the main control unit 11 of the control circuit 2 will be described with reference to FIG. When the main control unit 11 is activated by the first power supply voltage Vcc, the CPU reads the program of the main control process of FIG. 3 from the memory and executes it.

  When the CPU of the main control unit 11 starts the main control process of FIG. 3, in S110, it is determined whether an interrupt is input from the NFC communication unit 3, that is, whether the state notification signal St is at the H level. To do. If no interrupt is input (S110: NO), in S200, the cut-off switch 10 is turned on by setting the switch control signal Ss to H level, and the process proceeds to S210.

  If an interrupt is input in S110 (S110: YES), the OFF state of the cutoff switch 10 is maintained by maintaining the L level state of the switch control signal Ss in S120. In S130, the serial communication function of the NFC communication unit 3 is reset (forcedly stopped) by setting the reset signal Sr to H level.

In S140, the interrupt is released, that is, waits for the state notification signal St to become L level. When the interrupt is released (S140: YES), in S150, the switch control signal Ss is set to H level to turn off the cutoff switch 10. Turn it on. In S160, a stop command is transmitted to communication nodes other than the NFC communication unit 3.

  In S170, a predetermined activation process is performed. In S180, the completion of the activation of the control circuit 2 by the activation process is waited. When the activation is completed (S180: YES), the reset signal Sr is set to L level in S190, thereby resetting the serial communication function of the NFC communication unit 3 To cancel.

  In S210, it is determined whether or not an interrupt is input from the NFC communication unit 3. If no interrupt is input (S210: NO), in S240, other processing (processing related to other various functions, details are omitted) is executed, and the processing returns to S210. If an interrupt is input in S210 (S210: YES), a response to the NFC communication unit 3 in response to the interrupt is performed by serial communication in S220. In S230, data communication (serial communication) with the NFC communication unit 3 is executed, and the process returns to S210.

(4-2) NFC Control Processing The NFC control processing executed by the communication control unit 21 of the NFC communication unit 3 will be described with reference to FIG. When the communication control unit 21 is activated by the first power supply voltage Vcc or the second power supply voltage Vn, the CPU reads the program of the NFC control process of FIG. 4 from the memory and executes it.

  When starting the NFC control process of FIG. 4, the CPU of the communication control unit 21 sets the operation mode in serial communication to slave in S310. In S320, it is determined whether or not the smartphone is approached. If the smartphone is approached (S320: YES), an interrupt is issued to the control circuit 2 in S330. That is, the state notification signal St is set to the H level.

  In S340, it is determined whether or not there is a reply from the control circuit 2 for the interrupt issuance. When there is a reply from the control circuit 2 (S340: YES), in S350, it is determined whether or not NFC communication with the smartphone is started. If NFC communication with the smartphone has not been started (S350: NO), the process proceeds to S370. When the NFC communication with the smartphone is started (S350: YES), the first communication process is executed in S360. The first communication process includes an NFC communication process with the smartphone and a serial communication process with the control circuit 2 that occurs along with the NFC communication.

  In S370, it is determined whether the smartphone has been released from the multifunction device 1. This determination can be made based on, for example, whether or not the second power supply voltage Vn can be generated or whether or not NFC communication is possible. If the smartphone is not released (that is, if it is still held over), the process returns to S350. When the smartphone is released (S370: YES), the interrupt to the control circuit 2 is canceled in S380. That is, the state notification signal St is set to L level. After the process of S380, the process returns to S320.

  If there is no response from the control circuit 2 for interrupt issuance in S340 (S340: NO), the operation mode in serial communication is set to master in S390. In S400, it is determined whether or not the reset signal is input from the control circuit 2, that is, whether or not the reset signal Sr is at the H level. If the reset signal is input (the reset signal Sr is at the H level) (S400: YES), the interrupt to the control circuit 2 is canceled in S490, and the process returns to S310.

If no reset signal is input in S400 (the reset signal Sr is at L level) (S400: NO), it is determined in S410 whether NFC communication with the smartphone has started. If NFC communication with the smartphone has not been started (S410: NO), the process proceeds to S470. When NFC communication with the smartphone is started (S410: Y
ES) and S420, the power supply circuit 24 is controlled to output the second power supply voltage Vn generated by the power supply circuit 24 from the power supply port 27. That is, the second power supply voltage Vn is supplied to the outside of the NFC communication unit 3. The fact that the NFC communication with the smartphone is started means that serial communication with a communication node such as the EEPROM 4 or the cartridge IC 5 may be necessary, and therefore the external supply of the second power supply voltage Vn is started.

  In S430, the second communication process is started. The second communication process includes an NFC communication process with the smartphone and a serial communication process with a communication node such as the EEPROM 4 or the cartridge IC 5 that occurs along with the NFC communication.

  In S440, as in S400, it is determined whether a reset signal is input from the control circuit 2. If the reset signal has not been input (S440: NO), it is determined in S450 whether the second communication process has ended. If the second communication process has not ended (S450: NO), the process returns to S440. When the second communication process is completed (S450: YES), the process proceeds to S470.

  In S470, as in S370, it is determined whether the smartphone has been released from the multifunction device 1. If the smartphone is not released, the process returns to S400. When the smartphone is released (S470: YES), the process proceeds to S480.

  If a reset signal is input in S440 (S440: YES), that is, if a reset signal is input from the control circuit 2 during execution of the second communication process, a data communication stop process is executed in S460. To forcibly stop serial communication. After executing the serial communication stop process, the process proceeds to S480. Note that the input of the reset signal means that the control circuit 2 is activated by the first power supply voltage Vcc. In S480, the external supply of the second power supply voltage Vn is terminated. In S490, the interrupt to the control circuit 2 is released. After the process of S490, the process returns to S310.

(5) Effects of the Embodiment According to the multifunction device 1 of the present embodiment described above, the power supply circuit 9 stops operating due to the main power being turned off or in the off mode, etc. Even in a state where Vcc is not generated (hereinafter also referred to as “main body power-off state”), NFC communication with the smartphone 100 is possible. Even when the main body power is off, the second power supply voltage Vn is supplied to the communication node when power is received by holding an external communication device. Therefore, the NFC communication unit 3 can perform NFC communication with an external communication device and serial communication with another communication node even when the main body is turned off.

  With such a configuration, for example, when the power outlet is disconnected from the multifunction device 1, the multifunction device 1 is in the off mode, or the multifunction device 1 breaks down and the control circuit 2 cannot operate. By holding the smartphone 100, information can be read from and written to a communication node such as the EEPROM 4 or the cartridge IC 5.

  In addition, during NFC communication with an external communication device, when the power supply circuit 9 is activated to supply the first power supply voltage Vcc and the control circuit 2 is activated, serial communication in the NFC communication unit 3 is forcibly stopped. Is done. For this reason, the control circuit 2 can start operation quickly without being substantially affected by the NFC communication performed at the time of startup.

When the control circuit 2 resets the serial communication function of the NFC communication unit 3 at the time of activation, the control circuit 2 transmits a stop command to other communication nodes other than the NFC communication unit 3 to stop the serial communication, and then starts Process. Therefore, the control circuit 2 can start serial communication with another data communication target quickly and reliably after startup.

  The control circuit 2 releases the reset after completing the startup process. After the reset is released, the NFC communication unit 3 is again ready for serial communication. The NFC communication unit 3 can quickly return to a state in which serial communication can be performed again even if the serial communication being executed is forcibly stopped by the activation of the control circuit 2 even though the NFC communication unit 3 is forcibly stopped. . That is, the control circuit 2 can be activated quickly while suppressing the influence on the serial communication function of the NFC communication unit 3.

  In the main body power off state, the shutoff switch 10 is maintained in the off state, whereby the serial port 13 of the control circuit 2 is physically cut off from the serial ports of other communication nodes. Further, when an interrupt is input from the NFC communication unit 3 at the time of activation, the control circuit 2 maintains the off state of the cutoff switch 10 as it is.

  If the cutoff switch 10 is not provided, serial communication data between the NFC communication unit 3 and another communication node is input to the serial port 13 of the control circuit 2 even when the operation of the control circuit 2 is stopped (that is, serial communication). The electrical change of line L is input). If the potential of the serial port 13 changes despite the operation being stopped, the internal circuit of the control circuit 2 may be adversely affected. Further, when the control circuit 2 is activated while the NFC communication unit 3 is executing serial communication with another communication node, a plurality of masters exist, and data collision between the masters occurs.

  On the other hand, the MFP 1 of the present embodiment includes the cutoff switch 10 on the serial line L, and the control circuit 2 appropriately controls on / off of the cutoff switch 10, thereby suppressing the occurrence of the above problem. be able to.

  In the present embodiment, the power supply circuit 9 corresponds to an example of the first power supply unit of the present invention, the power supply circuit 24 corresponds to an example of the second power supply unit of the present invention, and the main control unit 11 corresponds to the main power supply unit of the present invention. The EEPROM 4 and the cartridge IC 5 correspond to an example of the communication node of the present invention, the cutoff switch 10 corresponds to an example of the switch unit of the present invention, and the H level reset signal Sr is equivalent to an example of the control unit and the switch control unit. The L level reset signal Sr corresponds to an example of a permission signal of the present invention, and the L level state notification signal St (that is, interrupt release) corresponds to an example of the stop notification of the present invention. Equivalent to. Moreover, the timing at which an affirmative determination is made in S180 in FIG.

[Other Embodiments]
(1) As the NFC control process executed by the communication control unit 21 of the NFC communication unit 3, various process contents other than the process contents shown in FIG. 4 can be considered. For example, the process contents shown in FIG. 5 are adopted. You can also The NFC control process in FIG. 5 will be described.

  When starting the NFC control process of FIG. 5, the CPU of the communication control unit 21 determines whether or not the first power supply voltage Vcc is supplied from the power supply circuit 9 in S510. If the first power supply voltage Vcc is supplied (S510: YES), the operation mode in serial communication is set to slave in S520. In S530, it is determined whether or not the smartphone is approached. If the smartphone is approached (S530: YES), it is determined whether or not NFC communication with the smartphone is started in S540. When NFC communication with the smartphone has not been started (S540: NO), the process proceeds to S560. When NFC communication with the smartphone is started (S540: YES), the first communication process is executed in S550.

In S560, it is determined whether or not the smartphone is released from the multifunction device 1. If the smartphone is not released, the process returns to S540. If the smartphone is released (S560: YES), the process returns to S530.

  If the first power supply voltage Vcc is not supplied in S510 (S510: NO), that is, if the communication control unit 21 is activated by the second power supply voltage Vn, the operation mode in serial communication is set as the master in S570. To do. In S580, the second power supply voltage Vn generated by the power feeding circuit 24 is output from the power feeding port 27. In S590, an interrupt is issued to the control circuit 2.

  In S600, it is determined whether or not the reset signal is input from the control circuit 2, that is, whether or not the reset signal Sr is at the H level. When the reset signal is input (S600: YES), the process proceeds to S670. If no reset signal is input in S600 (S600: NO), it is determined in S610 whether NFC communication with the smartphone has started. If NFC communication with the smartphone has not been started (S610: NO), the process proceeds to S660. When the NFC communication with the smartphone is started (S610: YES), the second communication process is started in S620.

  In S630, as in S600, it is determined whether a reset signal is input from the control circuit 2. If the reset signal has not been input (S630: NO), it is determined in S640 whether the second communication process has ended. If the second communication process has not ended (S640: NO), the process returns to S620. When the second communication process is completed (S640: YES), the process proceeds to S660.

  In S660, it is determined whether the smartphone has been released from the multifunction device 1. If the smartphone is not released, the process returns to S600. When the smartphone is released (S660: YES), the process proceeds to S670.

  If a reset signal is input in S630 (S630: YES), serial communication is forcibly stopped by executing a data communication stop process in S650. After the serial communication stop process is executed, the process proceeds to S670. In S670, the interrupt to the control circuit 2 is released. In S680, the external supply of the second power supply voltage Vn is terminated. After S680, the process returns to S510.

Also by the NFC control process of FIG. 5, the same effect as the NFC control process of FIG. 4 can be obtained.
(2) Using the reset signal Sr is an example as a method of resetting the serial communication function of the NFC communication unit 3 when the control circuit 2 is activated. It can also be reset using other methods. Further, it is not always necessary to reset, for example, the serial communication being executed may be temporarily suspended. How to specifically control the serial communication function of the NFC communication unit 3 and other communication nodes at the start-up as long as the control circuit 2 can quickly finish the start-up process and start the normal operation Various methods are conceivable.

(3) Regarding the realization of each function using the state notification signal St and the switch control signal Ss, an equivalent function may be realized by a method different from the method using these signals.
(4) The issuance of an interrupt from the NFC communication unit 3 to the control circuit 2 may be performed during a period from when the NFC communication with the smartphone 100 is actually started until it is ended. Alternatively, when it is determined that serial communication with a communication node such as the EEPROM 4 or the cartridge IC 5 is necessary after the start of NFC communication with the smartphone 100, it is performed at least during the period from the determination until the serial communication is no longer necessary. It may be. At least NF
An interrupt may be issued during serial communication between the C communication unit 3 and the communication node. Then, the interrupt may be canceled after the end of the serial communication.

  (5) The period for supplying the second power supply voltage Vn of the power supply circuit 24 to the outside and the timing for setting the NFC communication unit 3 to the master (and the timing for returning to the slave) are the same as the period for issuing the interrupt described above. The NFC communication execution status, the necessity for serial communication, the execution status, and the like can be determined as appropriate.

  The second power supply voltage Vn may be always supplied to the outside during the period in which the power supply circuit 24 is generating. Whether the second power supply voltage Vn is generated or externally output when the first power supply voltage Vcc is supplied from the power supply circuit 9 can be determined as appropriate.

  In the NFC control process shown in FIG. 4, when a negative determination is made in S340, the timing at which the master and slave are switched, the external supply of the second power supply voltage Vn is executed, and the like are appropriately determined. I can decide.

  (6) Although the EEPROM 4 and the cartridge IC 5 are shown as communication nodes that operate as slaves other than the NFC communication unit 3, these are merely examples, and the type and number of communication nodes are not particularly limited.

  (7) In the above embodiment, the master-slave type serial communication is exemplified as the data communication method between the communication nodes. However, the application of the present invention is not limited to the master-slave method. It is not limited.

  (8) In the above embodiment, the smartphone 100 is illustrated as an external device capable of NFC communication with the multifunction device 1. However, even if the external device other than the smartphone 100 (external device having an NFC communication function) is used, NFC communication with the multifunction device 1 can be performed in the same manner as the smartphone 100.

  (9) In addition, the present invention is not limited to the specific means and structure shown in the above embodiment, and can take various forms without departing from the gist of the present invention. For example, a part of the configuration of the above embodiment is replaced with a known configuration having the same function, added to or replaced with the configuration of another embodiment, or omitted as long as the problem can be solved. May be. Moreover, you may comprise combining several said embodiment suitably.

  DESCRIPTION OF SYMBOLS 1 ... MFP, 2 ... Control circuit, 3 ... NFC communication part, 3a ... Loop antenna, 4 ... EEPROM, 5 ... Cartridge IC, 6 ... Wireless LAN communication part, 7 ... Printer part, 8 ... Communication line connection part, 9 ... Power circuit, 10 ... Cut-off switch, 11 ... Main control unit, 12, 23 ... Serial communication I / F, 13, 25, 31, 41 ... Serial port, 14, 26 ... Main power input port, 15 ... Interrupt port , 16 ... Switch control port, 17 ... Reset output port, 21 ... Communication control unit, 22 ... NFC I / F, 24 ... Power feeding circuit, 27 ... Power feeding port, 28 ... State notification port, 29 ... Reset input port, 32, 42 ... power input port, 100 ... smartphone, D1 ... first diode, D2 ... second diode, L ... serial line.

Claims (8)

A communication device,
A first power supply unit that generates a first power supply voltage for operating the communication device;
An antenna for non-contact communication with an external device;
A second power supply unit that generates a second power supply voltage based on the power received from the external device by the antenna;
Operates in response to the supply of the second power supply voltage or the first power supply voltage, controls non-contact communication with an external device via the antenna, and performs data communication with other data communication targets in a specific data communication method. A communication control unit configured to enable communication;
A main control configured to operate in response to the supply of the first power supply voltage, to control execution of a function included in the communication device, and to perform data communication with another data communication target using the specific data communication method. And
A communication node that is operable by the first power supply voltage or the second power supply voltage and configured to allow data communication with another data communication target in the specific data communication method;
A communication line that connects the communication control unit, the main control unit, and the communication node to each other so that data communication is possible with the specific data communication method;
With
The second power supply unit is configured to be able to supply the second power supply voltage to the communication control unit and the communication node when power is received from the external device by the antenna.
The main control unit, when the first power supply voltage generated by the first power supply unit is activated by being supplied, the data communication has been performed with the communication node and the communication control unit If, stops the function of the data communication to at least said communication control unit, a communication apparatus characterized by that perform activation processing after the stopping.   The communication device according to claim 1,
  The main control unit performs data communication with the communication control unit in response to an input of a notification signal from the communication control unit after execution of the startup process.
  A communication device. The communication device according to claim 1 or 2 ,
When the main control unit causes the communication control unit to stop data communication with the communication node, the main control unit further stops the data communication performed with the communication control unit with respect to the communication node, and stops the data communication. Then, the communication control unit is permitted to execute data communication at a specific permission timing. The communication device according to claim 3 ,
The main control unit transmits a specific permission signal to the communication control unit at the permission timing,
When the communication control unit receives the permission signal from the main control unit after the function of data communication is stopped by the main control unit, the communication control unit returns itself to a state where data communication can be performed. Communication device. The communication device according to claim 3 or 4 ,
A switch unit provided in the communication line, for blocking data communication between the main control unit and another data communication target;
Operates in response to the supply of the first power supply voltage and shuts off the communication line by the switch unit when data communication is being executed between the communication control unit and the communication node when the main control unit is activated And a switch control unit for releasing the blocking state of the communication line by the switch unit when a specific data communication enabling condition is satisfied after the blocking,
With
When the main control unit stops data communication with the communication node with respect to the communication control unit, after the disconnection state of the communication line by the switch unit is released by the establishment of the data communication enable condition, The communication apparatus stops data communication performed with the communication control unit with respect to the communication node. The communication device according to claim 5 ,
The communication control unit, when the function of data communication is stopped by the main control unit, transmits a specific stop notification to the switch control unit via a transmission line different from the communication line,
At least one of the data communication enable conditions is to receive the stop notification from the communication control unit. The communication device according to any one of claims 1 to 6,
The main control unit issues a stop command to the communication control unit via a transmission line different from the communication line when data communication is being performed between the communication control unit and the communication node at the time of startup. Send
The communication device forcibly stops the data communication function when receiving the stop command from the main control unit. The communication device according to any one of claims 1 to 7,
The communication node includes a storage unit capable of storing data,
The storage unit stores at least one of data necessary for the main control unit to control execution of the function and data generated by the main control unit controlling execution of the function. And
When the second power supply voltage is supplied from the second power supply unit to the communication control unit and the communication node when the first power supply unit does not generate the first power supply voltage, the communication control unit Based on the content of the non-contact communication with the external device, at least one of reading data stored in the storage unit and writing data to the storage unit by performing data communication with the communication node A communication device characterized by being executable.

Images