JP2013247747A - Power supply device and information apparatus including the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a non-contact power supply device which can start power supply operation with a simple operation, without impairing the design of an information apparatus.SOLUTION: The power supply device having an openable and closable lid 3, and mounted on a notebook-sized personal computer 1 used while opening the lid 3, thus performing noncontact power supply to a portable terminal 30 includes a lid opening/closing detection switch 16 which can detect open/close state of the lid 3, a noncontact power supply section 18 performing noncontact power supply to the portable terminal 30, and a CPU 11 which causes the noncontact power supply section 18 to start non-contact power supply when closure of the lid 3 is detected by the lid opening/closing detection switch 16.

Description

  The present invention relates to a power supply device that is mounted on an information device and performs non-contact power supply to a power-supplied device such as a mobile phone device and a PDA (Personal Digital Assistant) and the information device.

  Mobile terminal devices such as mobile phone devices and PDAs operate with power supplied from a rechargeable secondary battery. Charging of the secondary battery is generally performed by a power supply device dedicated to the mobile terminal device. 2. Description of the Related Art In recent years, various power supply devices that supply power to a power supplied device in a contactless manner (hereinafter referred to as “non-contact power supply devices”) have been proposed.

  For example, Patent Document 1 discloses a cradle (non-contact power supply device) that supplies power to a mobile terminal in a non-contact manner by a method such as electromagnetic induction. The cradle disclosed in Patent Document 1 supplies power by a holding member on which a portable terminal is installed, a mechanical switch for detecting that the portable terminal is installed on the holding member, and a method such as electromagnetic induction. By establishing a non-contact communication with an object installed on a holding member as well as a detection result by a mechanical switch, including a power transmission coil and an antenna for performing a non-contact communication with a mobile terminal The power supply object is configured to perform non-contact power feeding. With such a configuration, when a metal object that is not a power supply object is placed on the holding member, a situation where power is erroneously supplied is prevented.

JP 2011-160547 A

  As in the cradle described in Patent Document 1, many of the conventionally proposed non-contact power feeding devices are configured as devices dedicated to power feeding. In this case, the user must always have a non-contact power supply device in order to charge a secondary battery built in a power-supplied device such as a mobile phone device, which is troublesome. For this reason, there is a need for a technique that enables charging of a power-supplied device to a secondary battery even in a situation where a dedicated power supply device is not owned.

  As such a technology, a non-contact power supply device is mounted on an information device such as a notebook computer (Personal Computer) or a tablet computer, and the secondary battery of the power-supplied device is charged via the information device. Technology is considered.

  However, when a non-contact power supply device is incorporated into an information device, if the technique described in Patent Document 1 is adopted, a mechanical switch for detecting that the power-supplied device is installed must be provided. However, securing a place for installing such a mechanical switch is a problem due to a design problem required for information equipment.

  Further, as described in Patent Document 1, even when it is detected that a power-supplied device is installed by establishing non-contact communication, there is no design problem. A communication device for realizing contact communication must be mounted on both the power-supplied device and the information device, which increases the manufacturing cost.

  In addition, contactless power feeding is performed via an operation unit such as a touch panel or a keyboard provided in an information device without providing a mechanism / device for detecting installation of a power-supplied device such as the mechanical switch or the communication device. It is possible to configure the non-contact power supply device to be turned ON / OFF by allowing the user to input a command for starting or stopping the operation. There is a problem that it becomes very troublesome work for the user.

  An object of the present invention is to provide a non-contact type power supply device capable of starting a power supply operation with a simple operation without impairing the design of the information device, and an information device including the same.

The present invention is a power supply device that is mounted on an information device and performs non-contact power supply to a power-supplied device,
A detection unit that detects whether the information device is in a predetermined posture or state;
A non-contact power supply unit that performs non-contact power supply to the power-supplied device; and
When the information device detects that the information device is in the predetermined posture or state, the power supply device includes a power supply control unit that causes the noncontact power supply unit to start noncontact power supply.

Further, the present invention is a power supply device that has a lid that can be opened and closed, is mounted on an information device that is used in a state where the lid is opened, and performs non-contact power feeding to a power-supplied device,
A detection unit capable of detecting the open / closed state of the lid in the information device;
A non-contact power supply unit that performs non-contact power supply to the power-supplied device; and
When the detection unit detects that the lid is closed, the power supply device includes a power supply control unit that causes the non-contact power supply unit to start non-contact power supply.

Further, the present invention is a power supply device that has a display surface capable of displaying an image, is mounted on an information device used in a posture in which the display surface faces upward, and performs non-contact power supply to a power-supplied device,
A detection unit capable of detecting that the posture of the information device is a posture in which the display surface faces downward;
A non-contact power supply unit that performs non-contact power supply to the power-supplied device; and
A power supply control unit configured to cause the non-contact power supply unit to start non-contact power supply when the detection unit detects that the posture of the information device is in a posture in which the display surface faces downward; Device.
Moreover, this invention is information equipment provided with the said electric power feeder.

  According to the present invention, the detection unit of the power supply apparatus detects whether or not the information device on which the power supply apparatus is mounted is in a predetermined posture or state. For example, when the information device is a notebook computer, the detection unit detects the open / closed state of the lid provided with the display panel, and when the information device is a tablet computer, the detection unit displays an image on which an image is displayed. The orientation of the surface, specifically, whether the display surface faces upward or downward is detected. Then, when the power supply control unit detects that the information device is in a predetermined posture or state based on the detection result of the detection unit, the power supply control unit causes the non-contact power supply unit to start a non-contact power supply operation. For example, when the information device is a notebook personal computer, the power supply control unit causes the non-contact power supply unit to start a non-contact power supply operation when detecting that the lid is closed. When the information device is a tablet-type personal computer, the power supply control unit causes the non-contact power supply unit to start a non-contact power supply operation when detecting that the display surface faces downward. Therefore, the user simply performs a simple operation of closing the lid in the case of a notebook computer without performing a troublesome input operation, and inverts the device itself in the case of a tablet computer. By simply performing a simple operation, the non-contact power feeding unit can start a power feeding operation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an external appearance of a notebook computer 1 which is an information device according to a first embodiment of the present invention, and FIG. 1 (a) shows the notebook computer 1 with a lid 3 opened; FIG. 1B shows the notebook computer 1 with the lid 3 closed. 1 is a block diagram showing an electrical configuration of a notebook computer 1 according to a first embodiment. It is a flowchart which shows the operation | movement procedure of the electric power feeding operation performed in the notebook type personal computer 1 which concerns on the 1st Embodiment of this invention. It is a perspective view which shows the external appearance of the tablet-type personal computer 41 which is the information equipment which concerns on the 2nd Embodiment of this invention, Fig.4 (a) shows the tablet-type personal computer 41 when it is the attitude | position which a display surface faces upwards. FIG. 4B shows the tablet-type personal computer 41 when the display surface faces downward. It is a block diagram which shows the electric constitution of the tablet-type personal computer 41 which concerns on 2nd Embodiment.

  FIG. 1 is a perspective view showing an external appearance of a notebook personal computer (PC) 1 which is an information device according to the first embodiment of the present invention. FIG. FIG. 1B shows the notebook personal computer 1 in a state where the lid 3 is closed. In addition to being used as an information device, the notebook computer 1 according to the present embodiment has a function of supplying power in a non-contact manner to the portable terminal 30 that is a power-supplied device including a rechargeable secondary battery.

  A notebook personal computer 1 as an information device has a rectangular shape when viewed in the thickness direction, and is provided with a keyboard 4a and a touch pad 4b on an upper surface portion 2a which is one surface portion in the thickness direction. A display panel 5 having a rectangular shape having the same size as that of the apparatus main body 2 when viewed in the thickness direction and capable of displaying an image is incorporated in the front portion 3a which is one surface portion in the thickness direction. A substantially plate-like lid 3 having a display surface is included.

  In the notebook computer 1, one edge on the long side of the front surface 3 a of the lid 3 and one edge on the long side of the upper surface 2 a of the apparatus main body 2 are connected to each other by a hinge mechanism. The lid 3 is configured to be rotatable with respect to the apparatus main body 2 around a predetermined axis extending in parallel with the one edge.

  The lid 3 can be rotated so that the front surface portion 3a thereof approaches and separates from the upper surface portion 2a of the apparatus main body 2 around the axis. The notebook computer 1 is shown in FIG. 1B by rotating the lid 3 to a position where the angle formed with the portion 2a is 0 ° or substantially 0 ° (hereinafter referred to as “closed position”). Thus, it will be in the state where lid 3 was closed. In the state where the lid 3 is closed, the other edge of the front surface portion 3a of the lid 3 opposite to the one edge and the other edge of the upper surface 2a of the apparatus main body 2 opposite to the one edge. The edge portion coincides with the thickness direction of the notebook computer 1 and is not shown, but the locking piece provided at the other edge portion of the front surface portion 3a of the lid 3 and the upper surface portion 2a of the apparatus main body 2 The locked portions formed on the other edge portions are configured to engage with each other.

  The lid 3 can be rotated around the axis from the closed position by about 180 °. By rotating from the closed position, the lid 3 is provided on the keyboard 4a and the touch pad 4b provided on the upper surface portion 2a, and on the front surface portion 3a. The display surface of the display panel 5 can be exposed to the outside. By being exposed to the outside as described above, the keyboard 4a and the touch pad 4b can be operated by the user, and the user can visually recognize the display surface of the display panel 5. That is, the notebook personal computer 1 is in a state where it cannot be used as an information device when the lid 3 is closed, and information is displayed when the lid 3 is opened by rotating the lid 3 from the closed position. Can be used as equipment. The lid 3 is connected by the hinge mechanism so as to be held at an arbitrary rotation position. Usually, the notebook personal computer 1 has the lid 3 about 90 ° to 110 ° around the axis from the closed position. It is used as an information device by the user in a rotated state.

  FIG. 2 is a block diagram showing an electrical configuration of the notebook computer 1 according to the first embodiment. The notebook computer 1 includes a CPU (Central Processing Unit) 11, a ROM (Read Only Memory), a RAM (Random Access Memory), a HDD (Hard Disk Drive), and the like (not shown). The CPU 11 stores the data in the ROM, the HDD, and the like. By executing the program, the entire apparatus is controlled to realize a function as an information device.

  As shown in FIG. 2, the notebook computer 1 includes a secondary battery 12 realized by, for example, a lithium ion secondary battery, and power is not supplied to the notebook computer 1 from an external power source. In the state, each part in the notebook computer 1 is operated by the power supplied from the secondary battery 12.

  On the other hand, in a state where power is supplied from the commercial power source to the notebook computer 1 via the AC (Alternating Current) adapter 7 connected to the connection terminal 13, each part in the notebook computer 1 is supplied from the commercial power source. If the secondary battery 12 is not fully charged while operating using electric power, the secondary battery 12 is charged via the charging circuit 14 and the switch 15.

  The switch 15 is controlled to be turned on / off by the CPU 11, and the secondary battery 12 and the charging circuit 14 are electrically connected when the switch is turned on, and the secondary battery 12 and the charging circuit 14 are connected when the switch is turned off. Is electrically disconnected.

  Similarly, the switch 21 is controlled to be switched on / off by the CPU 11, and the secondary battery 12 and the charging circuit 14 are electrically connected when the switch is turned on, and the secondary battery 12 is charged when the switch is turned off. The circuit 14 is electrically disconnected.

  As shown in FIG. 2, when both the switches 15 and 21 are switched on, the secondary battery 12 and the non-contact power feeding unit 18 described later are electrically connected, and at least one of the switches 15 and 21 is The secondary battery 12 and the non-contact power supply unit 18 are electrically disconnected by being switched off.

  The CPU 11 is configured to monitor the supply state of power from the commercial power source to the connection terminal 13 and monitor the remaining power amount (remaining capacity) of the power charged in the secondary battery 12.

  The notebook computer 1 also includes a lid body open / close detection switch 16 that can detect the open / closed state of the lid body 3. The lid opening / closing detection switch 16 may be realized by a mechanical switch, for example, or may be realized by a magnet and a Hall IC (Integrated Circuit).

The lid opening / closing detection switch 16 sends a detection signal to the PMIC (Power Management Integrated).
The PMIC 17 determines whether or not the lid 3 is closed based on the detection signal transmitted from the lid opening / closing detection switch 16. When the PMIC 17 determines that the lid 3 has transitioned from the opened state to the closed state, the PMIC 17 notifies the CPU 11 of that fact.

  As shown in FIG. 2, the notebook computer 1 according to the present embodiment includes a non-contact power supply unit 18 having a function of supplying power to the mobile terminal 30 that is a power supplied device in a non-contact manner.

  In the present embodiment, the non-contact power supply unit 18 includes a power supply coil 19 and a non-contact charging device control LSI (Large Scale Integration) 20. As shown in FIG. 1, the feeding coil 19 is provided inside the lid 3.

  The power supply coil 19 is configured to be able to generate an induction electromagnetic field to the outside when electric power is supplied from the commercial power supply or the secondary battery 12 to the non-contact power supply unit 18. That is, the power supply coil 19 has a function of supplying the power supplied from the commercial power source or the secondary battery 12 to the non-contact power supply unit 18 to the outside. The power supply to the feeding coil 19 is controlled by the non-contact charging device control LSI 20.

  Thus, when the power is supplied from the power supply coil 19 to the outside, the portable terminal 30 that is the power supplied device is installed on the back surface portion 3b on the opposite side of the front surface portion 3a in the lid 3. The secondary battery mounted on the portable terminal 30 can be charged.

  In the present embodiment, the non-contact power supply unit 18 is configured to supply power to the mobile terminal 30 in a non-contact manner by an electromagnetic induction method, but the non-contact power supply method is limited to the electromagnetic induction method. For example, other well-known methods such as a method using exchange of light energy may be adopted.

  FIG. 3 is a flowchart showing an operation procedure of the power feeding operation executed in the notebook computer 1 according to the first embodiment of the present invention. The operation is started in a state where the notebook computer 1 is used as an information device, that is, in a state where the lid 3 is opened, and the process proceeds to step s1.

  In step s1, the PMIC 17 monitors the detection signal transmitted from the lid opening / closing detection switch 16, and determines whether or not the lid 3 is closed. If it is determined that the lid 3 is closed, the process proceeds to step s2.

  In step s2, the PMIC 17 notifies the CPU 11 that the lid 3 has been closed, and proceeds to step s3. In step s3, the CPU 11 determines whether or not the notebook personal computer 1 is in a state where power can be supplied to the portable terminal 30, and if it is determined that power can be supplied, the process proceeds to step s4, where power can be supplied. If it is determined that it is not, the process is terminated.

  Specifically, the CPU 11 determines whether or not power is supplied from the commercial power source to the notebook computer 1 by connecting the AC adapter 7 to the connection terminal 8, and the remaining power of the secondary battery 12. It is determined whether or not the amount exceeds a predetermined threshold value. And if it determines with the electric power being supplied from commercial power supply, it will progress to step s4 and even if it is a case where electric power is not supplied from commercial power supply, the residual electric energy of the secondary battery 12 exceeds the predetermined threshold value. If determined, the process proceeds to step s4. Further, when it is determined that no power is supplied from the commercial power source and the remaining power amount of the secondary battery 12 is equal to or less than a predetermined threshold value, the process is terminated.

  In the present embodiment, the notebook personal computer 1 is configured to be able to set whether or not to execute the power supply operation, and in step s3, the CPU 11 is also set in advance by the user so as not to execute the power supply operation. The process is terminated.

  In step s4, the CPU 11 performs on / off control of the switches 15 and 21 to supply power from the commercial power source or the secondary battery 12 to the non-contact power feeding unit 18 and to the non-contact charging device control LSI 20 The power feeding operation is started, and the process proceeds to step s5.

  In step s 5, the non-contact charging device control LSI 20 supplies power to the feeding coil 19. Thereby, electric power is supplied from the feeding coil 19 to the outside, and the secondary battery mounted on the portable terminal 30 can be charged by installing the portable terminal 30 on the back surface portion 3 b of the lid 3. When charging is possible, the process proceeds to step s6.

  In step s6, the non-contact charging device control LSI 20 monitors the coil current flowing through the power feeding coil 19, determines whether or not an abnormal current exceeding a predetermined design value flows through the power feeding coil 19, and the abnormal current flows. If it is determined that there is no abnormal current, the process proceeds to step s10. Here, when an abnormal current is flowing through the feeding coil 19, it is considered that a failure has occurred on the portable terminal 30 side that the secondary battery is short-circuited, and the process proceeds to step s10, which will be described later. Thus, the power feeding operation is terminated.

  In step s7, the non-contact charging device control LSI 20 monitors the coil current flowing through the power supply coil 19, determines whether the coil current has become a predetermined threshold value or less, and determines that the coil current has become the predetermined threshold value or less. If it progresses to s10 and it determines with having exceeded the predetermined threshold value, it will progress to step s8. Here, the predetermined threshold value is the current value of the coil current flowing through the power feeding coil 19 when the secondary battery in the portable terminal 30 installed on the back surface portion 3b of the lid 3 is charged, and the secondary battery It is determined as a value between the current value of the coil current flowing through the feeding coil 19 when the battery is fully charged.

  When the secondary battery in the portable terminal 30 installed on the back surface portion 3b of the lid 3 is fully charged, the current value of the coil current flowing through the power receiving coil provided in the portable terminal 30 becomes close to zero. As a result, the current value of the coil current flowing through the power feeding coil 19 magnetically coupled to the power receiving coil is also reduced to be equal to or less than a predetermined threshold. That is, when the coil current flowing through the power supply coil 19 is equal to or lower than a predetermined threshold value, it is considered that charging of the secondary battery in the mobile terminal 30 installed on the back surface portion 3b of the lid 3 is completed. Proceeding to step s10, the power feeding operation is terminated as will be described later.

  In step s8, the CPU 11 determines whether or not a notification that the lid 3 has been opened is given from the PMIC 17. When the PMIC 17 monitors the detection signal transmitted from the lid opening / closing detection switch 16 and determines that the lid 3 has been opened, the PMIC 17 notifies the CPU 11 that the lid 3 has been opened. If it is determined that the notification that the lid 3 has been opened has been given, the process proceeds to step s10. If it is determined that the notification that the lid 3 has been opened has not been given, the process proceeds to step s9.

  In step s9, the CPU 11 determines whether or not the notebook computer 1 is in a state in which power can be supplied to the portable terminal 30, and if it is determined that the power can be supplied, the process returns to step s6 and the power can be supplied. If not, the process proceeds to step s10. Whether or not power can be supplied is determined by the same method as in step s3.

  In step s10, the CPU 11 performs on / off control of the switches 15 and 21 to stop the supply of electric power from the commercial power source or the secondary battery 12 to the non-contact power feeding unit 18, and the non-contact charging device control LSI 20 The power feeding operation by is terminated, and the process proceeds to step s11.

  In step s11, the non-contact charging device control LSI 20 stops the supply of power to the power feeding coil 19. As a result, the power supply from the feeding coil 19 to the outside is stopped, and the secondary battery mounted on the portable terminal 30 cannot be charged even if the portable terminal 30 is installed on the back surface portion 3b of the lid 3. It becomes. When the supply of power to the power supply coil 19 is stopped, the process is terminated.

  As described above, according to the present embodiment, when the user closes the lid 3 to install the mobile terminal 30 on the back surface 3b of the lid 3 in the notebook computer 1, the lid opening / closing detection switch 16 Based on the output detection signal, it is detected that the lid body 3 is closed, and triggered by the closure of the lid body 3, power supply to the power feeding coil 19 of the non-contact power feeding section 18 is started, and the portable terminal It will be in the state which can charge 30 secondary batteries. In this way, the user can start the power supply operation of the non-contact power supply unit 18 only by performing a simple operation of closing the lid without performing a troublesome input operation.

  Further, according to the present embodiment, it is not necessary to provide a mechanism / device such as a mechanical switch or a communication device for detecting that the portable terminal 30 is installed. In addition, the problem that the manufacturing cost increases can be avoided.

  Further, according to the present embodiment, the power supply to the power supply coil 19 of the non-contact power supply unit 18 is stopped by opening the lid 3. Therefore, when the notebook computer 1 is used as an information device, no power is supplied to the power supply coil 19, so that unnecessary power consumption can be prevented.

  FIG. 4 is a perspective view showing an appearance of a tablet-type personal computer 41 which is an information device according to the second embodiment of the present invention. FIG. 4A is a view when the display surface 43 faces upward. The tablet personal computer 41 is shown, and FIG. 4B shows the tablet personal computer 41 when the display surface 43 faces downward. In addition to being used as an information device, the tablet-type personal computer 41 according to the present embodiment has a function of supplying power to the portable terminal 30 that is a power-supplied device including a rechargeable secondary battery in a contactless manner.

  In the tablet-type personal computer 41 that is an information device, a display panel 5 capable of displaying an image is incorporated in a rectangular plate-shaped casing 42, and the display surface 43 is exposed at the upper surface portion 42a that is one surface portion in the thickness direction. ing. The display surface 43 is provided with a touch panel so that a touch operation is possible.

  The tablet-type personal computer 41 can be used by the user in any posture, but it is usually assumed that the tablet-type personal computer 41 is used in such a posture that the display surface 43 faces upward.

  FIG. 5 is a block diagram showing an electrical configuration of the tablet-type personal computer 41 according to the second embodiment. Since the tablet PC 41 according to the present embodiment is configured in substantially the same manner as the notebook PC 1 according to the first embodiment, the same components are denoted by the same reference numerals and redundant description is omitted. There is a case.

The tablet-type personal computer 41 includes a CPU (Central Processing Unit) 11, a ROM (Read Only Memory), a RAM (Random Access Memory) and a HDD (Hard (not shown)).
The CPU 11 executes a program stored in a ROM, an HDD, or the like, thereby controlling the entire apparatus and realizing a function as an information device.

  Unlike the notebook computer 1 according to the first embodiment, the tablet computer 41 includes a reversal detection sensor 22 that can detect that the posture of the tablet computer 41 is a posture in which the display surface 43 faces downward. ing. The inversion detection sensor 22 may be realized by an acceleration sensor, for example, or may be realized by a proximity sensor.

  The inversion detection sensor 22 transmits a detection signal to the PMIC 17, and the PMIC 17 determines whether the display surface 43 faces upward or downward based on the detection signal transmitted from the inversion detection sensor 22. When the PMIC 17 determines that the posture in which the display surface 43 faces upward is changed to the posture in which the display surface 43 faces downward, the PMIC 17 notifies the CPU 11 of the fact.

  In the tablet-type personal computer 41 according to the present embodiment, the power supply coil 19 is provided inside the housing 42, and when the power is supplied from the power supply coil 19 to the outside, the mobile terminal 30 that is a power-supplied device. Is installed on the lower surface portion 42b which is the other surface portion in the thickness direction, the secondary battery mounted on the portable terminal 30 can be charged.

  The operation procedure of the power supply operation executed in the tablet personal computer 41 according to the present embodiment is substantially the same as that shown in FIG. Therefore, different procedures will be described in detail with reference to FIG. 3, and the same procedure will be described briefly.

  The operation starts with the display surface 43 of the tablet-type personal computer 41 facing upward, and the process proceeds to step s1.

  In step s1, the PMIC 17 monitors the detection signal transmitted from the inversion detection sensor 22, and determines whether or not the display surface 43 has transitioned from the posture facing upward to the posture facing the display surface 43 downward. To do. If it determines with having changed, it will progress to step s2.

  In step s2, the PMIC 17 notifies the CPU 11 that the display surface 43 has transitioned to the posture facing downward, and proceeds to step s3. In step s3, the CPU 11 determines whether or not the tablet-type personal computer 41 is in a state in which power can be supplied to the mobile terminal 30. If the CPU 11 determines that it is in a state in which power can be supplied, the process proceeds to step s4. If it is determined that it is not, the process is terminated.

  In step s4, the CPU 11 performs on / off control of the switches 15 and 21 to supply power from the commercial power source or the secondary battery 12 to the non-contact power feeding unit 18 and to the non-contact charging device control LSI 20 The power feeding operation is started, and the process proceeds to step s5.

  In step s 5, the non-contact charging device control LSI 20 supplies power to the feeding coil 19. Thereby, electric power is supplied from the feeding coil 19 to the outside, and the secondary battery mounted on the portable terminal 30 can be charged by installing the portable terminal 30 on the lower surface portion 42b opposite to the upper surface portion 42a. it can. When charging is possible, the process proceeds to step s6.

  In step s6, the non-contact charging device control LSI 20 monitors the coil current flowing through the power feeding coil 19, determines whether or not an abnormal current exceeding a predetermined design value flows through the power feeding coil 19, and the abnormal current flows. If it is determined that there is no abnormal current, the process proceeds to step s10.

  In step s7, the non-contact charging device control LSI 20 monitors the coil current flowing through the power supply coil 19, determines whether the coil current has become a predetermined threshold value or less, and determines that the coil current has become the predetermined threshold value or less. If it progresses to s10 and it determines with having exceeded the predetermined threshold value, it will progress to step s8.

  In step s8, the CPU 11 determines whether or not a notification that the display surface 43 has transitioned from the posture facing down to the posture in which the display surface 43 is facing upward has been given from the PMIC 17. When the PMIC 17 monitors the detection signal transmitted from the inversion detection sensor 22 and determines that the display surface 43 has transitioned to the posture facing upward, the PMIC 17 notifies the CPU 11 of that fact. If it is determined that a notification indicating that the display surface 43 has transitioned to a posture in which the display surface 43 is facing upward is given, the process proceeds to step s10.

  In step s9, the CPU 11 determines whether or not the tablet personal computer 41 is in a state where power can be supplied to the mobile terminal 30, and if it is determined that the power can be supplied, the process returns to step s6, where power can be supplied. If not, the process proceeds to step s10.

  In step s10, the CPU 11 performs on / off control of the switches 15 and 21 to stop the supply of electric power from the commercial power source or the secondary battery 12 to the non-contact power feeding unit 18, and the non-contact charging device control LSI 20 The power feeding operation by is terminated, and the process proceeds to step s11.

  In step s11, the non-contact charging device control LSI 20 stops the supply of power to the power feeding coil 19. As a result, the power supply from the power supply coil 19 to the outside is stopped, and even if the mobile terminal 30 is installed on the lower surface portion 42b, the secondary battery mounted on the mobile terminal 30 cannot be charged. When the supply of power to the power supply coil 19 is stopped, the process is terminated.

  As described above, according to the present embodiment, when the user reverses the posture of the tablet PC 41 in order to install the mobile terminal 30 on the lower surface portion 42 b of the tablet PC 41, the user is output from the reversal detection sensor 22. Based on the detected signal, it is detected that the display surface 43 has transitioned to a posture facing downward, and using this as a trigger, power supply to the power supply coil 19 of the non-contact power supply unit 18 is started. The secondary battery can be charged. In this way, the user can perform a simple operation of inverting the posture of the tablet PC 41 so that the display surface 43 faces downward from the posture where the display surface 43 faces downward without performing a troublesome input operation. Only by performing it, the non-contact electric power feeding part 18 can start electric power feeding operation | movement.

  Further, according to the present embodiment, there is no need to provide a mechanism / device such as a mechanical switch or a communication device for detecting that the mobile terminal 30 is installed. In addition, the problem that the manufacturing cost increases can be avoided.

  Further, according to the present embodiment, the power supply to the power supply coil 19 of the non-contact power supply unit 18 is stopped by reversing the display surface 43 so that the display surface 43 faces upward. Therefore, when the tablet personal computer 41 is used as an information device, no power is supplied to the power supply coil 19, so that unnecessary power consumption can be prevented.

1 Notebook PC 2 Device Main Body 3 Cover 11 CPU
12 Secondary battery 16 Lid opening / closing detection switch 17 PMIC
18 Non-contact power feeding unit 19 Feed coil 20 Non-contact charging device control LSI

Claims (4)

A power supply device that is mounted on an information device and performs non-contact power supply to a power-supplied device,
A detection unit that detects whether the information device is in a predetermined posture or state;
A non-contact power supply unit that performs non-contact power supply to the power-supplied device; and
And a control unit that causes the non-contact power supply unit to start non-contact power supply when the detection unit detects that the information device is in the predetermined posture or state. A power supply device that has a lid that can be opened and closed, is mounted on an information device that is used in a state where the lid is opened, and performs non-contact power feeding to a power-supplied device,
A detection unit capable of detecting the open / closed state of the lid in the information device;
A non-contact power supply unit that performs non-contact power supply to the power-supplied device; and
And a control unit that causes the non-contact power feeding unit to start non-contact power feeding when the detection unit detects that the lid is closed. A power supply device that has a display surface capable of displaying an image, is mounted on an information device that is used in a posture in which the display surface faces upward, and performs non-contact power supply to a power-supplied device,
A detection unit capable of detecting that the posture of the information device is a posture in which the display surface faces downward;
A non-contact power supply unit that performs non-contact power supply to the power-supplied device; and
And a control unit that causes the non-contact power feeding unit to start non-contact power feeding when the detection unit detects that the posture of the information device is in a posture in which the display surface faces downward. .   Information equipment provided with the electric power feeder of any one of Claims 1-3.

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