JP2014075857A - Wireless charger - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless charger capable of not performing useless polling.SOLUTION: When presence of an object is detected by a proximity sensor at a point P1; charging authentication polling following a Qi(tsi) standard is started, and communication authentication polling is started by a NFC function. When the object is a smart phone handling the Qi standard only (without the NFC function) which responds to the charging authentication polling to be permitted to be charged and does not respond to the communication authentication polling, the communication authentication polling is continued until time T has passed after the point P1 and stopped at a point P2 when the time T has passed.

Description

  The present invention relates to a wireless charger incorporating a wireless charging function and a short-range wireless communication function.

  Patent Document 1 discloses a technique in which a coil is provided in both an electric appliance to be charged and a charger, and the electric appliance is charged using electromagnetic induction between the coils. According to this technology, the electric appliance is wirelessly charged by storing the electric appliance in the box of the charger. And if this technique is used, it will also be possible to charge a multifunctional mobile phone called a smart phone, which has been spreading rapidly in recent years, in the car. Furthermore, if a wireless charger is equipped with a short-range wireless communication function, vehicle information (remaining gasoline amount, fuel consumption, etc.) can be written on the smartphone by this communication function, and the added value of the wireless charger increases.

  In this way, in the wireless charger in which the wireless charging function and the short-range wireless communication function are incorporated, it is authenticated whether or not a device placed in a predetermined place is a device to be charged or communicated. Therefore, polling is performed for each function. If it is determined that the device conforms to the charging standard of the wireless charger by polling the charging function, charging to the device is allowed, and the device is registered in advance by polling the communication function. If it is determined, writing of vehicle information to this device is allowed. Therefore, simply placing the target device in a predetermined place allows the device to be automatically charged and vehicle information written, so that convenience is improved while cooperation between the smartphone and the vehicle is achieved.

JP-A-4-317527 ([FIG. 1])

  However, the target device does not always support both the charging function and the communication function, and when a device that supports only one function is placed, it is a kind of waste to continue polling the other function. .

  The present invention has been made paying attention to such problems, and an object thereof is to provide a wireless charger capable of eliminating unnecessary polling.

  In order to achieve the above object, the invention described in claim 1 is directed to a wireless charger in which a wireless charging function and a short-range wireless communication function are incorporated. In order to authenticate whether or not it is a device subject to charging, polling for charging authentication that transmits radio waves around the predetermined storage area is performed, and in response to a call by this polling, in accordance with the charging standard When the device information indicating that the device is acquired, the charging function unit that allows the device to be charged, and whether the object placed in the predetermined place is the device to be communicated In order to do this, polling for communication authentication that transmits radio waves around the predetermined storage area is performed, and in response to a call by this polling, it is indicated that the device is registered in advance. When the device information is acquired, the communication function unit that allows short-range wireless communication with the device, and when there is no response for a predetermined time to the call by the charging function unit, the charging authentication polling is stopped and the communication The gist of the present invention is to provide a control means for stopping polling for communication authentication when there is no response for a predetermined time in response to a call by the function unit.

  According to this configuration, when a device that supports only the charging function is placed, polling for communication authentication is stopped, and when a device that supports only the communication function is placed, polling for charging authentication is performed. If an object that is stopped and does not correspond to any function is placed, both polls are stopped. Therefore, useless polling can be eliminated.

  According to a second aspect of the present invention, in the wireless charger according to the first aspect, the wireless charger according to the first aspect further includes an object detection unit that detects whether or not an object is placed on the predetermined place. The gist is to start both charging authentication polling and communication authentication polling when the presence of the object is detected by the object detection means.

According to this configuration, polling is not started until an object is placed in a predetermined place. Therefore, it is possible to eliminate polling when there is no object.
According to a third aspect of the present invention, in the wireless charger according to the second aspect, the control unit is controlled by the object detection unit during charging in the charging function unit or during communication in the communication function unit. When the absence of an object is detected, the operation of each functional unit is reset, and on the condition that the presence of the object is detected by the object detection means after this reset, polling for charging authentication and polling for communication authentication are performed. The gist is to start both.

  According to this configuration, when the target device is picked up, the operation (charging and communication) up to that point is reset, and the necessity of polling the target object placed after the reset is verified. Therefore, even when another device is placed, appropriate polling control is realized.

  According to the present invention, useless polling can be eliminated.

The block diagram which shows the structure of a wireless charger. The action figure which shows the polling control by the comparative example. The action figure which shows the polling control by the example.

Hereinafter, an embodiment of a wireless charger according to the present invention will be described.
As shown in FIG. 1, the wireless charger 1 includes a power supply circuit 11 that supplies battery power to the components of the charger 1 and a control circuit 12 that controls the functions of the charger 1. . The charger 1 also includes a charging function unit 13 that charges the smartphone 2 and an NFC function unit 14 that performs near field communication (NFC) with the smartphone 2.

  The battery power is supplied to the control circuit 12, the charging function unit 13, and the NFC function unit 14 through the power circuit 11. When the control circuit 12 acquires an ACC ON signal indicating that the accessory power source is ON via the network, the control circuit 12 monitors whether or not an object is placed in a predetermined place through the charging function unit 13. The charging function unit 13 includes a proximity sensor that operates by receiving battery power. The proximity sensor detects whether or not an object is placed on a predetermined place.

  When an object is placed at a predetermined place, the control circuit 12 authenticates whether the object is a device to be charged through the charging function unit 13. The charging function unit 13 includes a coil antenna, and performs polling for charging authentication in which radio waves are continuously transmitted from the coil antenna to the periphery of the predetermined storage area for a short time when an object is placed on the predetermined storage area. When the target object placed in the predetermined place is the smartphone 2, the smartphone 2 covers the power from the radio wave continuously transmitted from the charging function unit 13, and the power receiving module ID of the smartphone 2 ( (Charging standard version and maximum received power). When the charging function unit 13 receives an ID that conforms to the charging standard in response to a call by polling, the target placed in a predetermined place is the smartphone 2 that conforms to the charging standard of the charger 1. And charging the smartphone 2 is started. In this example, electromagnetic induction between the coil antenna of the charging function unit 13 and the coil antenna of the smartphone 2 is used, and charging is performed wirelessly. Note that the control circuit 12 stops polling for charging authentication when there is no response for a predetermined time to the call by the charging function unit 13 (including when an ID with a different charging standard is received).

  In addition, when the control circuit 12 determines that the object is placed in a predetermined place based on the detection signal from the proximity sensor, the control circuit 12 performs the authentication through the charging function unit 13 and the target through the NFC function unit 14. It authenticates whether or not the object is a device subject to short-range wireless communication. The NFC function unit 14 includes a coil antenna, and performs polling for communication authentication in which radio waves are continuously transmitted for a short time from the coil antenna to the vicinity of the predetermined place when an object is placed on the predetermined place. When the target object placed in the predetermined storage location is the smartphone 2, the smartphone 2 covers the power from the radio wave continuously transmitted from the NFC function unit 14, and obtains an identification code unique to the smartphone 2. Send. When the NFC function unit 14 receives an identification code that matches a reference code registered in advance in response to a polling call, an object placed in a predetermined place is registered in the charger 1. It judges that it is the smart phone 2, and starts the writing service of the vehicle information with respect to this smart phone 2. The vehicle information written by this service can be confirmed on the display screen of the smartphone 2. Note that the control circuit 12 stops polling for communication authentication when there is no response for a predetermined time to the call by the NFC function unit 14 (including when an unregistered identification code is received).

  During charging of the smartphone 2, the control circuit 12 communicates with the smartphone 2 for charge state management control through the charging function unit 13. When this communication is established, the charging object is Recognize that it is in the designated place. The control circuit 12 substitutes for monitoring the presence / absence of the object by the communication, and stops the operation of the proximity sensor. When the communication is interrupted, the control circuit 12 restarts the proximity sensor and determines the presence or absence of an object based on a detection signal from the proximity sensor.

  When the control circuit 12 detects that an object has been picked up during charging by the charging function unit 13 or during communication by the NFC function unit 14, the operation (charging or communication) by the function units 13 and 14 is reset. Then, on the condition that the presence of an object is detected by the proximity sensor after this resetting, both charging authentication polling and communication authentication polling are started. The control circuit 12 verifies the necessity of each polling for the object placed after the reset based on the presence / absence of a response to each polling, and permits the charging operation by the charging function unit 13 through the charging authentication. Then, the vehicle information writing operation by the NFC function unit 14 is permitted through communication authentication.

  When the control circuit 12 acquires an ACC OFF signal indicating that the accessory power supply is OFF via the network, the control circuit 12 stops the charging operation by the charging function unit 13 and stops the communication operation by the NFC function unit 14.

  When the control circuit 12 acquires an ACC OFF signal and acquires a courtesy signal indicating that the door is opened via a CAN (Controller Area Network) or LIN, the object is not picked up. It is notified that the object has been misplaced on the condition. Therefore, when trying to get off with the smartphone 2 placed in a predetermined place, notification of misplacement is given.

Next, the operation of the wireless charger 1 will be described.
As shown in FIG. 2, in the comparative example with respect to the present embodiment, polling for charging authentication following the Qi (Qi) standard is started when the presence of an object is detected by the proximity sensor at the point P1. Polling for communication authentication by the NFC function is started. When this target object is a smartphone that only supports the Qi standard (without NFC function), there is a response to polling for charging authentication, so charging is permitted, but there is no response to polling for communication authentication. Polling for authentication continues.

  As shown in FIG. 3, in the present embodiment, when the presence of an object is detected by the proximity sensor at the point P1, charging authentication polling in accordance with the Qi (Qi) standard is started, and the NFC function Polling for communication authentication by is started. When this target object is a smartphone that only supports the Qi standard (without NFC function), there is a response to polling for charging authentication, so charging is permitted, but there is no response to polling for communication authentication. After the polling for authentication is continued until the time T elapses from the point P1, the authentication is stopped at the point P2 when the time T elapses.

  The charging function unit 13 in this example corresponds to a “charging function unit”, the NFC function unit 14 corresponds to a “communication function unit”, and the control circuit 12 corresponds to a “control unit”. The proximity sensor of the charging function unit 13 corresponds to “object detection means”.

As described above, according to the present embodiment, the following effects can be obtained.
(1) Polling for communication authentication is stopped when a device that supports only the Qi standard is placed, and polling for charging authentication is stopped when a device that supports only the NFC function is placed. When an object that does not correspond to any function is placed, both polling is stopped. Therefore, useless polling can be eliminated.

(2) Polling is not started until an object is placed in a predetermined place. Therefore, it is possible to eliminate polling when there is no object.
(3) When the target device is picked up, the previous operation (charging and communication) is reset, and the necessity of polling the target object placed after the reset is verified. Therefore, even when another device is placed, appropriate polling control is realized.

In addition, the said embodiment can also be changed and actualized as follows.
-Even if a correct response is not made due to a single communication error regarding polling stoppage, there will be no response to several polls, considering that a correct response will be made if the communication error is resolved. It is desirable to stop polling on the condition. In addition, such a period defines a time T for stopping polling.

The wireless charging function is not limited to the charging function that conforms to the Qi standard.
-The short-range wireless communication function is not limited to the NFC function. Note that according to the NFC function of this example, wireless communication of about several centimeters is possible between the smartphone 2 and the NFC function unit 14.

  -About the detection of the target object by the charge function part 13, it is not limited to the detection method by a proximity sensor. For example, a detection method using radio wave polling may be employed. In radio wave polling, radio waves are intermittently transmitted from a coil antenna around a predetermined place in order to monitor the presence or absence of an object. In the coil antenna, currents having different resonance frequencies flow when there is a metal object and when there is no metal object. When a current indicating that there is a metal object is detected, it is determined that the metal object is placed in a predetermined place. If judged in this way, in the next phase, the metal object is authenticated whether it is a specific object that achieves the intended purpose (for example, charging) by being placed in the predetermined place. Therefore, radio waves are transmitted continuously for a short time. When the object placed in a predetermined storage location is the smartphone 2, the smartphone 2 transmits ID (charging standard version and maximum received power) while providing power from continuously transmitted radio waves. . When the ID conforming to the charging standard is received, it is determined that the object placed in a predetermined place is the smartphone 2 (specific object) conforming to the charging standard of the charger 1.

  DESCRIPTION OF SYMBOLS 1 ... Wireless charger (wireless charger), 2 ... Smartphone, 11 ... Power supply circuit, 12 ... Control circuit (control means), 13 ... Charging function part (charging function part, object detection means), 14 ... NFC function part (Communication function unit).

Claims (3)

In a wireless charger with built-in wireless charging function and short-range wireless communication function,
In order to authenticate whether or not the object placed in the predetermined storage area is a device to be charged, polling for charging authentication is performed to transmit radio waves around the predetermined storage area. In response to the call, when acquiring device information indicating that the device conforms to the charging standard, a charging function unit that allows charging to the device; and
In order to authenticate whether or not the object placed in the predetermined place is a device to be communicated, polling for communication authentication for transmitting radio waves around the predetermined place is performed, and this polling is performed. A communication function unit that allows short-distance wireless communication with the device when acquiring device information indicating that the device is registered in advance in response to the call by
Control means for stopping polling for charging authentication when there is no response for a predetermined time to the call by the charging function unit and stopping polling for communication authentication when there is no response for a predetermined time to the call by the communication function unit A wireless charger characterized by comprising: The wireless charger according to claim 1, wherein
An object detection means for detecting whether an object is placed in the predetermined place;
The control unit starts both polling for charging authentication and polling for communication authentication when the presence of the target is detected by the target detection unit. The control unit resets the operation of each function unit when the object detection unit detects no object during charging in the charging function unit or during communication in the communication function unit. The wireless charger according to claim 2, wherein both the polling for charging authentication and the polling for communication authentication are started on the condition that the presence of the object is detected by the object detecting means.