JP2014023348A - Charger of portable terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a charger of a portable terminal capable of safely charging a portable terminal.SOLUTION: The charger of a portable terminal includes: a detector 110 that detects a portable terminal 200 to be charged; a power feeding part 120 that feeds power to the portable terminal 200 detected by the detector 110; a determination part 110 that determines whether the portable terminal 200 has a charging control function for controlling to feed power to a battery 240 with which the portable terminal 200 is provided; and a controller 110 that differentiates a feeding action of the power feeding part 120 to the portable terminal 200 on the basis of whether the portable terminal 200 has the charging control function.

Description

  The present invention relates to a charging device for a portable terminal.

  Conventionally, a charging device that detects a mobile terminal to be charged and charges the detected mobile terminal is known (see, for example, Patent Document 1).

JP 2010-183706 A

  However, the conventional technology does not determine whether or not the mobile terminal to be charged has a charge control function for controlling charging of the battery provided in the mobile terminal. If the mobile terminal does not have a charge control function, power supply to the mobile terminal may cause damage to the battery of the mobile terminal due to heat generated by the battery of the mobile terminal. there were.

  The problem to be solved by the present invention is to provide a charging device for a mobile terminal capable of safely charging the mobile terminal.

  The present invention solves the above problems by the following means. In addition, although the code | symbol corresponding to drawing which shows embodiment of this invention is attached | subjected and demonstrated, this code | symbol is only for making an understanding of invention easy, and is not the meaning which limits invention.

  [1] A charging device for a mobile terminal according to the present invention includes a detection unit (110) that detects a mobile terminal (200) to be charged, and power supply that supplies power to the mobile terminal detected by the detection unit. Unit (120), a determination unit (110) for determining whether or not the mobile terminal has a charge control function for controlling charging to a battery (240) provided in the mobile terminal, Based on whether or not the portable terminal has the charging control function, the power feeding unit includes a control unit (110) that varies a power feeding operation for the portable terminal.

  [2] In the invention relating to the charging device for the portable terminal, the determination unit (110) sends charging control information indicating that the portable terminal (200) has the charging control function from the portable terminal. If it can be obtained, it can be configured to determine that the mobile terminal has the charge control function.

  [3] In the invention related to the charging device for the portable terminal, the charging control function may be configured such that the portable terminal is provided in the portable terminal based on the temperature of the battery (240) provided in the portable terminal (200). It is possible to configure so as to control the charging of the battery.

  [4] In the invention related to the charging device for the portable terminal, the charging control function is configured such that the portable terminal is provided in the portable terminal based on a capacity of a battery (240) provided in the portable terminal (200). It is possible to configure so as to control the charging of the battery.

  [5] In the invention related to the mobile terminal charging device, the charge control function is a ratio of a current capacity of the battery of the mobile terminal to a capacity of the battery (240) of the mobile terminal (200) when fully charged. The mobile terminal can be configured to have a function of controlling charging of a battery included in the mobile terminal.

  [6] In the invention relating to the charging device for the mobile terminal, the control unit (110) starts power supply to the mobile terminal when the mobile terminal (200) has the charge control function. When a predetermined first time has elapsed, the power supply unit (120) stops power supply to the mobile terminal, and when the mobile terminal does not have the charge control function, the mobile terminal When a second time shorter than the first time has elapsed since the start of power supply to the mobile phone, the power supply unit can be configured to stop power supply to the mobile terminal.

  [7] In the invention related to the charging device for the portable terminal, the control unit (110) may be configured such that the temperature of the portable terminal is a predetermined value when the portable terminal (200) has the charging control function. When the first temperature is exceeded, the power feeding unit (120) stops power feeding to the portable terminal, and when the portable terminal does not have the charge control function, the temperature of the portable terminal is When the second temperature lower than the first temperature is exceeded, the power feeding unit can be configured to stop power feeding to the mobile terminal.

  [8] In the invention relating to the charging device for the portable terminal, the control unit (110) may be configured to supply current to the portable terminal when the portable terminal (200) has the charging control function. When the power supply unit (120) supplies power to the mobile terminal so that the current value does not exceed a predetermined first current value, the mobile terminal does not have the charge control function. Is configured to cause the power supply unit to supply power to the mobile terminal so that a current value of a current supplied to the mobile terminal does not exceed a second current value smaller than the first current value. Can be configured.

  [9] In the invention related to the charging method of the mobile terminal, the power feeding unit (120) includes a power transmission coil, and mutual induction between the power transmission coil and the power receiving coil (220) included in the mobile terminal (200). The mobile terminal can be configured to be fed by the induced electromotive force.

  According to the present invention, the mobile terminal can be charged safely.

FIG. 1 is a block diagram illustrating a charging device and a mobile terminal according to the present embodiment. FIG. 2 is a flowchart showing the operation of the charging apparatus according to the present embodiment. FIG. 3 is a block diagram illustrating the charging device according to the present embodiment and another portable terminal detected by the charging device. FIG. 4 is a block diagram showing the charging device according to the present embodiment and another portable terminal detected by the charging device. FIG. 5 is a block diagram illustrating a charging device and a mobile terminal according to another embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating a charging device and a mobile terminal according to the present embodiment. In FIG. 1, the signal flow is indicated by a broken line, and the power flow is indicated by a solid line (the same applies to FIGS. 3 to 5).

  The charging device 100 is a charging device that charges the mobile terminal 200 to be charged by a non-contact charging method. As illustrated in FIG. 1, the control device 110, the power transmission coil 120, the communication device 130, the power supply device 140, A temperature sensor 150 and a current sensor 160 are provided.

  When the mobile terminal 200 is placed on the charging device 100, the control device 110 detects the mobile terminal 200 to be charged and supplies power to the detected mobile terminal 200 through the power transmission coil 120. Thus, the mobile terminal 200 is charged by the non-contact charging method. In addition, the control device 110 performs power feeding control on the mobile terminal 200 based on the detection results of the temperature sensor 150 and the current sensor 160 so that the mobile terminal 200 can be charged safely. The details of the charging control method of the mobile terminal 200 by the control device 110 will be described later.

  The power transmission coil 120 is magnetically coupled to a power reception coil 220 provided in the mobile terminal 200 and supplies power to the mobile terminal 200 by induced electromotive force due to mutual induction with the power reception coil 220 of the mobile terminal 200. Moreover, in this embodiment, as will be described later, communication between the charging device 100 and the mobile terminal 200 is performed via the power transmission coil 120.

  Communication device 130 performs communication between charging device 100 and portable terminal 200. For example, the communication device 130 can transmit information to the mobile terminal 200 via the power transmission coil 120 by superimposing a high-frequency signal indicating predetermined information on the frequency of power transmitted to the mobile terminal 200. Similarly, the communication device 130 can receive information from the portable terminal 200 via the power transmission coil 120. The information transmitted from the mobile terminal 200 includes, for example, charge control information indicating that the mobile terminal 200 has a charge control function for controlling charging of the battery 240 included in the mobile terminal 200, or the mobile terminal 200. Charging information such as the capacity and temperature of the battery 240 included in the battery is included.

  The power supply device 140 is connected to a commercial power supply, and supplies power supplied from the commercial power supply to each component of the charging device 100. Further, part of the power supplied from the power supply device 140 is supplied to the portable terminal 200 via the power transmission coil 120 by the control device 100.

  The temperature sensor 150 detects the temperature of the mobile terminal 200 placed on the charging device 100. Note that the temperature of the mobile terminal 200 detected by the temperature sensor 150 is transmitted to the control device 110 and used for charging control of the mobile terminal 200 by the control device 110.

  The current sensor 160 detects a current value flowing through the power transmission coil 120. Note that the current value detected by the current sensor 160 is transmitted to the control device 110 and used for charging control of the portable terminal 200 by the control device 110.

  The mobile terminal 200 is a mobile terminal to be charged by the charging apparatus 100, and is a mobile terminal such as a digital camera or a mobile phone. In addition, the mobile terminal 200 has a charge control function for controlling charging of the battery 240 included in the mobile terminal 200, and charging device 100 receives charge control information indicating that the mobile terminal 200 has the charge control function. , It is possible to make the charging device 100 recognize that the mobile terminal 200 has a charge control function.

  In the present embodiment, the mobile terminal 200 includes a charging control device 210, a power receiving coil 220, a terminal communication device 230, a battery 240, a battery sensor 250, and a temperature sensor 260, as shown in FIG.

  The power reception coil 220 is magnetically coupled to the power transmission coil 120 of the charging device 100 and receives the power transmitted from the power transmission coil 120 of the charging device 100. The power received by the power receiving coil 220 is stored in the battery 240 via the charge control device 210. As will be described later, in the present embodiment, communication between the mobile terminal 200 and the charging device 100 is performed via the power receiving coil 220.

  The terminal communication device 230 performs communication between the charging device 100 and the terminal device 200 via the power receiving coil 220. For example, the terminal communication device 230 controls the charging of the battery 240 included in the mobile terminal 200 by the mobile terminal 200 to the frequency of the dielectric electromotive force generated by the mutual dielectric between the power transmission coil 120 and the power reception coil 220 of the charging device 100. By superimposing the charging control information indicating that the charging control function is provided, the charging control information of the portable terminal 200 is transmitted to the charging device 100 via the power receiving coil 220. The information transmitted from the portable terminal 200 to the charging device 100 includes information indicating the charging state of the battery 240 (for example, information on the capacity, charging rate, and temperature of the battery 240) in addition to the above-described charging control information. In addition, a command for causing charging device 100 to stop power feeding to portable terminal 200, and a command for causing charging device 100 to change the strength of power supplied to portable terminal 200 are included. Furthermore, the terminal communication device 230 also receives information transmitted from the communication device 130 of the charging device 100 via the power receiving coil 220.

  The battery 240 is a chargeable / dischargeable power source, and is composed of, for example, a secondary battery such as lithium ion or nickel metal hydride. The battery 240 supplies power to each component of the mobile terminal 200 and stores the power received via the power receiving coil 220 when the charging device 100 supplies power to the mobile terminal 200.

  For example, the battery sensor 250 detects the charge amount and the discharge amount of the battery 240 based on the voltage value and the current value detected by a voltage sensor and a current sensor (not shown). The charging rate, which is the ratio of the current capacity of the battery 240 to the capacity of the battery 240 at the time, is detected as the charging state of the battery 240. Note that the capacity and charging rate of the battery 240 detected by the battery sensor 250 are transmitted to the charging control device 210 and used for charging control of the battery 240 by the charging control device 210.

  Temperature sensor 260 detects the temperature of battery 240 as the state of charge of battery 240. Note that the temperature of the battery 240 detected by the temperature sensor 260 is also transmitted to the charge control device 210 and used for charge control of the battery 240 by the charge control device 210.

  The charging control device 210 safely charges the battery 240 based on the capacity of the battery 240 detected by the battery sensor 250, the charging rate of the battery 240, and the temperature of the battery 240 detected by the temperature sensor 260. The charge control for performing is performed. For example, the charging control device 210 determines whether the battery 240 is detected based on the capacity or charging rate of the battery 240 detected by the battery sensor 250 or when the temperature of the battery 240 detected by the temperature sensor 260 exceeds a predetermined value. When it is determined that the battery is fully charged, the portable terminal 200 is controlled so as to stop the charging of the battery 240, or the charging device 100 is stopped to supply power to the portable terminal 200, or Command to weaken the power supplied to terminal 200.

  Next, the operation of the charging device 100 according to the present embodiment will be described with reference to FIG. FIG. 2 is a flowchart showing the operation of the charging apparatus 100 according to the present embodiment. The operation of charging device 100 described below is started, for example, when the charging device 100 is turned on.

  First, in step S101, the control device 110 detects a mobile terminal to be charged. For example, the control apparatus 110 can detect the portable terminal used as charge object by detecting the magnetic coupling of the power transmission coil 120 and the receiving coil with which a portable terminal is equipped. If a portable terminal is detected, the process proceeds to step S102. If no portable terminal is detected, the process waits in step S101.

  Here, in step S101, like the mobile terminal 200 shown in FIG. 1, the mobile terminal 200 has a charge control function for controlling the charging of the battery 240, and the mobile terminal 200 has the charge control function. In addition to the portable terminal that can be recognized by the charging apparatus 100 that the portable terminal 200 has the charging control function by transmitting the charging control information indicating that the portable terminal 200 has the charging control information to the charging apparatus 100. Thus, the following portable terminals are also detected as portable terminals to be charged. That is, in step S101, for example, as in the mobile terminal 300 shown in FIG. 3, the current received by the power receiving coil 320 is rectified by the rectifier 310 and stored in the battery 330. This indicates that the mobile terminal 300 has a charge control function because it does not have a charge control function for controlling the charging of the battery 330 included in the device or has a charge control function. Since the charging control information cannot be transmitted from the portable terminal 300 to the charging device 100, the portable terminal in which the charging device 100 cannot recognize that the portable terminal 300 has the charging control function is also included in the portable device to be charged. Detected as a terminal. Furthermore, in step S101, the portable terminal 400 in which the power transmission coil 120 of the charging apparatus 100 and the coil 420 are magnetically coupled by the impedance of the coil 420 is also used as the portable terminal to be charged, as in the portable terminal 400 shown in FIG. May be detected. 3 and 4 are block diagrams showing other portable terminals detected by the charging device 100. FIG.

  In step S102, the control device 110 starts charging the mobile terminal. Specifically, the control device 110 starts supplying power to the mobile terminal by mutual induction between the power transmission coil 120 and the power receiving coil included in the mobile terminal, thereby charging the battery of the mobile terminal by the non-contact charging method. To start.

  When charging of the mobile terminal 200 by the charging device 100 is started, charging control of the battery 240 by the mobile terminal 200 is performed in the mobile terminal 200 having a charging control function as shown in FIG. For example, the charging control device 210 of the portable terminal 200 is based on the case where the temperature of the battery 240 detected by the temperature sensor 260 becomes a predetermined value or more, or based on the capacity or charging rate of the battery 240 detected by the battery sensor 250. When it is determined that the battery 240 is fully charged, the mobile terminal 200 is controlled so that power is not supplied to the battery 240, or the charging device 100 is stopped from supplying power to the mobile terminal 200, or The charging control of the battery 240 by the mobile terminal 200 is performed by instructing the power supplied to the mobile terminal 200 to be weakened.

  In step S103, the communication device 130 performs communication between the charging device 100 and the portable terminal, and obtains charging control information indicating that the portable terminal has a charging control function from the portable terminal. Processing is performed.

  Here, for example, like the mobile terminal 200 shown in FIG. 1, the mobile terminal 200 has a charge control function, and charging control information indicating that the mobile terminal 200 has a charge control function is stored in the mobile terminal. In a configuration in which transmission from the terminal 200 to the charging device 100 is possible, the communication device 130 can acquire charging control information from the mobile terminal 200 in this step S103. On the other hand, like the portable terminal 300 shown in FIG. 3, when the portable terminal 300 does not have a charge control function for controlling charging to the battery 330, or has a charge control function, When the charging control information indicating that the terminal 300 has the charging control function cannot be transmitted from the portable terminal 300 to the charging device 100, in step S103, the communication device 130 displays the charging control information. Cannot be obtained from the mobile terminal 300. Similarly, in step S <b> 103, the communication device 130 cannot acquire charging control information from the portable terminal 400.

  In step S104, the control device 110 determines whether or not the mobile terminal has a charge control function. For example, the control device 110 can acquire mobile terminal information indicating that the mobile terminal 200 has a charge control function from the mobile terminal 200 in step S103 as in the mobile terminal 200 shown in FIG. In step S106, the mobile terminal 200 determines that the mobile terminal 200 has a charge control function, and proceeds to step S106 to set the charge control flag to OFF. On the other hand, as in the portable terminal 300 shown in FIG. 3 or the portable terminal 400 shown in FIG. 4, the control device 110 has a charging control function from the portable terminals 300 and 400 in step S103. If it is not possible to acquire the charging control information indicating that the mobile terminal 300 or 400 has a charge control function, the mobile terminal 300 or 400 determines that the mobile terminal 300 or 400 does not have a charge control function. Set to.

  In step S107, the control device 110 determines whether or not a predetermined first time has elapsed since power supply to the mobile terminal was started in step S102. Here, the predetermined first time is, for example, the mobile terminal 200 having the charge control function shown in FIG. 1 or the mobile terminal 300 not having the charge control function shown in FIG. 3 or FIG. , 400 is a time during which charging of the mobile terminal can be performed safely without charging the battery due to heat generation of the mobile terminal, for example, when charging within the predetermined first time. . In addition, when communication can be performed between the charging device 100 and the portable terminal 200 as in the portable terminal 200 illustrated in FIG. 1, the predetermined first time is changed based on the charging information received from the portable terminal 200. It can also be set as the structure to do. If the predetermined first time has elapsed since the start of power supply to the mobile terminal, the process proceeds to step S108. On the other hand, if the predetermined first time has not elapsed since the start of power supply to the mobile terminal. The process proceeds to step S112.

  In step S108, the control device 110 determines whether or not a predetermined second time has elapsed since power supply to the mobile terminal was started in step S102. Here, the predetermined second time is a time longer than the predetermined first time described above. For example, as shown in FIG. 1, even if the mobile terminal 200 has a charge control function, When the battery is charged beyond the predetermined second time, it is a time when the battery may be damaged due to heat generation of the mobile terminal 200. If the predetermined second time has elapsed since the start of power supply to the mobile terminal, the process proceeds to step S110, and the charge of the mobile terminal is stopped for the safety of the charge of the mobile terminal, while the power supply to the mobile terminal is If the predetermined second time has not elapsed since the start, the process proceeds to step S109.

  For example, if the mobile terminal is a mobile terminal 300 or 400 that does not have a charging control function as shown in FIG. 3 or FIG. 4, a predetermined first time after power supply to the mobile terminal 300 or 400 is started. After the elapse of time (step S107 = Yes), even if the predetermined second time has not elapsed since the start of power supply to the mobile terminals 300 and 400 (step S108 = No), the control device 110 is determined in step S109. Thus, it is determined that the charge control flag is on (step S109 = Yes), the process proceeds to step S110, the power supply to the mobile terminals 300 and 400 is stopped by the control device 110, and the charging of the mobile terminals 300 and 400 is stopped. The Thereby, in this embodiment, about the portable terminal 300,400 which cannot recognize whether the charging apparatus 100 has a charge control function, the portable terminal 300,400 does not actually have a charge control function. Even in this case, the mobile terminals 300 and 400 can be charged safely.

  Further, for example, when the mobile terminal is a mobile terminal 200 having a charging control function as shown in FIG. 1, a predetermined first time has elapsed since the start of power supply to the mobile terminal 200. After (step S107 = Yes), the charging control flag is turned off by the control device 110 in step S109 until a predetermined second time elapses after power supply to the portable terminal 200 is started (step S108 = No). (Step S109 = No), the process proceeds to Step S112. On the other hand, even if it is the portable terminal 200 which has a charge control function, if predetermined | prescribed 2nd time passes after the electric power feeding with respect to the portable terminal 200 is started (step S108 = Yes), it will progress to step S110 and will be controlled. 110, power supply to the mobile terminal 200 is stopped, and charging of the mobile terminal 200 is stopped. Thereby, in this embodiment, even if it is a case where the portable terminal 200 cannot perform charge control of this portable terminal 200 appropriately by failure of a charge control function etc., for example, power supply with respect to the portable terminal 200 is started. When the predetermined second time has elapsed, charging of the mobile terminal 200 is stopped, so that the mobile terminal 200 can be charged more safely.

  When power supply to the mobile terminal is stopped in step S110 and charging of the mobile terminal is stopped, the process proceeds to step S111, and the control device 110 determines whether or not the mobile terminal is removed from the charging device 100. . For example, the control device 110 repeatedly detects the mobile terminal, and when the mobile terminal is detected, the control device 110 determines that the mobile terminal is placed on the charging device 110, and in this step S111. If the mobile terminal cannot be detected by waiting, it is determined that the mobile terminal has been removed from the charging device 110, and the process returns to step S101.

  Further, when it is determined in step S107 that the predetermined first time has not elapsed since power supply to the mobile terminal is started, or when it is determined in step S109 that the charge control flag is off. Advances to step S112. In step S112, the control device 110 determines whether or not the temperature of the mobile terminal detected by the temperature sensor 150 exceeds a predetermined first temperature. Here, the predetermined first temperature is, for example, as shown in FIG. 1, even if the portable terminal 200 has a charge control function, as shown in FIG. 3 or FIG. Even if the portable terminal 300 or 400 does not have, if the temperature of the portable terminal is equal to or lower than the predetermined first temperature, the battery is not damaged due to heat generation of the portable terminal, and the portable terminal can be charged safely. Temperature. When the temperature of the portable terminal exceeds the predetermined first temperature, the process proceeds to step S113, whereas when the temperature of the portable terminal does not exceed the predetermined first temperature, the process proceeds to step S115.

  In step S113, the control device 110 determines whether or not the temperature of the mobile terminal detected by the temperature sensor 150 exceeds a predetermined second temperature. Here, the predetermined second temperature is a temperature higher than the first temperature described above. For example, as shown in FIG. 1, even if the mobile terminal 200 has a charging control function, the mobile terminal When the temperature of 200 exceeds the predetermined second temperature, the temperature is set such that the battery may be damaged due to heat generation of the mobile terminal. When the temperature of the portable terminal exceeds the predetermined second temperature, the process proceeds to step S110, and charging of the portable terminal is stopped. On the other hand, if the temperature of the portable terminal does not exceed the predetermined second temperature, the process proceeds to step S114.

  For example, when the mobile terminal is a mobile terminal 300 or 400 that does not have a charging control function as shown in FIG. 3 or FIG. 4, the temperature of the mobile terminal 300 or 400 exceeds a predetermined first temperature. If it is determined that the temperature of the mobile terminal 300 or 400 does not exceed the predetermined second temperature (step S113 = No), the control device 110 causes the charging control flag to be displayed in step S114. Is turned on (step S114 = Yes), the process proceeds to step S110, power supply to the mobile terminals 300 and 400 is stopped, and charging of the mobile terminals 300 and 400 is stopped. Thereby, in this embodiment, about the portable terminal 300,400 which cannot recognize whether the charging apparatus 100 has a charge control function, the portable terminal 300,400 does not actually have a charge control function. Even in this case, the mobile terminals 300 and 400 can be charged safely.

  On the other hand, when the portable terminal is a portable terminal 200 having a charging control function as shown in FIG. 1, the temperature of the portable terminal 200 exceeds a predetermined first temperature (step S112). = Yes), but if the temperature of the portable terminal 200 does not exceed the predetermined second temperature (step S113 = No), the charging control flag is off by the control device 110 in step S114. (Step S114 = No), the process proceeds to Step S115. On the other hand, even if it is the portable terminal 200 which has a charge control function, when the temperature of the portable terminal 200 exceeds predetermined 2nd temperature (step S113 = Yes), it progresses to step S110 and a portable terminal Power supply to 200 is stopped, and charging of the mobile terminal 200 is stopped. Thereby, in this embodiment, for example, even when the mobile terminal 200 cannot appropriately perform charge control of the mobile terminal 200 due to a failure of the charge control function, the temperature of the mobile terminal 200 is the predetermined second. When the temperature becomes higher than the temperature, charging of the mobile terminal 200 is stopped, so that the mobile terminal 200 can be charged more safely.

  If it is determined in step S112 that the temperature of the portable terminal is equal to or lower than the predetermined first time, or if it is determined in step S114 that the charge control flag is off, the process proceeds to step S115. move on. In step S115, the control device 110 determines whether or not the current value of the current supplied to the mobile terminal detected by the current sensor 160 exceeds a predetermined first current value. Here, the predetermined first current value is, for example, as shown in FIG. 1, even if the portable terminal 200 has a charge control function, as shown in FIG. 3 or FIG. Even if the mobile terminal 300 or 400 does not have a battery, if the current value of the current supplied to the mobile terminal is equal to or less than the predetermined first current value, the battery is not damaged due to heat generation of the mobile terminal. The current value allows safe charging of the mobile terminal. If the current value supplied to the mobile terminal exceeds the predetermined first current value, the process proceeds to step S116. On the other hand, if the current value of the current supplied to the mobile terminal does not exceed the predetermined first current value, the process proceeds to step S119, and in step S119, the current supplied to the mobile terminal is controlled by the control device 110. Electric power is supplied to the mobile terminal without changing the current value to the current value.

  In step S116, the control device 110 determines whether or not the current value of the current supplied to the mobile terminal detected by the current sensor 160 exceeds a predetermined second current value. The predetermined second current value is a current value higher than the first current value described above. For example, as shown in FIG. 1, even if the mobile terminal 200 has a charge control function, the mobile terminal When the current value of the current supplied to 200 exceeds the predetermined second current value, the temperature is set to a temperature at which the battery may be damaged due to heat generated by the mobile terminal. If the current value of the current supplied to the mobile terminal exceeds the predetermined second current value, the process proceeds to step S118, and the current of the current supplied to the mobile terminal by the control device 110 in step S118. Value is limited. Specifically, when the current value of the current supplied to the mobile terminal exceeds a predetermined second current value, the mobile terminal does not have a charge control function, or the charge control function fails. The current value of the current supplied to the mobile terminal is limited to, for example, the same value as the first current value described above or a value about 10% lower than the first current value. On the other hand, if the current value of the current of the mobile terminal does not exceed the predetermined second current value, the process proceeds to step S117.

  In step S117, the control device 110 determines whether or not the charge control flag is on. If the charge control flag is on, the process proceeds to step S118, while the charge control flag is off. In the case, the process proceeds to step S119. That is, when the current value of the current supplied to the mobile terminal exceeds a predetermined first current value, as shown in FIG. 3 or FIG. 4, the mobile terminal 300, which does not have a charge control function, For 400, even if the current value of the current supplied to the mobile terminal does not exceed the predetermined second current value, the process proceeds to step S119, and the current value of the current supplied to the mobile terminal 300, 400 is limited. The On the other hand, as shown in FIG. 1, for the portable terminal 200 having the charge control function, the process proceeds to step S118 until the current value of the current supplied to the portable terminal 200 exceeds a predetermined second current value. The power supply to the mobile terminal 200 is performed without changing the current value of the current supplied to the mobile terminal.

  In step S120, control device 110 determines whether the battery of the mobile terminal is fully charged. For example, the control device 110 receives charging information such as the capacity and charging rate of the battery of the portable terminal from the portable terminal via the power transmission coil 120 at predetermined intervals, and the received charging information of the battery of the portable terminal is received. Based on this, it is determined whether or not the battery of the mobile terminal is fully charged. If it is determined that the battery of the mobile terminal is fully charged, the process proceeds to step S121, and the charging of the mobile terminal is terminated by the control device 110, and in step S122, the control device 110 causes the mobile terminal to A notification that charging has been completed is performed. Note that the notification that charging of the mobile terminal has ended in step S122 is displayed, for example, on a monitor (not shown) provided in the charging apparatus 100 that charging of the mobile terminal has ended, or provided in the charging apparatus 100. It is good also as a structure which makes a speaker (not shown) output the sound to the effect that the charge of the portable terminal is completed, or the information that the charge of the portable terminal is finished is transmitted via the power transmission coil 120 to the portable terminal. It is good also as a structure which carries out by notifying that the charge of this portable terminal was transmitted to the portable terminal.

  On the other hand, if it is determined in step S120 that the battery 240 is not fully charged, the process proceeds to step S123. For example, charging of the mobile terminal 200 is completed by a monitor (not shown) provided in the charging device 100. The charging information such as the time until the current time and the current capacity of the mobile terminal 200 is displayed. In the present embodiment, the charging device 100 receives charging information such as the remaining capacity of the battery from the mobile terminal at predetermined intervals, and the mobile terminal 200 is based on the received charging information such as the remaining capacity of the battery. The charging information such as the time until the charging is completed and the current capacity of the mobile terminal 200 is displayed. Then, after the charging information is displayed in step S123, the process returns to step S107, and the above-described charging control of the portable terminal is repeatedly performed.

  As described above, the charging apparatus 100 according to the present embodiment operates.

  As described above, the charging device 100 according to the present embodiment determines whether or not the mobile terminal has a charge control function for safely charging the battery of the mobile terminal, for example, FIG. 3 or FIG. As shown in FIG. 4, when the mobile terminals 300 and 400 do not have a charge control function, the charging time of the mobile terminal, the temperature of the mobile terminal, and the current value of the current supplied to the mobile terminal are respectively The charging of the mobile terminals 300 and 400 is controlled so as to be equal to or lower than predetermined values (first time, first temperature, and first current) at which the mobile terminal can be safely charged. As a result, as shown in FIG. 3 or FIG. 4, even when the mobile terminals 300 and 400 do not have a charge control function, it is possible to effectively prevent damage to the battery due to heat generated by the mobile terminals 300 and 400. Thus, the charging of the mobile terminals 300 and 400 by the charging device 100 can be performed safely.

  In the present embodiment, as shown in FIG. 1, when the mobile terminal 200 has a charge control function, the charging time of the mobile terminal, the temperature of the mobile terminal, and the current supplied to the mobile terminal Until the current value exceeds a predetermined value (second time, second temperature, and second current value) at which it can be determined that the charge control function of the mobile terminal has failed, the charge control function that the mobile terminal 200 has Therefore, the mobile terminal 200 can be charged appropriately, so that the mobile terminal 200 can be charged efficiently in a short time. Even when the mobile terminal 200 has a charge control function, the charge control function determines the charge time of the mobile terminal 200, the temperature of the mobile terminal 200, and the current value of the current supplied to the mobile terminal 200. When a predetermined value (second time, second temperature, and second current value) that can be determined as a failure is exceeded, the charging device 100 stops power supply to the portable terminal 200 and charges the portable terminal 200. By stopping, even when the charging control function of the mobile terminal 200 is out of order, the mobile terminal 200 can be charged safely.

  Furthermore, in the present embodiment, even when a foreign object such as a coiled clip is mixed between the mobile terminal 200 and the charging device 100, the charging device 100 performs charging control so that power is supplied from the charging device 100. Even when the current that is generated becomes an overcurrent or when abnormal heat generation occurs, the charging of the mobile terminal 200 can be stopped, so that the mobile terminal 200 can be charged safely.

  The embodiment described above is described for facilitating understanding of the present invention, and is not described for limiting the present invention. Therefore, each element disclosed in the above embodiment is intended to include all design changes and equivalents belonging to the technical scope of the present invention.

  For example, in the above-described embodiment, the configuration including the single power transmission coil 120 is illustrated as illustrated in FIG. 1, but is not illustrated in this configuration. For example, as illustrated in FIG. It is good also as a structure provided with the power transmission coil 120. FIG. For example, the charging device 100a illustrated in FIG. 5 includes three power transmission coils 120a to 120c, and the mobile devices 200 are respectively detected by the control devices 110a to 110c corresponding to the power transmission coils 120a to 120c. The control devices 110 a to 110 c that detect the terminal 200 can perform the above-described power feeding to the mobile terminal 200 and the charging control for controlling the charging of the mobile terminal 200. In the example illustrated in FIG. 5, the scene in which the mobile terminal 200 is detected by the control device 110a is illustrated. However, for example, in the control devices 110b and 110c, when another mobile terminal 200 is detected. Are simultaneously controlled by the control devices 110a, 110b, and 110c to supply power to the mobile terminals 200 and to charge the mobile terminals 200.

  Moreover, although embodiment mentioned above illustrated the structure which detects the portable terminal 200 by detecting the magnetic coupling of the power transmission coil 120 of the charging device 100 and the receiving coil 220 of the portable terminal 200, it is limited to this structure. For example, when a charging start switch included in the charging device 100 is turned on by the user of the mobile terminal 200, or when optical communication such as infrared communication is performed between the charging device 100 and the mobile terminal 200, or The mobile terminal 200 may be detected when the mobile terminal 200 matching the shape of the recess is placed in the recess having a predetermined shape formed in the charging device 100.

  Further, in the above-described embodiment, the temperature of the battery of the mobile terminal is detected, and power is supplied to the mobile terminal based on whether or not the detected battery temperature exceeds a predetermined value (predetermined first temperature and second temperature). However, the present invention is not limited to this configuration. For example, the temperature rise rate of the battery of the mobile terminal is detected, and whether or not the detected temperature rise rate of the battery of the mobile terminal exceeds a predetermined value. On the basis of this, the power supply to the mobile terminal may be controlled.

DESCRIPTION OF SYMBOLS 100 ... Charging apparatus 110 ... Control apparatus 120 ... Power transmission coil 130 ... Communication control 150 ... Temperature sensor 200 ... Portable terminal 210 ... Charge control apparatus 220 ... Power receiving coil 240 ... Battery 250 ... Battery sensor 260 ... Temperature sensor

Claims (9)

A detection unit for detecting a mobile terminal to be charged;
A power feeding unit that feeds power to the mobile terminal detected by the detection unit;
A determination unit for determining whether or not the mobile terminal has a charge control function for controlling charging of a battery provided in the mobile terminal;
A charging device for a mobile terminal, comprising: a control unit that causes the power supply unit to change a power supply operation for the mobile terminal based on whether or not the mobile terminal has the charge control function. The mobile terminal charging device according to claim 1,
If the mobile terminal has the charge control function when the determination unit can acquire charge control information indicating that the mobile terminal has the charge control function from the mobile terminal, A charging device for a portable terminal, characterized by: The mobile terminal charging device according to claim 1 or 2,
The charging control function is a function of controlling charging of a battery provided in the mobile terminal based on a temperature of a battery provided in the mobile terminal. apparatus. It is a charging device of the portable terminal in any one of Claims 1-3,
The charging control function is a function of controlling charging of the battery provided in the portable terminal based on a capacity of the battery provided in the portable terminal. apparatus. The mobile terminal charging device according to any one of claims 1 to 4,
The charging control function controls charging of a battery included in the mobile terminal of the mobile terminal based on a current ratio of the battery capacity of the mobile terminal to a capacity of the battery of the mobile terminal when fully charged. A charging device for a portable terminal, which is a function. A mobile terminal charging device according to any one of claims 1 to 5,
When the mobile terminal has the charging control function, the control unit causes the power supply unit to store the mobile terminal when a predetermined first time has elapsed after power supply to the mobile terminal is started. When power supply to the terminal is stopped and the mobile terminal does not have the charging control function, when a second time shorter than the first time has elapsed since the start of power supply to the mobile terminal The charging device for a mobile terminal, wherein the power supply unit stops power supply to the mobile terminal. It is a charging device of the portable terminal in any one of Claims 1-6,
When the portable terminal has the charge control function, the control unit supplies power to the portable terminal when the temperature of the portable terminal exceeds a predetermined first temperature. When the portable terminal does not have the charge control function, the portable terminal is connected to the power supply unit when the temperature of the portable terminal exceeds a second temperature lower than the first temperature. The portable terminal charging device is characterized in that power supply to the mobile phone is stopped. It is a charging device of the portable terminal in any one of Claims 1-7,
When the mobile terminal has the charging control function, the control unit supplies the power supply so that a current value of a current supplied to the mobile terminal does not exceed a predetermined first current value. When the portable terminal does not have the charging control function, the current value of the current fed to the portable terminal is greater than the first current value. A charging device for a mobile terminal, wherein the power supply unit supplies power to the mobile terminal so as not to exceed a small second current value. It is a charging device of the portable terminal in any one of Claims 1-8,
The power supply unit includes a power transmission coil, and supplies power to the mobile terminal by induced electromotive force caused by mutual induction between the power transmission coil and a power reception coil included in the mobile terminal. Charging device.

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