JP2019071790A - Power transmission apparatus and control method therefor, and program - Google Patents

Abstract

To control the amount of electric power transmitted for each power reception apparatus according to the residue of a battery in wireless power transmission.SOLUTION: The power transmission apparatus, capable of being driven by a battery as well as transmitting electric power to one or more power reception apparatuses, acquires information for identifying each of one or more power reception apparatuses from the same and determines the amount of electric power to be supplied to each of one or more reception apparatuses on the basis of a total sum of allowable amount of electric power transmitted to each of one or more power reception apparatuses defined based on the information and the residual quantity of the battery. The power transmission apparatus transmits electric power to one or more power reception apparatuses according to the determined amount of electric power.SELECTED DRAWING: Figure 2

Description

  The present invention relates to wireless power transfer technology.

  In recent years, technical development of a wireless power transmission system has been widely performed. Patent Document 1 describes a power transmission system in which a power transmission device transmits power to a plurality of power reception devices. Patent Document 1 describes that charging is completed early by lengthening the power transmission time to a power receiving device with high priority based on priority information of the power receiving device.

JP, 2011-019291, A

  Here, when the power transmission device is driven by a battery, the remaining battery capacity of the power transmission device decreases according to the power transmission to the plurality of power reception devices, and the transmittable power transmission amount also decreases. In this case, by continuing the power transmission to the power receiving device where the power transmission device is present, power can not be transmitted to the other power receiving device. At this time, for example, when there is a power receiving apparatus that wants to transmit power preferentially, there is a problem that the remaining battery capacity may be reduced by supplying power to other power receiving apparatuses, and power may not be transmitted to the power receiving apparatus to be prioritized. .

  The present invention has been made in view of the above problems, and it is an object of the present invention to control the amount of power to be transmitted for each power receiving device according to the remaining battery power in wireless power transmission.

  In order to achieve the above object, a power transmission device according to the present invention is a power transmission device capable of being driven by a battery and transmitting electric power to one or more power reception devices, from the power reception device to the one or more power reception devices. Acquisition means for acquiring information for identifying each of the power receiving devices, a sum of allowable amounts of power to be transmitted to each of the one or more power receiving devices determined based on the information, and the remaining amount of the battery Determining means for determining an amount of power to be transmitted to each of the one or more power receiving devices, and a power transmitting means for transmitting power to the one or more power receiving devices according to the determined amount of power And.

  According to the present invention, in wireless power transmission, it is possible to control the amount of power to be transmitted for each power receiving device according to the remaining battery capacity.

A figure showing an example of system configuration. The block diagram which shows the function structural example of a power transmission apparatus. The figure which shows the example of the information memorize | stored in a power transmission amount memory | storage part. FIG. 5 is a diagram showing an example of information stored in a control storage unit of the first embodiment. FIG. 3 is a diagram illustrating transition of information stored in a power transmission management unit of the first embodiment. FIG. 6 is a diagram illustrating transition of information stored in a determination storage unit of the first embodiment. FIG. 6 is a diagram illustrating transitions of information stored in the distribution storage unit of the first embodiment. FIG. 5 is a sequence diagram showing a flow of power transmission processing of the first embodiment. 5 is a flowchart showing the flow of processing in the classification unit of the first embodiment. 5 is a flowchart showing the flow of processing in the determination unit of the first embodiment. 5 is a flowchart showing the flow of processing in the distribution unit of the first embodiment. FIG. 7 is a diagram showing an example of information stored in a control storage unit of the second embodiment. FIG. 7 is a diagram illustrating transition of information stored in a power transmission management unit of the second embodiment. FIG. 8 is a diagram illustrating transitions of information stored in a determination storage unit of the second embodiment. FIG. 7 is a diagram illustrating transitions of information stored in a distribution storage unit of the second embodiment. 10 is a flowchart showing the flow of processing in the classification unit of the second embodiment. 10 is a flowchart showing the flow of processing in the determination unit of the second embodiment. 10 is a flowchart showing the flow of processing in the distribution unit of the second embodiment. 15 is a flowchart showing the flow of processing in the power reception unit of the third embodiment. 10 is a flowchart showing the flow of processing in the determination unit of the third embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings.

<< First Embodiment >>
(System configuration)
A configuration example of a wireless power transmission system according to the present embodiment is shown in FIG. FIG. 1 illustrates a system in which one power transmission device 100 transmits power to three power reception devices 101 to 103. In the present embodiment, each of the power transmission device and the power reception device holds the device ID which is the information for identifying the device and the user information of the device. In FIG. 1, the power transmission apparatus 100 has “1” as the device ID and “A” as the user information. Similarly, the power receiving apparatus 101 receives device ID "2" and user information "A", the power receiving apparatus 102 receives device ID "3" and user information "B", and the power receiving apparatus 103 receives device ID "4" and user information " A ”, respectively. Hereinafter, the power receiving apparatus 101 is referred to as a device 2, the power receiving apparatus 102 is referred to as a device 3, and the power receiving apparatus 103 is referred to as a device 4. In the present embodiment, the case where a plurality of power receiving devices exist for one power transmission device 100 will be described, but in any case where one or more power receiving devices exist for one power transmission device 100, The techniques described below can be applied.

(Configuration of power transmission device)
FIG. 2 is a block diagram showing an example of a functional configuration of the power transmission device 100 in the present embodiment. The classification unit 200 classifies the power receiving device based on the user information of the power receiving device. In the present embodiment, the classification unit 200 classifies the power receiving apparatus having the same user information as the user information of the power transmitting apparatus into the category represented by the identifier “1”, and identifies the power receiving apparatus having other user information as the identifier “0”. It shall classify | categorize into the classification represented by "." For example, in the example of FIG. 1, the classification unit 200 sets the user information of the power transmission device to A, so that the power reception devices (device 2 and device 4) whose user information is A are classified into the classification represented by the identifier “1”. Classify. On the other hand, the classification unit 200 classifies the power receiving device (device 3) whose user information is B into the classification represented by the identifier “0”.

  Note that the classification unit 200 classifies the power receiving device having predetermined user information registered in advance into the class represented by the identifier “1”, and classifies the power receiving device having user information other than that as the identifier “0”. , And other classification methods such as classification may be used. Further, in consideration of the case where the power transmission device is installed in a store, the user information may be information as to whether or not the store where the power transmission device is installed or the service provided by the store management group is registered. The classification unit 200 may classify the power receiving device based on the device ID of the power receiving device. The device ID may be a standard name of a standard to which the power receiving device conforms, and an information element that can recognize the version information thereof.

  Also, in the following description, although the power receiving device is classified, the amount of power to be transmitted to the power receiving device is determined from the upper limit value of transmission power determined according to the classification and the remaining amount of battery. Does not have to be done. That is, even if the power receiving device is identified, the upper limit value of the transmission power is determined for each power receiving device, and the amount of power transmitted for each power receiving device is determined according to the upper limit value and the remaining amount of the battery. Good. In addition, the user may input information on the power receiving device through an operation unit (not shown) of the power transmission device, and at the same time, the upper limit value of the transmission power to the power receiving device may be input. In any case, the power transmission apparatus sets an upper limit value of the transmission power for each power receiving apparatus, and determines the amount of power to be actually transmitted from the upper limit value and the remaining amount of the battery.

  The power transmission amount storage unit 201 stores the upper limit value of the power transmission amount based on the classification performed by the classification unit 200. First, the determination unit 202 uses the upper limit value of the power transmission amount stored in the power transmission amount storage unit 201 based on the upper limit value of the power transmission amount according to the classification and the battery remaining amount of the battery 208 of the power transmission device. Determine if it is possible. Further, the determination unit 202 determines whether or not the determined transmission power amount is appropriate from the sum of the transmission power amount for each of the power reception devices determined by each process described later and the battery remaining amount. Then, in accordance with the determination result, determination unit 202 determines whether to increase or decrease the amount of transmitted power for each of the power receiving devices. The determination storage unit 203 stores the information used by the determination unit 202 for the above-described determination. For example, the determination storage unit 203 stores information such as the total amount of power to be transmitted, the battery remaining amount, and the estimated remaining amount of the battery remaining after power transmission.

  The distribution unit 204 increases or decreases the amount of transmitted power to the power receiving device based on the determination of the determination unit 202, and distributes the transmitted power to the one or more power receiving devices within the range of transmittable power. Distribution storage unit 205 stores an increase / decrease amount of transmission power as a result of distribution performed by distribution unit 204 for each power receiving apparatus, each classification classified by classification unit 200, and the entire system. The power transmission management unit 206 manages the amount of transmitted power and the amount of transmitted power determined for each of the one or more power receiving apparatuses.

  The control storage unit 207 stores information serving as a trigger for the determination unit 202 and the distribution unit 204 to start processing, and the determination unit 202 and the distribution unit 204 monitor the control storage unit 207. The battery 208 serves as a power source driven by the power transmission device 100 and supplies power to be transmitted to one or more power reception devices. For example, the power transmission unit 209 has an interface for transmitting power to the power receiving device, and the power transmission device transmits power to one or more power receiving devices via the power transmission unit 209.

(Information stored in power transmission amount storage unit 201)
FIG. 3 illustrates an example of information stored in the power transmission amount storage unit 201. The classification 300 is an identifier of the classification when the classification unit 200 classifies the power receiving apparatus. The amount of transmitted power 301 is the upper limit value of the amount of transmitted power for each category. Although details will be described later, when it is considered that the battery remaining amount is equal to or more than the predetermined value even when power transmission is performed, power equal to the upper limit value is transmitted to the power receiving device. On the other hand, when it is considered that the battery remaining amount is insufficient and the estimated amount of the battery remaining amount becomes less than the predetermined value by transmitting power, power smaller than the upper limit value is transmitted to the power receiving device. The amount of transmitted power is, for example, a value indicating the ratio to the battery capacity in percentage. In addition, the numerical value which shows the electric power memorize | stored in FIG. 5, FIG. 6 and FIG. 7 mentioned later shall be shown by the percentage on the basis of the battery capacity of the battery 208 similarly to the case of FIG.

  In the present embodiment, as described above, when the classification identifier is “1” (hereinafter, referred to as “classification 1”), it indicates that the user information of the power receiving device is the same as the user information of the power transmission device. Further, in the case where the classification identifier is “0” (hereinafter referred to as “classification 0”), it indicates that the user information of the power receiving device is different from the user information of the power transmission device. At this time, FIG. 3 shows that the amount of power transmission 301 for the power receiving device of class 1 is “10%”, and the maximum amount of power of 10% of the battery capacity can be transmitted to the power receiving device. Further, in FIG. 3, the amount of power transmission 301 for the power receiving device of class 0 is “5%”. As described above, by setting the amount of power transmission 301 of class 1 to be larger than the amount of power transmission 301 of class 0, a large amount of power can be transmitted to the power receiving device having the same user information as the power transmitting device 100. As described above, by giving priority to the amount of power transmission by the classification 300, it is possible to perform power transmission processing according to the device state of the power receiving device. At this time, the classification identifier may be assigned to indicate the priority of power transmission to the power receiving apparatus belonging to the classification. For example, the larger the numerical value of the identifier, the higher the priority may be indicated.

(Information stored in control storage unit 207)
FIG. 4 shows an example of information stored in the control storage unit 207. Determination flag 400 is set to “1” when determination unit 202 should determine the validity of the amount of power transmission. The reduction flag 401 is set to “1” when the distribution unit 204 should reduce the amount of transmitted power for each of one or more power receiving devices.

(Information stored in power transmission management unit 206)
FIG. 5 is an example of information stored in the power transmission management unit 206. The device ID (501a to 501c) stores an identifier of the power receiving apparatus. Classifications 502a to 502c store identifiers of classifications for each device ID. The amount of transmitted power 503 a to 503 c stores the amount of power scheduled to be transmitted to each of the power receiving devices specified by the device ID. The transmitted power amounts 504 a to 504 c store the amount of transmitted power that has already been transmitted to each of the power receiving devices specified by the device ID.

  According to FIG. 5A, at the time when this information is stored, with regard to the device 2, the device 2 belongs to the class 1, and it is planned to transmit power equivalent to 10% of the battery capacity. It can be seen that the amount of power consumed is 0%. Similarly, with regard to the device 3, the device 3 belongs to the category 0, and it is expected that the power amount of 5% of the battery capacity is transmitted, and the already transmitted power amount is 0%.

  The power transmission management unit 206 updates the stored information by, for example, the change in the amount of power already transmitted or the transmission of power to a new power receiving apparatus as time passes. The power transmission management unit 206 updates the stored information, for example, from FIG. 5 (a) to FIG. 5 (b) and from FIG. 5 (b) to FIG. 5 (c).

(Information stored in the determination storage unit 203)
FIG. 6 shows an example of information stored in the determination storage unit 203. Classifications 600a to 600c are classification identifiers. The classified power transmission amounts 601a to 601c are obtained by totalizing the power transmission amounts stored in the power transmission management unit 206 for each classification. For example, in the case of FIG. 5A, since the power receiving device of class 1 is only device 2 and the amount of power transmission is 10%, the total value of the amount of power transmission of class 1 is 10%. The total value of the amount of power transmission is 5% (601a). On the other hand, in the case of FIG. 5 (b), since the power receiving devices of category 1 are devices 2 and 4, and the amount of power transmission is 7% and 10% respectively, the total value of the amount of power transmission of category 1 is 17%. (601 b).

  The total amount of transmitted power 602 a to 602 c is the total value of the classified amount of transmitted power 601 a to 601 c. Therefore, for example, the total power transmission amount 602a is "15" in FIG. 6A, and the total power transmission amount 602b is "19" in FIG. 6B. The battery remaining amounts 603 a to 603 c indicate the remaining amount of the battery 208. The battery remaining amounts 603a to 603c gradually decrease due to the power transmission. An estimated remaining amount 604a to 604c is an estimated value of the battery remaining amount when power indicated by the total transmitted amount 602a to 602c is transmitted, and the total transmitted amount 602a to 602c is subtracted from the remaining battery amount 603a to 603c. Value.

  The thresholds 605a to 605c are reference values of the remaining battery capacities 603a to 603c when the determination unit 202 determines the necessity of the increase or decrease of the power transmission amount. The thresholds 605 a to 605 c may be set by the user from the viewpoint of ease of use of the power transmission device 100 as an electronic device, for example. For example, when the power transmission device 100 is an electronic device with high usage frequency, the user can sufficiently secure the remaining battery power after power transmission by setting the threshold values 605a to 605c high. In the present embodiment, the threshold values 605 a to 605 c are set to the predetermined value “40” and do not change. However, the thresholds 605a to 605c may be changed, for example, during power transmission, according to the setting of the user.

  The reduction amounts 606a to 606c are values obtained by subtracting the estimated remaining amounts 604a to 604c from the threshold values 605a to 605c. If the sign of the amount of reduction required 606a to 606c is 0 or less, it means that it is not necessary to reduce the amount of power transmission because the estimated remaining amount 604a to 604c after power transmission is equal to or more than the threshold 605a to 605c. On the other hand, when the value of the required reduction amounts 606a to 606c is larger than 0, it means that the amount of power transmission needs to be reduced because the estimated remaining amount 604a to 604c after power transmission falls below the threshold 605a to 605c.

(Information stored in distribution storage unit 205)
FIG. 7 shows an example of information stored in the distribution storage unit 205. FIG. 7 shows an example of the case where the distribution storage unit 205 stores only the reduction amount when transmission power is reduced. The device IDs 700 a to 700 b indicate identifiers that identify the power receiving device. Classifications 701 a to 701 b are classification identifiers, and store the classifications corresponding to the respective power receiving devices. The reduction amounts 702a to 702b represent reduction amounts determined by the distribution unit 204, and store reduction amounts of transmission power for each of the power receiving devices.

  The classified reduction amounts 703a to 703b store the total of the reduction amounts for each classification. For example, in the case of FIG. 7A, the transmission power is reduced only for the device 3 of the category 0, and the reduction amount 702a is 2%. It becomes 0%, 2% for the classification 0. On the other hand, in the case of FIG. 7B, the transmitted power is reduced not only for the device 3 but also for the device 2 and the device 4. As a result, the sum of the amount of reduction 702b is 5% with respect to classification 1 (2.5% + 2.5% =), 2% with respect to classification 0, and the classified amount of reduction 703b is classified into classification 1 It will be 5% against and 2% against category 0.

  The total reduction amounts 704a to 704b are the total of the classified reduction amounts 703a to 703b. Further, the differences 705a to 705b are differences between the required reductions 606a to 606c and the total reductions 704a to 704b in FIG. 6, and are values obtained by subtracting the total reductions 704a to 704b from the required reductions 606a to 606c. . That is, it indicates that it is necessary to further reduce the transmission power by the amount of power indicated by the differences 705a to 705b. In the case of FIG. 7A, the required reduction amount 606a indicates that it is larger than the total reduction amount 704a by 5 and indicates that it is necessary to further reduce the power transmission amount by 5%.

(Power transmission process)
Then, the process performed with the wireless power transmission system which concerns on this embodiment is demonstrated. FIG. 8 is a sequence diagram showing a flow of power transmission processing of the present embodiment. FIG. 9 is a flowchart showing the flow of processing in the classification unit 200. FIG. 9 illustrates a process in which the classification unit 200 classifies the power receiving device based on the device ID of the power receiving device, sets the amount of power transmission according to the classification, and then prompts the determination unit to determine the validity of the amount of power transmission. ing. FIG. 10 is a flowchart showing the flow of processing in the determination unit 202 of the present embodiment, and shows the processing in which the determination unit 202 determines the battery remaining amount and the validity of the power transmission amount determined for each classification. FIG. 11 is a flowchart showing the flow of processing in the distribution unit 204 of the present embodiment, and shows processing for reducing the amount of power transmission from the low priority classification according to the priority determined for each classification by the distribution unit 204. ing.

  When the process is started, the power transmission device 100 (classification unit 200) receives a notification of the device ID "2" from the device 2 via the communication unit (not shown) (F800, S900). When receiving the notification of the device ID, the classification unit 200 determines whether the device ID is registered in the power transmission management unit 206 (S901). Here, at this point in time, it is assumed that the power transmission device 100 is not performing power transmission to any power reception device, and no device ID of any power reception device is registered. Therefore, the classification unit 200 adds “device 2” to the device ID (501a) and stores it in the power transmission management unit 206 because the device ID “2” is not registered in the power transmission management unit 206 (YES in S901). The updated information is updated (S902).

  Subsequently, the classification unit 200 receives a notification of user information from the device 2 (F801, S903). The user information may be notified together with the above-described device ID. In the present embodiment, the user information of the device 2 is “A”. The classification unit 200 compares the user information received in F801 with the user information of the power transmission device 100 (S904). In the present embodiment, since the user information of the power transmission device 100 is “A”, the user information of the device 2 matches the user information of the power transmission device 100 (YES in S904). Therefore, the classification unit 200 updates the classification of the device 2 of the information stored in the power transmission management unit 206 to "1" (S905).

  Note that, in the present embodiment, the power receiving device is classified based on whether the user information matches or not, but the present invention is not limited to this. For example, the classification may be performed according to the device type of the power receiving device or the like, for example, according to the power required to drive the device or the charge capability of the device. Also, the classification may be performed according to the group information of the power transmission device and the power reception device, the device type, the manufacturer information of the device, the frequency of use, the remaining amount of battery, or a combination thereof.

  After that, the classification unit 200 refers to the information stored in the power transmission amount storage unit 201 (S 906), and confirms the upper limit value “10” of the power transmission amount corresponding to the classification 1. Then, in the information stored in the power transmission management unit 206, the classification unit 200 updates the amount of power transmission to the device 2 to the upper limit value "10" (S908). At this time, the update of the power transmission management unit 206 corresponding to the device 2 is completed (F802).

  Next, the classification unit 200 determines whether the information stored in the power transmission management unit 206 has been updated for all of the power receiving apparatuses to which the device ID has been notified (S909). In this example, since the notification of the device ID is received from the device 3 in F 803, the update of the information on all the power receiving devices is not completed (NO in S 909). Therefore, the classification unit 200 acquires the user information of the device 3 for the device 3 in the same manner as the above-described procedure (F804), and updates the information stored in the power transmission management unit 206 (F805). In addition, since the user information of the device 3 is “B” and does not match the user information of the power transmission apparatus 100 (NO in S904), the classification is stored in the power transmission management unit 206 as “0” (S910). Since the classification of the device 3 is “0”, the upper limit value “5” of the amount of power transmission corresponding to the category 0 stored in the power transmission amount storage unit 201 in the information stored in the power transmission management unit 206 The amount of power transmission to the device 3 is updated. At this time, the information stored in the power transmission management unit 206 is as shown in FIG. 5 (a).

  After that, the update of the information stored in the power transmission management unit 206 is completed for all the power receiving devices notified of the device ID at this time (YES in S909), the classification unit 200 sets the determination flag to “1”. (S911, F806), and the process ends.

  Note that, in the present embodiment, the classification unit 200 is described to receive notification of the device ID from the power receiving device and register the power prior to transmitting power, but the present invention is not limited thereto. That is, for example, when the user of the power transmission device 100 inputs information specifying the device ID of the power receiving device via the operation unit (not shown), the classification unit 200 acquires the device ID, and the device information is obtained. It may be registered in the power transmission management unit 206. Even in this case, continuous acquisition of the device ID after registration is performed via communication.

  After that, the determination unit 202 starts the process shown in FIG. 10 in response to the determination flag becoming “1” (YES in S1000). The determination unit 202 first acquires the remaining battery level, for example, from the battery 208 (F807), and updates the item of the remaining battery level in the information stored in the determination storage unit 203 (S1001). For example, when the acquired battery remaining amount is 58%, as shown in FIG. 6A, the battery remaining amount 603a is set to "58%."

  Then, the determination unit 202 determines whether the remaining battery amount 603a is equal to or greater than the threshold 605a (S1002). This determination is performed because power transmission can not be performed if the battery remaining amount does not exceed the threshold. Therefore, if, for example, the remaining battery level is less than the threshold (NO in S1002), the determination unit 202 determines that power transmission can not be performed (S1012), and ends all the processing performed by the power transmission device related to power transmission. .

  In the present embodiment, as shown in FIG. 6A, at this point in time, the battery remaining amount 603a is 58%, so it is 40% or more of the threshold 605a (YES in S1002). At this point, the power transmission device has a remaining battery capacity of 58%, and has 18% surplus compared to 40% of the threshold, and thus transmits 18% of the battery capacity to one or more power reception devices. be able to. Therefore, the determination unit 202 determines that power can be transmitted to the device 2 and the device 3. At this stage, the determination unit 202 updates the determination flag 400 of the control storage unit 207 to 0 (S1003).

  Subsequently, the determination unit 202 determines the validity of the power transmission amount 503a in the information stored in the power transmission management unit 206 updated by the classification unit 200. Among the information stored in the determination storage unit 203, the determination unit 202 first updates information related to the amount of transmitted power, the remaining amount of battery, and the amount of reduction required (S1004 to S1007). According to FIG. 5A, the device whose classification 502a is 1 is only the device 2, and the amount of power transmission 503a is 10% of the battery capacity. Therefore, in the information stored in the determination storage unit 203, the determination unit 202 updates the classified power transmission amount 601a corresponding to the classification 1 to "10" (S1004). Similarly, according to FIG. 5A, the device whose classification 502a is 0 is only the device 3, and the amount of power transmission 503a is 5% of the battery capacity. Therefore, in the information stored in the determination storage unit 203, the determination unit 202 updates the classified power transmission amount 601a corresponding to the classification 0 to "5" (S1004). Then, the determination unit 202 adds “10” and “5” of the classified power transmission amount 601a, and updates the total power transmission amount 602a, which is the sum of the power transmission amount transmitted to the power receiving device, to “15” (S1005).

  Next, the determination unit 202 calculates the estimated remaining amount 604a of the battery after power transmission based on the battery remaining amount 603a and the total power transmission amount 602a. Specifically, the determination unit 202 subtracts 58 from 15 because the current battery remaining amount 603a is 58% and the total power transmission amount 602a is 15%, and the estimated remaining amount 604a after power transmission is set to 43. It updates (S1006).

  Then, the determination unit 202 calculates the required reduction amount 606a based on the threshold 605a and the estimated remaining amount 604a. At this time, the threshold 605 a is 40%, and the estimated remaining amount 604 a at this time is 43%. Therefore, there is a surplus of 3% with respect to the threshold 605 a of the battery remaining capacity predicted after power transmission. The determination unit 202 updates the required reduction amount 606a with “−3” as a result of subtracting 40 from 43 (S1007). By these processes, the information stored in the determination storage unit 203 is updated (F808).

  According to the updated information, since the required reduction amount 606a is 0 or less (YES in S1008), the determination unit 202 determines that the reduction of the power transmission amount is unnecessary, and the reduction flag 401 of the control storage unit 207 is set. It updates to 0 (S1009, F809). When the reduction flag 401 is 0, the power transmission amount stored in the power transmission management unit 206 can be transmitted as it is. Accordingly, the determination unit 202 starts power transmission to the device 2 and the device 3 via the power transmission unit 209 based on the power transmission amount 503a stored in the power transmission management unit 206 (F810, F811, S1010).

  Even after the power transmission is started, the device 2 and the device 3 may notify the power transmission device 100 of the device ID at a predetermined cycle. When receiving the device ID (S900), the classification unit 200 determines whether the device ID is already registered (S901). In this case, since the device IDs of the device 2 and the device 3 are already registered, the power transmission completed amount 504a in the information stored in the power transmission management unit 206 for these devices is updated (S907). Then, the power transmission amount 503a is updated by subtracting the power transmission amount 504a from the power transmission amount determined before the start of the power transmission (S908).

  Here, it is assumed that the power transmission apparatus 100 is notified of the device ID from the device 4 when transmitting power for 3% of the battery capacity to the device 2 and the device 3 (F812, S900). Then, the classification unit 200 updates the information stored in the power transmission management unit 206 by including the information on the device 4 based on the flow of FIG. 9. At this time, in the information stored in the power transmission management unit 206, as shown in the information on the device 2 and the device 3 in FIG. 5B, the transmitted amounts 504b for the device 2 and the device 3 are updated to 3 respectively. There is. Furthermore, as shown in the information on the device 2 and the device 3 in FIG. 5 (b), the amount of transmitted power 503b is also subtracted from the amount of transmitted power "10" and "5" determined before the start of power transmission Has been updated to "7" and "2". This indicates that it is planned to transmit power of 7% of the battery capacity to the device 2 and power of 2% of the battery capacity to the device 3 in the future.

  At this time, when the device ID related to the device 4 is notified, in the information stored in the power transmission management unit 206, a row in which the device ID 501b is "device 4" is added (S902). Then, the classification unit 200 acquires the user information “A” of the device 4 (S903), and since this matches the user information of the power transmission apparatus 100 (YES in S904), the classification is updated to “1” (S905) . After that, the classification unit 200 refers to the power transmission amount storage unit 201 (S 906), and updates the power transmission amount 503 b in the information stored in the power transmission management unit 206 by the upper limit value “10” of the power transmission amount to the device 4 ( S 908). After updating the information stored in the power transmission management unit 206 (F814), the classification unit 200 sets the determination flag to "1" (S911, F815), and ends the process. The information stored in the power transmission management unit 206 when the processing is completed is as shown in FIG.

  The update of the information stored in the power transmission management unit 206 related to the device 2 and the device 3 may be performed when the device ID of the device 4 is notified. That is, the device IDs of the device 2 and the device 3 may not be notified periodically. In this case, after the registration of the information on the device 4 is completed, the classification unit 200 determines whether the update of the device 2 and the device 3 has been performed (S909), and relates to the device ID not updated (NO in S909). Information may be updated.

  Subsequently, since determination flag 400 is updated to 1, determination unit 202 starts determining whether power transmission is possible based on the amount of power transmission in the information stored in power transmission management unit 206 (YES in S1000). When the process is started, the determination unit 202 acquires the remaining battery level from the battery 208 (F816), and updates the remaining battery level in the information stored in the determination storage unit 203 (S1001). At this point in time, the power transmission apparatus 100 transmits power of 3% of the battery capacity to the device 2 and the device 3, respectively. Therefore, 58% to 6% of the battery remaining amount 603a before the start of power transmission The battery level is 52%. Therefore, the determination unit 202 updates the battery remaining amount 603b to 52 (S1001). At this point, the battery remaining amount exceeds the threshold (YES in S1002), and there is a surplus of 12% as compared to 40% of the threshold.

  Subsequently, the determination unit 202 refers to the information (FIG. 5B) stored in the power transmission management unit 206, and determines whether the power transmission amount 503b updated by the classification unit 200 can be actually transmitted. The determination unit 202 first clears the determination flag (S1003), and then updates the information stored in the determination storage unit 203 (S1004 to S1007).

  According to FIG. 5B, the power receiving devices belonging to class 1 are two devices 2 and 4, the power transmission amount 503b of the device 2 is 7%, and the power transmission amount 503b of the device 4 is 10%. The total is 17%. Therefore, in the information stored in the determination storage unit 203, the determination unit 202 updates the classified power transmission amount 601b corresponding to the classification 1 to "17" (S1004). Further, according to FIG. 5B, the device belonging to the class 0 is only the device 3, and the power transmission amount 503b is 2%. Therefore, in the information stored in the determination storage unit 203, the determination unit 202 updates the classified power transmission amount 601b corresponding to the classification 0 to "2" (S1004). Then, the determination unit 202 adds “17” and “2” of the classified power transmission amount 601b, and updates the total power transmission amount 602b to “19” (S1005).

  Next, the determination unit 202 calculates an estimated remaining amount 604b after power transmission based on the battery remaining amount 603b and the total power transmission amount 602b. Since the current battery remaining amount 603b is 52% and the total power transmission amount 602b is 19%, the determination unit 202 updates the estimated remaining amount 604b after power transmission to a value “33” obtained by subtracting 19 from 19 (S1006). Then, the determination unit 202 calculates the required reduction amount 606b based on the threshold 605b and the estimated remaining amount 604b. Here, since the threshold 605b is 40% and the estimated remaining amount 604b is 33%, the determination unit 202 subtracts 40 from 33 and updates the reduction amount necessary 606b to 7 (S1007). This indicates that the battery remaining capacity expected after power transmission is 7% smaller than the threshold 605a. At this time, the determination unit 202 ends the update of the determination storage unit (F817).

  At this time, since the reduction amount required 606b is “7” and is larger than 0 (NO in S1008), the determination unit 202 determines that the reduction of the power transmission amount is necessary, and is stored in the control storage unit 207. Among the information, the reduction flag 401 is updated to "1" (S1011, F818). Then, the determination unit 202 ends the determination process.

  Since the reduction flag 401 is set to “1”, the distribution unit 204 starts the process shown in FIG. 11 (YES in S1100). The distribution unit 204 performs a process of reducing the amount of power transmission 503 b in order to reduce the amount of power stored in the required reduction amount 606 b of the determination storage unit 203.

  The distribution unit 204 first selects a classification to be reduced in power. The distribution unit 204 selects, for example, the classification with the lowest priority in terms of power distribution at the time of power transmission. At this time, the priority is a value that decreases as the amount of transmitted power decreases, and increases as the amount of transmitted power increases. For example, when the distribution unit 204 indicates that the priority is higher as the value of the classification identifier is larger, the distribution unit 204 refers to the information stored in the power transmission amount storage unit 201 (FIG. 3), and the classification 0 which is the minimum value of the classification identifier. Is selected (S1101). Subsequently, the distribution unit 204 determines whether the required reduction amount 606b can be reduced when all the power transmission amounts to the devices belonging to the selected classification are reduced. For this determination, the distribution unit 204 first acquires the value “7” of the reduction amount required 606 b in the information stored in the determination storage unit 203, and the information stored in the distribution storage unit 205 is a difference. The value is updated to "7" (S1102).

  Next, the distribution unit 204 acquires the value “2” of the classified power transmission amount 601b of category 0 in the information stored in the determination storage unit 203 (S1103), and stores the value “D” of the difference stored in the distribution storage unit 205. 7 ”(S1104). In this case, the difference "7" is larger than the value "2" of the classified transmission amount 601b (NO in S1104). This indicates that even if the amount of power transmission is reduced to 0 for all the devices of class 0, it is still necessary to reduce the amount of power transmission for another class (in this case, class 1). In this case, the distribution unit 204 first performs updating of the information on the amount of power transmission for class 0.

  The distribution unit 204, as shown in FIG. 5C, of the information stored in the power transmission management unit 206 corresponds to the amount of power transmission 503c corresponding to the device 3, "2" of the amount of power transmission 503b in FIG. 5B. Are updated to "0" (S1105). Then, the distribution unit 204 updates the classified power transmission amount 601c corresponding to the classification 0 in the information stored in the determination storage unit 203 to “0” as shown in FIG. 6C (S1106).

  In this case, the amount of power transmission to the device 3 is reduced by 2 from “2” to “0”. Therefore, as illustrated in FIG. 7A, the distribution unit 204 updates the reduction amount 702a corresponding to the device 3 to “2” in the information stored in the distribution storage unit 205 (S1107). Further, the distribution unit 204 updates the classified reduction amount classified by category 0 to “2” in the information stored in the distribution storage unit 205 according to the update of the reduction amount 702a (S1108), and the total reduction amount 704a. Is updated to “2” which is the sum of the classified reduction amounts 703a (S1109). Then, the distribution unit 204 updates the difference 705a to "5" which is the result of subtracting "2" of the total reduction amount 704a from "7" stored in S1102 (S1110).

  The information stored in the distribution storage unit 205 at this point is as shown in FIG. 7A. According to FIG. 7A, the power transmission amount of the device 3 belonging to the class 0 is reduced by 2%, and the difference 705a is 5. Therefore, it is understood that it is necessary to reduce the transmission power for 5% of the battery capacity shown in the difference 705a from the transmission power for category 1. Therefore, the distribution unit 204 increments the classification identifier from 0 to 1 (S1111), and subsequently acquires the value “17” of the classified transmission power amount 601b of classification 1 in the information stored in the determination storage unit 203. (S1103). Since “17” which is the classified power transmission amount 601b of class 1 is larger than “5” which is the difference 705a (YES in S1104), the process proceeds to S1112.

  The distribution unit 204 divides the difference 705a by the number of devices belonging to the classification 1 (S1112). According to FIG. 7A, there are two devices belonging to category 1: device 2 and device 4. Therefore, the distribution unit 204 divides "5", which is the difference 705a, by "2" to obtain "2.5". According to the result, the distribution unit 204 updates the reduction amounts 702b of the devices 2 and 4 to "2.5" as shown in FIG. 7B (S1113). In response to the update of the reduction amount 702b, the distribution unit 204 sets the classified reduction amount 703b of category 1 to “5” which is the total of the reduction amounts 702b of the devices of category 1 as shown in FIG. 7B. It updates (S1114). Further, the distribution unit 204 updates the total reduction amount 704b to “7” which is the sum of the classified reduction amounts 703b (S1115). Then, the distribution unit 204 updates the difference 705 b to “0” which is the result of subtracting “7” of the total reduction amount 704 b from “7” stored in S 1102 (S 1116).

  Then, the distributing unit 204, as shown in FIG. 5C, in the information stored in the power transmission managing unit 206, the power transmission amount for the device 2 and the device 4 is the power transmission amount before reduction (FIG. 5B). The power transmission amount 503b) is updated to a value obtained by subtracting the reduction amount 702b of FIG. 7B (S1117). The information stored in the power transmission management unit 206 at this time is as shown in FIG. FIG. 5C shows that the amount of transmitted power 503c for the device 2 is 4.5%, and the amount of transmitted power 503c for the device 4 is 7.5%. When the power transmission amount is updated, the distribution unit 204 updates the reduction flag 401 to “0” (S1118), updates the determination flag 400 to “1” (S1119), and ends the process.

  In the present embodiment, although it has been described that the amount of power transmission for a low priority class is reduced to zero, it may be reduced only to a predetermined amount. That is, for example, when the reduction power is insufficient even if the transmission power is reduced to a predetermined amount for the low priority classification with the minimum amount of power transmission as the predetermined amount, the transmission power amount for another classification is It may be reduced. For example, when the predetermined amount is 0.5%, the transmission energy amount of class 0 is reduced by 1.5%, which is a value obtained by subtracting the predetermined amount from the value “2” of the classified power transmission amount of class 0 It may be possible to And about the remaining 5.5%, you may make it reduce the transmission electric power with respect to the classification 1 in the range from which transmission electric power will be 0.5% or more.

  In response to the determination flag 400 being updated to “1” (YES in S1000), the determination unit 202 executes the process shown in FIG. 10 again. First, the determination unit 202 acquires the battery remaining amount (F820), and updates the value of the battery remaining amount 603c in the information stored in the determination storage unit 203 (S1001). When the determination unit 202 detects that the determination flag 400 has become “1” subsequent to setting the reduction flag 401 to “1”, the determination unit 202 does not acquire and update the remaining battery level. It is also good. It is known that the distribution unit 204 sets the determination flag 400 to “1” before actual power transmission after the reduction flag 401 is set to “1”, and the battery during the process of the distribution unit 204 This is because it is considered that the remaining amount does not greatly fluctuate.

  Subsequently, the determination unit 202 determines whether power transmission with the amount of power transmission 503 c in the information stored in the power transmission management unit 206 updated by the classification unit 200 is possible. Here, the devices of category 1 are the device 2 and the device 4, and as shown in FIG. 5C, in the information stored in the power transmission management unit 206, the amount of power transmission 503c for the device 2 is 4.5%. The power transmission amount 503c for the device 4 is 7.5%. Therefore, as shown in FIG. 6C, the determination unit 202 adds the classified power transmission amount 601c corresponding to the classification 1 to the total of the power transmission amounts 503c of the devices 2 and 4 in the information stored in the determination storage unit 203. It updates to "12" which is (S1004). Further, the device of class 0 is only the device 3, and as shown in FIG. 5C, in the information stored in the power transmission management unit 206, the amount of power transmission 503c to the device 3 is 0%. Therefore, as illustrated in FIG. 6C, the determination unit 202 updates the classified power transmission amount 601c corresponding to the classification 0 to “0” in the information stored in the determination storage unit 203 (S1004). Then, the determination unit 202 adds “12” and “0” of the classified power transmission amount 601c in the information stored in the determination storage unit 203 as shown in FIG. 6C, and adds “total power transmission amount 602c It updates to 12 "(S1005).

  Further, the determination unit 202 calculates the estimated remaining amount 604c of the battery after power transmission based on the battery remaining amount 603c and the total power transmission amount 602c. In this case, since the current battery remaining amount 603c is 52% and the total power transmission amount 602c is 12%, the determination unit 202 updates the estimated remaining amount 604c after power transmission to “40” (S1006). Then, the determination unit 202 calculates the required reduction amount 606c based on the threshold 605c and the estimated remaining amount 604c. At this time, since the threshold 605 c is 40% and the estimated remaining amount 604 c is 40%, the determination unit 202 updates the reduction amount required 606 c to “0” (S 1007), and the information stored in the determination storage unit 203 The update is ended (F821).

  At this time, since the required reduction amount 606c is 0 or less (YES in S1008), the determination unit 202 determines that the reduction of the power transmission amount is unnecessary, and sets the reduction flag to "0" (S1009, F822). Then, the determination unit 202 starts power transmission to the device 2 and the device 4 via the power transmission unit 209 based on the power transmission amount 503c of the power transmission management unit 206 (F823 and F824).

  As described above, the power transmission device 100 according to the present embodiment classifies one or more power reception devices based on user information of the power reception device. Then, the power transmission device 100 determines the amount of power to be transmitted to the one or more receiving devices based on the upper limit value of the power transmission amount determined based on this classification and the battery remaining amount that changes due to the power transmission. Distribute. Thus, in the wireless power transmission system that transmits power to one or more power receiving devices, it is possible to control the amount of power transmission for each power receiving device while preventing the battery of the power transmission device from running out.

  In the above description, the case where there are a plurality of power receiving devices has been described, but even in the case of one power transmitting amount according to the upper limit value of the power transmission amount when transmitting power to the power receiving device and the remaining amount of battery. It may be determined. For example, it is assumed that the classification of one power receiving device is 1 and the upper limit value of the amount of power transmission is 10, and the battery remaining amount of the power transmitting device is 48 and the threshold is 40. In this case, when the power transmission device transmits the power amount of the upper limit value to the power reception device, the estimated value of the remaining battery amount is 38, which is less than the threshold. Therefore, in this case, the amount of power transmission may be determined so as to transmit the amount of power of 8 to the power receiving device.

<< Embodiment 2 >>
In this embodiment, in the wireless power transmission system of FIG. 1, a case where the device 2 has left the system for reasons such as removal by the user will be described.

  FIG. 12 is a diagram showing an example of information stored in the control storage unit 207 in the present embodiment. In the present embodiment, in addition to the determination flag 400 and the reduction flag 401, the control storage unit 207 stores an increase flag 1200 for increasing the reduced transmission power in accordance with the detachment of the power receiving device from the system. The determination unit 202 sets “1” in the increase flag 1200 when distributing the power scheduled to be transmitted to the detached power receiving device to another power receiving device in response to the fact that the power receiving device receiving power is disconnected from the system. Is written, otherwise "0" is written.

  FIG. 13 is a diagram showing an example of information stored in the power transmission management unit 206 in the present embodiment. FIG. 14 is a diagram showing an example of information stored in the determination storage unit 203 in the present embodiment. FIG. 15 is a diagram showing an example of information stored in the distribution storage unit 205 in the present embodiment. The distribution storage unit 205 stores total increase amounts 1503 a to 1503 b in addition to the pieces of information stored in the first embodiment. The total increase 1503 a adds the same value as the reduction of the total reduction 1502 a when the distribution unit 204 decreases the total reduction 1502 a. The difference 1504a is a value obtained by adding the total increase amount 1503a to the required reduction amount (1406a to 1406b in FIG. 14) of the transmission power. Similar to Embodiment 1, the information shown in FIGS. 13 to 15 is updated with the passage of time and in response to changes in the state of the system.

  In the present embodiment, it is assumed that the system is placed in the state after the processing in the first embodiment is performed, and the power transmission device 100 is transmitting power to the device 2 and the device 4 based on FIG. There shall be. FIG. 13A shows that the amount of power transmission 1303a to the device 2 is 3.5%, and the device 2 is scheduled to receive power transmission of 3.5% of the battery capacity in the future. Further, FIG. 13A shows that the amount of power transmission 1303a to the device 4 is 7.5%, and the device 4 is scheduled to receive power transmission of 7.5% of the battery capacity in the future.

  Subsequently, each process performed in the present embodiment will be described. FIG. 16 is a flowchart showing the flow of processing in the classification unit 200 of this embodiment. FIG. 17 is a flowchart showing the flow of processing in the determination unit 202 of this embodiment. FIG. 18 is a flowchart showing the flow of processing in the distribution storage unit 205 of this embodiment. The same reference numerals are given to the portions described in the first embodiment and the description will be omitted.

  First, the process of the classification unit 200 will be described. When the classification unit 200 of the present embodiment detects the detachment of the power receiving apparatus, the classification unit 200 updates the information stored in the power transmission management unit 206 and the distribution storage unit 205 for the power receiving apparatus. Here, as described above, it is assumed that the device 2 does not receive the power transmitted by the power transmission device 100 because the device 2 is removed by the user.

  The classification unit 200 detects that the device ID has not been received from the device 2 (NO in S1600), and determines that the device 2 has left the system (S1601). In response to this, as shown in FIG. 13B, the classification unit 200 updates the amount of transmitted power to the device 2 in the information stored in the power transmission management unit 206 (S1602). In this case, the transmitted power amount 1304 b for the device 2 is 4%. Then, in the information stored in the power transmission management unit 206, the classification unit 200 updates the power transmission amount 1303b for the device 2 from “3.5” (1303a), which is the power transmission amount before leaving, to “0”. (S1603). Next, in the information stored in the power transmission management unit 206, the transmitted power amount 1304b of the other power receiving apparatus is updated (S1004). Information stored in the power transmission management unit 206 at this time is shown in FIG. As shown in FIG. 13B, at this point, it can be understood that the power transmission device 100 is scheduled to transmit power of 6.5% of the battery capacity only to the device 4. Up to this point, the classification unit 200 completes the update of the information stored in the power transmission management unit 206.

  Next, the classification unit 200 updates the information stored in the distribution storage unit 205. At this point, the distribution storage unit 205 stores information at the time when the processing in the first embodiment is completed, so this information is as shown in FIG. 7B. The classification unit 200 updates this information in response to the removal of the device 2.

  The classification unit 200 updates the reduction amount 1500a of the device 2 to 0 (S1605), and updates the classified reduction amount 1501a corresponding to the classification 1 to 2.5, which is the total of the reduction amounts 1500a of the device 2 and the device 4 (S1606). Then, the classification unit 200 updates the total reduction amount 1502a to 4.5, which is the sum of the classification reduction amounts 1501a (S1607). After that, the classification unit 200 updates the determination flag 400 of the control storage unit 207 to “1” (S911), and ends the process.

  In response to the determination flag becoming “1” (YES in S1000), the determination unit 202 starts the process of FIG. First, the determination unit 202 acquires the remaining battery level from the battery 208, and updates the information (FIG. 14A) stored in the determination storage unit 203 (S1001). In addition, it is assumed that the battery remaining amount at this time is 50% of the battery capacity as shown in the battery remaining amount 1403a of FIG. 14 (a). Subsequently, the determination unit 202 acquires the classification 1302 b and the amount of transmitted power 1303 b from the information (FIG. 13B) stored in the power transmission management unit 206, and updates the information stored in the determination storage unit 203.

  According to FIG. 13B, the amount of transmitted power 1303 b for the device 4 belonging to the class 1 is 6.5, and the amount of transmitted power 1303 b for the device 3 belonging to the class 0 is 0. Therefore, as illustrated in FIG. 14A, the determination unit 202 updates the classified power transmission amount 1401a of class 1 to “6.5” and the classified power transmission amount 1401a of class 0 to “0” (S1004). ). Then, the determination unit 202 updates the total power transmission amount 1402a to "6.5" which is the total of the classified power transmission amount 1401a (S1005). Then, the determination unit 202 subtracts the total power transmission amount 1402a from the battery remaining amount 1403a, and updates the estimated remaining amount 1404a to "43.5" that is the subtraction result (S1006). The determination unit 202 subtracts 43.5 of the estimated remaining amount 1404a from 40, which is the threshold 1405a, and updates the required reduction amount 1406a to "-3.5" (S1007). The information stored in the determination storage unit 203 at this time is shown in FIG. According to the required reduction amount 1406a of FIG. 14A, it can be understood that there is a surplus of 3.5% with respect to the threshold when power transmission ends.

  Next, the determination unit 202 determines whether it is necessary to distribute this 3.5% of power to other devices in a subsequent flow. First, the determination unit 202 determines whether or not the power receiving apparatus has left the system (S1700). Here, since the device 2 has left the system (YES in S1700), the determining unit 202 subsequently determines whether the total reduction amount 1502a is larger than 0 (S1701). That is, at this time, it is determined whether there is a device whose power transmission amount has been reduced. When the total reduction amount is larger than 0, the above-mentioned surplus power can be distributed to the device whose power transmission amount is reduced.

  If the total reduction amount is larger than 0 (YES in S1701), the determination unit 202 then determines whether the reduction amount required is 0 (S1702). If the required reduction amount is 0 (YES in S1702), it indicates that there is no surplus power described above, so the determination unit 202 starts power transmission without performing power redistribution (S1010). On the other hand, when the required reduction amount is not 0 (NO in S1702) indicates that there is surplus power, the determination unit 202 sets the increase flag 1200 to “1” (S1703), and ends the process.

  In this example, the total reduction amount 1502a is 4.5 (YES in S1701), and the reduction amount required 1406a is “−3.5” (NO in S1702). Therefore, the determination unit 202 sets the increase flag 1200 to 1 (1703), and ends the process.

  When the reduction flag 401 is 0 (NO in S1800) and the increase flag 1200 is 1 (YES in S1801), the distribution unit 204 starts the process shown in FIG. The distribution unit 204 according to the present embodiment preferentially distributes the surplus power from the high priority classification, that is, the devices belonging to the classification 1 which is a classification having a large classification ID.

  First, the distribution unit 204 selects, from among the information stored in the distribution storage unit 205 (FIG. 15A), the device 4 of the classification 1 in which the value indicating the classification 701a is the largest (S1802).

  Further, the distribution unit 204 updates the difference 1504 a in the information stored in the distribution storage unit 205 to “−3.5” of the reduction amount 1406 a in the information stored in the determination storage unit 203 (S 1803). ). At this point, the information stored in the distribution storage unit 205 is as shown in FIG.

  The distributing unit 204 acquires 2.5 which is the classified reduction amount 1501a of the classification 1 (S1804), and compares it with 3.5 which is the absolute value of the difference 1504a (S1805). Here, the absolute value of the difference 1504a represents the surplus of power. Here, the classified reduction amount 1501a of the classification 1 is 2.5, which is smaller than 3.5, which is the absolute value of the difference 1504a (NO in S1805). Therefore, the distribution unit 204 updates the reduction amount of the device 4 corresponding to the classification 1 from "2.5" to "0" (S1806), and reduces the classified reduction amount corresponding to the classification 1 by 2.5. It is made to update to 0 (S1807).

  Here, that the reduction amount of the device 4 is reduced by 2.5 by the process of S1806 means that the power transmission amount of the device 4 is increased by 2.5. Therefore, the distribution unit 204 updates the total increase amount from 0 by 2.5, which is the reduction amount reduced by the process of S1806, and further updates the total reduction amount from 4.5 to The total amount of reduction is reduced to 2 and updated (S1808). At this point, the information stored in the distribution storage unit 205 is as shown in FIG.

  Then, the distribution unit 204 adds, in the information stored in the power transmission management unit 206, the value of the power transmission amount of the device 4 to the value so far 6.5 and 2.5 of the reduction amount reduced in S1806. The result is updated to "9" (S1809). Next, in the information stored in the determination storage unit 203, the distribution unit 204 determines, as described above, the amount of power transmission classified by category, which is the previous value of 6.5, and 2 of the reduction amount reduced in S1806. It updates to "9" which is the result of adding .5 and (S1809). Then, the distribution unit 204 updates the total transmission amount to “9” which is the sum of the classified transmission amounts. At this time point, since the amount of power transmission for the class 0 is 0, "9" obtained by adding 0 and 9 is stored as the total amount of power transmission.

  Next, in the information stored in the determination storage unit 203, the distribution unit 204 sets the value of the difference to “−3.5” which is the required reduction amount 1406a up to that point, “2. It updates to "-1" which is the result of adding 5 "(S1810). Then, the distribution unit 204 decrements the classification from classification 1 to classification 0 (S1811).

  Subsequently, the distribution unit 204 acquires “2” which is the classified reduction amount 1501 b of the classification 0 (S1804), and compares it with “1” which is the absolute value of the difference 1504 b (S1805). Since the absolute value of the difference 1504 b is smaller than the classified reduction amount 1501 b of the classification 0 (NO in 1805), the distributing unit 204 sets “1”, which is the absolute value of the difference 1504 b, to the number of devices belonging to the classification 0 (in this case) Since only the device 3 is divided by "1" (S1812). The division result of S1812 corresponds to the amount of power to be added to the amount of power transmission of the device belonging to the category 0.

  Subsequently, the distribution unit 204 subtracts “1”, which is the division result of S 1812, from “2”, which is the reduction amount 1500 b of the device 3 corresponding to the classification 0, and distributes and stores by “1” which is the result. In the information stored in the unit 205, the reduction amount is updated (S1813). After that, the distribution unit 204 updates the classified reduction amount corresponding to the classification 0 according to the update of the reduction amount (S1814). Then, the distribution unit 204 updates the total reduction amount to “1”, which is the sum of classified reduction amounts, and subtracts “1” obtained by subtracting the total increase amount in S 1813 and “1. It is updated to "3.5" which is the result of adding "5" (S1815). Then, the distribution unit 204 adds the total increase amount “3.5” updated in S1815 to “−3.5” which is the required reduction amount 1406a in the information stored in the determination storage unit 203. It is updated to "0" (S1816). At this time, the information stored in the distribution storage unit 205 is as shown in FIG.

  Then, in the information stored in the power transmission management unit 206, the distribution unit 204 adds “1”, which is the result of S1812, to “0”, which is the power transmission amount 1303 b so far, of the power transmission amount of the device 3 It is updated to "1" (S1817). At this point, the information stored in the power transmission management unit 206 is as shown in FIG.

  After the distribution unit 204 clears the increase flag to 0 (S1818), the distribution unit 204 updates the determination flag to 1 (S1819).

  In response to the determination flag 400 becoming 1, the determination unit 202 executes the process of FIG. 17 again to update the information stored in the determination storage unit 203 (S1003 to S1007). First, the determination unit 202 refers to the information stored in the power transmission management unit 206 of FIG. 13C, and sets the classified amount of power transmission to “9” for classification 1 and “1” for classification 0. It updates (S1004). Then, the determination unit 202 updates the total power transmission amount with “10” that is the sum of the classified power transmission amounts (S1005). Then, the determination unit 202 subtracts the total transmitted power amount “10” after the update from “50” which is the battery remaining amount 1403 b confirmed in advance, and the estimated remaining amount after the completion of the power transmission is “40” as a result of the subtraction. (S1006). The determination unit 202 further subtracts the updated estimated remaining amount “40” from the predetermined threshold “40”, and updates the required reduction amount to “0” (S1007). The information stored in the determination storage unit 203 at this point is as shown in FIG.

  Here, in the information of FIG. 14B, the reduction amount 1406b is “0” (YES in S1008, YES in 1702), the device 2 is detached (YES in S1700), and the information in FIG. In the above, the total reduction amount 1502c is "1" (YES in S1701). Therefore, the determination unit 202 starts power transmission based on the amount of power transmission to each device stored in the power transmission management unit 206.

  As described above, in the present embodiment, surplus power generated when the number of power receiving devices decreases is distributed to other power receiving devices whose power transmission amount has been reduced. This makes it possible to transmit as much power as possible without exceeding the upper limit value for each terminal. At this time, by increasing the transmission power from the power receiving device with high priority, it is possible to preferentially transmit sufficient power to the power receiving device to which more power should be transmitted.

<< Third Embodiment >>
In the present embodiment, in addition to the configuration of the first embodiment or the second embodiment, a case where the power transmission device has a power reception unit (not shown) will be described. The power receiving unit receives the supply of power from the power supply source (not shown), to which the power transmission device operates and power to be sent to the power reception device. In the present embodiment, the case where the power supply source is an adapter (external power supply) that converts commercial AC voltage into DC voltage will be described, but even if another power transmission device of the wireless power transmission system is a power source Good.

  A flow of processing of the power transmission device according to the present embodiment will be described. The flow of processing of the power reception unit is shown in FIG. 19, and the flow of processing of the determination unit is shown in FIG. In the following description, the flow of processing in a form added to the configuration of the second embodiment is shown, but processing in a form added to the configuration of the first embodiment may be performed.

  The power receiving unit monitors whether the power receiving unit receives power (S1900). Then, when receiving power (YES in S1900), the power receiving unit sets a power reception flag to 1 (S1901). On the other hand, when the power reception unit has not received power (NO in S1900), the power reception unit sets the power reception flag to 0 (S1902). For example, if the power reception unit is in a state of transmitting power using the power of the battery (S1010 in FIG. 17), it is determined as NO in S1900, and the adapter is connected and starts receiving power supply. It is determined YES in S1900. After that, the power transmitting apparatus shifts to the process of S1601 again, and the classification unit updates the amount of power transmission regarding all the power receiving apparatuses.

  When the process of the classification unit is completed, the determination unit subsequently determines whether the power reception flag is 1 (S2000). Then, if the power reception flag is 1 (YES in S2000), that is, if the power reception unit receives power, the determination unit executes the above-described S1004 and S1005, and thereafter, the total power transmission amount and the power transmission unit The power transmission capacity is compared (S2002). When the power transmission capacity is equal to or greater than the total power transmission amount (YES in S2002), the determination unit switches the power supply source supplied to the power transmission unit from the battery to the power reception unit by the operation of a switch (not shown). Do.

  On the other hand, when the power transmission capacity is not equal to or greater than the total power transmission amount (NO in S2002), the determination unit updates the reduction amount required (S2003). The required reduction amount at this time is a value obtained by subtracting the transmission capacity from the total transmission amount. Subsequently, after the determination unit updates the reduction flag to 1 and ends the process, the process of the distribution unit in FIG. 11 is performed. When the process of the distribution unit shown in FIG. 11 is completed, the process proceeds to the process of FIG. 20 again, and the determination unit operates. The process of FIG. 19 by the power reception unit may be performed periodically or continuously, or may be performed before the determination unit performs an operation.

  As described above, in the present embodiment, when the power transmission device receives supply of power, the supply source of power to be supplied to the power transmission unit is switched from the battery to the power reception unit. And, in this case, the reduction amount required is calculated not from the battery remaining amount and the total power transmission amount but from the power transmission capacity and the total power transmission amount. Thus, by receiving the supply of power, the power transmission device can transmit power to the power reception device without reducing the remaining amount of the battery. Also, the power transmission device can perform power transmission with the power transmission capacity as the upper limit without considering the remaining amount of the battery.

  Next, the case where the power reception unit stops receiving power from the power reception state will be described. Due to this change, the power reception unit determines NO in S1900, and sets the power reception flag to 0 (S1902). Then, in response to this, the determination unit determines that the power reception flag is not 1 and thus determines NO in S2000, switches the power supply source to the power transmission unit from the power reception unit to the battery, and transmits power. I do. And it transfers to the process of FIG. 17 (S2001). As described above, according to the configuration of the present embodiment, the power supply source to the power transmission unit can be switched between the battery and the power reception unit depending on whether the power reception unit is receiving power, and the power reception device is appropriately selected. Power can be transmitted.

<< Other Embodiments >>
The present invention is also realized by executing the following processing. That is, software (program) for realizing the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU or the like) of the system or apparatus reads the program. It is a process to execute.

  100: power transmission device, 200: classification unit, 201: power transmission amount storage unit, 202: determination unit, 203: determination storage unit, 204: distribution unit, 205: distribution storage unit, 206: power transmission management unit, 207: control storage unit , 208: battery, 209: power transmission unit

In order to achieve the above object, a power transmission device according to the present invention is information on a standard of wireless power transmission to which the power reception device conforms, and identifies a classification corresponding to the power reception device among a plurality of classifications related to control of power transmission. Acquisition means for acquiring information for the purpose from the power receiving apparatus;
A specification unit that specifies a classification corresponding to the power reception device based on the information acquired by the acquisition unit, and a power that does not exceed the upper limit value of the power corresponding to the classification specified by the specification unit to the power reception device The plurality of classifications include wirelessly transmitting power transmission means, and the plurality of classifications include two classifications in which the upper limit value of the power is different from each other .

Claims (11)

A power transmission device capable of being driven by a battery and having power transmission means for transmitting power to one or more power reception devices.
Acquisition means for acquiring information identifying each of the one or more power receiving devices;
Power is transmitted to each of the one or more power receiving devices based on the upper limit value of the transmitted power determined based on the information and the remaining amount of the battery to each of the one or more power receiving devices Determining means for determining the amount of power;
Have
The power transmission means transmits power to the one or more power receiving devices according to the determined amount of power.
A power transmission device characterized by having. The determination means classifies the one or more power receiving devices based on the information, and the sum of the respective upper limit values determined according to the respective classifications of the one or more power receiving devices and the remaining amount of the battery Determine the amount of power to be transmitted to the one or more power receiving devices based on
The power transmission device according to claim 1, The determination unit determines, based on the information on the one or more power receiving devices, when a value obtained by subtracting the sum of the upper limit values from the remaining amount of the battery is less than a predetermined value. Selecting at least one power receiving device from the power receiving devices, and determining an amount of power to be transmitted to the selected at least one power receiving device as an amount smaller than the upper limit value;
The power transmission device according to claim 1 or 2, characterized in that: The determination unit reduces the amount of power to be transmitted from a power receiving device with low priority assigned to each of the one or more power receiving devices based on the information among the one or more power receiving devices.
The power transmission device according to claim 3, The determination means determines the amount of power to be transmitted to the power receiving device having the next lower priority when the amount of power to be transmitted to the power receiving device having the lower priority is reduced to a predetermined amount. cut back,
The power transmission device according to claim 4, The determining means is a case where a value obtained by subtracting the sum of the upper limit value from the remaining amount of the battery becomes larger than a predetermined value, and the amount of power to be transmitted among the one or more power receiving devices is one. When there is a power receiving device determined to have an amount smaller than the upper limit value determined for each of the one or more power receiving devices, the amount of power to be transmitted is smaller than the upper limit value Increase the amount without exceeding the upper limit,
The power transmission device according to any one of claims 1 to 5, characterized in that. When there are a plurality of power receiving devices in which the amount of power to be transmitted is smaller than the upper limit value, the determination means may assign a priority to each of the plurality of power receiving devices in which the amount of power to be transmitted is smaller than the upper limit value. Increase the amount of power transmitted from the high power receiver,
The power transmission device according to claim 6, characterized in that: The determination unit determines an amount of power to be transmitted to the power receiving device having the next highest priority when the amount of power to be transmitted to the power receiving device having the high priority is the upper limit value of the power receiving device. To increase
The power transmission device according to claim 7, characterized in that. It further comprises power receiving means capable of receiving power from another device,
When the power receiving unit receives power, the determining unit determines the one or more power receiving devices based on the upper limit value of each of the one or more power receiving devices and the power transmission capability of the power transmission device. The amount of transmitted power for each of the one or more power receiving devices is determined based on the upper limit value and the remaining amount of the battery for each of the one or more Determine the amount of transmitted power for each of the one or more powered devices,
The power transmission device according to any one of claims 1 to 8, characterized in that. A control method of a power transmission device capable of being driven by a battery and having power transmission means for transmitting power to one or more power reception devices, comprising:
An acquiring step of acquiring information for identifying each of the one or more power receiving devices;
The determining means determines each of the one or more power receiving devices based on the upper limit value of the transmitted power determined based on the information to each of the one or more power receiving devices and the remaining amount of the battery. A determination step of determining the amount of power to be transmitted
A power transmission step in which the power transmission means transmits power to the one or more power receiving devices according to the determined amount of power;
A control method characterized by comprising: A computer provided in a power transmission device capable of being driven by a battery and having power transmission means for transmitting power to one or more power reception devices,
An acquisition step of acquiring information identifying each of the one or more power receiving devices;
Power is transmitted to each of the one or more power receiving devices based on the upper limit value of the transmitted power determined based on the information and the remaining amount of the battery to each of the one or more power receiving devices A determination step of determining the amount of power;
Causing the power transmission unit to transmit power to the one or more power receiving devices according to the determined amount of power;
A program to run a program.

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