CN103812149A - Wireless charging device, charging system and charging method - Google Patents

Abstract

The invention provides a wireless charging device, a charging system and a charging method. The wireless charging device comprises a transmitting coil group, a current detection circuit, a controller and a drive unit, wherein the current detection circuit detects an average current value of all transmitting coils in real time, and sends the average current value to the controller; the controller judges the position and the shape of power receiving equipment according to received average current value, and generates a corresponding drive signal to be sent to the drive unit; and the drive unit drives a transmitting coil corresponding to the position and the shape of the power receiving equipment to perform power transmission on the power receiving equipment, thereby effectively improving charging efficiency, the structure is simple, and the practicability is high.

Description

Wireless charging device, charging system and charging method

Technical field

The present invention relates to a kind of wireless charging technology, relate in particular to a kind of wireless charging device, charging system and charging method.

Background technology

At present increasing electronic equipment brings into use the mode of wireless charging charge or power, and this makes user can break away from wired constraint in using product, convenient.

Available technology adopting is wireless charging (power supply) technology more widely, be all by way of electromagnetic induction, but this mode exists some problems: if the position of transmitting coil and receiving coil can not accurately coincide, power supplying efficiency can significantly reduce; If there is foreign matter between transmitting coil and receiving coil, charging device there will be the problem of heating.

Summary of the invention

For the problem that solves transmitting coil in existing wireless charging technology and receiving coil is misfitted or the charge efficiency that exists foreign matter to cause is low, the invention provides a kind of wireless charging device, charging system and charging method, can effectively improve charge efficiency.

A kind of wireless charging device, comprising:

Transmitting winding group, comprises and is multiple transmitting coils that reservation shape is arranged;

Current detection circuit, for detecting in real time the average current value of each transmitting coil, and sends to controller by average current value;

Controller, for according to the average current value receiving, judges position and the shape of power receiving equipment, and the corresponding signal that drives of generation sends to driver element;

Driver element, carries out electric power transfer for the transmitting coil that drives corresponding power receiving equipment position and shape to power receiving equipment.

A kind of wireless charging system, comprises one or more power receiving equipments and above-mentioned wireless charging device, and power receiving equipment comprises:

Multiple receiving coils, for responding to and be coupled as power receiving equipment and charge with transmitting coil.

A kind of wireless charging method, utilizes above-mentioned wireless charging device to charge for power receiving equipment, and described method comprises:

In the time that multiple transmitting coils surface is placed with power receiving equipment, current detection circuit detects respectively the average current value of each transmitting coil, and average current value is sent to controller;

Controller, according to the average current value receiving, is determined position and the shape of power receiving equipment;

Controller is according to determining that result generates control signal and sends to driver element;

It is that power receiving equipment carries out electric power transfer that driver element drives the transmitting coil of corresponding power receiving equipment position and shape according to control signal.

Wireless charging device provided by the invention, charging system and charging method, by detecting position and the shape of power receiving equipment, control transmitting coil and charge according to the shape of corresponding power receiving equipment, effectively improves charge efficiency, and simple in structure, practicality is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of embodiment of wireless charging device provided by the invention.

Fig. 2 is the structural representation of a kind of embodiment of wireless charging system provided by the invention.

Fig. 3 a is the schematic layout pattern of transmitting coil in a kind of embodiment of wireless charging system provided by the invention.

Fig. 3 b is the schematic layout pattern of receiving coil in a kind of embodiment of wireless charging system provided by the invention.

Fig. 4 is the flow chart of a kind of embodiment of wireless charging method provided by the invention.

Embodiment

Embodiments of the invention are described with reference to the accompanying drawings.The element of describing in an accompanying drawing of the present invention or a kind of execution mode and feature can combine with element and feature shown in one or more other accompanying drawings or execution mode.It should be noted that in order to know object, in accompanying drawing and explanation, omitted expression and the description of unrelated to the invention, parts known to persons of ordinary skill in the art and processing.

Wireless charging device embodiment:

As shown in Figure 1, a kind of wireless charging device, comprising:

Transmitting winding group, comprises and is multiple transmitting coils 101 that reservation shape is arranged;

Current detection circuit 102, for detecting in real time the average current value of each transmitting coil, and sends to controller 103 by average current value;

Controller 103, according to the average current value receiving, judges position and the shape of power receiving equipment, and the corresponding signal that drives of generation sends to driver element 104;

Driver element 104, carries out electric power transfer for the transmitting coil that drives corresponding power receiving equipment to power receiving equipment.

Particularly, transmitting coil 101 is electromagnetic induction coil, and shape can be circular or square, can set according to the market demand, the shape of transmitting coil 101 should with power receiving equipment in the shape of receiving coil match.

Current detection circuit 102 detects the average current value of each transmitting coil 101 in real time, and the average current value detecting is sent to controller 103.

The average current value that controller 103 received current testing circuits 102 send, and this average current value is compared with predetermined current value, predetermined current value can be set as required voluntarily, usually, predetermined current value is less than transmitting coil and the current value while coupling occurs to respond to receiving coil, in the time that the average current value detecting is greater than predetermined current value, think that this transmitting coil position is the position of power receiving equipment to the receiving coil of corresponding power receiving equipment of transmitting coil 101 that should average current value.

When detecting that a transmitting coil 101 is to there being power receiving equipment, detect the average current value of each transmitting coil adjacent with this transmitting coil, in the time that the average current value detecting is greater than predetermined current value, think that the region that the transmitting coil of all corresponding power receiving equipments surrounds is the shape of power receiving equipment to the receiving coil of corresponding power receiving equipment of transmitting coil 101 that should average current value.

Controller 103, according to the position of power receiving equipment and shape, generates the corresponding signal that drives, and sends to driver element 104.

Alternatively, controller 103 can adopt single-chip microcomputer or PLC.

Driver element 104 receives the control signal that controller 103 sends, and drives the transmitting coil of corresponding power receiving equipment position and shape to carry out electric power transfer to power receiving equipment.

Alternatively, multiple transmitting coils 101 can adopt honeycomb fashion to arrange or matrix is arranged, and arranging density can be set according to actual service condition.

The wireless charging device that the present embodiment provides, by detecting position and the shape of power receiving equipment, controlling transmitting coil charges according to the shape of corresponding power receiving equipment, can effectively solve transmitting coil and receiving coil and misfit the low problem of charge efficiency of also powering and causing, and between transmitting coil and receiving coil, there is foreign matter also to power to cause the problem of heating, effectively improve charge efficiency.

Wireless charging system embodiment:

As shown in Figure 2, wireless charging system provided by the invention, comprises wireless charging device A and power receiving equipment B, and power receiving equipment B can be one or more.

Wireless charging device A comprises multiple transmitting coils 201, current detection circuit 202, controller 203 and driver element 204, and structure and the principle of wireless charging device A are same as the previously described embodiments, are not repeating at this.

Power receiving equipment B comprises multiple receiving coils 205, when receiving coil 205 and the transmitting coil 201 in wireless charging device A coincide and contact, can respond to the generation electromagnetic energy that is coupled.

In addition, power receiving equipment B also comprises rechargeable battery 206 and electric energy converting unit 207, and the electromagnetic energy of responding to coupling generation when receiving coil 205 and transmitting coil 201 converts electric energy to by electric energy converting unit 207, for rechargeable battery 206 carries out electric power transfer.

Fig. 3 a is the schematic layout pattern of the multiple transmitting coils 201 in wireless charging device A, multiple transmitting coils 201 are matrix and arrange, be numbered respectively: 1,2,3,4,5 ... 49, Fig. 3 b is the structural representation of the receiving coil in power receiving equipment B, multiple receiving coils 205 are irregular alignment, number respectively u, v, w, x, y, z.

Power receiving equipment B is placed on to the surface of transmitting coil, when being numbered coincide corresponding with the transmitting coil that is numbered 17 of receiving coil of u, the average current value that is numbered 17 transmitting coil is greater than predetermined current value, when detecting that the average current value of the transmitting coil that is numbered 17 is greater than predetermined current value, think and be numbered 17 position corresponding to transmitting coil and be the position at power receiving equipment B place, controller 203 generates and drives signal to send to driver element 204 to drive to be numbered 17 transmitting coil to carry out electric power transfer accordingly, expand afterwards a circle and detect, detect and adjacent be numbered 9, 10, 11, 16, 18, 23, 24, the average current value of 25 transmitting coil, is numbered 18 when detecting, when the average current value of 25 transmitting coil is greater than predetermined current value, controller 203 is controlled and is driven the transmitting coil that is numbered a to carry out electric power transfer, expanding afterwards a circle detects again, by that analogy, until the average current value detecting is less than predetermined current value, the corresponding region of transmitting coil that average current value is greater than predetermined current value is the shape of power receiving equipment, is numbered 17, 18, 19, 20, 25, 26 transmitting coil.

Power receiving equipment B can be placed on arbitrarily transmitting coil surface, if be only numbered in power receiving equipment B, the receiving coil of u, v, w is corresponding with transmitting coil coincide, and 203 of controllers drive the transmitting coil of corresponding u, v, w to carry out electric power transfer.

Power receiving equipment is charged when wireless charging device detects power receiving equipment, the quantity of transmitting coil is far longer than the quantity of receiving coil, therefore can charge to multiple power receiving equipments simultaneously.

In addition, power receiving equipment B also comprises display unit 208, for showing in the time that transmitting coil 201 produces induction coupling with receiving coil 205, so that learning this wireless charging system, user normally works, if transmitting coil 201 does not produce induction coupling with receiving coil 205, wireless charging device does not detect the position of power receiving equipment, the position of user's capable of regulating power receiving equipment B.

The wireless charging system that the present embodiment provides, adopt wireless charging device, can charge to one or more power receiving equipments simultaneously, and the shape of power receiving equipment is unrestricted, power receiving equipment can be placed on arbitrarily transmitting coil surface, can, by detecting position and the shape of power receiving equipment, control transmitting coil and charge according to the shape of corresponding power receiving equipment, improve to greatest extent charge efficiency.

Wireless charging method embodiment:

As shown in Figure 4, adopting wireless charging device is power receiving equipment charging, and the method comprises:

Step S101: while being placed with power receiving equipment on multiple transmitting coils surface, current detection circuit detects respectively the average current value of each transmitting coil, and average current value is sent to controller;

Step S102: controller, according to the average current value receiving, is determined position and the shape of power receiving equipment;

Step S103: controller is according to determining that result generates control signal and sends to driver element;

Step S104: it is that power receiving equipment carries out electric power transfer that driver element drives the transmitting coil of corresponding power receiving equipment position and shape according to described control signal.

Particularly, the method that judges power receiving equipment position specifically comprises:

The average current value of each transmitting coil and predetermined current value are compared, and when average current value is greater than predetermined current value, the position that this transmitting coil is corresponding is the position of power receiving equipment.

Usually, predetermined current value is less than transmitting coil and the current value while coupling occurs to respond to receiving coil, in the time that the average current value detecting is greater than predetermined current value, think that this transmitting coil position is the position of power receiving equipment to the receiving coil of corresponding power receiving equipment of transmitting coil that should average current value.

The method that judges the shape of power receiving equipment comprises:

When detecting that one of them transmitting coil is to there being power receiving equipment, detect the average current value of the transmitting coil adjacent with this transmitting coil, the corresponding region of transmitting coil that average current value is greater than predetermined current value is the shape of power receiving equipment.

Controller generates corresponding control signal and sends to driver element, the transmitting coil of the corresponding power receiving equipment position of drive unit drives and shape, corresponding transmitting coil and the receiving coil of power receiving equipment produce induction coupling, produce electromagnetic energy, electromagnetic energy converts electric energy to by electric energy converting unit, for the rechargeable battery in power receiving equipment charges.

When detecting that power receiving equipment charges to power receiving equipment, the quantity of transmitting coil is far longer than the quantity of receiving coil, therefore can charge to multiple power receiving equipments simultaneously.

Current detection circuit detects respectively the average current value of each transmitting coil according to level, vertical or Z-shaped direction, as shown in Figure 3 a, detection order can be according to transmitting coil numbering 1-7,8-14 ... horizontal direction sequence detection, also can number 1,8 according to transmitting coil ... 43 the straight sequence detection of vertical direction, can also number 1-7 according to transmitting coil, 13,19 ... the Z-shaped direction order of 43,44-49 detects.

In addition,, in the time the position of power receiving equipment not detected, adjust the position of described power receiving equipment and carry out again step S101.

Power receiving equipment also comprises display unit, be used for showing in the time of transmitting coil and receiving coil generation induction coupling, so that learning this wireless charging system, user normally works, if transmitting coil and receiving coil do not produce induction coupling, wireless charging device does not detect the position of power receiving equipment, the position of user's capable of regulating power receiving equipment, carries out step S101 after adjusting again.

The wireless charging method that the present embodiment provides, can charge to one or more power receiving equipments simultaneously, and the shape of power receiving equipment is unrestricted, power receiving equipment can be placed on arbitrarily transmitting coil surface, by detecting position and the shape of power receiving equipment, controlling transmitting coil charges according to the shape of corresponding power receiving equipment, can effectively solve transmitting coil and receiving coil and misfit the low problem of charge efficiency of also powering and causing, and between transmitting coil and receiving coil, there is foreign matter also to power to cause the problem of heating, effectively improve charge efficiency.

Although described the present invention and advantage thereof in detail, be to be understood that in the case of not exceeding the spirit and scope of the present invention that limited by appended claim and can carry out various changes, alternative and conversion.And the application's scope is not limited only to the specific embodiment of the described process of specification, equipment, means, method and step.One of ordinary skilled in the art will readily appreciate that from disclosure of the present invention, can use carry out with the essentially identical function of corresponding embodiment described herein or obtain process, equipment, means, method or step result essentially identical with it, that existing and will be developed future according to the present invention.Therefore, appended claim is intended to comprise such process, equipment, means, method or step in their scope.

Claims (10)

1. A wireless charging device, characterized in that it comprises: A transmitting coil set comprising a plurality of transmitting coils arranged in a predetermined shape; A current detection circuit is used to detect the average current value of each transmitting coil in real time, and send the average current value to the controller; The controller is used to judge the position and shape of the powered device according to the received average current value, and generate a corresponding driving signal and send it to the driving unit; The drive unit is used to drive the transmitting coil corresponding to the position and shape of the power receiving device to transmit power to the power receiving device. 2. The wireless charging device according to claim 1, wherein the plurality of transmitting coils are arranged in a matrix or in a honeycomb arrangement. 3. A wireless charging system, comprising one or more powered devices and the wireless charging device according to claim 1 or 2, characterized in that the powered devices include: Multiple receiving coils are used for inductive coupling with the transmitting coil to generate electromagnetic energy. 4. The wireless charging system according to claim 3, wherein the powered device further comprises a rechargeable battery and a power conversion unit, the power conversion unit is used to convert the electromagnetic energy into electrical energy for the charging Batteries for power transmission. 5. The wireless charging system according to claim 3, wherein the plurality of receiving coils are arranged in a matrix or in a honeycomb arrangement. 6. The wireless charging system according to claim 3, wherein the power receiving device further comprises a display unit for displaying when the transmitting coil and the receiving coil are inductively coupled. 7. A wireless charging method, characterized in that the wireless charging device according to claim 1 or 2 is used to charge a powered device, said method comprising: When a power receiving device is placed on the surface of multiple transmitting coils, the current detection circuit respectively detects the average current value of each transmitting coil, and sends the average current value to the controller; The controller determines the position and shape of the powered equipment according to the received average current value; The controller generates a control signal according to the determination result and sends it to the drive unit; The drive unit drives the transmitting coil corresponding to the position and shape of the power receiving device according to the control signal to perform power transmission for the power receiving device. 8. The wireless charging method according to claim 7, wherein the method for determining the location of the powered device comprises: The average current value of each transmitting coil is compared with the preset current value, and the position of the transmitting coil whose average current value is greater than the preset current value is determined as the position of the powered device. 9. The wireless charging method according to claim 8, wherein the method for judging the shape of the power receiving device comprises: when it is detected that one of the transmitting coils corresponds to a power receiving device, then detecting the transmitting coil adjacent to the transmitting coil The average current value of the coil determines the area corresponding to the transmitting coil whose average current value is greater than the preset current value in the transmitting coil group, which is the shape of the powered device. 10 . The wireless charging method according to claim 7 , wherein the current detection circuit respectively detects the average current value of each transmitting coil in a horizontal, vertical or Z-shaped order. 11 .

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