KR101257676B1 - Method and apparatus for display of aligment transmitter-receiver wireless charge - Google Patents

Abstract

PURPOSE: A method and a device for displaying the alignment of a transmitter and a receiver in a wireless charging system are provided to display a detected position of a first coil on a screen, thereby preventing an error in wireless charging due to an alignment error. CONSTITUTION: A first coil(13) is installed in a wireless charging pad(2). A second coil(21) is installed in a smart phone. Multiple sensing coils are installed around the second coil. A program module(130) for displaying wireless charging alignment is installed in the smart phone by downloading an application to the smart phone. The program module detects the position of the first coil corresponding to the configured position of the multiple sensing coils by detecting the strength of transmission power from the first coil through the multiple sensing coils and thus displays a detected position of the first coil and the position of the second coil depending to the multiple sensing coils. [Reference numerals] (10) Wireless charge transmission unit; (11) Power input unit; (110) Sensing coil; (12) Transmission control unit; (120) Sensing coil voltage output unit; (13) First coil; (130) Arrangement state display program module; (14) Transmission control processor; (2) Charging pad; (21) Second coil; (22) Voltage detection unit; (23) Voltage stabilizing unit; (24) Reception control processor; (25) Battery charging unit; (26) Battery; (3) Smart phone; (AA) Wireless charge reception unit; (BB) Smart phone body main processor

Description

Method and apparatus for displaying transmission and reception alignment state of wireless charging system {Method and apparatus for display of aligment transmitter-receiver wireless charge}

The present invention relates to a method and apparatus for displaying a transmission / reception alignment state of a wireless charging system. More particularly, a sensing coil is installed around a secondary coil, and a position of the primary coil is detected by the sensing coil to be displayed on a screen of a mobile terminal. Display method of receiving / receiving alignment status of the wireless charging system that displays the receiving area with the exact position of the secondary coil as a reference position and displays the position of the detected primary coil with a mark so that the alignment can be intuitively recognized through the screen And to an apparatus.

Mobile terminals (smartphones) generally use batteries for carrying. The battery charging method may be classified into wired charging and wireless charging, among which wired charging is popular. However, interest in wireless charging technology has recently increased.

In the wireless charging method, there is an electromagnetic induction using electromagnetic induction and a magnetic resonance equation for transmitting power at the same frequency to a transmitting and receiving end. Among wireless charging methods, electromagnetic induction type applies power to a charging pad including a coil inside and charges a battery by using an induced current generated in a coil included in a mobile terminal due to an electromagnetic field generated by a coil inside the charging pad. do. In the electromagnetic induction type charging method, the position of the terminal placed on the charging pad is very important.

1 is a diagram illustrating a general wireless charging system. As shown in the drawing, AC commercial power is input to the wireless charging pad 2 through the AC-DC adapter 1, and the smartphone (in the primary coil of the wireless charging transmitter 10 in the wireless charging pad 2) It is a system that generates an induced current to the secondary coil of the wireless charging receiver 20 of 3), and the wireless charging receiver 20 detects the induced current of the secondary coil to charge the battery of the smartphone.

2 is a detailed configuration diagram of a general wireless charging system. As shown in the figure, the charging pad 2 is provided with a wireless charging transmitter 10, the wireless charging transmitter 10 receives the commercial power from the AC-DC adapter 1 to convert the DC power to the primary power A power supply input unit 11 input to the coil 13 and a transmission control unit 12 and a wireless charge receiving unit 20 for controlling wireless charging transmission by controlling the transmission frequency or amplitude / duty of the primary coil 13. And a transmission control processor 14 for controlling the transmission of the transmission control unit 12 in accordance with the reception state.

The wireless charging receiver 20 installed in the smart phone 3 has a voltage induced by the secondary coil 21 and the secondary coil 21 that receives the current induced by the primary coil 14. The wireless charging transmitter 10 based on the voltage detector 22, the voltage detector 22 that stabilizes and outputs the voltage detected by the voltage detector 22, and the voltage detected by the voltage detector 22. And a reception control processor 24 for transmitting the reception state information to the battery, and the power output from the voltage stabilizer 23 of the wireless charge receiver 20 is charged to the battery 26 via the battery charger 25. do.

In such a magnetic induction wireless charging system, if the distance between the transmission and reception device is more than a predetermined range is not charged or the charging efficiency is low, it takes a long time to charge, there is a problem that heat is generated in the charging device.

Therefore, it is recommended that the user put the transceiver to be aligned, but it is inconvenient because it is difficult for the user to intuitively check the alignment.
Prior Art Document 1: Japanese Patent Laid-Open No. 2010-206865 (2010.09.16.)
Prior Art Document 1: Korean Patent Publication No. 10-1196552 (2012.11.01.)
Prior Art Document 3: Japanese Laid-Open Patent Publication No. 2009-089465 (2009.04.23.)
Prior Art Document 4: Japanese Laid-Open Patent Publication No. 2010-130729 (2010.06.10.)

The present invention displays the alignment between the transmitting coil of the transmitting device and the receiving coil of the receiving device on the screen of the smart phone with a built-in wireless charging receiver so that the user can intuitively determine the alignment state, the user is aligned in the right position An object of the present invention is to provide a method and apparatus for displaying an alignment state of a transceiver for a wireless charger.

Transmission and reception alignment status display method of the wireless charging system according to the present invention,

A plurality of sensing coils are installed around the transmitting coil or the receiving coil, and the wireless charging terminal receives a magnetic field signal detected by the plurality of sensing coils, detects a relative position between the transmitting coil and the receiving coil, and detects the transmitting coil and The relative position of the receiving coils are displayed on the screen of the terminal to distinguish them from each other.

Transmission and reception alignment status display method of the wireless charging system according to an embodiment of the present invention,

A primary coil is installed on the wireless charging pad, and a secondary coil is installed on the smartphone. The method of displaying the transmission and reception alignment status of the wireless charging system for charging the battery by placing the smartphone on the wireless charging pad,

Install a plurality of sensing coils in the secondary coil, install a wireless charging alignment status display program module in the smart phone application app,

The wireless charging alignment status display program module,

Detecting the intensity of the power transmitted from the primary coil through the plurality of sensing coils, extracting the location information of the primary coil by using the fact that the intensity and distance of the received power is inversely proportional, and on the screen of the smartphone The position of the secondary coil according to a preset sensing coil position and the position of the primary coil are marked to display a transmission / reception alignment state.

The wireless charging alignment status display program module,

A sensing process of detecting the strength of the received power from each of the three sensing coils;

A coordinate setting process of setting coordinates on the screen according to a distance and a position on the basis of an installation position relationship between three sensing coils and a secondary coil installed therein;

A distance detection step of generating a circle function having a center point of the three sensing coils based on preset coordinates as a center point of a circle and having a radius inversely proportional to the strength of the received power detected by the sensing coil;

A primary coil position detection process of analyzing a circle function of each sensing coil generated in the distance detection process, extracting a position of one point where three circles meet and detecting the position of the primary coil;

Based on the position information of the three sensing coils, the position of the center point of the preset secondary coil is set at the center of the screen, and the circle of the preset diameter is displayed as the reception area, and the position of the primary coil is set to 1 in advance. Characterized in that it is made to perform the alignment state display process to display the car coil mark.

The method may further include displaying an alignment error indicating an alignment error state when the strength of the power received from each of the sensing coils is less than a predetermined minimum value.

The alignment state display process,

If the position of the primary coil is outside the receiving area centered on the secondary coil, it indicates an alignment error, and if the position of the primary coil is within the receiving area, it indicates that the alignment is normal.

The displaying of the alignment state may further include a buzzer sound which distinguishes the alignment error from the alignment normal.

Transmission and reception alignment status display apparatus of the wireless charging system according to an embodiment of the present invention,

In the transmission and reception alignment status display apparatus of the wireless charging system is installed on the charging pad installed on the charging pad wireless charging transmitter for transmitting power in a magnetic induction method through the primary coil wireless charging system

A plurality of sensing coils are installed around the secondary coils of the wireless charging receiver to detect the strength of the power transmitted from the primary coil of the wireless charging transmitter, and the received power strengths of the plurality of sensing coils are respectively detected. Install the sensing coil voltage output unit to output

Receives the received power strength of each sensing coil through the sensing coil voltage output unit, and detects the position of the primary coil corresponding to the preset position of the sensing coil by using the inverse relationship between the received strength and the distance, And a wireless charging alignment status display program module installed as an app application to display the wireless charging alignment state by outputting the position of the secondary coil and the position of the primary coil on the screen together.

Transmission and reception alignment state display method and apparatus of a wireless charging system according to another embodiment of the present invention,

The wireless charging transmitter detects and transmits a plurality of sensing coils for magnetic field detection around the primary coil and a relative position of the secondary coil with respect to the primary coil by magnetic field detection signals of the plurality of sensing coils. Bluetooth communication module for communication) and install the alignment status display program module as an app application on the smartphone,

The alignment state display program module

Alignment with respect to the reference position based on the position of any one of the primary coil or the secondary coil on the screen of the smartphone based on the relative position information of the secondary coil with respect to the primary coil received from the Bluetooth communication module. An area is displayed, and the position of the other one of the secondary coil or the primary coil is displayed on the screen as an alignment mark to display the alignment state of the primary coil and the secondary coil on the screen of the smartphone.

According to the present invention, a sensing coil is installed around the secondary coil to detect the position of the primary coil by the received power intensity detected by the sensing coil, and the receiving area by the center point of the secondary coil and the detected primary coil position. By displaying on the screen together can intuitively recognize the alignment status of the wireless charging and transmission, there is an effect that can be aligned to the normal position by moving the position of the smartphone on the charging pad so that the alignment state is normal. The wireless charging alignment can be easily aligned to a normal state, thereby preventing an increase in wireless charging error and charging time that may occur due to an alignment error.

1 is an explanatory diagram of a general wireless charging system.
2 is a detailed configuration diagram of a general wireless charging system.
Figure 3 is a block diagram of a wireless charging system having a wireless charging alignment status display function according to the present invention.
4 is a diagram illustrating an installation of a sensing coil of a wireless charging system according to the present invention.
5 is a flowchart illustrating a method for displaying transmission and reception alignment in a wireless charging system according to the present invention.
6 (a) and 6 (b) are explanatory diagrams of primary coil position detection according to the present invention.
6 (a) shows the center alignment state,
6B shows a state far from the center.
Figure 7 (a) and (b) is an illustration of the spirit state display screen of the wireless charging system according to the present invention,
(A) of Figure 7 shows a case aligned in the center,
7B illustrates a case far from the center of gravity.
Figure 8 is an exemplary view of the sensing coil voltage output unit of the transmission and reception alignment state display apparatus of the wireless charging system according to the present invention.
9 is a sensing coil installation configuration of the transmission and reception alignment state display apparatus of the wireless charging system according to another embodiment of the present invention.

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

Figure 3 is a block diagram of a wireless charging system having a wireless charging alignment status display function according to the present invention, Figure 4 is a diagram illustrating a sensing coil installation of the wireless charging system according to the present invention.

In describing the embodiment of the present invention, the wireless charging terminal equipped with a wireless charging receiver is described by using a smartphone as an example, but not limited to a smart phone, any kind of wireless to put on the wireless charging pad wireless charging The present invention can be applied as it is to a charging terminal.

As shown in Figures 3 and 4,

The wireless charging receiver 20 is installed on the smart phone 2 which is placed on the charging pad 1 provided with the wireless charging transmitter 10 for transmitting power in a magnetically inductive manner through the primary coil 13, Installing a plurality of sensing coils 110 for detecting the strength of the power transmitted from the primary coil of the wireless charging transmitter 10 around the secondary coil 21 of the wireless charging receiver 20, A sensing coil voltage output unit 120 for detecting and outputting received power strengths of the plurality of sensing coils 110, respectively,

The sensing coil voltage output unit 120 receives the received power strength of each sensing coil and detects the position of the primary coil corresponding to the position of the preset sensing coil using an inverse relationship between the reception strength and the distance. It is configured to include a wireless charging alignment status display program module 130 installed as an app application to display the position of the secondary coil and the position of the primary coil set by the position of the coil on the screen to display the wireless charging alignment status. It features.

As described above, the present invention provides at least three sensing coils 101, 102, 103; 110 arranged to form a triangular shape around the secondary coil 21 of the wireless charging receiver 20, and the sensing coil 110. The sensing coil voltage output unit 120 for outputting the detected voltage of

The main processor 120 of the smartphone body analyzes the reception voltage of each sensing coil 110 of the sensing coil voltage output unit 120 based on the positions of the three sensing coils 110 set in advance. And a program module 130 for detecting the position of the primary coil 13 by using the inversely proportional distance between the two and the secondary coil, and displaying the position of the receiving region and the detected primary coil on the screen together. It is composed.

5 is a flowchart illustrating an alignment state display method of a wireless charging system according to the present invention. As shown in the drawing, the alignment state display program module 130 installed as an app application on the smartphone main processor of the present invention detects the position of the primary coil and displays it on the screen.

The primary coil 13 is installed on the wireless charging pad 2, and the secondary coil 21 is installed on the smartphone 3 so that the smartphone 3 is placed on the wireless charging pad 2 and placed in the battery. As a method of displaying the transmission and reception alignment status of the wireless charging system to charge,

Install a plurality of sensing coils (110; 101, 102, 103) in the vicinity of the secondary coil 21, and install the wireless charging alignment status display program module 130 as an app application on the smart phone (3) ,

The wireless charging alignment status display program module 130,

By detecting the strength of the power transmitted from the primary coil 13 through the plurality of sensing coils 110, the positional information of the primary coil 13 is determined using the fact that the intensity and the distance of the received power are inversely proportional. Extracting and marking the position of the secondary coil 21 according to the preset sensing coil 110 position on the screen of the smartphone 3 and the position of the primary coil 13 to display the transmission / reception alignment state. It is characterized by.

Transmitting and receiving alignment state display method of the wireless charging system according to the present invention executed in the wireless charge alignment state display program module, as shown in Figure 4,

A sensing process (S10) of detecting the strength of the received power from the three sensing coils (101, 102, 103; 110), respectively;

A coordinate setting process (S20) of setting coordinates on the screen according to distances and positions based on the installation position relations of the three sensing coils 110 and the secondary coils 21 installed therein;

A distance detection process of generating three circle functions having a radius inversely proportional to the strength of the received power detected by the sensing coil, with each center point of the three sensing coils 110 as preset centers according to preset coordinates. (S30);

Primary coil position detection process for detecting the position of the primary coil 13 by extracting the position of one point where the three circles meet by analyzing the original function of each sensing coil 110 generated in the distance detection process (S30) (S40);

Based on the position information of the three sensing coils 110, the position of the center point of the secondary coil 21, which is set in advance, is set at the center of the screen, and a circle having a predetermined diameter is displayed as the reception area 105. Characterized in that the alignment state display process (S50) for displaying the position of the primary coil 13 to the predetermined primary coil mark 104 is characterized in that it is made.

The method may further include an alignment error displaying process (S60) indicating an alignment error state when the power received from each sensing coil 110 is less than a preset minimum value.

The alignment state display process (S50),

If the primary coil mark 104 according to the position of the primary coil 13 deviates from the receiving region 105 having the secondary coil 21 as a center point, it indicates an alignment error, and indicates that the primary coil 13 If the primary coil mark 104 according to the position is in the receiving region 105, it indicates that the alignment is normal.

The alignment state display process S50 may further output a buzzer sound in which an alignment error and an alignment normal are distinguished from each other.

Although the present invention has described the smart phone 3 as a wireless charging system as an example, the present invention is not limited thereto, and the present invention may be equally applied to all mobile terminals having a display screen. The configuration of the wireless charging transmitter 10 and the wireless charging receiver 20 also shows a general outline, but is not necessarily limited thereto, and the present invention provides a primary by installing at least three sensing coils on a main surface of the secondary coil of the wireless charging receiver. Receiving the induced current transmitted from the coil to detect the received power strength, based on the received power strength to detect the position of the primary coil and to display it on the screen.

When the smartphone 3 is placed on the charging pad 2, the sensing coil 110 may receive voltage by the induced current transmitted from the primary coil 13. Receiving strength detection (S10) is performed to detect the respective receiving power strengths from the three sensing coils 110. When the power is detected from the one or more sensing coils in the reception strength detection process S10, the wireless charge alignment status display control according to the present invention is started. That is, when the smart phone 3 is far from the charging pad 2, the alignment state display control is not operated. The smart phone 3 is placed on the charging pad 2 to receive power from the sensing coil 110. When the intensity starts to be detected, alignment display control starts. Here, the voltage detection is an example of a method of detecting the received power strength.

Then, the reception strength is detected in a state in which at least three sensing coils 110 are installed, and if the reception power of each sensing coil is lower than a predetermined minimum value, an alignment error display process (S60) is performed. That is, when the primary coil is installed in the center of the charging pad 2, when the smart phone 3 is placed on the edge of the charging pad 2, the position of the primary coil cannot be detected. Do

If the received power strength of each sensing coil is greater than or equal to a preset minimum value, a coordinate setting process S20 of setting coordinates according to the position systems of the three sensing coils and the secondary coil is performed. Coordinate setting is to set the coordinates on the screen to display the alignment state, depending on the model of the wireless charging system, the distance and position or arrangement of the sensing coil days may vary, and the relationship with the secondary coil may also vary. Therefore, three sensing coil center point position coordinates and the center point position coordinates of the secondary coil are set as default values in advance for each model of the wireless charging system. When the app application is downloaded and installed, the corresponding model is selected to automatically set the position of the sensing coil and the position coordinate of the secondary coil according to the type of the model.

6 (a) and 6 (b) are explanatory views of the primary coil position detection according to the present invention. FIG. 6 (a) shows the center alignment state, and FIG. 6 (b) shows the state away from the center. Indicates.

After setting the position coordinates of the three sensing coils, each original function having a radius inversely proportional to the reception strength of each sensing coil detected in the reception strength detection process S10 is generated. This creates a circle function that knows the center point and radius by the equation. For example, if the maximum reception strength is 5V, set the radius of the circle to 1cm, if the reception strength is 3V, the radius of the circle is 3cm, and if the reception strength is 1V, the radius of the circle will be 5cm. do. By this setting, the original function is generated to have a radius of the circle inversely proportional to the reception strength.

Therefore, as shown in (b) of FIG. 6, the circle of the receiving coil A 101 is the smallest, which is the state where the distance between the primary coil 13 and the sensing coil A 101 is closest, and the receiving coil B 102 is closest. ) Is in the middle, and the receiving coil C 103 represents a state farthest from the center (the center of the three sensing coils).

When three circle functions are generated by the reception strengths detected from the three sensing coils 110, primary coil positions are detected by detecting three point functions as primary coil positions by analyzing three circle functions. Process S40 is performed. At this time, the position of the primary coil is detected as a position coordinate corresponding to the coordinates of the sensing coils.

The display of the screen uses the coordinates of the secondary coil as the center point of the screen, and displays a circle having a predetermined diameter as the receiving area 105, and displays the detected position of the primary coil as the primary coil mark 104 on the screen. Mark together.

Figure 7 (a) and (b) is an exemplary view of the spirit state display screen of the wireless charging system according to the present invention, Figure 7 (a) shows a case aligned in the center, Figure 7 (b) is the center of the center Indicates a case away from

In the present invention, the setting position of the secondary coil 21 is matched to the center of the screen, a circle of a predetermined diameter is displayed as the receiving area 105, and the position of the detected primary coil is indicated by the primary coil mark 104. Display on the screen. Therefore, when the primary coil mark 104 enters the reception area 105, the alignment state is displayed as normal, and the primary coil mark 104 is displayed at the position outside the reception area 105 as shown in FIG. Indicates an alignment error. At this time, it can be divided into buzzer sound to inform the normal and error status.

In addition, although not shown in the drawings, the horizontal and vertical lines meeting at the center are displayed to easily recognize the center point, and the primary coil transmission area centering on the primary coil mark 104 also displays a circle as a virtual line. Intuitively and easily recognize the alignment.

Therefore, according to the present invention, since the wireless charging alignment state is displayed on the screen of the smartphone, the alignment state can be easily adjusted by shifting the position so as to be in a normal alignment state, and the alignment state can be easily adjusted to improve wireless charging efficiency. It is possible to align with the best efficiency and to prevent the increase of the charging time due to the alignment error.

8 is an exemplary view illustrating a sensing coil voltage output unit of a transmission / reception alignment state display device of a wireless charging system according to the present invention. As shown in FIG. Three resonant circuits 121, 122, 123 consisting of reactors L101, C101, L1, ((L102, C102, L2), (L103, C103, L3) for detecting the reception intensity at different resonant frequencies fa, fb, and fc. ) And a modulator 124 for receiving and modulating the respective outputs of the three resonant circuits 121, 122, and 123 through the resistors R1, R2, and R3, and outputting them to the A / D input port of the smartphone. It is characterized by consisting of).

Since the wireless charging receiver is installed in a terminal such as a smartphone, there are many restrictions on the size. Accordingly, in the present invention, the configuration of the sensing coil voltage output unit 120 for detecting the reception strength from the sensor coils 101, 102, and 103 is shown in FIG. The modulation unit 124 is configured to input three sensing coil detection signals to one A / D input port of the smartphone, thereby minimizing the circuit installation size.

The resonant circuits 121, 122, and 123 connected to the respective sensor coils 101, 102, and 103 have different resonance frequencies fa and fb by designing L of the resonant coil and C value of the resonant capacitor differently. , fc is configured to be resonant, and is commonly input to the modulator 124 through the resistors R1, R2, and R3, and then modulated and mixed with signals having three different resonance frequencies to the A / D input port of the smartphone. In the smart phone alignment state display program module 130, the received modulated signal is restored to three signals corresponding to the resonance frequency, and based on the strength of the received voltage of the three signals, that is, three sensing coils, The position of the coil, i.e., the transmission coil, can be detected.

Therefore, when the sensing circuit is configured by the resonance and modulation method as shown in FIG. 8, both the FPCBs of the NFC antenna can be formed, and the size and connection complexity with the main body can be significantly reduced.

9 is a sensing coil installation configuration diagram of a transmission / reception alignment state display apparatus of a wireless charging system according to another embodiment of the present invention.

In the wireless charging transmitter 10 is installed in the charging pad, the wireless charging receiver 20 is installed in the smart phone in the alignment state display device of the wireless charging system for wireless charging,

A plurality of magnetic field detecting coils 210 installed around the primary coil 13 of the wireless charging transmitter 10; The magnetic field signal detector 220 detects each magnetic field signal from the plurality of sensing coils 210, and the detection signals of the sensing coils 210 are input from the magnetic field signal detector 220. A microprocessor 230 for detecting relative position information of the car coil; And a Bluetooth communication module 240 for wirelessly transmitting state position information of the secondary coil according to the position of the primary coil under the control of the microprocessor 230,

Receiving the relative position information of the primary coil and the secondary coil transmitted from the Bluetooth module 240, the position of the primary coil or the secondary coil to the fixed center position on the screen, the position of the secondary coil or primary coil Characterized in that the configuration state display program module 130 'for displaying the wireless charging alignment state by displaying the relative position relative to the fixed position installed on the smart phone installed the wireless charging receiver 20.

According to another embodiment of the present invention, a plurality of sensing coils 210 are installed in a transmission coil, that is, the primary coil 13, and the plurality of sensing coils 210 are secondary coils according to a wireless charging alignment state. The intensity of the magnetic field to be detected differs depending on the distance from 21). Therefore, the microprocessor 230 detects the relative position of the secondary coil 21 by receiving the magnetic field detection signals of the sensing coils 210 through the magnetic field signal detector 220. Since the positions of the primary coil 13 and the plurality of sensing coils 210 are fixed, if a fixed position is set in the program and the strengths of the magnetic field signals detected at the positions of the sensing coils are compared and analyzed, The relative position can be detected.

The relative position information of the primary coil and the secondary coil detected by the microprocessor 230 is transmitted to the smartphone through the Bluetooth communication module 240, the smartphone via the built-in Bluetooth communication module the wireless charging transmitter 10 Receiving the relative position information (relative position information for knowing the distance and direction between two points by expressing it as a vector value) of the primary coil and the secondary coil from the Bluetooth communication module 240 installed in the Based on the relative position information of the secondary coil, one of the primary coil or the secondary coil is displayed on the screen as the fixed position in the center of the screen, and the receiving area is displayed for the fixed position and 1 is displayed on the fixed position. One of the secondary coil or the primary coil corresponding to the secondary coil or the secondary coil is displayed on the screen as a variable position. That is, it can be displayed on the screen in the same form as (a) and (b) of FIG.

Accordingly, the plurality of sensing coils 21, the magnetic field signal detection unit 220, the microprocessor 230, and the Bluetooth communication module 240 are connected to the transmission coil, that is, the wireless charging transmitter 10 in which the primary coil 13 is installed. Since it can be installed regardless of the size and complexity, the wireless charging receiver 20 is installed, that is, since the Bluetooth communication module is basically built in the terminal, the smartphone, the alignment status display program that can be downloaded and installed as an app application Only the module 130 'needs to be installed. That is, since only the app application is installed on the smartphone, it does not affect the size or mechanical complexity of the terminal.

1: AC-DC adapter 2: charging pad
3: smart phone 10: wireless charging transmitter
11 power input unit 12 transmission control unit
13: primary coil 14: transmission control processor
20: wireless charging receiver 21: secondary coil
22: voltage detector 23: voltage stabilizer
24: reception control processor 25: battery charging unit
16: batteries 101, 102, 103; 110: sensing coil
104: primary coil mark 105: receiving area
120: sensing coil voltage output unit 121-123: resonant circuit unit
124: modulator 210: sensing coil
220: magnetic field signal detection unit 230: microprocessor
240: Bluetooth communication module

Claims (12)

delete The primary coil 13 is installed on the wireless charging pad 2, and the secondary coil 21 is installed on the smartphone 3 so that the smartphone 3 is placed on the wireless charging pad 2 and placed in the battery. As a method of displaying transmission and reception alignment status of a wireless charging system to charge,
Install a plurality of sensing coils (110; 101, 102, 103) in the vicinity of the secondary coil 21, and install the wireless charging alignment status display program module 130 as an app application on the smart phone (3) ,
The wireless charging alignment status display program module 130,
Detecting the strength of the power transmitted from the primary coil 13 through the plurality of sensing coils 110 to extract the location information of the primary coil corresponding to the position of the plurality of sensing coils in advance, Marking the position of the secondary coil 21 according to the position of the sensing coil 110 and the position of the primary coil 13 on the screen of (3) to display the transmission and reception alignment state,
The wireless charging alignment status display program module 130,
Set the three sensing coil center point coordinates and the secondary coil center point coordinates as default values for each model of the wireless charging system in advance, and select the model of the smartphone wireless charging system when downloading and installing the app application. Transmitting and receiving alignment status display method of a wireless charging system, characterized in that automatically set the position of the sensing coil and the position of the secondary coil according to the type of the model.
3. The method of claim 2,
Transmitting and receiving alignment status display method of the wireless charging system executed by the wireless charging alignment status display program module,
A sensing process (S10) of detecting the strength of the received power from the three sensing coils (101, 102, 103; 110), respectively;
A coordinate setting process (S20) of setting coordinates on the screen according to distances and positions based on the installation position relations of the three sensing coils 110 and the secondary coils 21 installed therein;
A distance detection process of generating three circle functions having a radius inversely proportional to the strength of the received power detected by the sensing coil, with each center point of the three sensing coils 110 as preset centers according to preset coordinates. (S30);
Primary coil position detection process for detecting the position of the primary coil 13 by extracting the position of one point where the three circles meet by analyzing the original function of each sensing coil 110 generated in the distance detection process (S30) (S40);
Based on the position information of the three sensing coils 110, the position of the center point of the secondary coil 21, which is set in advance, is set at the center of the screen, and a circle having a predetermined diameter is displayed as the reception area 105. Transmitting and receiving alignment state display method of the wireless charging system, characterized in that the configuration to perform the alignment state display process (S50) for displaying the position of the primary coil 13 to the predetermined primary coil mark (104).
The method of claim 3, wherein
Transmitting and receiving alignment status display method of the wireless charging system, characterized in that it further comprises an alignment error display step (S60) for displaying the alignment error status when the strength of the power received from each of the sensing coils 110 is less than a predetermined minimum value.
The method of claim 3, wherein the alignment state display process (S50),
If the primary coil mark 104 according to the position of the primary coil 13 deviates from the receiving region 105 having the secondary coil 21 as a center point, it indicates an alignment error, and indicates that the primary coil 13 Transmitting and receiving alignment status display method of the wireless charging system, characterized in that indicating that the alignment is normal if the primary coil mark 104 according to the position in the receiving area (105).
The method of claim 3, wherein the alignment state display process (S50),
Transmitting and receiving alignment status display method of a wireless charging system, characterized in that for further outputting a buzzer sound is different from the alignment error and the normal alignment.
delete The wireless charging receiver 20 is installed on the smartphone 2 that is wirelessly charged on the charging pad 1 provided with the wireless charging transmitter 10 that transmits power in a magnetically inductive manner through the primary coil 13. Sending and receiving alignment status display device of the charging system,
Installing a plurality of sensing coils 110 for detecting the intensity of the power transmitted from the primary coil of the wireless charging transmitter 10 around the secondary coil 21 of the wireless charging receiver 20,
A sensing coil voltage output unit 120 for detecting and outputting the received power strengths of the plurality of sensing coils 110, respectively,
The sensing coil voltage output unit 120 receives the received power strength of each sensing coil and detects the position of the primary coil corresponding to the position of the preset sensing coil using an inverse relationship between the reception strength and the distance. It is configured to include a wireless charging alignment status display program module 130 installed as an app application to display the position of the secondary coil set by the position of the coil and the position of the primary coil together on the screen to display the wireless charging alignment status and ,
The sensing coil voltage output unit 120,
Resonant coils, resonant capacitors, and reactors (L101, C101, L1), ((L102, C102, L2), (L103, C103, L3) for each sensing coil (101, 102, 103), respectively. three resonant circuits (121, 122, 123) for detecting reception strength with fa, fb, and fc;
The modulator 124 is configured to receive and modulate the outputs of the three resonant circuits 121, 122, and 123 through the resistors R1, R2, and R3 in common and output them to the A / D input port of the smartphone. Transmission and reception alignment status display device of the wireless charging system.
The method of claim 8, wherein the sensing coil,
Transceiving alignment of the wireless charging system, characterized in that at least three sensing coils (101, 102, 103; 110) arranged to form a triangular shape around the secondary coil 21 of the wireless charging receiving unit 20 Status display.
delete A wireless charging transmitter 10 including a primary coil 13 is installed in the wireless charging pad 2, and a wireless charging receiver including a secondary coil 21 in a smartphone 3 in which a Bluetooth communication module is embedded. As the transmission and reception alignment status display method of the wireless charging system 20 is installed,
In the wireless charging transmitter 10, a plurality of sensing coils 210 for magnetic field detection around the primary coil and a secondary coil for the primary coil 13 by magnetic field detection signals of the plurality of sensing coils 210. The microprocessor 230 for detecting and transmitting the relative position of the 21 and the Bluetooth communication module 240 for wireless communication are installed, and the alignment status display program module 130 'is installed as an app application on the smartphone. ,
The alignment state display program module 130 ′ is displayed on the screen of the smartphone based on the relative position information of the secondary coil 21 with respect to the primary coil 13 received from the Bluetooth communication module 240. An alignment area with respect to the reference position is indicated by using the position of either the coil or the secondary coil as the reference position, and the other one of the secondary coil or the primary coil is displayed on the screen as an alignment mark to display the primary coil and the second coil. Transmitting and receiving alignment status display method of the wireless charging system, characterized in that for displaying the alignment state of the car coil on the screen of the smartphone.
In the wireless charging transmitter 10 is installed in the charging pad, the wireless charging receiver 20 is installed in the smart phone in the alignment state display device of the wireless charging system for wireless charging,
A plurality of magnetic field detecting coils 210 installed around the primary coil 13 of the wireless charging transmitter 10; The magnetic field signal detector 220 detects each magnetic field signal from the plurality of sensing coils 210, and the detection signals of the sensing coils 210 are input from the magnetic field signal detector 220. A microprocessor 230 for detecting relative position information of the car coil; And a Bluetooth communication module 240 for wirelessly transmitting state position information of the secondary coil according to the position of the primary coil under the control of the microprocessor 230,
The wireless charging receiver 20 is installed as an app application on the smart phone installed, and receives the relative position information of the primary coil and the secondary coil transmitted from the Bluetooth module 240, the position of the primary coil or secondary coil To a fixed center position on the screen, the position of the secondary coil or the primary coil relative to the fixed position to display the alignment status display program module 130 'for displaying the wireless charging alignment status Transmitting and receiving alignment status display device of the wireless charging system.

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