KR101325507B1 - Apparatus for wireless charge control and wireless charge state monitoring by using nfc antenna terminal of cellphone - Google Patents

Abstract

The present invention relates to a wireless charge control using the Near Field Communications (NFC) antenna installed inside the port of the terminal and the wireless charge monitoring device in which controls the wireless charge as it utilizes the terminal of the NFC antenna built in the terminal, enables to keep a close eye on the wireless charging state, and has made the terminal relatively small, and further made the cost of terminal has also go down. The second terminal (140) of the charge control signal corresponding to the filler phase sulfur, the signals are received from the filler phase sulfur terminal of the wireless charge part (120) and the NFC signal recognition unit (210) including the wireless charge part (120) that receives the electricity from the coil for the wireless charge and the NFC antenna (110) consisting of the coil which is wound on the plane in the conducting wire, formed and is connected to the wireless charge, the installed NFC module (100), and the coil across of the NFC antenna (110) within the terminal through first two terminals (130, 240) and second two terminals (140, 250), and recognizes the signal provided from the coil of the NFC antenna (110) through second terminals (140, 250) and buffer(230) from the filler phase sulfur supervision terminal clearly. It comprises a main board (200) including an application processing unit (220) transmitting the input-output terminal of the wireless charge part (120) and controls the charging operation of the wireless charge part (120) that are installed within the terminal. [Reference numerals] (110) NFC antenna;(120) Wireless charge part;(210) NFC signal recognition unit;(220) Application program processing unit;(AA) I/O device;(BB) Charging state device;(CC) Charging state monitoring device;(DD) Charging control signal

Description

Apparatus for wireless charge control and wireless charge state monitoring by using NFC antenna terminal of cellphone}

The present invention relates to a wireless charging control and a wireless charging state monitoring device using the NFC antenna terminal (Near Field Communications antenna terminal) of the terminal, in particular, wireless charging using the terminal of the NFC antenna built in the terminal equipped with a wireless charger The present invention relates to a wireless charge control and a wireless charge state monitoring apparatus using an NFC antenna terminal of a terminal for controlling the power supply and monitoring a wireless charge state so that the terminal is relatively small and the cost of the terminal is reduced.

Patent No. 10-1185681 (Announcement date: September 24, 2012) The combined antenna for contactless charging and short-range wireless communication of a mobile communication terminal,

The coil part 11 wired helically, the first terminal 12 formed at one end of the coil part 11, the second terminal 13 formed at the other end of the coil part 11, and the first terminal ( A third terminal 14 drawn from the coil part 11 between the second terminal 13 and the second terminal 13, and the coil part between the first terminal 12 and the second terminal 13; 11 generates an induction electromotive force of a frequency for contactless charging, and the coil unit 11 between the first terminal 12 and the third terminal 14 generates an induction electromotive force of a frequency for NFC. An antenna unit 10 having a characteristic and installed in the battery cover 3 of the mobile communication terminal 2;

It is connected to the first terminal 12 and the second terminal 13 to realize the contactless charging through the antenna unit 10, which is installed in the main body 4 of the mobile communication terminal 2 Contact charging circuit 20; And

NFC circuitry connected to the first terminal 12 and the third terminal 14 to realize the NFC through the antenna unit 10 and installed in the main body 4 of the mobile communication terminal 2. 30;

And a control unit.

However, the combined antenna for contactless charging and short-range wireless communication of the mobile communication terminal according to the related art has a limitation in that it does not control the wireless charging and monitor the wireless charging state using the NFC antenna terminal.

The present invention has been made to solve the above-mentioned problems, the terminal is relatively small and the cost of the terminal by controlling the wireless charging and monitoring the wireless charging state using the terminal of the NFC antenna built in the terminal equipped with the wireless charger It is an object of the present invention to provide a wireless charge control and wireless charging state monitoring device using the NFC antenna terminal of the terminal to reduce the cost.

In order to achieve this object,

According to an aspect of the present invention,

An NFC antenna 110 made of coils wound around the wire several times on a plane, and a wireless charging unit 120 that receives power from a coil for wireless charging and charges the wireless charging and NFC module 100 installed in the terminal. ); And

NFC signal recognition to recognize the signal provided from the coil of the NFC antenna 110 is connected to both ends of the coil of the NFC antenna 110 through the first terminal (130, 240) and the second terminal (140, 250) Receives a signal for the charging status provided through the second terminal 140, 250 and the buffer 230 from the charging status terminal of the unit 210 and the wireless charging unit 120 to the charging status monitoring terminal to the charging status An application program processor 220 for controlling a charging operation of the wireless charging unit 120 by transmitting a corresponding charging control signal to the input / output terminal of the wireless charging unit 120 through the second terminals 140 and 250. A main board 200 mounted in the terminal;

And a control unit.

The wireless charging and NFC module 100 is characterized in that it is installed on the battery cover mounted on the inner surface of the battery cover or the inside of the terminal coupled to the back of the terminal.

According to another aspect of the present invention,

An NFC antenna 310 made of coils wound around the wire several times on a plane, and a wireless charging unit 320 that receives power from a coil for wireless charging and charges the wireless charging and NFC module 300 installed in the terminal. ); And

NFC signal recognition connected to both ends of the coil of the NFC antenna 310 through the first terminal 330, 440 and the second terminal 340, 450 to recognize a signal provided from the coil of the NFC antenna 310 The charging status monitoring terminal receives a signal for the charging status provided through the second terminal 340 and 450 and the buffer 430 from the charging status terminal of the wireless charging unit 320 and the charging status monitoring terminal. An application program processor 420 for controlling a charging operation of the wireless charger 320 by transmitting a corresponding charging control signal to the input / output terminals of the wireless charger 320 through the first terminals 330 and 440. A main board 400 mounted in the terminal;

And a control unit.

The wireless charging and NFC module 300 is characterized in that it is installed in the battery cover mounted on the inner surface of the battery cover or the inside of the terminal coupled to the back of the terminal.

The present invention, by using the terminals 130, 140, 240, 250, 330, 340, 440, 450 of the NFC antenna (110, 310) built in the terminal equipped with a wireless charger to control the wireless charging and wireless charging state Since the terminal is monitored, the terminal is relatively small and the cost of the terminal is reduced.

1 is a block diagram showing an embodiment of a wireless charging control and wireless charging state monitoring apparatus using the NFC antenna terminal of the terminal according to the present invention.
FIG. 2 is a circuit diagram of the block diagram shown in FIG. 1 as a circuit.
FIG. 3 is a table showing logic operation states of the circuit of FIG. 2.
Figure 4 is a block diagram showing another embodiment of a wireless charging control and wireless charging state monitoring device using the NFC antenna terminal of the terminal according to the present invention.
FIG. 5 is a circuit diagram of the block diagram shown in FIG. 4 as a circuit.
FIG. 6 is a table showing logic operation states of the circuit of FIG. 5.

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

1 is a block diagram showing an embodiment of a wireless charging control and wireless charging state monitoring device using the NFC antenna terminal of the terminal according to the present invention, the wireless charging and NFC module 100 and the main board 200. At this time, the wireless charging and NFC module 100 is installed in the battery pack mounted on the inner surface of the battery cover or the inside of the terminal coupled to the terminal.

In Figure 1, the NFC antenna 110 constituting the wireless charging and NFC module 100 installed in the terminal is made of a coil formed by winding a number of times on a plane, the wireless charging unit 120 is a coil for wireless charging Receive the power from the charge.

The NFC signal recognition unit 210 constituting the main board 200 mounted in the terminal is connected to both ends of the coil of the NFC antenna 110 through the first terminals 130 and 240 and the second terminals 140 and 250. To recognize the signal provided from the coil of the NFC antenna (110).

The application processing unit 220 receives a signal about the charging state provided through the second terminal 140 and 250 and the buffer 230 from the charging state terminal of the wireless charging unit 120 as a charging state monitoring terminal and responds to the charging situation. The charging control signal is transmitted to the input / output terminals of the wireless charging unit 120 through the second terminals 140 and 250 to control the charging operation of the wireless charging unit 120. That is, the wireless charger 120 notifies the application processor 220 when it is fully charged, and the application processor 220 controls the wireless charger 120 to stop charging.

Figure 4 is a block diagram showing another embodiment of the wireless charging control and wireless charging state monitoring apparatus using the NFC antenna terminal of the terminal according to the present invention, the wireless charging and NFC module 300 and the main board 400. At this time, the wireless charging and NFC module 300 is installed in the battery pack mounted on the inner surface of the battery cover or the inside of the terminal coupled to the terminal.

In FIG. 4, the NFC antenna 310 constituting the wireless charging and NFC module 300 installed in the terminal is formed of a coil formed by winding a wire several times on a plane, and the wireless charging unit 320 is a coil for wireless charging. Receive the power from the charge.

The NFC signal recognition unit 410 constituting the main board 400 mounted in the terminal is connected to both ends of the coil of the NFC antenna 310 through the first terminals 330 and 440 and the second terminals 340 and 450. To recognize the signal provided from the coil of the NFC antenna 310.

The application processing unit 420 receives a signal regarding the charging state provided through the second terminal 340 and 450 and the buffer 430 from the charging state terminal of the wireless charging unit 320 as a charging state monitoring terminal and responds to the charging situation. The charging control signal is transmitted to the input / output terminals of the wireless charging unit 320 through the first terminals 330 and 440 to control the charging operation of the wireless charging unit 320. That is, the wireless charger 320 notifies the application processor 420 when it is fully charged and the application program processor 420 controls the wireless charger 320 to stop charging.

FIG. 2 is a circuit diagram illustrating the block diagram of FIG. 1 as a circuit, and FIG. 3 is a table illustrating a logic operation state of the circuit of FIG. 2.

2 and 3, first, the NFC signal is a 13.56 MHz continuous sine pie, and the antenna connector connection portion of the NFC integrated circuit is blocked against direct current, and a WPC (Wireless Power Consortium) control signal and a supervisory signal are shown. Contains a direct current element.

FIG. 5 is a circuit diagram illustrating the block diagram of FIG. 4 as a circuit, and FIG. 6 is a table illustrating a logic operation state of the circuit of FIG. 5.

5 and 6, first, the NFC signal is 13.56 MHz continuous sine pie, the antenna connector connection portion of the NFC integrated circuit is blocked against direct current, and the WPC control signal and the supervisory signal include a direct current element.

An example of a battery cover type NFC integrated wireless charging terminal is as follows.

The NFC integrated wireless charging module on the main board and battery cover is connected by 4 pins and supplies battery charging voltage and transmits and receives NFC signals.

It supports wireless charging integrated circuit control and monitoring of charging status using NFC pin.

It can be implemented using 1 or 2 pins of NFC port.

This battery cover type is equipped with antenna (wireless charging & NFC) and NFC integrated wireless charging module on the battery cover. The main board and NFC integrated wireless charging module are connected to 4 terminals and are used as a power source for battery charging, ground, NFC_RF & NFC_CF. The NFC RF terminal can be used to control the wireless charging integrated circuit and monitor the status of the wireless charging integrated circuit. A detailed circuit description is the same as FIGS. 2 and 5 below.

First, as shown in FIG. 2, a signal is processed using one port of PHONE_NFC_RF1 and PCM_NFC_RF. The NFC_RF signal is transmitted and received through C61, C194, C100, and ANT1 while PHONE_NFC_RF1 and PCM_NFC_RF are connected. If a 5V power supply (AD_DISABLE_CHARGER_5V) is applied to the terminal from the external wired charger by the user, a logic level of 3.6V or higher is applied to the AD (G4) of the wireless charging integrated circuit U33 through D24, L1, R1, R32, and R43. The wireless charging operation will be stopped.

This is to protect the battery and charging caused by simultaneously charging and charging the battery. At this time, since the charging state of the terminal is related to the charging state of the wired charger, the charging state of the uncharged charging becomes meaningless.

In addition, when the user disconnects the wired charger from the terminal, a level of 3.3 V or less is applied to the AD G4 of the wireless charging integrated circuit U33 to normalize the wireless charging operation.

When the wireless charging is normalized, the / CHG (F4) pin of the wireless charging integrated circuit U33 is normally operated low, and the signal is transmitted to the application processor through the AP_ / CHG pin through R27, L13, and U25. do. The U25 can be configured using a buffer, comparator, voltage detector or logic. In addition, if the wireless charging proceeds normally, the / CHG (F4) pin of the wireless charging integrated circuit (U33) is low. In this state, when the NFC signal is transmitted and received, R32 protects the NFC integrated circuit by preventing a short (over current) of the output terminal of the NFC integrated circuit.

Secondly, as shown in FIG. 5, the WPC_NFC_RF1 and PHONE_NFC_RF2 ports are used as NFC transmission and reception status notification functions. The WPC_NFC_CF1 and PHONE_NFC_CF2 ports control the operation of NFC transmission and reception and wireless charging. Examine the WPC_NFC_RF1 and PHONE_NFC_RF2 port operations. The NFC_RF signal is transmitted and received through 212, C59, C58, and ANT2 while WPC_NFC_RF1 and PHONE_NFC_RF2 are connected.

When the wireless charging is normalized, the / CHG (F4) pin of the wireless charging integrated circuit U70 operates normally, and the signal is transmitted to the application processor through the AP_ / CHG pin through R6 and L16. In addition, if the wireless charging proceeds normally, the / CHG (F4) pin of the wireless charging integrated circuit (U70) is low. In this state, when the NFC signal is transmitted and received, R2 protects the NFC integrated circuit by preventing a short (overcurrent) of an output terminal of the NFC integrated circuit.

Examine the WPC_NFC_CF1 and PHONE_NFC_CF2 port operations. The NFC_CF signal is transmitted and received through C62, C60, C58, and ANT2 while WPC_NFC_CF1 and PHONE_NFC_CF2 are connected. If the user applies 5V power supply from the external wired charger to the terminal, logic level of 3.6V or higher is applied to AD (G4) of the wireless charging integrated circuit U70 through R78, Q9 (at Pin3 low level), R8, and R5. It stops the wireless charging operation.

This is to protect the battery and charging caused by simultaneously charging and charging the battery.

At this time, since the charging state of the terminal is related to the charging state of the wired charger, the charging state of the uncharged charging becomes meaningless.

In addition, when the user disconnects the external wired charger, a level of 3.3V or less is applied to the AD (G4) of the wireless charging integrated circuit U70, thereby normalizing the wireless charging operation.

An example of a battery pack type NFC integrated wireless charging terminal is as follows.

NFC integrated wireless charging module of main board and battery cover is connected by 4 pins and supplies battery charging voltage and transmits and receives NFC signal.

It supports wireless charging integrated circuit control and monitoring of charging status using NFC pin.

It can be implemented using either 1 or 2 pins of the NFC port.

This battery pack type is equipped with antenna (wireless charging & NFC) and NFC, PCM integrated wireless charging module. The main board, NFC and PCM integrated wireless charging module are connected to 4 terminals and are used as a power source for battery charging, ground, NFC_RF & NFC_CF. The NFC RF terminal can be used to monitor the status of wireless charging control and wireless charging integrated circuits. A detailed circuit description is the same as FIGS. 2 and 5 below.

First, as shown in FIG. 2, a signal is processed using one port of PHONE_NFC_RF1 and PCM_NFC_RF. The NFC_RF signal is transmitted and received through C61, C194, C100, and ANT1 while PHONE_NFC_RF1 and PCM_NFC_RF are connected. If a 5V power supply (AD_DISABLE_CHARGER_5V) is applied to the terminal from the external wired charger by the user, a logic level of 3.6V or higher is applied to the AD (G4) of the wireless charging integrated circuit U33 through D24, L1, R1, R32, and R43. The wireless charging operation will be stopped.

This is to prevent battery and charging caused by simultaneously charging and charging the battery. At this time, since the charging state of the terminal is related to the charging state of the wired charger, the charging state of the uncharged charging becomes meaningless.

In addition, when the user disconnects the external wired charger, a level of 3.3 V or less is applied to the AD (G4) of the wireless charging integrated circuit U33, thereby normalizing the wireless charging operation.

When the wireless charging is normalized, the / CHG (F4) pin of the wireless charging integrated circuit U33 is normally operated low, and the signal is transmitted to the application processor through the AP_ / CHG pin through R27, L13, and U25. U25 can be configured using a buffer, comparator, voltage detector or logic. In addition, if the wireless charging proceeds normally, the / CHG (F4) pin of the wireless charging integrated circuit (U33) is low. In this state, when the NFC signal is transmitted and received, R32 protects the NFC integrated circuit by preventing a short (over current) of the output terminal of the NFC integrated circuit.

Secondly, as shown in FIG. 5, the WPC_NFC_RF1 and PHONE_NFC_RF2 ports are used as NFC transmission and reception status notification functions. The WPC_NFC_CF1 and PHONE_NFC_CF2 ports control the operation of NFC transmission and reception and wireless charging. Examine the WPC_NFC_RF1 and PHONE_NFC_RF2 port operations. The NFC_RF signal is transmitted and received through 212, C59, C58, and ANT2 while WPC_NFC_RF1 and PHONE_NFC_RF2 are connected.

When the wireless charging is normalized, the / CHG (F4) pin of the wireless charging integrated circuit U70 operates normally, and the signal is transmitted to the application processor through the AP_ / CHG pin through R6 and L16. In addition, if the wireless charging proceeds normally, the / CHG (F4) pin of the wireless charging integrated circuit (U70) is low. In this state, when the NFC signal is transmitted and received, R2 protects the NFC integrated circuit by preventing a short (overcurrent) of an output terminal of the NFC integrated circuit.

Examine the WPC_NFC_CF1 and PHONE_NFC_CF2 port operations. The NFC_CF signal is transmitted and received through C62, C60, C58, and ANT2 while WPC_NFC_CF1 and PHONE_NFC_CF2 are connected. If the user applies 5V power supply from the external wired charger to the terminal, logic level of 3.6V or higher is applied to AD (G4) of the wireless charging integrated circuit U70 through R78, Q9 (when pin 3 low level), R8, and R5. It is applied to stop the wireless charging operation. This is to prevent battery and charging caused by simultaneously charging and charging the battery.

At this time, since the state of charge of the terminal is related to the state of charge of the wired charger, the state of chargeless charging becomes meaningless. In addition, when the user disconnects the external wired charger, a level of 3.3V or less is applied to the AD (G4) of the wireless charging integrated circuit U70, thereby normalizing the wireless charging operation.

Such the present invention controls the wireless charging using the terminals 130, 140, 240, 250, 330, 340, 440, 450 of the NFC antenna (110, 310) built in the terminal equipped with a wireless charger and wireless charging Since the status is monitored, the terminal is relatively small and the cost of the terminal is reduced.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

100, 300: wireless charging and NFC module
110, 310: NFC antenna
120, 320: wireless charging unit
130, 240, 330, 440: first terminal
140, 250, 340, 450: second terminal
200, 400: main board
210, 410: NFC signal recognition unit
220, 420: application processing unit
230, 430: Buffer

Claims (4)

delete An NFC antenna 110 made of coils wound around the wire several times on a plane, and a wireless charging unit 120 that receives power from a coil for wireless charging and charges the wireless charging and NFC module 100 installed in the terminal. ); And
NFC signal recognition to recognize the signal provided from the coil of the NFC antenna 110 is connected to both ends of the coil of the NFC antenna 110 through the first terminal (130, 240) and the second terminal (140, 250) Receives a signal for the charging status provided through the second terminal 140, 250 and the buffer 230 from the charging status terminal of the unit 210 and the wireless charging unit 120 to the charging status monitoring terminal to the charging status An application program processor 220 for controlling a charging operation of the wireless charging unit 120 by transmitting a corresponding charging control signal to the input / output terminal of the wireless charging unit 120 through the second terminals 140 and 250. A main board 200 mounted in the terminal;
Including,
The wireless charging and NFC module 100 is wireless charging control and wireless charging using the NFC antenna terminal of the terminal, characterized in that installed in the battery pack mounted on the inner surface of the battery cover or coupled to the rear of the terminal. Status monitoring device.
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