KR101882710B1 - Mobile terminal and communication system having the same - Google Patents

Abstract

The present invention includes a reader configured to transmit predetermined information, and a mobile terminal configured to perform wireless communication with the reader, wherein the mobile terminal includes an application processor (AP) And a MCU (Micro Controller Unit) configured to activate the AP using the preset information. The present invention also provides a communication system including a microcontroller unit (MCU) configured to activate the AP using predetermined information.

Description

TECHNICAL FIELD [0001] The present invention relates to a mobile terminal and a communication system including the mobile terminal.

The present invention relates to a mobile terminal including a non-contact type short-range wireless communication module and a communication system including the same.

A mobile terminal is a portable electronic device that is portable and has one or more functions of voice and video call function, information input / output function, and data storing function.

As the functions of mobile terminals are diversified, they are implemented in the form of multimedia devices having complicated functions such as photographing and photographing of movies, reproduction of music or video files, reception of games and broadcasting.

Mobile terminals have come to depend on software to implement the complex functions of such multimedia devices, and software upgrades for correcting errors or adding functions of software have become more and more frequent.

For example, many companies are launching mobile handsets with new or upgraded software several times a year. The mobile terminals are kept in stock until they are shipped packaged and sold to the customer.

However, there is a case where an update is required for reasons such as that a bug is found in the software of the mobile terminal (for example, the OS of the smartphone) while the mobile terminals are kept in inventory. In this case, the mobile terminal is manually removed from the package, the AP (Application Processor) of the mobile terminal is turned on, and the updated software is downloaded to the mobile terminal.

The present invention is intended to provide a communication system capable of activating an AP of a mobile terminal by specifying a mobile terminal.

According to an aspect of the present invention, there is provided a mobile terminal for performing wireless communication through a change of a magnetic field formed between an AP (Application Processor) and a reader, A contactless short range wireless communication module, and an MCU (Micro Controller Unit) configured to activate the AP when the wireless communication is performed.

According to an embodiment of the present invention, the non-contact type short range wireless communication module includes an NFC (Near Field Communication) tag or a Radio Frequency IDentification (RFID) tag using a frequency corresponding to the reader.

According to another embodiment of the present invention, the mobile terminal further includes a PMIC (Power Management Integrated Circuit) configured to supply a quiescent current to the MCU until the AP is activated. The mobile terminal may further include a potential measurement sensor formed to detect a potential of the battery, and the PMIC may be configured to apply a power supply to the AP only when the potential measured through the potential measurement sensor is equal to or greater than a reference value .

The mobile terminal may further include a battery configured to supply a predetermined voltage, a power key configured to activate the AP by supplying the predetermined voltage by operation, and a controller configured to control a voltage generated from the non- And a transistor configured to swing in correspondence with the set voltage. The transistor may be a P-MOSFET (Metal Oxide Semiconductor Field Effect Transistor) or a BJT (Bipolar Junction Transistor).

The power key and the transistor are respectively connected to an AND gate, and the AND gate may be connected to the PMIC. The gate of the transistor may be connected to the contactless short range wireless communication module, the source may be connected to the battery, and the drain may be connected to the ground.

In order to achieve the above object, the present invention provides a mobile communication system including a reader configured to transmit predetermined information, and a mobile terminal configured to perform wireless communication with the reader, And a microcontroller unit (MCU) configured to activate the AP using the preset information, wherein the microcontroller unit comprises: a non-contact type short range wireless communication module configured to perform wireless communication through a change in a magnetic field formed between the reader and the reader; / RTI >

According to an embodiment of the present invention, the non-contact type short range wireless communication module includes an NFC (Near Field Communication) tag or a Radio Frequency IDentification (RFID) tag using a frequency corresponding to the reader.

According to another embodiment of the present invention, the mobile terminal further includes a PMIC (Power Management Integrated Circuit) configured to supply a quiescent current to the MCU until the AP is activated.

According to another embodiment of the present invention, the mobile terminal further includes a potential measuring sensor formed to detect a potential of the battery, and the PMIC can detect the potential of the battery only when the potential measured through the potential measuring sensor is equal to or greater than a reference value Power supply is applied.

According to another embodiment of the present invention, the noncontact wireless LAN communication module has a unique identification code, and the MCU is configured to activate the AP when the predetermined information corresponds to the identification code.

According to another embodiment of the present invention, when the AP is activated, the non-contact short range wireless communication module transmits a specific signal to the reader.

According to another embodiment of the present invention, when the AP is activated, a specific program is transmitted to the mobile terminal through the Wi-Fi module.

According to the present invention, the MCU activates the AP when the wireless communication is performed through a change in the magnetic field formed between the mobile terminal and the reader, And further download a specific program to the mobile terminal.

The PMIC compares the measured potential with a reference value to control the power supply to the AP. Thus, if the remaining amount of the battery is insufficient, the AP is not activated, thereby preventing malfunction due to the low current. Also, the status of the mobile terminal can be managed separately based on the status information of the mobile terminal transmitted to the reader.

FIG. 1 is a conceptual diagram showing a communication system according to an embodiment of the present invention, in which an AP of a mobile terminal is activated through wireless communication with a reader. FIG.
2 is a block diagram illustrating an AP boot system that activates an AP of the mobile terminal shown in FIG.
3 is a flowchart showing an example of controlling whether the AP is activated or not using predetermined information transmitted from a reader by the MCU of FIG.
4 is a circuit configuration diagram of the AP startup system shown in Fig.
5 is a flowchart showing an example in which the AP start-up system is controlled according to the operation state of the mobile terminal of FIG.

Hereinafter, a mobile terminal and a communication system including the same according to the present invention will be described in detail with reference to the drawings.

The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations. As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

1 is a conceptual view showing a communication system 10 related to an embodiment of the present invention in which an AP 210 of a mobile terminal 200 is activated through wireless communication with a reader 100, 3 is a block diagram showing the AP startup system 201 activating the AP 210 of the mobile terminal 200 shown in FIG. 101 is used to control whether the AP 210 is activated or not.

1 to 3, the communication system 10 includes a reader 100 and a mobile terminal 200. [ The reader 100 plays a role as a master device and may be an NFC reader, an RFID reader, a tablet PC, a PDA (Personal Digital Assistants), or the like. In addition, the mobile terminal 200 functions as a slave device, and may include a smart phone, a tablet PC, an e-book, navigation, and the like.

The reader 100 is configured to perform wireless communication through a change in a magnetic field formed between the reader 100 and the mobile terminal 200. The reader 100 is configured to transmit predetermined information to the mobile terminal 200 through the wireless communication and the mobile terminal 200 is set to receive the predetermined information and activate the AP 210. [

A DB (DataBase) 142 capable of pairing the reader 100 and the mobile terminal 200 is stored in the memory 140. The processor 110 is configured to generate the predetermined information 101 to be transmitted from the DB 142 stored in the memory 140 to the mobile terminal 200. [ The predetermined information may include at least one of a serial number of the mobile terminal 100, an ID of the non-contact local area wireless communication module 220, and an identification code associated with the mobile terminal 200, such as a network address.

The non-contact local area wireless communication module 120 is configured to transmit the predetermined information 101 to the mobile terminal 200. The non-contact near field communication module 120 may include a transceiver for wireless communication, an antenna for radio wave radiation, and a decoder for information analysis. The contactless short range wireless communication module 120 may be implemented as a dongle that is easily detachable as needed.

The reader 100 may be equipped with a Wi-Fi module 130. After the reader 100 and the mobile terminal 200 are paired, the program stored in the reader 100 may be transmitted to the mobile terminal 200 through the Wi-Fi modules 120 and 230. The program may be, for example, an updated OS or a specific application.

The mobile terminal 200 comprises an AP activation system 201 for activating the AP 210. [ The AP startup system includes an AP 210, a contactless short range wireless communication module 220, a potential measurement sensor 240, a PMIC (Power Management Integrated Circuit) 250 and an MCU 260.

The AP 210 may include one or more of a core, a memory, a display system / controller, a multimedia encoding / decoding codec, a 2D / 3D accelerator engine, an ISP (Image Signal Processor), a camera, / Parallel connection interface, and the like.

The non-contact type short range wireless communication module 220 is configured to perform wireless communication with the non-contact type short range wireless communication module 120 of the reader 200 in an electromagnetic induction manner. The noncontact wireless local area communication module 220 includes a near field communication (NFC) tag or a radio frequency identification (RFID) tag using a frequency corresponding to the noncontact wireless local area communication module 120 of the reader.

The NFC or RFID tag may be classified into passive, semi-passive, and active depending on the power supply type. In the case of the passive tag, the mobile terminal 200 uses the flux change at the side of the reader 100 as energy and reads information of the integrated circuit. In the semi-passive tag, the power of the mobile terminal 200 is used to read the information of the integrated circuit, and the power of the reader 100 is used to wirelessly communicate. Finally, in the active tag, the power of the mobile terminal 200 is used to both read the information of the integrated circuit and communicate the information.

The communication system 10 implemented with the NFC / RFID tag and the reader 100 can be maintained at a lower power than the communication system using the BLE (Bluetooth Low Energy) technology. Also, in the case of the passive type and semi-passive type tag, the power itself consumed from the mobile terminal 200 is reduced because the energy source for driving all or some of the functions is obtained through the magnetic flux variation as described above.

A battery 270 for supplying power to the mobile terminal 200 is built in or detachably mounted inside the mobile terminal 200. The battery 270 is charged with a predetermined level of power and the battery 270 supplies a quiescent current to the AP starting system 201 through the PMIC 250 until the AP 210 is activated . The reason why the AP startup system 201 can be maintained for a long time is due to the fact that the battery 270 is kept at a minimum current, that is, a constant operating current.

The MCU 260 is configured to activate the AP 210 when wireless communication is performed through a change in the magnetic field formed between the reader 200 and the reader. The MCU 260 may be configured as an example of a control unit for controlling overall operations related to upgrading such as downloading a specific program by performing wireless communication with the reader 100. [ When the predetermined information 101 transmitted from the reader 100 in the standby mode corresponds to the identification code of the mobile terminal 200, the MCU 260 controls the reader 100 As shown in FIG.

The MCU 260 can be set to be initialized when the battery 270 is mounted on the mobile device 200. [ The setting data of the multipurpose input and output ports GPIOs of the MCU 260 and the profile of the noncontact wireless LAN communication module 220 stored in the EEPROM 261 of the MCU 260 are stored in the RAM 262 of the MCU 260, Lt; / RTI >

The PMIC 250 is configured to control the power supply to the AP 210. For example, when the non-contact short range wireless communication module 220 receives valid predetermined information 101 from the reader 100, it compares the measured potential of the battery 270 through the potential measurement sensor 240 with a reference value, And controls the power supply to the AP 210 using the comparison result.

The PMIC 250 may be configured to apply a power supply to the AP 210 only when the measured potential is greater than or equal to a reference value. For example, the battery 250 maintains a certain level of power over a certain remaining amount. If the power of the battery 270 falls below a reference value because the mobile terminal 200 is kept in stock for a long period of time, the power may be cut off during the operation of the AP 210. The PMIC 250 compares the measured potential with a reference value and maintains a shutdown state (or a state of supplying a positive operation current) without applying power supply when the remaining amount of the battery 270 is insufficient, Thereby preventing a malfunction due to a failure.

The contactless short range wireless communication module 220 may be configured to transmit a specific signal to the reader 100. The specific signal may include information indicating the state of the mobile terminal 100, such as whether the AP 210 is activated or not, and the potential of the battery 270. The reader 100 can separately manage the state of the mobile terminal 200 based on whether the AP 210 of the mobile terminal 200 is activated or not, and the measured potential.

The AP startup system may further include a power key 290, an LDO (Low Drop Out) 280, and a switch 211. The power key 290 is connected to the PMIC 250 and selectively supplies power to the AP 210. The power key 290 may be implemented as an operation key exposed to the outside of the mobile terminal 200. [ The LDO 280 is configured to supply the power required for operation of the contactless short range wireless communication module 220. Also, the switch 211 is opened between the AP 210 and the non-contact type short-range wireless communication module 220 before the AP 210 is activated, and is closed after the AP 210 is activated. For example, when the AP 210 is activated by receiving the predetermined predetermined information 101 from the non-contact wireless local area communication module 120 of the reader 100, the non-contact wireless local area communication module 220 activates the Wi- The AP 230 transmits an updated OS or a specific application received from the reader 100 or another external device to the AP 210. [

Although the above description has been made on the basis of one reader 100 and one mobile terminal 200 connected thereto, execution of pairing or downloading of programs can be performed on a plurality of mobile terminals 200 simultaneously or sequentially.

Hereinafter, a communication system capable of activating the AP 210 of a plurality of mobile terminals 200A-N by one transmission without individual pairing will be described in more detail.

4 is a circuit configuration diagram of the AP startup system 201 shown in FIG.

4, the battery 270 supplies a preset voltage to each of the configurations of the mobile terminal 200 through the PMIC 250 and supplies the predetermined voltage to the AP startup system 201 before the AP 210 is activated. And supplies an operating current. Accordingly, the mobile terminal 200 can monitor a signal transmitted from the outside while consuming a minimum amount of power.

The mobile terminal has a power key 290 connected to the PMIC 250 to selectively supply power to the AP 210. The power key 290 may be exposed to the outside of the mobile terminal 200 and configured to be pressed and operated.

That is, the AP 210 may be activated through wireless communication with the reader 200 or may be activated by the operation of the power key 290. [ In the former case, the generated voltage is lower than in the latter case. A transistor 222 is connected to the contactless short range wireless communication module 220 and the transistor 222 and the power key 290 are connected to the PMIC 250 through an AND gate 225. [ .

Specifically, the transistor 222 is configured to swing a voltage generated from the non-contact type short-range wireless communication module 220 to correspond to a preset voltage supplied by the operation of the power key 290. The transistor 222 may be, for example, a P-MOSFET (Metal Oxide Semiconductor Field Effect Transistor) or a BJT (Bipolar Junction Transistor).

The gate of the transistor 222 is connected to the output connection port of the contactless short range wireless communication module 220, the source is connected to the battery 270 through the resistor 271, and the drain is connected to the ground. The output connection of the AND gate 225 is connected to the PMIC and the input connection is connected to the battery 270 via the source and power key 290 of the transistor 222 and the resistor 272.

In the AP startup system 201, the contactless short-range wireless communication module 220 generates an output signal 223 of a high-low-delay-high pattern when the predetermined information 101 is valid and outputs the generated output signal 223 ) Is the same as the V _PAD value. Transistor 222 converts V _PAD flowing into the input of AND gate 225 to V _BAT . When the input signal 224 is input to the AND gate 225, the PMIC 250 generates an AP activation signal 251 to activate the AP 210. [

Further, when the power key 290 is operated by the user, V _BAT flows into the input port of the AND gate 225. When the input signal 224 is input to the AND gate 225, the PMIC 250 generates an AP activation signal 251 to activate the AP 210. [

When the AP 210 starts up, it generates a Wi-Fi module start signal 213 to activate the Wi-Fi module 230 installed in the mobile terminal 200, and can perform additional functions using the signal. For example, an updated OS, a specific application, and the like may be transmitted to the mobile terminal 200 through the Wi-Fi module 230.

5 is a flowchart showing an example in which the AP startup system 201 is controlled according to the operating state of the mobile terminal 200 of FIG.

Referring to FIG. 5, the AP OFF / non-contact wireless local area communication module OFF state 402 indicates that the mobile terminal 200 shown in FIG. 1 has no power source such as the battery 270.

The MCU 260 of the mobile terminal 200 and the noncontact wireless LAN communication module 220 are set to the standby mode when the battery 270 is mounted on the mobile terminal 200 during the package process of the mobile terminal 200 (406). During the standby mode, the MCU 260 is configured to sense a signal transmitted from an external device.

In the MCU IN STANDBY MODE / AP IN SLEEP MODE state 406, the AP 210 maintains a sleep mode that consumes a minimum amount of power at the battery 270. In this way, the AP startup system 201 can maintain the standby mode for several months only by the normal operation current supplied from the battery 270. [

In addition, as shown in the pairing request / ack 408 and the AP on request / ack 410, the state of the mobile terminal 200 is changed to the AP ON state (412).

In the AP ON state 412, the AP 210 of the mobile terminal 200 is activated and the AP 210 performs a Wi-Fi ON command 414 to activate the Wi-Fi module 230, The state of the Wi-Fi switch 200 is switched to the Wi-Fi ON state 416. [

Thereafter, when the mobile terminal 200 is in the Wi-Fi ON state 416 as shown in the OS image download 418, the download of the OS image is transferred from the reader 100 or other external device. When the download of the OS image is terminated 420, the MCU 260 of the mobile terminal 200 enters the standby mode and the AP 210 receives the MCU IN STANDBY MODE / AP IN SLEEP MODE status 406 ).

When the package is removed and a SIM (Subscriber Identification Module) CARD is inserted 422 into the mobile terminal 200, the MCU 260 is disabled. That is, in the case of the normal operation, the MCU 260 is switched to the disable state (424) so that the user can not artificially operate the function because wireless communication with the reader 100 is unnecessary. In this case, the MCU 260 may remain completely disabled or removed. Alternatively, if the SIM CARD is removed from the mobile terminal 200, the mobile terminal 200 may be configured to return to the AP OFF / non-contact wireless local area communication module OFF state 402.

If a universal serial bus (USB) is inserted into the mobile terminal 200 and the mobile terminal 200 is connected to an external device (428), the MCU 260 is temporarily disabled (430). For example, if the mobile terminal 200 is to be tested via USB, it may be temporarily disabled during testing since this is a process that may occur prior to normal opening. When the test is completed and the USB is removed from the mobile terminal 200, the MCU 260 is again switched to the MCU IN STANDBY MODE / AP IN SLEEP MODE state 406 (432).

Also, when the AP 210 is activated through the power key 290 of the mobile terminal 200, the MCU 260 is temporarily disabled (436). As described above, if the SIM card is inserted into the mobile terminal 200, the MCU 260 may be completely disabled. Thereafter, when the power key 290 is pressed again, the MCU 260 may again switch to MCU IN STANDBY MODE / AP IN SLEEP MODE state 406 (428). If the power key 290 is pressed for more than a predetermined time, the mobile terminal 200 may switch 438 to the AP OFF / non-contact wireless local area communication module OFF state 402.

The mobile terminal and the communication system including the mobile terminal described above are not limited to the configurations and methods of the embodiments described above, but the embodiments may be modified so that all or some of the embodiments are selectively combined .

Claims (15)

AP (Application Processor);
A non-contact type short range wireless communication module configured to perform wireless communication through a change in a magnetic field formed between the reader and a reader;
An MCU (Micro Controller Unit) configured to activate the AP when the wireless communication is performed;
A PMIC (Power Management Integrated Circuit) configured to supply a quiescent current to the MCU until the AP is activated; And
And a potential measurement sensor formed to detect the potential of the battery,
Wherein the PMIC is configured to apply power supply to the AP only when the potential measured through the potential measurement sensor is equal to or greater than a reference value. The method according to claim 1,
Wherein the non-contact type short range wireless communication module includes a Near Field Communication (NFC) tag or a Radio Frequency IDentification (RFID) tag using a frequency corresponding to the reader. delete delete The method according to claim 1,
A battery configured to supply a preset voltage;
A power key configured to activate the AP by supplying the predetermined voltage by an operation; And
Further comprising a transistor configured to swing a voltage generated from the non-contact type short-range wireless communication module to correspond to the preset voltage. delete delete delete A reader configured to transmit predetermined information; And
And a mobile terminal configured to perform wireless communication with the reader,
The mobile terminal includes:
AP (Application Processor);
A non-contact type short range wireless communication module configured to perform wireless communication through a change in a magnetic field formed between the reader and the reader;
An MCU (Micro Controller Unit) configured to activate the AP using the preset information;
A PMIC (Power Management Integrated Circuit) configured to supply a quiescent current to the MCU until the AP is activated; And
And a potential measurement sensor formed to detect the potential of the battery,
Wherein the PMIC is configured to apply power supply to the AP only when the potential measured through the potential measurement sensor is equal to or greater than a reference value. delete delete delete 10. The method of claim 9,
Wherein the non-contact type short-range wireless communication module has a unique identification code,
Wherein the MCU is configured to activate the AP if the predetermined information corresponds to the identification code. 10. The method of claim 9,
And when the AP is activated, the non-contact wireless local area communication module transmits a specific signal to the reader. 10. The method of claim 9,
Wherein when the AP is activated, a specific program is formed to be transmitted to the mobile terminal via a Wi-Fi module.

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