KR101399958B1 - Wireless charging apparatus for cutting off standby power and method for controlling thereof - Google Patents

Abstract

The present invention relates to a non-contact charging device having a function of interrupting a standby power, and in a charging system in which a power signal is wirelessly transmitted to a non-contact charging device that is remote from the non-contact wireless charging device, It completely cuts off the power to the charger so that unnecessary waste power is prevented from being wasted by the solid state wireless charger even when the charging is completed, so that it is possible to reduce the waste of energy by reducing the production of electric power,

Description

TECHNICAL FIELD [0001] The present invention relates to a non-contact charging system having a standby power shutoff function, and a control method thereof. BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a non-contact power charging system having a standby power interruption function, and more particularly, to a non-contact power charging system having a standby power interruption function, The present invention relates to a solid-state charging system and a control method thereof.

Charging of mobile phones, PDAs, MP3s, PMPs, notebooks, electric vehicles and the like is generally performed by using a terminal or by a magnetic field generated in a primary coil The secondary coil is charged with induction electromotive force, and the resonance type non-contact charging system is used to increase the charging distance.

However, this charging system wastes energy unnecessarily because the standby power is not blocked even when the charging devices of the surrounding charging devices are completed, which accelerates the global warming due to the increase in the amount of CO2 emission, thereby developing a technology to cut off wasteful standby power This is an urgent task.

(1) Korean Patent Laid-Open No. 10-2007-0015264 (entitled "Charging power supply device, charging device, battery device, solid state charging method and solid state charging method ", Applicant: LS Cable Co., 5 people, release date: February 2, 2007) (2) Korean Patent Publication No. 10-2004-87037 (entitled "Solid-state rechargeable battery pack with battery information processing device inserted therein ", Applicant: Han Lim POSTECH, inventor: October 13)

Accordingly, it is an object of the present invention to provide a solid state charging system and a resonance type solid state charging system, In order to prevent unnecessary wasted power by continuously supplying the power from the solid state charger even when charging is completed, there is a standby power cutoff function which cuts off the standby power and cuts off the standby power, A contact charging device and a control method thereof.

According to one aspect of the present invention, there is provided a contactless charging apparatus having a standby power shutdown function, A power supply unit for receiving an external power source and generating a power source for the device and a charging power source for the contactless charging device; A power supply / cutoff unit provided in the power supply path provided to the power supply unit and having a switch structure for supplying or cutting off the external power supply to the power supply unit according to external control; A power transmission circuit unit for providing the charging power for the non-contact charging unit generated from the power supply unit to the non-charging charging unit using the inductive charging method of the inductive resonance type; A wireless transceiver for transmitting and receiving a wireless signal for performing charge-related wireless communication with the solid state charging device; When there is a contactless charger that wakes up from a sleep mode every preset cycle and communicates with the non-contact charging device through the wireless transmission / reception unit, the power supply / cutoff unit supplies the external power to the power supply unit And a controller for controlling the external power supplied to the power supply unit to be turned off to enter the sleep mode when there is no contactless charger requiring wireless charging, Wow; And a sleep mode power source unit for charging a power source for supplying power to the control unit and the wireless transceiver unit in the sleep mode.

Preferably, the power supply / cut-off unit implements a switching structure using a latching relay, a relay, or a semiconductor device, and the sleep mode power supply unit is configured using a supercapacitor.

Preferably, the controller controls the power supply / cutoff unit so that the external power supplied to the power supply unit is cut off even when continuous communication with the non-contact charging unit during charging is performed during the charging operation of the contactless charging unit And enters the sleep mode.

Preferably, the control unit checks the power state at a preset cycle to control the power supply / cutoff unit at a predetermined cycle so that the power is supplied before the charge power of the sleep mode power supply unit is completely discharged, And a control unit for controlling the contactless charging unit.

According to another aspect of the present invention, there is provided a power supply unit for a mobile communication terminal, comprising: a power supply unit provided with an external power supply and generating a power supply for the device and a charging power supply for the contactless charging device; And a power supply / cut-off unit for supplying or cutting off the power supply to the power supply unit, the method comprising the steps of: Wirelessly transmitting an acknowledgment signal for waking up from the sleep mode and confirming the non-contact charging device at a preset cycle; Performing a charging operation by causing the power supply / cutoff unit to supply the external power supply to the power supply unit at the time of receiving the charging request signal from the identified non-contact charging unit; The power supply / cutoff unit may cut off the external power supplied to the power supply unit to prevent the charging operation from being performed when the non-contact charging unit is not required, And entering the sleep mode.

Preferably, even when continuous communication with the non-contact charging device is not performed during continuous charging of the non-contact charging device during charging operation of the non-contact charging device, the power supply / So that the provided external power supply is cut off.

Preferably, the checking whether there is a non-contact charging device requiring charging is confirmed by receiving a charging completion signal from the non-contact charging device. When charging the plurality of non-contact charging devices simultaneously, It is confirmed whether or not the charging completion signal is received from all of the chargers or that continuous communication is not performed.

As described above, according to the present invention, when one or more non-contact charging units are charged in the non-contact charging apparatus, the power of the non-contact charging apparatus is completely cut off and the power is wasted even if the charging is completed. It is possible to reduce waste of electric power by reducing electric power waste, to prevent waste of energy and to prevent environmental pollution by reducing CO2 generated in the electric power generation.

1 is a block diagram of an inductive-type solid-state charging system having a stand-by power cut-off function according to an embodiment of the present invention
2 is a block diagram of a resonance type solid state charging system having a standby power shutdown function according to an embodiment of the present invention
3 is a flowchart of a non-contact charging operation having a standby power interruption function according to an embodiment of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, specific items such as a solid state charger, a non-contact charging unit, a high frequency power driving unit, a resonance power converting unit, a power supply / cutoff unit, a sleep mode power supply unit and the like are shown. Only. It will be apparent to those skilled in the art that certain changes and modifications may be made thereto without departing from the scope of the present invention.

The non-contact charging system having the stand-by power interrupting function according to the present invention comprises a non-contact charging device (1) and a non-contact charging device (2) located apart from the non-contact charging device (1). As shown in FIG. 1, the non-contact charging system includes an inductive charging system of the inductive type and a resonant system non-contact charging system as shown in FIG. 2. In the nonconductive charging system 1, A power supply / cut-off unit 15 which cuts off the power to prevent power waste when the contact charging unit 2 is charged and supplies power when the non-contact charging unit 2 requires charging; The sleeping mode power supply unit 11 supplies power only to the control units 14 and 140 and the wireless transmitting and receiving units 13 and 150 in a state where the contactless charger 1 is powered off, Mode power supply unit (11, 120).

1 is a block diagram of an inductive-type non-contact charging system having a standby power-off function according to an embodiment of the present invention. Referring to FIG. 1, The configuration of the system will be described in more detail. The configuration of the system is largely constituted by the solid state charger 1 and the non-solid state charging device 2 located apart from the solid state charging device 1.

The control unit 14 provided for controlling the power supply of the contactless charger 1 in a state in which the power supply is turned off (sleep mode) and the power supply is awakened from the sleep mode every preset period T1, And transmits a transmission signal for confirming whether there is a non-contact type charging device 2 to be charged through the wireless transmission / reception section 13 and antenna 1 provided. Then, when the charge request signal is received from the non-contact charging device 2, the power supply / cutoff part 15 is controlled to supply power. That is, the power supply / cut-off unit 15 of the switch structure performs the function of supplying or cutting off the external power source (for example, AC 220V) to the power source unit 10 under the control of the control unit 14. [ The power supply unit 10 receives the external power through the power supply / cut-off unit 15 and receives the operation power of the internal non-contact type charger 1 (internal functional units) And generates power. Accordingly, the power supply unit 10 supplies power to the power supply unit 10 to supply the charging power by the external power supply operation of the power supply / cut-off unit 15. The power supply unit 10 generates the charging power, Frequency power driver 12 and the coil 1 in the example of Fig. 1, in order to provide charging power to the non-contact charging device 2 by using the power supply circuit. Accordingly, by converting the high frequency power from the high frequency power driving unit 12, which is required for charging to a high frequency, to be applied to the induction coil 1, the induction coil 1 of the non- The high frequency is guided to the coil 2 provided at the position corresponding to the position 1 in FIG. At this time, power is supplied to the sleep mode power supply unit 12 provided for supplying power to the control unit 14 and the wireless transmission / reception unit 13 in the sleep mode.

Also, in a state of being charged, the solid state charger 1 transmits a signal to check whether there is a solid state charging device 2 that requires another charging every predetermined period T1, and outputs a charging request signal The ID number of the non-contact charging device 2 is set.

The electric power induced in the induction coil 2 provided in the non-contact charging device 2 is supplied to a charging voltage supplying part 17 for supplying a voltage, and the charging voltage supplying part 17 charges the battery accordingly. At this time, the charge voltage sensing unit 18, which is provided to control and sense the charge voltage of the battery under the control of the control unit 19 of the non-contact charging unit 2, senses the charged state of the battery and provides it to the control unit 19 do. When the battery is fully charged, the control unit 19 transmits / receives the transmission / reception signal to / from the non-contact charging unit 1 through the wireless transmission / reception unit 20 and the antenna 2, which are provided for wirelessly transmitting / .

1, when the power of the contactless charger 1 is cut off, the control unit 14 (composed of a microcomputer) periodically wakes up from the sleep mode and the wireless transmission / reception unit 13 (Not shown) to transmit the transmission signal for confirming the non-contact charging device 2 to the charging / discharging device 2, and when the charging request signal is received from the non-contact charging device 2 to be charged, (Including a latching relay, a relay, or a semiconductor element) to provide an external power source to the power source unit 10. [ Accordingly, the power supply unit 10 supplies power to the high-frequency power driving unit 12, which is adapted to convert the power required for charging into high-frequency power, so that the high-frequency power is applied to the coil 1. At this time, a sleep mode power supply unit 12 (which may be constructed using a super capacitor or the like) that wakes up periodically and supplies power for controlling is also charged.

Meanwhile, the wireless transceiver unit 13 and the antenna 1 are provided to transmit and receive data to and from the non-contact-type battery charger 2, so that information necessary for charge control can be exchanged. Here, the radio transmission / reception frequency can use 2.4 GHz or 5 GHz band.

In addition, the communication protocol can construct a packet with any byte (byte). For example, a start indicator 1 byte, a data field size 1 byte, a command 1 byte, a packet type 1 byte, a data buffer variable byte, a packet check 1 byte, and an end indicator 1 byte can be configured.

When the electric power is induced in the coil 2 provided in the non-contact charging unit 2, the control unit 19 (composed of a Michael computer) of the non-contact charging unit 2 controls and senses the charging voltage, The control unit 19 causes the wireless transmission / reception unit 20 to wirelessly transmit / receive a signal to the solid state charger 1 via the antenna 2 to the solid state charger 1.

1, the solid state charger 1 according to the embodiment of the present invention further includes a charging switch 16 for manually operating a wireless charging start operation by a user . In other words, when the charging switch 16 is operated by the user, the control unit 14 controls the power supply cutoff unit 15 in a state where the external power supply is cut off by the current power supply cutoff unit 15 The charging operation for the non-contact charging device 2 is carried out by controlling the external power source to be supplied to the power source unit 10 and then the power source interrupting unit 15 is controlled by the power source unit 10 The external power supply is interrupted.

This configuration is more advantageous when applied to a system in which the non-contact charging unit 1 and the non-contact charging unit 2 are charged at a ratio of 1: 1. In this case, the sleep mode power supply unit 11 is not provided, It is also possible to perform a charging start operation by operating the switch 16 for charging.

FIG. 2 is a block diagram of a resonance type solid state charging system having a standby power interruption function according to an embodiment of the present invention. The structure of the resonance type solid state charging system is substantially the same as that shown in FIG. 1, And a noncontact charging device 2 which is located apart from the charging device 2. The configuration shown in FIG. 2 also differs from the configuration shown in FIG. 2 in that a configuration for performing wireless charging by a resonance method is further provided. The configuration may be the same as the configuration shown in FIG.

That is, in the resonance type solid state charging system shown in FIG. 2, the solid state charger 1 includes an inductive power transmission unit 100 having the same configuration as that shown in FIG. 1, And a transmitting resonance power converting unit 200 for converting the resonance power into resonance power. The non-contact charging unit 2 further includes a receiving resonance power converting unit 300 for receiving the resonance-type power generated by the transmission resonance power converting unit 200 of the solid state charger 1 to convert the inductive power, And a power receiving unit 400.

First, the configuration and operation of the solid state charger 1 will be described. In the control unit 140 provided for controlling the power supply of the solid state charger 1 in a state in which the power is off (sleep mode) The control unit 140 transmits a signal for confirming whether there is a non-contact charging unit 2 to be charged through the wireless transmitting / receiving unit 150 provided for waking up and receiving wireless transmission every predetermined period T1 and the antenna 3, When the charging request signal is received from the contact charging unit 2, the power supply / cutoff unit 15 is controlled to supply external power to the power supply unit 110, which is provided to supply the charging power. Accordingly, the power required for charging is applied to the transmission coil 111 with high-frequency power from the high-frequency power driver 130 provided to convert the high-frequency power. At this time, power is supplied to the sleep mode power supply unit 120, which is provided for supplying power to the control unit 140 and the wireless transceiver unit 150 in the sleep mode. Also, in a state of being charged, the solid state charger 1 transmits an acknowledgment signal to check whether another non-contact charged cell 2 is present every predetermined period T1, and when a signal is received from another non-contact charged cell 2, Set the number.

In the transmission resonance power conversion unit 200 provided for resonance power transmission, in order to receive the power derived from the transmission coil 111, the reception resonance power conversion unit 200, which is provided at one side of the transmission resonance power conversion unit 200, A power transmission coil 250 is provided on the other side so that a resonance power signal is transmitted to the receiving resonance power converting unit 300. The power signal generated by the receiving coil 211 is transmitted as a resonance signal, A power conversion processing unit 220, a power signal conversion processing unit 230, a conversion converter unit 240, and a conversion control unit 210 are provided.

The receiving resonance power converting unit 300 of the non-contact charging unit 2 includes a power receiving core 350 for receiving a power signal output from the power transmitting coil 250, And an induction transmission coil 360 for inducing induction power to the power receiving core 400 side is provided on the other side and the power signal generated in the power receiving core 350 is supplied to the induction transmission coil 360 by an induction magnetic field generated from the induction transmission coil 360 A resonance reception processing unit 340, a resonance signal conversion processing unit 33, a resonance converter unit 320, and a resonance reception control unit 310 for generating a power signal by a signal.

Meanwhile, a secondary charging coil 460 is provided at one side of the induction power receiving unit 400 for receiving a signal by an induction magnetic field generated from the induction transmission coil 360 and charging the battery, and the secondary charging coil 460 A power receiving unit 440, a charging power unit 420, a control unit 410, a wireless transmitting / receiving unit 430, and an antenna 4 to charge the received power to the battery.

FIG. 3 is a flowchart of a non-contact charging operation with a standby power cutoff function according to an embodiment of the present invention. In FIG. 1 and FIG. 2, Can be performed by the control unit of the charger 2. Referring to FIG. 3, in step 502, the controller of the non-contact charger 1 awakes from the sleep mode at regular intervals and controls to wirelessly transmit an acknowledgment signal for confirming the non-contact charging device 2. Upon receipt of the confirmation signal of the solid state charger 1, the controller of the solid state charging device 2 controls the wireless transmission of the charging request signal including its own unique ID in step 504 when charging is requested. In step 506, the controller of the solid state charger 1 receives the charge request signal transmitted from the solid state charger 1, thereby confirming the solid state charger required to be charged and performing the charging operation.

In step 508, the control unit of the non-contact charging unit 2 wirelessly transmits a charging completion signal including its own ID to the non-contact charging unit 1 when the charging is completed. In step 510, 1 stops the charging operation when there is no contactless charging device 2 that requires the charging by receiving the charging completion signal, and controls to enter the sleep mode in step 512.

3, if there is a non-contact charging device 2 that is to be charged in the vicinity of the power-off state or charging state, the control section of the non-contact charging device 1 periodically And transmits a confirmation signal to the wireless transmission / reception unit through the antenna to confirm whether or not the non-contact charging unit 2 is present around the wireless transmission / reception unit.

Thereafter, when there is a non-contact charging device 2 to be charged in the periphery, when a signal is received through the antenna of the non-contact charging device 2 to the wireless transmission / reception device, the control part of the non- Generates a unique ID number, transmits a signal to the antenna through the wireless transmission / reception unit, and sends a signal to charge the antenna.

When a signal having a unique ID number of the non-contact type charger 2 to be charged by the antenna of the non-contact charger 1 is received, a unique ID number is set and the power supply / To start charging. During charging, the non-contact charging device (1) periodically transmits a confirmation signal to the non-contact charging device (2) via the antenna and receives a signal giving an arbitrary unique ID number from the non-contact charging device Set the unique ID number and charge it.

When the non-contact charging unit 2 is charged, the non-contact charging unit 2 transmits a charging completion signal including a unique ID number to the antenna through the wireless transmission / reception unit. The control unit of the non- The non-contact charging device 2 is identified by the signal received by the antenna of the non-contact charging device 1, and it is determined that the non-contact charging device 2 having the corresponding ID number has been charged, Clear.

If communication with the non-contact type charging device 2 of the set ID number is not possible, it is determined that the charging has not been completed in the vicinity and the charging is not completed, and the ID number is cleared.

When all of the ID numbers of the non-contact type charging devices 2 are being charged, if the corresponding ID numbers are all cleared, it is determined that the charging is completed and the power supply / Mode to wake up to the period T1 and check whether there is a charging request signal of the non-contact charging device 2 in the vicinity, and if not, control to go back to the sleep mode again.

In order to prevent discharging of all the charging power of the sleep mode power source unit because the power is not supplied to the solid state charger 1 for a long time, the power source state is checked periodically, The sleep mode power supply unit 11 is controlled to charge the sleep mode power supply unit 11 by controlling the power supply /

In addition to the above operation, when the solid state charger 1 is in the sleep mode, when the charge request signal is transmitted from the solid state charger 2 to the non-contact charger 1, 1 may awaken from the sleep mode and perform an operation of performing a charging operation on the received non-contact charging device 2. That is, even in this case, the solid state charger 1 awakes from the sleep mode, sets the unique ID of the received solid state charging device, generates the charging power to supply the charging power, And clearing the set unique ID when the unique ID is received.

As described above, according to one embodiment of the non-contact charging apparatus having the standby power shutdown function configured to automatically shut off the standby power of the non-contact charging system and to automatically charge the battery when necessary, and a control method thereof Various modifications may be made without departing from the scope of the present invention. Accordingly, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by equivalents of the claims and the claims.

Claims (8)

A contactless charging apparatus having a standby power shutoff function,
A power supply unit for receiving an external power source and generating a power source for the device and a charging power source for the contactless charging device;
A power supply / cutoff unit provided in the power supply path provided to the power supply unit and having a switch structure for supplying or cutting off the external power supply to the power supply unit according to external control;
A power transmission circuit unit for providing the charging power for the non-contact charging unit generated from the power supply unit to the non-charging charging unit using the inductive charging method of the inductive resonance type;
A wireless transceiver for transmitting and receiving a wireless signal for performing charge-related wireless communication with the solid state charging device;
When there is a contactless charger that wakes up from a sleep mode every preset cycle and communicates with the non-contact charging device through the wireless transmission / reception unit, the power supply / cutoff unit supplies the external power to the power supply unit And a controller for controlling the external power supplied to the power supply unit to be turned off to enter the sleep mode when there is no contactless charger requiring wireless charging, Wow;
And a sleep mode power source unit for charging a power source for supplying power to the control unit and the wireless transceiver unit in the sleep mode;
The control unit controls the power supply / cutoff unit at a predetermined period so that the power supply is supplied before the charge power of the sleep mode power supply unit is discharged by checking the power supply state at a predetermined cycle, Wherein the solid-state charging device is a solid-state charging device.
A contactless charging apparatus having a standby power shutoff function,
A power supply unit for receiving an external power source and generating a power source for the device and a charging power source for the contactless charging device;
A power supply / cutoff unit provided in the power supply path provided to the power supply unit and having a switch structure for supplying or cutting off the external power supply to the power supply unit according to external control;
A power transmission circuit unit for providing the charging power for the non-contact charging unit generated from the power supply unit to the non-charging charging unit using the inductive charging method of the inductive resonance type;
A wireless transceiver for transmitting and receiving a wireless signal for performing charge-related wireless communication with the solid state charging device;
When there is a contactless charger that wakes up from a sleep mode every preset cycle and communicates with the non-contact charging device through the wireless transmission / reception unit, the power supply / cutoff unit supplies the external power to the power supply unit And a controller for controlling the external power supplied to the power supply unit to be turned off to enter the sleep mode when there is no contactless charger requiring wireless charging, Wow;
And a sleep mode power source unit for charging a power source for supplying power to the control unit and the wireless transceiver unit in the sleep mode;
The power supply / cutoff unit may implement a switching structure with a latching relay, a relay, or a semiconductor device,
Wherein the sleep mode power supply unit is configured using a super capacitor.
2. The apparatus of claim 1, wherein, even when the non-contact charging unit is not continuously communicating with the non-contact charging unit during charging operation of the contactless charging unit, So as to enter the sleep mode.
delete 4. The apparatus according to any one of claims 1 to 3, further comprising a charging switch for manually operating a wireless charging start operation by a user,
Wherein the control unit starts the charging operation by the operation of the charging switch.
A power supply unit provided in a power supply path provided to the power supply unit to supply or cut off the external power supply to the power supply unit, A non-contact charging method for a non-contact charging apparatus having a blocking unit and a sleep mode power supply unit for charging a power source for supplying power to internal functional units in a sleep mode,
Wirelessly transmitting an acknowledgment signal for waking up from the sleep mode and confirming the non-contact charging device at a preset cycle;
Performing a charging operation by causing the power supply / cutoff unit to supply the external power supply to the power supply unit at the time of receiving the charging request signal from the identified non-contact charging unit;
The power supply / cutoff unit may cut off the external power supplied to the power supply unit to prevent the charging operation from being performed when the non-contact charging unit is not required, And entering the sleep mode;
And controlling the power supply / cutoff unit so that the external power supply is provided to the power supply unit by controlling the power supply state at a predetermined cycle so that power is supplied before the charging power of the sleep mode power supply unit is completely discharged And a contactless charging method.
The method according to claim 6,
When the non-contact charging unit is continuously performing communication with the non-contact charging unit during charging operation of the non-contact charging unit, even when continuous communication with the non-contact charging unit fails, the power supply / And the power supply is cut off.
8. The method according to claim 6 or 7, wherein confirming that there is no non-contact charging device requiring charging is confirmed by receiving a charging completion signal from the non-contact charging device,
Wherein when the plurality of non-contact charging units are simultaneously charged, whether or not the charging completion signal is received from all of the plurality of non-contact charging units or that continuous communication is not established is confirmed.

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