TW201325007A - Mobile power bank - Google Patents

Abstract

A mobile power bank comprises an inductive coil; an energy-saving module for storing electrical power; a wireless connection module electrically connected to a power management module and the inductive coil for being controlled to connect to a wireless electronic device through the inductive coil in order to detect whether the wireless electronic device is a wireless charger or a mobile device; a wireless charging reception module; and the power management module for detecting whether the amount of electrical power stored in the energy-saving module is insufficient or not, and controlling the wireless connection module. When the power management module determines that the wireless electronic device is the wireless charger and that the electrical power stored is insufficient, the wireless charging reception module is controlled by the power management module to receive a magnetic power, and convert it to electrical power for being stored in the energy-saving module.

Description

Mobile power

The invention relates to a power source, in particular to a mobile power source.

The conventional action power supply is simply a battery charging circuit and a DC voltage regulation output circuit, and its disadvantages are:

1. It is not possible to charge a conventional mobile power source using a wireless charger.

2. It is not possible to supply power to a mobile device with wireless charging function.

3. Today's portable electronic products are popular. Everyone owns 3 to 5 such products. Each charging interface is different, so that it is very inconvenient to carry a lot of charging adapters with electronic products. It also reduces the convenience of portable electronic products.

Accordingly, it is an object of the present invention to provide a mobile power source having a wireless charging function.

The mobile power source comprises: an induction coil, an energy storage module, a wireless connection module, and a wireless charging receiving module. The energy storage module is used to store a stored electrical energy. The wireless connection module is electrically connected to the power management module and the induction coil, and is controlled to communicate with a wireless electronic device via the induction coil to learn that the wireless electronic device is a wireless charger or a mobile device. . The wireless charging receiving module is electrically connected to the induction coil and the energy storage module. The power management module is electrically connected to the energy storage module to detect whether the storage capacity of the energy storage module is insufficient, and is electrically connected to the wireless connection module to control the wireless connection module. When the power management module determines that the wireless electronic device is the wireless charger and determines that the stored power is insufficient, the wireless charging receiving module is controlled by the power management module to receive a magnetic energy from the wireless charger. And converting the magnetic energy into electrical energy to be stored in the energy storage module as the stored electrical energy.

Preferably, the wireless connection module comprises a receiver and a transmitter. The receiver is configured to receive a communication signal from the wireless electronic device via the induction coil, and demodulate the communication signal to obtain a message. The transmitter is configured to receive a response related to the information, and obtain a communication signal according to the modulation, and transmit the communication signal to the wireless electronic device via the induction coil.

Preferably, the energy storage module comprises: a battery unit and a protection circuit. The battery unit is used to store the stored electrical energy. The protection circuit is electrically connected to the battery unit and is configured to prevent the battery unit from overheating and providing overcurrent protection to the battery unit.

Preferably, the wireless charging receiving module comprises: a receiving controller and a power converter. The receiving controller is configured to receive a charging command and output a control signal when receiving the charging command. The power converter is electrically connected to the battery unit of the energy storage module, the induction coil, and the receiving controller, for receiving the magnetic energy from the wireless electronic device via the induction coil, and receiving the control from the receiving controller And converting the magnetic energy into the electrical energy stored in the battery unit upon receiving the control signal.

Preferably, the mobile power source further comprises: a power input terminal and a wired charging module. The power input terminal is adapted to be connected to an AC/DC converter that provides DC power to receive the DC power. The wired charging module is electrically connected to the power input terminal and the battery unit of the energy storage module, and receives the DC power from the power input terminal, and is controlled to convert the DC power into a battery charging form power for storage. The battery unit is used as the stored power.

Preferably, the mobile power source further comprises: a current output terminal and an output voltage stabilizing circuit. The current output terminal is adapted to be connected to a mobile device. The output voltage stabilizing circuit is electrically connected to the battery unit of the energy storage module and the power output terminal, and receives the stored power from the battery unit, and is controlled to perform voltage regulation on the stored power to obtain a direct current The output voltage is transmitted to the mobile device via the power output terminal.

Preferably, the mobile power source further comprises: a wireless charging transmitting module. The wireless charging transmitting module is electrically connected to the induction coil and the energy storage module, and is controlled to convert stored energy of the battery unit from the storage module into magnetic energy and transmit the magnetic energy to the wireless electronic device via the induction coil.

Preferably, the wireless charging and transmitting module comprises: a transmitting controller and a magnetic energy converter. The emission controller is configured to receive a discharge command and output a control signal upon receiving the discharge command. The magnetic energy converter is electrically connected to the battery unit of the energy storage module, the induction coil, and the emission controller, for receiving the stored electrical energy from the battery unit, and receiving the control signal from the transmitting controller, and The stored electrical energy is converted into the magnetic energy when the control signal is received, and transmitted to the wireless electronic device via the induction coil.

Preferably, the battery management module comprises: a detection circuit, a management controller and a display circuit. The detecting circuit is electrically connected to the battery unit of the energy storage module to measure the voltage of the battery unit to provide a power information about the stored power. The management controller is electrically connected to the detecting circuit to receive the power information, and compares the power information with a preset value to determine whether the stored power is insufficient, and provides a display signal indicating whether the stored power is insufficient. The display circuit is electrically coupled to the management controller to receive the display signal and display it.

Preferably, the management controller is further connected to the wireless connection module, the wireless charging receiving module and the wireless charging transmitting module, for receiving the information from the receiver of the wireless connecting module, and according to the information Determining that the wireless electronic device is the wireless charger or the mobile device having the wireless charging function, determining whether the mobile device is insufficient in power, and providing the response to the transmitter of the wireless connection module, and according to the determination result and the At least a part of the power information determines whether the charging command and the discharging command are generated.

The above and other technical contents, features and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments.

As shown in FIG. 1 , a preferred embodiment of the mobile power supply of the present invention comprises: an induction coil L, an energy storage module 1, a wireless connection module 2, a power management module 3, and a wireless charging receiving module. WR, a wireless charging transmitting module WT, a wired charging module 4, a power input terminal IN, an output voltage stabilizing circuit 5, and a power output terminal O.

The energy storage module 1 includes a battery unit 10 and a protection circuit 11. The battery unit 10 is used to store a stored electrical energy. The protection circuit 11 is electrically connected to the battery unit 10 and is used to prevent the battery unit 10 from overheating and to provide overcurrent protection to the battery unit 10.

The wireless connection module 2 is electrically connected to the induction coil L and is controlled to be communicatively coupled to a wireless electronic device 6 via the induction coil L. The wireless connection module 2 includes a receiver R and a transmitter T. .

The receiver R is configured to receive a communication signal from the wireless electronic device 6 via the induction coil L, and demodulate the communication signal to obtain a message.

The transmitter T is configured to receive a response related to the information, and obtain a communication signal according to the modulation, and transmit to the wireless electronic device 6 via the induction coil L.

The wireless charging receiving module WR is electrically connected to the induction coil L and the energy storage module 1 and is controlled to convert a magnetic energy received from the wireless electronic device 6 via the induction coil L into electrical energy for storage into the The battery unit 10 of the energy storage module 1 serves as the stored electrical energy, and the wireless charging receiving module WR includes a receiving controller RC and a power converter EC.

The receiving controller RC is configured to receive a charging command and output a control signal when receiving the charging command.

The power converter EC is electrically connected to the battery unit 10 of the energy storage module 1 , the induction coil L, and the receiving controller RC for receiving the magnetic energy from the wireless electronic device 6 via the induction coil L, and The receiving controller RC receives the control signal, and converts the magnetic energy into the electrical energy stored in the battery unit 10 upon receiving the control signal.

The wireless charging and transmitting module WT is electrically connected to the induction coil L and the energy storage module 1 and is controlled to convert the stored electrical energy of the battery unit 10 from the storage module 1 into magnetic energy and transmit the magnetic energy through the induction coil L. To the wireless electronic device 6, and the wireless charging transmitting module WT includes a transmitting controller TC and a magnetic energy converter MC.

The transmit controller TC is configured to receive a discharge command and output a control signal upon receiving the discharge command.

The magnetic energy converter MC is electrically connected to the battery unit 10 of the energy storage module 1, the induction coil L, and the emission controller TC for receiving the stored electrical energy from the battery unit 10, and from the emission controller TC The control signal is received, and the stored electrical energy is converted into the magnetic energy when the control signal is received, and transmitted to the wireless electronic device 6 via the induction coil L.

The power input terminal IN is adapted to be connected to an AC/DC converter 7 that provides DC power to receive the DC power.

The wired charging module 4 is electrically connected to the power input terminal IN and the battery unit 10 of the energy storage module 1, and receives the DC power from the power input terminal O, and is controlled to convert the DC power into a battery charging. Formal power is stored to the battery unit 10 as the stored power.

The current output terminal O is adapted to be connected to a mobile device 8.

The output voltage stabilizing circuit 5 is electrically connected to the battery unit 10 of the energy storage module 1 and the power output terminal O, and receives the stored power from the battery unit 10, and is controlled to perform voltage regulation on the stored power. An output voltage that is DC is obtained and transmitted to the mobile device 8 via the power output terminal O.

The power management module 3 is electrically connected to the energy storage module 1 to detect whether the stored energy of the energy storage module 1 is insufficient, and is electrically connected to the wireless connection module 2 to control the wireless connection module 2 . The battery management module 3 includes a detection circuit 30, a management controller 31, and a display circuit 32.

The detecting circuit 30 is electrically connected to the battery unit 10 of the energy storage module 1 to measure the voltage of the battery unit 10 to provide a power information about the stored power.

The management controller 3 is electrically connected to the detection circuit 30 to receive the power information, and compares the power information with a preset value to determine whether the stored power is insufficient, and provides a display signal indicating whether the stored power is insufficient.

The display circuit 32 is electrically connected to the management controller 31 to receive the display signal and is displayed. In the embodiment, the display circuit 32 can be a light-emitting diode that indicates whether the stored energy is insufficient by the brightness thereof. Or a liquid crystal display that digitally displays the stored electrical energy, or a light that indicates whether the stored electrical energy is insufficient.

The management controller 31 of the power management module 3 is also electrically connected to the wireless connection module 2, the wireless charging receiving module WR, and the wireless charging transmitting module WT for receiving from the receiver R of the wireless connection module 2. Receiving the information, and determining, according to the information, that the wireless electronic device 6 is a wireless charger or a mobile device having a wireless charging function, determining whether the mobile device is insufficient in power, and providing the response to the wireless connection module 2 The transmitter T determines whether to generate the charging command and the discharging command according to the determination result and at least a part of the power information to control whether the wireless charging receiving module WR and the wireless charging transmitting module WT are respectively activated.

The power management module 3 is further electrically connected to the wired charging module 4 and the output voltage stabilizing circuit 5, and operates on the wired energy storage when the power input terminal O is connected to the AC/DC converter 7 to receive its power. a mode, and controlling whether the wired charging module is activated according to the power information.

<Wireless energy storage mode>

Referring to FIG. 1 and FIG. 2, when the management controller 31 of the power management module 3 determines that the wireless electronic device 6 is a wireless charger 60 and determines that the stored power is insufficient, the mobile power supply operates in a wireless manner. In the energy storage mode, at this time, the management controller 31 of the power management module 3 controls the wireless charging receiving module WR to operate to charge the battery unit 10 of the energy storage module 1.

<Wired energy storage mode>

Referring to FIG. 3, when the power input terminal IN is connected to the AC/DC converter 7, and the management controller 31 of the power management module 3 determines that the stored power is insufficient, the mobile power supply operates in a wired energy storage mode. At this time, the management controller 31 of the power management module 3 controls the wired charging module 4 to operate to charge the battery unit 10 of the energy storage module 1.

<Mobile Wireless Charger Mode>

As shown in FIG. 4, when the management controller 31 of the power management module 3 determines that the wireless electronic device 5 is a mobile device 61 having a wireless charging function, it is determined that the mobile device 61 having the wireless charging function has insufficient power. The mobile power supply operates in a mobile wireless charger mode. At this time, the management controller 31 of the power management module 3 controls the wireless charging and transmitting module WT to operate to the mobile device 61 having the wireless charging function. Charging.

<Wired regulated power supply output mode>

As shown in FIG. 5, when the power output terminal O is connected to the mobile device 8, the mobile power supply operates in a wired regulated power supply output mode. At this time, the management controller 31 of the power management module 3 controls the The output voltage stabilizing circuit 5 is actuated to charge the mobile device 8.

<Wireless charger mode>

As shown in FIG. 6, when the power input terminal IN is connected to the AC/DC converter 7, the management controller 31 of the power management module 3 determines that the stored power is insufficient, and at the same time, the management of the power management module 3. The controller 31 determines that the wireless electronic device 5 is a mobile device 61 having a wireless charging function, and determines that the power of the mobile device 61 having the wireless charging function is insufficient, and the management controller 31 determines that the power output terminal O is connected. When the mobile device 8 determines that the power of the mobile device 8 is insufficient, the mobile power supply operates in a wireless charger mode. At this time, the management controller 31 of the power management module 3 controls the wired charging module. 4 actuating to charge the battery unit 10 of the energy storage module 1 , and at the same time, the management controller 31 of the power management module 3 controls the wireless charging and transmitting module WT to operate to the mobile device with wireless charging function 61 is charged, and the management controller 31 of the power management module 3 controls the output voltage stabilizing circuit 5 to operate to charge the mobile device 8.

<Wireless energy storage mode>

As shown in FIG. 7, when the management controller 31 of the power management module 3 determines that the wireless electronic device 6 is a wireless charger 60, and determines that the stored power is insufficient, the power output terminal O is connected to the When the mobile device 8 determines that the mobile device has insufficient power, the mobile power supply operates in a wireless energy storage power mode. At this time, the management controller 31 of the power management module 3 controls the wireless charging receiving module WR to operate. The battery unit 10 of the energy storage module 1 is charged, and the management controller 31 of the power management module 3 controls the output voltage stabilization circuit O to operate to charge the mobile device 8.

In summary, the above embodiment has the following advantages:

1. The power input terminal IN and the induction coil L are respectively provided for wired and wireless charging modes, can support various device interfaces, are convenient to use, and use the wireless charger 61 to charge the mobile power source of the embodiment, without requiring a specific connector. Rechargeable and shared charger.

2. When the mobile power source operates in the mobile wireless charger mode, it can be powered to the mobile device 62 having the wireless charging function, so that a plurality of mobile devices 62 having wireless charging functions can share one mobile power source.

3. Use the power management module 3 to achieve intelligent energy storage and charging management methods.

4. The wireless connection module 2 is used for wireless two-way communication, and the battery unit 10 and the power management module 3 can be intelligently connected to improve the charging performance and speed.

5. The function of offlinely querying the remaining battery power, and placing a battery supporting the wireless charging function on the mobile power source, and querying by using the wireless connection module 2 and the power management module 3.

The above is only the preferred embodiment of the present invention, and the scope of the invention is not limited thereto, that is, the simple equivalent changes and modifications made by the scope of the invention and the description of the invention are All remain within the scope of the invention patent.

L. . . Induction coil

1. . . Energy storage module

10. . . Battery unit

11. . . protect the circuit

2. . . Wireless link module

T. . . launcher

R. . . receiver

3. . . Power management module

30. . . Detection circuit

31. . . Management controller

32. . . Display circuit

WR. . . Wireless charging receiver module

EC. . . Power converter

RC. . . Receiving controller

WT. . . Wireless charging transmitter module

TC. . . Launch controller

MC. . . Magnetic energy converter

4. . . Wired charging module

5. . . Output regulator circuit

IN. . . Power input terminal

O. . . Power output terminal

6. . . Wireless electronic device

60. . . Wireless charger

61. . . Mobile device with wireless charging function

7. . . AC to DC converter

8. . . Mobile device

1 is a circuit diagram of a preferred embodiment of a mobile power supply of the present invention;

2 is a circuit diagram of the mobile power supply operating in a wireless energy storage mode;

3 is a circuit diagram of the operation power supply operating in a wired energy storage mode;

4 is a circuit diagram of the mobile power supply operating in a mobile wireless charger mode;

5 is a circuit diagram of the operation power supply operating in a wired regulated power supply output mode;

6 is a circuit diagram of the operation power supply operating in a wireless charger mode; and

Figure 7 is a circuit diagram of the operational power supply operating in a wireless energy storage power mode.

L. . . Induction coil

1. . . Energy storage module

10. . . Battery unit

11. . . protect the circuit

2. . . Wireless link module

T. . . launcher

R. . . receiver

3. . . Power management module

30. . . Detection circuit

31. . . Management controller

32. . . Display circuit

WR. . . Wireless charging receiver module

EC. . . Power converter

RC. . . Receiving controller

WT. . . Wireless charging transmitter module

TC. . . Launch controller

MC. . . Magnetic energy converter

4. . . Wired charging module

5. . . Output regulator circuit

IN. . . Power input terminal

O. . . Power output terminal

6. . . Wireless electronic device

7. . . AC to DC converter

8. . . Mobile device

Claims (10)

A mobile power source includes: an induction coil; an energy storage module for storing a stored electrical energy; a wireless connection module electrically connected to the power management module and the induction coil, and controlled to pass the induction coil Communicating with a wireless electronic device to learn that the wireless electronic device is a wireless charger or a mobile device; a wireless charging receiving module electrically connected to the induction coil and the energy storage module; and a power management module The battery is electrically connected to the energy storage module to detect whether the storage capacity of the energy storage module is insufficient, and is electrically connected to the wireless connection module to control the wireless connection module; when the power management module determines the wireless When the electronic device is the wireless charger, and determining that the stored power is insufficient, the wireless charging receiving module is controlled by the power management module to receive a magnetic energy from the wireless charger, and convert the magnetic energy into electrical energy storage. The energy storage module is used as the stored electrical energy. According to the mobile power source of claim 1, the wireless connection module includes: a receiver for receiving a communication signal from the wireless electronic device via the induction coil, and demodulating the communication signal Obtaining a message; and a transmitter for receiving a response related to the information, and modulating the signal to obtain a communication signal, and transmitting the communication signal to the wireless electronic device via the induction coil. According to the mobile power source of claim 2, the energy storage module includes: a battery unit for storing the stored power; and a protection circuit electrically connected to the battery unit and used to avoid the battery unit Overheating and overcurrent protection for the battery unit. According to the mobile power source of claim 3, the wireless charging receiving module comprises: a receiving controller, configured to receive a charging command, and output a control signal when receiving the charging command; and an electric energy conversion a battery unit electrically connected to the energy storage module, the induction coil, and the receiving controller, configured to receive the magnetic energy from the wireless electronic device via the induction coil, and receive the control signal from the receiving controller, And converting the magnetic energy into the electrical energy stored to the battery unit when the control signal is received. According to the mobile power source of claim 4, the utility model further comprises: a power input terminal, which is adapted to be connected to an AC/DC converter for providing DC power to receive the DC power; and a wired charging module, the electric Connecting the power input terminal and the battery unit of the energy storage module, and receiving the DC power from the power input terminal, and controlling to convert the DC power into battery charging form power for storage to the battery unit as the storage electric power. The mobile power source according to claim 5, further comprising: a current output terminal adapted to be connected to a mobile device; and an output voltage stabilizing circuit electrically connected to the battery unit of the energy storage module and the power source The output terminal receives the stored electrical energy from the battery unit, and is controlled to regulate the stored electrical energy to obtain a DC output voltage to be transmitted to the mobile device via the power output terminal. According to the mobile power supply of claim 6, the method further includes: a wireless charging transmitting module electrically connected to the induction coil and the energy storage module, and controlled to receive the battery unit from the storage module The stored electrical energy is converted to magnetic energy and transmitted to the wireless electronic device via the inductive coil. According to the mobile power source of claim 7, the wireless charging transmitting module comprises: a transmitting controller, configured to receive a discharging command, and output a control signal when receiving the discharging command; and a magnetic energy conversion a battery unit electrically connected to the energy storage module, the induction coil, and the emission controller, configured to receive the stored electrical energy from the battery unit, and receive the control signal from the transmitting controller, and receive the control signal The control signal converts the stored electrical energy into the magnetic energy and transmits to the wireless electronic device via the induction coil. According to the mobile power source of claim 8, the battery management module includes: a detecting circuit electrically connected to the battery unit of the energy storage module to measure the voltage of the battery unit to provide a storage condition The power controller of the power; a management controller electrically connected to the detecting circuit to receive the power information, and comparing the power information with a preset value to determine whether the stored power is insufficient, and providing an indication of whether the stored power is insufficient And a display circuit electrically connected to the management controller to receive the display signal and display the same. According to the mobile power source of claim 9, the management controller is further electrically connected to the wireless connection module, the wireless charging receiving module and the wireless charging transmitting module, for receiving from the wireless connecting module. Receiving the information, and determining, according to the information, that the wireless electronic device is the wireless charger or the mobile device having the wireless charging function, determining whether the mobile device is insufficient in power, and providing the response to the wireless connection module. And the transmitter determines whether the charging command and the discharging command are generated according to the determination result and at least a part of the power information.