TWM548387U - Wireless charging mouse and wireless charging apparatus - Google Patents

Description

Wireless charging mouse and wireless charging device

A wireless mouse, especially a wireless charging mouse with charging function and a wireless charging device.

Traditionally, the mouse is connected to the host computer via a wired connection to control cursor movement on the screen. In order to improve the inconvenience of connecting the mouse to the computer host. Wireless mice have been accepted by most users. The power required by a typical wireless mouse is provided by an internal battery. When the internal battery is exhausted, the internal battery needs to be replaced. In recent years, there has been developed a wireless charging technology for charging a wireless mouse through a charging pad. However, there is still a problem that the efficiency of the charging pad is not good.

The present creative embodiment provides a wireless charging mouse, including a wireless power receiving circuit, a conversion circuit, a wireless transmitting circuit, and a control circuit. The wireless power receiving circuit wirelessly receives the electromagnetic energy transmitted by the charging pad. The conversion circuit is electrically connected to the wireless power receiving circuit, and the conversion circuit converts electromagnetic energy into potential energy. The wireless transmitting circuit is used to transmit a control signal to the charging board. The control circuit is electrically connected to the conversion circuit and the wireless transmission circuit. The control circuit receives the potential energy transmitted by the conversion circuit, and transmits the control signal to the charging board through the wireless transmission circuit according to the potential. The control signal controls the charging power of the charging pad to the wireless charging mouse to switch between the first power supply mode and the second power supply mode, and the charging power of the first power supply mode is greater than the charging of the second power supply mode. power.

The present creative embodiment provides a wireless charging device including a charging pad and a wireless charging mouse. The wireless charging mouse includes a wireless power receiving circuit, a conversion circuit, a wireless transmitting circuit, and a control circuit. The wireless power receiving circuit wirelessly receives the electromagnetic energy transmitted by the charging pad. The conversion circuit is electrically connected to the wireless power receiving circuit, and the conversion circuit converts electromagnetic energy into potential energy. The wireless transmitting circuit is used to transmit a control signal to the charging board. The control circuit is electrically connected to the conversion circuit and the wireless transmission circuit. The control circuit receives the potential energy transmitted by the conversion circuit, and transmits the control signal to the charging board through the wireless transmission circuit according to the potential. The control signal controls the charging power of the charging pad to the wireless charging mouse to switch between the first power supply mode and the second power supply mode, and the charging power of the first power supply mode is greater than the charging power of the second power supply mode.

In order to further understand the features and technical contents of this creation, please refer to the following detailed description and drawings of this creation, but these descriptions and drawings are only used to illustrate this creation, not the right to this creation. The scope is subject to any restrictions.

1‧‧‧Wireless charging mouse

105‧‧‧Wireless power receiving circuit

110‧‧‧Wireless transmitting circuit

115‧‧‧Displacement detection circuit

120‧‧‧Control circuit

125‧‧‧Charging circuit

130‧‧‧Rechargeable battery

135‧‧‧Transition circuit

140‧‧‧Lighting circuit

145‧‧‧Operating circuit

2‧‧‧Charging board

205‧‧‧Power supply circuit

210‧‧‧Wireless power transmitting circuit

215‧‧‧Wire receiving circuit

3‧‧‧Note Computer

S405‧‧‧Wireless charging mouse receives the electromagnetic energy transmitted by the charging pad

S410‧‧‧Review whether the potential energy is greater than the preset potential energy

S415‧‧‧Charging board charging power for wireless charging mouse in the second power supply mode

S420‧‧‧Charging board charging power for wireless charging mouse in the first power supply mode

S425‧‧‧Starting the displacement detection circuit and the light-emitting circuit by the control circuit

1 is a block diagram of a wireless charging mouse of the present embodiment.

2 is a circuit block diagram of a wireless charging device according to an embodiment of the present invention.

FIG. 3 is a schematic diagram of the operation of the wireless charging device of the present embodiment.

4 is a flow chart of a method for charging a wireless charging mouse according to an embodiment of the present invention.

Please refer to FIG. 1. FIG. 1 is a circuit block diagram of a wireless charging mouse according to an embodiment of the present invention. The wireless charging mouse 1 includes a wireless power receiving circuit 105, a charging circuit 125, a rechargeable battery 130, and an operation circuit 145. The operation circuit 145 includes a wireless transmission circuit 110, a displacement detection circuit 115, a control circuit 120, a conversion circuit 135, and a light-emitting circuit 140. The control circuit 120 is electrically connected to the wireless transmitting circuit 110, the displacement detecting circuit 115, the converting circuit 135, and the lighting circuit 140. Operating circuit 145 The rechargeable battery 130 is electrically connected to receive the electrical energy provided by the rechargeable battery 130.

The wireless power receiving circuit 105 wirelessly receives electromagnetic energy transmitted from a charging pad (not shown). The wireless power receiving circuit 105 further includes a resonant circuit and a magnetic coil (not shown). When the electromagnetic energy emitting end and the electromagnetic energy receiving end have the same resonant frequency, the electromagnetic energy emitting end and the electromagnetic energy receiving end can reach the magnetic resonance coupling (Resonant Magnetic Coupling). Specifically, in the embodiment, when the magnetic coil of the wireless power receiving circuit 105 is electromagnetically coupled with the magnetic coil of the wireless power transmitting circuit of the charging board, the wireless charging mouse 1 can wirelessly receive the electromagnetic energy transmitted by the charging board. . The wireless power receiving circuit 105 is electrically connected to the conversion circuit 135, which converts electromagnetic energy into potential energy. The control circuit 120 receives the potential energy transmitted by the conversion circuit 135, and generates a control signal according to the potential energy. The control circuit 120 outputs a control signal to the charging board through the wireless transmission circuit 110. After the charging board receives the control signal, the charging board controls the duty cycle and the output charging power according to the control signal.

In detail, when the control circuit 120 receives the potential energy transmitted by the conversion circuit 135 that is higher than the preset potential energy, the control signal transmitted by the wireless charging mouse 1 to the charging board is the first control signal, and the first control signal is used for The charging power of the charging pad to the wireless charging mouse 1 is controlled in the first power supply mode. When the control circuit 120 receives the potential energy transmitted by the conversion circuit 130 lower than the preset potential energy, the control signal transmitted by the wireless charging mouse 1 to the charging board is a second control signal, and the second charging control signal is used to control the charging board pair. The charging power of the wireless charging mouse 1 is in the second power supply mode. Moreover, the control signal can be used to control the charging power of the charging pad to the wireless charging mouse 1 to switch between the first power supply mode and the second power supply mode, and the charging power of the first power supply mode is greater than the charging power of the second power supply mode. The charging power of the first power supply mode may be 90%, and the charging power of the second power supply mode may be 50%. The present invention is not limited to the ratio of the charging power of the power supply mode.

Further, the first power supply mode is that the charging board outputs charging power to the wireless charging mouse 1 in a first duty cycle, and the second power supply mode is that the charging board outputs charging power to the wireless charging mouse in a second working cycle. 1, the first work cycle Greater than the second duty cycle. The first duty cycle can be 1 and the second duty cycle can be 0.5. The power supply time of the first work cycle can be 100%. The power supply time for the second duty cycle can be 50%. The present invention is not limited to the duty cycle of the duty cycle. The control circuit 120 generates different control signals according to the potential energy. When the charging board receives the control signal through the wireless transmitting circuit 110 of the wireless charging mouse 1, the charging board dynamically adjusts the first power supply mode or the second dynamic mode to supply power. To wireless charging mouse 1.

The charging circuit 125 is electrically connected to the rechargeable battery 130 and the conversion circuit 135. The charging circuit 125 can charge the rechargeable battery 130 by the potential output from the conversion circuit 135. In detail, the circuit structure of the charging circuit 125 has a filtering and rectifying function, and the potential output from the converting circuit 135 can be filtered and rectified and transmitted to the rechargeable battery 130 as a reserve electric energy. The rechargeable battery 130 and the wireless transmitting circuit 110, the displacement detecting circuit 115, the control circuit 120, the converting circuit 135, and the lighting circuit 140 in the operating circuit 145 are required to operate the electrical energy.

When the potential of the conversion circuit 135 outputted to the control circuit 120 can be higher than the preset potential energy, the control circuit 120 activates the displacement detecting circuit 115 and the light emitting circuit 140. In an embodiment, the potential of the conversion circuit 135 outputted to the control circuit 120 can be higher than a preset potential energy and exceed a preset time, and the control circuit 120 activates the displacement detecting circuit 115 and the light emitting circuit 140. The displacement detecting circuit 115 is configured to detect the movement change of the wireless charging mouse 1. The displacement detecting circuit 115 can determine the moving amount and the moving direction of the wireless charging mouse 1 by optical detection. The new method is not detected. Limited. For example, when the charging board outputs charging power to the wireless charging mouse 1 in the first power supply mode, the control circuit 120 activates the light emitting diodes in the lighting circuit 140. Those skilled in the art will know from ordinary knowledge that the preset potential energy can be 3.3 to 5 volts. The light emitting diode can be disposed on the side of the wireless charging mouse 1, the button or the scroll wheel, and the creation is not limited.

The light source unit (not shown) of the displacement detecting circuit 115 can illuminate a plane for laser or infrared, and the receiving unit (not shown) of the displacement detecting circuit 115 can receive the reflection of the plane. Laser or infrared, by incident light and reflection The difference value of the light is used to calculate the amount of movement of the wireless charging mouse 1 and the moving direction. The present invention is not limited to the type of the light source unit. The control circuit 120 generates a displacement detection signal according to the detection result of the displacement detecting circuit 115. The control circuit 120 can transmit the displacement detection signal to the wireless receiver (not shown) through the wireless transmission circuit 110. The wireless receiver is implemented, for example, by a dongle that is plugged into the USB jack of the computer device, and the wireless receiver can also be placed inside the computer device. The wireless communication function of the wireless transmitting circuit 110 can be Bluetooth or Radio Frequency (RF).

Referring to FIG. 2, FIG. 2 is a circuit block diagram of a wireless charging device according to an embodiment of the present invention. The charging pad 2 is used to wirelessly transmit electromagnetic energy to the wireless charging mouse 1. The wireless charging mouse 1 includes a wireless power receiving circuit 105, a charging circuit 125, a rechargeable battery 130, and an operation circuit 145. The operation circuit 145 includes a wireless transmission circuit 110, a displacement detection circuit 115, a control circuit 120, a conversion circuit 135, and a light-emitting circuit 140. For a description of the wireless charging mouse 1, please refer to the embodiment of FIG.

The charging board 2 includes a power supply circuit 205, a plurality of wireless power transmitting circuits 210, and a wireless receiving circuit 215. The power supply circuit 205 is electrically connected to each of the wireless power transmitting circuits 210 and the wireless receiving circuit 215. The wireless receiving circuit 215 of the charging pad 2 is configured to receive the control signal transmitted by the wireless transmitting circuit 110 of the wireless charging mouse 1. The power supply circuit 205 controls the charging power of each of the wireless power transmitting circuits 210 based on the control signals. Each of the wireless power transmitting circuits 210 further includes a resonant circuit and a magnetic coil. When the magnetic coil in the wireless power receiving circuit 105 is electromagnetically coupled with the magnetic coil of the wireless transmitting circuit 210 of the charging board 2, the wireless charging mouse 1 can receive charging. The electromagnetic energy transmitted by the board 2. The power supply circuit 205 is connected to the external power supply through the connection terminal, and the connection terminal is realized by, for example, a universal serial bus (USB) connector.

Please refer to FIG. 2 and FIG. 3 at the same time. FIG. 3 is a schematic diagram of the operation of the wireless charging device according to the embodiment of the present invention. In the present embodiment, the user can operate the cursor movement of the notebook computer 3 by using the wireless charging mouse 1. When the wireless charging mouse 1 is close When the charging board 2 is within the preset distance, the potential energy detected by the control circuit 120 through the conversion circuit 135 is higher than the preset potential energy. Therefore, the control circuit 120 determines that the wireless charging mouse 1 is close to the charging board 2, and controls The circuit 120 outputs the first control signal to the wireless receiving circuit 215 through the wireless transmitting circuit 110, and the charging board 2 switches from the second power supply mode to the first power supply mode. Conversely, when the wireless charging mouse 1 is raised beyond the preset distance of the charging board 2, when the potential of the control circuit 120 detected by the conversion circuit 135 is lower than the preset potential energy, the control circuit 120 determines that the wireless charging is slippery. The mouse 1 has left the charging pad 2, and the control circuit 120 outputs a second control signal to the wireless receiving circuit 215, and the charging pad 2 is switched from the first power supply mode to the second power supply mode. The charging power of the first power supply mode is greater than the charging power of the second power supply mode. In other words, when the control circuit 120 determines that the wireless charging mouse 1 has approached the charging pad 2, the charging pad 2 supplies power to the wireless charging mouse 1 at a higher charging power, and when the control circuit 120 determines that the wireless charging mouse 1 has left When the board 2 is charged, the charging board 2 provides a lower charging power supply. The wireless charging device proposed by the present invention has a function of dynamically adjusting the power supply mode of the charging board 2, and can effectively reduce the energy consumption of the charging board 2.

Please refer to FIG. 2 and FIG. 4 simultaneously. FIG. 4 is a flowchart of a method for charging a wireless charging mouse according to an embodiment of the present invention. In step S405, the electromagnetic energy transmitted by the charging pad 2 is received by the wireless charging mouse 1. When one of the wireless power transmitting circuits 210 of the charging pad 2 is electromagnetically coupled with the wireless power receiving circuit 105 of the wireless charging mouse 1, the wireless power receiving circuit 105 of the wireless charging mouse 1 can receive the wireless charging circuit 2 therein. One of the electromagnetic energy emitted by the wireless power transmitting circuit 210.

In step S410, it is determined by the control circuit 120 whether the potential energy is greater than a preset potential energy. If no, the process proceeds to step S415. If yes, the process proceeds to step S420. Further, the wireless charging mouse 1 outputs a control signal to the charging pad 2 according to the receiving condition of the electromagnetic energy of the receiving charging pad 2. When the wireless charging mouse 1 is close to the charging board 2 within a preset distance, the electromagnetic energy of the wireless charging mouse 1 receiving the charging board 2 is higher than the preset electromagnetic energy, and the potential energy generated by the converting circuit 135 is higher than the preset potential. The wireless charging mouse 1 outputs the first control signal to the charging board 2 in the first power supply mode. in contrast When the wireless charging mouse 1 leaves the charging board outside the preset distance, the electromagnetic energy of the wireless charging mouse 1 receiving the charging board 2 is lower than the preset electromagnetic energy, and the potential energy generated by the conversion circuit 135 is lower than the preset. The potential energy, the wireless charging mouse 1 outputs the second control signal to the charging board 2 for the second power supply mode. The charging board 2 switches between the first power supply mode and the second power supply mode according to the control signal to the charging power of the wireless charging mouse 1, and the charging power of the first power supply mode is greater than the charging power of the second power supply mode. The first power supply mode is that the charging board 2 outputs charging power to the wireless charging mouse 1 in a first working cycle, and the second power supply mode is that the charging board 2 outputs charging power to the wireless charging mouse 1 in a second working cycle, wherein the first working The period is greater than the second duty cycle.

In step S415, the charging power of the charging pad 2 to the wireless charging mouse 1 is in the second power supply mode. The control circuit 120 determines that the potential energy output by the conversion circuit 135 is lower than the preset potential energy, the control signal transmitted by the wireless charging mouse 1 to the charging board 2 is the second control signal, and the second charging control signal is used to control the charging board 2 to wireless. The charging power of the charging mouse 1 is in the second power supply mode.

In step S420, the charging power of the charging pad 2 to the wireless charging mouse 1 is in the first power supply mode. The control circuit 120 determines that the potential energy output by the conversion circuit 135 is higher than the preset potential energy, and the control signal transmitted by the wireless charging mouse 1 to the charging board 2 is the first control signal, and the first charging control signal is used to control the charging board 2 to wireless. The charging power of the charging mouse 1 is in the first power supply mode.

In step S425, the displacement detecting circuit 115 and the lighting circuit 140 are activated by the control circuit 120. The wireless charging mouse 1 outputs the first charging control signal to control the charging board 2 to be the first power supply mode, and the charging circuit 2 according to the first charging control signal to the charging power of the wireless charging mouse 1 is in the first power supply mode, by the control circuit 120 activates the displacement detecting circuit 115 and the lighting circuit 140.

In summary, when the control circuit of the wireless charging mouse proposed by the present invention determines that the potential energy is greater than the preset potential energy, the control circuit transmits the control signal to the charging board through the wireless transmitting circuit to control the charging board in the first power supply mode. When the control circuit determines that the potential energy is lower than the preset potential energy, the control circuit transmits the control signal through the wireless transmitting circuit. The number to the charging pad is to control the charging pad in the second power mode. The novel solves the shortcomings of excessive energy consumption of the charging board by dynamically adjusting the power supply mode. In addition, when the charging board is in the first power supply mode, the lighting circuit is used to remind the user that the wireless charging mouse has entered the normal charging mode to increase the functionality of the wireless charging mouse.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of patent protection of the present invention. Anyone who is familiar with the art of the artist, within the spirit and scope of the creation, the equivalent of the change and retouching is still within the scope of the patent protection of the creation.

1‧‧‧Wireless charging mouse

105‧‧‧Wireless power receiving circuit

110‧‧‧Wireless transmitting circuit

115‧‧‧Displacement detection circuit

120‧‧‧Control circuit

125‧‧‧Charging circuit

130‧‧‧Rechargeable battery

135‧‧‧Transition circuit

140‧‧‧Lighting circuit

145‧‧‧Operating circuit

Claims (10)

A wireless charging mouse includes: a wireless power receiving circuit for wirelessly receiving an electromagnetic energy transmitted by a charging board; a converting circuit electrically connected to the wireless power receiving circuit, the converting circuit converting the electromagnetic energy into a potential energy a wireless transmitting circuit for transmitting a control signal to the charging board; and a control circuit electrically connected to the converting circuit and the wireless transmitting circuit, the control circuit receiving the potential energy transmitted by the converting circuit, and according to The potential can be output to the charging board through the wireless transmitting circuit; wherein the control signal controls the charging power of the charging pad to switch between the first power supply mode and the second power supply mode. And the charging power of the first power supply mode is greater than the charging power of the second power supply mode. The wireless charging mouse of claim 1, wherein the first power supply mode is that the charging board outputs charging power to the wireless charging mouse in a first duty cycle, and the second power supply mode is the charging. The board outputs charging power to the wireless charging mouse in a second duty cycle, wherein the first duty cycle is greater than the second duty cycle. The wireless charging mouse according to claim 1, wherein the control signal transmitted by the wireless charging mouse to the charging board is a first charging control signal, wherein the potential is higher than a predetermined potential energy, the first The charging control signal is used to control the charging power of the charging pad to the wireless charging mouse in the first power supply mode. The wireless charging mouse according to claim 1, wherein the control signal transmitted by the wireless charging mouse to the charging board is a second charging control signal, wherein the potential is lower than a predetermined potential energy, the second The charging control signal is used to control the charging power of the charging pad to the wireless charging mouse in the second power supply mode. The wireless charging mouse of claim 1, further comprising: a displacement detecting circuit electrically connected to the control circuit, wherein the displacement detecting circuit is used Detecting a change in the movement of the wireless charging mouse; a lighting circuit electrically connected to the control circuit; a charging battery; and a charging circuit electrically connecting the conversion circuit and the rechargeable battery, the charging circuit converting the circuit The outputted potential can charge the rechargeable battery; wherein the control circuit activates the displacement detecting circuit and the lighting circuit when the potential can be higher than a predetermined potential. A wireless charging device comprising: a charging board; and a wireless charging mouse comprising: a wireless power receiving circuit for wirelessly receiving an electromagnetic energy transmitted by a charging board; and a conversion circuit electrically connected to the wireless power receiving circuit The conversion circuit converts the electromagnetic energy into a potential energy; a wireless transmitting circuit for transmitting a control signal to the charging board; and a control circuit electrically connected to the converting circuit and the wireless transmitting circuit, the control circuit receiving The potential energy transmitted by the conversion circuit can output the control signal to the charging board through the wireless transmitting circuit according to the potential; wherein the control signal controls the charging power of the charging board to the wireless charging mouse in the first And switching between the power supply mode and a second power supply mode, and the charging power of the first power supply mode is greater than the charging power of the second power supply mode. The wireless charging device of claim 6, wherein the first power supply mode is that the charging board outputs charging power to the wireless charging mouse in a first duty cycle, and the second power supply mode is the charging board. The charging power is output to the wireless charging mouse in a second duty cycle, wherein the first duty cycle is greater than the second duty cycle. The wireless charging device of claim 6, wherein when the potential energy is higher than a predetermined potential, the control signal transmitted by the wireless charging mouse to the charging board is a first charging control signal, the first charging The control signal is used to control the charging power of the charging pad to the wireless charging mouse in the first power supply mode. The wireless charging device of claim 6, wherein when the potential energy is lower than a predetermined potential, the control signal transmitted by the wireless charging mouse to the charging board is a second charging control signal, and the second charging The control signal is used to control the charging power of the charging pad to the wireless charging mouse in the second power supply mode. The wireless charging device of claim 6, further comprising: a displacement detecting circuit electrically connected to the control circuit, wherein the displacement detecting circuit is configured to detect a movement change of the wireless charging mouse; Connected to the control circuit; a rechargeable battery; and a charging circuit electrically connected to the conversion circuit and the rechargeable battery, the charging circuit capable of charging the rechargeable battery with the potential output by the conversion circuit; wherein when the potential is The control circuit activates the displacement detecting circuit and the lighting circuit when the power is higher than a predetermined potential.