DE102018104826A1 - Rechargeable wireless mouse, wireless charging device and charging method therefor - Google Patents

Abstract

The present invention provides a rechargeable wireless mouse (1) comprising a wireless electrical power reception circuit (105), a conversion circuit (135), a wireless transmission circuit (110), and a control circuit (120). In this case, the circuit for wireless reception of electrical energy (105) is used for the wireless reception of a charge plate (2) of transmitted electromagnetic energy. The conversion circuit (135) is electrically connected to the electric power wireless reception circuit (105) and converts the electromagnetic energy into electric potential energy. The wireless transmission circuit (110) serves to transmit a control signal to the charging plate (2). The control circuit (120) is electrically connected to the conversion circuit (135) and the wireless transmission circuit (110), receives the electric potential energy transmitted from the conversion circuit (135), and transmits the control signal via the wireless transmission circuit (135) in response to the electric potential energy. to the loading plate (2). Here, the control signal provides switching of the charge power output from the charge plate (2) to the chargeable wireless mouse (1) between a first power supply mode and a second power supply mode, wherein the charge power of the first power supply mode is higher than the charge power of the second power supply mode.

Description

The present invention relates to a wireless mouse, in particular a rechargeable wireless mouse with charging function, a wireless charging device and a charging method therefor.

Conventional mice have a cable connection to the respective computer to control the cursor movements on the screen. To improve this, wireless mice have been developed. The electrical energy required by a wireless mouse is usually provided by an internal battery, which must be replaced when exhausted. Recently, the wireless charging technology has been developed for charging a wireless mouse via a charging plate, which, however, offers only insufficient efficiency.

The embodiment of the invention provides a rechargeable wireless mouse that includes a circuit for wirelessly receiving electrical energy, a conversion circuit, a wireless transmission circuit, and a control circuit. In this case, the circuit for wireless reception of electrical energy is used for the wireless reception of electromagnetic energy transmitted by a charging plate. The conversion circuit is electrically connected to the circuit for wireless reception of electrical energy and converts the electromagnetic energy into electrical potential energy. The wireless transmission circuit serves to transmit a control signal to the charging plate. The control circuit is electrically connected to the conversion circuit and the wireless transmission circuit, receives the electric potential energy transmitted from the conversion circuit, and outputs the control signal to the charging plate via the wireless transmission circuit in response to the electric potential energy. Here, the control signal provides switching of the charging power output from the charging board to the chargeable wireless mouse between a first power supply mode and a second power supply mode, wherein the charging power of the first power supply mode is higher than the charging power of the second power supply mode.

The embodiment of the invention proposes a wireless charging device comprising a charging plate and a rechargeable wireless mouse. The rechargeable wireless mouse includes a circuit for receiving wireless electrical energy, a conversion circuit, a wireless transmission circuit, and a control circuit. In this case, the circuit for wireless reception of electrical energy is used for the wireless reception of electromagnetic energy transmitted by a charging plate. The conversion circuit is electrically connected to the circuit for wireless reception of electrical energy and converts the electromagnetic energy into electrical potential energy. The wireless transmission circuit serves to transmit a control signal to the charging plate. The control circuit is electrically connected to the conversion circuit and the wireless transmission circuit, receives the electric potential energy transmitted from the conversion circuit, and outputs the control signal to the charging plate via the wireless transmission circuit in response to the electric potential energy. Here, the control signal provides switching of the charging power output from the charging board to the chargeable wireless mouse between a first power supply mode and a second power supply mode, wherein the charging power of the first power supply mode is higher than the charging power of the second power supply mode.

The embodiment of the invention offers a charging method for a rechargeable wireless mouse, in particular for wireless charging of the rechargeable wireless mouse by means of a charging plate, comprising the following steps: The rechargeable wireless mouse outputs a corresponding control signal to the charging plate as a function of the electromagnetic energy received by the charging plate out; the charging board outputs charging power of either a first power supply mode or a second power supply mode to the chargeable wireless mouse based on the control signal, wherein the charging power of the first power supply mode is higher than the charging power of the second power supply mode.

For a better understanding of the features and technical features of the invention, this will be described below with reference to the accompanying drawings. The accompanying drawings do not represent a limitation of the invention but are merely illustrative of the invention.

• 1 ein Blockschaltbild einer aufladbaren Funkmaus gemäß einem Ausführungsbeispiel der Erfindung,
• 2 ein Blockschaltbild einer kabellosen Ladevorrichtung gemäß einem Ausführungsbeispiel der Erfindung,
• 3 in schematischer Darstellung den Bedienvorgang einer kabellosen Ladevorrichtung gemäß einem Ausführungsbeispiel der Erfindung und
• 4 ein Ablaufdiagramm eines Ladevorgangs für eine aufladbare Funkmaus gemäß einem Ausführungsbeispiel der Erfindung.

Show it

• 1 a block diagram of a rechargeable wireless mouse according to an embodiment of the invention,
• 2 a block diagram of a wireless charging device according to an embodiment of the invention,
• 3 a schematic representation of the operation of a wireless charging device according to an embodiment of the invention and
• 4 a flowchart of a charging process for a rechargeable wireless mouse according to an embodiment of the invention.

1 shows a block diagram of a rechargeable wireless mouse according to an embodiment of the invention. As shown, the rechargeable wireless mouse includes 1 a circuit for wireless reception of electrical energy 105 , a charging circuit 125 , a rechargeable battery 130 and an operating circuit 145 , The operating circuit 145 includes a wireless transmission circuit 110 a shift detection circuit 115 , a control circuit 120 , a conversion circuit 135 and a light emitting circuit 140 , wherein the control circuit 120 with the wireless transmission circuit 110 , the shift detection circuit 115 , the conversion circuit 135 and the light-emitting circuit 140 electrically connected. In addition, the operating circuit 145 electrically with the rechargeable battery 130 connected to the rechargeable battery 130 to receive electrical energy.

The circuit for wireless reception of electrical energy 105 is used for wireless reception of a charge plate (not shown) of transmitted electromagnetic energy. In the circuit for wireless reception of electrical energy 105 Furthermore, a resonant circuit and a magnetic coil are included. When the same resonant frequency is present at the electromagnetic energy transmitting side and the electromagnetic energy receiving side, resonant magnetic coupling may be achieved between the electromagnetic energy transmitting side and the electromagnetic energy receiving side. Specifically, the rechargeable wireless mouse 1 wirelessly receive the electromagnetic energy transmitted from a charging plate when, in the present embodiment, the magnetic coil of the circuit for wireless reception of electrical energy 105 is electromagnetically coupled to the solenoid of the circuit for wireless transmission of electrical energy of the pallet. The circuit for wireless reception of electrical energy 105 is electrical with the conversion circuit 135 connected, which converts the electromagnetic energy into electric potential energy. The control circuit 120 receives the from the conversion circuit 135 transmitted electric potential energy and generates in response to the electric potential energy, a control signal from the control circuit 120 via the wireless transmission circuit 110 is output to the pallet. After receiving the control signal by the charging plate, this controls the duty cycle based on the control signal and outputs a charging power.

Specifically, the rechargeable wireless mouse is used 1 when passing through the control circuit 120 from the conversion circuit 135 received electric potential energy is higher than a preset electric potential energy, a first control signal transmitted to the charging plate, which ensures that the charging plate a charging power of a first power supply mode to the rechargeable wireless mouse 1 outputs. Is that through the control circuit 120 from the conversion circuit 135 On the other hand, if the electrical potential energy received is lower than the preset electrical potential energy, the rechargeable wireless mouse transmits 1 a second control signal to the charge plate which causes the charge plate to provide a charging power of a second power mode to the rechargeable wireless mouse 1 outputs. In addition, the control signal, a switching of the charging plate to the rechargeable wireless mouse 1 output charging power between the first power supply mode and the second power supply mode, wherein the charging power of the first power supply mode is higher than the charging power of the second power supply mode. For example, 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%, but not by way of limitation.

In particular, in the first power supply mode, the charge plate outputs a charging duty to the rechargeable wireless device with a first duty cycle and in the second power supply mode with a second duty cycle 1 from, wherein the first duty cycle is greater than the second duty cycle. For example, it may be provided that the first duty cycle 1 and provides a power supply duration of 100%, while the second duty cycle is 0.5 and provides a power supply period of 50%, but this is not to be understood as limiting. The control circuit 120 generates different control signals as a function of the electrical potential energy, the charging plate being based on the respective one of the wireless transmission circuit 110 the rechargeable wireless mouse 1 received control signal selects either the first power supply mode or the second power supply mode to the rechargeable wireless mouse 1 to supply electricity.

The charging circuit 125 is electric with the rechargeable battery 130 and the conversion circuit 135 connected and charging the rechargeable battery 130 with that of the conversion circuit 135 output electrical potential energy. Specifically, the circuit structure has the charging circuit 125 a filter and rectification function to that of the conversion circuit 135 to filter out and rectify output electric potential energy and then as reserve electric power to the rechargeable battery 130 transferred to. Through the rechargeable battery 130 will be the one for the operation of the wireless transmission circuit 110 , of the Displacement detection circuit 115 , the control circuit 120 , the conversion circuit 135 and the light-emitting circuit 140 in the operating circuit 145 necessary electrical energy provided.

If that of the conversion circuit 135 to the control circuit 120 output electric potential energy is higher than the preset electric potential energy, activates the control circuit 120 the displacement detection circuit 115 and the light-emitting circuit 140 , In one embodiment, the shift detection circuit becomes 115 and the light-emitting circuit 140 through the control circuit 120 activated, if that of the conversion circuit 135 to the control circuit 120 output electric potential energy is higher than the preset electric potential energy and also exceeds a preset time. The displacement detection circuit 115 used to detect a change in movement of the rechargeable wireless mouse 1 , In particular, the shift detection circuit 115 the amount of movement and the direction of movement of the rechargeable wireless mouse 1 optically detect, wherein the detection according to the invention can be done in any way. For example, if the charging panel is charging power to the rechargeable wireless mouse in the first power mode 1 outputs, activates the control circuit 120 a light emitting diode in the light emitting circuit 140 , It will be clear to those skilled in the art that the preset electrical potential energy can be 3.3 to 5 volts. The LED can be on one side, in a mouse button or in the scroll wheel of the rechargeable wireless mouse 1 be arranged, which is not to be understood as limiting.

The displacement detection circuit 115 may comprise a light source unit (not shown) in the form of an area irradiated with laser light or infrared rays, wherein a receiving unit (not shown) of the displacement detecting circuit 115 the laser light or infrared rays reflected on this surface can receive, in order to determine the amount of movement and the direction of movement of the rechargeable wireless mouse, based on a difference between incident light and reflected light 1 to calculate. The invention is not limited to the said type of light source unit. The control circuit 120 generated based on the detection result of the displacement detection circuit 115 a corresponding displacement detection signal and may this via the wireless transmission circuit 110 transmitted to a wireless receiver (not shown), which may for example be realized by means of a dongle connected to a USB interface of a computer equipment or may also be installed in computer equipment. The wireless communication function of the wireless transmission circuit 110 can be realized by Bluetooth or Radio Frequency (RF) technology.

2 shows a block diagram of a wireless charging device according to an embodiment of the invention. As shown, the pallet serves 2 the wireless transmission of electromagnetic energy to a rechargeable wireless mouse 1 which has a circuit for wireless reception of electrical energy 105 , a charging circuit 125 , a rechargeable battery 130 and an operating circuit 145 includes. The operating circuit 145 includes a wireless transmission circuit 110 a shift detection circuit 115 , a control circuit 120 , a conversion circuit 135 and a light emitting circuit 140 , Regarding the rechargeable wireless mouse 1 is on the embodiment in 1 and its description, so that will not be discussed in detail at this point.

The pallet 2 includes a power supply circuit 205 , several circuits for the wireless transmission of electrical energy 210 and a wireless receiving circuit 215 wherein the power supply circuit 205 with the individual circuits for the wireless transmission of electrical energy 210 and the wireless receiving circuit 215 electrically connected. The wireless receiving circuit 215 the pallet 2 is used to receive one from the wireless transmission circuit 110 the rechargeable wireless mouse 1 transmitted control signal, based on which the power supply circuit 205 the charging power of each circuit for wireless transmission of electrical energy 210 controls. In the individual circuits for the wireless transmission of electrical energy 210 Furthermore, each contain a resonant circuit and a magnetic coil, wherein the rechargeable wireless mouse 1 the one from the pallet 2 transmitted electromagnetic energy can receive when the solenoid in the circuit for wireless reception of electrical energy 105 with the magnetic coil of the circuit for wireless transmission of electrical energy 210 the pallet 2 is electromagnetically coupled. At this time, the power supply circuit receives 205 via a terminal the electrical energy transmitted by an external power source, the terminal is realized for example by means of a USB (Universal Serial Bus) connection.

It's going on at the same time 2 and 3 referenced, in 3 the operation of a wireless charging device according to an embodiment of the invention is shown schematically. In the present embodiment, the user with the help of the rechargeable wireless mouse 1 the cursor movements on a notebook computer 3 Taxes. When the rechargeable wireless mouse 1 the pallet 2 approaches until the distance therebetween is less than a preset distance, the control circuit detects 120 via the conversion circuit 135 an electrical potential energy that is higher than the preset electrical potential energy, it recognizes an approximation of the rechargeable wireless mouse 1 to the pallet 2 and gives via the wireless transmission circuit 110 a first control signal to the wireless receiving circuit 215 out, leaving the pallet 2 is switched from the first power supply mode to the second power supply mode. Will the rechargeable wireless mouse 1 however, raised until their distance to the pallet 2 is greater than the preset distance, the control circuit detects 120 via the conversion circuit 135 an electric potential energy that is lower than the preset electric potential energy, it detects a removal of the rechargeable wireless mouse 1 from the pallet 2 and outputs a second control signal to the wireless receiving circuit 215 out to the pallet 2 switch from the first power mode to the second power mode. Here, the charging power of the first power supply mode is higher than the charging power of the second power supply mode. In other words, the pallet supplies 2 the rechargeable wireless mouse 1 with a higher charging power when the control circuit 120 an approach of rechargeable wireless mouse 1 to the pallet 2 recognizes. Is through the control circuit 120 a removal of the rechargeable wireless mouse 1 from the pallet 2 recognized, so does the pallet 2 a lower charging power ready. The wireless charging device according to the invention allows dynamic adjustment of the power supply mode of the pallet 2 , reducing the energy consumption of the pallet 2 can be effectively reduced.

It's going on at the same time 2 and 4 referenced, in 4 a flowchart of a charging method for a rechargeable wireless mouse according to an embodiment of the invention is shown. In step S405 receives the rechargeable wireless mouse 1 the one from the pallet 2 transmitted electromagnetic energy. In this case, the circuit for wireless reception of electrical energy 105 the rechargeable wireless mouse 1 when one of the circuits for wireless transmission of electrical energy 210 in the pallet 2 with the circuit for wireless reception of electrical energy 105 the rechargeable wireless mouse 1 Electromagnetically coupled by one of the circuits for wireless transmission of electrical energy 210 in the pallet 2 receive transmitted electromagnetic energy.

In step S410 is through the control circuit 120 determines whether the electrical potential energy is higher than a preset electrical potential energy. If the result is negative, go to the step S415 above. If yes, you go to the step S420 above. Specifically gives the rechargeable wireless mouse 1 depending on the of the pallet 2 received electromagnetic energy, a corresponding control signal to the pallet 2 out. There is the rechargeable wireless mouse 1 when these are the pallet 2 approaches until the distance between them is less than a preset distance, so that through the rechargeable wireless mouse 1 from the pallet 2 received electromagnetic energy higher than a preset electromagnetic energy and by the conversion circuit 135 generated electric potential energy is higher than a preset electric potential energy, a first control signal to the charging plate 2 what puts them in a first power mode. Will the rechargeable wireless mouse 1 however, removed from the pallet until the distance between them is greater than the preset distance, so that through the rechargeable wireless mouse 1 from the pallet 2 received electromagnetic energy lower than the preset electromagnetic energy and by the conversion circuit 135 generated electric potential energy is lower than the preset electric potential energy, outputs the rechargeable wireless mouse 1 a second control signal to the pallet 2 off, which puts them in a second power mode. The pallet 2 outputs charging power of either the first power supply mode or the second power supply mode to the rechargeable wireless mouse based on the control signal 1 , wherein the charging power of the first power supply mode is higher than the charging power of the second power supply mode. In particular, there is the pallet 2 In the first power supply mode with a first duty cycle and in the second power supply mode with a second duty cycle, a charging power to the rechargeable wireless mouse 1 from, wherein the first duty cycle is greater than the second duty cycle.

In step S415 gives the pallet 2 a charging power of the second power supply mode to the rechargeable wireless mouse 1 out. When the control circuit 120 determines that the of the conversion circuit 135 output electric potential energy is lower than the preset electric potential energy, transmits the rechargeable wireless mouse 1 a second control signal to the pallet 2 that makes the pallet 2 a charging power of the second power supply mode to the rechargeable wireless mouse 1 outputs.

In step S420 gives the pallet 2 a charging power of the first power supply mode to the rechargeable wireless mouse 1 out. When the control circuit 120 determines that the of the conversion circuit 135 output electric potential energy is higher than the preset electric potential energy, transmits the rechargeable wireless mouse 1 a first control signal to the pallet 2 that makes the pallet 2 a charging power of the first power supply mode to the rechargeable wireless mouse 1 outputs.

In step S425 become the shift detection circuit 115 and the light-emitting circuit 140 through the control circuit 120 activated. The rechargeable wireless mouse 1 outputs the first control signal to the pallet 2 to switch to the first power supply mode. When the pallet 2 a charging power of the first power supply mode to the rechargeable wireless mouse on the basis of the first control signal 1 outputs become the shift detection circuit 115 and the light-emitting circuit 140 through the control circuit 120 activated.

In summary, the control circuit of the rechargeable wireless mouse according to the present invention, when determining that the electric potential energy is higher than the preset electric potential energy, sends a control signal to the charge plate via the wireless transmission circuit to switch it to the first power supply mode. When it is determined by the control circuit that the electric potential energy is lower than the preset electric potential energy, the control circuit sends a control signal to the charge plate via the wireless transmission circuit to switch to the second power supply mode. In the present invention, by dynamically adjusting the power mode, the disadvantageous high power consumption of conventional load plates is eliminated. Moreover, in the first power-supply mode of the charging plate by means of the light-emitting circuit, the user is informed that the rechargeable wireless mouse is already in the normal charging mode in order to extend the functionality of the rechargeable wireless mouse.

The above is not a limitation of the scope of the invention, but is merely illustrative of embodiments of the invention. It will be apparent to those skilled in the art that various changes, modifications and equivalent substitutions are possible within the scope of the invention which are within the scope of the invention.

LIST OF REFERENCE NUMBERS

1

Rechargeable wireless mouse

105

Circuit for the wireless reception of electrical energy

110

Wireless transmission circuit

115

Displacement detection circuit

120

control circuit

125

charging circuit

130

Rechargeable battery

135

conversion circuit

140

Light emitting circuit

145

operating circuit

2

pallet

205

Power supply circuit

210

Circuit for the wireless transmission of electrical energy

215

Wireless receiving circuit

3

Notebook Computer

S405

The rechargeable wireless mouse receives the electromagnetic energy transmitted from the charge plate

S410

Determine if the electric potential energy is higher than a preset electric potential energy

S415

The charge plate outputs a charging power of a second power supply mode to the rechargeable wireless mouse

S420

The charging plate outputs a charging power of a first power supply mode to the rechargeable wireless mouse

S425

Activating the displacement detection circuit and the light emitting circuit by the control circuit

Claims (17)

A rechargeable wireless mouse (1) comprising: - a wireless electrical energy receiving circuit (105) for wirelessly receiving electromagnetic energy transmitted from a charge plate; - a conversion circuit (135) connected to the wireless electrical energy receiving circuit (105 ) is electrically connected and converts the electromagnetic energy into electrical potential energy, - a wireless transmission circuit (110), which serves to transmit a control signal to the charging plate, and - a control circuit (120) connected to the conversion circuit (135) and the wireless transmission circuit (110) is electrically connected, receives the electrical potential energy transmitted from the conversion circuit (135) and outputs the control signal via the wireless transmission circuit (110) to the charging plate depending on the electrical potential energy, wherein the control signal for switching the from the charging plate the rechargeable Wireless mouse (1) output charging power between a first power supply mode and a second power supply mode, wherein the charging power of the first power supply mode is higher than the charging power of the second power supply mode. Rechargeable wireless mouse after Claim 1 in which the charge plate outputs a charge power to the chargeable wireless mouse (1) in the first power supply mode at a first duty cycle and in the second power supply mode at a second duty cycle, wherein the first duty cycle is greater than the second duty cycle. Rechargeable wireless mouse after Claim 1 or 2 in which, from the rechargeable wireless mouse (1), when the electric potential energy is higher than a preset electric potential energy, a first control signal is transmitted to the charge plate, which causes the charge plate to output a charging power of the first power supply mode to the rechargeable wireless mouse. Rechargeable wireless mouse after one of Claims 1 to 3 in which, from the rechargeable wireless mouse (1), when the electric potential energy is lower than a pre-set electric potential energy, a second control signal is transmitted to the charge plate, causing the charge plate to supply a charging power of the second power supply mode to the rechargeable wireless mouse (1 ). Rechargeable wireless mouse after one of Claims 1 to 4 further comprising: a shift detection circuit (115) electrically connected to the control circuit (120) and for detecting a change in movement of the chargeable wireless mouse (1), and a light emitting circuit (140) connected to the control circuit (120) is electrically connected, wherein the control circuit (120), the shift detection circuit (115) and the light emitting circuit (140) is activated when the electric potential energy is higher than a preset electric potential energy. Rechargeable wireless mouse after one of Claims 1 to 5 , further comprising: - a rechargeable battery (130) and - a charging circuit (125) electrically connected to the conversion circuit (135) and the rechargeable battery (130), and the rechargeable battery (130) connected to the one of the conversion circuit (135 ) charges electrical potential energy output. Wireless charging device comprising: - A pallet (2) and - a rechargeable wireless mouse (1) with a circuit for wireless reception of electrical energy (105), which serves for the wireless reception of a charge plate (2) of transmitted electromagnetic energy, a conversion circuit (135) electrically connected to the wireless electrical energy receiving circuit (105) and converting the electromagnetic energy into electrical potential energy, - A wireless transmission circuit (110), which serves to transmit a control signal to the loading plate (2), and a control circuit (120), which is electrically connected to the conversion circuit (135) and the wireless transmission circuit (110), receives the electrical potential energy transmitted by the conversion circuit (135) and, depending on the electrical potential energy, receives the control signal via the wireless transmission circuit ( 110) to the charge plate (2), the control signal for switching the charge power outputted from the charge plate (2) to the chargeable wireless mouse (1) between a first power supply mode and a second power supply mode, the charging power of the first power supply mode being higher than is the charging power of the second power supply mode. Wireless charging device after Claim 7 in which the charge plate (2) outputs a charging power to the chargeable wireless mouse in the first power supply mode at a first duty cycle and in the second power supply mode at a second duty cycle, wherein the first duty cycle is greater than the second duty cycle. Wireless charging device after Claim 7 or 8th in which, of the rechargeable wireless mouse (1), when the electric potential energy is higher than a preset electric potential energy, a first control signal is transmitted to the charging plate (2), which causes the charging plate (2) to charge power of the first power supply mode to the rechargeable wireless mouse (1). Wireless charging device according to one of the Claims 7 to 9 in which, from the rechargeable wireless mouse (1), when the electric potential energy is lower than a preset electric potential energy, a second control signal is transmitted to the charge plate (2), causing the charge plate (2) to charge power of the second power supply mode to the rechargeable wireless mouse (1). Wireless charging device according to one of the Claims 7 to 10 further comprising: a shift detection circuit (115) electrically connected to the control circuit (120) and a light emitting circuit (140) electrically connected to the control circuit (120), the control circuit activating the displacement detection circuit (115) and the light emitting circuit (140) when the electrical potential energy is higher than a preset electrical potential energy. Wireless charging device according to one of the Claims 7 to 11 , further comprising: - a rechargeable battery (130) and - a charging circuit (125) electrically connected to the conversion circuit (135) and the rechargeable battery (130), and the rechargeable battery (130) connected to the one of the conversion circuit (135 ) charges electrical potential energy output. Charging method for a rechargeable wireless mouse, in particular for wireless charging of the rechargeable wireless mouse (1) by means of a loading plate (2), comprising the following steps: the rechargeable wireless mouse (1) emits a corresponding control signal to the charging plate (2) as a function of the electromagnetic energy received by the charging plate (2), and - The charging plate (2) outputs from the control signal charging power of either a first power supply mode or a second power supply mode to the rechargeable wireless mouse (1), wherein the charging power of the first power supply mode is higher than the charging power of the second power supply mode. Charging method after Claim 13 in which the charging plate (2) outputs a charging power to the chargeable wireless mouse (1) in the first power supply mode at a first duty cycle and in the second power supply mode at a second duty cycle, wherein the first duty cycle is greater than the second duty cycle. Charging method after Claim 13 or 14 in which, of the rechargeable wireless mouse (1), when the electric potential energy is higher than a preset electric potential energy, a first control signal is transmitted to the charge plate (2), causing the charge plate (2) to charge power of the first power supply mode to the rechargeable wireless mouse (1). Charging method according to one of Claims 13 to 15 in which, from the rechargeable wireless mouse (1), when the electric potential energy is lower than a preset electric potential energy, a second control signal is transmitted to the charge plate (2), causing the charge plate (2) to charge power of the second power supply mode to the rechargeable wireless mouse. Charging method according to one of Claims 13 to 16 in which a control circuit (120) activates a shift detection circuit (115) and a light emitting circuit (140) when the charge plate (2) outputs a charge power of the first power supply mode to the chargeable wireless mouse (1) based on the control signal.

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