TW201505384A - Wireless transceiver apparatus and mode switching method - Google Patents

Abstract

A wireless transceiver apparatus includes a first connected port, a second connected port, a control unit, and a switching unit. The first connected port has a first pin. The second connected port has a second pin. The control unit controls the wireless transceiver apparatus to enter in a signal transmission mode or a charging mode according to a first connection status of the first connected port and a second connection status of the second connected port. The switching unit switches that the second pin connects or disconnects a ground according to the first connection status. The switching unit also makes the second pin output a switching signal. The switching signal indicates that the wireless transceiver apparatus enters in the signal transmission mode or the charging mode.

Description

Wireless transceiver and mode switching method

The present invention relates to a wireless transceiver device and a mode switching method, and more particularly to a wireless transceiver device and a mode switching method that can improve the efficiency of use of the portable electronic device.

Over the years, with the advancement of electronic technology, the use of portable electronic devices has become increasingly popular, such as the widespread use of portable electronic devices such as notebook computers, smart phones, or tablets. As the functions of these portable electronic devices become more diverse, the need for additional functions of these portable electronic devices is also promoted.

For example, the user can connect to a portable electronic device such as a tablet by, for example, a wireless transceiver, and operate the tablet through a wireless mouse and through the wireless transceiver. In addition, if you need to charge this tablet, you need to charge the tablet through another power transmission line.

However, most wireless transceivers used in the prior art are not a medium for charging portable electronic devices. That is, the wireless transceiver cannot have the integrated function design of wireless signal transmission and charging at the same time. In this way, the user cannot use the wireless transceiver to charge the portable electronic device, and the wireless transceiver can reduce the use efficiency of the portable electronic device.

The invention provides a wireless transceiver device and a mode switching method, thereby improving The efficiency of use of portable electronic devices.

According to an embodiment of the invention, a wireless transceiver device includes a first port, a second port, a control unit, and a switching unit. The first port has a first pin. The second port is coupled to the first port and the second port has a second pin. The control unit is coupled between the first port and the second port to control the wireless transceiver to enter a signal transmission according to a first connection state of the first port and a second connection state of the second port Mode or a charging mode. The switching unit is coupled between the first connection port and the second connection port, and is configured to switch the second pin to be uncoupled or coupled to the ground end according to the first connection state, so that the second pin outputs a switching signal. The switching signal is used to instruct the wireless transceiver to enter a signal transmission mode or a charging mode.

According to an embodiment of the invention, a mode switching method is suitable for a wireless transceiver, and the mode switching method comprises the following steps. A first connection state and a second connection state are obtained. And controlling the wireless transceiver to enter a signal transmission mode or a charging mode according to the first connection state and the second connection state. According to the first connection state, a switching signal is outputted, wherein the switching signal is used to instruct the wireless transceiver to enter the signal transmission mode or the charging mode.

The wireless transceiver device and the mode switching method provided by the present invention, according to the first connection state of the first port and the second connection state of the second port, and the second pin is coupled to the ground through the switching unit End, so that the wireless transceiver enters the signal transmission mode, or the second pin is not coupled to the ground through the switching unit, so that the wireless transceiver enters the charging mode. In this way, the efficiency of use of the portable electronic device can be effectively improved.

The above description of the present invention and the following description of the embodiments are intended to illustrate and explain the spirit and principles of the present invention, and the scope of the patent application of the present invention is further improved. One step explanation.

10‧‧‧Wireless transceiver

100‧‧‧First connection埠

110‧‧‧First pin

200‧‧‧Second connection

210‧‧‧second pin

300‧‧‧Control unit

400‧‧‧Switch unit

500‧‧‧Matching unit

600‧‧‧Antenna unit

1 is a schematic diagram of a wireless transceiver device according to an embodiment of the present invention.

FIG. 2 is a schematic diagram of a wireless transceiver device according to another embodiment of the present invention.

FIG. 3 is a schematic diagram of the appearance of the wireless transceiver device of the present invention.

Figure 4 is a flow chart showing the steps of the mode switching method of the present invention.

The detailed features and advantages of the present invention are set forth in the Detailed Description of the Detailed Description of the <RTIgt; </ RTI> <RTIgt; </ RTI> </ RTI> </ RTI> <RTIgt; The objects and advantages associated with the present invention can be readily understood by those skilled in the art. The following examples are intended to describe the present invention in further detail, but are not intended to limit the scope of the invention.

Please refer to FIG. 1 , which is a schematic diagram of a wireless transceiver device according to an embodiment of the present invention. The wireless transceiver device 10 of the embodiment has both a signal transmission mode and a charging mode. The wireless transceiver device 10 includes a first port 100, a second port 200, a control unit 300, and a switching unit 400.

The first port 100 is adapted to be coupled to a first electronic device, and the first port 100 is configured to receive and output a first power signal generated by the first electronic device, wherein the first port 100 has a first connection Foot 110. In this embodiment, the first port 100 can be, for example, a universal serial bus (USB) port, and the first pin 110 is a plurality of pins of the universal serial bus port. one. However, the embodiment is not limited thereto, and the first connection The crucible 100 can also be implemented using other similar components.

The second port 200 is coupled to the first port 100, and the second port 200 is adapted to be coupled to a second electronic device, and the second port 200 is configured to receive and output a second device generated by the second device. The two power supply signals, wherein the second connection port 200 has a second pin 210. In this embodiment, the second port 200 can be, for example, an On-The-Go (OTG) universal serial bus port, and the second pin 210 is, for example, a portable universal bus bar connection. One identification pin (ID Pin). However, the embodiment is not limited thereto, and the second port 200 can also be implemented using other similar components.

In this embodiment, the foregoing first electronic device may be, for example, a desktop computer or a notebook computer, and the foregoing second electronic device may be, for example, a tablet computer or a smart phone. However, the embodiment is not limited thereto, and the first electronic device and the second electronic device may also be implemented using other similar components.

The control unit 300 is coupled between the first connection port 100 and the second connection port 200, and the control unit 300 is configured to cooperate with the first connection state of the first connection device 100 and the first electronic device and the second connection port 200. A second connection state of the second electronic device controls the wireless transceiver device 10 to enter a signal transmission mode or a charging mode. In this embodiment, the control unit 300 can be, for example, a Micro-Controller Unit (MCU). However, the embodiment is not limited thereto, and the control unit 300 may also be implemented using other similar components.

The switching unit 400 is coupled between the first port 100 and the second port 200, and the switching unit 400 is configured to switch the second pin 210 to be uncoupled or coupled to the ground according to the first connection state. The two pins 210 output a switching signal. The switching signal is used to instruct the wireless transceiver device 10 to enter the signal transmission mode or the charging mode.

In addition, the foregoing wireless transceiver device 10 further includes a matching unit 500 and an antenna unit 600. The matching unit 500 is coupled to the control unit 300, and the matching unit 500 is configured to receive a control signal generated by the control unit 300 and perform an impedance matching on the control signal to generate a matching signal. The antenna unit 600 is coupled to the matching unit 500, and the antenna unit 600 is configured to receive the matching signal to generate a wireless signal. The antenna unit 600 can generate, for example, a wireless signal to a wireless receiving device. In this embodiment, the wireless receiving device can be, for example, a wireless mouse. However, the embodiment is not limited thereto, and the wireless receiving device may also be implemented using other similar components.

For example, when the first connection state is that the first connection port 100 is coupled to the first electronic device, and the second connection state is that the second connection port 200 is not coupled to the second electronic device, the control unit 300 receives the first power supply. The signal operates and controls the wireless transceiver 10 to enter the signal transmission mode. That is, the control unit 300 controls the radio transceiver 10 to enter the signal transmission mode according to the first connection state and the second connection state. Moreover, the control unit 300 generates a control signal to the matching unit 500 to cause the matching unit 500 to generate a matching signal to the antenna unit 600. Next, the antenna unit 600 generates, for example, a wireless signal to the wireless receiving device. That is to say, the first electronic device has entered the signal transmission mode at this time.

When the second connection state is that the second connection port 200 is coupled to the second electronic device, and the first connection state is that the first connection port 100 is not coupled to the first electronic device, the control unit 300 receives the second power supply signal for operation. And controlling the wireless transceiver 10 to enter the signal transmission mode. That is, the control unit 300 controls the wireless transceiver device 10 to enter the signal transmission mode according to the second connection state and the first connection state. Moreover, the control unit 300 generates a control signal to the matching unit 500 to cause the matching unit 500 to generate a matching signal to the antenna unit 600. Next, the antenna unit 600 generates, for example, a wireless signal to the wireless receiving device. That is, the second electronic device is The signal transmission mode has now entered.

When the first connection state is that the first connection port 100 is coupled to the first electronic device, and the second connection state is that the second connection port 200 is coupled to the second electronic device, the control unit 300 receives the first power supply signal and the second The power supply signal operates to control the wireless transceiver 10 to enter the charging mode. That is, the control unit 300 controls the wireless transceiver device 10 to enter the charging mode according to the first connection state and the second connection state. Moreover, the control unit 300 does not generate a control signal to the matching unit 500, so that the matching unit 500 does not generate a matching signal to the antenna unit 600. Then, the antenna unit 600 also does not generate a wireless signal to the wireless receiving device. In addition, the first connection port 100 outputs a first power supply signal to the second connection port 200, so that the second connection port 200 outputs the first power supply signal to the second electronic device. That is, the second electronic device has entered the charging mode at this time.

Further, when the first connection state is that the first connection port 100 is not coupled to the first electronic device, the switching unit 400 switches the second pin 210 to be coupled to the ground to generate a switching signal such as a low voltage level. To the second pin 210. At this time, if the second electronic device is coupled to the second port 200, the second electronic device can receive the switching signal of the low voltage level through the second pin 210, thereby entering the signal transmission mode, so that the second device The electronic device can perform data transmission with the wireless transceiver 10.

When the first connection state is that the first connection port 100 is coupled to the first electronic device, the switching unit 400 switches the second pin 210 to be uncoupled to the ground to generate a switching signal such as a high voltage level to the second connection. Foot 210. At this time, if the second electronic device is coupled to the second port 200, that is, the wireless device 10 is coupled to the first electronic device and the second electronic device, the second electronic device can receive the foregoing through the second pin 210. High voltage level switching signal, and according to Charging mode. In this way, the second electronic device can receive the first power supply signal provided by the first electronic device through the first connection port 100 and the second connection port 200 to perform the charging operation.

Please refer to FIG. 2, which is a schematic diagram of a wireless transceiver device according to another embodiment of the present invention. For the related configuration and operation mode of the radio transceiver 10, reference may be made to the description of the foregoing embodiment, and therefore no further details are provided herein.

In this embodiment, the control unit 300 is further coupled between the switching unit 400 and the second port 200. The switching unit 400 generates a trigger signal to the control unit 300 according to the first connection state, so that the control unit 300 generates the foregoing switching signal to the second pin 210, and causes the second pin 210 to output the switching signal. The switching signal is used to instruct the wireless transceiver device 10 to enter the signal transmission mode or the charging mode.

For example, when the first connection state is that the first connection port 100 is not coupled to the first electronic device, the switching unit 400 generates a trigger signal such as a low voltage level to the control unit 300 according to the first connection state. Then, the control unit 300 generates a switching signal such as a low voltage level to the second pin 210 according to the trigger signal of the low voltage level. At this time, if the second electronic device is coupled to the second port 200, the second electronic device can receive the switching signal of the low voltage level through the second pin 210, thereby entering the signal transmission mode, so that the second device The electronic device can perform data transmission with the wireless transceiver 10.

When the first connection state is that the first connection port 100 is coupled to the first electronic device, the switching unit 400 generates a trigger signal such as a high voltage level to the control unit 300 according to the first connection state. Then, the control unit 300 generates a switching signal such as a high voltage level to the second pin 210 according to the trigger signal of the high voltage level. At this time, if the second electronic device is coupled to the second port 200, that is, the wireless device 10 is simultaneously coupled to the first device. And the second electronic device, the second electronic device can receive the switching signal of the high voltage level through the second pin 210, and enter the charging mode accordingly. In this way, the second electronic device can receive the first power supply signal provided by the first electronic device through the first connection port 100 and the second connection port 200 to perform the charging operation.

In addition, the implementation of the first port 100 and the second port 200 of the radio transceiver 10 of the above-described embodiment is as shown in FIG. 3 . "3rd picture" is a schematic diagram of the appearance of the wireless transceiver of the present invention.

A mode switching method can be summarized by the description of the above embodiment. Please refer to FIG. 4, which is a flow chart of the steps of the mode switching method of the present invention. The mode switching method of this embodiment is suitable for a wireless transceiver. In step S410, a first connection state and a second connection state are obtained. In step S420, a wireless transceiver is controlled to enter a signal transmission mode or a charging mode according to the first connection state and the second connection state.

In step S430, a switching signal is outputted according to the first connection state, wherein the switching signal is used to instruct the wireless transceiver to enter the signal transmission mode or the charging mode. Further, according to the first connection state, the output switching signal is switched, which includes the following steps. Generate a trigger signal. According to the trigger signal, a switching signal is generated.

In summary, the wireless transceiver device and the mode switching method disclosed in the embodiments of the present invention are configured by the control unit according to the first connection state of the first port and the second connection state of the second port, and through the switching unit. The second pin is coupled to the ground so that the wireless transceiver enters the signal transmission mode, or the second pin is not coupled to the ground through the switching unit, so that the wireless transceiver enters the charging mode. In this way, the efficiency of use of the portable electronic device can be effectively improved.

Although the present invention has been disclosed above in the foregoing embodiments, it is not intended to limit the invention. It is within the scope of the invention to be modified and modified without departing from the spirit and scope of the invention. Please refer to the attached patent application for the scope of protection defined by the present invention.

10‧‧‧Wireless transceiver

100‧‧‧First connection埠

110‧‧‧First pin

200‧‧‧Second connection

210‧‧‧second pin

300‧‧‧Control unit

400‧‧‧Switch unit

500‧‧‧Matching unit

600‧‧‧Antenna unit

Claims (9)

A wireless transceiver device includes: a first port having a first pin; a second port coupled to the first port; and the second port having a second pin; a control unit Between the first connection port and the second connection port, the radio transceiver is controlled according to a first connection state of the first port and a second connection state of the second port Entering a signal transmission mode or a charging mode; and a switching unit coupled between the first connection port and the second connection port, configured to switch the second pin uncoupled according to the first connection state Or coupled to a ground, the second pin outputs a switching signal, wherein the switching signal is used to indicate that the wireless transceiver enters the signal transmission mode or the charging mode. The radio transceiver device of claim 1, wherein the control unit is further coupled between the switching unit and the second port. The wireless transceiver device of claim 2, wherein the switching unit generates a trigger signal to the control unit according to the first connection state, so that the control unit generates the switching signal to the second pin, and causes the The two pins output the switching signal. The radio transceiver device of claim 1, further comprising: a matching unit coupled to the control unit for receiving a control signal generated by the control unit, and performing an impedance matching on the control signal to generate a a matching signal; and an antenna unit coupled to the matching unit for receiving the matching signal to generate a wireless signal. The radio transceiver of claim 1, wherein the control unit is a microcontroller. The radio transceiver of claim 1, wherein the first port is a universal serial bus port, and the first pin is one of a plurality of pins of the universal serial bus port. The wireless transceiver device of claim 1, wherein the second port is a portable universal serial bus port, and the second pin is an identification pin of the portable universal bus bar port. . A mode switching method is suitable for a wireless transceiver device, the mode switching method includes: obtaining a first connection state and a second connection state; controlling the wireless transceiver to enter according to the first connection state and the second connection state a signal transmission mode or a charging mode; and switching a output switching signal according to the first connection state, wherein the switching signal is used to indicate that the wireless transceiver enters the signal transmission mode or the charging mode. The mode switching method of claim 8, wherein the step of switching the output of the switching signal according to the first connection state comprises: generating a trigger signal; and generating the switching signal according to the trigger signal.