TW201515399A - Wireless transmission device and connecting device - Google Patents

Abstract

An exemplary embodiment of the present disclosure illustrates a wireless transmission device. The wireless transmission device includes a processor, a remote module, and a transmission module. The remote module includes an IR (infrared ray) transmitting unit. The remote module couples to the processor, the transmission device couples to the processor. The IR transmitting unit is used for transmitting a first enable signal. The transmission module is used for transferring at least one of data signals after a connection between the wireless transmission device and a connecting device is established. The connecting device builds a connecting environment after receiving the first enable signal and lets the wireless transmission further search the connecting device.

Description

Wireless transmission device and connection device

The present invention relates to a transmission device, and more particularly to a wireless transmission device for connecting to a connection device.

With the maturity and convenience of wireless network technology, the use of wireless networks is becoming more and more common. However, low-rate wireless transmission devices have attracted much attention in recent years in the fields of home appliances, toys, industry, security, and medical care. The reason is that the low-rate wireless transmission device has the characteristics of low cost, low power consumption, easy deployment, and the like, and is particularly suitable for applications with low maintenance and a large service area. Among the various low-rate wireless transmission network protocols, the most representative standard is the IEEE 802.15.4 Zigbee network.

For example, a wireless transmission device within a company or a wireless transmission device within a home may form a Personal Area Network (PAN) for data transmission within a company or within a home. Taking the Zigbee wireless transmission network protocol as an example, this standard defines 26 wireless channels, and the nodes on each channel can not interfere with each other and coexist at the same time. Furthermore, as described above, such a low power wireless transmission device has a simple structure and is easy to deploy. As a result, many users currently use Zigbee to build a private Wireless Ad-hoc Network for home automation, office automation, or/and wireless sensing.

Please refer to FIG. 1. FIG. 1 is a schematic diagram of a communication link formed by a wireless transmission device and a connection device. The communication link 10 can be a personal area network formed by connecting a plurality of wireless transmission devices 12-14 to the connection device 11. The wiring device 11 includes a start button 111 and a reset button 112. Wireless transmission devices 12~14 can be socket detection Instruments, temperature controllers, etc., electronic devices that transmit data wirelessly.

In Zigbee's personal area network, the most important step is the action of the new node. The reason is that each wireless transmission device and the connection device are transmitted wirelessly, so that an unexpected wireless transmission device may be added to the personal area network, or the wireless transmission device may be mistakenly added to an unexpected personal area. In the network, the leakage of personal privacy data or the illegal use of wireless network broadband is caused.

Please refer to FIG. 1 and FIG. 2 at the same time. FIG. 2 is a flow chart of connecting between a conventional wireless transmission device (Zigbee device) and a connection device (Coordinator). In general, it is conventional practice to provide a start button 111 on the wiring device 11. As shown in FIG. 2, in step 211, when the user needs to connect the wireless transmission device 22 with the connection device 21, the user presses the start button before the connection device 21 to make the connection. Device 21 generates a connectable mode start command. Next, in step 212, the connection device 21 knows that there may be a wireless transmission device 22 to be added, and the connection device 21 enters the connectable mode.

In step 221, after the user activates the connectable mode of the connection device 21, the user operates the wireless transmission device 22 to issue a beacon request (Beacon request) to search for the connection existing in the connectable mode. Device 21. In step 213, after the connection device 21 receives the beacon request 221 of the wireless transmission device 22, the connection device 21 returns a beacon response (Beacon response) to the wireless transmission device 22 to inform the wireless transmission device 22 that the device exists. Connection mode 21 of the connection mode. Finally, in step 222, if the wireless transmission device 22 wants to further connect, it sends an Associate Request to the connection device 21. Next, in step 214, after receiving the join request sent by the wireless transmission device 22, the connection device 21 sends an Associate response to the wireless transmission device 22, thereby completing the wireless transmission device 22 and the connection device 21 accordingly. The connection between.

It should be noted that after the connection device 21 enters the connectable mode, the connection device 21 receives the connection request of the wireless transmission device in the connectable mode time D, and After the connection mode time D has elapsed, in step 215, the connection device 21 performs the shutdown connectable mode. Thereby, it is possible to prevent an unexpected wireless transmission device from joining the personal area network.

However, in the conventional connection mode, each time the user makes a connection between the wireless transmission devices 12 to 14 and the connection device 11, the user must perform the startup control from the end of the connection device 11. Further, if the wiring device 11 is placed in a place that is not easily accessible to the user (such as a high place, a ceiling, etc.), the user may not be able to press or press the button. The traditional connection method will cause the user to be inconvenient when establishing the connection, resulting in the impression that the general user is not friendly and the market acceptance is not high.

Embodiments of the present invention provide a wireless transmission apparatus for wirelessly connecting to a connection apparatus. The wireless transmission device includes a remote control module, a processing unit, and a transmission module. The remote control module includes a wireless transmitting unit. The processing unit is coupled to the remote control module, and the transmission module is coupled to the processing unit. The wireless transmitting unit is configured to transmit the first activation signal. The processing unit is configured to control the wireless transmitting unit to transmit the first activation signal to the connection device, and the connection device enters the connectable mode, so that the wireless transmission device can search for the connection device. The transmission module is configured to transmit a data signal after establishing a connection between the wireless transmission device and the connection device.

The embodiment of the invention provides a connection device for providing a wireless transmission device for wireless connection. The connection device includes a startup module, a processing unit, and a transmission module. The startup module includes a wireless receiving unit. The processing unit is coupled to the startup module, and the transmission module is coupled to the processing unit. The processing unit is configured to control the wireless receiving unit to receive the first activation signal transmitted by the wireless transmission device, and the connection device enters the connectable mode. The wireless receiving unit is configured to receive the first activation signal, and the transmission module is configured to transmit the data signal after establishing a connection between the connection device and the wireless transmission device.

Embodiments of the present invention provide a wireless transmission apparatus for wirelessly connecting to a connection apparatus. The wireless transmission device includes a battery, a processing unit, and a transmission module. Battery pack The remote control module includes a wireless transmitting unit. The processing unit is coupled to the battery, and the transmission module is coupled to the processing unit. The battery is configured to provide a power receiving timing signal of the wireless transmission device, and the wireless transmitting unit is configured to transmit the first startup signal. The processing unit is configured to receive the transmission signal and control the wireless transmitting unit to transmit the first activation signal to the connection device, so that the connection device enters the connectable mode, and the wireless transmission device can search for the connection device. The transmission module is configured to transmit a data signal after establishing a connection between the wireless transmission device and the connection device.

The wireless transmission device and the connection device provided by the embodiments of the present invention can effectively improve the operation and communication procedures of the conventional wireless transmission device and the connection device when the connection network is established, such as the Zigbee wireless transmission device and the connection device. Allow users to operate wireless network systems, such as the Zigbee wireless network system, in the old habits (such as TV, air-conditioning remote control). Therefore, the above wireless transmission device and the connection device can provide a more friendly and intuitive operation mode to the user, and can also enhance the competitiveness of the connection device (for example, Zigbee connection device) in the market.

The detailed description of the present invention and the accompanying drawings are to be understood by the claims The scope is subject to any restrictions.

10, 30‧‧‧Communication links

11, 21, 31, 41‧‧‧ connection devices

12, 13, 14, 22, 32, 42‧‧‧ wireless transmission devices

111‧‧‧Start button

112‧‧‧Reset button

211‧‧‧Generating a connectable mode start command

212, 411‧‧‧ Enter the connectable mode

213, 412‧‧‧ issued a beacon response

214, 413‧‧‧ issued a response

215, 414‧‧‧ Closed connectable mode

221, 423‧‧‧ issued a beacon request

222, 424‧‧‧Request for membership

421‧‧‧ issued connection instructions

422‧‧‧Send a connection request

D‧‧‧Connectable mode time

T‧‧‧ connection request waiting time

320‧‧‧Battery

321‧‧‧Remote control module

323, 314‧‧‧ processing unit

322, 312‧‧‧Zigbee modules

3213, 3113‧‧‧ Switching unit

3212‧‧‧ coding unit

3112‧‧‧Decoding unit

3211‧‧‧Wireless transmitting unit

3111‧‧‧Wire receiving unit

311‧‧‧Starting module

313‧‧‧ Storage Module

S101~S209‧‧‧ is the step procedure

1 is a schematic diagram of a communication link formed by a wireless transmission device and a connection device; FIG. 2 is a flow chart of connecting between a conventional wireless transmission device and a connection device; FIG. 3A is a wireless transmission device according to an embodiment of the present invention; FIG. 3B is a structural diagram of a wireless transmission device and a connection device according to another embodiment of the present invention; FIG. 4 is a schematic diagram of a wireless transmission device and a connection device according to an embodiment of the present invention; FIG. 5 is a flowchart of connection between wireless transmission devices according to an embodiment of the present invention; FIG. 6 is a flowchart of a method for performing connection control by a connection device according to an embodiment of the present invention.

Various illustrative embodiments are described more fully hereinafter with reference to the accompanying drawings. However, the inventive concept may be embodied in many different forms and should not be construed as being limited to the illustrative embodiments set forth herein. Rather, these exemplary embodiments are provided so that this invention will be in the In the drawings, the size and relative sizes of layers and regions may be exaggerated for clarity. Similar numbers always indicate similar components.

It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements, such elements are not limited by the terms. These terms are used to distinguish one element from another. Thus, a first element discussed below could be termed a second element without departing from the teachings of the inventive concept. As used herein, the term "or" may include all combinations of any one or more of the associated listed items.

[Wireless network of wireless transmission devices and connection devices]

Please refer to FIG. 3A. FIG. 3A is a structural diagram of a communication link formed by a wireless transmission device and a connection device according to an embodiment of the present invention. In FIG. 3A, the communication link 30 is formed by the connection device 31 and the wireless transmission device 32. The communication link 30 can be a wireless network, such as a personal wireless local area network. In FIG. 3A, wireless communication between the wireless transmission device 32 and the connection device 31 can be performed to exchange data.

The connection device 31 includes a startup module 311, a Zigbee module 312, a storage module 313, and a processing unit 314. The startup module 311 includes a wireless receiving unit 3111, a decoding unit 3112, and a switching unit 3113. The startup module 311 and the Zigbee module 312 The storage module 313 is coupled to the processing unit 314. More specifically, the decoding unit 3112 and the switch unit 3113 in the boot module 311 are coupled to the processing unit 314, and the wireless receiving unit 3111 is coupled to the decoding unit 3112.

The wireless transmission device 32 includes a remote control module 321, a Zigbee module 322, and a processing unit 313. The remote control module 321 includes a wireless transmitting unit 3211, an encoding unit 3212, and a switching unit 3213. The remote control module 321 and the Zigbee module 322 are coupled to the processing unit 323. More specifically, the switching unit 3213 and the encoding unit 3212 of the remote control module 321 are coupled to the processing unit 323, and the wireless transmitting unit 3211 is coupled to the encoding unit 3212.

The switch units 3213, 3113 are provided to the user for operation to generate a trigger signal to the wireless transmission device 32 or the connection device 31. The trigger signal is used to provide processing units 323 and 314 to generate an activation signal. In the embodiment of the present invention, the switch unit 3213, 3113 is disposed outside the wireless transmission device 32 or the connection device 31, and is implemented by a mechanical button, which can also be implemented by a touch button, and is not intended to limit the present invention. . It is worth mentioning that the switch unit 3213 allows the user to control the boot connection device 31 from the wireless transmission device 32 to enter the connectable mode, or directly activate the connectable mode from the connection device 31 through the switch unit 3113. The invention is not intended to be limiting.

The processing units 323 and 314 are components of the main signal operation processing of the wireless transmission device 32 and the connection device 31. In the embodiment of the present invention, the processing unit 323 in the wireless transmission device 32 accepts the trigger signal provided by the switch unit 3213 being pressed, and generates an activation signal accordingly. The processing unit 314 in the connection device 31 further processes the received startup signal and performs subsequent processing operations, such as starting the Zigbee module 312. In other embodiments, the user can also operate the switch unit 3113 of the connection device 31 to generate the trigger signal providing processing unit 314 to perform subsequent processing actions.

On the other hand, the processing unit 314 of the connection device 31 is further coupled to the storage module 313. The storage module 313 is configured to store the wireless transmission device connected to the connection device 31. Set the connection information of 32. The storage module 313 can be implemented in a non-volatile/volatile storage unit (such as ROM or RAM), and the invention is not limited thereto.

The wireless transmitting unit 3211 may be a general infrared emitting LED or other electronic component that can emit infrared rays, such as an infrared LED diode of 3M/M, 5mm, and the like. In addition, the wireless receiving unit 3111 can be a general infrared receiving module, such as an IRM-2638 infrared remote control receiving module, an IRM0208-A538 infrared remote receiving module, and an IRM-3638N3 infrared remote receiving module. Although the above-described wireless transmitting unit 3211 and wireless receiving unit 3111 are exemplified by infrared elements, the present invention is not limited thereto.

In the embodiment of the present invention, the wireless transmitting unit 3211 and the wireless receiving unit 3111 are configured to provide the user to wirelessly initiate the connection on the wireless transmission unit 32 when the wireless transmission unit 32 and the connection device 31 are initially connected. Device 31 enters a connectable mode. For example, the user presses the switch button 3213 of the wireless transmission device 32 to provide a connection command (trigger signal). The connection command is processed by the processing unit 323 to generate an activation signal and the activation signal is transmitted via the wireless transmitting unit 3211. Then, the wireless receiving unit 3111 of the connection device 31 receives the activation signal. Then, the connection device 31 that receives the activation signal further processes through the processing unit 314 and starts the Zigbee module 312 to enter the connectable mode.

The encoding unit 3212 and the decoding unit 3112 provide the user with the remote control connection device 31 of the wireless transmission device 32, and can further recognize that the transmitted and received activation signals are approved by the user, avoiding unintended wireless transmission devices and other Misjudgment of devices that are maliciously connected and other controllers with wireless remote control. In the embodiment of the present invention, the encoding unit 3212 and the decoding unit 3112 may be pulse width modulation (Pulse Width Modulation) of the wireless remote control instruction code of the NEC code, and the general knowledge in the wireless field may also be other modulation coding. The present invention is described by way of example only, and the invention is not limited thereto. For example, when the processing unit 323 generates the activation signal, the activation signal may be further encoded by the encoding unit 3212 and then transmitted to the wireless transmitting unit 3211 to transmit it. Connect After receiving the encoded activation signal, the wireless receiving unit 3111 of the connection device 31 further decodes the activation signal through the decoding unit 3112 and transmits the signal to the processing unit 314.

The Zigbee modules 322 and 312 are modules for transmitting the main data signals of the wireless transmission device 32 and the connection device 31. Zigbee modules 322 and 312 can be formed by Zigbee module chips. Zigbee is a low-speed short-distance transmission wireless network protocol, which is standardized as the IEEE 802.15.4 standard media access layer and physical layer. However, the present invention is only implemented by using a Zigbee module, and those having ordinary knowledge in the wireless field can also implement WiFi or Bluetooth, and the present invention is not limited thereto.

Please refer to FIG. 3B. FIG. 3B is a structural diagram of a wireless transmission device and a connection device according to another embodiment of the present invention. In another embodiment of the present invention, the wireless transmission device 32 includes a battery 320, a switch unit 3213, a processing unit 323, and a Zigbee module 322. The battery includes a remote control module 321 , and the remote control module 321 further includes an encoding unit 3212 and a wireless transmitting unit 3211 . The battery 320 has a transmission interface coupled to the processing unit 323. In the present embodiment, the difference from the wireless transmission device 32 of the embodiment of FIG. 3A is that the wireless transmission device 32 has a battery 320 including a remote control module 321, and the switch unit 3213 is located outside the remote control module. That is, the switch unit 3213 is located on the wireless transmission device 32, and may be, for example, a location provided on the housing of the wireless transmission device 32 to provide user operation. The other components are the same as the embodiment of FIG. 3A, and details are not described herein again.

Battery 320 is a replaceable module. More specifically, the battery 320 can be replaced in a manner that is replaced by a generally purely powered battery. Therefore, when the user places the battery 320 into the wireless transmission device 32, the user can directly control the remote control module 321 in the battery 320 through the switch unit 3213 and the processing unit 323.

In the case of a generally purely powered battery, the user only operates the wireless transmission device 32 with the switching unit 3213 to issue a beacon request to search for the connection device 21 that is currently in the connectable mode. When the user replaces the battery 320 described in this embodiment, the processing unit 323 determines whether the connected battery is a remote control module 321 The battery is further converted to the remote control mode.

When the wireless transmission device 32 is in the remote control mode, when the user presses the switch unit 3213, a trigger signal is similarly generated to cause the processing unit 323 to generate an activation signal. However, it is worth noting that the processing unit 323 further converts the start signal into a timing signal for controlling the power-on or power-off of the battery 320 after generating the start signal (for example, a timing interval of 0.1 ms for a 10-second interval to generate different potentials). The signal is supplied to the wireless transmitting unit 3211 via the processing unit 323 to control the transmission interface of the coupled battery 320. That is, the processing unit 323 transmits the start signal converted to the timing signal to the wireless transmitting unit 3211 through the transmission interface of the battery 320 to transmit it. However, as described in the previous embodiment, the start signal converted to the timing signal may be encoded first by the outer re-encoding unit 3212, and then transmitted to the wireless transmitting unit 3211 for transmission.

In this way, it is possible to provide the manufacturer with the function of adding the remote control module 321 to the conventional wireless transmission device without greatly changing the overall circuit architecture, thereby achieving the minimum cost upgrade for the wireless transmission device 32. Although the present embodiment is described herein in which the remote control module 321 is included in the battery 320, the battery 320 may be included in the remote control module 321, and the present invention is not limited thereto.

Next, please refer to FIG. 3A and FIG. 4 simultaneously. FIG. 4 is a flowchart of connecting between the wireless transmission device and the connection device according to the embodiment of the present invention. When the user first uses the wireless transmission device 42, the user must first make an initial connection with the connection device 41. First, in step 421, the user presses the switch button 3213 from the wireless transmission device 42 and generates a connection command. Next, in step 422, the wireless transmission device 42 further issues a connection request (that is, the above-mentioned activation signal) to the connection device 41. It should be noted that the connection request 422 sent by the wireless transmission device 42 is transmitted through the wireless transmitting unit 3211, and the connection request is received by the wireless receiving unit 3111 of the connection device 41.

In step 411, after receiving the connection request 422, the connection device 41 proceeds to Step into the connectable mode. In detail, after the connection device 41 receives the connection request 422, the connection request 422 is processed by the processing unit 314, and the Zigbee module 312 is activated to enter the connectable mode. It is worth mentioning that, while the connection device 41 enters the connectable mode, the connection device 41 begins to count down the waiting interval of the connectable mode time D for providing the connection mode time D. The wireless transmission device 42 in the broadcast range is searched for the connection mode 41 of the connectable mode. When the connectable mode time D countdown is zeroed, then in step 414, the connection device 41 turns off the Zigbee module 312 to further perform the turn off the connectable mode.

After the user sends a connection request through the wireless transmission device 42, the wireless transmission device 42 starts the waiting interval of the countdown time T for the wireless transmission device 42 to wait for the connection device 41 to enter the connectable mode. When the time T countdown is zeroed, in step 423, the wireless transmission device 42 proceeds from transmitting the beacon request. It should be noted here that the beacon request sent by the wireless transmission device 42 is transmitted through the Zigbee module 322 of the wireless transmission device 42. By the transmission of the beacon request, the wireless transmission device 42 further searches for the connection device 41 that exists in the vicinity of the connectable mode, and also includes the connection device 41 that is to be controlled to be activated.

When the connection device 41 enters the connectable mode Zigbee module 312 receives the beacon request sent by the wireless transmission device 42 in the connectable mode time D, then in step 412, the connection device 41 sends a beacon response. The wireless transmission device 42 is informed that it is currently in a connectable mode. Then, after the wireless transmission device 42 receives the beacon response, in step 424, the wireless transmission device 42 issues a join request to the connection device 41 to request to join the connection device 41. In step 413, the connection device 41 receives the join request sent by the wireless transmission device 42 and sends a join response to the wireless transmission device 42 to complete the initial connection between the connection device 41 and the wireless transmission device 42. set up.

[Wireless transmission device and connection device control method]

Please refer to FIG. 4 and FIG. 5 simultaneously. FIG. 5 is a flowchart of a method for performing connection control of a wireless transmission apparatus according to an embodiment of the present invention. The flow of the method of performing the connection control of the wireless transmission device 42 will be explained more closely in FIG. First, in step S101, The wireless transmission device 42 issues a connection request according to the user's instruction.

Next, in step S102, the wireless transmission device 42 issues a beacon request. After the wireless transmission device 42 issues a connection request, the wireless transmission device 42 begins to wait for a waiting time interval of a countdown time T to issue a beacon request. If the beacon request sent by the wireless transmission device 42 does not receive a response, the process returns to step S101 to determine whether to issue the connection request again according to the operation of the user. That is to say, the wireless transmission device 42 does not find a connection device 41 that can be added to the connectable mode at this stage. If the beacon request sent by the wireless transmission device 42 is answered, that is, at this stage, the connection device 41 having the connectable connection mode is searched, the next step S103 is continued.

In step S103, the wireless transmission device 42 further issues a join request to join the connection device 41 in the connectable mode. Next, in step S104, the wireless transmission device 42 performs a subsequent action according to the response of the connection mode 41 of the connectable mode to be added, for example, whether the subsequent action is determined by receiving the join response sent by the connection device 41. If the connection mode 41 of the connectable mode is to be added, the join request issued is not allowed (for example, the join response is not received within a specific time, or a rejection response is directly received), then the connection is terminated. Line program. If the added connection mode of the connectable mode 41 allows the incoming join request (e.g., the join response is received within a specified time), the wireless transmission device 42 completes the connection device 41 that joins the connectable mode.

In step S105, after the wireless transmission device 42 completes the connection connection, the communication mode for data transmission with the connection device 41 establishing the connectable mode can be started, and the connection procedure is terminated.

Please refer to FIG. 4 and FIG. 6 simultaneously. FIG. 6 is a flowchart of a method for performing connection control of a connection device according to an embodiment of the present invention. The flow of the method of performing the wiring control of the wiring device 41 will be described more closely in FIG. First, in step S201, the connection device 41 receives the connection request, that is, the connection device 41 waits for the signal of the connection request at any time. In step S202, the connection device 41 enters the connectable mode. In detail, when the connection device 41 receives the connection request, it starts to enter the connectable mode. even The line device 41 activates the internal transmission module (such as the Zigbee module in the above embodiment), enters the connectable mode and starts the waiting interval for the countdown connection mode time D.

In step S203, when the connection device 41 enters the connectable mode, it is determined whether a beacon request is received. If the connection device 41 receives the beacon request, the process proceeds to the next step S205. If the beacon request is not received, it waits in the waiting interval of the connectable mode time D in step S204 to wait for judging whether a beacon request is received, and the connectable mode is turned off until the connectable mode time D returns to zero.

In step S205, the connection device 41 transmits a beacon response for responding to the received beacon request to inform other wireless transmission devices of the presence of the connection mode 41 in the connectable mode. Next, in step S206, the connection device 41 determines whether or not the join request is received. If the connection device 41 receives the join request, the process proceeds to the next step S208. If the join request is not received, it waits in the waiting interval of the connectable mode time D in step S207 to determine whether a join request is received, and the connectable mode is turned off until the connectable mode time D returns to zero.

In step S208, after receiving the join request, the connection device 41 determines whether the wireless transmission device 42 that issued the join request is allowed to join the wireless network. If the connection device 41 allows the wireless transmission device 42 that issued the join request to join the wireless network, the next step S209 is performed. If the connection device 41 does not allow the wireless transmission device 42 that has made the join request to join the wireless network, the connection procedure is terminated, or a rejection response is sent (not shown in FIG. 6).

In step S209, the connection device 41 sends a join response to allow the connection device 41 to complete the connection with the wireless transmission device 42, and ends the connection procedure. Then, after the wireless transmission device 42 joins the wireless network corresponding to the connection device 41, the wireless transmission device 42 can communicate with the connection device 41 and other wireless communication devices in the wireless network.

[The possible effects of the invention]

The wireless transmission device and the connection device provided by the embodiments of the present invention can effectively improve the operation of the traditional wireless transmission device and the connection device when the connection network is established. And communication programs, such as Zigbee wireless transmission devices and wiring devices. Allow users to operate wireless network systems, such as the Zigbee wireless network system, in the old habits (such as TV, air-conditioning remote control). Therefore, the above wireless transmission device and the connection device can provide a more friendly and intuitive operation mode to the user, and can also enhance the competitiveness of the connection device (for example, Zigbee connection device) in the market.

The above description is only the preferred embodiment of the present invention, but the features of the present invention are not limited thereto, and any one skilled in the art can easily change or modify it in the field of the present invention. Covered in the following patent scope of this case.

30‧‧‧Communication links

31‧‧‧Connecting device

32‧‧‧Wireless transmission

321‧‧‧Remote control module

323, 314‧‧‧ processing unit

322, 312‧‧‧Zigbee modules

3213, 3113‧‧‧ Switching unit

3212‧‧‧ coding unit

3112‧‧‧Decoding unit

3211‧‧‧Wireless transmitting unit

3111‧‧‧Wire receiving unit

311‧‧‧Starting module

313‧‧‧ Storage Module

Claims (10)

A wireless transmission device for wirelessly connecting to a connection device, comprising: a remote control module, comprising: a wireless transmission unit for transmitting a first activation signal; and a processing unit coupled to the remote control module Controlling the wireless transmitting unit to transmit the first activation signal to the connection device, allowing the connection device to enter a connectable mode, and allowing the wireless transmission device to search for the connection device; and a transmission mode The group is coupled to the processing unit for transmitting at least one data signal after establishing a connection between the wireless transmission device and the connection device. The wireless transmission device of claim 1, wherein the remote control module further includes: a switch unit coupled to the processing unit, the switch unit configured to generate a trigger signal to cause the wireless transmitting unit to transmit the first A start signal. The wireless transmission device of claim 2, wherein the remote control module further comprises: an encoding unit coupled to the processing unit, and when the processing unit receives the trigger signal, the encoding unit is configured to The first activation signal is encoded and transmitted to the wireless transmitting unit. The wireless transmission device of claim 1, wherein the transmitting module transmits a beacon signal at least after a first time after the wireless transmitting unit transmits the first activation signal. A connection device for providing at least one wireless transmission device for wireless connection, comprising: a startup module, comprising: a wireless receiving unit for receiving at least one first activation signal; and a processing unit coupled to the The startup module is configured to control the wireless receiving unit to receive the first activation signal transmitted by the wireless transmission device, and enable the connection The device is in a connectable mode; and a transmission module is coupled to the processing unit for transmitting at least one data signal after establishing a connection between the connection device and the at least one wireless transmission device. The connection device of claim 5, further comprising: a storage unit coupled to the processing unit, the storage unit for storing the wireless transmission device transmitting the data signal with the connection device At least one device information. The connection device of claim 5, wherein the activation module further comprises: a switch unit coupled to the processing unit, the switch unit for generating a second activation signal; wherein the connection device The connectable mode is established by the second activation signal. The connection device of claim 5, wherein the activation module further comprises: a decoding unit coupled to the wireless receiving unit, and the wireless receiving unit transmits the activation signal when receiving the activation signal The start signal is decoded and transmitted to the processing unit. The connection device of claim 5, wherein the connectable mode is turned off after a second time after the transmission device of the connection device establishes the connectable mode. A wireless transmission device for wirelessly connecting to a connection device, comprising: a battery for providing power of the wireless transmission device and receiving a timing signal, comprising: a remote control module, comprising: a wireless transmission unit, configured to: Transmitting a first activation signal; and a processing unit coupled to the battery for generating the timing signal and controlling the wireless transmitting unit to transmit the first activation signal to the connection device, so that the connection is installed a wireless connection device is configured to enable the wireless transmission device to search for the connection device; and a transmission module is coupled to the processing unit for establishing between the wireless transmission device and the connection device At least one data signal is transmitted after the connection.