Wireless signal relaying apparatus, method, and terminal device

By combining power dividers, amplifier circuits, and combiner modules in a wireless signal relay device, the problems of high cost and low speed in existing wireless signal relay technologies are solved, achieving efficient wireless signal relay and improved transmission rate, thus expanding application scenarios.

CN116366119BActive Publication Date: 2026-07-10SHENZHEN SKYWORTH RGB ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SHENZHEN SKYWORTH RGB ELECTRONICS CO LTD
Filing Date
2023-03-27
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing wireless signal relay methods suffer from high costs, low speeds, and limited application scenarios, especially in situations with weak signals where relay efficiency is low.

Method used

Two signals are generated by the first power divider module, and then amplified by the first and second amplification circuit modules respectively. The hotspot signal is output by combining the wireless module and the combiner module to realize wireless network relay. The amplifier operation mode is adjusted by the main control module to improve the transmission rate.

Benefits of technology

Without requiring dual network cards, it improves the efficiency and transmission rate of wireless signal relay, enhances user experience, reduces costs, and expands the application scenarios.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to a wireless signal relay device, a method and a terminal equipment. The wireless signal relay device generates at least two signals according to a wireless routing signal through a first power divider module, the at least two signals include a first signal and a second signal, the first signal is amplified through a first amplification circuit module to obtain a wireless network signal, network connection is realized through a wireless module based on the wireless network signal, the second signal is amplified through a second amplification circuit module to obtain a routing amplified signal, and a hotspot signal is output through a combiner module based on the routing amplified signal. The wireless signal relay device can play a role of wireless network relay without a double network card, the signal can be amplified through the first amplification circuit module and the second amplification circuit module to improve the transmission rate, and the wireless signal relay efficiency is improved.
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Description

Technical Field

[0001] This application relates to the field of computers, and more particularly to a wireless signal relay device, method, and terminal equipment. Background Technology

[0002] With the development of technology, wireless networks have become an indispensable technology in life. They are needed in many scenarios, such as television and conference systems, which require the application of wireless network hotspot solutions. Their main function is to amplify the wireless router signal and provide it to surrounding clients such as mobile phones, computers, and tablets. Another function is to provide video playback and screen projection for the local products, thereby achieving the effect of wireless network relay.

[0003] The existing methods for achieving wireless network relay mainly involve setting up dual network cards, with one network card responsible for receiving data from the external network and the other network card used as a hotspot. Although dual network cards can achieve the effect of wireless network self-use and hotspot output, there are problems with high cost and low speed when encountering weak signal conditions, that is, low efficiency of wireless signal relay. Summary of the Invention

[0004] To address the aforementioned technical problems, this application provides a solution.

[0005] In a first aspect, this application provides a wireless signal relay device, comprising: a first power divider module, a first amplifier circuit module, a second amplifier circuit module, a wireless module, and a combiner module;

[0006] The first power divider module is used to receive wireless routing signals and generate at least two signals based on the wireless routing signals, wherein the at least two signals include a first signal and a second signal.

[0007] The first amplifier circuit module is used to amplify the first signal to obtain a wireless network signal;

[0008] The wireless module is used to establish a network connection based on the wireless network signal;

[0009] The second amplifier circuit module is used to amplify the second signal to obtain a routed amplified signal;

[0010] The combiner module is used to output a hotspot signal based on the route amplification signal.

[0011] Optionally, it also includes a third amplifier circuit module and a second power divider module;

[0012] The combiner module is also used to receive a request signal and output a combining signal according to the request signal;

[0013] The third amplifier circuit module is used to amplify the combined signal to obtain an output request signal;

[0014] The second power divider module is used to output a wireless request signal based on the output request signal.

[0015] Optionally, a main control module may also be included;

[0016] The first amplifier circuit module includes a first amplifier and a first power detector;

[0017] The first amplifier is used to amplify the first signal according to the operating mode to obtain the wireless network signal, and output the wireless network signal to the first power detector;

[0018] The first power detector is used to transmit the wireless network signal to the wireless module and output a first detection signal to the main control module based on the wireless network signal;

[0019] The main control module is used to adjust the operating mode of the first amplifier based on the first detection signal.

[0020] Optionally, a main control module may also be included;

[0021] The second amplifier circuit module includes a second amplifier and a second power detector.

[0022] The second amplifier is used to amplify the second signal according to the operating mode to obtain the route amplified signal, and output the route amplified signal to the second power detector;

[0023] The second power detector is used to transmit the route amplification signal to the combiner module and output a second detection signal based on the route amplification signal;

[0024] The main control module is used to adjust the operating mode of the second amplifier based on the second detection signal.

[0025] Optionally, the first power divider module includes a first antenna, a first filter, and a first power divider;

[0026] The first antenna is used to receive the wireless routing signal according to a first preset VSWR;

[0027] The first filter is used to filter the wireless routing signal and output a filtered routing signal.

[0028] The first power divider is used to generate the at least two signals based on the filtered routing signal.

[0029] Optionally, the combiner module includes a combiner and a third antenna;

[0030] The combiner is used to output a hotspot signal based on the route amplification signal;

[0031] The third antenna is used to transmit the hotspot signal to an external device.

[0032] Optionally, the second power divider module includes a second power divider, a second antenna, and a second filter;

[0033] The second power divider is used to send the output request signal to the second filter;

[0034] The second filter is used to filter the output request signal to obtain a wireless request signal;

[0035] The second antenna is used to output the wireless request signal according to the second preset VSWR.

[0036] Secondly, this application provides a wireless signal relay method, applied to a terminal, comprising:

[0037] Receive wireless router signals;

[0038] At least two signals are generated based on the wireless routing signal, and the at least two signals include a first signal and a second signal;

[0039] The first signal is amplified to generate a wireless network signal, which is used by the terminal to establish a network connection.

[0040] The second signal is amplified to generate a route amplified signal;

[0041] The hotspot signal is output based on the route amplification signal.

[0042] Thirdly, a computer-readable storage medium is provided having a computer program stored thereon, which, when executed by a processor, implements the steps of the wireless signal relay method as described in any embodiment of the first aspect.

[0043] Fourthly, a terminal device is provided, including any of the wireless signal relay devices described in the first aspect.

[0044] The technical solutions provided in this application have the following advantages compared with the prior art:

[0045] The wireless signal relay device provided in this application embodiment generates at least two signals based on the wireless routing signal through a first power divider module. The at least two signals include a first signal and a second signal. The first signal is amplified by a first amplification circuit module to obtain a wireless network signal. A network connection is established through a wireless module based on the wireless network signal. The second signal is amplified by a second amplification circuit module to obtain a routing amplified signal. A hotspot signal is output through a combiner module based on the routing amplified signal. This device can not only function as a wireless network relay without the need for dual network cards, but also improve the transmission rate by amplifying the signal through the first and second amplification circuit modules, thereby improving the efficiency of wireless signal relay. Attached Figure Description

[0046] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with the invention and, together with the description, serve to explain the principles of the invention.

[0047] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, those skilled in the art can obtain other drawings based on these drawings without creative effort.

[0048] Figure 1 This is a schematic diagram of the structure of a wireless signal relay device provided in an embodiment of this application;

[0049] Figure 2 A schematic diagram of a wireless signal relay device provided in another embodiment of this application;

[0050] Figure 3 A schematic diagram of a wireless signal relay device provided in another embodiment of this application;

[0051] Figure 4 This is a flowchart illustrating a wireless signal relay method provided in an embodiment of this application.

[0052] Figure labels: 1. First power divider module; 11. First antenna; 12. First filter; 13. First power divider; 2. First amplifier circuit module; 21. First amplifier; 22. First power detector; 3. Second amplifier circuit module; 31. Second amplifier; 32. Second power detector; 4. Wireless module; 5. Combiner module; 51. Combiner; 52. Third antenna; 6. Third amplifier circuit module; 7. Second power divider module; 71. Second power divider; 72. Second antenna; 73. Second filter; 8. Main control module. Detailed Implementation

[0053] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0054] Wireless networks have become an indispensable technology in daily life. There are many situations in life and work where wireless networks are needed. For example, if a router is placed in the bedroom and a TV is placed in the living room, a user in the dining room will experience a weak signal when connecting to the wireless signal from the router in the bedroom. Or, if a meeting is held with conference equipment in the conference room and a router in the office area, a user in the conference room will also experience a weak signal when connecting to the wireless signal from the router in the office area. In both of these situations, the wireless signal from the router needs to be relayed through the TV or conference equipment so that users who are far away from the router can connect.

[0055] There are two main types of existing wireless signal repeating methods. One is to use the same wireless network card for time-division multiplexing. In this case, the network card receives the wireless signal sent by the router in different time periods to establish its own network connection, and also relays the received wireless signal sent by the router to other user terminals in different time periods for network connection. The other method is to set up dual network cards in the device. One network card is responsible for receiving the wireless signal sent by the router for network connection, and the other network card is responsible for relaying the wireless signal sent by the router to other user terminals for network connection.

[0056] While all of the above methods can serve as wireless network repeaters, the first method, which uses time-sharing multiplexing, severely impacts the user's real-time experience, such as screen mirroring, because it involves time-sharing for both network connection and relay forwarding. Theoretically, this reduces network card speed by half, resulting in a poor user experience. The second method, using dual network cards, is costly and relies on the product's chip for forwarding capabilities. Since televisions and conferencing equipment are not professional routing solutions but use software routing, while this ensures usability in specific scenarios, access to the external network is still limited by the network card chip's packet forwarding capacity, thus limiting its application scenarios. Furthermore, both methods suffer from low speeds in weak signal conditions, leading to poor repeating capabilities.

[0057] Figure 1This is a schematic diagram of a wireless signal relay device provided in an embodiment of this application.

[0058] like Figure 1 As shown in the illustration, this application discloses an embodiment of a wireless signal relay device, which may specifically include: a first power divider module 1, a first amplifier circuit module 2, a second amplifier circuit module 3, a wireless module 4, and a combiner module 5; wherein, the first power divider module 1 can be used to receive a wireless routing signal and generate at least two signals based on the wireless routing signal, the at least two signals including a first signal and a second signal; the first amplifier circuit module 2 can be used to amplify the first signal to obtain a wireless network signal; the wireless module 4 can be used to establish a network connection based on the wireless network signal; the second amplifier circuit module 3 can be used to amplify the second signal to obtain a routing amplified signal; and the combiner module 5 can be used to output a hotspot signal based on the routing amplified signal.

[0059] In this embodiment, the input terminal of the first power divider module 1 is used to receive wireless routing signals. The first output terminal of the first power divider module 1 is connected to the input terminal of the first amplifier module 2, and the second output terminal of the first power divider module 1 is connected to the input terminal of the second amplifier module 3. The output terminal of the first amplifier module 2 is connected to the wireless module 4, and the output terminal of the second amplifier module 3 is connected to the combiner module 5. The wireless routing signal received by the first power divider module 1 may be transmitted by a routing device that does not require connection to the wireless signal relay device. The first power divider module 1 performs splitting processing on the wireless routing signal, dividing it into at least two signals, including a first signal and a second signal. The first signal is output to the first amplifier module 2, and the second signal is output to the second amplifier module 3. The first amplifier module 2 then processes the first signal... The signal is amplified to obtain a wireless network signal, which is then transmitted to the wireless module 4. The wireless module 4 can be a wireless network card, enabling it to connect to the network based on the wireless network signal. This completes the function of the wireless signal relay device in connecting to the network based on the wireless network signal. Furthermore, the second signal is amplified by the second amplification circuit to obtain a routing amplified signal, which is then transmitted to the combiner module 5. The combiner module 5 can output a hotspot signal based on the routing amplified signal. The hotspot signal is used for external devices to connect to the network, such as mobile phones and laptops. Therefore, this embodiment can not only function as a wireless network relay without the need for dual network cards, but also improve the transmission rate by amplifying the signal through the first amplification circuit module 2 and the second amplification circuit module 3, thereby improving the efficiency of the wireless signal relay.

[0060] like Figure 2As shown, in one embodiment, the wireless signal relay device may further include a third amplifier circuit module 6 and a second power divider module 7;

[0061] One end of the third amplifier circuit module 6 is connected to the combiner module 5, and the other end of the third amplifier circuit module 6 is connected to the second power divider module 7. The combiner module 5 can receive a request signal and output a combined signal to the third amplifier module according to the request signal. The request signal can be a network request signal sent by an external device. The third amplifier circuit module 6 can amplify the combined signal to obtain an output request signal and send the output request signal to the second power divider module. The second power divider module 7 can output a wireless request signal according to the output request signal, without needing to output a request signal to the routing device. This enables the wireless signal relay device to receive the wireless routing signal sent by the routing device and send a wireless request signal to the routing device, thus completing the relay function without needing a signal.

[0062] like Figure 3 As shown, in one embodiment, the wireless signal relay device may further include a main control module 8; wherein, the first amplification circuit module 2 includes a first amplifier 21 and a first power detector 22; the input terminal of the first amplifier 21 is connected to the first power divider module 1, and the output terminal of the first amplifier 21 is connected to the first power detector 22; the first amplifier 21 can amplify the first signal according to the operating mode to obtain a wireless network signal, and output the wireless network signal to the first power detector 22, wherein the operating mode is used to indicate the current amplification factor of the first amplifier 21, so different operating modes determine that the first amplifier 21 amplifies the first signal by different factors; the first power detector 22 can transmit the wireless network signal to the wireless module 4, and output a first detection signal to the main control module 8 based on the wireless network signal; the main control module 8 can adjust the operating mode of the first amplifier 21 according to the first detection signal, thereby controlling the amplification factor of the first signal by the first amplification circuit module 2; specifically, the first detection signal output by the first power detector 22 can be divided into three levels (high, medium, and low level) of level signals and given to the main control module 8 for the main control module 8 to determine the current input signal strength. If the first detection signal is determined to be high, indicating that the current output wireless network signal is too strong, in order to prevent the wireless network signal input from being oversaturated and causing abnormal wireless signal transmission, the main control module 8 adjusts the operating mode of the first amplifier 21 to non-amplification mode, thereby turning off the amplification effect of the first amplifier 21 and not performing signal amplification processing. The first amplifier 21 has a PASSBY function inside, which can output the signal directly without amplification. The first detection signal of other level signals is processed in a similar way as described above, and will not be repeated here.

[0063] Based on the above embodiments, optionally, the first amplifier circuit module 2 provided in this embodiment may further include a first bandpass filter and a second bandpass filter, and the first amplifier 21 may be a first LNA amplifier;

[0064] The input of the first bandpass filter is connected to the first power divider module 1, the output of the first bandpass filter is connected to one end of the first LNA amplifier, the other end of the first LNA amplifier is connected to the input of the second bandpass filter, and the output of the second bandpass filter is connected to the first power detector 22. It should be noted that the first and second bandpass filters perform filtering based on a specific frequency, which is the receiving frequency of the first power divider module 1. This specific frequency bandpass filter further filters out other unwanted sidelobe signals.

[0065] like Figure 3 As shown, in one embodiment, the wireless signal relay device may further include a main control module 8; wherein, the second amplifier circuit module 3 includes a second amplifier 31 and a second power detector 32; the input terminal of the second amplifier 31 is connected to the first power divider module 1, and the output terminal of the second amplifier 31 is connected to the second power detector 32; the second amplifier 31 is used to amplify the second signal according to the operating mode to obtain a routing amplified signal, and output the routing amplified signal to the second power detector 32; the second power detector 32 can transmit the routing amplified signal to the combiner module 5, and output a second detection signal based on the routing amplified signal; the main control module 8 can adjust the operating mode of the second amplifier 31 according to the second detection signal. It should be noted that the operating mode of the second amplifier circuit module 3 is similar to that of the first amplifier circuit module 2, and will not be described again here. In addition, the second amplifier circuit module 3 may also include a third bandpass filter, a fourth bandpass filter, and a fifth bandpass filter, and the first amplifier 21 may include a second LNA amplifier and a third LNA amplifier;

[0066] The input of the third bandpass filter is connected to the first power divider module 1. The output of the first bandpass filter is connected to one end of the second LNA amplifier. The other end of the second LNA amplifier is connected to the input of the fourth bandpass filter. The output of the fourth bandpass filter is connected to one end of the third LNA amplifier. The other end of the third LNA amplifier is connected to the input of the fifth bandpass filter. The output of the fifth bandpass filter is connected to the second power detector 32. It should be noted that the third, fourth, and fifth bandpass filters perform filtering based on a specific frequency, which is the receiving frequency of the first power divider module 1. This specific frequency bandpass filter further filters out unwanted sidelobe signals. It should also be noted that the composition of the third amplifier circuit module 6 is the same as that of the second amplifier circuit module 3, but their operation methods are reversed, and the amplifier in the third amplifier circuit is a PA amplifier.

[0067] like Figure 2 As shown, in one embodiment, the first power divider module 1 may include a first antenna 11, a first filter 12, and a first power divider 13; the first antenna 11 may receive wireless routing signals according to a first preset VSWR; the first filter 12 may filter the wireless routing signals and output filtered routing signals; the first power divider 13 may generate at least two signals according to the filtered routing signals.

[0068] In this embodiment, the first antenna 11 serves as the receiving antenna of the wireless signal relay device to communicate with the transmitting antenna of the routing device, and receives the wireless routing signal using a first preset VSWR. The first antenna 11 has the same frequency as the transmitting antenna of the routing device, thereby attenuating other signals except for signals of a specified frequency by controlling the antenna VSWR parameter, reducing the signal noise floor. Then, the first filter 12 can filter the wireless routing signal and output a filtered routing signal. The first power divider 13 can generate at least two signals based on the filtered routing signal.

[0069] like Figure 2 As shown, in one embodiment, the combiner module 5 may include a combiner 51 and a third antenna 52; the combiner 51 may output a hotspot signal according to the routing amplification signal; the third antenna 52 may send the hotspot signal to an external device.

[0070] In this embodiment, the third antenna 52 sends the hotspot signal to external devices, enabling external devices such as mobile phones and computers to connect to the network through the hotspot signal, thereby achieving the effect of wireless signal relay.

[0071] like Figure 2As shown, in one embodiment, the second power divider module 7 includes a second power divider 71, a second antenna 72, and a second filter 73; the second power divider 71 can send the output request signal to the second filter 73; the second filter 73 can filter the output request signal to obtain a wireless request signal; the second antenna 72 can output the wireless request signal according to a second preset VSWR.

[0072] In this embodiment, the second filter 73 can filter the output request signal to obtain a wireless request signal, and send the wireless request signal to the second antenna 72. The second antenna 72 can output the wireless request signal according to the second preset VSWR. The second antenna 72 serves as the transmitting antenna of the wireless signal relay device to communicate with the receiving antenna of the routing device, and sends the wireless request signal to the routing device according to the second preset VSWR. The second antenna 72 and the transmitting antenna of the routing device have the same frequency. By controlling the antenna VSWR parameter, other signals except for signals of the specified frequency are attenuated, thereby reducing the signal noise floor.

[0073] like Figure 3 As shown, it should be noted that the second power divider module 7 has the same composition as the aforementioned first power divider module 1, but operates in the opposite manner. The first power divider module 1 is used to receive unrouted signals, while the second power divider module 7 is used to transmit unrequested signals. Since the transmitting and receiving functions of the antenna can be interchanged, the first power divider module 1 and the second power divider module 7 are relative receiving and transmitting functions, and can be switched according to needs, without specific limitations here. Therefore, the wireless signal relay device may also include a fourth amplifier circuit module. One end of the fourth amplifier circuit module is connected to the second power divider module 7, and the other end of the fourth amplifier circuit module is connected to the unrequested module. The composition of the fourth amplifier circuit module is the same as that of the first amplifier circuit module 2, but their operating modes are opposite, and the amplifier in the fourth amplifier circuit is a PA amplifier. When the first power divider module 1 is used to receive wireless routed signals, the fourth amplifier circuit module does not need to operate. However, when the second power divider module is used to receive wireless routed signals, the fourth amplifier circuit module plays the role of the first amplifier circuit module 2, and the first amplifier circuit module 2 does not need to operate. At the same time, the operation of the third amplifier circuit module 6 and the second amplifier circuit module 3 is interchanged.

[0074] like Figure 4 As shown, this application also discloses an embodiment providing a wireless signal relay method applied to a terminal, including:

[0075] S110: Receives wireless router signals;

[0076] S120: Generate at least two signals based on the wireless routing signal, wherein the at least two signals include a first signal and a second signal;

[0077] S130: The first signal is amplified to generate a wireless network signal, which is used by the terminal to connect to the network.

[0078] S140: Amplify the second signal to generate a route amplification signal;

[0079] S150: Output hotspot signal based on the route amplification signal.

[0080] The wireless signal relay method in this embodiment can be applied to the wireless signal relay device in any of the above embodiments, or other devices, systems, servers, etc. that need to perform wireless signal relay. By generating at least two signals based on the wireless routing signal, the at least two signals include a first signal and a second signal. Then, the first signal is amplified to obtain a wireless network signal. A network connection is established based on the wireless network signal. By amplifying the second signal to obtain a routing amplified signal, a hotspot signal is output based on the routing amplified signal. This method can not only play the role of wireless network relay without the need for dual network cards, but also improve the transmission rate by amplifying the signal, thereby improving the efficiency of wireless signal relay.

[0081] The specific implementation steps and processes of the above method can be referred to the corresponding implementation of each component structure in the aforementioned wireless signal relay device, and will not be repeated here.

[0082] In one optional implementation, the terminal device provided in this application includes the wireless signal relay device described in any of the foregoing embodiments, such as a television device, a conference room device, etc. The terminal device may further include: a processor, and a memory for storing executable instructions of the processor; wherein, the processor is configured to execute the wireless signal relay method as described in any of the above method embodiments.

[0083] This application also provides a computer-readable storage medium having a computer program stored thereon, which, when executed by a processor, implements the steps of the wireless signal relay method as described in any of the foregoing embodiments.

[0084] It should be noted that, in this document, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0085] The foregoing has described specific embodiments of the embodiments described in this specification. Other embodiments are within the scope of the appended claims. In some cases, the actions or steps recited in the claims may be performed in a different order than that shown in the embodiments and may still achieve the desired result. Furthermore, the processes depicted in the drawings do not necessarily require the specific or sequential order shown to achieve the desired result. In some embodiments, multitasking and parallel processing are also possible or may be advantageous.

[0086] The above description is merely a specific embodiment of the present invention, enabling those skilled in the art to understand or implement the invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features claimed herein.

Claims

1. A wireless signal relay device, characterized in that, include: First power divider module, first amplifier circuit module, second amplifier circuit module, wireless module, combiner module, third amplifier circuit module and second power divider module; The first power divider module is used to receive wireless routing signals and generate at least two signals based on the wireless routing signals, wherein the at least two signals include a first signal and a second signal. The first amplification circuit module is used to amplify the first signal to obtain a wireless network signal, and also includes a main control module; wherein, the first amplification circuit module includes a first amplifier and a first power detector; the first amplifier is used to amplify the first signal according to an operating mode to obtain the wireless network signal, and output the wireless network signal to the first power detector; the first power detector is used to transmit the wireless network signal to the wireless module, and output a first detection signal to the main control module based on the wireless network signal; the main control module is used to adjust the operating mode of the first amplifier according to the first detection signal; the first amplification circuit module further includes: a first bandpass filter and a second bandpass filter, the first bandpass filter and the second bandpass filter filtering the wireless network signal based on a specific frequency, the specific frequency being the receiving frequency of the first power divider module; The wireless module is used to establish a network connection based on the wireless network signal; The second amplification circuit module is used to amplify the second signal to obtain a routing amplified signal, and also includes a main control module; wherein, the second amplification circuit module includes a second amplifier and a second power detector; the second amplifier is used to amplify the second signal according to an operating mode to obtain the routing amplified signal, and output the routing amplified signal to the second power detector; the second power detector is used to transmit the routing amplified signal to the combiner module, and output a second detection signal based on the routing amplified signal; the main control module is used to adjust the operating mode of the second amplifier according to the second detection signal; the second amplification circuit module also includes: a third bandpass filter, a fourth bandpass filter, and a fifth bandpass filter, the third bandpass filter, the fourth bandpass filter, and the fifth bandpass filter filtering the routing amplified signal based on a specific frequency, the specific frequency being the receiving frequency of the first power divider module; The combiner module is used to output a hotspot signal based on the routing amplification signal, and is also used to receive a request signal and output a combining signal based on the request signal. The third amplifier circuit module is used to amplify the combined signal to obtain an output request signal; The second power divider module is used to output a wireless request signal based on the output request signal.

2. The apparatus according to claim 1, characterized in that, The first power divider module includes a first antenna, a first filter, and a first power divider; The first antenna is used to receive the wireless routing signal according to a first preset VSWR; The first filter is used to filter the wireless routing signal and output a filtered routing signal. The first power divider is used to generate the at least two signals based on the filtered routing signal.

3. The apparatus according to claim 1, characterized in that, The combiner module includes a combiner and a third antenna; The combiner is used to output a hotspot signal based on the route amplification signal; The third antenna is used to transmit the hotspot signal to an external device.

4. The apparatus according to claim 1, characterized in that, The second power divider module includes a second power divider, a second antenna, and a second filter; The second power divider is used to send the output request signal to the second filter; The second filter is used to filter the output request signal to obtain a wireless request signal; The second antenna is used to output the wireless request signal according to the second preset VSWR.

5. A wireless signal relay method, characterized in that, Applied to terminals, including: Receive wireless router signals; At least two signals are generated based on the wireless routing signal, the at least two signals including a first signal and a second signal; A first amplifier amplifies the first signal to generate a wireless network signal, which is used by the terminal for network connection. The amplification process includes: amplifying the first signal according to an operating mode to obtain the wireless network signal; outputting a first detection signal based on the wireless network signal; adjusting the operating mode of the first amplifier according to the first detection signal; and filtering the wireless network signal based on a first bandpass filter and a second bandpass filter at a specific frequency. The second amplifier amplifies the second signal to generate a routing amplified signal, including: amplifying the second signal according to the operating mode to obtain the routing amplified signal; outputting a second detection signal based on the routing amplified signal; adjusting the operating mode of the second amplifier according to the second detection signal; and filtering the routing amplified signal based on a specific frequency using a third bandpass filter, a fourth bandpass filter, and a fifth bandpass filter. Based on the route amplification signal, output a hotspot signal and receive a request signal; based on the request signal, output a combining signal. The combined signal is amplified to obtain an output request signal; A wireless request signal is output based on the output request signal.

6. A computer-readable storage medium having a computer program stored thereon, characterized in that, When the computer program is executed by the processor, it implements the steps of the wireless signal relay method as described in claim 5.

7. A terminal device, characterized in that, Includes the wireless signal relay device according to any one of claims 1-5.