CN216565148U

CN216565148U - Mobile phone signal enhancer with WiFi routing function

Info

Publication number: CN216565148U
Application number: CN202121035104.8U
Authority: CN
Inventors: 关超健; 邹双; 崔益阳; 孔唯同; 田广中
Original assignee: Shenzhen Mobi Network Communication Co ltd; Mobi Antenna Technologies Shenzhen Co Ltd; Shenzhen Shengyu Wisdom Network Technology Co Ltd; Mobi Technology Xian Co Ltd; Mobi Technology Shenzhen Co Ltd; Xian Mobi Antenna Technology Engineering Co Ltd; Mobi Telecommunications Technologies Jian Co Ltd
Current assignee: Shenzhen Mobi Network Communication Co ltd; Mobi Antenna Technologies Shenzhen Co Ltd; Shenzhen Shengyu Wisdom Network Technology Co Ltd; Mobi Technology Xian Co Ltd; Mobi Technology Shenzhen Co Ltd; Xian Mobi Antenna Technology Engineering Co Ltd; Mobi Telecommunications Technologies Jian Co Ltd
Priority date: 2021-05-14
Filing date: 2021-05-14
Publication date: 2022-05-17
Anticipated expiration: 2031-05-14

Abstract

The utility model provides a mobile phone signal enhancer with a WiFi routing function, which comprises a signal enhancer unit for enhancing mobile phone signals and a WiFi unit for providing the WiFi routing function, wherein the signal enhancer unit comprises a signal enhancer host, an outdoor receiving antenna and an indoor covering antenna, the outdoor receiving antenna is connected to the input end of the signal enhancer host, the indoor covering antenna is connected to the output end of the signal enhancer host, and the WiFi unit is arranged in the signal enhancer host. Therefore, the functions of the mobile phone signal intensifier and the WiFi router are integrated on the signal intensifier host, so that the communication and internet access quality of a user can be improved; and the WiFi internet function requirement of the communication terminal can be met at the same time.

Description

Mobile phone signal enhancer with WiFi routing function

Technical Field

The utility model relates to the technical field of mobile communication, in particular to a mobile phone signal enhancer with a WiFi routing function.

Background

With the rapid development of mobile communications, network coverage is continuously expanding. For places such as ordinary families, offices, hotels and the like, the surrounding environment may cause certain blind areas or weak areas in indoor wireless communication, and the communication and internet access quality of users is affected, so that the user requirements cannot be met. Meanwhile, as the internet is more and more popularized, the requirement of users on the broadband is continuously increased, the fiber is generally realized in the home, and the requirement of the router on the internet is increasingly increased. However, none of the existing devices in the market can simultaneously solve the weak coverage of the mobile phone signal and the Wireless WiFi (Wireless Fidelity) internet access function.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects, the utility model aims to provide a mobile phone signal enhancer with a WiFi routing function, which integrates the functions of the mobile phone signal enhancer and the WiFi router into a whole on a signal enhancer host, so that the communication and internet access quality of a user can be improved; and the WiFi internet function requirement of the communication terminal can be met at the same time.

In order to achieve the above object, the present invention provides a mobile phone signal enhancer with WiFi routing function, comprising a signal enhancer unit for enhancing a mobile phone signal and a WiFi unit for providing a WiFi routing function, wherein the signal enhancer unit comprises a signal enhancer host, an outdoor receiving antenna and an indoor covering antenna, the outdoor receiving antenna is connected to an input end of the signal enhancer host, the indoor covering antenna is connected to an output end of the signal enhancer host, and the WiFi unit is disposed in the signal enhancer host.

According to the mobile phone signal enhancer with the WiFi routing function, the host machine of the signal enhancer comprises an MCU module, a Bluetooth module, a first duplexer, a downlink low-noise amplification module, a downlink filtering module, a downlink attenuation module, a downlink power amplification module, a second duplexer, an uplink low-noise amplification module, an uplink filtering module, an uplink attenuation module and an uplink power amplification module;

the first duplexer realizes communication with the outdoor receiving antenna, the output end of the first duplexer is connected with the downlink low-noise amplification module, the downlink filtering module, the downlink attenuation module and the downlink power amplification module are sequentially connected, and the downlink power amplification module is connected with the input end of the second duplexer;

the second duplexer realizes communication with the indoor coverage antenna, the output end of the second duplexer is connected with the uplink low-noise amplification module, the uplink filtering module, the uplink attenuation module and the uplink power amplification module are sequentially connected, and the uplink power amplification module is connected with the input end of the first duplexer.

According to the mobile phone signal enhancer with the WiFi routing function, the signal enhancer unit realizes 1710-1785 MHz full frequency bands of uplink and 1805-1880MHz full frequency bands of downlink in a full duplex communication mode.

According to the mobile phone signal enhancer with the WiFi routing function, the WiFi unit comprises a radio frequency chip, a baseband chip, a CPU module, a combiner, a WiFi transmitting antenna, a network transformer and a network interface;

the CPU module, the baseband chip and the radio frequency chip are connected in sequence;

the radio frequency chip is connected with at least one combiner, and each combiner is connected with one WiFi transmitting antenna;

the CPU module is at least connected with one network transformer, each network transformer is connected with one network interface, and any one network interface is selected to be connected with a modem or a switch through a network cable so as to realize the WiFi routing internet surfing function.

According to the mobile phone signal enhancer with the WiFi routing function, the CPU module is also connected with a memory and/or a flash memory; and/or

The radio frequency chip is connected with at least two combiners, each combiner is respectively connected with one WiFi transmitting antenna, and the communication terminal accesses the Internet by connecting wireless signals sent by the at least two WiFi transmitting antennas; and/or

The CPU module is at least connected with two network transformers, each network transformer is respectively connected with at least two network interfaces, and the network interfaces are LAN/WAN interfaces; any one of the LAN/WAN interfaces is selected to be connected with the modem or the switch through a network cable, and the communication terminal is connected with the LAN/WAN interface through the network cable to access the Internet.

According to the mobile phone signal enhancer with the WiFi routing function, the WiFi unit supports the WiFi 6 standard.

According to the mobile phone signal enhancer with the WiFi routing function, the host machine of the signal enhancer is provided with a power line interface for connecting a power supply; and/or

And a reset key for reset operation is arranged on the signal enhancer host.

According to the mobile phone signal enhancer with the WiFi routing function, the outdoor receiving antenna adopts a log-periodic antenna; and/or

The indoor covering antenna adopts a fabric plate-shaped antenna; and/or

The outdoor receiving antenna is connected with the signal enhancer host machine by adopting a 50 ohm high-frequency communication cable; and/or

The outdoor receiving antenna is installed at a high place of an outdoor building, and the distance between the outdoor receiving antenna and the signal enhancer host is at least 8 meters.

According to the mobile phone signal enhancer with the WiFi routing function, the mobile phone signal enhancer with the WiFi routing function is suitable for indoor places.

According to the mobile phone signal enhancer with the WiFi routing function, the signal enhancer host is connected with the power management module through the power interface, and the power management module is respectively connected with the signal enhancer unit and the WiFi unit so as to respectively supply power to the signal enhancer unit and the WiFi unit in a centralized manner.

The mobile phone signal enhancer with the WiFi routing function comprises a signal enhancer unit and a WiFi unit, wherein the signal enhancer unit is used for enhancing mobile phone signals and comprises a signal enhancer host, an outdoor receiving antenna and an indoor covering antenna, the outdoor receiving antenna is connected to the input end of the signal enhancer host, and the indoor covering antenna is connected to the output end of the signal enhancer host; the WiFi unit is arranged in the signal enhancer host and used for providing a WiFi routing function. Therefore, the functions of the mobile phone signal intensifier and the WiFi router are integrated on the signal intensifier host, so that mobile phone signals can be intensified in wireless communication transmission, the problem of blind areas or weak areas of indoor wireless communication caused by surrounding environments is solved, and the communication and internet surfing quality of users is improved; on the other hand, the WiFi internet function requirement of the communication terminal can be met simultaneously, and the problem that the mobile phone signal enhancement function and the WiFi internet function can be realized simultaneously by two devices is solved. The utility model is mainly suitable for indoor places such as ordinary families, offices, hotels and the like.

Drawings

Fig. 1 is a circuit diagram of a mobile phone signal enhancer with WiFi routing function according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a connection of a mobile phone signal enhancer with a WiFi routing function according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a signal enhancer unit of a mobile phone signal enhancer with a WiFi routing function according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a WiFi unit of a mobile phone signal enhancer with a WiFi routing function according to an embodiment of the present invention.

Reference numerals:

a handset signal booster 100 with WiFi routing functionality; a signal booster unit 10;

a signal booster host 110; an input 111; an output 112;

an MCU module 113; a Bluetooth module 114; a first duplexer 115;

a downlink low noise amplification module 116; a downstream filtering module 117; a downstream attenuation module 118;

a downlink power amplifier module 119; a second duplexer 120; an uplink low noise amplification module 121;

an upstream filtering module 122; an upstream attenuation module 123; an uplink power amplifier module 124;

a power line interface 125; a reset key 126; a WiFi unit 20;

a radio frequency chip 21; a baseband chip 22; a CPU module 23;

a combiner 24; a WiFi transmitting antenna 25; a network transformer 26;

a network interface 27; a memory 28; a flash memory 29;

a power management module 30.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It should be noted that references in the specification to "one embodiment," "an example embodiment," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not intended to refer to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Moreover, where certain terms are used throughout the description and following claims to refer to particular components or features, those skilled in the art will understand that manufacturers may refer to a component or feature by different names or terms. This specification and the claims that follow do not intend to distinguish between components or features that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. In addition, the term "connected" as used herein includes any direct and indirect electrical connection. Indirect electrical connection means include connection by other means.

Fig. 1 to 4 show a preferred structure of the mobile phone signal enhancer with WiFi routing function 100 of the present invention, where the mobile phone signal enhancer with WiFi routing function 100 includes a signal enhancer unit 10 and a WiFi unit 20, the signal enhancer unit 10 is used to provide the enhanced mobile phone signal function, and the WiFi unit 20 is used to provide the WiFi routing function. The signal enhancer unit 10 mainly includes three parts, namely, a signal enhancer host 110, an outdoor receiving antenna (or donor antenna) 130 and an indoor covering antenna (or retransmission antenna) 140, wherein the outdoor receiving antenna 130 is connected to the input end 111 of the signal enhancer host 110, the indoor covering antenna 140 is connected to the output end 112 of the signal enhancer host 110, and the outdoor receiving antenna 130 is preferably connected with the signal enhancer host 110 by a 50 ohm high frequency communication cable. The WiFi unit 20 is disposed in the signal enhancer host 110, and can simultaneously implement a WiFi internet function. Preferably, the WiFi unit 20 supports the latest WiFi 6 standard. The mobile phone signal enhancer 100 with WiFi routing function is mainly suitable for indoor places such as ordinary homes, offices, hotels, etc.

The mobile phone signal intensifier 100 with WiFi routing function integrates the functions of the mobile phone signal intensifier and the WiFi router into a whole on a signal intensifier host 110, the signal intensifier unit 10 belongs to the same-frequency amplifying equipment, plays a role in signal intensification in the wireless communication transmission process, solves the problem that indoor wireless communication has blind areas or weak areas due to surrounding environments, and has the basic function of a radio frequency signal power intensifier, so that the conversation and internet surfing quality of a user is improved; meanwhile, the functions of the household WiFi router are combined into one, the latest WiFi 6 standard is preferably supported, WiFi network hotspot access, network communication and the like are provided for a plurality of communication terminals (such as mobile phones, tablet computers and the like), and the WiFi internet surfing function requirement is met at the same time. When the mobile phone signal enhancement function and the WiFi routing function are simultaneously required to surf the internet, the method can be realized by using one device, so that the trouble that the mobile phone signal enhancement function and the WiFi networking function can be simultaneously realized by two devices in the prior art is avoided.

Preferably, the mobile phone signal enhancer 100 with WiFi routing function further includes a power management module 30. as shown in fig. 1, the signal enhancer host 110 is connected to the power management module 30 through a power interface, and the power management module 30 is also disposed in the signal enhancer host 110. The power management module 30 is connected to the signal booster unit 10 and the WiFi unit 20, respectively, so as to centrally supply power to the signal booster unit 10 and the WiFi unit 20, respectively. The signal booster unit 10 and the WiFi unit 20 are two separate units in the present invention, but can share the power management module 30.

Preferably, the signal booster host 110 is provided with a power line interface (DC)125 for connecting a power supply, and the power line interface 125 is preferably provided on the back of the signal booster host 110.

Preferably, the signal booster host 110 is provided with a RESET key 126 for RESET (RESET) operation, and when the RESET key 126 is pressed, factory settings, restoration, initialization, and the like can be restored. Specifically, the reset key 126 allows the signal booster host 110 to restore factory default settings, and typically allows the device to be reset if an address, password, reconfiguration, or operational failure is forgotten to be managed. After the reset, the account number and the password of the signal enhancer host 110 are both restored to the factory state, and the signal enhancer host 110 can be normally used by resetting the lower signal enhancer host 110 according to the initial account number and the password written on the back of the signal enhancer host 110. The reset key 126 is preferably provided on the back side of the signal booster host 110.

Preferably, the outdoor receiving antenna 130 is installed at a high place of the building outdoors, and a distance of at least 8 meters is maintained between the outdoor receiving antenna 130 and the signal booster host 110. The indoor cover antenna 140 is installed indoors. Preferably, the outdoor receiving antenna 130 is a log periodic antenna. The indoor cover antenna 140 is a fabric plate antenna.

Fig. 3 is a schematic structural diagram of a signal enhancer Unit of a mobile phone signal enhancer with a WiFi routing function provided in an embodiment of the present invention, where a signal enhancer host 110 of the signal enhancer Unit 10 includes an MCU (Micro Controller Unit, microprocessor) module 113, a bluetooth module 114, a first duplexer 115, a downlink low-noise amplification module 116, a downlink filtering module 117, a downlink attenuation module 118, a downlink power amplification module 119, a second duplexer 120, an uplink low-noise amplification module 121, an uplink filtering module 122, an uplink attenuation module 123, and an uplink power amplification module 124.

The first duplexer 115 realizes communication with the outdoor receiving antenna 130, an output end of the first duplexer 115 is connected to the downlink low-noise amplification module 116, the downlink filtering module 117, the downlink attenuation module 118 and the downlink power amplification module 119 are sequentially connected, and the downlink power amplification module 119 is connected to an input end of the second duplexer 120 to form a downlink.

The second duplexer 120 realizes communication with the indoor coverage antenna 140, an output end of the second duplexer 120 is connected to the uplink low-noise amplification module 121, the uplink filtering module 122, the uplink attenuation module 123 and the uplink power amplification module 124 are sequentially connected, and the uplink power amplification module 124 is connected to an input end of the first duplexer 115 to form an uplink. In the present invention the downlink and uplink are separated by a first duplexer 115 and a second duplexer 120.

The functions of the various components of the signal booster host 110 of the present invention are as follows:

the MCU module 113 is used for combined control, including power detection, control of a breathing lamp, module alarm function and the like.

The bluetooth module 114 is used for data transmission or instruction control of the bluetooth module 114.

The downlink low-noise amplification module 116 includes a downlink amplifier sub-module and a downlink low-noise sub-module, and the downlink amplifier sub-module is used for amplifying a useful signal in the occasion of amplifying a weak signal; however, the interference of the noise of the downlink amplifier sub-module to the signal may be serious, and the downlink low-noise module is used for reducing the noise coefficient to improve the signal-to-noise ratio of the output. It is possible to bring about an improvement in the reception sensitivity, i.e., an improvement in the reception capability.

The downlink filtering module 117 is configured to suppress out-of-band signals and uplink signals and increase isolation.

The downlink attenuation module 118 is used for adjusting the gain of the control amplifier, adjusting the signal size in the circuit, and improving impedance matching.

The downlink power amplification module 119 is configured to amplify power to meet a requirement of downlink output power of the system.

The uplink low-noise amplification module 121 includes an uplink amplifier sub-module and an uplink low-noise sub-module, and the uplink amplifier sub-module is used for amplifying a useful signal on the occasion of amplifying a weak signal; however, the interference of the noise of the uplink amplifier sub-module to the signal may be serious, and the uplink low-noise module is used for reducing the noise coefficient to improve the signal-to-noise ratio of the output. It is possible to bring about an improvement in the reception sensitivity, i.e., an improvement in the reception capability.

The uplink filtering module 122 is configured to suppress out-of-band signals and downlink signals and increase isolation.

The uplink attenuation module 123 is configured to adjust the size of a signal in the circuit and improve impedance matching.

The uplink power amplifier module 124 is used for power amplification to meet the requirement of the uplink output power of the system.

The signal enhancer unit 10 realizes full frequency bands of 1710-1785 MHz uplink and 1880MHz downlink 1805-uplink in a full duplex communication mode. The noise characteristics in the signal enhancer unit 10 are improved compared to the conventional signal amplifier, and compared with the prior art, the signal enhancer unit has the advantages of simple circuit structure, low power consumption, strong signal forwarding and the like.

Fig. 4 is a schematic structural diagram of a WiFi unit of a mobile phone signal enhancer with a WiFi routing function according to an embodiment of the present invention, where the WiFi unit 20 at least includes a radio frequency chip 21, a baseband chip 22, a CPU module 23, a combiner 24, a WiFi transmitting antenna 25, a network transformer 26, and a network interface 27. Preferably, the WiFi unit 20 may further include a signal receiving module, a signal analyzing module, a signal transmitting module, and the like. The CPU module 23, the baseband chip 22 and the radio frequency chip 21 are connected in sequence. The radio frequency chip 21 is connected with at least one combiner 24, and each combiner 24 is connected with a WiFi transmitting antenna 25. The CPU module 23 is connected with at least one network transformer 26, each network transformer 26 is connected with one network interface 27, and any one of the network interfaces 27 is selected to be connected with a modem or an exchanger through a network cable to implement a WiFi routing internet function. Preferably, the CPU module 23 may further be connected with a memory 28 and/or a flash memory 29.

Preferably, the radio frequency chip 21 is connected with at least two combiners 24, each combiner 24 is connected with a WiFi transmitting antenna 25, and the communication terminal can access the internet in a wireless connection mode by connecting wireless signals sent by the at least two WiFi transmitting antennas 25. The communication terminal may be a mobile phone, a PDA (Personal Digital Assistant), a Personal computer, a tablet computer, or the like. As shown in fig. 3, in the present embodiment, the radio frequency chip 21 is connected to two combiners 24, each combiner 24 is connected to one WiFi transmitting antenna 25, and the communication terminal accesses the internet by connecting the wireless signals sent by the two WiFi transmitting antennas 25.

Preferably, the CPU module 23 is connected to at least two network transformers 26, each network transformer 26 is connected to at least two network interfaces 27, and each network interface 27 is a LAN/WAN interface 27. Any LAN/WAN interface 27 is selected to be connected with a modem or an exchanger through a network cable to carry out routing related function configuration, so as to achieve the WiFi routing internet function. At this time, the communication terminal such as a computer can be connected to any one of the LAN/WAN interfaces 27 through one network cable, and can access the internet through a wired connection by configuring a routing-related function, thereby realizing a network access function. As shown in fig. 3, in the present embodiment, two-in-one network transformers 26 are connected to the CPU module 23, and each network transformer 26 is connected to two LAN/WAN interfaces 27, that is, there are four LAN/WAN interfaces 27 in total.

The mobile phone signal enhancer 100 with the WiFi routing function can play a role in enhancing signals in the wireless communication transmission process, and simultaneously provides the WiFi routing function, so that the requirements of a user on strong mobile phone signals and wireless WiFi routing internet surfing are met. In addition, it also has the following characteristics:

(1) by using the high-gain high-linearity power amplifier tube, the product linearity is improved, and the interference to a base station is reduced.

(2) The ultra-low noise receiving amplifier tube is used to ensure the clear and reliable conversation quality.

(3) The full duplex communication mode has ultra-high uplink/downlink isolation and realizes full frequency bands of 1710-1785 MHz for uplink and 1805-1880MHz for downlink.

(4) The coverage area of the base station is enlarged, and the harm of the mobile phone to human bodies is reduced.

(5) Meanwhile, the latest WiFi 6 standard is supported, double-frequency concurrency is realized, and the full gigabit network port is matched, so that the Internet surfing experience is enjoyed.

In summary, the mobile phone signal enhancer with WiFi routing function of the present invention includes a signal enhancer unit and a WiFi unit, the signal enhancer unit is used for enhancing mobile phone signals, and includes three parts, namely, a signal enhancer host, an outdoor receiving antenna and an indoor covering antenna, the outdoor receiving antenna is connected to the input end of the signal enhancer host, and the indoor covering antenna is connected to the output end of the signal enhancer host; the WiFi unit is arranged in the signal enhancer host and used for providing a WiFi routing function. Therefore, the functions of the mobile phone signal enhancer and the WiFi router are integrated on the signal enhancer host, so that on one hand, mobile phone signals can be enhanced in wireless communication transmission, the problem that indoor wireless communication has blind areas or weak areas due to surrounding environments is solved, and the communication and internet surfing quality of users is improved; on the other hand, the WiFi internet function requirement of the communication terminal can be met simultaneously, and the problem that the mobile phone signal enhancement function and the WiFi internet function can be realized simultaneously by two devices is solved. The utility model is mainly suitable for indoor places such as ordinary families, offices, hotels and the like.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims

1. The utility model provides a cell-phone signal intensifier with wiFi routing function which characterized in that, is including the signal intensifier unit that is used for strengthening the cell-phone signal and the wiFi unit that is used for providing wiFi routing function, the signal intensifier unit includes signal intensifier host computer, outdoor receiving antenna and indoor cover antenna, outdoor receiving antenna is connected to the input of signal intensifier host computer, indoor cover antenna is connected to the output of signal intensifier host computer, the wiFi unit set up in the signal intensifier host computer.

2. The mobile phone signal booster with the WiFi routing function of claim 1, wherein the signal booster host includes an MCU module, a bluetooth module, a first duplexer, a downlink low noise amplification module, a downlink filtering module, a downlink attenuation module, a downlink power amplification module, a second duplexer, an uplink low noise amplification module, an uplink filtering module, an uplink attenuation module, and an uplink power amplification module;

3. The device as claimed in claim 2, wherein the signal enhancer unit implements 1710-1785 MHz uplink and 1805-1880MHz downlink full frequency bands by full duplex communication.

4. The mobile phone signal enhancer with WiFi routing function of claim 1, wherein the WiFi unit comprises a radio frequency chip, a baseband chip, a CPU module, a combiner, a WiFi transmitting antenna, a network transformer and a network interface;

5. The mobile phone signal enhancer with WiFi routing function of claim 4, wherein the CPU module is further connected with a memory and/or a flash memory; and/or

6. The WiFi routing capability enabled handset signal booster of claim 1, wherein the WiFi unit supports WiFi 6 standard.

7. The mobile phone signal enhancer with WiFi routing function of claim 1, wherein the signal enhancer host is provided with a power line interface for connecting a power supply; and/or

And a reset key for reset operation is arranged on the signal enhancer host.

8. The WiFi routing capability enabled handset signal booster of claim 1, wherein said outdoor receiving antenna is log periodic; and/or

The indoor covering antenna adopts a fabric plate-shaped antenna; and/or

9. The WiFi routing capability enabled handset signal booster of claim 1, wherein the WiFi routing capability enabled handset signal booster is adapted for indoor location.

10. The mobile phone signal enhancer with the WiFi routing function as claimed in any one of claims 1 to 9, wherein the signal enhancer host is connected with a power management module through a power interface, and the power management module is respectively connected with the signal enhancer unit and the WiFi unit so as to respectively supply power to the signal enhancer unit and the WiFi unit in a centralized manner.