CN220985679U - Antenna signal testing device of electronic equipment and electronic equipment - Google Patents

Abstract

The application discloses an antenna signal testing device of electronic equipment and the electronic equipment, the device comprises a verification module, a first antenna component and a second antenna component, wherein the first antenna component comprises a first communication module, a first radio frequency transceiver module and a first antenna body which are connected in series, and the second antenna component comprises a second communication module, a second radio frequency transceiver module and a second antenna body which are connected in series; the first antenna body is configured to transmit a first test signal on a first verification channel; the second antenna body is configured to receive a first test signal at a first verification channel; the verification module is configured to verify the detection objects of the first antenna assembly and the second antenna assembly respectively; the second antenna body is configured to transmit a second test signal at a second verification channel; the first antenna body is configured to receive a second test signal at a second verification channel; the verification module is further configured to verify the detection objects again, respectively. The device improves the testing efficiency.

Description

Antenna signal testing device of electronic equipment and electronic equipment

Technical Field

The present application relates to the field of testing electronic devices, and in particular, to an antenna signal testing device for an electronic device and an electronic device.

Background

Many electronic devices such as notebook computers are provided with wireless communication modules, for example, most notebook computers support uplink and downlink technologies of dual-antenna 2x2 MIMO, and also support coexistence of WIFI and BT dual modes, which indicates that while the notebook computer is surfing the internet through WIFI, communication of BT peripherals can be performed simultaneously. Two sets of complete WIFI and BT modems and two sets of radio frequency transmitting and receiving systems are integrated in the corresponding specific wireless communication module, so that the main set antenna and the auxiliary set antenna can transmit and receive simultaneously.

However, the electronic device needs to test a plurality of antennas in the production process, and in order to ensure the assembly quality of the antennas, the whole machine OTA verification is generally performed, so that the efficiency of the test mode is low, and the production cost is increased.

Disclosure of utility model

The embodiment of the application aims to provide an antenna signal testing device of electronic equipment and the electronic equipment, wherein the device is convenient to use and can effectively improve the testing efficiency and the testing precision.

In order to achieve the above object, an embodiment of the present application provides an antenna signal testing apparatus for an electronic device, which is applied to an electronic device, and includes a verification module, and a first antenna assembly and a second antenna assembly having different communication protocols, where the first antenna assembly includes a first communication module, a first radio frequency transceiver module, and a first antenna body connected in series, and the second antenna assembly includes a second communication module, a second radio frequency transceiver module, and a second antenna body connected in series;

The first radio frequency transceiver module is arranged between the first communication module and the first antenna body, and is configured to receive a first instruction sent by the first communication module so as to send a corresponding first test signal to the first antenna body under a first communication protocol;

the first antenna body is configured to transmit the first test signal on a first verification channel, wherein the antenna signal testing device is preset with a plurality of verification channels;

The second antenna body is configured to receive the first test signal at the first verification channel and transmit the first test signal to the second radio frequency transceiver module;

The second radio frequency transceiver module is arranged between the second communication module and the second antenna body, and is configured to send the first test signal to the second communication module under a second communication protocol;

The verification module is configured to verify the detection objects of the first antenna assembly and the second antenna assembly respectively, and output a first verification result, wherein the first verification result represents whether the detection objects meet a first test requirement or not;

The second communication module is configured to send a second instruction to the second radio frequency transceiver module, so that the second radio frequency transceiver module transmits a second test signal to the second antenna body under a second communication protocol;

The second antenna body is configured to transmit the second test signal at a second verification channel;

the first antenna body is configured to receive the second test signal at the second verification channel and transmit the first test signal to the first radio frequency transceiver module;

The first radio frequency transceiver module is configured to transmit the second test signal to the first communication module under a second communication protocol;

The verification module is further configured to verify the detection objects again respectively, and output a second verification result to achieve single test operation of the first antenna assembly and the second antenna assembly, wherein the second verification result characterizes whether the detection objects meet a second test requirement or not.

Optionally, the verification module is connected with the first antenna assembly and the second antenna assembly respectively, and the verification module has an input end and an output end;

The input end of the verification module is used for inputting the first test signal transmitted by the first antenna assembly and the first test signal received by the second antenna assembly, and the output end of the verification module is used for outputting a corresponding first verification result.

Optionally, the output end of the verification module is further configured to output a single test result, where the single test result characterizes that the single test operation meets a single test requirement.

Optionally, the device further comprises a channel adjustment module, wherein the channel adjustment module is connected with the verification module;

The channel adjustment module is configured to change the verification channel used by the first antenna assembly and the second antenna assembly to a third verification channel, so that the antenna signal testing device performs the single test operation again on the third verification channel.

Optionally, the channel adjustment module is connected to the first communication module and the second communication module, and the channel adjustment module is further configured to randomly select a first verification channel or the second verification channel from a preset plurality of verification channels, and send the selected result to the first communication module and the second communication module.

Optionally, the test device further comprises an output module, wherein the output module is connected with the verification module and is configured to output a single test result corresponding to the single test operation each time.

Optionally, the verifying the channel includes: a first authenticated channel, a second authenticated channel, a third authenticated channel, a fourth authenticated channel, and a fifth authenticated channel;

The working frequency of the first verification channel is 2.411GHz to 2.412GHz, the working frequency of the second verification channel is 2.426GHz to 2.427GHz, the working frequency of the third verification channel is 2.441GHz to 2.442GHz, the working frequency of the fourth verification channel is 2.456GHz to 2.457GHz, and the working frequency of the fifth verification channel is 2.471GHz to 2.472GHz.

Optionally, the first antenna component is a bluetooth antenna, and the corresponding first communication protocol is a bluetooth communication protocol; the second antenna assembly is a WIFI antenna, and the corresponding second communication protocol is a WIFI communication protocol.

Optionally, the verification module is a CPU of the electronic device.

The embodiment of the application also provides electronic equipment, which comprises the antenna signal testing device.

According to the antenna signal testing device, the electronic identification self double-antenna transceiver system is utilized to simultaneously transmit one antenna and receive the other antenna, so that the self antenna assembly quality is accurately detected, and the detection efficiency is effectively improved. In addition, the device can flexibly detect without using an external communication signal source such as WLAN AP, and the OTA test precision is higher because the relative position distance of the two antennas is fixed.

Drawings

Fig. 1 is a schematic diagram of a first antenna assembly transmitting a test signal to a second antenna assembly according to an embodiment of the present application;

fig. 2 is a schematic diagram of a second antenna assembly sending a test signal to a first antenna assembly according to an embodiment of the present application.

Detailed Description

Various aspects and features of the present application are described herein with reference to the accompanying drawings.

It should be understood that various modifications may be made to the embodiments of the application herein. Therefore, the above description should not be taken as limiting, but merely as exemplification of the embodiments. Other modifications within the scope and spirit of the application will occur to persons of ordinary skill in the art.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the application and, together with a general description of the application given above, and the detailed description of the embodiments given below, serve to explain the principles of the application.

These and other characteristics of the application will become apparent from the following description of a preferred form of embodiment, given as a non-limiting example, with reference to the accompanying drawings.

It is also to be understood that, although the application has been described with reference to some specific examples, a person skilled in the art will certainly be able to achieve many other equivalent forms of the application, having the characteristics as set forth in the above and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present application will become more apparent in light of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present application will be described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely exemplary of the application, which can be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the application in unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not intended to be limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present application in virtually any appropriately detailed structure.

The specification may use the word "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the application.

The embodiment of the application provides an antenna signal testing device of electronic equipment, which is applied to the electronic equipment, as shown in fig. 1 and 2, and comprises a verification module, and a first antenna assembly and a second antenna assembly with different communication protocols, wherein the first antenna assembly comprises a first communication module, a first radio frequency transceiver module and a first antenna body which are connected in series, and the second antenna assembly comprises a second communication module, a second radio frequency transceiver module and a second antenna body which are connected in series;

The first radio frequency transceiver module is arranged between the first communication module and the first antenna body, and is configured to receive a first instruction sent by the first communication module so as to send a corresponding first test signal to the first antenna body under a first communication protocol.

The first antenna body is configured to transmit the first test signal on a first verification channel, wherein the antenna signal testing device is pre-configured with a plurality of verification channels.

Illustratively, the verification channel is a communication channel used in the antenna test process that physically represents different frequency bins. The electronic device may preset a plurality of verification channels, which may be set according to channels involved in the formal use of the first antenna assembly and the second antenna assembly, or according to historical experience. In the antenna signal testing process, multiple verification channels may be used in sequence to verify the first antenna assembly and the second antenna assembly. In one embodiment, one authenticated channel may be randomly selected as the first authenticated channel.

In one embodiment, a first antenna assembly includes a first communication module, a first radio frequency transceiver module, and a first antenna body connected in series. The first communication module may receive an instruction sent by the electronic device, thereby generating communication data conforming to the first communication protocol according to the communication instruction. During testing, the first test signal can be generated based on the equipment instruction, and sent to the first radio frequency transceiver module based on the first communication protocol, and the first radio frequency transceiver module is used for transferring data and can send the first test signal to the first antenna body.

For example, the first antenna component is a bluetooth antenna, the corresponding first communication protocol is a bluetooth communication protocol, the first communication module is a bluetooth communication module, the first radio frequency transceiver module is a bluetooth radio frequency transceiver module, and the first antenna body is a bluetooth antenna body. The Bluetooth radio frequency transceiver module is arranged between the Bluetooth communication module and the Bluetooth antenna body, and is configured to receive a first instruction sent by the Bluetooth communication module and send a corresponding first test signal to the Bluetooth antenna body under a Bluetooth communication protocol. The Bluetooth antenna body transmits a first test signal to the second antenna body based on the first verification channel.

The second antenna body is configured to receive the first test signal at the first verification channel and transmit the first test signal to the second radio frequency transceiver module.

The second radio frequency transceiver module is disposed between the second communication module and the second antenna body, and is configured to transmit the first test signal to the second communication module under a second communication protocol.

The second antenna assembly includes a second communication module, a second radio frequency transceiver module, and a second antenna body connected in series. In the test process, the second antenna body can wirelessly receive the first test signal sent by the first antenna body and forward the first test signal to the second radio frequency transceiver module, and the second radio frequency transceiver module is used for signal forwarding and can forward the first test signal to the second communication module based on the second communication protocol. The second communication module responds to the first test signal, for example, processes the first test signal, and feeds back a processing result to the electronic device.

For example, the second antenna assembly is a WIFI antenna, the corresponding second communication protocol is a WIFI communication protocol, the second communication module is a WIFI communication module, the second radio frequency transceiver module is a WIFI radio frequency transceiver module, and the second antenna body is a WIFI antenna body. The WIFI antenna body receives the first test signal at the first verification channel and sends the first test signal to the WIFI radio frequency transceiver module, and the first test signal is sent to the WIFI communication module based on the WIFI communication protocol so that the WIFI communication module responds to the first test signal.

The verification module is configured to verify the detection objects of the first antenna assembly and the second antenna assembly respectively, and output a first verification result, wherein the first verification result represents whether the detection objects meet a first test requirement or not.

For example, the first test requirement may be set based on parameters associated with the first antenna assembly and the second antenna assembly.

In one embodiment, the respective test objects of the first antenna assembly and the second antenna assembly include a plurality of different test contents such as data consistency, signal strength, content integrity, and the like. Accordingly, the first test requirement includes a data consistency requirement of data transmission and data reception, a difference requirement of transmitted signal strength and received signal strength, and/or a received content integrity requirement.

In an exemplary embodiment, when the difference between the transmitted signal strength of the first test signal sent by the first antenna assembly and the received signal strength of the first test signal received by the second antenna assembly is within the first range, the verification module determines that the detection objects of the first antenna assembly and the second antenna assembly respectively meet the first test requirement, and outputs a corresponding first verification result. For another example, when the difference between the data content of the first test signal sent by the first antenna assembly and the data content of the first test signal received by the second antenna assembly is within the second range, the verification module determines that the detection objects of the first antenna assembly and the second antenna assembly respectively meet the first test requirement, and outputs a corresponding first verification result. The verification module may be a CPU or other component of the electronic device having processing functions.

The second communication module is configured to send a second instruction to the second radio frequency transceiver module, so that the second radio frequency transceiver module transmits a second test signal to the second antenna body under a second communication protocol.

The second antenna body is configured to transmit the second test signal on a second verification channel.

Illustratively, after the step of transmitting the first test signal from the first antenna assembly to the second antenna assembly and detecting the detection object is completed, in order to determine whether the complete data bidirectional transmission test meets the requirements, an accurate test effect is obtained. The second antenna assembly may be controlled to transmit a second test signal to the first antenna assembly and detect the detection object. Specifically, the first verification channel is adjusted to be a second verification channel, wherein the second verification channel can be selected randomly from a plurality of verification channels or can be selected actively. The second antenna assembly communicates based on a second communication protocol, and thus may generate a second test signal based on the second communication protocol and transmit the second test signal on a second authenticated channel.

In one embodiment, the second antenna assembly includes a second communication module, a second radio frequency transceiver module, and a second antenna body connected in series. During the testing process, the second communication module can receive the instruction sent by the electronic device, so as to generate communication data conforming to the second communication protocol according to the communication instruction. The second test signal is generated based on the equipment instruction, and is sent to the second radio frequency transceiver module based on the second communication protocol, and the second radio frequency transceiver module is used for data transfer and can send the second test signal to the second antenna body.

For example, the second antenna assembly is a WIFI antenna, the corresponding second communication protocol is a WIFI communication protocol, the second communication module is a WIFI communication module, the second radio frequency transceiver module is a WIFI radio frequency transceiver module, and the first antenna body is a WIFI antenna body. The WIFI radio frequency transceiver module is arranged between the WIFI communication module and the WIFI antenna body, and the WIFI radio frequency transceiver module is configured to receive a second instruction sent by the WIFI communication module and send a corresponding second test signal to the WIFI antenna body under a WIFI communication protocol. The WIFI antenna body sends a second test signal to the first antenna body based on the second verification channel.

The first antenna body is configured to receive the second test signal at the second verification channel and transmit the first test signal to the first radio frequency transceiver module.

The first radio frequency transceiver module is configured to transmit the second test signal to the first communication module under a second communication protocol.

Illustratively, the first antenna assembly receives the second test signal wirelessly and responds to the second test signal, including processing the second test signal and monitoring the individual test subjects during the process.

In one embodiment, a first antenna assembly includes a first communication module, a first radio frequency transceiver module, and a first antenna body connected in series. In the test process, the first antenna body can wirelessly receive a second test signal sent by the second antenna body and forward the second test signal to the first radio frequency transceiver module, and the first radio frequency transceiver module is used for signal forwarding and can forward the second test signal to the first communication module based on the first communication protocol. The first communication module responds to the second test signal, for example, processes the second test signal, and feeds back a processing result to the electronic device.

The verification module is further configured to verify the detection objects again respectively, and output a second verification result to achieve single test operation of the first antenna assembly and the second antenna assembly, wherein the second verification result characterizes whether the detection objects meet a second test requirement or not.

For example, similar to the first test requirement, the second test requirement may also be set based on parameters associated with the first antenna assembly and the second antenna assembly.

In one embodiment, the respective test objects of the first antenna assembly and the second antenna assembly include a plurality of different test contents such as data consistency, signal strength, content integrity, and the like. Accordingly, the first test requirement includes a data consistency requirement of data transmission and data reception, a difference requirement of transmitted signal strength and received signal strength, and/or a received content integrity requirement. When the difference between the transmitted signal intensity of the second test signal sent by the second antenna assembly and the received signal intensity of the second test signal received by the first antenna assembly is in a third range, the verification module determines that the detection objects of the first antenna assembly and the second antenna assembly meet the second test requirement, and outputs a corresponding second verification result. For another example, when the difference between the data content of the second test signal sent by the second antenna assembly and the data content of the second test signal received by the first antenna assembly is within the fourth range, the verification module determines that the detection objects of the first antenna assembly and the second antenna assembly meet the second test requirement, and outputs a corresponding second verification result.

After the steps of transmitting the first test signal from the first antenna assembly to the second antenna assembly and detecting the detection object and controlling the second antenna assembly to transmit the second test signal to the first antenna assembly and detecting the detection object are completed, respectively. A single test operation for the first antenna assembly and the second antenna assembly is completed. A single test operation comprising two test actions, for an electronic device comprising a Bluetooth (BT) antenna assembly and a WIFI antenna assembly, on the one hand, sufficient verification of TX and RX of each of the BT antenna assembly and the WIFI antenna assembly is performed; on the other hand, the wireless environment interference is prevented from being more, and erroneous judgment is prevented by multiple measurement.

In one embodiment the verification channel may be readjusted to perform a plurality of such single test operations. So that a complete antenna test operation can be performed on multiple authenticated channels. The obtained test result is also very accurate.

In one embodiment of the application, the verification module is connected to the first antenna assembly and the second antenna assembly, respectively, the verification module having an input and an output;

The input end of the verification module is used for inputting the first test signal transmitted by the first antenna assembly and the first test signal received by the second antenna assembly, and the output end of the verification module is used for outputting a corresponding first verification result.

Illustratively, a transmit signal strength of the first antenna assembly transmitting the first test signal and a receive signal strength of the first test signal received by the second antenna assembly are input to an input of the verification module.

For example, the transmitted signal strength of the first test signal transmitted by the first antenna component is input to the input of the verification module, which transmitted signal strength is adapted to the performance of the first antenna component. For example, the verification module may be a CPU of the electronic device, and the BT modem is controlled by the CPU of the electronic device to transmit a fixed-power tone (e.g., 10 dBm) on the set first verification channel by the first antenna assembly.

The received signal strength of the first test signal received by the second antenna assembly is input to the input of the verification module, and the received signal strength is theoretically slightly different from the transmitted signal strength. For example, by controlling the WIFI modem to receive on the corresponding first verification channel, the link and antenna assembly would normally obtain a precise received signal strength. For example, with an isolation between the first and second antenna bodies of the electronic device of-25 dB, the WIFI antenna assembly will receive approximately-15 dBm of signal power.

The verification module may compare the transmitted signal strength with the received signal strength. Continuing with the above embodiment, the recorded transmitted signal strength is compared to the received signal strength, e.g., 10dBm is compared to 15dBm, to determine the gap between the transmitted signal strength and the received signal strength.

When the degree of difference between the transmitted signal intensity and the received signal intensity is in a first range, determining that the detection objects of the first antenna assembly and the second antenna assembly meet the first test requirement, and outputting a corresponding first verification result by the output end of the verification module.

In an exemplary embodiment, when the detection objects of the first antenna assembly and the second antenna assembly meet the first test requirement, it is characterized that the first antenna assembly and the second antenna assembly have no problem in the current test process. The numerical value difference between the transmitted signal intensity and the received signal intensity is smaller, so that when the degree of difference between the transmitted signal intensity and the received signal intensity is determined to be in a first range, the detection objects of the first antenna assembly and the second antenna assembly can be determined to meet the first test requirement, and the corresponding first verification result is output through the output end of the verification module.

With the above embodiment continuously combined, the verification module calculates the difference between the input transmitted signal strength and the received signal strength, that is, calculates the difference between the received signal strength of 15dBm and the transmitted signal strength of 10dBm, to obtain a value of 5dBm, where the value is in the first range, it may be determined that the detection objects of the first antenna assembly and the second antenna assembly respectively meet the first test requirement, and outputs a corresponding first verification result through the output end.

In one embodiment of the present application, when the detection objects of the first antenna assembly and the second antenna assembly respectively meet the first test requirement and meet the second test requirement, the output end of the verification module outputs a first result, wherein the first result characterizes that the single test operation meets the single test requirement.

Specifically, after the first test signal is sent from the first antenna assembly to the second antenna assembly and the detection is performed on the detection object, the detection result indicates that the detection object meets the first test requirement. In order to determine whether the complete data bidirectional transmission tests meet the requirements, the second antenna assembly is controlled to send a second test signal to the first antenna assembly and detect the detection object, and the detection result shows that the detection object meets the second test requirements. The two-way test of the test data is completed at this time, namely, the single test operation is completed, the output end of the verification module outputs a first result, and the first result characterizes the single test operation to meet the single test requirement.

Of course, to more accurately test the first antenna assembly and the second antenna assembly, the verification channel may be tuned and a single test operation performed again.

Preferably, the antenna signal testing device further comprises a channel adjustment module, wherein the channel adjustment module is connected with the verification module;

The channel adjustment module is configured to change the verification channel used by the first antenna assembly and the second antenna assembly to a third verification channel, so that the antenna signal testing device performs the single test operation again on the third verification channel.

Illustratively, when the first antenna assembly is a bluetooth antenna assembly and the second antenna assembly is a WIFI antenna assembly. And analyzing the 2.4GHz WIFI and BT channels, and selecting the channels which are not interfered with each other as a transmitting and receiving channel pair to form corresponding verification channels.

For example, the authenticated channel includes: a first authenticated channel, a second authenticated channel, a third authenticated channel, a fourth authenticated channel, and a fifth authenticated channel.

The working frequency of the first verification channel is 2.411GHz to 2.412GHz, and the first verification channel comprises two channel pairs of WIFI-CH12.412GHz and BT-CH9 2.411 GHz; the working frequency of the second verification channel is 2.426GHz to 2.427GHz, and the second verification channel comprises two channel pairs of WIFI-CH 1.427 GHz and BT-CH24 2.426 GHz; the third verification channel has an operating frequency of 2.441GHz to 2.442GHz and comprises two channel pairs of WIFI-CH 12.4472 GHz and BT-CH 39.441 GHz; the working frequency of the fourth verification channel is 2.456GHz to 2.457GHz, and the fourth verification channel comprises two channel pairs of WIFI-CH 1.457 GHz and BT-CH 54.456 GHz; the fifth authenticated channel has an operating frequency of 2.471GHz to 2.472GHz, including two channel pairs of WIFI-CH 1.472 GHz and BT-CH69 2.471 GHz.

After the single test operation is completed, the channel adjustment module may change the verification channel used by the first antenna assembly and the second antenna assembly to a third verification channel. The first antenna assembly in turn generates a first test signal based on the first communication protocol and transmits a third test signal on a third verification channel. The second antenna assembly receives a third test signal at the third verification channel and responds to the third test signal based on a second communication protocol. The verification module respectively determines whether the detection objects of the first antenna assembly and the second antenna assembly meet the first test requirement. The second antenna assembly generates a fourth test signal based on the second communication protocol and transmits the fourth test signal on a fourth verification channel. The first antenna assembly receives a fourth test signal on a fourth verification channel and responds to the fourth test signal based on the first communication protocol. The verification module again determines whether the detection objects meet the second test requirements respectively so as to realize single test operation on the first antenna assembly and the second antenna assembly again.

In one embodiment of the present application, the channel adjustment module is connected to the first communication module and the second communication module, respectively, and the channel adjustment module is further configured to randomly select a first verification channel or the second verification channel from a preset plurality of verification channels, and transmit the selected result to the first communication module and the second communication module.

Specifically, the channel adjustment module is connected with the first communication module and the second communication module respectively, and can communicate with the first communication module and the second communication module respectively. After randomly selecting one verification channel from a plurality of preset verification channels, the channel adjustment module sends the selected result to the first communication module and the second communication module, so that the first communication module and the second communication module can use the selected verification channel to perform test operation.

In one embodiment of the present application, the antenna signal testing device further includes an output module, where the output module is connected to the verification module, and the output module is configured to output a single test result corresponding to each single test operation.

Specifically, the verification module generates a corresponding single test result according to each single test operation, and sends the single test result to the output module, and the output module can send the single test result to the electronic device, so that a user can obtain a final antenna test result based on the electronic device.

The embodiment of the application also provides electronic equipment, which comprises the antenna signal testing device, wherein the antenna signal testing device can test the antenna of the electronic equipment. The electronic device may be a computer or the like.

The above embodiments are only exemplary embodiments of the present application and are not intended to limit the present application, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this application will occur to those skilled in the art, and are intended to be within the spirit and scope of the application.

Claims (10)

1. An antenna signal testing device of electronic equipment is characterized by comprising a verification module, a first antenna assembly and a second antenna assembly, wherein the first antenna assembly and the second antenna assembly are provided with different communication protocols, the first antenna assembly comprises a first communication module, a first radio frequency transceiver module and a first antenna body which are connected in series, and the second antenna assembly comprises a second communication module, a second radio frequency transceiver module and a second antenna body which are connected in series;

The first radio frequency transceiver module is arranged between the first communication module and the first antenna body, and is configured to receive a first instruction sent by the first communication module so as to send a corresponding first test signal to the first antenna body under a first communication protocol;

the first antenna body is configured to transmit the first test signal on a first verification channel, wherein the antenna signal testing device is preset with a plurality of verification channels;

The second antenna body is configured to receive the first test signal at the first verification channel and transmit the first test signal to the second radio frequency transceiver module;

The second radio frequency transceiver module is arranged between the second communication module and the second antenna body, and is configured to send the first test signal to the second communication module under a second communication protocol;

The verification module is configured to verify the detection objects of the first antenna assembly and the second antenna assembly respectively, and output a first verification result, wherein the first verification result represents whether the detection objects meet a first test requirement or not;

The second communication module is configured to send a second instruction to the second radio frequency transceiver module, so that the second radio frequency transceiver module transmits a second test signal to the second antenna body under a second communication protocol;

The second antenna body is configured to transmit the second test signal at a second verification channel;

the first antenna body is configured to receive the second test signal at the second verification channel and transmit the first test signal to the first radio frequency transceiver module;

The first radio frequency transceiver module is configured to transmit the second test signal to the first communication module under a second communication protocol;

The verification module is further configured to verify the detection objects again respectively, and output a second verification result to achieve single test operation of the first antenna assembly and the second antenna assembly, wherein the second verification result characterizes whether the detection objects meet a second test requirement or not.

2. The antenna signal testing apparatus of an electronic device of claim 1, wherein the verification module is connected to the first antenna assembly and the second antenna assembly, respectively, the verification module having an input and an output;

The input end of the verification module is used for inputting the first test signal transmitted by the first antenna assembly and the first test signal received by the second antenna assembly, and the output end of the verification module is used for outputting a corresponding first verification result.

3. The apparatus for testing an antenna signal of an electronic device according to claim 2, wherein,

The output end of the verification module is also used for outputting a single test result, wherein the single test result represents that the single test operation meets the single test requirement.

4. The antenna signal testing apparatus of an electronic device of claim 1, further comprising a channel adjustment module, the channel adjustment module being coupled to the verification module;

The channel adjustment module is configured to change the verification channel used by the first antenna assembly and the second antenna assembly to a third verification channel, so that the antenna signal testing device performs the single test operation again on the third verification channel.

5. The apparatus for testing an antenna signal of an electronic device according to claim 4, wherein,

The channel adjustment module is respectively connected with the first communication module and the second communication module, and is further configured to randomly select a first verification channel or the second verification channel from a plurality of preset verification channels and send the selected result to the first communication module and the second communication module.

6. The antenna signal testing apparatus of claim 1, further comprising an output module coupled to the verification module, the output module configured to output a single test result corresponding to each of the single test operations.

7. The apparatus for testing an antenna signal of an electronic device according to claim 1, wherein,

The authenticated channel includes: a first authenticated channel, a second authenticated channel, a third authenticated channel, a fourth authenticated channel, and a fifth authenticated channel;

The working frequency of the first verification channel is 2.411GHz to 2.412GHz, the working frequency of the second verification channel is 2.426GHz to 2.427GHz, the working frequency of the third verification channel is 2.441GHz to 2.442GHz, the working frequency of the fourth verification channel is 2.456GHz to 2.457GHz, and the working frequency of the fifth verification channel is 2.471GHz to 2.472GHz.

8. The antenna signal testing apparatus of an electronic device according to claim 1, wherein the first antenna component is a bluetooth antenna, and the corresponding first communication protocol is a bluetooth communication protocol; the second antenna assembly is a WIFI antenna, and the corresponding second communication protocol is a WIFI communication protocol.

9. The antenna signal testing apparatus of an electronic device according to claim 1, wherein the authentication module is a CPU of the electronic device.

10. An electronic device comprising an antenna signal testing apparatus as claimed in any one of claims 1 to 9.