CN111770523B - WIFI6 multichannel coupling test system - Google Patents

Abstract

The invention discloses a WIFI6 multichannel coupling test system which comprises a test host, an exchanger, a coupling test board and a coupling tester, wherein the test host is connected with the coupling test board and the coupling tester through the exchanger, and the coupling test board is connected with the coupling tester. The invention realizes multi-machine test in the true sense through the cooperation of the coupling test board and the coupling tester, carries out deep research and practical verification on WIFI products, mainly measures the radio frequency signal energy radiated from an antenna end in a near-field coupling mode, can completely replace the traditional throughput test, subverts the traditional low-efficiency test scheme, achieves energy conservation and consumption reduction, and brings quantifiable cost saving; the coupling tester is provided with a power testing module, a data processing module, a data storage module, a data display module, a testing result prompting module and a power supply module, and WIFI6 and other WIFI products can be quickly tested and classified through cooperation among the modules.

Description

WIFI6 multichannel coupling test system

Technical Field

The invention relates to the technical field of WIFI6 testing, in particular to a WIFI6 multi-channel coupling testing system.

Background

The transmission function of WIFI has an important influence on signals, and generally, the higher the transmission power is, the more beneficial the transmission power is, the higher the transmission rate is, the higher the access rate of the wireless router is, the faster the data exchange speed with the computer and the faster the internet access speed are, but people need to quantize the transmission power of Wi-Fi. In the prior art, the process of testing the WIFI power is as follows: testing items such as Tx (power, frequency spectrum, EVM (error vector magnitude), frequency deviation (Rx) and the like of the PCBA by a litepoint Iqflex/Iqxel instrument, and confirming a performance index; the WIFI calibration test can ensure that important parameters (power, frequency spectrum, EVM, frequency offset, sensitivity and the like) of the PCBA part 802.11b/g/n/a/ac are qualified. And assembling the PCBA into a finished product, running throughput by using iperf3.1.2.rar in a shielding box, and judging whether the performance of the WIFI meets the requirement or not according to a WIFI throughput test result.

However, in the prior art, with the mass production of WIFI6, the wireless throughput test also tends to be stable, the competition is more and more intense, the throughput mode is used to be put into shielding boxes, computers and other devices are very many, and the link and the package of the object to be tested are waited for through the strength of the wireless signal, so the efficiency is very low, and the investment on the devices and the field is also very large.

Disclosure of Invention

The object of the present invention is to overcome the disadvantages of the prior art, such as: in the prior art, with the mass production of WIFI6, the test of wireless throughput also tends to be stable, competition is more and more fierce, the mode of using throughput is thrown into shielding boxes, devices such as computers are very many, and the devices to be tested need to wait for the link and the bag sending of the object to be tested through the strength of wireless signals, so the efficiency is very low, and the investment on the devices, places and personnel is also very large.

The purpose of the invention is realized by the following technical scheme:

a WIFI6 multichannel coupling test system comprises a test host, an exchanger, a coupling test board and a coupling tester, wherein the test host is connected with the coupling test board and the coupling tester through the exchanger, and the coupling test board is connected with the coupling tester;

wherein the coupling tester is provided with a power testing module, a data processing module, a data storage module, a data display module, a testing result prompting module and a power supply module, the data processing module is respectively connected with the power testing module, the data storage module, the data display module and the testing result prompting module,

the power module is used for supplying power to the coupling tester,

the power testing module is used for testing the actual power value of the WIFI product and sending the actual power value to the data processing module,

the data storage module is used for storing a preset standard power value and calling the data processing device, the standard power value is a normal power value of WIFI6 and is used for distinguishing WIFI6 from other WIFI products,

the data processing module calls a preset standard power value from the data storage module, compares and judges the standard power value and the actual power value, if the standard power value is matched with the actual power value, the data processing module sends an actual power value tested to WIFI6 to the data display module, if the standard power value is not matched with the actual power value, the data processing module directly controls the test result prompting module to act,

the data display module is used for displaying the actual power value of WIFI6 in the test process,

the test result prompting module is used for prompting that the WIFI product in the test process is not WIFI 6;

the coupling test board is provided with a position detection unit, a data processing unit, a data storage unit, an auxiliary homing unit, a homing completion prompting unit and a power supply unit, the data processing unit is respectively connected with the position detection unit, the data storage unit, the auxiliary homing unit and the homing completion prompting unit,

the power supply unit is used for supplying power to the coupling test board,

the position detection unit is used for detecting the actual position information of the WIFI product in the testing process on the coupling test board and sending the actual position information to the data processing unit,

the data storage unit is used for storing standard position information of a preset WIFI product on the coupling test board and calling the standard position information by the data processing unit,

the data processing unit calls the standard position information, compares and judges the standard position information corresponding to the WIFI product with the actual position information, controls the homing to complete the action of the prompting unit if the standard position information corresponding to the WIFI product is matched with the actual position information, controls the auxiliary homing unit to act if the standard position information corresponding to the WIFI product is not matched with the actual position information,

the auxiliary homing unit is used for assisting the WIFI product which is not at the standard position to home to the corresponding standard position,

the homing completion prompting unit is used for prompting that the WIFI product in the test process is relocated to a corresponding standard position;

and a plurality of WIFI products are arranged on the coupling test board in a matched manner.

Further, the data processing unit is connected with the data processing module,

when the standard position information corresponding to the WIFI product is matched with the actual position information, the data processing unit sends a driving signal to the data processing module, and the data processing module starts the power testing module to act when receiving the driving signal.

Furthermore, the coupling tester is also provided with a power test signal detection module and a first abnormity alarm module,

the power test signal detection module is used for detecting whether the output end of the power test module has corresponding power output or not, when the output end of the power test module is detected to have no corresponding power output, the power test signal detection module controls the first abnormal alarm module to act, when the output end of the power test module is detected to have corresponding power output, the power test signal detection module controls the first abnormal alarm module not to act,

the first abnormity alarm module is used for alarming abnormity under the control of the power test signal detection module.

Furthermore, the coupling tester is also provided with a first data processing signal detection module and a second abnormal alarm module,

when the standard power value matches the actual power value,

the first data processing signal detection module is used for detecting whether the output end of the data processing module has corresponding power output or not, when the output end of the data processing module is detected to have no corresponding power output, the first data processing signal detection module controls the second abnormal alarm module to act, and when the output end of the data processing module is detected to have corresponding power output, the first data processing signal detection module controls the second abnormal alarm module not to act,

and the second abnormal alarm module is used for performing abnormal alarm under the control of the first data processing signal detection module.

Furthermore, the coupling tester is also provided with a second data processing signal detection module and a third abnormal alarm module,

when the standard power value does not match the actual power value,

the second data processing signal detection module is used for detecting whether a corresponding test result prompting module control signal is output from the output end of the data processing module, when detecting that no corresponding test result prompting module control signal is output from the output end of the data processing module, the second data processing signal detection module controls the third abnormal alarm module to act, and when detecting that a corresponding test result prompting module control signal is output from the output end of the data processing module, the second data processing signal detection module controls the third abnormal alarm module not to act,

and the third abnormal alarm module is used for performing abnormal alarm under the control of the second data processing signal detection module.

Furthermore, the coupling tester is also provided with a data storage signal detection module and a fourth abnormity alarm module,

the data storage signal detection module is used for detecting whether the output end of the data storage module has corresponding standard power output or not, when the output end of the data storage module is detected to have no corresponding standard power output, the data storage signal detection module controls the fourth abnormal alarm module to act, and when the output end of the data storage module is detected to have corresponding standard power output, the data storage signal detection module controls the fourth abnormal alarm module not to act,

and the fourth abnormity alarm module is used for carrying out abnormity alarm under the control of the data storage signal detection module.

Furthermore, the coupling tester is also provided with a first power supply signal detection module and a fifth abnormal alarm module,

the first power supply signal detection module is used for detecting whether a corresponding power supply signal is output from the output end of the power supply module, when the output end of the power supply module is detected to have no corresponding power supply signal output, the first power supply signal detection module controls the fifth abnormity alarm module to act, and when the output end of the power supply module is detected to have a corresponding power supply signal output, the first power supply signal detection module controls the fifth abnormity alarm module not to act,

and the fifth abnormity alarm module is used for carrying out abnormity alarm under the control of the first power supply signal detection module.

Further, the coupling tester is also provided with a standby power supply module,

and when the first power supply signal detection module detects that the output end of the power supply module does not have corresponding power supply signal output, the coupling tester adopts the standby power supply module to supply power.

Furthermore, the coupling test board is also provided with a second power supply signal detection module and a sixth abnormal alarm module,

the second power supply signal detection module is used for detecting whether a corresponding power supply signal is output from the output end of the power supply unit, when detecting that no corresponding power supply signal is output from the output end of the power supply unit, the second power supply signal detection module controls the sixth abnormal alarm module to act, and when detecting that a corresponding power supply signal is output from the output end of the power supply unit, the second power supply signal detection module controls the sixth abnormal alarm module not to act,

and the sixth abnormal alarm module is used for performing abnormal alarm under the control of the second power supply signal detection module.

Furthermore, the standby power supply module is at least provided with two power supply output ends,

and when the second power supply signal detection module detects that no corresponding power supply signal is output from the output end of the power supply unit, the coupling test board also supplies power by adopting the standby power supply module.

The invention has the beneficial effects that: the scheme has the innovation points that through the cooperation of the coupling test board and the coupling tester, multi-machine testing is truly realized, deep research and practical verification are conducted on WIFI products, the radio frequency signal energy radiated from an antenna end is measured mainly in a near-field coupling mode, the traditional throughput testing can be completely replaced, the traditional low-efficiency testing scheme is overturned, energy conservation and consumption reduction are achieved, and quantifiable cost saving is brought; and the coupling tester is provided with a power testing module, a data processing module, a data storage module, a data display module, a testing result prompting module and a power supply module, and can quickly test and classify WIFI6 and other WIFI products through the cooperation of the modules.

An innovation point of this scheme lies in, owing to adopt the test mode of this scheme, be the test that a field work personnel corresponds a plurality of WIFI products, the WIFI product that can appear that is difficult to avoid does not have the condition of playback, this scheme is provided with position detecting element, the data processing unit, the data storage unit, supplementary playback unit, prompt unit and power supply unit are accomplished in playback, through the mutually supporting between it, to the actual test in-process WIFI product condition of not playback, can realize full-automatic WIFI product playback, a large amount of operating pressure has been alleviateed for field work personnel.

One innovation point of the scheme is that the fault position of the whole system can be found in time according to the specific condition of the abnormal alarm, so that the system fault is accurately positioned, and the field workers can rapidly process the fault conveniently; and the coupling test board and the coupling tester share one standby power supply, so that the configuration of one standby power supply is saved while the unexpected power failure of the coupling test board and the coupling tester is solved.

Drawings

Fig. 1 is a schematic view of a test station topology according to embodiment 1 of the present invention.

Fig. 2 is a schematic diagram of an actual workstation object in embodiment 1 of the present invention.

Fig. 3 is a schematic structural diagram of a part of a coupling tester according to embodiment 1 of the present invention.

Fig. 4 is a schematic structural diagram of a coupling test board portion according to embodiment 1 of the present invention.

Fig. 5 is a partial schematic view of a data display module according to embodiment 1 of the present invention.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to fig. 1 to 5, but the scope of the present invention is not limited to the following.

Example 1:

as shown in fig. 1 and fig. 2, a WIFI6 multichannel coupling test system includes a test host, a switch, a coupling test board, and a coupling tester, where the test host is connected to the coupling test board and the coupling tester through the switch, and the coupling test board is connected to the coupling tester;

as shown in fig. 3, the coupling tester is configured with a power testing module, a data processing module, a data storage module, a data display module, a testing result prompting module and a power supply module, the data processing module is respectively connected with the power testing module, the data storage module, the data display module and the testing result prompting module,

the power module is used for supplying power to the coupling tester,

the power testing module is used for testing the actual power value of the WIFI product and sending the actual power value to the data processing module,

the data storage module is used for storing a preset standard power value and calling the data processing device, the standard power value is a normal power value of WIFI6 and is used for distinguishing WIFI6 from other WIFI products,

the data processing module calls a preset standard power value from the data storage module, compares and judges the standard power value and the actual power value, if the standard power value is matched with the actual power value, the data processing module sends an actual power value tested to WIFI6 to the data display module, if the standard power value is not matched with the actual power value, the data processing module directly controls the test result prompting module to act,

as shown in fig. 5, the data display module is used for displaying the actual power value of WIFI6 during the test process,

the test result prompting module is used for prompting that the WIFI product in the test process is not WIFI 6;

as shown in fig. 4, the coupling test board is configured with a position detection unit, a data processing unit, a data storage unit, an auxiliary homing unit, a homing completion prompting unit and a power supply unit, the data processing unit is respectively connected with the position detection unit, the data storage unit, the auxiliary homing unit and the homing completion prompting unit,

the power supply unit is used for supplying power to the coupling test board,

the position detection unit is used for detecting the actual position information of the WIFI product in the testing process on the coupling test board and sending the actual position information to the data processing unit,

the data storage unit is used for storing standard position information of a preset WIFI product on the coupling test board and calling the standard position information by the data processing unit,

the data processing unit calls the standard position information, compares and judges the standard position information corresponding to the WIFI product with the actual position information, controls the homing to complete the action of the prompting unit if the standard position information corresponding to the WIFI product is matched with the actual position information, controls the auxiliary homing unit to act if the standard position information corresponding to the WIFI product is not matched with the actual position information,

the auxiliary homing unit is used for assisting the WIFI product which is not at the standard position to home to the corresponding standard position,

the homing completion prompting unit is used for prompting that the WIFI product in the test process is relocated to a corresponding standard position;

and a plurality of WIFI products are arranged on the coupling test board in a matched manner.

In the scheme, through the matching of the coupling test board and the coupling tester, multi-machine testing is truly realized, deep research and practical verification are carried out on WIFI products, the radio frequency signal energy radiated from the antenna end is mainly measured in a near-field coupling mode, the traditional throughput testing can be completely replaced, the traditional low-efficiency testing scheme is overturned, energy conservation and consumption reduction are achieved, and quantifiable cost saving is brought. And because this kind of test mode is the test that a field work personnel corresponds a plurality of WIFI products, the condition that can appear the WIFI product and not playback that is difficult to avoid, this scheme is provided with position detection unit, data processing unit, data storage unit, supplementary playback unit, playback and accomplishes suggestion unit and power supply unit, through the mutual cooperation between them, to the condition that the WIFI product does not playback in the actual test process, can realize full-automatic WIFI product playback, for field work personnel have alleviateed a large amount of operating pressure. And the coupling tester is provided with a power testing module, a data processing module, a data storage module, a data display module, a testing result prompting module and a power supply module, and can quickly test and classify WIFI6 and other WIFI products through the cooperation of the modules.

Example 2:

further on the basis of embodiment 1, the data processing unit is connected with the data processing module,

when the standard position information corresponding to the WIFI product is matched with the actual position information, the data processing unit sends a driving signal to the data processing module, and the data processing module starts the power testing module to act when receiving the driving signal.

Furthermore, the coupling tester is also provided with a power test signal detection module and a first abnormity alarm module,

the power test signal detection module is used for detecting whether the output end of the power test module has corresponding power output or not, when the output end of the power test module is detected to have no corresponding power output, the power test signal detection module controls the first abnormal alarm module to act, when the output end of the power test module is detected to have corresponding power output, the power test signal detection module controls the first abnormal alarm module not to act,

the first abnormity alarm module is used for alarming abnormity under the control of the power test signal detection module.

Furthermore, the coupling tester is also provided with a first data processing signal detection module and a second abnormal alarm module,

when the standard power value matches the actual power value,

the first data processing signal detection module is used for detecting whether the output end of the data processing module has corresponding power output or not, when the output end of the data processing module is detected to have no corresponding power output, the first data processing signal detection module controls the second abnormal alarm module to act, and when the output end of the data processing module is detected to have corresponding power output, the first data processing signal detection module controls the second abnormal alarm module not to act,

and the second abnormal alarm module is used for performing abnormal alarm under the control of the first data processing signal detection module.

Furthermore, the coupling tester is also provided with a second data processing signal detection module and a third abnormal alarm module,

when the standard power value does not match the actual power value,

the second data processing signal detection module is used for detecting whether a corresponding test result prompting module control signal is output from the output end of the data processing module, when detecting that no corresponding test result prompting module control signal is output from the output end of the data processing module, the second data processing signal detection module controls the third abnormal alarm module to act, and when detecting that a corresponding test result prompting module control signal is output from the output end of the data processing module, the second data processing signal detection module controls the third abnormal alarm module not to act,

and the third abnormal alarm module is used for performing abnormal alarm under the control of the second data processing signal detection module.

Furthermore, the coupling tester is also provided with a data storage signal detection module and a fourth abnormity alarm module,

the data storage signal detection module is used for detecting whether the output end of the data storage module has corresponding standard power output or not, when the output end of the data storage module is detected to have no corresponding standard power output, the data storage signal detection module controls the fourth abnormal alarm module to act, and when the output end of the data storage module is detected to have corresponding standard power output, the data storage signal detection module controls the fourth abnormal alarm module not to act,

and the fourth abnormity alarm module is used for carrying out abnormity alarm under the control of the data storage signal detection module.

Furthermore, the coupling tester is also provided with a first power supply signal detection module and a fifth abnormal alarm module,

the first power supply signal detection module is used for detecting whether a corresponding power supply signal is output from the output end of the power supply module, when the output end of the power supply module is detected to have no corresponding power supply signal output, the first power supply signal detection module controls the fifth abnormity alarm module to act, and when the output end of the power supply module is detected to have a corresponding power supply signal output, the first power supply signal detection module controls the fifth abnormity alarm module not to act,

and the fifth abnormity alarm module is used for carrying out abnormity alarm under the control of the first power supply signal detection module.

Further, the coupling tester is also provided with a standby power supply module,

and when the first power supply signal detection module detects that the output end of the power supply module does not have corresponding power supply signal output, the coupling tester adopts the standby power supply module to supply power.

Furthermore, the coupling test board is also provided with a second power supply signal detection module and a sixth abnormal alarm module,

the second power supply signal detection module is used for detecting whether a corresponding power supply signal is output from the output end of the power supply unit, when detecting that no corresponding power supply signal is output from the output end of the power supply unit, the second power supply signal detection module controls the sixth abnormal alarm module to act, and when detecting that a corresponding power supply signal is output from the output end of the power supply unit, the second power supply signal detection module controls the sixth abnormal alarm module not to act,

and the sixth abnormal alarm module is used for performing abnormal alarm under the control of the second power supply signal detection module.

Furthermore, the standby power supply module is at least provided with two power supply output ends,

and when the second power supply signal detection module detects that no corresponding power supply signal is output from the output end of the power supply unit, the coupling test board also supplies power by adopting the standby power supply module.

In the scheme, the fault position of the whole system can be found in time according to the specific condition of abnormal alarm, so that the accurate positioning of the system fault is realized, and the field worker can conveniently and quickly process the fault; and the coupling test board and the coupling tester share one standby power supply, so that the configuration of one standby power supply is saved while the unexpected power failure of the coupling test board and the coupling tester is solved.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A WIFI6 multichannel coupling test system is characterized by comprising a test host, an exchanger, a coupling test board and a coupling tester, wherein the test host is connected with the coupling test board and the coupling tester through the exchanger, and the coupling test board is connected with the coupling tester;

wherein the coupling tester is provided with a power testing module, a data processing module, a data storage module, a data display module, a testing result prompting module and a power supply module, the data processing module is respectively connected with the power testing module, the data storage module, the data display module and the testing result prompting module,

the power supply module is used for supplying power to the coupling tester,

the power testing module is used for testing the actual power value of the WIFI product and sending the actual power value to the data processing module,

the data storage module is used for storing a preset standard power value and calling the data processing device, the standard power value is a normal power value of WIFI6 and is used for distinguishing WIFI6 from other WIFI products,

the data processing module calls a preset standard power value from the data storage module, compares and judges the standard power value and the actual power value, if the standard power value is matched with the actual power value, the data processing module sends an actual power value tested to WIFI6 to the data display module, if the standard power value is not matched with the actual power value, the data processing module directly controls the test result prompting module to act,

the data display module is used for displaying the actual power value of WIFI6 in the test process,

the test result prompting module is used for prompting that the WIFI product in the test process is not WIFI 6;

the coupling test board is provided with a position detection unit, a data processing unit, a data storage unit, an auxiliary homing unit, a homing completion prompting unit and a power supply unit, the data processing unit is respectively connected with the position detection unit, the data storage unit, the auxiliary homing unit and the homing completion prompting unit,

the power supply unit is used for supplying power to the coupling test board,

the position detection unit is used for detecting the actual position information of the WIFI product in the testing process on the coupling test board and sending the actual position information to the data processing unit,

the data storage unit is used for storing standard position information of a preset WIFI product on the coupling test board and calling the standard position information by the data processing unit,

the data processing unit calls the standard position information, compares and judges the standard position information corresponding to the WIFI product with the actual position information, controls the homing to complete the action of the prompting unit if the standard position information corresponding to the WIFI product is matched with the actual position information, controls the auxiliary homing unit to act if the standard position information corresponding to the WIFI product is not matched with the actual position information,

the auxiliary homing unit is used for assisting the WIFI product which is not at the standard position to home to the corresponding standard position,

the homing completion prompting unit is used for prompting that the WIFI product in the test process is relocated to a corresponding standard position;

the coupling test board is used for placing a plurality of WIFI products in a matched mode;

the coupling tester is also provided with a power test signal detection module and a first abnormity alarm module,

the power test signal detection module is used for detecting whether the output end of the power test module has corresponding power output or not, when the output end of the power test module is detected to have no corresponding power output, the power test signal detection module controls the first abnormal alarm module to act, when the output end of the power test module is detected to have corresponding power output, the power test signal detection module controls the first abnormal alarm module not to act,

the first abnormity alarm module is used for carrying out abnormity alarm under the control of the power test signal detection module;

the coupling tester is also provided with a first data processing signal detection module and a second abnormal alarm module,

when the standard power value matches the actual power value,

the first data processing signal detection module is used for detecting whether the output end of the data processing module has corresponding power output or not, when the output end of the data processing module is detected to have no corresponding power output, the first data processing signal detection module controls the second abnormal alarm module to act, and when the output end of the data processing module is detected to have corresponding power output, the first data processing signal detection module controls the second abnormal alarm module not to act,

the second abnormal alarm module is used for performing abnormal alarm under the control of the first data processing signal detection module;

the coupling tester is also provided with a second data processing signal detection module and a third abnormal alarm module,

when the standard power value does not match the actual power value,

the second data processing signal detection module is used for detecting whether a corresponding test result prompting module control signal is output from the output end of the data processing module, when detecting that no corresponding test result prompting module control signal is output from the output end of the data processing module, the second data processing signal detection module controls the third abnormal alarm module to act, and when detecting that a corresponding test result prompting module control signal is output from the output end of the data processing module, the second data processing signal detection module controls the third abnormal alarm module not to act,

and the third abnormal alarm module is used for performing abnormal alarm under the control of the second data processing signal detection module.

2. A WIFI6 multichannel coupling test system according to claim 1, wherein the data processing unit is connected with the data processing module,

when the standard position information corresponding to the WIFI product is matched with the actual position information, the data processing unit sends a driving signal to the data processing module, and the data processing module starts the power testing module to act when receiving the driving signal.

3. A WIFI6 multichannel coupling test system according to claim 1, wherein the coupling tester is further provided with a data storage signal detection module and a fourth abnormity alarm module,

the data storage signal detection module is used for detecting whether the output end of the data storage module has corresponding standard power output or not, when the output end of the data storage module is detected to have no corresponding standard power output, the data storage signal detection module controls the fourth abnormal alarm module to act, and when the output end of the data storage module is detected to have corresponding standard power output, the data storage signal detection module controls the fourth abnormal alarm module not to act,

and the fourth abnormity alarm module is used for carrying out abnormity alarm under the control of the data storage signal detection module.

4. A WIFI6 multi-channel coupling test system according to claim 3, wherein the coupling tester is further provided with a first power supply signal detection module and a fifth abnormity alarm module,

the first power supply signal detection module is used for detecting whether a corresponding power supply signal is output from the output end of the power supply module, when the output end of the power supply module is detected to have no corresponding power supply signal output, the first power supply signal detection module controls the fifth abnormity alarm module to act, and when the output end of the power supply module is detected to have a corresponding power supply signal output, the first power supply signal detection module controls the fifth abnormity alarm module not to act,

and the fifth abnormity alarm module is used for carrying out abnormity alarm under the control of the first power supply signal detection module.

5. A WIFI6 multi-channel coupling test system of claim 4, wherein the coupling tester is further configured with a backup power module,

and when the first power supply signal detection module detects that the output end of the power supply module does not have corresponding power supply signal output, the coupling tester adopts the standby power supply module to supply power.

6. A WIFI6 multi-channel coupling test system according to claim 5, wherein the coupling test board is further configured with a second power signal detection module and a sixth abnormal alarm module,

the second power supply signal detection module is used for detecting whether a corresponding power supply signal is output from the output end of the power supply unit, when detecting that no corresponding power supply signal is output from the output end of the power supply unit, the second power supply signal detection module controls the sixth abnormal alarm module to act, and when detecting that a corresponding power supply signal is output from the output end of the power supply unit, the second power supply signal detection module controls the sixth abnormal alarm module not to act,

and the sixth abnormal alarm module is used for performing abnormal alarm under the control of the second power supply signal detection module.

7. A WIFI6 multi-channel coupling test system according to claim 6, wherein the standby power supply module is configured with at least two power supply output terminals,

and when the second power supply signal detection module detects that no corresponding power supply signal is output from the output end of the power supply unit, the coupling test board also supplies power by adopting the standby power supply module.

Images