CN106792874B - System and method for rapidly detecting WIFI module - Google Patents

Abstract

The invention relates to a system and a method for rapidly detecting a WIFI module, and the system and the method comprise an upper computer, a communication device and a mainboard, wherein the upper computer is connected with the mainboard through the communication device, the WIFI module is arranged in the mainboard, the upper computer sends an instruction for acquiring the WIFI strength through the communication device, the mainboard receives the instruction for acquiring the WIFI strength sent by the upper computer through the communication device, calls a WIFI access point query instruction of the WIFI module to query, collects a WIFI strength value of a preset WIFI access point, compares the WIFI strength value with a preset WIFI strength judgment threshold value to obtain and send a detection result, and the upper computer receives and stores the detection result sent by the host through the communication device. Through obtaining the WIFI intensity value of being connected to the WIFI access point of predetermineeing, compare the WIFI intensity value and predetermine the size that the WIFI intensity judged the threshold value, judge automatically whether the built-in WIFI module of mainboard is the yields to the automatic test result of recording the built-in WIFI module of every mainboard, detection efficiency is high, the accuracy is high.

Description

System and method for rapidly detecting WIFI module

Technical Field

The invention relates to the field of communication equipment detection, in particular to a system and a method for quickly detecting a WIFI module.

Background

As a novel city operation concept and informatization measurement scale, the wireless city becomes a necessary trend of future city development, and all large operators increase the full coverage of deployment of WIFI hotspots. Wireless communication devices with WIFI functionality are increasingly in demand, and network device providers are investing in this area. Because the transmission medium of the WIFI communication is wireless, people put higher requirements on the stability and the quality of the WIFI function. Therefore, how to implement efficient verification on the WIFI function becomes a key for enterprise defeat for the network device production market.

The traditional method for detecting the WIFI module is to power on the wireless communication equipment with the WIFI function, enter a WIFI setting option, manually search for the wireless access point function, and judge whether the WIFI module matched with the main board is good or not according to whether surrounding wireless access points can be searched and the signal strength of the wireless access points, so that the time is long, errors can be generated in manual operation, and the accuracy is low, so that the traditional method for detecting the WIFI module is low in detection efficiency.

Disclosure of Invention

In view of the above, it is necessary to provide a system and a method for rapidly detecting a WIFI module with high detection efficiency.

A system for rapidly detecting a WIFI module comprises an upper computer, a communication device and a main board, wherein the upper computer is connected with the main board through the communication device, the WIFI module is arranged in the main board,

the upper computer sends an instruction for acquiring the WIFI strength to the mainboard through the communication device; receiving and storing a detection result sent by the mainboard through the communication device;

the mainboard calls a WIFI access point query instruction of the WIFI module to perform query according to the received instruction for acquiring the WIFI strength, collects a WIFI strength value of a preset WIFI access point, compares the WIFI strength value with a preset WIFI strength judgment threshold value to obtain the detection result, and sends the detection result to the upper computer through the communication device.

A method for rapidly detecting a WIFI module comprises the following steps:

the upper computer sends an instruction for acquiring the WIFI strength to the main board through the communication device;

the main board receives the instruction for acquiring the WIFI strength sent by the upper computer through the communication device, calls a WIFI access point query instruction of the WIFI module to perform query, and collects a WIFI strength value of a preset WIFI access point;

the main board compares the WIFI strength value with a preset WIFI strength judgment threshold value to obtain a detection result and sends the detection result to the upper computer;

and the upper computer receives and stores the detection result sent by the mainboard through the communication device.

According to the system and the method for rapidly detecting the WIFI module, the upper computer sends a command for acquiring the WIFI intensity to the mainboard through the communication device, the mainboard receives the command for acquiring the WIFI intensity sent by the upper computer through the communication device, calls the WIFI access point query command of the WIFI module to query, collects the WIFI intensity value of the preset WIFI access point, compares the WIFI intensity value with the preset WIFI intensity judgment threshold value to obtain a detection result, sends the detection result to the upper computer, and the upper computer receives the detection result sent by the mainboard through the communication device and stores the detection result. Through obtaining the WIFI intensity value of being connected to the WIFI access point of predetermineeing, compare the WIFI intensity value and predetermine the size that WIFI intensity judged the threshold value, judge automatically whether the built-in WIFI module of mainboard is good products, detection efficiency is high, the accuracy is high.

Drawings

Fig. 1 is a system configuration diagram of a fast detection WIFI module in an embodiment;

fig. 2 is a flowchart of a method for rapidly detecting a WIFI module in an embodiment.

Detailed Description

In one embodiment, as shown in fig. 1, a system for rapidly detecting a WIFI module includes an upper computer 110, a communication device 120, and a main board 130, where the upper computer 110 is connected to the main board 130 through the communication device 120, a WIFI module is built in the main board 130, and the upper computer 110 sends an instruction for acquiring WIFI strength to the main board 130 through the communication device 120; receiving and storing the detection result sent by the main board 130 through the communication device 120; the mainboard 130 calls a WIFI access point query instruction of the WIFI module to perform query according to the received instruction for acquiring the WIFI intensity, collects a WIFI intensity value of a preset WIFI access point, compares the WIFI intensity value with a preset WIFI intensity judgment threshold value to obtain a detection result, and sends the detection result to the upper computer 110 through the communication device 120.

Specifically, the type of the upper computer 110 is not unique, in this embodiment, the upper computer 110 is specifically a PC, the type of the main board 130 is also not unique, and may be any main board 130 with a built-in WIFI module, and in this embodiment, the main board 130 is a television main board.

Before WIFI module function detection, the television is powered on and started on a television produced by a television mainboard production line, a WIFI module driver is loaded in the starting process, the television mainboard production line has a subsequent WIFI detection function test function and needs to be provided with a wireless router to provide a fixed WIFI access point (namely, a preset WIFI access point), the name of the access point is fixed, the distance between the WIFI access point and a WIFI strength station detected by the television production line is short, and the power of a WIFI self-service device and the like can influence the WIFI signal strength value detected by the television mainboard.

In one embodiment, the main board 130 calls the WIFI access point query instruction of the WIFI module to perform query, and collects a WIFI intensity value of a preset WIFI access point, including: the main board 130 calls a WIFI access point query instruction of the WIFI module to query WIFI access points in a preset area; the main board 130 queries valid WIFI access points from the WIFI access points in the preset area; the mainboard 130 screens out preset WIFI access points from the effective WIFI access points, searches fields representing the strength of the preset WIFI access points in the information of the preset WIFI access points, and collects WIFI strength values of the preset WIFI access points.

In one embodiment, the comparing, by the motherboard 130, the WIFI strength value with the preset WIFI strength judgment threshold value may specifically include: when the WIFI strength value acquired by the main board 130 is greater than or equal to the preset WIFI strength judgment threshold value, the detection result indicates that the WIFI function test of the main board is successful; when the WIFI intensity value collected by the main board 130 is smaller than the preset WIFI intensity judgment threshold value, the detection result is that the main board WIFI function test fails.

The specific type of the detection result is not unique, and can be set according to specific requirements, and in this embodiment, the detection result includes that the mainboard WIFI functional test is successful and the mainboard WIFI functional test is failed. The upper computer 110 receives the detection result sent by the main board 130 through the communication device 120 and stores the detection result specifically including: when the upper computer 110 receives a detection result of successful mainboard WIFI function test sent by the mainboard 130 through the communication device 120, storing information of the detection result; when the upper computer 110 receives the detection result of the failure of the mainboard WIFI function test sent by the mainboard 130 through the communication device 120, the information of the detection result is stored, and an acousto-optic alarm is sent.

In one embodiment, the communication device 120 includes a wireless communication device 120 connecting the host computer 110 and the motherboard 130, the wireless communication device 120 including at least one of a WIFI device, a bluetooth device, and a GPRS device.

Specifically, different communication devices 120 can be selected according to different application devices, and multiple wireless communication modes are matched, so that the application range is wide.

In one embodiment, the communication device 120 includes a wired communication device 120 connecting the host computer 110 and the motherboard 130.

Specifically, different communication devices 120 can be selected according to different application devices, so that the application range is wide, and convenience is improved.

In one embodiment, the wired communication device 120 includes a serial line, and the host computer 110 is connected to the motherboard 130 through the serial line.

Specifically, in this embodiment, the adopted communication device 120 is a serial port line, the motherboard software automatically opens the serial port of the motherboard 130 after being powered on and initializes the serial port to prepare for serial port communication, the motherboard production line scans the motherboard barcode on the motherboard 130 by the infrared barcode scanner to start the WIFI detection function, after the WIFI detection function is started, the upper computer 110 sends a command for acquiring the WIFI strength to the motherboard 130 by the serial port line, the motherboard 130 receives the serial port command and performs command parsing, after the command parsing is successful, a WIFI access point query command provided by the WIFI module is called to start querying the surrounding WIFI access points, information corresponding to the "factory test" WIFI access point is screened from the queried effective WIFI access point information list, then a field representing the WIFI access point strength is searched from the access point information and finally a WIFI strength value is acquired, the actually detected WIFI signal strength value is compared with a WIFI strength judgment threshold value preset in the motherboard software, if the actually detected WIFI strength value is larger than the preset WIFI strength judgment threshold value, the mainboard 130WIFI function test is considered to be passed, if the actually detected WIFI strength value is smaller than the preset WIFI strength judgment threshold value, the mainboard 130WIFI function test is considered to be failed, the result of the success or failure of the WIFI function test is sent to the mainboard production line upper computer 110 in the form of a serial port command return value through a serial port communication protocol, the mainboard production line upper computer 110 receives and analyzes the received serial port command to obtain whether the WIFI function test is successful or failed, and the success or failure information is stored in a background record of the production of the mainboard 130.

In one embodiment, the upper computer 110 includes an audible and visual alarm device, and the audible and visual alarm device is configured to send an audible and visual alarm when the detection result received by the upper computer 110 is that the WIFI function test of the main board 130 fails.

Specifically, sound-light alarm device reminds the WIFI function of producing this mainboard 130 of line operating personnel to detect the failure through the mode of sending out optical signal and sound signal simultaneously, for the defective products, should in time put down this defective products, guarantees the stability of quality of whole batch of mainboard 130's WIFI function.

In the system for rapidly detecting the WIFI module, the upper computer 110 is connected to the main board 130 through the communication device 120, the WIFI module is arranged in the main board 130, and the upper computer 110 sends an instruction for acquiring the WIFI intensity to the main board 130 through the communication device 120; receiving and storing the detection result sent by the main board 130; the mainboard 130 calls a WIFI access point query instruction of the WIFI module to perform query according to the received instruction for acquiring the WIFI intensity, collects a WIFI intensity value of a preset WIFI access point, compares the WIFI intensity value with a preset WIFI intensity judgment threshold value to obtain a detection result, and sends the detection result to the upper computer 110 through the communication device 120. Through obtaining the WIFI intensity value of being connected to the WIFI access point of predetermineeing, compare the WIFI intensity value and predetermine the size that WIFI intensity judged the threshold value, judge automatically whether the built-in WIFI module of mainboard 130 is the yields to can the automatic test result of the built-in WIFI module of every mainboard 130 of record, effectively realize the automation mechanized operation of complete machine production line, detection efficiency is high, the accuracy is high.

In one embodiment, as shown in fig. 2, a method for rapidly detecting a WIFI module includes the following steps:

step S110: the host computer sends an instruction for acquiring the WIFI strength to the mainboard through the communication device.

Specifically, mainboard production line starts WIFI through the mainboard bar code on infrared ray bar code scanner mainboard 130 and detects the function, starts WIFI and detects the instruction that host computer 110 sent the WIFI intensity to mainboard 130 through communication device 120 behind the function.

Step S120: the mainboard receives the instruction of obtaining the WIFI intensity sent by the upper computer through the communication device, calls the WIFI access point query instruction of the WIFI module to query, and collects the WIFI intensity value of the preset WIFI access point. In the present embodiment, step S120 includes steps 122 to 126.

Step 122: and calling a WIFI access point query instruction of the WIFI module to query the WIFI access points in the preset area.

Specifically, the production line of the main board 130 needs to be equipped with a wireless router to provide a fixed WIFI access point for matching with the WIFI detection function of the test main board 130, and the name of the access point is fixed, and assuming that the name of the access point is "factary test", the main board 130 calls a WIFI access point query instruction of a built-in WIFI module to query the WIFI access point in a preset area, and the specific range of the preset area can be set according to actual conditions.

Step 124: and inquiring effective WIFI access points from the WIFI access points in the preset area.

Specifically, the distance between the WIFI access point and the production line to detect the WIFI strength station, the power of the WIFI transmitter and the like may affect the WIFI signal strength value detected by the main board 130, and the main board 130 may inquire a plurality of WIFI access points in the preset area, but the number of effective WIFI access points may not be so large because of the distance or other reasons, so that effective WIFI access points are inquired from the WIFI access points in the preset area, and the preset WIFI access points can be screened more accurately.

Step 126: and screening out preset WIFI access points from the effective WIFI access points, searching fields representing the strength of the preset WIFI access points in the information of the preset WIFI access points, and collecting the WIFI strength values of the preset WIFI access points.

Specifically, the WIFI access point named as "factor test" is screened out from the effective WIFI access points, and the WIFI strength value of the WIFI access point is acquired from the information of the WIFI access point, so that the accuracy is high.

Step S130: and comparing the WIFI strength value with a preset WIFI strength judgment threshold value to obtain a detection result and sending the detection result to an upper computer. In the present embodiment, step S130 includes step 132 and step 134.

Step 132: when the WIFI strength value is larger than or equal to the preset WIFI strength judgment threshold value, the detection result indicates that the mainboard WIFI function test is successful.

Specifically, the preset WIFI strength judgment threshold value is set in the mainboard software, and the threshold value needs to be actually confirmed in a mainboard production line before the method formally imports volume production so as to ensure the detection accuracy of the WIFI module and ensure the high quality and the high stability of the detected WIFI module.

Step 134: when the WIFI strength value is smaller than the preset WIFI strength judgment threshold value, the detection result is that the mainboard WIFI function test fails.

Specifically, when the detection result is that the WIFI function test of the main board 130 fails, it indicates that the WIFI module is a defective product, and the quality of the WIFI module can be strictly controlled by comparing the WIFI intensity value with the preset WIFI intensity judgment threshold value, so as to ensure high quality and high stability of the detected WIFI module.

Step S140: and the upper computer receives and stores the detection result sent by the mainboard through the communication device. In the present embodiment, step S140 includes step 142 and step 144.

Specifically, after the upper computer 110 receives the detection result sent by the mainboard through the communication device 120, the information of the detection result is saved in the background record of mainboard production, and the mainboard bar code of each WIFI module is unique and can be respectively used for saving records.

Step 142: when the upper computer receives a detection result of successful mainboard WIFI function test sent by the mainboard through the communication device, information of the detection result is stored.

Specifically, for a WIFI module which is successfully detected, the successful information is directly stored into the background record.

Step 144: when the upper computer receives a detection result of failure of the mainboard WIFI function test sent by the mainboard through the communication device, information of the detection result is stored, and acousto-optic alarm is sent out.

Specifically, to the WIFI module that detects the failure, save and detect failure information, audible-visual alarm device sends audible-visual alarm signal simultaneously and reminds production line operating personnel to detect the failure in order to get off the defective products, ensures to detect high quality, the high stability of passing through the WIFI module, and conveniently does online record to the defective products, improves for follow-up industry and has important referential meaning.

In one embodiment, the communication device 120 includes a serial port line.

Specifically, after the motherboard software is started, the serial port of the motherboard 130 is automatically opened and the serial port is initialized to prepare for serial port communication, the upper computer 110 sends an instruction for acquiring the WIFI strength to the motherboard 130 through the serial port line, the motherboard 130 receives the serial port instruction and performs command analysis, and finally acquires the WIFI strength value of the preset WIFI access point, compares the actually detected WIFI signal strength value with the preset WIFI strength judgment threshold value in the motherboard software to obtain a detection result, and sends the detection result to the motherboard production line upper computer 110 through the serial port communication protocol in the form of a serial port command return value, and the motherboard production line upper computer 110 receives and analyzes the received serial port command to obtain a motherboard 130 function detection result and stores the detection result.

According to the method for rapidly detecting the WIFI module, the upper computer sends an instruction for acquiring the WIFI strength through the communication device, the mainboard receives the instruction for acquiring the WIFI strength sent by the upper computer through the communication device, the WIFI access point query instruction of the WIFI module is called for query, the WIFI strength value of the preset WIFI access point is collected, the WIFI strength value and the preset WIFI strength are compared to judge the threshold value, a detection result is obtained and sent, and the upper computer receives the detection result sent by the mainboard through the communication device and stores the detection result. Through obtaining the WIFI intensity value of being connected to the WIFI access point of predetermineeing, compare the WIFI intensity value and predetermine the size that the WIFI intensity judged the threshold value, judge automatically whether the built-in WIFI module of mainboard is the yields to can the automatic test result of the built-in WIFI module of every mainboard of record, effectively realize the complete machine and produce the automation mechanized operation of line, detection efficiency is high, the accuracy is high.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A system for rapidly detecting a WIFI module is characterized by comprising an upper computer, a communication device and a main board, wherein the upper computer is connected with the main board through the communication device, the WIFI module is arranged in the main board,

the upper computer sends an instruction for acquiring the WIFI strength to the mainboard through the communication device; receiving and storing a detection result sent by the mainboard through the communication device;

the main board calls a WIFI access point query instruction of the WIFI module to perform query according to the received instruction for acquiring the WIFI strength, collects a WIFI strength value of a preset WIFI access point, compares the WIFI strength value with a preset WIFI strength judgment threshold value to obtain the detection result, and sends the detection result to the upper computer through the communication device;

the mainboard calls the WIFI access point query instruction of the WIFI module to query, and collects the WIFI strength value of the preset WIFI access point, and the method comprises the following steps: the main board calls a WIFI access point query instruction of the WIFI module to query WIFI access points in a preset area; the main board inquires effective WIFI access points from the WIFI access points in the preset area; the method comprises the steps that a main board screens out preset WIFI access points from effective WIFI access points, a field representing the strength of the preset WIFI access points is searched in the information of the preset WIFI access points, and the WIFI strength value of the preset WIFI access points is collected;

comparing the WIFI strength value with a preset WIFI strength judgment threshold value to obtain a detection result, specifically comprising: when the WIFI strength value acquired by the mainboard is greater than or equal to a preset WIFI strength judgment threshold value, the detection result indicates that the WIFI function test of the mainboard is successful; and when the WIFI strength value acquired by the mainboard is smaller than a preset WIFI strength judgment threshold value, the detection result is that the WIFI function test of the mainboard fails.

2. The system for rapidly detecting a WIFI module according to claim 1, wherein the communication device comprises a wireless communication device connected with the upper computer and the main board, and the wireless communication device comprises at least one of a WIFI device, a Bluetooth device and a GPRS device.

3. The system for rapidly detecting a WIFI module according to claim 1, wherein the communication device comprises a wired communication device connecting the upper computer and the main board.

4. The system for rapidly detecting a WIFI module according to claim 3, wherein the wired communication device comprises a serial port line, and the upper computer is connected with the main board through the serial port line.

5. The system for rapidly detecting the WIFI module according to claim 1, wherein the upper computer comprises an audible and visual alarm device, and the audible and visual alarm device is used for giving an audible and visual alarm when the detection result received by the upper computer is that the WIFI function test of the main board fails.

6. A method for rapidly detecting a WIFI module is characterized by comprising the following steps:

the upper computer sends an instruction for acquiring the WIFI strength to the main board through the communication device;

after the main board receives the instruction for acquiring the WIFI strength sent by the upper computer through the communication device, the main board calls a WIFI access point query instruction of a WIFI module to query, and collects a WIFI strength value of a preset WIFI access point;

the main board compares the WIFI strength value with a preset WIFI strength judgment threshold value to obtain a detection result and sends the detection result to the upper computer;

the upper computer receives and stores the detection result sent by the mainboard through the communication device;

the steps of calling a WIFI access point query instruction of the WIFI module to query and acquiring a WIFI strength value of a preset WIFI access point include:

calling a WIFI access point query instruction of the WIFI module to query WIFI access points in a preset area;

inquiring effective WIFI access points from the WIFI access points in the preset area;

screening out preset WIFI access points from the effective WIFI access points, searching fields representing the strength of the preset WIFI access points in the information of the preset WIFI access points, and collecting WIFI strength values of the preset WIFI access points;

the step of comparing the WIFI strength value with a preset WIFI strength judgment threshold value to obtain a detection result comprises the following steps:

when the WIFI strength value is larger than or equal to a preset WIFI strength judgment threshold value, the detection result indicates that the mainboard WIFI function test is successful;

and when the WIFI strength value is smaller than a preset WIFI strength judgment threshold value, the detection result is that the WIFI function test of the mainboard fails.

7. The method for rapidly detecting the WIFI module according to claim 6, wherein the step of receiving and storing the detection result sent by the mainboard through the communication device by the upper computer comprises the steps of:

when the upper computer receives a detection result of successful mainboard WIFI function test sent by the mainboard through the communication device, storing information of the detection result;

and when the upper computer receives a detection result of failure of the mainboard WIFI function test sent by the mainboard through the communication device, the upper computer stores the information of the detection result and sends out acousto-optic alarm.

8. The method for rapidly detecting WIFI modules according to claim 6, wherein the communication device comprises a serial port line.

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