CN109743749B - WIFI throughput testing method and device - Google Patents
WIFI throughput testing method and device Download PDFInfo
- Publication number
- CN109743749B CN109743749B CN201910224256.3A CN201910224256A CN109743749B CN 109743749 B CN109743749 B CN 109743749B CN 201910224256 A CN201910224256 A CN 201910224256A CN 109743749 B CN109743749 B CN 109743749B
- Authority
- CN
- China
- Prior art keywords
- wifi module
- throughput
- wifi
- tested
- antenna
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Landscapes
- Mobile Radio Communication Systems (AREA)
- Monitoring And Testing Of Transmission In General (AREA)
Abstract
The invention discloses a WIFI throughput testing method and device, and belongs to the field of data testing. According to the invention, the position information of each device on the mainboard can be identified according to the image information of the collected mainboard, so that whether the position information of the antenna arranged on the mainboard meets the corresponding preset condition or not is judged, and the influence on the WIFI throughput due to unreasonable antenna layout is eliminated; the problem that the WIFI cannot be tested due to version mismatch is solved by judging whether the information of the WIFI to be tested is matched with the version of the WIFI driving module or not; carrying out throughput testing on the WIFI to be tested in a clean environment, and eliminating the influence of external interference on the WIFI throughput; the throughput of the WIFI to be tested is tested in the field environment, and the influence of other devices arranged on the mainboard on the throughput of the WIFI is eliminated. According to the method, the external interference is eliminated firstly, and then the WIFI is tested in a refined test mode step by step, so that the interference can be eliminated quickly and accurately, and the test efficiency is improved.
Description
Technical Field
The invention relates to the field of data testing, in particular to a WIFI throughput testing method and device.
Background
In current electronic devices, WIFI is an indispensable device, the performance of WIFI may have a decisive influence on the performance of the wireless communication network of the product, and in the IPTV (interactive network television) market, the operator has a higher requirement on the WIFI throughput (the throughput refers to the amount of data successfully transmitted per unit time to the network, device, port, virtual circuit or other facilities). In the WIFI test, because the WIFI test is easily interfered by the outside world in the test environment, the difficulty of the test throughput is also high, and much randomness exists.
Disclosure of Invention
Aiming at the problems existing in the prior art for testing the WIFI data throughput, a method and a device for automatically testing the WIFI throughput are provided, wherein the interference can be gradually eliminated.
A WIFI throughput testing method is applied to a set top box, a WIFI module to be tested is arranged in a mainboard of the set top box, and the method comprises the following steps:
s1, collecting information of a WIFI module to be tested and image information of the mainboard;
s2, identifying the position information of each device on the mainboard according to the image information of the mainboard, judging whether the position information of the antenna arranged on the mainboard meets a first preset condition, and if so, executing step S3; if not, eliminating the interference, and returning to execute the step S1;
s3, judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module, if so, generating a message for executing a clean environment test, and executing the step S4; if not, updating the version of the WIFI driving module according to the information of the WIFI module to be tested, and returning to execute the step S3;
s4, carrying out throughput testing on the WIFI module to be tested in a clean environment, judging whether the throughput of the WIFI module to be tested meets a second preset condition or not, if so, generating a message for executing the field environment testing, and executing the step S5; if not, eliminating the interference, and returning to execute the step S4;
s5, carrying out throughput testing on the WIFI module to be tested in a field environment, judging whether the throughput of the WIFI module to be tested meets a third preset condition or not, and if so, generating a message that the WIFI module to be tested passes the testing; and if not, generating a message of abnormal test of the WIFI module to be tested.
Preferably, the first preset condition is that:
the distance between the antenna and the memory on the mainboard, the distance between the antenna and the USB seat and the distance between the antenna and the PCB are larger than preset distances; and/or
The distance between the coaxial line of the antenna and the PCB on the main board is larger than a preset distance.
Preferably, the clean environment is a reverberant laboratory environment or a darkroom laboratory environment.
Preferably, the second preset condition is:
whether the throughput of the WIFI module is interfered by an antenna, a weight block and a high-definition multimedia interface or not is judged in a near-field environment; and/or
And under a far-field environment, whether the throughput of the WIFI module is interfered by an antenna, a heavy block and a high-definition multimedia interface or not is judged.
Preferably, the third preset condition is that:
whether the throughput of the WIFI module is interfered by a bare board, a heavy block, an additional shielding case, a high-definition multimedia interface and a Bluetooth module or not.
The invention also provides a WIFI throughput testing device, which is applied to the set top box, the to-be-tested WIFI module is arranged in a mainboard of the set top box, and the WIFI throughput testing device is used for:
the acquisition unit is used for acquiring information of the WIFI module to be detected and image information of the mainboard;
the identification unit is used for identifying the position information of each device on the mainboard according to the image information of the mainboard and judging whether the position information of the antenna arranged on the mainboard meets a first preset condition or not;
the matching unit is used for judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module or not when the position information of the antenna on the mainboard meets a first preset condition, and if so, generating a message for executing a clean environment test; if not, updating the version of the WIFI driving module according to the information of the WIFI module to be tested, and re-matching;
the first testing unit is used for testing the throughput of the WIFI module to be tested in a clean environment when the information of the WIFI module to be tested is matched with the version of the WIFI driving module, judging whether the throughput of the WIFI module to be tested meets a second preset condition or not, and if yes, generating a message for executing the field environment test; if not, eliminating the interference and re-executing the throughput test;
the second testing unit is used for testing the throughput of the WIFI module to be tested under the field environment when the throughput of the WIFI module to be tested meets a second preset condition, judging whether the throughput of the WIFI module to be tested meets a third preset condition or not, and if yes, generating a message that the WIFI module to be tested passes the test; and if not, generating a message of abnormal test of the WIFI module to be tested.
Preferably, the first preset condition is that:
the distance between the antenna and the memory on the mainboard, the distance between the antenna and the USB seat and the distance between the antenna and the PCB are larger than preset distances; and/or
The distance between the coaxial line of the antenna and the PCB on the mainboard is larger than a preset distance.
Preferably, the clean environment is a reverberant laboratory environment or a darkroom laboratory environment.
Preferably, the second preset condition is that:
whether the throughput of the WIFI module is interfered by an antenna, a weight block and a high-definition multimedia interface or not in a near-field environment; and/or
And under a far-field environment, whether the throughput of the WIFI module is interfered by an antenna, a heavy block and a high-definition multimedia interface or not is judged.
Preferably, the third preset condition is that:
whether the throughput of the WIFI module is interfered by a bare board, a heavy block, an additional shielding case, a high-definition multimedia interface and a Bluetooth module or not.
The beneficial effects of the above technical scheme are that:
in the technical scheme, the position information of each device on the mainboard can be identified according to the image information of the collected mainboard, so that whether the position information of the antenna arranged on the mainboard meets the corresponding preset condition or not is judged, and the influence on the throughput of the WIFI module caused by unreasonable antenna layout is eliminated; the problem that the WIFI module to be tested cannot be tested due to unmatched versions is solved by judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module or not; the throughput of the WIFI module to be tested is tested in a clean environment, so that the influence of external interference on the throughput of the WIFI module is eliminated; throughput testing is performed on the WIFI module to be tested in the field environment, and the influence of other devices arranged on the mainboard on the throughput of the WIFI module is eliminated. According to the invention, the WIFI module is tested in a test mode of firstly eliminating external interference and then gradually refining, so that the interference can be quickly and accurately eliminated, and the test efficiency is improved.
Drawings
Fig. 1 is a flowchart of a method of an embodiment of a WIFI throughput testing method according to the present invention;
fig. 2 is a block diagram of a WIFI throughput testing apparatus according to an embodiment of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.
The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.
As shown in fig. 1, a WIFI throughput testing method is applied to a set top box, where a to-be-tested WIFI module is arranged in a main board of the set top box, and includes the following steps:
s1, collecting information of a WIFI module to be tested and image information of the mainboard;
s2, identifying the position information of each device on the mainboard according to the image information of the mainboard, judging whether the position information of the antenna arranged on the mainboard meets a first preset condition, and if so, executing step S3; if not, eliminating the interference, and returning to execute the step S1;
further, the first preset condition is that:
the distance between the antenna and the memory on the mainboard, the distance between the antenna and the USB seat and the distance between the antenna and the PCB are larger than preset distances; and/or
The distance between the coaxial line of the antenna and the PCB on the main board is larger than a preset distance.
In practical application, the antenna should be as far away from the memory, the USB socket and the PCB as possible, and there is enough space to prevent the WIFI throughput from being affected. The WIFI throughput is also affected by the close distance between the coaxial line of the antenna and the PCB board on the main board.
Before step S2 is executed, whether the power supply of the SDIO interface of the WIFI module is normal or not, whether the antenna isolation is qualified or not, whether the WIFI module is latest or not, and the like are detected respectively, if the detection is performed, step S2 is executed, and if the detection is abnormal, step S2 is executed after the abnormality is eliminated.
S3, judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module, if so, generating a message for executing a clean environment test, and executing the step S4; if not, updating the version of the WIFI driving module according to the information of the WIFI module to be tested, and returning to execute the step S3;
wherein the clean environment is a reverberant laboratory environment or a darkroom laboratory environment.
The influence on the WIFI throughput test caused by the difference of the driving versions is eliminated by judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module.
S4, carrying out throughput testing on the WIFI module to be tested in a clean environment, judging whether the throughput of the WIFI module to be tested meets a second preset condition or not, if so, generating a message for executing the field environment testing, and executing the step S5; if not, eliminating the interference, and returning to execute the step S4;
further, the second preset condition is that:
whether the throughput of the WIFI module is interfered by an antenna, a weight block and a high-definition multimedia interface or not in a near-field environment; and/or
And under a far-field environment, whether the throughput of the WIFI module is interfered by an antenna, a heavy block and a high-definition multimedia interface or not is judged.
Under a clean environment, before near-field environment testing, the throughput of a board process can be referred to, the interference of the environment (including configuration of a computer, a router and the like) is eliminated, the near-field environment testing is carried out after the Bluetooth is closed, and the interference caused by the coexistence of WIFI and the Bluetooth is avoided. During near field environment testing, according to the throughput of the standard antenna, the interference of the antenna in the set top box is eliminated, the influence of the weight block on the elimination of the counterweight block is eliminated, the influence of the internal memory part on the throughput is eliminated by the shielding case, and the interference caused by high-definition multimedia signals is eliminated.
When a far-field environment is tested, the test is carried out at a distance of 8 meters or more to eliminate the interference of weak signals, the interference of the antenna in the set top box is eliminated according to the throughput of the standard antenna, the influence of a weight block on the removal of a counterweight block is eliminated, the influence of a memory part on the throughput is increased, and the interference caused by high-definition multimedia signals is eliminated.
S5, carrying out throughput testing on the WIFI module to be tested in a field environment, judging whether the throughput of the WIFI module to be tested meets a third preset condition or not, and if so, generating a message that the WIFI module to be tested passes the testing; and if not, generating a message of abnormal test of the WIFI module to be tested.
Wherein, the field environment is the environment in which the set-top box normally works.
Further, the third preset condition is that:
whether the throughput of the WIFI module is interfered by a bare board, a heavy block, an additional shielding case, a high-definition multimedia interface and a Bluetooth module or not.
In a field environment, a bare board throughput test is carried out according to the throughput of a standard reference machine (a standard set top box), the interference of an antenna in the set top box is eliminated, the influence of a weight block on eliminating a balancing weight is eliminated, the influence of a memory part on the throughput is increased by a shielding case, the interference caused by high-definition multimedia signals is eliminated, and the interference of the Bluetooth on the throughput is avoided by closing the Bluetooth.
In this embodiment, the position information of each device on the main board can be identified according to the image information of the collected main board, so as to judge whether the position information of the antenna arranged on the main board meets the corresponding preset condition or not, and to eliminate the influence on the throughput of the WIFI module due to unreasonable antenna layout; the problem that the WIFI module to be tested cannot be tested due to unmatched versions is solved by judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module or not; the throughput of the WIFI module to be tested is tested in a clean environment, so that the influence of external interference on the throughput of the WIFI module is eliminated; throughput testing is performed on the WIFI module to be tested in the field environment, and the influence of other devices arranged on the mainboard on the throughput of the WIFI module is eliminated. According to the invention, the WIFI module is tested in a test mode of firstly eliminating external interference and then refining step by step, so that the interference can be eliminated quickly and accurately, and the test efficiency is improved.
As shown in fig. 2, a WIFI throughput testing apparatus is applied to a set-top box, a to-be-tested WIFI module is disposed in a main board of the set-top box, and the WIFI throughput testing apparatus includes: the device comprises an acquisition unit 1, an identification unit 2, a matching unit 4, a first test unit 3 and a second test unit 5; wherein:
the acquisition unit 1 is used for acquiring information of a WIFI module to be detected and image information of the mainboard;
the identification unit 2 is used for identifying the position information of each device on the mainboard according to the image information of the mainboard and judging whether the position information of the antenna arranged on the mainboard meets a first preset condition or not;
further, the first preset condition is that:
the distance between the antenna and the memory on the mainboard, the distance between the antenna and the USB seat and the distance between the antenna and the PCB are larger than preset distances; and/or
The distance between the coaxial line of the antenna and the PCB on the main board is larger than a preset distance.
In practical application, the antenna should be as far away from the memory, the USB socket and the PCB as possible, and there is enough space to prevent the WIFI throughput from being affected. The WIFI throughput is also affected by the close distance between the coaxial line of the antenna and the PCB board on the main board.
The matching unit 4 is used for judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module or not when the position information of the antenna on the mainboard meets a first preset condition, and if so, generating a message for executing a clean environment test; if not, updating the version of the WIFI driving module according to the information of the WIFI module to be tested, and re-matching;
wherein the clean environment is a reverberant laboratory environment or a darkroom laboratory environment.
The influence on the WIFI throughput test caused by the difference of the driving versions is eliminated by judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module.
The first testing unit 3 is used for testing the throughput of the WIFI module to be tested in a clean environment when the information of the WIFI module to be tested is matched with the version of the WIFI driving module, judging whether the throughput of the WIFI module to be tested meets a second preset condition or not, and if yes, generating a message for executing the field environment test; if not, eliminating the interference and re-executing the throughput test;
further, the second preset condition is that:
whether the throughput of the WIFI module is interfered by an antenna, a weight block and a high-definition multimedia interface or not in a near-field environment; and/or
And under a far-field environment, whether the throughput of the WIFI module is interfered by an antenna, a heavy block and a high-definition multimedia interface or not is judged.
Under the clean environment, before carrying out the near field environment test, can consult the throughput of good board process, get rid of the interference of environment (including configuration such as computer, router), carry out the near field environment test of journey after closing the bluetooth, avoid WIFI and bluetooth coexistence, because of the interference that the bluetooth arouses. During near field environment testing, according to the throughput of the standard antenna, the interference of the antenna in the set top box is eliminated, the influence of the weight block on the elimination of the counterweight block is eliminated, the influence of the internal memory part on the throughput is eliminated by the shielding case, and the interference caused by high-definition multimedia signals is eliminated.
When a far-field environment is tested, the test is carried out at a distance of 8 meters or more to eliminate the interference of weak signals, the interference of the antenna in the set top box is eliminated according to the throughput of the standard antenna, the influence of a weight block on the removal of a counterweight block is eliminated, the influence of a memory part on the throughput is increased, and the interference caused by high-definition multimedia signals is eliminated.
The second testing unit 5 is used for testing the throughput of the to-be-tested WIFI module in a field environment when the throughput of the to-be-tested WIFI module meets a second preset condition, judging whether the throughput of the to-be-tested WIFI module meets a third preset condition or not, and if yes, generating a message that the to-be-tested WIFI module passes the test; and if not, generating a message of abnormal test of the WIFI module to be tested.
Further, the third preset condition is that:
whether the throughput of the WIFI module is interfered by a bare board, a heavy block, a shielding case, a high-definition multimedia interface and a Bluetooth module or not.
Under the field environment, according to the throughput of a standard reference machine (a standard set top box), a bare board throughput test is carried out, the interference of an antenna in the set top box is eliminated, the influence of a heavy block on eliminating a balancing weight is eliminated, the influence of a memory part on the throughput is increased, the interference brought by high-definition multimedia signals is eliminated, and the interference of the Bluetooth on the throughput is avoided by closing the Bluetooth.
In this embodiment, the position information of each device on the main board can be identified according to the image information of the collected main board, so as to judge whether the position information of the antenna arranged on the main board meets the corresponding preset condition or not, and to eliminate the influence on the throughput of the WIFI module due to unreasonable antenna layout; the problem that the WIFI module to be tested cannot be tested due to unmatched versions is solved by judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module or not; the throughput of the WIFI module to be tested is tested in a clean environment, so that the influence of external interference on the throughput of the WIFI module is eliminated; throughput testing is performed on the WIFI module to be tested in the field environment, and the influence of other devices arranged on the mainboard on the throughput of the WIFI module is eliminated. According to the invention, the WIFI module is tested in a test mode of firstly eliminating external interference and then gradually refining, so that the interference can be quickly and accurately eliminated, and the test efficiency is improved.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.
Claims (4)
1. A WIFI throughput testing method is applied to a set top box, a WIFI module to be tested is arranged in a mainboard of the set top box, and the method is characterized by comprising the following steps:
s1, collecting information of a WIFI module to be tested and image information of the mainboard;
s2, identifying the position information of each device on the mainboard according to the image information of the mainboard, judging whether the position information of the antenna arranged on the mainboard meets a first preset condition, and if so, executing the step S3; if not, eliminating the interference, and returning to execute the step S1;
s3, judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module, if so, generating a message for executing a clean environment test, and executing the step S4; if not, updating the version of the WIFI driving module according to the information of the WIFI module to be tested, and returning to execute the step S3;
s4, carrying out throughput testing on the WIFI module to be tested in a clean environment, judging whether the throughput of the WIFI module to be tested meets a second preset condition, if so, generating a message for executing the field environment testing, and executing the step S5; if not, eliminating the interference, and returning to execute the step S4;
s5, carrying out throughput testing on the WIFI module to be tested in a field environment, judging whether the throughput of the WIFI module to be tested meets a third preset condition or not, and if so, generating a message that the WIFI module to be tested passes the testing; if not, generating a message of abnormal test of the WIFI module to be tested;
the first preset condition is as follows:
the distance between the antenna and the memory on the mainboard, the distance between the antenna and the USB seat and the distance between the antenna and the PCB are larger than preset distances; and/or
The distance between the coaxial line of the antenna and the PCB on the main board is greater than a preset distance;
the second preset condition is as follows:
under a near-field environment, the throughput of the WIFI module is not interfered by an antenna, a weight block and a high-definition multimedia interface; and/or
Under a far-field environment, the throughput of the WIFI module is not interfered by an antenna, a weight block and a high-definition multimedia interface;
the third preset condition is as follows:
the throughput of the WIFI module is not interfered by a bare board, a heavy block, a shielding case, a high-definition multimedia interface and a Bluetooth module;
before executing the step S2, the method further includes:
according to the standard whether the SDIO interface of the WIFI module is normally powered, whether the antenna isolation degree is qualified and whether the WIFI module is up to date, respectively detecting the WIFI module:
if the detection is passed, the step S2 is executed;
if any one of the detection abnormalities is detected, the step S2 is executed after the abnormality is excluded.
2. The WIFI throughput testing method of claim 1, wherein: the clean environment is a reverberant laboratory environment or a darkroom laboratory environment.
3. The utility model provides a WIFI throughput testing arrangement, is applied to in the STB, in the mainboard of WIFI module setting and STB that awaits measuring, its characterized in that, WIFI throughput testing arrangement:
the acquisition unit is used for acquiring information of the WIFI module to be detected and image information of the mainboard;
the identification unit is used for identifying the position information of each device on the mainboard according to the image information of the mainboard and judging whether the position information of the antenna arranged on the mainboard meets a first preset condition or not;
the matching unit is used for judging whether the information of the WIFI module to be tested is matched with the version of the WIFI driving module or not when the position information of the antenna on the mainboard meets a first preset condition, and if so, generating a message for executing a clean environment test; if not, updating the version of the WIFI driving module according to the information of the WIFI module to be tested, and re-matching;
the first testing unit is used for testing the throughput of the WIFI module to be tested in a clean environment when the information of the WIFI module to be tested is matched with the version of the WIFI driving module, judging whether the throughput of the WIFI module to be tested meets a second preset condition or not, and if yes, generating a message for executing the field environment test; if not, eliminating the interference and re-executing the throughput test;
the second testing unit is used for testing the throughput of the WIFI module to be tested under the field environment when the throughput of the WIFI module to be tested meets a second preset condition, judging whether the throughput of the WIFI module to be tested meets a third preset condition or not, and if yes, generating a message that the WIFI module to be tested passes the test; if not, generating a message of abnormal test of the WIFI module to be tested;
the first preset condition is as follows:
the distance between the antenna and the memory on the mainboard, the distance between the antenna and the USB seat and the distance between the antenna and the PCB are larger than preset distances; and/or
The distance between the coaxial line of the antenna and the PCB on the main board is greater than a preset distance;
the second preset condition is as follows:
under the near-field environment, the throughput of the WIFI module is not interfered by an antenna, a weight block and a high-definition multimedia interface; and/or
Under a far-field environment, the throughput of the WIFI module is not interfered by an antenna, a weight block and a high-definition multimedia interface;
the third preset condition is as follows:
the throughput of the WIFI module is not interfered by a bare board, a heavy block, a shielding case, a high-definition multimedia interface and a Bluetooth module;
the WIFI module detection device is characterized by further comprising a detection unit, wherein the detection unit is used for respectively detecting the WIFI module according to the standards of whether the SDIO interface of the WIFI module is normal in power supply, whether the antenna isolation is qualified and whether the WIFI module is up-to-date, if the detection is passed, the identification unit is allowed to start processing, and if any one detection is abnormal, the identification unit is allowed to start processing after the abnormality is eliminated.
4. A WIFI throughput testing apparatus according to claim 3, characterized by: the clean environment is a reverberant laboratory environment or a darkroom laboratory environment.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910224256.3A CN109743749B (en) | 2019-03-22 | 2019-03-22 | WIFI throughput testing method and device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910224256.3A CN109743749B (en) | 2019-03-22 | 2019-03-22 | WIFI throughput testing method and device |
Publications (2)
Publication Number | Publication Date |
---|---|
CN109743749A CN109743749A (en) | 2019-05-10 |
CN109743749B true CN109743749B (en) | 2022-05-31 |
Family
ID=66371243
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910224256.3A Active CN109743749B (en) | 2019-03-22 | 2019-03-22 | WIFI throughput testing method and device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109743749B (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110896333B (en) * | 2019-09-23 | 2022-01-21 | 惠州高盛达科技有限公司 | WiFi module testing method and system and storage medium |
CN111130929B (en) * | 2019-12-12 | 2021-11-12 | 深圳市兆驰通信技术有限公司 | Method and system for automatically testing WIFI throughput |
CN113542736A (en) * | 2021-07-14 | 2021-10-22 | 南京熊猫电子股份有限公司 | Method and system for testing wifi throughput of smart television |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102882613A (en) * | 2011-07-13 | 2013-01-16 | 英业达股份有限公司 | Full anechoic darkroom |
CN106255143A (en) * | 2016-09-30 | 2016-12-21 | 深圳市吉祥腾达科技有限公司 | A kind of wireless performance test system of wireless device |
CN106488468A (en) * | 2016-10-14 | 2017-03-08 | 深圳Tcl新技术有限公司 | WiFi performance test methods and system |
CN108347287B (en) * | 2017-01-24 | 2021-04-27 | 上海大唐移动通信设备有限公司 | Wireless environment simulation method and device |
CN109039802A (en) * | 2018-07-05 | 2018-12-18 | 四川斐讯信息技术有限公司 | A kind of test method and system of router anti-interference ability |
CN109460827A (en) * | 2018-11-01 | 2019-03-12 | 郑州云海信息技术有限公司 | A kind of deep learning environment is built and optimization method and system |
-
2019
- 2019-03-22 CN CN201910224256.3A patent/CN109743749B/en active Active
Also Published As
Publication number | Publication date |
---|---|
CN109743749A (en) | 2019-05-10 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109743749B (en) | WIFI throughput testing method and device | |
CN105652183A (en) | Vehicle-mounted system PCB mainboard automated testing method | |
CN207851236U (en) | A kind of chip testing plate and chip test system | |
CN104516798B (en) | Wireless one-to-many test system | |
CN204924967U (en) | Image acquisition mechanism of full -automatic AOI complete machine | |
CN106646315B (en) | A kind of Auto-Test System and its test method of digital measuring instruments | |
CN110188888A (en) | Power equipments defect management method, system and terminal based on AHP and remote support | |
CN203069520U (en) | Multifunctional automatic PCB (Printed Circuit Board) test system | |
CN106199237A (en) | System for testing equipment antenna | |
CN106452962A (en) | WiFi coupling test system and method | |
CN113268416A (en) | Application program testing method and device, storage medium and terminal | |
CN207782829U (en) | The diagnostic device of PROFIBUS-DP communication networks | |
CN110888011B (en) | In-situ test method and test device based on testability modeling | |
CN103064011A (en) | Radio frequency identification devices (RFID) reader chip process testing system and method | |
CN109752641A (en) | A kind of method, apparatus, equipment and the storage medium of batch testing Devices to test | |
CN107179972A (en) | For the method for calculation machine, microcontroller, test equipment and test system | |
CN104793081A (en) | USB (universal serial bus) interface detection device and method | |
CN207281247U (en) | Circuit board detection equipment | |
CN106501705A (en) | Traction integrated system protection CPU board automatic checkout system and its detection method | |
KR101228426B1 (en) | Apparatus and method for inspection of marking | |
TWI507698B (en) | Semiconductor device test apparatus and method thereof | |
CN109407039A (en) | Intelligent electric meter and its system, self-diagnosing method and fault detection method | |
CN109592525A (en) | Elevator frequency converter fault diagnosis system and method | |
CN108805931A (en) | Position finding and detection method, device and the computer readable storage medium of AR products | |
TWI742865B (en) | Automatic testing machine with data processing function and its information processing method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |