CN106887213B - Method for detecting backlight adjustment, test end and tested end - Google Patents
Method for detecting backlight adjustment, test end and tested end Download PDFInfo
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- CN106887213B CN106887213B CN201510946562.XA CN201510946562A CN106887213B CN 106887213 B CN106887213 B CN 106887213B CN 201510946562 A CN201510946562 A CN 201510946562A CN 106887213 B CN106887213 B CN 106887213B
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- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
- G09G3/34—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
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Abstract
The invention relates to a method for detecting backlight adjustment, a test terminal and a tested terminal. The method comprises the following steps: establishing a communication link with a tested end, and distributing a corresponding network address for the tested end; the network addresses of the tested ends are classified into the same test set; simultaneously sending command words, function marks and backlight adjusting values to tested terminals corresponding to the network addresses in the test set; each time the command word, the function mark and the backlight adjustment value are successfully sent, the backlight adjustment value is increased by a preset value; and judging whether the backlight adjusting value after the preset value is increased exceeds a backlight threshold value, if so, finishing the test, and if not, continuously sending a command word, a function mark and the backlight adjusting value after the preset value is increased to the test set. According to the method for detecting backlight adjustment, the test end and the tested end, backlight adjustment test is carried out on a plurality of tested ends at the same time, and compared with the traditional method of carrying out test one by one, the test efficiency is improved.
Description
Technical Field
The invention relates to the field of computer application, in particular to a method for detecting backlight adjustment, a test terminal and a tested terminal.
Background
The traditional backlight adjustment detection method of the equipment generally tests whether the backlight adjustment function of each equipment is normal one by one after the equipment is produced in a factory in batches, backlight adjustment software is started in the test process, a mouse drags a sliding rod to change the backlight value or presses a backlight adjustment button to change the backlight adjustment value, the traditional test method wastes time and labor, a large amount of manpower is relied on to complete the test, each tester can only test the backlight adjustment function of one equipment at the same time, and the test period is long, and the test efficiency is low.
Disclosure of Invention
Therefore, it is necessary to provide a method for detecting backlight adjustment, which can improve the testing efficiency, for the problem of low testing efficiency of the conventional device backlight adjustment detecting method.
In addition, it is necessary to provide a testing terminal and a tested terminal, which can improve the testing efficiency.
A method of detecting backlight adjustment, comprising:
establishing a communication link with a tested end, and distributing a corresponding network address for the tested end;
the network addresses of the tested ends are classified into the same test set;
simultaneously sending command words, function marks and backlight adjusting values to tested terminals corresponding to the network addresses in the test set;
each time the command word, the function mark and the backlight adjustment value are successfully sent, the backlight adjustment value is increased by a preset value;
and judging whether the backlight adjusting value after the preset value is increased exceeds a backlight threshold value, if so, finishing the test, and if not, continuously sending a command word, a function mark and the backlight adjusting value after the preset value is increased to the test set.
According to the method for detecting backlight adjustment, the network address is distributed to the tested end by establishing the communication link with the tested end, the network address of the tested end is classified into the same test set, and the command word, the function mark and the backlight adjustment value are sent to the same test set to perform backlight adjustment test, so that backlight adjustment test is simultaneously performed on a plurality of tested ends, and compared with the traditional one-by-one test, the test efficiency is improved.
A method of detecting backlight adjustment, comprising:
establishing a communication link with a test end to acquire a network address allocated by the test end as a tested end;
receiving a command word, a function mark and a backlight adjusting value sent by a test end according to the network address in the test set;
carrying out backlight adjustment according to the received backlight adjustment value;
and judging whether the backlight adjusting value exceeds a backlight threshold value, if so, finishing the test, and if not, continuously receiving the command word and the function mark which are simultaneously sent by the test end according to the network address and the backlight adjusting value after increasing the preset value.
According to the method for detecting the backlight adjustment, after the tested end and the testing end establish the communication link, the command word, the function mark and the backlight adjustment value which are sent to the tested end corresponding to the network address in the test set by the testing end are received, and the backlight adjustment is carried out according to the backlight adjustment value, so that the backlight adjustment test is simultaneously carried out on a plurality of tested ends, and compared with the traditional one-by-one test, the test efficiency is improved.
A test tip, comprising:
the address allocation module is used for establishing a communication link with a tested end and allocating a corresponding network address to the tested end;
the collection module is used for collecting the network addresses of the tested terminals into the same test set;
the sending module is used for simultaneously sending command words, function marks and backlight adjusting values to the tested end corresponding to the network address in the test set;
the increasing module is used for increasing the backlight adjusting value by a preset value every time the command word, the function mark and the backlight adjusting value are successfully sent;
and the judging module is used for judging whether the backlight adjusting value after the preset value is increased exceeds a backlight threshold value, if so, the test is finished, and if not, the sending module continues to send the command word, the function mark and the backlight adjusting value after the preset value is increased to the test set.
The testing end allocates the network address to the tested end by establishing the communication link with the tested end, puts the network address of the tested end into the same testing set, and sends the command word, the function mark and the backlight adjusting value to the tested end corresponding to the network address in the same testing set to perform backlight adjusting test, so that the backlight adjusting test is simultaneously performed on a plurality of tested ends, and the testing efficiency is improved compared with the traditional one-by-one test.
A tested terminal, comprising:
the address acquisition module is used for establishing a communication link with a test end and acquiring a network address distributed by the test end as a tested end;
the receiving module is used for receiving the command words, the function marks and the backlight adjusting values sent by the testing end according to the network addresses in the testing set;
the adjusting module is used for adjusting backlight according to the received backlight adjusting value;
and the comparison module is used for judging whether the backlight adjustment value exceeds a backlight threshold value, if so, the test is finished, and if not, the receiving module continues to receive the command word and the function mark which are simultaneously sent by the test end according to the network address and the backlight adjustment value after the preset value is increased.
After the tested end and the testing end establish a communication link, the tested end receives the command word, the function mark and the backlight adjusting value which are sent by the testing end to the tested end corresponding to the network address in the test set, and performs backlight adjustment according to the backlight adjusting value, so that backlight adjustment testing is performed on a plurality of tested ends at the same time, and compared with the traditional one-by-one testing, the testing efficiency is improved.
Drawings
FIG. 1 is a diagram illustrating an exemplary embodiment of an application environment of a method for detecting backlight adjustment;
FIG. 2 is a flow diagram of a method of detecting backlight adjustment in one embodiment;
FIG. 3 is a flow diagram of a specific application of a method of detecting backlight adjustment in one embodiment;
FIG. 4 is a flow chart of a method of detecting backlight adjustment in another embodiment;
FIG. 5 is a flowchart of a specific application of a method of detecting backlight adjustment in another embodiment;
FIG. 6 is a block diagram of the test side in one embodiment;
FIG. 7 is a block diagram of the structure of a tested terminal in one embodiment;
FIG. 8 is a block diagram showing the structure of a tested terminal in another embodiment;
FIG. 9 is a block diagram showing the structure of a tested terminal in another embodiment;
fig. 10 is a block diagram of the structure of a tested terminal in another embodiment.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various elements, but these elements are not limited by these terms. These terms are only used to distinguish one element from another. For example, a first client may be referred to as a second client, and similarly, a second client may be referred to as a first client, without departing from the scope of the present invention.
FIG. 1 is a diagram illustrating an application environment of a method for detecting backlight adjustment according to an embodiment. As shown in fig. 1, the application environment includes a testing side 110, a switch 120, and a tested side 130. The test end 110 is connected to the tested end 130 through the switch 120.
The testing end 110 is installed with a backlight testing server software, and is configured to allocate an Internet Protocol (IP) address to the tested end 130 connected to the switch 120, establish a communication link, scan a testing network to obtain the IP address of the tested end 130, classify all scanned network addresses of the tested end 130 into the same testing set, and send a command word, a function flag, and data (data mainly refers to a backlight adjustment value) of a backlight test to the tested end 130 corresponding to the network address in the testing set. The test end 110 may be a single or multiple computers or the like. The command word represents a write command, and represents that the test server software is about to perform a data writing operation on the tested end in the test set. The function flag is a function indicating that the backlight adjustment function of the tested terminal in the test set is to be operated. The value range of the data is determined as required, for example, 0 to 100, and the data represents a specific backlight adjustment value of the tested terminal, that is, a specific backlight setting value written into the backlight adjustment function of the tested terminal in the test set.
The tested terminal 130 is installed with a backlight test client software for obtaining the IP address from the testing terminal 110 and receiving the command word, the function flag, and the data of the backlight test from the testing terminal. The tested terminal 130 may be a tablet computer, a personal digital assistant, a mobile phone, etc. The tablet computer may be a ruggedized tablet computer or the like. The reinforced tablet computer is a tablet computer with stronger anti-falling performance and the like.
FIG. 2 is a flow diagram of a method of detecting backlight adjustment in one embodiment. As shown in fig. 2, a method of detecting backlight adjustment, described in terms of test end angles, includes the steps of:
Specifically, the testing end establishes a communication link with the tested end, and the testing end allocates a corresponding network address (IP address) to the tested end. In addition, the test end can establish a communication link with the tested end through the switch.
And step 204, grouping the network addresses of the tested ends into the same test set.
Specifically, network addresses of a plurality of tested terminals are classified into the same test set. The number of the tested terminals in the same test set may be determined according to the number of the switch ports, etc., and may be, for example, 5, but is not limited thereto.
Specifically, the test end may send a command word, a function flag, and a backlight adjustment value to a tested end corresponding to a network address in the test set. The command word represents a write command, which may be 0x81, and represents that the test server software is going to perform a write data operation on the tested terminals in the test set. The function flag is a function indicating that the tested terminal in the test set is to be operated, and may be 0x 45. The value range of the backlight adjustment value is determined as required, for example, 0 to 100, which represents the specific backlight adjustment value of the tested terminal, that is, the specific backlight setting value written into the backlight adjustment function of the tested terminal in the test set. And the tested end performs backlight adjustment according to the received backlight adjustment value.
The predetermined value may be set as desired, such as 1, 2, 3, 4, 5, etc.
And 208, judging whether the backlight adjusting value after the preset value is increased exceeds a backlight threshold value, if so, finishing the test, and if not, returning to the step 206.
Specifically, the backlight threshold may be set as needed. The backlight threshold may be a maximum value of a range of values of the backlight adjustment value.
According to the method for detecting backlight adjustment, the network address is distributed to the tested end by establishing the communication link with the tested end, the network address of the tested end is classified into the same test set, and the command word, the function mark and the backlight adjustment value are sent to the tested end corresponding to the network address in the same test set to perform backlight adjustment test, so that backlight adjustment test is simultaneously performed on a plurality of tested ends, and compared with the traditional one-by-one test, the test efficiency is improved.
Fig. 3 is a flow chart of a specific application of the method of detecting backlight adjustment. As shown in fig. 3, the method for detecting backlight adjustment is applied to backlight adjustment detection of a ruggedized flat panel, where a backlight adjustment value ranges from 0 to 100, and a predetermined value is 5, and the method specifically includes the following steps:
And step 304, grouping the network addresses of the reinforced flat plates to be tested into the same test set.
Specifically, the command word is sent to the hardened flat plate corresponding to the network address in the test set at the same time. The command word may be 0x81, etc.
At step 318, the backlight adjustment value is increased by 5.
The method for detecting the backlight adjustment is applied to the backlight adjustment of the detection reinforced panel, the network address is distributed to the reinforced panel by establishing a communication link with the reinforced panel, the network address of the reinforced panel is classified into the same test set, and the command word, the function mark and the backlight adjustment value are sent to the reinforced panel corresponding to the network address in the same test set to carry out the backlight adjustment test, so that the backlight adjustment test is simultaneously carried out on a plurality of reinforced panels, and compared with the traditional one-by-one test, the test efficiency is improved.
It should be noted that, the specific application of the method for detecting backlight adjustment is to exemplify the reinforced flat plate, but the method is not limited to the present invention, and the method can also be applied to backlight adjustment detection of many devices.
FIG. 4 is a flow chart of a method of detecting backlight adjustment in another embodiment. As shown in fig. 4, a method for detecting backlight adjustment, described in terms of the tested end, includes the following steps:
Specifically, the tested terminal and the testing terminal establish a communication link, and acquire a network address (such as an IP address) allocated by the testing terminal for the tested terminal.
Specifically, the tested end receives a command word, a function flag and a backlight adjustment value sent by the testing end to the tested end corresponding to the network address in the test set. The command word represents a write command, which may be 0x81, and represents that the test server software is going to perform a write data operation on the tested terminals in the test set. The function flag is a function indicating that the tested terminal in the test set is to be operated, and may be 0x 45. The value range of the backlight adjustment value is determined as required, for example, 0 to 100, which represents the specific backlight adjustment value of the tested terminal, that is, the specific backlight setting value written into the backlight adjustment function of the tested terminal in the test set. And the tested end performs backlight adjustment according to the received backlight adjustment value. The test set comprises network addresses of one or more tested terminals.
And 406, performing backlight adjustment according to the received backlight adjustment value.
Specifically, after the tested end receives the backlight adjustment value, the backlight is adjusted according to the backlight adjustment value, that is, the current backlight value is adjusted to the received backlight adjustment value.
Specifically, the backlight threshold may be set as needed. The backlight threshold may be a maximum value of a range of values of the backlight adjustment value.
Specifically, the predetermined value may be set as desired, such as 1, 2, 3, 4, 5, etc.
If the backlight of the tested end is changed from dark to bright in stages according to the received backlight adjusting value from small to large, the backlight adjusting function of the tested end is normal, otherwise, the backlight adjusting function of the tested end is abnormal.
According to the method for detecting the backlight adjustment, after the tested end and the testing end establish the communication link, the command word, the function mark and the backlight adjustment value which are sent to the tested end corresponding to the network address in the test set by the testing end are received, and the backlight adjustment is carried out according to the backlight adjustment value, so that the backlight adjustment test is simultaneously carried out on a plurality of tested ends, and compared with the traditional one-by-one test, the test efficiency is improved.
In one embodiment, the method for detecting backlight adjustment further includes: after the step of receiving the command word, the function mark and the backlight adjusting value sent by the test end according to the network address, the command word is sent to the command port, the function mark is sent to the control port, and the backlight adjusting value is sent to the data port.
Specifically, the command port is used for storing command words correspondingly, the control port is used for storing function marks correspondingly, and the data port is used for storing backlight adjustment values correspondingly. The command port, control port and data port may set registers for storing corresponding data.
In one embodiment, the method for detecting backlight adjustment further includes: after the test is finished, the command word is sent to the command port, the functional mark is sent to the control port, and the default data is sent to the data port.
Specifically, the default data means that no arbitrary value is set.
In one embodiment, the method for detecting backlight adjustment further includes: after the test is finished, the command word is sent to the command port, the function mark is sent to the control port, and the default backlight adjusting value is sent to the data port.
Specifically, the default backlight adjustment value may be set by the manufacturer itself or set to a backlight value that is commonly used by most users, and the like.
FIG. 5 is a flowchart illustrating a specific application of the method for detecting backlight adjustment in another embodiment. As shown in fig. 5, the method for detecting backlight adjustment is applied to backlight adjustment detection of a ruggedized flat panel, where a backlight adjustment value range is 0 to 100, a predetermined value is 5, and is described by a ruggedized flat panel angle, and the method specifically includes the following steps:
And step 508, receiving the function mark sent by the test end according to the network address in the test set.
And step 512, receiving the backlight adjusting value sent by the testing end according to the testing centralized network address.
Step 518 sends the command word to the command port.
According to the method for detecting the backlight adjustment, after the communication link is established between the reinforcing flat plate and the test end, the command words, the function marks and the backlight adjustment values sent by the test end to the reinforcing flat plate corresponding to the network address in the test set are received, and the backlight adjustment is carried out according to the backlight adjustment values, so that the backlight adjustment test is carried out on a plurality of reinforcing flat plates at the same time, and compared with the traditional one-by-one test, the test efficiency is improved. After the test is finished, the backlight adjusting value of the reinforcement panel in the test set is set as default data, and the backlight adjusting value can be adjusted by a user according to the requirement.
FIG. 6 is a block diagram of the test side in one embodiment. As shown in fig. 6, a testing terminal includes an address assignment module 610, an aggregation module 620, a sending module 630, an increment module 640, and a determination module 650. Wherein:
the address assignment module 610 is configured to establish a communication link with a tested end and assign a corresponding network address to the tested end.
Specifically, the testing end establishes a communication link with the tested end, and the address assignment module 610 of the testing end assigns a corresponding network address (IP address) to the tested end. In addition, the test end can establish a communication link with the tested end through the switch.
The collection module 620 is used to collect the network addresses of the tested terminals into the same test set.
Specifically, network addresses of a plurality of tested terminals are classified into the same test set. The number of the tested terminals in the same test set may be determined according to the number of the switch ports, etc., and may be, for example, 5, but is not limited thereto.
The sending module 630 is configured to send the command word, the function flag, and the backlight adjustment value to the tested end corresponding to the network address in the test set at the same time.
Specifically, the test end may send a command word, a function flag, and a backlight adjustment value to a tested end corresponding to a network address in the test set. The command word represents a write command, which may be 0x81, and represents that the test server software is going to perform a write data operation on the tested terminals in the test set. The function flag is a function indicating that the tested terminal in the test set is to be operated, and may be 0x 45. The value range of the backlight adjustment value is determined as required, for example, 0 to 100, which represents the specific backlight adjustment value of the tested terminal, that is, the specific backlight setting value written into the backlight adjustment function of the tested terminal in the test set. And the tested end performs backlight adjustment according to the received backlight adjustment value.
The incrementing module 640 is configured to increment the backlight adjustment value by a predetermined value each time the command word, the function flag, and the backlight adjustment value are successfully transmitted.
Specifically, the predetermined value may be set as desired, such as 1, 2, 3, 4, 5, etc.
The determining module 650 is configured to determine whether the backlight adjustment value after the predetermined value is incremented exceeds a backlight threshold, if so, the test is ended, and if not, the sending module 630 continues to send the command word, the function flag, and the backlight adjustment value after the predetermined value is incremented to the test set.
Specifically, the backlight threshold may be set as needed. The backlight threshold may be a maximum value of a range of values of the backlight adjustment value.
The testing end allocates the network address to the tested end by establishing the communication link with the tested end, puts the network address of the tested end into the same testing set, and sends the command word, the function mark and the backlight adjusting value to the tested end corresponding to the network address in the same testing set to perform backlight adjusting test, so that the backlight adjusting test is simultaneously performed on a plurality of tested ends, and the testing efficiency is improved compared with the traditional one-by-one test.
FIG. 7 is a block diagram of the structure of the tested terminal in one embodiment. As shown in fig. 7, a dut includes an address obtaining module 710, a receiving module 720, an adjusting module 730, and a comparing module 740. Wherein:
the address obtaining module 710 is configured to establish a communication link with a testing end, and obtain a network address allocated by the testing end for a tested end.
Specifically, the tested terminal and the testing terminal establish a communication link, and acquire a network address (such as an IP address) allocated by the testing terminal for the tested terminal.
The receiving module 720 is used for receiving the command word, the function flag and the backlight adjusting value sent by the testing terminal according to the network address in the testing set.
Specifically, the receiving module 720 of the tested end receives the command word, the function flag and the backlight adjustment value sent by the testing end to the tested end corresponding to the network address in the test set. The command word represents a write command, which may be 0x81, and represents that the test server software is going to perform a write data operation on the tested terminals in the test set. The function flag is a function indicating that the tested terminal in the test set is to be operated, and may be 0x 45. The value range of the backlight adjustment value is determined as required, for example, 0 to 100, which represents the specific backlight adjustment value of the tested terminal, that is, the specific backlight setting value written into the backlight adjustment function of the tested terminal in the test set. And the tested end performs backlight adjustment according to the received backlight adjustment value. The test set comprises network addresses of one or more tested terminals.
The adjusting module 730 is configured to perform backlight adjustment according to the received backlight adjustment value.
Specifically, after the tested end receives the backlight adjustment value, the backlight is adjusted according to the backlight adjustment value, that is, the current backlight value is adjusted to the received backlight adjustment value.
The comparing module 740 is configured to determine whether the backlight adjustment value exceeds a backlight threshold, if so, the test is ended, and if not, the receiving module 720 continues to receive the command word and the function flag simultaneously sent by the testing end according to the network address and the backlight adjustment value after increasing the predetermined value.
Specifically, the backlight threshold may be set as needed. The backlight threshold may be a maximum value of a range of values of the backlight adjustment value.
The predetermined value may be set as desired, such as 1, 2, 3, 4, 5, etc.
If the backlight of the tested end changes from dark to light according to the received backlight adjusting value from small to large, the backlight adjusting function of the tested end is normal, otherwise, the backlight adjusting function of the tested end is abnormal.
After the tested end and the testing end establish a communication link, the tested end receives the command word, the function mark and the backlight adjusting value which are sent by the testing end to the tested end corresponding to the network address in the test set, and performs backlight adjustment according to the backlight adjusting value, so that backlight adjustment testing is performed on a plurality of tested ends at the same time, and compared with the traditional one-by-one testing, the testing efficiency is improved.
Fig. 8 is a block diagram of the structure of a tested terminal in another embodiment. As shown in fig. 8, the tested terminal includes a first transmission module 750 in addition to the address obtaining module 710, the receiving module 720, the adjusting module 730, and the comparing module 740.
The first transmission module 750 is configured to send the command word to the command port, send the function flag to the control port, and send the backlight adjustment value to the data port after receiving the command word, the function flag, and the backlight adjustment value sent by the test end according to the network address.
Specifically, the command port is used for storing command words correspondingly, the control port is used for storing function marks correspondingly, and the data port is used for storing backlight adjustment values correspondingly. The command port, control port and data port may set registers for storing corresponding data.
Fig. 9 is a block diagram of the structure of a tested terminal in another embodiment. As shown in fig. 9, the tested terminal includes a second transmission module 760 in addition to the address obtaining module 710, the receiving module 720, the adjusting module 730, and the comparing module 740.
The second transmission module 760 is configured to send the command word to the command port, send the function flag to the control port, and send the default data to the data port after the test is finished.
Specifically, the default data means that no arbitrary value is set.
Fig. 10 is a block diagram of the structure of a tested terminal in another embodiment. As shown in fig. 10, the tested terminal includes a third transmission module 770 in addition to the address obtaining module 710, the receiving module 720, the adjusting module 730, and the comparing module 740.
The third transmission module 770 is used to send the command word to the command port, send the function flag to the control port, and send the default backlight adjustment value to the data port after the test is finished.
Specifically, the default backlight adjustment value may be set by the manufacturer itself or set to a backlight value that is commonly used by most users, and the like.
It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), or the like.
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 present 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 (12)
1. A method of detecting backlight adjustment, comprising:
establishing a communication link with a tested end through a switch, and distributing a corresponding network address for the tested end;
the network addresses of the tested ends are classified into the same test set; the number of the network addresses of the tested terminals in the same test set is determined according to the number of the ports of the switch;
simultaneously sending command words, function marks and backlight adjusting values to tested terminals corresponding to the network addresses in the test set;
each time the command word, the function mark and the backlight adjustment value are successfully sent, the backlight adjustment value is increased by a preset value;
judging whether the backlight adjusting value after the preset value is increased exceeds a backlight threshold value, if so, finishing the test, and if not, continuously sending command words, function marks and the backlight adjusting value after the preset value is increased to the test set;
the command word is used for indicating a write command and representing the test end to perform data writing operation on the tested end; the function mark is used for indicating the backlight adjusting function of the tested end to be operated; the backlight adjusting value is used for representing a specific value of the backlight adjusting function written into the tested end, and the tested end performs backlight adjustment according to the received backlight adjusting value;
the method for detecting backlight adjustment is used for backlight adjustment test of the reinforced panel.
2. A method of detecting backlight adjustment, comprising:
establishing a communication link with a test end through a switch to acquire a network address distributed by the test end as a tested end;
receiving a command word, a function mark and a backlight adjusting value sent by a test end according to the network address in the test set; the test set comprises network addresses of tested terminals, and the number of the network addresses of the tested terminals in the same test set is determined according to the number of ports of the switch;
carrying out backlight adjustment according to the received backlight adjustment value;
judging whether the backlight adjusting value exceeds a backlight threshold value, if so, finishing the test, and if not, continuously receiving command words, function marks and the backlight adjusting value after increasing a preset value, which are simultaneously sent by the test terminal according to the network address;
the command word is used for indicating a write command and representing the test end to perform data writing operation on the tested end; the function mark is used for indicating the backlight adjusting function of the tested end to be operated; the backlight adjusting value is used for representing a specific value of the backlight adjusting function written into the tested end, and the tested end performs backlight adjustment according to the received backlight adjusting value;
the method for detecting backlight adjustment is used for backlight adjustment test of the reinforced panel.
3. The method for detecting backlight adjustment according to claim 2, wherein after the step of receiving the command word, the function flag and the backlight adjustment value sent by the testing terminal according to the network address, the method further comprises:
sending the command word to a command port;
sending the function mark to a control port;
sending the backlight adjustment value to a data port.
4. The method of detecting backlight adjustment of claim 2, further comprising:
after the test is finished, the command word is sent to the command port, the functional mark is sent to the control port, and the default data is sent to the data port.
5. The method of detecting backlight adjustment of claim 2, further comprising:
and after the test is finished, sending the command word to a command port, sending a function mark to a control port, and sending a default backlight adjusting value to a data port.
6. A test tip, comprising:
the address allocation module is used for establishing a communication link with a tested end through a switch and allocating a corresponding network address to the tested end;
the collection module is used for collecting the network addresses of the tested terminals into the same test set; the number of the network addresses of the tested terminals in the same test set is determined according to the number of the ports of the switch;
the sending module is used for simultaneously sending command words, function marks and backlight adjusting values to the tested end corresponding to the network address in the test set;
the increasing module is used for increasing the backlight adjusting value by a preset value every time the command word, the function mark and the backlight adjusting value are successfully sent;
the judging module is used for judging whether the backlight adjusting value after the preset value is increased exceeds a backlight threshold value, if so, the test is finished, and if not, the sending module continues to send the command word, the function mark and the backlight adjusting value after the preset value is increased to the test set;
the command word is used for indicating a write command and representing the test end to perform data writing operation on the tested end; the function mark is used for indicating the backlight adjusting function of the tested end to be operated; the backlight adjusting value is used for representing a specific value of the backlight adjusting function written into the tested end, and the tested end performs backlight adjustment according to the received backlight adjusting value;
the method for detecting the backlight adjustment executed by the test terminal is used for backlight adjustment test of the reinforced panel.
7. A tested terminal, comprising:
the address acquisition module is used for establishing a communication link with the test terminal through the switch and acquiring a network address distributed by the test terminal as a tested terminal;
the receiving module is used for receiving the command words, the function marks and the backlight adjusting values sent by the testing end according to the network addresses in the testing set; the test set comprises network addresses of tested terminals, and the number of the network addresses of the tested terminals in the same test set is determined according to the number of ports of the switch;
the adjusting module is used for adjusting backlight according to the received backlight adjusting value;
the comparison module is used for judging whether the backlight adjusting value exceeds a backlight threshold value, if so, the test is finished, and if not, the receiving module continues to receive the command words, the function marks and the backlight adjusting value after the preset value is increased, which are simultaneously sent by the test end according to the network address;
the command word is used for indicating a write command and representing the test end to perform data writing operation on the tested end; the function mark is used for indicating the backlight adjusting function of the tested end to be operated; the backlight adjusting value is used for representing a specific value of the backlight adjusting function written into the tested end, and the tested end performs backlight adjustment according to the received backlight adjusting value;
the method for detecting backlight adjustment executed by the tested terminal is used for backlight adjustment test of the reinforced panel.
8. The dut according to claim 7, wherein the dut further comprises:
and the first transmission module is used for sending the command word to a command port, sending the function mark to a control port and sending the backlight adjustment value to a data port after receiving the command word, the function mark and the backlight adjustment value sent by the test end according to the network address.
9. The dut according to claim 7, wherein the dut further comprises:
and the second transmission module is used for sending the command word to the command port, sending the functional mark to the control port and sending default data to the data port after the test is finished.
10. The dut according to claim 7, wherein the dut further comprises:
and the third transmission module is used for sending the command word to the command port, sending the function mark to the control port and sending the default backlight adjustment value to the data port after the test is finished.
11. A computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform the steps of the method of claim 1 or any of claims 2-5.
12. A computer device comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of the method of claim 1 or any of claims 2-5.
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