CN103033705A - Test method and test system of electronic equipment - Google Patents

Abstract

The invention discloses a test method and a test system of electronic equipment, and the test method and the test system of the electronic equipment can improve test efficiency. The test method includes: a test acquisition module in the electronic equipment to be tested tests the electronic equipment to be tested and obtains test data, the test acquisition module codes the test data to obtain coded signals and sends the coded signals to a test device through a communication network, and the test device enables the coded signals to revert to the test data and generates test results according to the test data. The invention further provides the test system of the electronic equipment. The test method and the test system of the electronic equipment can improve the test efficiency effectively.

Description

A kind of electronic equipment method of testing and system

Technical field

The present invention relates to the communications field, relate in particular to a kind of electronic equipment method of testing and system.

Background technology

Along with automobile popularizing at home, the user also has higher requirement to the function of vehicle electronics product, and for example present vehicle-carrying DVD equipment can have been realized the function enriched very much, and increasing producer also puts in the production of vehicle electronics product.

In order to improve the quality of product, vehicle electronics product is before putting into market, need through strict test, comprise Software function test, hardware capability test etc., traditional method of testing is by manually carrying out operation supervise and control, and record detecting information, but need like this labor intensive, and test process is slow, has affected greatly testing efficiency.

Summary of the invention

The embodiment of the invention provides a kind of electronic equipment method of testing and system, can improve testing efficiency.

The electronic equipment method of testing that the embodiment of the invention provides comprises:

Test acquisition module in the electronic equipment to be measured is tested described electronic equipment to be measured, obtains test data;

Described test acquisition module is encoded to described test data and is obtained coded signal;

Described test acquisition module is sent to proving installation by communication network with described coded signal;

Described proving installation reverts to test data with described coded signal;

Described proving installation generates test result according to described test data.

Alternatively, described test acquisition module is encoded to described test data and is obtained coded signal and comprise:

Described test acquisition module carries out the dual tone multi-frequency dtmf coding to described test data and obtains dtmf signal.

Alternatively, the test acquisition module in the described electronic equipment to be measured is tested described electronic equipment to be measured, obtains test data and comprises:

Described test acquisition module is tested a function of described electronic equipment to be measured, preservation ephemeral data after test is finished;

Described test acquisition module is tested the next function of described electronic equipment to be measured according to the priority orders that presets, and preserves ephemeral data, until test the repertoire of described electronic equipment to be measured;

Described test acquisition module with described ephemeral data as described test data.

Alternatively, described proving installation reverts to test data with described coded signal and comprises:

DTMF chip in the described proving installation is resolved the dtmf signal that receives and is obtained corresponding binary-coded decimal signal;

Described DTMF chip is inputted testing analysis module in the described proving installation with described binary-coded decimal signal;

Described testing analysis module adopts the decoding algorithm that presets that described binary-coded decimal signal is converted to described test data.

Alternatively, described proving installation comprises according to described test data generation test result:

Described proving installation compares described test data and standard reference data;

Obtain test result according to comparative result.

Alternatively, described proving installation comprises after generating test result according to described test data:

Described proving installation is showed described test result by presentation device to the user.

The Testing System for Electronic Equipment that the embodiment of the invention provides comprises:

Electronic equipment to be measured and proving installation comprise the test acquisition module in the described electronic equipment to be measured;

Described test acquisition module is used for described electronic equipment to be measured is tested, and obtains test data, and described test data is encoded obtains coded signal, by communication network described coded signal is sent to proving installation;

Described proving installation is used for described coded signal is reverted to test data, and generates test result according to described test data.

Alternatively, described test acquisition module specifically obtains dtmf signal for described test data being carried out the dual tone multi-frequency dtmf coding.

Alternatively, described proving installation comprises:

DTMF chip and testing analysis module;

Described DTMF chip is used for the dtmf signal that receives is resolved the binary-coded decimal signal that obtains correspondence, with described binary-coded decimal signal input test analysis module;

Described testing analysis module is used for adopting the decoding algorithm that presets that described binary-coded decimal signal is converted to described test data.

Alternatively, described Testing System for Electronic Equipment also comprises:

Presentation device;

Described proving installation also is used for showing described test result by described presentation device to the user.

As can be seen from the above technical solutions, the embodiment of the invention has the following advantages:

In the embodiment of the invention, test acquisition module in the electronic equipment to be measured can be tested electronic equipment to be measured, obtain test data, and after this test data encoded, be sent to proving installation by communication network, carry out the process that data are recovered and generated test result by proving installation, so the test process of electronic equipment to be measured be need not artificial participation, can automatically be finished by test acquisition module and proving installation, therefore can improve testing efficiency.

Description of drawings

Fig. 1 is embodiment synoptic diagram of electronic equipment method of testing in the embodiment of the invention;

Fig. 2 is another embodiment synoptic diagram of electronic equipment method of testing in the embodiment of the invention;

Fig. 3 is embodiment synoptic diagram of Testing System for Electronic Equipment in the embodiment of the invention;

Fig. 4 is another embodiment synoptic diagram of Testing System for Electronic Equipment in the embodiment of the invention.

Embodiment

The embodiment of the invention provides a kind of electronic equipment method of testing and system, can improve testing efficiency.

See also Fig. 1, embodiment of electronic equipment method of testing comprises in the embodiment of the invention:

101, the test acquisition module in the electronic equipment to be measured is tested electronic equipment to be measured;

In the present embodiment, when needs were tested electronic equipment to be measured, the test acquisition module in this electronic equipment to be measured can directly be tested this electronic equipment to be measured and obtain test data.

102, the test acquisition module is encoded to test data and is obtained coded signal;

The test acquisition module can obtain test data after electronic equipment to be measured is tested, and then tests acquisition module and can encode to this test data and obtain coded signal.

Need to prove that in the present embodiment, the test acquisition module can be encoded to test data with various ways, as long as so that the coded signal behind the coding can transmit, specifically do not do restriction herein in communication network.

103, the test acquisition module is sent to proving installation by communication network with coded signal;

The test acquisition module to test data encode obtain coded signal after, can this coded signal be sent to by communication network the proving installation of far-end.

In actual applications, this communication network can be cable network or wireless network, does not specifically do restriction herein.

104, proving installation reverts to test data with coded signal;

Proving installation, can be decoded to this coded signal, thereby it is reverted to test data after the test acquisition module gets access to coded signal by communication network.

Need to prove that in the present embodiment, proving installation is corresponding to the cataloged procedure of test data with the test acquisition module to the decode procedure of coded signal, is inverse process.

105, proving installation generates test result according to test data.

When proving installation coded signal is decoded obtain test data after, this test data and standard reference data can be compared, thereby obtain test result according to comparative result.

In the present embodiment, test acquisition module in the electronic equipment to be measured can be tested electronic equipment to be measured, obtain test data, and after this test data encoded, be sent to proving installation by communication network, carry out the process that data are recovered and generated test result by proving installation, so the test process of electronic equipment to be measured be need not artificial participation, can automatically be finished by test acquisition module and proving installation, therefore can improve testing efficiency.

For ease of understanding, the below is described in detail the electronic equipment method of testing in the embodiment of the invention with an object lesson, sees also Fig. 2, and another embodiment of electronic equipment method of testing comprises in the embodiment of the invention:

201, built-in test acquisition module is tested certain function of vehicle-carrying DVD equipment in the vehicle-carrying DVD equipment;

In the present embodiment, when needs during to the vehicle-carrying DVD testing equipment, the test acquisition module in this vehicle-carrying DVD equipment can directly be tested certain function of this vehicle-carrying DVD equipment.

Need to prove, only describe with the example of vehicle-carrying DVD equipment as electronic equipment in the present embodiment, in actual applications, except vehicle-carrying DVD equipment, can also be the electronic equipment of other types, does not specifically do restriction herein.

In the present embodiment, the test acquisition module can be tested software function and/or the hardware capability of vehicle-carrying DVD equipment, for example tests acquisition module and can test the screen intensity regulatory function of vehicle-carrying DVD equipment.

202, preserve ephemeral data;

In the present embodiment, after the test acquisition module is finished certain functional test of vehicle-carrying DVD equipment, the data that test can be obtained are preserved as ephemeral data, after for example testing acquisition module and can testing the screen intensity regulatory function of vehicle-carrying DVD equipment, the adjustable extent that can know the screen intensity of this vehicle-carrying DVD equipment is " 255 to 255 ", then tests acquisition module and these data can be preserved as ephemeral data.

203, judge whether to test into repertoire, if then execution in step 204, if repeated execution of steps 201;

In the present embodiment, the test acquisition module can be tested the various functions of vehicle-carrying DVD equipment one by one according to the priority orders that presets, and whenever tests one and can judge whether to test into repertoire, if, then carry out subsequent step, if not, then repeating step 201 is proceeded test.

For example after the test acquisition module is finished certain functional test of vehicle-carrying DVD equipment, judge and do not test repertoire, then continue to return the next function of step 201 test vehicle-carrying DVD equipment, be assumed to be the descant amount of test vehicle-carrying DVD equipment, after the test, the descant amount that can know this vehicle-carrying DVD equipment is " 40 decibels ", then continues these data are preserved as ephemeral data.

Only describe as example to test two functions, in actual applications, the test acquisition module can also be tested the greater functionality of vehicle-carrying DVD equipment, does not specifically do restriction herein herein.

204, ephemeral data is carried out dual-tone multifrequency (DTMF, Double Tone MultiFrequency) coding as test data and obtain dtmf signal;

In the present embodiment, when the test acquisition module determine repertoire all tested finish after, can be with ephemeral data as test data, and this test data is carried out dtmf code obtain dtmf signal.

Need to prove that the test acquisition module can be encoded to test data with various ways, as long as so that the coded signal behind the coding can transmit, specifically do not do restriction herein in communication network, only describe as an example of dtmf code example.

For ease of understanding, the below carries out brief description to the detailed process of dtmf code:

DTMF is that it has very strong antijamming capability and higher transmission speed, therefore, can be widely used in the telephone communication system as a kind of technology that realizes the transmission of telephone number fast and reliable.But the overwhelming majority is the voice-frequency dialing as phone.In addition, it also can be used for realizing the remote transmission of the information such as various data stream and voice widely in data communication system, can be applied to the real-time Transmission test data in the present embodiment.

Dtmf code is to represent digital signal to realize a kind of coding techniques of its function with two specific single audio frequency composite signals.The frequency of two single audio frequency is different, and the numeral of representative or the function that realizes are also different.16 buttons are arranged in this telephone set usually, 10 numerical keys 0～9 and 6 function key *, #, A, B, C, D are wherein arranged.Owing to according to combination principle, 8 kinds of different single audio signals should be arranged generally.Therefore adoptable frequency also has 8 kinds, so be referred to as multifrequency.

According to the suggestion of the CCITT of CCITT, the multi-frequency that adopts in the world is 8 kinds of 687Hz, 770Hz, 852Hz, 941Hz, 1209Hz, 1336Hz, 1477Hz and 1633Hz etc.16 kinds of different combinations be can form with these 8 kinds of frequencies, thereby 16 kinds of different numerals or function key represented.

Dtmf signal is made of the sound signal stack of two frequencies.The frequency of these two sound signals is from two groups of preallocated group of frequencies: line frequency group or row are group frequently, every numeral of the unique expression of a pair of such sound signal or symbol.Produce the later waveform that forms of sine-wave superimposed that dtmf signal namely utilizes two different frequencies.

When program need to produce a dtmf tone frequency word signal, can read the file that has recorded.

Present embodiment can adopt the single dtmf tone frequency of algorithm routine Dynamic Generation word signal, specifically can be obtained by the sine-wave superimposed of two different frequencies, and following is detailed process:

Simple sinusoidal wave formula: the sample=sin (n*2*PI*f/samplerate) that generates;

In above-mentioned formula, n begins to increase progressively by 0 for the sampling ordinal number; F is sinusoidal wave frequency; Samplerate is sample frequency, the sampled value that draws when sample is ordinal number n.

Be 8000hz if generate a sample frequency, sample bits is the dtmf signal of 8bit, then can adopt following formula:

sample(n)=128+63*sin(n*2*pi*f1/8000)+63*sin(n*2*pi*f2/8000)

In above-mentioned formula, f1 and f2 are respectively two sine wave freuqencies of this dtmf signal.

By above-mentioned mode, thereby just can carrying out dtmf code to test data, the test acquisition module obtains dtmf signal.

205, the test acquisition module is sent to proving installation by communication network with dtmf signal;

In the present embodiment, the test acquisition module carries out dtmf code to test data and obtains can dtmf signal being sent to proving installation by communication network after the dtmf signal.

Concrete, the test acquisition module can be opened the audio output device of vehicle-carrying DVD equipment, and write dtmf signal to the audio output device of this vehicle-carrying DVD equipment, in communication network, carry out audio transmission by this audio output device again, thereby arrive in the proving installation.

Need to prove that concrete communication network can be cable network, for example LAN (Local Area Network) or fixed telephone network also can be wireless network, and such as blueteeth network, Radio Access Network, 3G network etc. specifically do not done restriction herein.

206, the DTMF chip in the proving installation is resolved dtmf signal and is obtained corresponding binary-coded decimal signal;

In the present embodiment, after dtmf signal was transferred in the proving installation by communication network, the DTMF chip in the proving installation can be resolved dtmf signal and be obtained corresponding binary-coded decimal signal.

Concrete, the DTMF chip receives after the dtmf signal of self-test acquisition module output, can 16 kinds of dtmf signals that receive be detected and decode, thereby form 4 binary-coded decimal signal outputs that represent different digital.

207, testing analysis module adopts the decoding algorithm that presets that the binary-coded decimal signal is converted to test data;

When the DTMF chip is resolved the binary-coded decimal signal that obtains correspondence to dtmf signal after, this binary-coded decimal signal can be transfused to the testing analysis module in the proving installation, then this testing analysis module can be converted to test data with the binary-coded decimal signal to the decoding algorithm that employing is preset, and concrete decoding algorithm is not done restriction herein.

In the present embodiment, testing analysis module adopts the decoding algorithm that presets the binary-coded decimal signal can be converted to test data, thereby know the test data that the test acquisition module collects, i.e. " adjustable extent of the screen intensity of vehicle-carrying DVD equipment is-255 to 255, and the descant amount of vehicle-carrying DVD equipment is 40 decibels ".

208, proving installation compares test data and standard reference data and obtains test result;

In the present embodiment, after testing analysis module was known the test data that collects of test acquisition module, then this proving installation can compare test data and standard reference data and obtain test result.

Concrete, suppose that the standard reference data of adjustable extent that proving installation inquires the screen intensity of vehicle-carrying DVD equipment is-250 ± 6 to 250 ± 6, the adjustable extent that then can know the screen intensity of vehicle-carrying DVD equipment is tested and is passed through.

In addition, suppose that the standard reference data that proving installation inquires the descant amount of vehicle-carrying DVD equipment is 45 decibels to 55 decibels, the descant that then can know the screen intensity of vehicle-carrying DVD equipment measures examination not to be passed through.

209, proving installation is showed test result by presentation device to the user.

When proving installation test data and standard reference data are compared obtain test result after, can show this test result to the user by exhibiting device.

This exhibiting device can be PC in actual applications, or panel computer, or mobile phone etc., specifically do not do restriction herein.

In the present embodiment, test acquisition module in the electronic equipment to be measured can be tested electronic equipment to be measured, obtain test data, and after this test data encoded, be sent to proving installation by communication network, carry out the process that data are recovered and generated test result by proving installation, so the test process of electronic equipment to be measured be need not artificial participation, can automatically be finished by test acquisition module and proving installation, therefore can improve testing efficiency.

The above is described the electronic equipment method of testing in the embodiment of the invention, and the below is described the Testing System for Electronic Equipment in the embodiment of the invention, sees also Fig. 3, and embodiment of the Testing System for Electronic Equipment in the embodiment of the invention comprises:

Electronic equipment 301 to be measured and proving installation 302 comprise test acquisition module 303 in this electronic equipment 301 to be measured;

This test acquisition module 303 is used for this electronic equipment 301 to be measured is tested, and obtains test data, and this test data is encoded obtains coded signal, by communication network this coded signal is sent to proving installation 302;

This proving installation 302 is used for this coded signal is reverted to test data, and generates test result according to this test data.

In the present embodiment, test acquisition module 303 in the electronic equipment 301 to be measured can be tested electronic equipment 301 to be measured, obtain test data, and after this test data encoded, be sent to proving installation 302 by communication network, carry out the process that data are recovered and generated test result by proving installation 302, so the test process to electronic equipment 301 to be measured need not artificial participation, can automatically be finished with proving installation 302 by test acquisition module 303, therefore can improve testing efficiency.

For ease of understanding, the below is elaborated to the Testing System for Electronic Equipment in the embodiment of the invention with an instantiation, sees also Fig. 4, and another embodiment of the Testing System for Electronic Equipment in the embodiment of the invention comprises:

Vehicle-carrying DVD equipment 401 and proving installation 402 comprise test acquisition module 403 in the vehicle-carrying DVD equipment 401;

This test acquisition module 403 is used for vehicle-carrying DVD equipment 401 is tested, and obtains test data, this test data is carried out dtmf code obtain dtmf signal, by communication network this dtmf signal is sent to proving installation 402;

This proving installation 402 is used for this coded signal is reverted to test data, and generates test result according to this test data.

Proving installation 402 in the present embodiment comprises:

DTMF chip 4021 and testing analysis module 4022;

This DTMF chip 4021 is used for the dtmf signal that receives is resolved the binary-coded decimal signal that obtains correspondence, with this binary-coded decimal signal input test analysis module 4022;

This testing analysis module 4022 is used for adopting the decoding algorithm that presets that this binary-coded decimal signal is converted to this test data.

Testing System for Electronic Equipment in the present embodiment can further include:

Presentation device 404;

This proving installation 402 also is used for showing this test result by this presentation device 404 to the user.

The below is described the reciprocal process between each equipment in the present embodiment with a practical application scene:

In the present embodiment, when needs were tested vehicle-carrying DVD equipment 401, the test acquisition module 403 in this vehicle-carrying DVD equipment 401 can directly be tested certain function of this vehicle-carrying DVD equipment 401.

Need to prove, only describe with the example of vehicle-carrying DVD equipment 401 as electronic equipment in the present embodiment, in actual applications, except vehicle-carrying DVD equipment 401, can also be the electronic equipment of other types, does not specifically do restriction herein.

In the present embodiment, test acquisition module 403 can be tested software function and/or the hardware capability of vehicle-carrying DVD equipment 401, for example tests acquisition module 403 and can test the screen intensity regulatory function of vehicle-carrying DVD equipment.

In the present embodiment, after certain functional test of 403 pairs of vehicle-carrying DVD equipment 401 of test acquisition module is finished, the data that test can be obtained are preserved as ephemeral data, after for example testing acquisition module 403 and can testing the screen intensity regulatory function of vehicle-carrying DVD equipment 401, the adjustable extent that can know the screen intensity of this vehicle-carrying DVD equipment 401 is " 255 to 255 ", then tests acquisition module 403 and these data can be preserved as ephemeral data.

Test acquisition module 403 can be tested the various functions of vehicle-carrying DVD equipment 401 one by one according to the priority orders that presets, whenever test one and can judge whether to test into repertoire, if then carry out subsequent step, if not, then proceed test.

For example after certain functional test of 403 pairs of vehicle-carrying DVD equipment 401 of test acquisition module is finished, judge and do not test repertoire, then continue the next function of test vehicle-carrying DVD equipment 401, be assumed to be the descant amount of test vehicle-carrying DVD equipment 401, after the test, the descant amount that can know this vehicle-carrying DVD equipment 401 is " 40 decibels ", then continues these data are preserved as ephemeral data.

Only describe as example to test two functions, in actual applications, test acquisition module 403 can also be tested the greater functionality of vehicle-carrying DVD equipment, does not specifically do restriction herein herein.

In the present embodiment, when test acquisition module 403 determine repertoires all tested finish after, can be with ephemeral data as test data, and this test data is carried out dtmf code obtain dtmf signal.

Need to prove that test acquisition module 403 can be encoded to test data with various ways, as long as so that the coded signal behind the coding can transmit, specifically do not do restriction herein in communication network, only describe as an example of dtmf code example.

In the present embodiment, 403 pairs of test datas of test acquisition module are carried out dtmf code and are obtained after the dtmf signal, can dtmf signal be sent to proving installation 402 by communication network.

Concrete, test acquisition module 403 can be opened the audio output device of vehicle-carrying DVD equipment 401, and write dtmf signal to the audio output device of this vehicle-carrying DVD equipment 401, in communication network, carry out audio transmission by this audio output device again, thereby arrive in the proving installation 402.

Need to prove that concrete communication network can be cable network, for example LAN (Local Area Network) or fixed telephone network also can be wireless network, and such as blueteeth network, Radio Access Network, 3G network etc. specifically do not done restriction herein.

In the present embodiment, when dtmf signal was transferred in the proving installation 402 by communication network after, the DTMF chip 4021 in the proving installation 402 can be resolved dtmf signal and be obtained corresponding binary-coded decimal signal.

Concrete, DTMF chip 4021 receives after the dtmf signal of self-test acquisition module 403 outputs, can 16 kinds of dtmf signals that receive be detected and decode, thereby form 4 binary-coded decimal signal outputs that represent different digital.

After 4021 pairs of dtmf signals of DTMF chip are resolved the binary-coded decimal signal that obtains correspondence, this binary-coded decimal signal can be transfused to the testing analysis module 4022 in the proving installation 402, then this testing analysis module 4022 can be converted to test data with the binary-coded decimal signal to the decoding algorithm that employing is preset, and concrete decoding algorithm is not done restriction herein.

In the present embodiment, testing analysis module 4022 adopts the decoding algorithm that presets the binary-coded decimal signal can be converted to test data, thereby know the test data that test acquisition module 403 collects, i.e. " adjustable extent of the screen intensity of vehicle-carrying DVD equipment is-255 to 255, and the descant amount of vehicle-carrying DVD equipment is 40 decibels ".

In the present embodiment, after testing analysis module 4022 was known the test data that test acquisition module collection 403 arrives, then this proving installation 402 can compare test data and standard reference data and obtain test result.

Concrete, suppose that the standard reference data of adjustable extent that proving installation 402 inquires the screen intensity of vehicle-carrying DVD equipment 401 is-250 ± 6 to 250 ± 6, the adjustable extent that then can know the screen intensity of vehicle-carrying DVD equipment 401 is tested and is passed through.

In addition, suppose that the standard reference data that proving installation 402 inquires the descant amount of vehicle-carrying DVD equipment 401 is 45 decibels to 55 decibels, the descant that then can know the screen intensity of vehicle-carrying DVD equipment 401 measures examination not to be passed through.

When proving installation 402 test data and standard reference data are compared obtain test result after, can show this test result to the user by exhibiting device 404.

This exhibiting device 404 can be PC in actual applications, or panel computer, or mobile phone etc., specifically do not do restriction herein.

In the present embodiment, test acquisition module 403 in the vehicle-carrying DVD equipment 401 can be tested vehicle-carrying DVD equipment 401, obtain test data, and after this test data carried out dtmf code, be sent to proving installation 402 by communication network, carry out the process that data are recovered and generated test result by proving installation 402, so the test process to vehicle-carrying DVD equipment 401 need not artificial participation, can automatically be finished with proving installation 402 by test acquisition module 403, therefore can improve testing efficiency.

The those skilled in the art can be well understood to, and is the convenience described and succinct, the system of foregoing description, and the specific works process of device and unit can with reference to the corresponding process among the preceding method embodiment, not repeat them here.

In several embodiment that the application provides, should be understood that, disclosed system, apparatus and method can realize by another way.For example, device embodiment described above only is schematic, for example, the division of described unit, only be that a kind of logic function is divided, during actual the realization other dividing mode can be arranged, for example a plurality of unit or assembly can in conjunction with or can be integrated into another system, or some features can ignore, or do not carry out.Another point, the shown or coupling each other discussed or direct-coupling or communication connection can be by some interfaces, indirect coupling or the communication connection of device or unit can be electrically, machinery or other form.

Described unit as separating component explanation can or can not be physically to separate also, and the parts that show as the unit can be or can not be physical locations also, namely can be positioned at a place, perhaps also can be distributed on a plurality of network element.Can select according to the actual needs wherein some or all of unit to realize the purpose of present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in the processing unit, also can be that the independent physics of unit exists, and also can be integrated in the unit two or more unit.Above-mentioned integrated unit both can adopt the form of hardware to realize, also can adopt the form of SFU software functional unit to realize.

If described integrated unit is realized with the form of SFU software functional unit and during as independently production marketing or use, can be stored in the computer read/write memory medium.Based on such understanding, part or all or part of of this technical scheme that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in the storage medium, comprise that some instructions are with so that a computer equipment (can be personal computer, server, the perhaps network equipment etc.) carry out all or part of step of the described method of each embodiment of the present invention.And aforesaid storage medium comprises: the various media that can be program code stored such as USB flash disk, portable hard drive, ROM (read-only memory) (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or CD.

The above, above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (10)

1. an electronic equipment method of testing is characterized in that, comprising:

Test acquisition module in the electronic equipment to be measured is tested described electronic equipment to be measured, obtains test data;

Described test acquisition module is encoded to described test data and is obtained coded signal;

Described test acquisition module is sent to proving installation by communication network with described coded signal;

Described proving installation reverts to test data with described coded signal;

Described proving installation generates test result according to described test data.

2. method according to claim 1 is characterized in that, described test acquisition module is encoded to described test data and obtained coded signal and comprise:

Described test acquisition module carries out the dual tone multi-frequency dtmf coding to described test data and obtains dtmf signal.

3. method according to claim 1 and 2 is characterized in that, the test acquisition module in the described electronic equipment to be measured is tested described electronic equipment to be measured, obtains test data and comprises:

Described test acquisition module is tested a function of described electronic equipment to be measured, preservation ephemeral data after test is finished;

Described test acquisition module is tested the next function of described electronic equipment to be measured according to the priority orders that presets, and preserves ephemeral data, until test the repertoire of described electronic equipment to be measured;

Described test acquisition module with described ephemeral data as described test data.

4. method according to claim 2 is characterized in that, described proving installation reverts to test data with described coded signal and comprises:

DTMF chip in the described proving installation is resolved the dtmf signal that receives and is obtained corresponding binary-coded decimal signal;

Described DTMF chip is inputted testing analysis module in the described proving installation with described binary-coded decimal signal;

Described testing analysis module adopts the decoding algorithm that presets that described binary-coded decimal signal is converted to described test data.

5. method according to claim 1 and 2 is characterized in that, described proving installation generates test result according to described test data and comprises:

Described proving installation compares described test data and standard reference data;

Obtain test result according to comparative result.

6. method according to claim 1 and 2 is characterized in that, described proving installation comprises after generating test result according to described test data:

Described proving installation is showed described test result by presentation device to the user.

7. a Testing System for Electronic Equipment is characterized in that, comprising:

Electronic equipment to be measured and proving installation comprise the test acquisition module in the described electronic equipment to be measured;

Described test acquisition module is used for described electronic equipment to be measured is tested, and obtains test data, and described test data is encoded obtains coded signal, by communication network described coded signal is sent to proving installation;

Described proving installation is used for described coded signal is reverted to test data, and generates test result according to described test data.

8. Testing System for Electronic Equipment according to claim 7 is characterized in that, described test acquisition module is used for that specifically described test data is carried out the dual tone multi-frequency dtmf coding and obtains dtmf signal.

9. Testing System for Electronic Equipment according to claim 7 is characterized in that, described proving installation comprises:

DTMF chip and testing analysis module;

Described DTMF chip is used for the dtmf signal that receives is resolved the binary-coded decimal signal that obtains correspondence, with described binary-coded decimal signal input test analysis module;

Described testing analysis module is used for adopting the decoding algorithm that presets that described binary-coded decimal signal is converted to described test data.

10. each described Testing System for Electronic Equipment in 9 according to claim 7 is characterized in that described Testing System for Electronic Equipment also comprises:

Presentation device;

Described proving installation also is used for showing described test result by described presentation device to the user.

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