CN103812580A - Communication device signal detection method and signal detection system - Google Patents

Abstract

The invention provides a communication device signal detection method and signal detection system. The signal detection method is suitable for controlling a test device through an electronic device to perform testes on the communication device. A specified test device option is selected from a plurality of test device options, wherein the specified option corresponds to a specified test device. A specified communication protocol is selected from a plurality of wireless communication protocols. According to the model of the specified test device and the specified communication protocol, a test request is generated. The test request is sent to the specified test device to make the specified test device execute the initializer. A signal detection program is executed on the communication device through the specified test device to make the specified test device generate a detection result. The detection result is received from the specified test device, and the detection result is stored.

Description

The signal detecting method of communicator and signal detection system

Technical field

The invention relates to a kind of signal detection technique, and relate to especially a kind of signal detecting method and signal detection system of communicator.

Background technology

In the R&D process of communicator, need to carry out functional test to product in exploitation, to guarantee that product can meet the relevant laws and regulations standard of ETSI (European Telecommunication StandardInstitute, ETSI).With the used testing apparatus of current industry (for example, Luo De Morrie Schwartz (ROHDE & SCHWARZ, R & S) the communication test instrument produced of Co., Ltd is (for example, CMU200, CMW500) or the radio communication tester Agilent 8960 that produces of Agilent (Agilent) company), tester must carry out the operation of testing apparatus in mode manually.

The radio communication device of manufacturing in order to ensure Ge Jia manufacturer all can possess compatibility and the stability of certain level, and the custom quality test of shipment Qian Gejia manufacturer etc., tester must be in mode manually, according to different testing apparatuss, different communication protocol, and communicator is detected under different frequency ranges.But, carry out the method to communicator in mode manually, will expend many manpowers and time, thereby how simplify test and become the problem that Ge Jia manufacturer will solve.

Summary of the invention

The invention provides a kind of signal detecting method and signal detection system of communicator, it can provide automation control flow fast the communication quality of communicator is analyzed.

The signal detecting method that the invention provides a kind of communicator, is suitable for electronic installation.Signal detecting method comprises the following steps.In multiple testing apparatus options, select one of them as specified option, this specified option corresponds to nominative testing device, and above-mentioned nominative testing device is coupled to respectively electronic installation and communicator.And, in multiple wireless communication protocols, select one of them as specified communication protocol, wherein communicator is supported specified communication protocol.According to model and the specified communication protocol of nominative testing device, produce test request.Send test request to nominative testing device, make nominative testing device carry out initialize routine.And, control nominative testing device to communicator executive signal trace routine, make nominative testing device produce testing result.Receive testing result from nominative testing device, and store testing result.

In one embodiment of this invention, above-mentioned signal detecting method, also comprises and sends pause instruction to nominative testing device, makes nominative testing device suspend executive signal trace routine.Receive temporary transient test file from nominative testing device, temporary transient test file records the breakpoint of signal detection program.Send and finish pause instruction to nominative testing device, make nominative testing device continue executive signal trace routine from breakpoint.

In one embodiment of this invention, above-mentioned send test request to nominative testing device, after making the step of nominative testing device execution initialize routine, also comprise and send setting command to nominative testing device, make nominative testing device select one of them in multiple test frequency ranges, and set multiple test gate limit values.

In one embodiment of this invention, above-mentionedly controlling nominative testing device to communicator executive signal trace routine, nominative testing device is produced in the step of testing result, comprise and control nominative testing device under selected test frequency range, communicator is carried out to bit error rate (BER) (Bit ErrorRate, BER) test and collection of letters quality (Rx Quality) index test, and according to test gate limit value, determine that testing result is for passing through or failure.

In one embodiment of this invention, the standard value that above-mentioned test gate limit value is multiple test parameters, test parameter comprises at least one of them or the combination of cable attenuation value, bit error rate (BER) and collection of letters quality index.

In one embodiment of this invention, above-mentioned send test request to nominative testing device, after making the step of nominative testing device execution initialize routine, also comprise and send call instruction to nominative testing device, make nominative testing device under selected test frequency range, set up conversation channel with communicator and communicator is conversed, and return session results to electronic installation.

In one embodiment of this invention, above-mentioned electronic installation is by general-purpose interface bus (GeneralPurpose Instrumentation Bus, GPIB) send test request to nominative testing device, and receive testing result by communication interface bus from nominative testing device.

The invention provides a kind of signal detection system, comprise communicator, nominative testing device and electronic installation.Nominative testing device is coupled to communicator.Electronic installation is coupled to the nominative testing device in testing apparatus, and electronic installation detects communicator by nominative testing device.Electronic installation comprises memory cell, linkage unit and processing unit.The multiple procedure code fragments of cell stores.Processing unit is coupled to memory cell and linkage unit, and carrys out executive signal detection method by described procedure code fragment.In multiple testing apparatus options, select one of them as specified option, wherein this specified option corresponds to nominative testing device, and, in multiple wireless communication protocols, select specified communication protocol, communicator is supported specified communication protocol, according to model and the specified communication protocol of nominative testing device, produce test request, send test request to nominative testing device by linkage unit, make nominative testing device carry out initialize routine, control nominative testing device to communicator executive signal trace routine, make nominative testing device produce testing result, and receive testing result by linkage unit from nominative testing device, and store testing result.

In one embodiment of this invention, above-mentioned processing unit sends pause instruction to nominative testing device by linkage unit, make nominative testing device suspend executive signal trace routine, and, receive temporary transient test file by linkage unit from nominative testing device, wherein temporary transient test file records the breakpoint of signal detection program, and in the time that processing unit sends end pause instruction to nominative testing device by linkage unit, nominative testing device continues executive signal trace routine from breakpoint.

In one embodiment of this invention, above-mentioned processing unit sends setting command to nominative testing device by linkage unit, makes nominative testing device select one of them in multiple test frequency ranges, and sets multiple test gate limit values.

In one embodiment of this invention, above-mentioned electronic installation control nominative testing device is under selected test frequency range, to communicator execution bit error rate (BER) test and the test of collection of letters quality index, and according to test gate limit value, determine that testing result is for passing through or failure.

In one embodiment of this invention, the standard value that above-mentioned test gate limit value is multiple test parameters, test parameter comprises at least one of them or the combination of cable attenuation value, bit error rate (BER) and collection of letters quality index.

In one embodiment of this invention, above-mentioned electronic installation sends call instruction to nominative testing device, makes nominative testing device under selected test frequency range, sets up conversation channel and converses, and return session results to electronic installation with communicator.

Based on above-mentioned, the present invention via electronic installation communicator is detected by a nominative testing device, wherein, electronic installation can make nominative testing device according to supporting the specified communication protocol of communicator and the model of communicator, carry out executive signal trace routine, and make nominative testing device produce testing result.In addition, electronic installation also can receive this testing result from nominative testing device.Therefore, carry out the input flow process of automation by electronic installation, can save the testing time, so as to improving the efficiency of input.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate accompanying drawing to be described in detail below.

Accompanying drawing explanation

Fig. 1 is the calcspar of the shown signal detection system of one embodiment of the invention;

Fig. 2 is the signal detecting method flow chart of the shown communicator of one embodiment of the invention;

Fig. 3 is the schematic diagram of the shown input flow process of one embodiment of the invention.

Description of reference numerals

10: signal detection system;

110: communicator;

120: nominative testing device;

130: electronic installation;

132: memory cell;

134: processing unit;

136: linkage unit;

M: show testing apparatus menu;

C1, C2, C3, I1, I2, I3: option;

S202～S212: each step of the signal detecting method of communicator;

S302～S316: each step of input flow process.

Embodiment

General signal detection system is in the time of the detection that communicates device; conventionally can carry out at different tester devices; and; for example, if the project that wish detects (comprises more time-consuming project; the detection of susceptibility (Sensitivity)) maybe need to contain different test frequency range etc., the detection of communicator often need expend many detection times.Therefore,, if can make the signal detection program of communicator more efficient, certainly will be able to save the time required while testing manpower and test.The present invention is signal detecting method and the signal detection system providing based on above-mentioned viewpoint.In order to make content of the present invention more clear, below the example that really can implement according to this as the present invention especially exemplified by embodiment.

Fig. 1 is the calcspar of the shown signal detection system of one embodiment of the invention.Please refer to Fig. 1, signal detection system 10 comprises communicator 110, nominative testing device 120 and electronic installation 130.In the present embodiment, electronic installation 130 can detect communicator 110 by nominative testing device 120.

Communicator 110 is for example mobile phone (Cell phone), personal digital assistant (PersonalDigital Assistant, PDA) mobile phone, smart mobile phone (Smart phone), or palmtop computer (Pocket PC), plate computer (Tablet PC) or notebook computer of communication software etc. are installed.Communicator 110 can be any Portable (Portable) running gear that possesses communication function, does not limit its scope at this.

Nominative testing device 120 is coupled to communicator 110.Nominative testing device 120 can be simulated plurality of communication systems, for example code division multiple access (Code Division Multiple Access, CDMA) system, Wideband Code Division Multiple Access (WCDMA) (Wideband Code Division Multiple Access, WCDMA) system, TDS-CDMA system (Time Division Synchronous Code DivisionMultiple Access, TD-SCDMA), pan-European digital mobile communication system (Groupe SpecialeMobile, GSM), global intercommunication microwave access system (Worldwide Interoperability forMicrowave Access, WiMAX), global positioning system (Global Positioning System, GPS), bluetooth (Bluetooth) system, Wireless LAN (Wireless LAN) system, personal handhold telephone system (Personal Handy-phone System, PHS), digitized video broadcast system (Digital Video Broadcasting, DVB) etc., be not limited to above-mentioned.In the present embodiment, the communication system that nominative testing device 120 can meet according to communicator 110, verify sensitivity (Sensitivity), total radiant power total radiant power (Total Radiated Power between communicator 110 and nominative testing device 120, TRP), total omnidirectional sensitivity (Total IsotropicSensitivity, TIS), transmission quantity or handover (hand-over) etc., but not as limit, the communication quality of testing of communications apparatus 110 and generation testing result according to this.

Described herein, nominative testing device 120 can receive the multiple instructions from electronic installation 130, and according to these instructions, communicator 110 is detected.In addition, the nominative testing device 120 of the present embodiment is for example Luo De Morrie Schwartz (ROHDE & SCHWARZ, R & S) the communication test instrument produced of Co., Ltd is (for example, CMU200, CMW500), Agilent (Agilent) company produce radio communication tester (for example, Agilent 8960), or other applicable simulators and/or radio frequency (RF) test source.

Electronic installation 130 is coupled to nominative testing device 120, and by nominative testing device 120, communicator 110 is detected.Electronic installation 130 comprises memory cell 132, processing unit 134 and linkage unit 136, and wherein, processing unit 134 is coupled to memory cell 132 and linkage unit 136.

Specifically required test parameter, test gate limit value or testing result etc. when procedure code fragment, the nominative testing device 120 that, memory cell 132 can be stored multiple self-definings detects communicator 110.Processing unit 134 can pass through said procedure chip segment, and the order of the detection in executive program chip segment and detect instruction one by one, and is integrated into an automation communicator 110 is carried out the flow process of input.In addition, processing unit 134 also can be by linkage unit 136 self-test device nominative testing devices 120 to receive testing result, wherein, linkage unit 136 is for example general-purpose interface bus (General Purpose Instrumentation Bus,, and electronic installation 130 is for example to be coupled to nominative testing device 120 by general-purpose interface bus and a general-purpose interface bus cable (GPIB cable) GPIB).

In the present embodiment, electronic installation 130 couples by linkage unit 136 and selected nominative testing device 120, to control nominative testing device 120, communicator 110 is detected, and realizes according to this each step of the signal detecting method of the present embodiment.At this, electronic installation 130 is for example PC, notebook computer, light weight user side (Thin Client, TC) or server, and the present invention is not limited the kind of electronic installation 130.Electronic installation 130 can be selected a specified option from multiple testing apparatus options.Above-mentioned these testing apparatus options have respectively its corresponding testing apparatus, and above-mentioned specified option corresponds to nominative testing device 120.For example, can select specified option by user, or by electronic installation 130, connected nominative testing device 120 be judged, and automatically in these testing apparatus options, select corresponding specified option.

Below the above-mentioned signal detection system 10 of arranging in pairs or groups illustrates the signal detecting method of communicator.Fig. 2 is the signal detecting method flow chart of the shown communicator of one embodiment of the invention.Signal detecting method in the present embodiment, is suitable for electronic installation 130 and by nominative testing device 120, communicator 110 is detected.For instance, electronic installation 130 can utilize the processing unit 134 in electronic installation 130 to control nominative testing device 120 to carry out multiple procedure code fragments.

Referring to Fig. 1 and Fig. 2, in step S202, electronic installation 130 can be selected a specified option in multiple testing apparatus options.For example, each testing apparatus option corresponds to respectively different testing apparatuss, and these testing apparatus options correspond to respectively the procedure code fragment of supporting different testing apparatuss in electronic installation 130.Accordingly, before executive signal detection method, the nominative testing device 120 that can be connected by electronic installation 130 automatic decision electronic installations 130, and select corresponding specified option, to carry out corresponding procedure code fragment.

In addition, also can select voluntarily specified option by user.For instance, electronic installation 130 can pass through display unit (not shown, for example, to be screen) and show a testing apparatus menu, and wherein, testing apparatus menu can comprise multiple testing apparatus options, chooses in testing apparatus menu for user.Electronic installation 130 can, according to the selected testing apparatus of user, be selected nominative testing device 120.

In addition also can be read by electronic installation 130, the inventory of the testing sequence that records multiple testing apparatuss.Above-mentioned inventory can sequentially record according to user's demand the order of multiple testing apparatuss.Therefore, electronic installation 130 can be carried out the corresponding procedure code fragment of different testing apparatuss according to above-mentioned inventory.

Electronic installation 130 also can or be used for assessing test parameter or the threshold value etc. of communication quality according to the wireless communication protocol of communicator 110, and analyze the test option that each testing apparatus has, can support and filter out testing apparatus that communicator 110 is detected from testing apparatus, and testing apparatus communicator 110 being detected from above-mentioned support, in display unit, list the testing apparatus option that is available for users to select.

Then, in step S204, electronic installation 130 can be selected a specified communication protocol in multiple wireless communication protocols, and wherein communicator 110 is supported specified communication protocol.At this, corresponding communication protocol when specified communication protocol is for example communicator 110 and the communication of other communicators, for example, the second generation (2G) communication standards, the third generation (3G) communication standards, third generation communication system Long Term Evolution (3GPP LTE) standard, third generation communication system enhancement mode Long Term Evolution (3GPPLTE-Advanced) standard etc., be not limited to above-mentioned.For example, in display unit, demonstrating multiple communication protocol options selects for user.

In addition, also can be judged voluntarily by electronic installation 130.If the wireless communication protocol of communicator 110 is second generation communication standards, the selected specified communication protocol of electronic installation 130 is pan-European Groupe Speciale Mobile system standard.If the wireless communication protocol of communicator 110 is third generation communication system standard, the selected specified communication protocol of electronic installation 130 is broadband CDMA system standard.In addition,, if the second generation networking standard that the wireless communication protocol of communicator 110 proposes for QualCom company, the selected specified communication protocol of electronic installation 130 is code division multiple access system standard.

Afterwards, in step S206, electronic installation 130 can, according to model and the specified communication protocol of nominative testing device 120, produce a test request.Wherein, the model of nominative testing device 120 for example refers to the commercial specification that the supply manufacturer of location survey electricity testing device 120 provides.Test request is for example the instruction that electronic installation 130 detects communicator 110 in order to assign nominative testing device 120.In addition, in the present embodiment, electronic installation 130 by linkage unit 136 test request is sent to nominative testing device 120.

In step S208, electronic installation 130 can send test request to nominative testing device 120, makes nominative testing device 120 carry out initialize routine.At this, when initialize routine can make nominative testing device 120 detect communicator 110, needed multiple test parameters (for example, cable attenuation value (Cable loss), bit error rate (BER) (Bit error rate, BER) and the test gate limit value such as collection of letters quality (RxQuality) index), revert to respectively the preset value of nominative testing device 120.That is to say, reading incongruent test parameter for fear of nominative testing device 120 detects communicator 110, electronic installation 130 can make nominative testing device 120 before carrying out detection, by initialize routine nominative testing device 120 test parameter that sets before detecting of erasing, guarantee that according to this nominative testing device 120 is in the time of follow-up executive signal trace routine, can communicator 110 be detected the corresponding test parameter of basis signal trace routine.

And in step S210, electronic installation 130 can be controlled nominative testing device 120 and come communicator 110 executive signal trace routines, make nominative testing device 120 produce testing result.Specifically, signal detection program for example comprises the susceptibility test that nominative testing device 120 carries out communicator 110, phase place peak error (Phase error) test, bit error rate (BER) (Bit Error Rate, BER) test, the test of collection of letters quality index, transmitting power (Tx power) test, phase place root-mean-square error (Root mean square error) test, frequency error test (Frequency error), power relative time (Power vs Time) test, output radio-frequency spectrum (Output Radio FrequencySpectrum, ORFS) test and incoming level (Rx level) test etc., be not limited to above-mentioned.In addition, 120, nominative testing device can produce respectively according to above-mentioned test the testing result of corresponding data.

In step S212, electronic installation 130 can receive testing result from nominative testing device 120, and stores testing result (being to be for example stored in the memory cell 132 of electronic installation 130).Wherein, electronic installation 130 also can receive this testing result from nominative testing device 120 by linkage unit 136.Described hereinly be, the present embodiment not limiting electronic device 130 receives the time point of the testing result of nominative testing device 120, for example, electronic installation 130 can be in the time that nominative testing device 120 completes or does not complete executive signal trace routine, assign pause instruction to nominative testing device 120, to obtain the data in current testing result.

Specifically, electronic installation 130 can send pause instruction to nominative testing device 120, makes nominative testing device 120 suspend executive signal trace routine.Wherein, the time point that electronic installation 130 can be assigned according to user, sends this pause instruction.Then, electronic installation 130 can receive a temporary transient test file from nominative testing device 120, and wherein, temporary transient test file records the breakpoint of signal detection program.Afterwards, electronic installation 130 also can send and finish pause instruction to nominative testing device 120, makes nominative testing device 120 continue executive signal trace routine from breakpoint.

In addition, electronic installation 130 also can, according to user's set time point in advance, send this and finish pause instruction.For instance, suppose to have recorded the time-out letter formula that is used for suspending a bit error rate (BER) test in the performed procedure code fragment of electronic installation 130, therefore, in the time that electronic installation 130 is carried out this time-out letter formula, can automatically send a time-out and be assigned to nominative testing device 120, make nominative testing device 120 suspend above-mentioned bit error rate (BER) test.Now, electronic installation 130 can receive the temporary transient test file corresponding to bit error rate (BER) test from nominative testing device 120.Wherein, time point, frequency range, data or other breakpoints when temporary transient test file can record nominative testing device 120 and suspends.Thus, the end pause instruction that sends to finish above-mentioned bit error rate (BER) test when electronic installation 130 is during to nominative testing device 120, and nominative testing device 120 is from the bit error rate (BER) test that can continue according to above-mentioned time point, frequency range, data or other breakpoints to carry out first.

In order to describe above-mentioned signal detection program in detail, beneath again for an embodiment.Fig. 3 is the schematic diagram of the shown input flow process of one embodiment of the invention.Under still the arrange in pairs or groups signal detection system 10 of Fig. 1 describe.

Referring to Fig. 1 and Fig. 3, as shown in step S302, show a testing apparatus menu M by electronic installation 130.At this, testing apparatus menu M has comprised three testing apparatus option I1, I2, I3, but in actual applications, does not limit the quantity of testing apparatus option.Electronic installation 130 can select one at testing apparatus option I1, I2, I3.

For instance, electronic installation 130 can pass through display unit (not shown, for example, to be screen) and shows and from testing apparatus option I1, I2, I3, select a technical routine for user by testing apparatus menu M.At this, suppose that testing apparatus project I1 corresponds to nominative testing device 120, using testing apparatus project I1 as technical routine.

Then,, shown in step 304, in multiple wireless communication protocols, select to support the specified communication protocol of communicator 110 by electronic installation 130.Specifically, electronic installation 130 can show a communication protocol menu by display unit, can be in this communication protocol menu for user, and the wireless communication protocol of selecting communicator 110 to support.Wherein, communication protocol menu can comprise the option of various wireless communication agreement.At this, suppose that communication protocol menu comprises option C1, C2, the C3 of three kinds of wireless communication protocols, but in actual applications, not the quantity of the included wireless communication protocol of limiting telecommunication agreement menu.For example option C1, C2, C3 correspond to respectively GSM, WCDMA and CDMA2000.

And the communication protocol that user can select communicator 110 to support from communication protocol menu.At this, suppose that user selects option C1 in communication protocol menu, electronic installation 130 will be according to user's selection, and selection GSM is specified communication protocol.Certainly, in other embodiments, if user selects option C2 in communication protocol menu, the selected specified communication protocol of electronic installation 130 can be WCDMA.Or if user selects option C3 in communication protocol menu, the selected specified communication protocol of electronic installation 130 is CDMA2000.

After executing above-mentioned steps S302 and step S304, electronic installation 130 can, according to model and the specified communication protocol of nominative testing device 120, produce a test request.And, in step S305, send test request to nominative testing device 120, and make nominative testing device 120 carry out initialize routine.In addition, about the detailed description of the present embodiment said method, describe in detail to step S208 and corresponding paragraph at the step S202 of Fig. 2, therefore do not repeat them here.

Then,, in step 306, electronic installation 130 can be controlled nominative testing device 120 to communicator 110 executive signal trace routines.In order to make the content of signal detection program of the present embodiment more clear, several steps of below enumerating in signal detection program describe, but not included step and the order thereof of restricting signal trace routine of the present embodiment.

For instance, as shown in step S308, electronic installation 130 can send setting command to nominative testing device 120, makes nominative testing device 120 select one of them in multiple test frequency ranges.Furthermore, electronic installation 130 can make nominative testing device 120 select to test the scope of the number of frequency range, each test frequency range, or along with the increase of each test frequency range, and changing the frequency range interval between each test frequency range, its Mid Frequency interval is for example the square root for corresponding test frequency range.

In addition, as shown in step S310, electronic installation 130 also can send setting command to nominative testing device 120, makes nominative testing device 120 set multiple test gate limit values.In the present embodiment, the standard value that test gate limit value is multiple test parameters, wherein test parameter is for example that (at least one of them or its combination of index, is not limited to above-mentioned for cable attenuation value, bit error rate (BER) rate and collection of letters quality.For instance, nominative testing device 120 can be set bit error rate (BER) according to cable attenuation value.

In addition, as shown in step S312, electronic installation 130 can send call instruction to nominative testing device 120, make nominative testing device 120 under selected test frequency range, set up conversation channel with communicator 110, and converse by conversation channel and communicator 110, and passback one session results is to electronic installation 130.Say further, if the call between nominative testing device 120 and communicator 110 is abnormal, 130 of electronic installations can resend call instruction to nominative testing device 120 to set up another conversation channel, and judge whether the number of times of the conversation channel that nominative testing device 120 sets up reaches a talk times upper limit.If the call of setting up between nominative testing device 120 and communicator 110 for abnormal, and the number of times of conversation channel exceedes on talk times in limited time, it is that abnormal session results is to electronic installation 130 that 120, nominative testing device can return a call.

In addition, as shown in step S314, under selected test frequency range, electronic installation 130 can be assigned the instruction of communicator 110 being carried out to a bit error rate (BER) test, and shown in step S316, electronic installation 130 also can be assigned the instruction of communicator 110 being carried out to a collection of letters quality index test.Accordingly, nominative testing device 120 is after receiving instruction, and the test gate limit value that just can set according to above-mentioned steps S310, decides the testing result of testing corresponding to bit error rate (BER) test and collection of letters quality index for passing through or failure.For instance, nominative testing device 120 can, after carrying out bit error rate (BER) test or the test of collection of letters quality index, be obtained corresponding data, and judge whether these data meet test gate limit value, and produce corresponding testing result.In the present embodiment, testing result can be stored as text file (being for example EXCEL form) and for example, conveniently be output as report tableau format with map file (being JPG form) or other.

In addition, in electronic installation 130, also can provide a setting interface confession user to be adjusted at the power while carrying out bit error rate (BER) test.For instance, suppose that the power of testing comprises three phases ,-70dBm～-100dBm ,-100dBm～-105dBm and-105dBm～-110dBm.User can set respectively this three phases and test the power magnitude that will increase for how many at every turn.For example, in the time of the stage of-70dBm～-100dBm, in interface, carry out setting power amplitude for-5dBm by setting, in the time of the stage of-100dBm～-105dBm, in interface, carry out setting power amplitude for-1dBm by setting.Accordingly, represent that the power of test is-70dBm for the first time, be-75dBm of the power ,-80dBm of test ,-85dBm... are by that analogy afterwards.In the time of test extremely-100dBm (power magnitude is-1dBm), be-101dBm of the power ,-102dBm of test ,-103dBm... are by that analogy afterwards.

Described hereinly be, the present embodiment test option that restricting signal trace routine is not wrapped is also bit error rate (BER) test and the test of collection of letters quality index, in other embodiments, signal detection program yet can comprise susceptibility test, the test of phase place peak error, transmitting power test, the test of phase place root-mean-square error, frequency error test, the test of power relative time, the test of output radio-frequency spectrum and incoming level test etc., or the signal testing generally carrying out for communicator.

In addition, if nominative testing device 120 is not yet carried out in all test frequency ranges, communicator 110 was detected, electronic installation 130 also can, by nominative testing device 120, continue executive signal trace routine according to another test frequency range.On the other hand, if nominative testing device 120 completes communicator 110 is detected in all test frequency ranges, electronic installation 130 can receive testing result from nominative testing device 120, to store this testing result.In addition, electronic installation 130 also can be shown in user by testing result graphical interfaces, so that user confirms for testing result.

In sum, in the above-described embodiments, electronic installation can be selected a nominative testing device communicator is detected.Issue an order to nominative testing device by electronic installation, make nominative testing device carry out initialize routine, and according to model and the specified communication protocol of communicator, come communicator executive signal trace routine, and from nominative testing device, receive the testing result after communicator is detected.Thus, by above-described embodiment, can provide the control flow of automation, the communication quality of communicator is analyzed, and then can save test manpower and reduce the time required while test, so as to making the signal detection program of communicator more efficient.

Finally it should be noted that: above each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (13)

1. a signal detecting method for communicator, is suitable for electronic installation, it is characterized in that, this signal detecting method comprises:

In multiple testing apparatus options, select specified option, wherein this specific items choosing corresponds to nominative testing device, and this nominative testing device is coupled to respectively this electronic installation and communicator;

In multiple wireless communication protocols, select specified communication protocol, wherein this communicator is supported this specified communication protocol;

According to model and this specified communication protocol of this nominative testing device, produce test request;

Send this test request to this nominative testing device, make this nominative testing device carry out initialize routine;

Control this nominative testing device to this communicator executive signal trace routine, make this nominative testing device produce testing result; And

Receive this testing result from this nominative testing device, and store this testing result.

2. signal detecting method according to claim 1, is characterized in that, also comprises:

Send pause instruction to this nominative testing device, this nominative testing device is suspended and carry out this signal detection program;

Receive temporary transient test file from this nominative testing device, this temporary transient test file records the breakpoint of this signal detection program; And

Send and finish pause instruction to this nominative testing device, make this nominative testing device continue to carry out this signal detection program from this breakpoint.

3. signal detecting method according to claim 1, is characterized in that, is sending this test request to this nominative testing device, makes after this nominative testing device carries out the step of this initialize routine, also to comprise:

Send setting command to this nominative testing device, make this nominative testing device carry out the following step:

In multiple test frequency ranges, select one of them; And

Set multiple test gate limit values.

4. signal detecting method according to claim 3, is characterized in that, controls this nominative testing device this communicator is carried out to this signal detection program, and the step that makes this nominative testing device produce this testing result comprises:

Control this nominative testing device under selected this test frequency range, to this communicator execution bit error rate (BER) test and the test of collection of letters quality index, and according to described test gate limit value, determine that this testing result is for passing through or failure.

5. signal detecting method according to claim 4, is characterized in that, the standard value that described test gate limit value is multiple test parameters, and described test parameter comprises at least one of them or the combination of cable attenuation value, bit error rate (BER) and collection of letters quality index.

6. signal detecting method according to claim 3, is characterized in that, is sending this test request to this nominative testing device, makes after this nominative testing device carries out the step of this initialize routine, also to comprise:

Send call instruction to this nominative testing device, make this nominative testing device under selected this test frequency range, set up conversation channel with this communicator and this communicator is conversed, and return session results to this electronic installation.

7. signal detecting method according to claim 1, is characterized in that, this electronic installation sends this test request to this nominative testing device by general-purpose interface bus, and receives this testing result by this communication interface bus from this nominative testing device.

8. a signal detection system, is characterized in that, comprising:

Communicator;

Nominative testing device, is coupled to this communicator; And

Electronic installation, is coupled to this nominative testing device, and this electronic installation detects this communicator by this nominative testing device, and wherein, this electronic installation comprises:

Memory cell, stores multiple procedure code fragments;

Linkage unit; And

Processing unit, is coupled to this memory cell and this linkage unit, and carries out by described procedure code fragment:

In multiple testing apparatus options, select the specified option that this nominative testing device is corresponding;

In multiple wireless communication protocols, select specified communication protocol, this communicator is supported this specified communication protocol;

According to model and this specified communication protocol of this nominative testing device, produce test request;

Send this test request to this nominative testing device by this linkage unit, make this nominative testing device carry out initialize routine;

Control this nominative testing device to this communicator executive signal trace routine, make this nominative testing device produce testing result; And

Receive this testing result by this linkage unit from this nominative testing device, and store this testing result.

9. signal detection system according to claim 8, it is characterized in that, this processing unit sends pause instruction to this nominative testing device by this linkage unit, this nominative testing device is suspended and carry out this signal detection program, and, receive temporary transient test file by this linkage unit from this nominative testing device, wherein this temporary transient test file records the breakpoint of this signal detection program; And in the time that this processing unit sends end pause instruction to this nominative testing device by this linkage unit, this nominative testing device continues to carry out this signal detection program from this breakpoint.

10. signal detection system according to claim 8, it is characterized in that, this processing unit sends setting command to this nominative testing device by this linkage unit, makes this nominative testing device select one of them in multiple test frequency ranges, and sets multiple test gate limit values.

11. signal detection systems according to claim 10, it is characterized in that, this nominative testing device of this electronic installation control is under selected this test frequency range, this communicator execution bit error rate (BER) is tested and the test of collection of letters quality index the described test gate limit value of foundation, determined that this testing result is to pass through or failure.

12. signal detection systems according to claim 11, is characterized in that, the standard value that described test gate limit value is multiple test parameters, and described test parameter comprises at least one of them or the combination of cable attenuation value, bit error rate (BER) and collection of letters quality index.

13. signal detection systems according to claim 10, it is characterized in that, this electronic installation sends call instruction to this nominative testing device, make this nominative testing device under selected this test frequency range, set up conversation channel with this communicator and converse, and return session results to this electronic installation.

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