CN104240492A - Method, device and terminal for debugging infrared remote control signals - Google Patents

Abstract

The invention provides a method, device and terminal for debugging infrared remote control signals. The method comprises the following steps: receiving preset segments of infrared remote control signals sent by the infrared sending end of a remote controller through the infrared receiving end of a mobile terminal; analyzing and comparing the infrared remote control signals, and extracting the infrared remote control signals with the same signal level for debugging target signals. The method realizes the debugging operation for the infrared remote control signals in two steps as follows: the first step: sending multiple segments of infrared remote control signals; the second step: judging and confirming the infrared remote control signals. Thus, the many times of repeated judgment for the infrared remote control signals are avoided, the success rate and operation efficiency of debugging are improved, and the user experience is enhanced.

Description

A kind of method, device and terminal of debugging infrared remote-controlled signal

Technical field

The present invention relates to communication technical field, particularly relate to a kind of method, device and terminal of debugging infrared remote-controlled signal.

Background technology

In prior art, Infrared Ray Remote Control Technology possesses low cost, the plurality of advantages such as easy-to-use, and current Infrared Ray Remote Control Technology has been widely used on various types of household electrical appliance as a kind of the most frequently used electric control method.Meanwhile, in prior art, there is a series of mobile phone with function of infrared remote control, coordinate corresponding application program can realize the function of domestic electrical equipment remote controller thus replace traditional domestic electrical equipment remote controller.

But the database of mobile phone infrared remote cannot accomplish a hundred per cent support to electrical equipment model, so often in this type of software, all comprise infrared signal study function.

Infrared signal study, generally initiate in cell phone software, user makes the telepilot of electrical appliance send infrared signal to mobile phone key, whether cell phone software points out user to carry out remote-controlled test study to electrical equipment button after recognizing infrared signal is effective, if effectively, preserved, if invalid, repeat above-mentioned flow process until success.The mode user operation step of this study is comparatively loaded down with trivial details, experiences poor.

Summary of the invention

In view of this, the technical problem to be solved in the present invention is to provide a kind of method, device and terminal of debugging infrared remote-controlled signal, to solve in prior art, the mode of infrared learning is adopted repeatedly to test the whether effective mode of button of study by adopting mobile terminal, operation steps is comparatively loaded down with trivial details, the defect that execution efficiency is lower.

It is as follows that the present invention solves the problems of the technologies described above adopted technical scheme:

Propose a kind of method of debugging infrared remote-controlled signal, the method comprises:

Receive the infrared remote-controlled signal of multiple hop counts that telepilot sends;

Analyze the multiple infrared remote-controlled signal of contrast, extraction has the infrared remote-controlled signal of identical signal level as debug target signal.

Preferably, comprise before receiving the infrared remote-controlled signal of multiple hop counts that telepilot sends:

According to the function button on the debugging demand determination telepilot of mobile terminal debugging infrared remote-controlled signal;

The default hop count of the infrared remote-controlled signal sent needed for the error rate of the infrared receiver end Received signal strength of mobile terminal and the infrared transmitting terminal of expection debugging success ratio determination telepilot;

Response function button, and generate the control signal presetting hop count;

The infrared remote-controlled signal presetting hop count is generated by the infrared transmitting terminal of telepilot and the control signal of default hop count.

Preferably, analyze the multiple infrared remote-controlled signal of contrast, extract the infrared remote-controlled signal with identical signal level and comprise as before debug target signal:

Store the infrared remote-controlled signal of the default hop count received.

Preferably, analyze the multiple infrared remote-controlled signal of contrast, extract the infrared remote-controlled signal with identical signal level and comprise as debug target signal:

Resolve initial code and the numeric data code of the infrared remote-controlled signal stored;

Obtain the time that the low and high level of infrared remote-controlled signal in the scope of initial code and numeric data code continues;

In the infrared remote-controlled signal of default hop count, judge whether that the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues is identical in default error range;

If exist, then using the identical infrared remote-controlled signal of two or more as determining infrared signal, if do not exist, then generate the feedback information of debugging errors.

Preferably, analyze contrast infrared remote-controlled signal, extract the infrared remote-controlled signal with identical signal level and comprise as after debug target signal:

Delete the infrared remote-controlled signal presetting hop count, meanwhile, store debug target signal;

Debug target signal control apparatus is sent to the electrical equipment mated with telepilot by the infrared transmitting terminal of mobile terminal.

The invention allows for a kind of device debugging infrared remote-controlled signal, this device comprises:

Infrared remote-controlled signal receiver module, for receiving the infrared remote-controlled signal of multiple hop counts that telepilot sends;

Debug target signal determination module, for analyzing the multiple infrared remote-controlled signal of contrast, extraction has the infrared remote-controlled signal of identical signal level as debug target signal.

Preferably, also comprise function button determination module, preset hop count determination module, control signal generation module and infrared remote-controlled signal generation module, wherein,

Function button determination module is for debugging the function button on the debugging demand determination telepilot of infrared remote-controlled signal according to mobile terminal;

Preset the default hop count that hop count determination module is used for the infrared remote-controlled signal sent needed for the error rate of the infrared receiver end Received signal strength of mobile terminal and the infrared transmitting terminal of expection debugging success ratio determination telepilot;

Control signal generation module is used for response function button, and generates the control signal presetting hop count;

Infrared remote-controlled signal generation module is used for generating by the infrared transmitting terminal of telepilot and the control signal of default hop count the infrared remote-controlled signal presetting hop count.

Preferably, also comprise infrared remote-controlled signal memory module, for storing the infrared remote-controlled signal of the default hop count of reception.

Preferably, infrared remote-controlled signal determination module comprises infrared remote-controlled signal resolution unit, low and high level duration acquiring unit, low and high level duration judging unit and debug results processing unit, wherein,

Infrared remote-controlled signal resolution unit is for resolving initial code and the numeric data code of the infrared remote-controlled signal of storage;

The time that low and high level duration acquiring unit continues for obtaining the low and high level of infrared remote-controlled signal in the scope of initial code and numeric data code;

Low and high level duration judging unit is used in the infrared remote-controlled signal of default hop count, judges whether that the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues is identical in default error range;

Debug results processing unit is for the judged result in conjunction with low and high level duration judging unit, if the time that the low and high level of infrared remote-controlled signal in the scope of initial code with numeric data code that there are two or more continues is identical in default error range, then using the identical infrared remote-controlled signal of two or more as debug target signal, if do not exist, then generate the feedback information of debugging errors.

This device also comprises infrared remote-controlled signal processing module and infrared remote-controlled signal sending module, wherein,

Infrared remote-controlled signal processing module, for deleting the infrared remote-controlled signal of default hop count, meanwhile, stores debug target signal;

Infrared remote-controlled signal sending module is used for sending debug target signal control apparatus by the infrared transmitting terminal of mobile terminal to the electrical equipment mated with telepilot.

The invention allows for a kind of terminal of debugging infrared remote-controlled signal, this terminal comprises above-mentioned a kind of device debugging infrared remote-controlled signal.

Implement the present invention, sent the infrared remote-controlled signal of certain hop count to mobile terminal by telepilot, and by judging to extract identical infrared remote-controlled signal as debug target signal, thus achieve the debugging operations of two steps realizations to infrared remote-controlled signal, namely the first step sends several sections of infrared remote-controlled signals, and second step judges and confirms infrared remote-controlled signal, avoids repetition and back and forth judges infrared remote-controlled signal, improve success ratio and the operating efficiency of debugging, enhance Consumer's Experience.

On the one hand, the default hop count determining the infrared remote-controlled signal sent needed for the infrared transmitting terminal of telepilot is calculated by the error rate of the infrared receiver end Received signal strength of mobile terminal and expection debugging success ratio, the rate of counting on one's card in debug process can be achieved under minimum default hop count, thus make the scheme of debugging optimum, namely hop count is preset minimum, system consumption is less, and execution efficiency is higher simultaneously.

On the other hand, identical in default error range by judging whether the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues, thus draw the infrared remote-controlled signal whether having and determine, ensure that accuracy and the reliability of judgement.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention proposes;

Fig. 2 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention second preferred embodiment proposes;

Fig. 3 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention the 3rd preferred embodiment proposes;

Fig. 4 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention the 4th preferred embodiment proposes;

Fig. 5 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention the 5th preferred embodiment proposes;

Fig. 6 is a kind of structured flowchart debugging the device of infrared remote-controlled signal that the present invention proposes.

Embodiment

In order to make technical matters to be solved by this invention, technical scheme and beneficial effect clearly, understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Embodiment one

Fig. 1 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention proposes.The method comprises the following steps:

S1, receives the infrared remote-controlled signal of multiple hop counts that telepilot sends.The infrared remote-controlled signal of the default hop count that the infrared transmitting terminal receiving telepilot by the infrared receiver termination of mobile terminal sends.Be appreciated that the present invention is applicable to the electrical equipment adopting infrared signal as remote controller signal source, at this for televisor, typically, television receiver body is mounted with infrared receiving module, and TV remote controller is mounted with infrared transmission module.Mobile terminal used in the present invention possesses infrared receiving module and infrared sending module simultaneously, at this for mobile phone.Wherein, the infrared receiver end of mobile phone is for receiving the infrared signal of the infrared transmitting terminal transmission of TV remote controller, and the infrared transmitting terminal of mobile phone is used for sending infrared signal to the infrared receiver end of televisor.Be understandable that, the present invention can also be applicable to automation field, such as, debugs infrared remote-controlled signal at infrared controller end, to complete the operations such as the infrared remote control that matches with demand for control.

In this step, the infrared remote-controlled signal presetting hop count is sent by the button of TV remote controller, and namely repeatedly push button, the number of times pressed is the hop count of infrared remote-controlled signal.

S2, analyzes contrast infrared remote-controlled signal, and extraction has the infrared remote-controlled signal of identical signal level as debug target signal.Because each section of infrared remote-controlled signal is made up of different low and high levels, therefore, judge whether the infrared remote-controlled signal that receives has the identical infrared remote-controlled signal of two or more, namely by judging whether the low and high level of the infrared remote-controlled signal of each section is identical thus whether being had identical infrared remote-controlled signal.

The infrared remote-controlled signal sent due to the infrared transmitting terminal of TV remote controller may be interfered, therefore, when mobile phone infrared receiver termination receives the infrared remote-controlled signal of sent default hop count, some may there is mistake because of being interfered in the infrared remote-controlled signal of these default hop counts, therefore, the infrared remote-controlled signal of these default hop counts can not all as the infrared remote-controlled signal conformed to demand.Citing is with explanation, when the error rate of infrared remote-controlled signal is 10%, if presetting hop count is six times, so in these six sections of infrared remote-controlled signals, have two sections identical and for the probability of infrared remote-controlled signal conformed to demand be 99.999%, be appreciated that this probability can by user in actual use accept.Therefore, when detecting that the infrared remote-controlled signal of more than two sections or two sections is identical in the infrared remote-controlled signal at default hop count, namely prove that this identical infrared remote-controlled signal is the correct infrared remote-controlled signal matched with demand.

The beneficial effect of the present embodiment is, sent the infrared remote-controlled signal of certain hop count to mobile terminal by telepilot, and by judging to extract identical infrared remote-controlled signal as debug target signal, thus achieve the debugging operations of two steps realizations to infrared remote-controlled signal, namely the first step sends several sections of infrared remote-controlled signals, and second step judges and confirms infrared remote-controlled signal, avoids repetition and back and forth judges infrared remote-controlled signal, improve success ratio and the operating efficiency of debugging, enhance Consumer's Experience.

Embodiment two

Fig. 2 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention second preferred embodiment proposes.

Based on above-described embodiment, comprise before the infrared remote-controlled signal of the default hop count sent at the infrared transmitting terminal receiving telepilot by the infrared receiver termination of mobile terminal:

S01, debugs the function button on the debugging demand determination telepilot of described infrared remote-controlled signal according to mobile terminal.As above described in example, typically, TV remote controller has multiple functionality buttons comprising digital keys, these buttons comprise the quick tune platform button, the button of button, volume button and volume increase and decrease up and down etc. of 1-9 platform.In this step, first, confirm to need to carry out by mobile terminal the function button debugged, increase key at this for volume, the operation display interface of mobile terminal confirms need the function button of debugging to be that volume increases key.

S02, the default hop count of the infrared remote-controlled signal sent needed for the error rate of the infrared receiver end Received signal strength of mobile terminal and the infrared transmitting terminal of expection debugging success ratio determination telepilot.As above described in example, under different hardware environment and disturbing factor, the infrared remote-controlled signal transmitted between infrared transmitting terminal and infrared receiver end has different error rates, simultaneously, according to the difference of user or actual demand, the debugging success ratio for expection also has different requirements.At this, suppose under a certain specific environment, error rate is m, expection debugging success ratio is M, therefore, can calculate hop count N by each success ratio of (1-m) and the overall success M of N hop count, this computation process belongs to prior art, need not repeat at this.

Be understandable that, under different hardware environment and disturbing factor, determine corresponding error rate and expection debugging success ratio, wherein, on same telepilot, the error rate that different buttons triggers also has different possibilities to exist, and therefore, the present invention can also preset corresponding error rate and expection debugging success ratio for every individual feature button.

S03, response function button, and generate the control signal presetting hop count.As above, described in example, when being confirmed to be volume increment key and being function button to be debugged, prompting user presses volume increment key N time, unclamps at every turn and be once after pressing.

S04, generates by the infrared transmitting terminal of telepilot and the control signal of default hop count the infrared remote-controlled signal presetting hop count.When generating control signal by above-mentioned steps, namely by the circuit of telepilot inside, this control signal is sent to the infrared transmitting terminal of telepilot, then via the infrared transmitting terminal of telepilot this control signal carried out to conversion processing is backward outer to be sent, be converted into infrared remote-controlled signal by infrared control signal and give transmission and belong to prior art means, need not repeat at this.

The beneficial effect of the present embodiment is, the default hop count determining the infrared remote-controlled signal sent needed for the infrared transmitting terminal of telepilot is calculated by the error rate of the infrared receiver end Received signal strength of mobile terminal and expection debugging success ratio, the rate of counting on one's card in debug process can be achieved under minimum default hop count, thus make the scheme of debugging optimum, namely hop count is preset minimum, system consumption is less, and execution efficiency is higher simultaneously.

Embodiment three

On the basis of above-described embodiment one and embodiment two, after the infrared remote-controlled signal of the default hop count that the infrared transmitting terminal receiving telepilot by the infrared receiver termination of mobile terminal sends, analyze contrast infrared remote-controlled signal, extract the infrared remote-controlled signal with identical signal level and also comprise as before debug target signal:

S11, stores the infrared remote-controlled signal of the default hop count received.Reserving certain storage space or spatial cache at mobile terminal, for storing the infrared remote-controlled signal received, because these infrared remote-controlled signals are also selected without judgement, therefore all needing temporary transient doing to retain.Preferably, after this storage space is chosen as power-off, the store path that data still can be maintained.

Embodiment four

Fig. 4 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention the 4th preferred embodiment proposes.

Based on above-described embodiment, analyze contrast infrared remote-controlled signal, extract the infrared remote-controlled signal with identical signal level and specifically comprise as debug target signal:

S21, resolves initial code and the numeric data code of the infrared remote-controlled signal stored.From prior art, infrared remote-controlled signal is made up of initial code and numeric data code, wherein, numeric data code is also divided into other several code words such as user code, meanwhile, each yard is all be made up of different low and high levels, and the time that different low and high levels continues also is different.

S22, obtains the time that the low and high level of infrared remote-controlled signal in the scope of initial code and numeric data code continues.First this step is the low and high level determined in each yard, then, obtains the duration of these low and high levels.

S23, in the infrared remote-controlled signal of default hop count, judges whether that the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues is identical in default error range.Due under existing infrared protocol, low and high level duration in code may error to some extent, at this for the acceptable error of 2ms, the order occurred when each low and high level in two codes is identical, simultaneously, the duration of each low and high level also within the scope of the acceptable error of 2ms, then thinks that these two codes are identical.In like manner, when needing to judge whether that the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues is identical in default error range, can judge that whether the order of the low and high level that each initial code occurs with the low and high level in the scope of numeric data code is identical respectively, under the prerequisite that this order is identical, judge that whether the duration of each low and high level is identical again, if identical, then think that the time having the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code to continue is identical in default error range.

S24, if exist, then using the identical infrared remote-controlled signal of two or more as determining infrared signal, if do not exist, then generate the feedback information of debugging errors.The feedback information of mistake can make prompting select to send the infrared remote-controlled signal of more multistage.

The beneficial effect of the present embodiment is, identical in default error range by judging whether the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues, thus draw the infrared remote-controlled signal whether having and determine, ensure that accuracy and the reliability of judgement.

Embodiment five

Fig. 5 is a kind of method flow diagram debugging infrared remote-controlled signal that the present invention the 5th preferred embodiment proposes;

Based on above-described embodiment, analyze contrast infrared remote-controlled signal, extract the infrared remote-controlled signal with identical signal level and comprise as after debug target signal:

S3, deletes the infrared remote-controlled signal of the default hop count of institute, meanwhile, and storage debug target signal.Due to the infrared remote-controlled signal that not identical infrared remote-controlled signal is mistake or is interfered, occupy the storage space of mobile terminal simultaneously, therefore, after determining required infrared remote-controlled signal, preset the infrared remote-controlled signal of hop count, meanwhile, will confirm that infrared remote-controlled signal is cured as the trigger signal source of the corresponding function button of mobile terminal control apparatus.

S4, sends debug target signal control apparatus by the infrared transmitting terminal of mobile terminal to the electrical equipment mated with telepilot.When after the debugging operations completing above-mentioned infrared remote-controlled signal, finally, debug target signal control apparatus is sent to the electrical equipment mated with telepilot by the infrared transmitting terminal of mobile terminal, if electrical equipment can correctly respond this infrared remote-controlled signal, then terminate this debugging operations, if fail correct response, then can again enter above-mentioned steps and infrared remote-controlled signal is debugged.

The beneficial effect of the present embodiment is, by storing debug target signal, and by debug target signal control apparatus, to realize the inspection to debug results, ensure that accuracy and the reliability of above-mentioned judgement selection result.

One of ordinary skill in the art will appreciate that all or part of step realized in above-described embodiment method is that the hardware that can control to be correlated with by program completes, described program can be stored in a computer read/write memory medium, described storage medium, as ROM/RAM, disk, CD etc.

Embodiment six

Fig. 6 is a kind of structured flowchart debugging the device of infrared remote-controlled signal that the present invention proposes.This device comprises:

Infrared remote-controlled signal receiver module 10, for the infrared remote-controlled signal for receiving multiple hop counts that telepilot sends;

Debug target signal determination module 20, for analyzing the multiple infrared remote-controlled signal of contrast, extraction has the infrared remote-controlled signal of identical signal level as debug target signal.

Further, this device also comprises function button determination module 01, presets hop count determination module 02, control signal generation module 03 and infrared remote-controlled signal generation module 04, wherein:

Function button determination module 01 is for debugging the function button on the debugging demand determination telepilot of infrared remote-controlled signal according to described mobile terminal.

Preset hop count determination module 02 debugs the infrared remote-controlled signal sent needed for the infrared transmitting terminal of success ratio determination telepilot default hop count for the error rate of the infrared receiver end Received signal strength according to mobile terminal and expection.

Control signal generation module 03 response function button, and generate the control signal presetting hop count.

Infrared remote-controlled signal generation module 04 is for generating by the infrared transmitting terminal of telepilot and the control signal of default hop count the infrared remote-controlled signal presetting hop count.

Further, this device also comprises infrared remote-controlled signal memory module 30, for storing the infrared remote-controlled signal of the default hop count of reception.

Further, debug target signal determination module 20 comprises infrared remote-controlled signal resolution unit 21, low and high level duration acquiring unit 22, low and high level duration judging unit 23 and debug results processing unit 24, wherein:

Infrared remote-controlled signal resolution unit 21 is for resolving initial code and the numeric data code of the infrared remote-controlled signal of storage;

The time that low and high level duration acquiring unit 22 continues for obtaining the low and high level of infrared remote-controlled signal in the scope of initial code and numeric data code;

Low and high level duration judging unit 23, in the infrared remote-controlled signal of default hop count, judges whether that the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues is identical in default error range;

Debug results processing unit 24 is for the judged result in conjunction with low and high level duration judging unit, if the time that the low and high level of infrared remote-controlled signal in the scope of initial code with numeric data code that there are two or more continues is identical in default error range, then using the identical infrared remote-controlled signal of two or more as debug target signal, if do not exist, then generate the feedback information of debugging errors.

This device also comprises infrared remote-controlled signal processing module 40 and infrared remote-controlled signal sending module 50, wherein:

Infrared remote-controlled signal process mould 40, for deleting the infrared remote-controlled signal of default hop count, meanwhile, transfers to infrared remote-controlled signal memory module 30 to store debug target signal;

Infrared remote-controlled signal sending module 50 controls described electrical equipment for sending debug target signal by the infrared transmitting terminal of mobile terminal to the electrical equipment mated with telepilot.

Further, the invention allows for a kind of terminal of debugging infrared remote-controlled signal, this terminal comprises above-mentioned a kind of device debugging infrared remote-controlled signal.

Implement the present invention, sent the infrared remote-controlled signal of certain hop count to mobile terminal by telepilot, and by judging to extract identical infrared remote-controlled signal as debug target signal, thus achieve the debugging operations of two steps realizations to infrared remote-controlled signal, namely the first step sends several sections of infrared remote-controlled signals, and second step judges and confirms infrared remote-controlled signal, avoids repetition and back and forth judges infrared remote-controlled signal, improve success ratio and the operating efficiency of debugging, enhance Consumer's Experience.

On the one hand, the default hop count determining the infrared remote-controlled signal sent needed for the infrared transmitting terminal of telepilot is calculated by the error rate of the infrared receiver end Received signal strength of mobile terminal and expection debugging success ratio, the rate of counting on one's card in debug process can be achieved under minimum default hop count, thus make the scheme of debugging optimum, namely hop count is preset minimum, system consumption is less, and execution efficiency is higher simultaneously.

On the other hand, identical in default error range by judging whether the time that the low and high level of the infrared remote-controlled signal of two or more in the scope of initial code with numeric data code continues, thus draw the infrared remote-controlled signal whether having and determine, ensure that accuracy and the reliability of judgement.

Be appreciated that, this device may be used for mobile phone, or there are other communication terminals of infrared function, such as, in smart mobile phone etc., can be run on the software unit in these communication terminals, also can be integrated in these communication terminals as independently suspension member or run in the application system of these mobile terminals.

It should be noted that, the technical characteristic in said method embodiment is all corresponding applicable at this device, no longer repeats here.

Above with reference to the accompanying drawings of the preferred embodiments of the present invention, not thereby limit to interest field of the present invention.Those skilled in the art do not depart from the scope and spirit of the present invention, and multiple flexible program can be had to realize the present invention, and the feature such as an embodiment can be used for another embodiment and obtains another embodiment.All use do within technical conceive of the present invention any amendment, equivalently replace and improve, all should within interest field of the present invention.

Claims (10)

1. debug a method for infrared remote-controlled signal, it is characterized in that, described method comprises:

Receive the infrared remote-controlled signal of multiple hop counts that telepilot sends;

Analyze the described multiple infrared remote-controlled signal of contrast, extraction has the infrared remote-controlled signal of identical signal level as debug target signal.

2. the method for debugging infrared remote-controlled signal according to claim 1, is characterized in that, comprises before the infrared remote-controlled signal of multiple hop counts that described reception telepilot sends:

The debugging demand of debugging described infrared remote-controlled signal according to mobile terminal determines the function button on described telepilot;

The default hop count of the infrared remote-controlled signal sent needed for the infrared transmitting terminal of described telepilot is determined according to the error rate of the infrared receiver end Received signal strength of described mobile terminal and expection debugging success ratio;

Respond described function button, and generate the control signal of described default hop count;

The infrared remote-controlled signal of described default hop count is generated by the infrared transmitting terminal of described telepilot and the control signal of described default hop count.

3. the method for debugging infrared remote-controlled signal according to claim 2, is characterized in that, the described multiple infrared remote-controlled signal of described analysis contrast, extracts the infrared remote-controlled signal with identical signal level and comprises as before debug target signal:

Store the infrared remote-controlled signal of the default hop count of described reception.

4. the method for debugging infrared remote-controlled signal according to claim 3, is characterized in that, the described multiple infrared remote-controlled signal of described analysis contrast, extracts the infrared remote-controlled signal with identical signal level and comprises as debug target signal:

Resolve initial code and the numeric data code of the infrared remote-controlled signal of described storage;

Obtain the time that the low and high level of described infrared remote-controlled signal in the scope of described initial code and described numeric data code continues;

In the infrared remote-controlled signal of described default hop count, judge whether that the time that the infrared remote-controlled signal of two or more continues at described initial code and the low and high level in the scope of numeric data code is identical in default error range;

If exist, then using two or more infrared remote-controlled signal described in identical as described debug target signal, if do not exist, then generate the feedback information of debugging errors.

5. the method for debugging infrared remote-controlled signal according to claim 4, is characterized in that, the described multiple infrared remote-controlled signal of described analysis contrast, extracts the infrared remote-controlled signal with identical signal level and comprises as after debug target signal:

Delete the infrared remote-controlled signal of described default hop count, meanwhile, store described debug target signal;

Send described debug target signal by the infrared transmitting terminal of described mobile terminal to the electrical equipment mated with described telepilot and control described electrical equipment.

6. debug a device for infrared remote-controlled signal, it is characterized in that, described device comprises:

Infrared remote-controlled signal receiver module, for receiving the infrared remote-controlled signal of multiple hop counts that telepilot sends;

Debug target signal determination module, for analyzing the described multiple infrared remote-controlled signal of contrast, extraction has the infrared remote-controlled signal of identical signal level as debug target signal.

7. the device of debugging infrared remote-controlled signal according to claim 6, is characterized in that, also comprises function button determination module, presets hop count determination module, control signal generation module and infrared remote-controlled signal generation module, wherein,

Described function button determination module determines the function button on described telepilot for the debugging demand of debugging described infrared remote-controlled signal according to described mobile terminal;

Described default hop count determination module is used for the default hop count determining the infrared remote-controlled signal sent needed for the infrared transmitting terminal of described telepilot according to the error rate of the infrared receiver end Received signal strength of described mobile terminal and expection debugging success ratio;

Described control signal generation module for responding described function button, and generates the control signal of described default hop count;

Described infrared remote-controlled signal generation module is used for the infrared remote-controlled signal being generated described default hop count by the infrared transmitting terminal of described telepilot and the control signal of described default hop count.

8. the device of debugging infrared remote-controlled signal according to claim 7, is characterized in that, also comprises infrared remote-controlled signal memory module, for storing the infrared remote-controlled signal of the default hop count of described reception.

9. the device of debugging infrared remote-controlled signal according to claim 8, it is characterized in that, infrared remote-controlled signal determination module comprises infrared remote-controlled signal resolution unit, low and high level duration acquiring unit, low and high level duration judging unit and debug results processing unit, wherein

Described infrared remote-controlled signal resolution unit is for resolving initial code and the numeric data code of the infrared remote-controlled signal of described storage;

The time that described low and high level duration acquiring unit continues for obtaining the low and high level of described infrared remote-controlled signal in the scope of described initial code and described numeric data code;

Described low and high level duration judging unit is used in the infrared remote-controlled signal of described default hop count, judges whether that the time that the infrared remote-controlled signal of two or more continues at described initial code and the low and high level in the scope of numeric data code is identical in default error range;

Described debug results processing unit is for the judged result in conjunction with described low and high level duration judging unit, if the time that the infrared remote-controlled signal that there are two or more continues at described initial code and the low and high level in the scope of numeric data code is identical in default error range, then using two or more infrared remote-controlled signal described in identical as described debug target signal, if do not exist, then generate the feedback information of debugging errors.

Described device also comprises infrared remote-controlled signal processing module and infrared remote-controlled signal sending module, wherein,

Described infrared remote-controlled signal processing module, for deleting the infrared remote-controlled signal of described default hop count, meanwhile, stores described debug target signal;

Described infrared remote-controlled signal sending module is used for sending described debug target signal by the infrared transmitting terminal of described mobile terminal to the electrical equipment mated with described telepilot and controls described electrical equipment.

10. debug a terminal for infrared remote-controlled signal, it is characterized in that, described terminal comprises a kind of device debugging infrared remote-controlled signal described in described claim 6-9.