CN203632884U - Audio interface adaption terminal and wireless communication system - Google Patents

Abstract

The utility model provides an audio interface adaption terminal and a wireless communication system thereof. The audio interface adaption terminal comprises an audio connection terminal and a first emission module. The audio connection terminal comprises a first sound channel contact part which is connected with the first emission module, and the first emission module includes a light generator or a sound wave generator.

Description

Audio interface adaptive terminal and wireless communication system

Technical field

The utility model relates to audio interface adaptive terminal and utilizes the wireless communication system of described audio interface adaptive terminal.

Background technology

Audio interface is as the conventional interface of electronic apparatus, but it is usually used in external phonetic entry and output equipment, as the earphone with microphone (microphone, be called for short mic) function, for purposes such as teaching and amusements, as listen to the music, voice course etc.This makes the function singleness of audio interface, and the function expansibility of electronic apparatus is restricted.

Therefore, this area is needed a kind of multi-functional audio interface adaptive terminal badly and is utilized the wireless communication system of described audio interface adaptive terminal.

Utility model content

In order to overcome above-mentioned defect, the utility model aims to provide a kind of multi-functional audio interface adaptive terminal and utilizes the wireless communication system of described audio interface adaptive terminal.

According to one side of the present utility model, a kind of audio interface adaptive terminal is provided, described audio interface adaptive terminal comprises audio frequency splicing ear and the first transmitter module.Described audio frequency splicing ear comprises the first sound channel contact site, and described the first transmitter module is connected with described the first sound channel contact site, and described the first transmitter module is optical generator or sonic generator.

In one example, described audio interface adaptive terminal further comprises second sound channel contact site and is connected in the second transmitter module of described second sound channel contact site, and described the second transmitter module is optical generator or sonic generator.

In one example, described audio interface adaptive terminal further comprises the terminal shell being connected with one end of described audio frequency splicing ear, and described the first transmitter module is arranged on described terminal shell.

In one example, described audio interface adaptive terminal further comprises the terminal shell being connected with one end of described audio frequency splicing ear, and described the first transmitter module and the second transmitter module are arranged on described terminal shell.

In one example, described optical generator is infrared light generator, visible light generator or ultra violet light emitter, and described sonic generator is infrasonic wave generator, can listens wave producer or supersonic generator.

In one example, described audio interface adaptive terminal further comprises mic contact site and the first receiver module that is connected in described mic contact site, and the first receiver module is optical receiver or acoustic receiver.

In one example, described audio interface adaptive terminal further comprises the terminal shell being connected with one end of described audio frequency splicing ear, and described the first transmitter module, the second transmitter module and the first receiver module are arranged on described terminal shell.

In one example, the optical receiver of described the first receiver module is infrared light receiver, visible light generator or ultraviolet light receiver, and the acoustic receiver of described the first receiver module is infrasound receiver, can listens ripple receiver or ultrasonic receiver.

In one example, described audio interface adaptive terminal further comprises the potential device that boosts being connected between described the first sound channel contact site and described the first transmitter module, the described potential device that boosts comprises step-up transformer, and described step-up transformer is for providing operating voltage to described the first transmitter module.

In one example, described audio interface adaptive terminal further comprises second sound channel contact site and is connected in the potential device that boosts of described second sound channel contact site, the described potential device that boosts comprises step-up transformer, described step-up transformer is connected in described the first transmitter module, and described step-up transformer is for providing operating voltage to described the first transmitter module.

In one example, the potential device that boosts described in further comprises plastic filter circuit and the voltage stabilizing circuit of the potential device that boosts described in being series at successively.

In one example, described audio interface adaptive terminal further comprises the potential device that boosts being connected between described the first sound channel contact site and described the first transmitter module, the described potential device that boosts is further connected in described the second transmitter module, described in boost potential device for providing operating voltage to described the first transmitter module and the second transmitter module.

In one example, described audio interface adaptive terminal further comprises the potential device that boosts being connected between described the first sound channel contact site and described the first transmitter module, the described potential device that boosts is further connected in described the first receiver module, described in boost potential device for providing operating voltage to described the first transmitter module and the first receiver module.

According on the other hand of the present utility model, a kind of audio interface adaptive terminal is provided, audio interface adaptive terminal comprises audio frequency splicing ear and the first receiver module.Described audio frequency splicing ear comprises mic contact site, and described mic contact site is connected with described the first receiver module, and described the first receiver module is optical receiver or acoustic receiver.

In one example, described audio interface adaptive terminal further comprises the first sound channel contact site and the potential device that boosts being connected with described the first sound channel contact site, the described potential device that boosts comprises step-up transformer, described step-up transformer is connected in described the first receiver module, described in boost potential device for providing operating voltage to described the first receiver module.

In one example, the potential device that boosts described in further comprises the current rectifying and wave filtering circuit and the voltage stabilizing circuit that are series at successively described step-up transformer.

In one example, described optical receiver is infrared light receiver, visible light generator or ultraviolet light receiver, and described acoustic receiver is infrasound receiver, can listens ripple receiver or ultrasonic receiver.

In one example, described audio interface adaptive terminal further comprises the terminal shell being connected with one end of described audio frequency splicing ear, and described the first receiver module is arranged on described terminal shell.

According on the other hand of the present utility model, a kind of wireless communication system is provided, comprise electronic apparatus, audio interface adaptive terminal and signal receiving device.Described electronic apparatus comprises processor and audio interface, and described processor is for producing predictive encoding and described coding is converted into audio information signal according to the pre-information sending.The audio frequency splicing ear of described audio interface adaptive terminal is plugged in described audio interface to transmit described audio information signal, and described the first transmitter module is for being converted into described audio information signal predetermined light signal or acoustic signals and sending.Described signal receiving device comprises the second receiver module and MCU, described the second receiver module is for receiving light signal or the acoustic signals that described the first transmitter module sends and being converted into the signal of telecommunication, described MCU is for the described signal of telecommunication that receives and decode, and obtains described electronic apparatus institute transmission information.

In one example, described audio interface adaptive terminal further comprises second sound channel contact site and is connected in the second transmitter module of described second sound channel contact site, described the second transmitter module is optical generator or sonic generator, and described the second transmitter module is for being converted into described audio information signal predetermined light signal or acoustic signals and sending.Described the second receiver module is also for receiving light signal or the acoustic signals that described the second transmitter module sends and being converted into the signal of telecommunication, described MCU is also for the light signal or the corresponding signal of telecommunication of acoustic signals that receive and decoding is sent with described the second transmitter module, obtains described electronic apparatus institute transmission information.

In one example, described audio interface adaptive terminal further comprises second sound channel contact site and is connected in the second transmitter module of described second sound channel contact site, described the second transmitter module is optical generator or sonic generator, and described the second transmitter module is for being converted into described audio information signal predetermined light signal or acoustic signals and sending.Described signal receiving device further comprises the 3rd receiver module, described the 3rd receiver module is for receiving light signal or the acoustic signals that described the second transmitter module sends and being converted into the signal of telecommunication, described MCU is also for receiving and decode the described signal of telecommunication, obtains described electronic apparatus institute transmission information.

In one example, described signal receiving device further comprises the 3rd transmitter module, and described the 3rd transmitter module is optical generator or sonic generator.Described audio interface adaptive terminal further comprises mic contact site and the first receiver module that is connected in described mic contact site, and the first receiver module is optical receiver or acoustic receiver.Described MCU is also for producing predictive encoding according to described signal receiving device transmission information in advance, described the 3rd transmitter module is converted into light signal or acoustic signals transmitting for the predetermined coding that described MCU is produced, described the first receiver module transfers to described electronic apparatus for receiving light signal or the acoustic signals of described the 3rd transmitter module transmitting and being converted into audio information signal through described audio frequency splicing ear, the processor of described electronic apparatus is also for decoding the audio information signal of described the first receiver module transmission, obtain described signal receiving device institute transmission information.

According on the other hand of the present utility model, a kind of wireless communication system is provided, comprise sender unit, electronic apparatus and audio interface adaptive terminal.Described sender unit comprises the 3rd transmitter module and MCU, described the 3rd transmitter module is optical generator or sonic generator, described MCU is for producing predictive encoding according to pre-transmission information, and described the 3rd transmitter module is converted into light signal or acoustic signals transmitting for the predetermined coding that described MCU is produced.Described electronic apparatus comprises audio interface and processor, and described audio frequency splicing ear is plugged in described audio interface with transmit audio information signal.Described the first receiver module transfers to described electronic apparatus for receiving light signal or the acoustic signals of described the 3rd transmitter module transmitting and being converted into audio information signal through described audio frequency splicing ear, described processor is for decoding the audio information signal of described the first receiver module transmission, obtains described sender unit institute transmission information.

The utility model provides a kind of audio interface adaptive terminal, described audio interface adaptive terminal people the first transmitter module is optical generator or sonic generator, described the first receiver module is optical receiver or acoustic receiver, described audio interface adaptive terminal can be realized the various functions such as radio communication, beauty treatment, currency examine, fetal heart monitoring, has reached multifunction.

Accompanying drawing explanation

After reading in conjunction with the following drawings the detailed description of the disclosed embodiment of the utility model, more can understand better above-mentioned feature and advantage of the present utility model.

Fig. 1 shows the schematic diagram that is connected in electronic apparatus according to the audio interface adaptive terminal of one side of the present utility model;

Fig. 2 shows the audio interface adaptive terminal of Fig. 1 and the decomposing schematic representation of electronic apparatus;

Fig. 3 is the structure composition schematic diagram of the audio interface adaptive terminal in Fig. 1;

Fig. 4 is the schematic diagram illustrating according to the utility model wireless communication system on the one hand;

Fig. 5 shows according to the schematic diagram of audio interface adaptive terminal on the other hand of the present utility model;

Fig. 6 shows according to the schematic diagram of audio interface adaptive terminal on the other hand of the present utility model;

Fig. 7 shows according to the schematic diagram of wireless communication system on the other hand of the present utility model;

Fig. 8 shows according to the schematic diagram of wireless communication system on the other hand of the present utility model;

Fig. 9 shows according to the schematic diagram of wireless communication system on the other hand of the present utility model; And

Figure 10 shows according to the schematic diagram of wireless communication system on the other hand of the present utility model.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.Note, the aspects of describing below in conjunction with the drawings and specific embodiments is only exemplary, and should not be understood to protection range of the present utility model to carry out any restriction.

As shown in Figure 1, be connected in the schematic diagram of an electronic apparatus 20 for the utility model audio interface adaptive terminal 10 on the one hand.Please further consult Fig. 2, audio interface adaptive terminal 10 comprises audio frequency splicing ear 11, terminal shell 12 and is arranged at the first transmitter module 13, the second transmitter module 14 and first receiver module 15 of terminal shell 12.Electronic apparatus 20 has audio interface 21, and audio frequency splicing ear 11 is plugged in audio interface 21, so that realize the mutual transmission of audio-frequency information between audio interface adaptive terminal 10 and electronic apparatus 20.Terminal shell 12 is connected in one end of audio frequency splicing ear 11.The first transmitter module 13, the second transmitter module 14 and the first receiver module 15 are electrically connected on electronic apparatus 20 by audio frequency splicing ear 11 and audio interface 21.The electronic apparatus 20 of present embodiment describes as an example of mobile phone example, and certainly, electronic apparatus 20 is not limited with present embodiment, as being panel computer, MP3, MP4 etc.

As shown in Figure 3, audio frequency splicing ear 11 comprises four contact sites, being respectively left (right side) sound channel contact site 111, right (left side) sound channel contact site 112, mic contact site 113 and 114, four contact sites of grounding parts electrically contacts for the corresponding contact site in audio interface 21 respectively.The first transmitter module 13 is electrically connected with left (right side) sound channel contact site 111, and the second transmitter module 14 is electrically connected with right (left side) sound channel contact site 112, and the first receiver module 15 is electrically connected with mic contact site 113.

The first transmitter module 13 and the second transmitter module 14 can be all optical generator or sonic generator.Optical generator can be infrared light generator, visible light generator or ultra violet light emitter.Sonic generator can be infrasonic wave generator, can listen wave producer or supersonic generator.The first transmitter module 13 and the second transmitter module 14 can be the same or different, specifically depending on application scenarios.

Conventional optical generator or sonic generator in field under optical generator can adopt.As the infrared light generator of optical generator, visible light generator and ultra violet light emitter can adopt respectively infrared LED, visible LED and ultraviolet LED.

In some embodiments, the voltage that audio interface 21 provides is lower than the operating voltage of optical generator, now need to increase step-up transformer, as shown in Figure 5, audio interface adaptive terminal 10A also comprises the step-up transformer 16 that is connected in a left side (right side) sound channel contact site 111, step-up transformer 16 is connected with the first transmitter module 13, the second transmitter module 14 and the first receiver module 15, so that the first transmitter module 13, the second transmitter module 14 and the first receiver module 15 can normally move in its operating voltage.Step-up transformer 16 can be realized by capacitance voltage multiplier circuit, and it is arranged in terminal shell 12.

For obtaining the light wave of predetermined form, optical generator also can further comprise plastic filter circuit (not shown).Certainly, plastic filter circuit also can be series at step-up transformer 16, as shown in Figure 6, compared with audio interface adaptive terminal 10A, audio interface adaptive terminal 10B comprises that increasing apparatus 16B is to replace step-up transformer 16, increasing apparatus 16B comprises the step-up transformer 16 that series connection arranges successively, current rectifying and wave filtering circuit 17 and voltage stabilizing circuit 18, increasing apparatus 16B is further connected in the first transmitter module 13, the second transmitter module 14 and the first receiver module 15, so that the first transmitter module 13, the second transmitter module 14 and the first receiver module 15 can normally move in its operating voltage.The FET bridge circuit that current rectifying and wave filtering circuit 17 can be made up of field effect transistor is realized, and also can be realized by diode bridge.Increasing apparatus 16B is arranged in terminal shell 12.

Sonic generator can be for conventional infrasonic wave generator, can listen wave producer or supersonic generator, generally, it is without external step-up transformer 16 or increasing apparatus 16B, if when sonic generator need to boost, also can adopt the mode shown in Fig. 5 or Fig. 6 that is similar to that step-up transformer 16 or increasing apparatus 16B are set.

The first receiver module 15 can be optical receiver or acoustic receiver.Optical receiver can be infrared light receiver, visible ray receiver or ultraviolet light receiver; Acoustic receiver can be infrasound receiver, can listen ripple receiver or ultrasonic receiver.Optical receiver or acoustic receiver also can boost by step-up transformer 16 or increasing apparatus 16B, can adopt the connected mode that is similar to Fig. 5 or Fig. 6.The first receiver module 15 is for being converted into the light signal receiving or acoustic signals the audio information signal of predetermined waveform, described audio information signal is sent to electronic apparatus 20 through audio frequency splicing ear 11 and audio interface 21, and obtains data message after electronic apparatus 20 decodings.Audio information signal is the signal of telecommunication that characterizes audio-frequency information.It should be noted that, a kind of optical receiver may have the function that receives various ways light, as a kind of optical receiver can receive two or three in infrared light, visible ray and ultraviolet light; Similarly; a kind of acoustic receiver may have the function that receives various ways ripple; as a kind of acoustic receiver can receive time acousto-optic, can listen in ripple and ultrasonic wave two or three, these are the scope that the utility model is protected, and are not limited with the utility model execution mode.

In the time only having the first transmitter module 13, the second transmitter module 14 and the first receiver module 15 one of them or two needs superchargings, also the output of step-up transformer 16 or increasing apparatus 16B only can be connected in to the module that needs supercharging.Certainly, step-up transformer 16 and increasing apparatus 16B are also replaceable is external power supply, as button cell etc., is not limited with present embodiment.

Audio interface adaptive terminal 10 can be applicable to data radio communication system, as shown in Figure 4, for the data radio communication system 100 that the utility model provides on the one hand, comprises electronic apparatus 20, audio interface adaptive terminal 10 and signal receiving device 30.Electronic apparatus 20 further comprises signal transmitting unit 21 and signal receiving unit 22, and signal transmitting unit 21 comprises coding generation module 211 and signal conversion module 212, and signal receiving unit 22 comprises signal amplification module 221 and decoding unit 222.

Signal receiving device 30 comprises the 3rd transmitter module 31, the second receiver module 32, the 3rd receiver module 33 and MCU34.The 3rd transmitter module 31 can be optical generator or sonic generator, its selection range can be identical with the selection range of the first transmitter module 13 or the second transmitter module 14, be that optical generator can be infrared light generator, visible light generator or ultra violet light emitter, sonic generator can be infrasonic wave generator, can listen wave producer or supersonic generator.This second receiver module 32 and the 3rd receiver module 33 are corresponding with the first transmitter module 13 and the second transmitter module 14 respectively signal receiver, as in the time that the first transmitter module 13 and the second transmitter module 14 are respectively infrared emittance and visible light generator, the second receiver module 32 and the 3rd receiver module 33 correspond to respectively infrared remote receiver and visible ray receiver.The 3rd transmitter module 31 and the first receiver module 15 also have similar corresponding relation, and while being infrared emittance as the 3rd transmitter module 31, the first receiver module 15 corresponds to infrared remote receiver.The second receiver module 32 and the 3rd receiver module 33 are for being converted into the light signal receiving or acoustic signals the signal of telecommunication of predetermined waveform, and the described signal of telecommunication is generated data information after MCU34 decoding.The second receiver module 32 and/or the 3rd receiver module 33 also may further include amplifier, for the signal of telecommunication after transforming is amplified.MCU34 also can be called as single-chip microcomputer, is the chip-scale computer that processor, RAM, ROM, timer conter and multiple I/O Interface integration are formed on a slice chip, does various combination control for different application scenarios.

The Principle of Communication of data radio communication system 100 is as follows: coding generation module 211 is encoded the data message transmitting in advance, signal conversion module 212 is converted into coded message the audio information signal of predetermined waveform, audio information signal is sent to the first transmitter module 13 and/or the second transmitter module 14 by audio interface 21 and audio frequency link 11, the first transmitter module 13 and/or the second transmitter module 14 are sent to corresponding the second receiver module 32 and/or the 3rd receiver module 33 by predetermined light signal or acoustic signals, the second receiver module 32 and/or the 3rd receiver module 33 are sent to MCU34 after the light receiving or acoustic signals are converted into the signal of telecommunication, MCU34 decodes the described signal of telecommunication, obtain data message, MCU34 encodes another data message and is sent to the 3rd transmitter module 31, the 3rd transmitter module 31 is sent to the first receiver module 15 by the coding that carries data message from MCU34 with light signal or the acoustic signals of predetermined format, the light signal of reception or acoustic signals are converted into audio information signal by the first receiver module 15, audio information signal is sent to electronic apparatus 20 through audio frequency link 11 and audio interface 21, and successively after the amplification of signal amplification module 221 and the decoding of decoding unit, obtain corresponding data message.

Be understandable that, the function of the decoding unit 222 of the coding generation module 211 of signal transmitting unit 21 and signal conversion module 212 and signal receiving unit 22 all can be completed by the processor of electronic apparatus 20, or complete at the interior special chip that arranges of electronic apparatus 20, or the interior setting of electronic apparatus 20 correspond respectively to coding generation module 211, signal conversion module 212 and decoding unit 222 three chips complete.Signal amplification module 221 can be for being arranged at the amplifier of electronic apparatus 20.In addition, the signal that the second transmitter module 14 sends also can be received by the second receiver module 32, and now, the 3rd receiver module 33 can omit.Signal receiving device 30 also can comprise multiple transmitter modules, and described multiple transmitter modules all can be received by the first receiver module 15.

Data radio communication system 100 can be applied to gate control system, the data message now being sent by audio interface adaptive terminal 10 can be the authentication information as audio interface adaptive terminal 10 and the electronic apparatus 20 of photon key, and the data message of being launched by signal receiving device 30 can be authentication feedback information.Certainly, data radio communication system 100 also can be applied to the fields such as photon payment, sound wave payment, photon ticketing service, sound wave ticketing service, is not limited with present embodiment.

In optional execution mode, the quantity of receiver module also can be one, as selects one of them in the second receiver module 32 and the 3rd receiver module 33; The 3rd transmitter module 31 also can be omission, and now data radio communication system 100 only has one-way communication pattern; Can certainly omit the second receiver module 32 and the 3rd receiver module 33, now signal receiving device 30 is converted into a sender unit, and now data radio communication system 100 is also only to have single communication pattern; Certainly, audio interface adaptive terminal 10 also can be realized and communicating by letter simultaneously with sender unit with separate signal receiving device.

As shown in Figure 7, be the utility model data radio communication system 100C on the other hand, Fig. 7 has omitted electronic apparatus 20.In the present embodiment, audio interface adaptive terminal 10C comprises the first transmitter module 13 and the first receiver module 15, the first transmitter module 13 and the first receiver module 15 carry out supercharging by the step-up transformer 16 that is connected in the right side (left side) sound channel contact site 112 to it, have omitted the second transmitter module 14 in present embodiment; Signal receiving device 30C has omitted the 3rd receiver module 33 accordingly, and comprises the second corresponding with the first transmitter module 13 and the first receiver module 15 respectively receiver module 32 and the 3rd transmitter module 31.In this execution mode, can realize equally two-way communication.Certainly, step-up transformer 16 also can omit or be substituted by increasing apparatus 16B as shown in Figure 6, and step-up transformer 16 or increasing apparatus 16B also can be serially connected with between a left side (right side) sound channel contact site 111 and the first transmitter module 13.

As shown in Figure 8, be the utility model data radio communication system 100D on the other hand, Fig. 8 has omitted electronic apparatus 20.In the present embodiment, audio interface adaptive terminal 10D comprises the first transmitter module 13 and the second receiver module 14, has omitted the first receiver module 15 in present embodiment; Signal receiving device 30D has omitted the 3rd transmitter module 31 accordingly, and comprises the second corresponding with the first transmitter module 13 and the second transmitter module 14 respectively receiver module 32 and the 3rd receiver module 33.In this execution mode, only can realize one-way communication.Certainly, also can carry out supercharging to the first transmitter module 13 and/or the second transmitter module 14 by step-up transformer 16 or increasing apparatus 16B.

As shown in Figure 9, be the utility model data radio communication system 100E on the other hand, Fig. 9 has omitted electronic apparatus 20.In the present embodiment, audio interface adaptive terminal 10E comprises the first transmitter module 13, the first transmitter module 13 carries out supercharging by the step-up transformer 16 that is connected in the right side (left side) sound channel contact site 112 to it, has omitted the second transmitter module 14 and the first receiver module 15 in present embodiment; Signal receiving device 30E has omitted the 3rd transmitter module 31 and the 3rd receiver module 33 accordingly, and comprises second receiver module 32 corresponding with the first transmitter module 13.In this execution mode, only can realize one-way communication.Certainly, step-up transformer 16 also can omit or be substituted by increasing apparatus 16B as shown in Figure 6, and step-up transformer 16 or increasing apparatus 16B also can be serially connected with a left side (right side) sound channel contact site 111.

As shown in figure 10, be the utility model data radio communication system 100F on the other hand, Figure 10 has omitted electronic apparatus 20.In the present embodiment, audio interface adaptive terminal 10F comprises the first receiver module 15, the first receiver module 15 carries out supercharging by the step-up transformer 16 that is connected in the right side (left side) sound channel contact site 112 to it, has omitted the first transmitter module 13 and the second transmitter module 14 in present embodiment; Signal receiving device 30F has omitted the second receiver module 32 and the 3rd receiver module 33 accordingly, and comprises three transmitter module 31 corresponding with the first receiver module 15.In this execution mode, only can realize one-way communication.Certainly, step-up transformer 16 also can omit or be substituted by increasing apparatus 16B as shown in Figure 6, and step-up transformer 16 or increasing apparatus 16B also can be serially connected with a left side (right side) sound channel contact site 111.

For ease of explanation present embodiment, part accompanying drawing has omitted the part-structure in order to guarantee data radio communication system 100 normal operations, as memory cell, driver element etc.

Except data communication, audio interface adaptive terminal of the present utility model can also have other application, as: while sending infrared light, can be used for beauty treatment; While sending ultraviolet light, can be used for currency examine; When send ultrasonic wave and receive ultrasonic wave while carrying out simultaneously, can be used as rangefinder or simple and easy radar, can also be used for fetal heart monitoring; Receive the monitoring that infrasound can be used as the natural calamities such as earthquake, storm.Certainly, realize above-mentioned functions, need corresponding application program be installed at electronic apparatus 20.

Those skilled in the art will understand, and various illustrative logic plates, module, circuit and the algorithm steps described in conjunction with embodiment disclosed herein can be embodied as electronic hardware, computer software or the two combination.For clearly explaining orally this interchangeability of hardware and software, various illustrative components, frame, module, circuit and step are done vague generalization with its functional form in the above and are described.This type of is functional is implemented as the design constraint that hardware or software depend on concrete application and puts on total system.Technical staff can realize by different modes described functional for every kind of application-specific, but such realize decision-making and should not be interpreted to and cause having departed from scope of the present utility model.

Various illustrative logic plates, module and the circuit of describing in conjunction with embodiment disclosed herein can be realized or carry out with any combination that general processor, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), field programmable gate array (FPGA) or other programmable logic device, discrete or transistor logic, discrete nextport hardware component NextPort or its are designed to carry out function described herein.General processor can be microprocessor, but in alternative, this processor can be processor, controller, microcontroller or the state machine of any routine.Processor can also be implemented as the combination of computing equipment, the combination of for example DSP and microprocessor, multi-microprocessor, with one or more microprocessors or any other this type of configuration of DSP central cooperation.

Description before providing is in order to make any technical staff in this area all can put into practice various aspects described herein.But should be appreciated that, protection range of the present utility model should be as the criterion with claims, and should not be defined to concrete structure and the assembly of above explained orally embodiment.Those skilled in the art, in spirit and scope of the present utility model, can carry out various variations and modification to each embodiment, within these variations and modification also drop on protection range of the present utility model.

Claims (23)

1. an audio interface adaptive terminal, comprise audio frequency splicing ear, described audio frequency splicing ear comprises the first sound channel contact site, it is characterized in that: described audio interface adaptive terminal further comprises the first transmitter module being connected with described the first sound channel contact site, and described the first transmitter module is optical generator or sonic generator.

2. audio interface adaptive terminal as claimed in claim 1, is characterized in that, further comprises second sound channel contact site and is connected in the second transmitter module of described second sound channel contact site, and described the second transmitter module is optical generator or sonic generator.

3. audio interface adaptive terminal as claimed in claim 1, is characterized in that, further comprises the terminal shell being connected with one end of described audio frequency splicing ear, and described the first transmitter module is arranged on described terminal shell.

4. audio interface adaptive terminal as claimed in claim 2, is characterized in that, further comprises the terminal shell being connected with one end of described audio frequency splicing ear, and described the first transmitter module and the second transmitter module are arranged on described terminal shell.

5. audio interface adaptive terminal as claimed in claim 2, it is characterized in that, described optical generator is infrared light generator, visible light generator or ultra violet light emitter, and described sonic generator is infrasonic wave generator, can listens wave producer or supersonic generator.

6. the audio interface adaptive terminal as described in claim 1 or 2 any one, is characterized in that, further comprises mic contact site and the first receiver module that is connected in described mic contact site, and the first receiver module is optical receiver or acoustic receiver.

7. audio interface adaptive terminal as claimed in claim 6, it is characterized in that, further comprise the terminal shell being connected with one end of described audio frequency splicing ear, described the first transmitter module, the second transmitter module and the first receiver module are arranged on described terminal shell.

8. audio interface adaptive terminal as claimed in claim 6, it is characterized in that, described optical receiver is infrared light receiver, visible light generator or ultraviolet light receiver, and described acoustic receiver is infrasound receiver, can listens ripple receiver or ultrasonic receiver.

9. audio interface adaptive terminal as claimed in claim 1, it is characterized in that, further comprise the potential device that boosts being connected between described the first sound channel contact site and described the first transmitter module, the described potential device that boosts comprises step-up transformer, and described step-up transformer is for providing operating voltage to described the first transmitter module.

10. audio interface adaptive terminal as claimed in claim 1, it is characterized in that, further comprise second sound channel contact site and the potential device that boosts that is connected in described second sound channel contact site, the described potential device that boosts comprises step-up transformer, described step-up transformer is connected in described the first transmitter module, and described step-up transformer is for providing operating voltage to described the first transmitter module.

11. audio interface adaptive terminals as described in claim 9 or 10, is characterized in that, described in the potential device that boosts further comprise plastic filter circuit and the voltage stabilizing circuit of the potential device that boosts described in being series at successively.

12. audio interface adaptive terminals as claimed in claim 2, it is characterized in that, further comprise the potential device that boosts being connected between described the first sound channel contact site and described the first transmitter module, the described potential device that boosts is further connected in described the second transmitter module, described in boost potential device for providing operating voltage to described the first transmitter module and the second transmitter module.

13. audio interface adaptive terminals as claimed in claim 6, it is characterized in that, further comprise the potential device that boosts being connected between described the first sound channel contact site and described the first transmitter module, the described potential device that boosts is further connected in described the first receiver module, described in boost potential device for providing operating voltage to described the first transmitter module and the first receiver module.

14. 1 kinds of audio interface adaptive terminals, comprise audio frequency splicing ear, described audio frequency splicing ear comprises mic contact site, it is characterized in that: described audio interface adaptive terminal further comprises the first receiver module being connected with described mic contact site, described the first receiver module is optical receiver or acoustic receiver.

15. audio interface adaptive terminals as claimed in claim 14, it is characterized in that, further comprise the first sound channel contact site and the potential device that boosts being connected with described the first sound channel contact site, the described potential device that boosts comprises step-up transformer, described step-up transformer is connected in described the first receiver module, described in boost potential device for providing operating voltage to described the first receiver module.

16. audio interface adaptive terminals as claimed in claim 15, is characterized in that, described in the potential device that boosts further comprise the current rectifying and wave filtering circuit and the voltage stabilizing circuit that are series at successively described step-up transformer.

17. audio interface adaptive terminals as claimed in claim 14, it is characterized in that, described optical receiver is infrared light receiver, visible light generator or ultraviolet light receiver, and described acoustic receiver is infrasound receiver, can listens ripple receiver or ultrasonic receiver.

18. audio interface adaptive terminals as described in claim 14 to 17 any one, is characterized in that, further comprise the terminal shell being connected with one end of described audio frequency splicing ear, described the first receiver module is arranged on described terminal shell.

19. 1 kinds of wireless communication systems, comprising:

Electronic apparatus, comprises processor and audio interface, and described processor is for producing predictive encoding and described coding is converted into audio information signal according to the pre-information sending;

Audio interface adaptive terminal as claimed in claim 1, described audio frequency splicing ear is plugged in described audio interface to transmit described audio information signal, and described the first transmitter module is for being converted into described audio information signal predetermined light signal or acoustic signals and sending; And

Signal receiving device, comprise the second receiver module and MCU, described the second receiver module is for receiving light signal or the acoustic signals that described the first transmitter module sends and being converted into the signal of telecommunication, and described MCU is for receiving and decode the described signal of telecommunication, obtains described electronic apparatus institute transmission information.

20. wireless communication systems as claimed in claim 19, it is characterized in that, described audio interface adaptive terminal further comprises second sound channel contact site and is connected in the second transmitter module of described second sound channel contact site, described the second transmitter module is optical generator or sonic generator, and described the second transmitter module is for being converted into described audio information signal predetermined light signal or acoustic signals and sending; Described the second receiver module is also for receiving light signal or the acoustic signals that described the second transmitter module sends and being converted into the signal of telecommunication, described MCU is also for the light signal or the corresponding signal of telecommunication of acoustic signals that receive and decoding is sent with described the second transmitter module, obtains described electronic apparatus institute transmission information.

21. wireless communication systems as claimed in claim 19, it is characterized in that, described audio interface adaptive terminal further comprises second sound channel contact site and is connected in the second transmitter module of described second sound channel contact site, described the second transmitter module is optical generator or sonic generator, and described the second transmitter module is for being converted into described audio information signal predetermined light signal or acoustic signals and sending; Described signal receiving device further comprises the 3rd receiver module, described the 3rd receiver module is for receiving light signal or the acoustic signals that described the second transmitter module sends and being converted into the signal of telecommunication, described MCU is also for receiving and decode the described signal of telecommunication, obtains described electronic apparatus institute transmission information.

22. wireless communication systems as described in claim 19 to 21 any one, is characterized in that, described signal receiving device further comprises the 3rd transmitter module, and described the 3rd transmitter module is optical generator or sonic generator, described audio interface adaptive terminal further comprises mic contact site and the first receiver module that is connected in described mic contact site, and the first receiver module is optical receiver or acoustic receiver, described MCU is also for producing predictive encoding according to described signal receiving device transmission information in advance, described the 3rd transmitter module is converted into light signal or acoustic signals transmitting for the predetermined coding that described MCU is produced, described the first receiver module transfers to described electronic apparatus for receiving light signal or the acoustic signals of described the 3rd transmitter module transmitting and being converted into audio information signal through described audio frequency splicing ear, the processor of described electronic apparatus is also for decoding the audio information signal of described the first receiver module transmission, obtain described signal receiving device institute transmission information.

23. 1 kinds of wireless communication systems, comprising:

Sender unit, comprise the 3rd transmitter module and MCU, described the 3rd transmitter module is optical generator or sonic generator, described MCU is for producing predictive encoding according to pre-transmission information, and described the 3rd transmitter module is converted into light signal or acoustic signals transmitting for the predetermined coding that described MCU is produced;

Electronic apparatus and audio interface adaptive terminal as claimed in claim 14, described electronic apparatus comprises audio interface and processor, described audio frequency splicing ear is plugged in described audio interface with transmit audio information signal, described the first receiver module transfers to described electronic apparatus for receiving light signal or the acoustic signals of described the 3rd transmitter module transmitting and being converted into audio information signal through described audio frequency splicing ear, described processor is for decoding the audio information signal of described the first receiver module transmission, obtain described sender unit institute transmission information.

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