Utility model content
In order to overcome above-mentioned defect, the utility model aims to provide a kind of multi-functional information interactive device based on radio communication.
The utility model provides a kind of information interactive device based on radio communication, comprises information interactive device body and COBBAIF adaptive terminal based on radio communication;
The described information interactive device body based on radio communication comprises shell, power supply, main controller, audio video processor and COBBAIF, described power supply, main controller and audio video processor are arranged in described shell, described COBBAIF is embedded in described shell, described main controller is connected with audio video processor, described COBBAIF is connected with described audio video processor, and described COBBAIF comprises the first sound channel contact feet;
Described COBBAIF adaptive terminal comprises audio jack and the first emission element, described audio jack is plugged in described COBBAIF, described audio jack comprises the first sound channel contact point electrically contacting with described the first sound channel contact feet, described the first emission element is connected with described the first sound channel contact point, and described the first emission element is light wave generator or sonic generator.
Further, the described information interactive device body based on radio communication also comprises circuit board, described main controller, audio video processor and COBBAIF are all electrically connected on described circuit board, and described power supply is electrically connected on described circuit board and powers to described main controller, audio video processor and COBBAIF with the conducting wire by circuit board.
Further, the described information interactive device body based on radio communication also comprises memory and input control device, described memory and described input control device are electrically connected on described circuit board, and described memory and described input control device are electrically connected on described main controller by the conducting wire of circuit board.
Further, described audio jack further comprises mic contact point and is connected in the first receiving-member of described mic contact point, described COBBAIF also comprises mic contact feet, and described mic contact point and described mic contact feet electrically contact, and described the first receiving-member is photodetector or sound wave detector.
Further, described COBBAIF adaptive terminal also comprises the terminal shell being connected with one end of described audio jack, and described the first emission element is arranged on described terminal shell.
Further, described COBBAIF adaptive terminal also further comprises the terminal shell being connected with one end of described audio jack, and described the first emission element and the first receiving-member are arranged on described terminal shell.
Further, described COBBAIF adaptive terminal also comprises the potential device that boosts being connected between described the first sound channel contact point and described the first emission element, the described potential device that boosts comprises step-up transformer, and described step-up transformer is for providing operating voltage to described the first emission element.
Further, described audio jack also comprises second sound channel contact point, described COBBAIF also comprises the potential device that boosts that is connected in described second sound channel contact point, the described potential device that boosts comprises step-up transformer, described step-up transformer is connected in described the first emission element, and described step-up transformer is for providing operating voltage to described the first emission element.
Further, the potential device that boosts described in also comprises the plastic filter circuit and the mu balanced circuit that are series at successively described step-up transformer.
Further, on the shell of the described information interactive device body based on radio communication, be embedded with volume adjusting key, direction adjusting key.
The utility model also provides a kind of wireless communication system, comprising:
Information interactive device based on radio communication as above; And
Signal receiving device, comprises for receiving optical signal or the acoustic signals that described the first emission element sends the second receiving-member that is converted into the signal of telecommunication, and for receiving and the MCU of the described signal of telecommunication of decoding.
Information interactive device based on radio communication of the present utility model has adopted COBBAIF adaptive terminal, the first emission element of described COBBAIF adaptive terminal is optical generator or sonic generator, described the first receiving-member is optical receiver or acoustic receiver, this just makes the described information interactive device based on radio communication except meeting Entertainment experience, can also realize the various functions such as radio communication, beauty treatment, gate inhibition, meet the demand of multifunction.
Detailed description of the invention
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 domain of the present utility model to carry out any restriction.
As illustrated in fig. 1 and 2, be the schematic diagram of the utility model information interactive device based on radio communication 100 on the one hand.Information interactive device 100 based on radio communication comprises the information interactive device body 20 based on radio communication and is connected in the COBBAIF adaptive terminal 10 of the information interactive device body 20 based on radio communication.COBBAIF adaptive terminal 10 comprises audio jack 11, terminal shell 12 and is arranged at the first emission element 13 and first receiving-member 15 of terminal shell 12.Information interactive device body 20 based on radio communication has COBBAIF 201, audio jack 11 is plugged in COBBAIF 201, so that realize the mutual transmission of audio-frequency information between COBBAIF adaptive terminal 10 and the information interactive device body 20 based on radio communication.
Please further consult Fig. 4, audio jack 11 comprises four contact points, is respectively left (right side) sound channel contact point 111, right (left side) sound channel contact point 112, mic contact point 113 and earth point 114.COBBAIF 201 comprises respectively a left side (right side) the sound channel contact feet corresponding with above-mentioned four contact points, the right side (left side) sound channel contact feet, mic contact feet and grounding leg, in the time that audio jack 11 is inserted described COBBAIF 201, four contact points electrically contact with corresponding contact feet respectively.The first emission element 13 is electrically connected with left (right side) sound channel contact point 111, and the first receiving-member 15 is electrically connected with mic contact point 113.
The first emission element 13 can be 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.
Optical generator can adopt optical generator conventional in this area or sonic generator.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 COBBAIF 201 provides is lower than the operating voltage of optical generator, now need to increase step-up transformer, as shown in Figure 4, COBBAIF adaptive terminal 10 also comprises the step-up transformer 16 that is connected in the right side (left side) sound channel contact point 112, step-up transformer 16 is connected with the first emission element 13 and the first receiving-member 15, so that the first emission element 13 and the first receiving-member 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 5, compared with COBBAIF adaptive terminal 10, COBBAIF adaptive terminal 10A comprises that increasing apparatus 16A is to replace step-up transformer 16, increasing apparatus 16A comprises step-up transformer 16, current rectifying and wave filtering circuit 17 and the mu balanced circuit 18 that series connection arranges successively, increasing apparatus 16A is further connected in the first emission element 13 and the first receiving-member 15, so that the first emission element 13 and the first receiving-member 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 FET is realized, and also can be realized by diode bridge.Increasing apparatus 16A 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 16A, if when sonic generator need to boost, also can adopt the mode shown in Fig. 4 or Fig. 5 that is similar to that step-up transformer 16 or increasing apparatus 16A are set.
The first receiving-member 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 16A, can adopt the connected mode that is similar to Fig. 4 or Fig. 5.The first receiving-member 15 is for being converted into the optical signal receiving or acoustic signals the audio information signal of predetermined waveform, described audio information signal is sent to the information interactive device body 20 based on radio communication through audio jack 11 and COBBAIF 201, and obtains data message after the information interactive device body 20 based on radio communication is processed.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 sound wave; 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 embodiment.
When only have the first emission element 13 and the first receiving-member 15 one of them while needing supercharging, also the output of step-up transformer 16 or increasing apparatus 16A only can be connected in to the parts that need supercharging.Certainly, step-up transformer 16 and increasing apparatus 16A are also replaceable is external power supply, as button cell etc., is not limited with present embodiment.
Consult Fig. 3, the described information interactive device body 20 based on radio communication comprises shell 21 and is arranged at the each functional part in shell 21.Please further consult Fig. 1, taking a PSP game machine of Sony as example, the operating surface middle part of shell 21 is display screen, the left and right sides and downside are provided with multiple operated keys, for example the button in left side is direction operation key (up and down), and right side is multiple function keys, and lower right is START power button 24, lower left be volume adjusting key (increase volume+, reduce volume-).The insertion opening of COBBAIF 201 is opened in the bottom surface A of shell 21, the position that COBBAIF adaptive terminal 10 inserts.Certainly, the information interactive device body based on radio communication also includes the module of other audio frequency and video broadcasting needs, repeats no more here, and emphasis is told about the functional part relevant to COBBAIF adaptive terminal 10.
As shown in Figure 3, the functional part being arranged in shell 21 comprises main controller C, trigger 210, audio video processor 211, memory 212 and input control device 213.Trigger 210 triggers the operation of audio video processor 211 for the triggering signal receiving according to the first receiving-member 15.Audio video processor 211 is for generating the signal of telecommunication that comprises pre-transmission data according to the triggering of trigger 210, and by electric signal transmission to COBBAIF 201, the signal of telecommunication is finally sent by the first emission element 13 through audio jack 11, COBBAIF adaptive terminal 10 also can further comprise the analog-to-digital conversion parts (not shown) that is connected in audio jack 11 and the first emission element 13, be converted into data signal, the transmitting of first emission element 13 of being more convenient for for the analog signal that COBBAIF 201 is exported; Main controller C is the transfer of data to audio video processor 211 for control inputs controller 213, and control storage 212 is to the transfer of data of audio video processor 211.Memory 212 can storing audio files, as the formatted file such as MP3, WMA, also can store data message that the first emission element 13 transmits in advance as coded file, memory 212 can be according to the request of audio video processor 211 to audio video processor 211 transmitting data informations, or the instruction of the playback of audio information of sending according to main controller C sends audio file to audio video processor 211.Audio video processor 211 can be decoded to the audio file transmitting from memory 212 according to the instruction of main controller C, and by decoded audio data transmission to COBBAIF 201.In present embodiment, trigger 210, main controller C, audio video processor 211, memory 212 and input control device 213 are all arranged on a circuit board 25, circuit board 25 is arranged in shell 21, and trigger 210, audio video processor 211, memory 212, main controller C and input control device 213 electrical connection each other realize by the conducting wire in circuit board 25.
Information interactive device body 20 based on radio communication also comprises the power supply 26 being arranged in shell 21, and power supply 26 can be lighium polymer power supply, lithium ion power supply etc., is connected, to power to each functional part with circuit board 25.
As shown in Figure 1, the information interactive device body 20 based on radio communication also comprises power button 24, is arranged at the operation interface lower right of the information interactive device body 20 based on radio communication, for opening the information interactive device body 20 based on radio communication.In a preferred embodiment, can be connected in the radio reception module of main controller and audio video processor 211 in the interior further setting of shell 21, thereby make the information interactive device body 20 based on radio communication there is wireless function.
Information interactive device 100 based on radio communication can be applicable to data radio communication system, as shown in Figure 4, for the data radio communication system 200 that the utility model provides on the one hand, comprises information interactive device 100 and signal receiving device 30 based on radio communication.
Signal receiving device 30 comprises the second emission element 31, the second receiving-member 32 and MCU34.The second emission element 31 can be optical generator or sonic generator, its selection range can be identical with the selection range of the first emission element 13, 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 receiving-member 32 is the signal receiver corresponding with the first emission element 13, and as in the time that the first emission element 13 is visible light generator, the second receiving-member 32 corresponds to visible ray receiver.The second emission element 31 and the first receiving-member 15 also have similar corresponding relation, and while being infrared emittance as the second emission element 31, the first receiving-member 15 corresponds to infrared remote receiver.The second receiving-member 32 is for being converted into the optical 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 receiving-member 32 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 200 is as follows: the second emission element 31 sends the signal that includes trigger message and received by the first receiving-member 15 with the form of light wave or sound wave, the optical signal of reception or acoustic signals are converted into audio information signal by the first receiving-member 15, and audio information signal is sent to the trigger 210 of the information interactive device body 20 based on radio communication through audio jack 11 and COBBAIF 201; Trigger 210 triggers audio video processor 211 according to this audio information signal and moves; Audio video processor 211 is sent to the first emission element 13 by being stored in after coded message in memory 212 is modulated by COBBAIF 201 and audio jack 11, the first emission element 13 is sent to the second corresponding receiving-member 32 by predetermined optical signal or acoustic signals, the second receiving-member 32 is sent to MCU34 after the light receiving or acoustic signals are converted into the signal of telecommunication, MCU34 decodes the described signal of telecommunication, obtains data message.MCU34 also compares for the data message that decoding is obtained and the data message prestoring, if result is correct, and the operation of being correlated with, as whether consistent in comparison identity information, if consistent, the action of opening the door.
Be that data radio communication system 200 can be used for gate control system, the information interactive device 100 based on radio communication is now as gate control system photon key.Certainly, data radio communication system 200 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.
As shown in Figure 6, for the utility model data radio communication system 200B on the other hand, the difference of the data radio communication system 200 of itself and Fig. 4 is, information interactive device 100 based on radio communication has omitted the first receiving-member 15, signal receiving device 30B has omitted the second emission element 31 accordingly, certainly, step-up transformer 16 also can omit or be substituted by increasing apparatus 16A as shown in Figure 5, and step-up transformer 16 or increasing apparatus 16A also can be serially connected with between a left side (right side) sound channel contact point 111 and the first emission element 13.
Except data communication, information interactive device 100 or the 100B based on radio communication 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.
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), special IC (ASIC), field programmable gate array (FPGA) or other PLD, 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 domain 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 amendment to each embodiment, within these variations and amendment also drop on protection domain of the present utility model.