CN204069302U - Omnipotent earphone - Google Patents
Omnipotent earphone Download PDFInfo
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- CN204069302U CN204069302U CN201420503828.4U CN201420503828U CN204069302U CN 204069302 U CN204069302 U CN 204069302U CN 201420503828 U CN201420503828 U CN 201420503828U CN 204069302 U CN204069302 U CN 204069302U
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Abstract
The utility model proposes omnipotent earphone, relate to earphone field.Described omnipotent earphone, comprises left earplug, right earplug, microphone, interface plug and change-over circuit; Described interface plug is four-part form interface plug, to comprise in tip, first ring and end in ring, second; Wherein, tip is L channel end, is electrically connected with the positive pole of left earplug, and in first, ring is R channel end, is electrically connected with the positive pole of right earplug.Described change-over circuit comprises two inputs and two outputs, and described two inputs comprise first input end and the second input, and described two outputs comprise microphone output and ground output.Described interface plug second in ring and end and change-over circuit two input electricity in succession; Described microphone output is electrically connected with the positive pole of microphone, and described ground output is connected with the negative electricity of left earplug, right earplug and microphone respectively.This omnipotent earphone is inserted in mobile terminal as the receiver J-Horner of various criterion on mobile phone can normally work.
Description
Technical field
The utility model relates to earphone field, particularly relate to a kind of can the earphone of receiver J-Horner of compatible various criterion.
Background technology
Smart mobile phone is now extensively welcomed by the people.One of accessory of current mobile phone---earphone generally adopts four sections of stereophone interface plugs with microphone function.As shown in Figure 1, be four sections of stereophone interface plug structural representations with microphone function.
At present these four sections of stereophone interface plugs have the standard of two kinds of main flows, and one is international standard (CTIA) interface plug, from left to right on interface plug each section be followed successively by: 1 is L channel end, and 2 is R channel ends, and 3 is ground terminals, and 4 is microphone ends; Another kind is national standard (OMTP) interface plug, from left to right on interface plug each section be followed successively by: 1 is L channel end, and 2 is R channel ends, and 3 is microphone ends, and 4 is ground terminals.The difference of visible international standard (CTIA) interface plug and national standard (OMTP) interface plug is the 3rd section and the 4th section, and both are just contrary.Correspondingly, the receiver J-Horner on mobile phone is also divided into international standard (CTIA) socket and national standard (OMTP) socket.
When only having the receiver J-Horner on four sections of stereophone interface plugs and mobile phone to be same standard, earphone is received on mobile phone and could normally be worked.Therefore, when headset plug is different from the receiver J-Horner standard of mobile phone terminal, mutually can not be compatible, earphone can not normally work.
Utility model content
The purpose of this utility model proposes omnipotent earphone; Whether this omnipotent earphone is identical with the receiver J-Horner standard of mobile phone terminal regardless of the earphone interface plug standards of itself, normally can mate work with mobile phone.
The technical solution of the utility model is as follows:
The utility model is omnipotent earphone, comprises left earplug, right earplug, microphone and interface plug; The utility model also comprises a change-over circuit;
Described interface plug is four-part form interface plug, to comprise in tip, first ring and end in ring, second; Wherein, tip is L channel end, is electrically connected with the positive pole of left earplug, and in first, ring is R channel end, is electrically connected with the positive pole of right earplug;
Described change-over circuit comprises two inputs and two outputs, and described two inputs comprise first input end and the second input, and described two outputs comprise microphone output and ground output;
Described interface plug second in ring and end and change-over circuit two input electricity in succession; Described microphone output is electrically connected with the positive pole of microphone, and described ground output is connected with the negative electricity of left earplug, right earplug and microphone respectively.
Further, the utility model also comprises one with reference to ground electric wire, and electric wire one end, described reference ground is electrically connected with the ground output of change-over circuit, and the other end is the charging inlet be connected with the charging port of mobile terminal.
Further, described charging inlet is micro USB interface.
Further, described change-over circuit comprises P channel depletion type metal-oxide-semiconductor P2, P channel depletion type metal-oxide-semiconductor P3, N channel depletion type metal-oxide-semiconductor N2, N channel depletion type metal-oxide-semiconductor N3, diode D5, diode D6, diode D7, diode D8, diode D9, diode D10, diode D11, resistance R0 and resistance R2;
The drain electrode of described metal-oxide-semiconductor P2 and the drain electrode of metal-oxide-semiconductor N2 are connected in one end, and this end is the first input end of described change-over circuit; The source electrode of metal-oxide-semiconductor P2 is connected with the negative pole of diode D5, drains to be connected with the positive pole of diode D5; The drain electrode of metal-oxide-semiconductor N2 is connected with the negative pole of diode D6, and source electrode is connected with the positive pole of diode D6; The source electrode of metal-oxide-semiconductor P2 is connected with the negative pole of diode D9, and the source electrode of metal-oxide-semiconductor N2 is connected with the positive pole of diode D9;
The drain electrode of described metal-oxide-semiconductor P3 and the drain electrode of metal-oxide-semiconductor N3 are connected in one end, and this end is the second input of described change-over circuit; The source electrode of metal-oxide-semiconductor P3 is connected with the negative pole of diode D8, drains to be connected with the positive pole of diode D8; The drain electrode of metal-oxide-semiconductor N3 is connected with the negative pole of diode D7, and source electrode is connected with the positive pole of diode D7;
The grid of metal-oxide-semiconductor P2 and the grid of metal-oxide-semiconductor N2 are all connected in one end of resistance R2, and the other end of resistance R2 is connected in the second input; The grid of metal-oxide-semiconductor P3 and the grid of metal-oxide-semiconductor N3 are all connected in one end of resistance R0, and the other end of resistance R0 is connected in first input end;
One end that resistance R2 is not connected with the second input, is also connected with the negative pole of diode D10, and the positive pole of diode D10 is connected with the source electrode of metal-oxide-semiconductor N2; One end that resistance R0 is not connected with first input end, is also connected with the negative pole of diode D11, and the positive pole of diode D11 is connected with the source electrode of metal-oxide-semiconductor N3;
The source electrode of metal-oxide-semiconductor P2 and the source electrode of metal-oxide-semiconductor P3 are connected in one end, and this end is the microphone output of described change-over circuit; The source electrode of metal-oxide-semiconductor N2 and the source electrode of metal-oxide-semiconductor N3 are connected in one end, and this end is the ground output of described change-over circuit, and this end is also connected with the one end with reference to the non-charging inlet of ground electric wire.
The beneficial effects of the utility model:
1, the introducing of change-over circuit, makes the receiver J-Horner of the compatible various criterion of omnipotent earphone energy described in the utility model.Receiver J-Horner regardless of mobile terminals such as mobile phones is international standard (CTIA) or national standard (OMTP), normally can work, such as listen to the music and make a phone call after described omnipotent earphone plugged earphone socket; Meanwhile, the change-over circuit that the N-channel MOS pipe of depletion type, the P channel MOS tube of depletion type, resistance and diode are formed, makes the utility model when the receiver J-Horner of compatible various criterion, has not loss audio-frequency information, the feature of high fidelity (Hi-Fi);
2, with reference to the introducing of ground electric wire, omnipotent earphone better effects if described in the utility model is made.Chipset main flow in present mobile phone is all the moving chip adopting high pass or Taiwan MediaTek Inc to produce.For the mobile phone of the moving chip adopting Taiwan MediaTek Inc to produce, this kind of mobile phone is when listening to the music, on its receiver J-Horner, ground terminal and microphone end do not have the signal of telecommunication to export, thus in society some compatible with earphones faced with this situation time, due to the uncertainty of earth signal, or cisco unity malfunction.And the utility model can be connected with the charging port of mobile phone with reference to one end of ground electric wire excessively, introduce one with reference to earth signal, make earphone end can receive a clear and definite earth signal, thus omnipotent earphone described in the utility model also can normally be worked faced with this situation time.
Accompanying drawing explanation
Fig. 1 is the structural representation of four sections of stereophone interface plugs;
Fig. 2 is the principle schematic of omnipotent earphone described in the utility model;
Fig. 3 is the schematic diagram of change-over circuit.
Wherein, 1-left earplug, 2-right earplug, 3-microphone, 4-interface plug, 4a-is most advanced and sophisticated, ring in 4b-first, ring in 4c-second, 4d-end, 5-change-over circuit, 5a-first input end, 5b-second input, 5c-microphone output, 5d-ground output, 6-reference ground electric wire, 6a-charging inlet.
Embodiment
In order to better the utility model is described, be now described further with accompanying drawing in conjunction with the embodiments.
The utility model is omnipotent earphone.As shown in Figure 2, omnipotent earphone described in the utility model comprises left earplug 1, right earplug 2, microphone 3 and interface plug 4.In addition, the utility model also comprises a change-over circuit 5.
Interface plug 4 is four-part form interface plug, to comprise in most advanced and sophisticated 4a, first ring 4c and end 4d in ring 4b, second.
Most advanced and sophisticated 4a is L channel end, and in first, ring 4b is R channel end.
In second, ring 4c and end have two kinds of situations: the first situation, and in second, ring 4c is ground terminal, and end 4d is microphone end, and now interface plug 4 is international standard (CTIA); The second situation, in second, ring 4c is microphone end, and end 4d is ground terminal, and now interface plug 4 is national standard (OMTP).
The interface plug 4 of omnipotent earphone described in the utility model adopts the first situation and the second situation can, namely interface plug 4 both can use international standard (CTIA) also can use national standard (OMTP), as long as through change-over circuit 5, get final product the receiver J-Horner of compatible mobile terminals place various criterion.
Change-over circuit 5 comprises two input 5a, 5b and two output 5c, 5d, and two input 5a, 5b comprise first input end 5a and the second input 5b, and two output 5c, 5d comprise microphone output 5c and ground output 5d.
The annexation of all parts left earplug 1 of omnipotent earphone described in the utility model, right earplug 2, microphone 3 and interface plug 4 is as follows:
Most advanced and sophisticated 4a and the L channel end of interface plug 4 are electrically connected with the positive pole of left earplug 1, interface plug 4 first in ring 4b and R channel end be electrically connected with the positive pole of right earplug 2.Interface plug 4 second in two input 5a of ring 4c and end 4d and change-over circuit, 5b electricity in succession, concrete connected mode has two kinds, one is that in second, ring 4c is electrically connected with first input end 5a, end 4d is electrically connected with the second input 5b, it two is that in second, ring 4c is electrically connected with the second input 5b, end 4d is electrically connected with first input end 5a, these the two kinds modes connected can, no matter because in which kind of mode in two kinds of modes above connect, two of change-over circuit 5 inputs ground signal that to be all interface plug 4 receive from mobile terminal and microphone signal, and after change-over circuit 5 receives these two signals, can export undistorted for microphone signal from microphone output 5c, export undistorted for ground signal from ground output 5d.
The microphone output 5c of change-over circuit 5 is electrically connected with the positive pole of microphone 3, and ground output 5d is connected with the negative electricity of left earplug 1, right earplug 2 and this three of microphone 3 respectively.
No matter what the interface plug 4 of omnipotent earphone described in the utility model adopted is international standard (CTIA) or national standard (OMTP), no matter what also mobile terminal adopted as the receiver J-Horner of mobile phone is international standard (CTIA) or national standard (OMTP), as long as this omnipotent earphone is inserted into mobile terminal as in the receiver J-Horner of mobile phone, now, the signal of L channel delivers to the positive pole of left earplug 1 by most advanced and sophisticated 4a, the signal of R channel delivers to the positive pole of right earplug 2 by ring 4b in first, ground signal in second on ring 4c and end 4d and microphone signal deliver to two input 5a of change-over circuit 5, after 5b and first input end 5a and the second input 5b, microphone signal is exported definitely from the microphone output 5c of change-over circuit 5, and then deliver to the positive pole of microphone 3, ground signal is exported definitely from the ground output 5d of change-over circuit 5, and then deliver to the negative pole of left earplug 1, the negative pole of right earplug 2 and the negative pole of microphone 3.So far known, omnipotent earphone described in the utility model can the receiver J-Horner of compatible various criterion.
In addition, present mobile terminal such as the chipset major part in mobile phone is all the moving chip adopting high pass or Taiwan MediaTek Inc to produce.For the mobile phone of the moving chip adopting Taiwan MediaTek Inc to produce, this kind of mobile phone is when listening to the music, on its receiver J-Horner, ground terminal and microphone end do not have the signal of telecommunication to export, thus in society some compatible with earphones faced with this situation time, because its receiver J-Horner place ground terminal and microphone end do not have the signal of telecommunication to export to drive some corresponding signaling conversion circuits, thus cause its left and right earplug and microphone etc. not to receive the ground signal determined, and then it is as very fuzzy in music to result through the audio signal that earphone hears, even earphone cisco unity malfunction.
Therefore, faced with this situation, the utility model considers that introducing one is with reference to ground electric wire 6, and be electrically connected with the ground output 5d of change-over circuit 5 with reference to electric wire 6 one end, ground, the other end is the charging inlet 6a be connected with the charging port of mobile terminal.By being inserted into the charging port of mobile terminal as mobile phone with reference to the charging inlet 6a of ground electric wire 6, thus introduce a reference earth signal determined, again this is delivered to the negative pole of the negative pole of left earplug 1, the negative pole of right earplug 2 and microphone 3 with reference to earth signal, thus solve the above problems.
For making the utility model have universality, the charging inlet 6a with reference to ground electric wire 6 is micro USB interface.
As shown in Figure 3, the circuit realiration schematic diagram of the change-over circuit 5 involved by the utility model.
Change-over circuit 5 comprises P channel MOS tube P2, P channel MOS tube P3, N-channel MOS pipe N2, N-channel MOS pipe N3, diode D5, diode D6, diode D7, diode D8, diode D9, diode D10, diode D11, resistance R0 and resistance R2, more preferably, above-mentioned metal-oxide-semiconductor all selects depletion type MOS tube, namely selects P channel depletion type metal-oxide-semiconductor P2, P channel depletion type metal-oxide-semiconductor P3, N channel depletion type metal-oxide-semiconductor N2 and N channel depletion type metal-oxide-semiconductor N3.
The drain electrode of metal-oxide-semiconductor P2 and the drain electrode of metal-oxide-semiconductor N2 are connected in one end, and this end is the first input end 5a of change-over circuit 5; The source electrode of metal-oxide-semiconductor P2 is connected with the negative pole of diode D5, drains to be connected with the positive pole of diode D5; The drain electrode of metal-oxide-semiconductor N2 is connected with the negative pole of diode D6, and source electrode is connected with the positive pole of diode D6; The source electrode of metal-oxide-semiconductor P2 is connected with the negative pole of diode D9, and the source electrode of metal-oxide-semiconductor N2 is connected with the positive pole of diode D9.
The drain electrode of metal-oxide-semiconductor P3 and the drain electrode of metal-oxide-semiconductor N3 are connected in one end, and this end is the second input 5b of change-over circuit 5; The source electrode of metal-oxide-semiconductor P3 is connected with the negative pole of diode D8, drains to be connected with the positive pole of diode D8; The drain electrode of metal-oxide-semiconductor N3 is connected with the negative pole of diode D7, and source electrode is connected with the positive pole of diode D7.
The grid of metal-oxide-semiconductor P2 and the grid of metal-oxide-semiconductor N2 are all connected in one end of resistance R2, and the other end of resistance R2 is connected in the second input 5b; The grid of metal-oxide-semiconductor P3 and the grid of metal-oxide-semiconductor N3 are all connected in one end of resistance R0, and the other end of resistance R0 is connected in first input end 5a.
One end that resistance R2 is not connected with the second input 5b, be also connected with the negative pole of diode D10, the positive pole of diode D10 is connected with the source electrode of metal-oxide-semiconductor N2; One end that resistance R0 is not connected with first input end 5a, is also connected with the negative pole of diode D11, and the positive pole of diode D11 is connected with the source electrode of metal-oxide-semiconductor N3.
The source electrode of metal-oxide-semiconductor P2 and the source electrode of metal-oxide-semiconductor P3 are connected in one end, and this end is the microphone output 5c of change-over circuit 5; The source electrode of metal-oxide-semiconductor N2 and the source electrode of metal-oxide-semiconductor N3 are connected in one end, and this end is the ground output 5d of change-over circuit 5, and this end is also connected with the one end with reference to the non-charging inlet 6a of ground electric wire 6.
When the first input end 5a of change-over circuit 5 receives microphone signal, when second input 5b receives ground signal, microphone signal is by delivering to the grid of metal-oxide-semiconductor P3 and metal-oxide-semiconductor N3 respectively after resistance R0, ground signal delivers to the grid of metal-oxide-semiconductor P2 and metal-oxide-semiconductor N2 by resistance R2, thus metal-oxide-semiconductor P2 and metal-oxide-semiconductor N3 conducting, metal-oxide-semiconductor P3 and metal-oxide-semiconductor N2 ends, and then the microphone output 5c of change-over circuit 5 exports microphone signal, and ground output 5d exports ground signal.
When the first input end 5a of change-over circuit 5 receives ground signal, when second input 5b receives microphone signal, ground signal is by delivering to the grid of metal-oxide-semiconductor P3 and metal-oxide-semiconductor N3 respectively after resistance R0, microphone signal delivers to the grid of metal-oxide-semiconductor P2 and metal-oxide-semiconductor N2 by resistance R2, thus metal-oxide-semiconductor P2 and metal-oxide-semiconductor N3 ends, metal-oxide-semiconductor P3 and metal-oxide-semiconductor N2 conducting, and then the microphone output 5c of change-over circuit 5 still exports microphone signal, ground output 5d still exports ground signal.
Therefore, no matter the first input end 5a of change-over circuit 5 receives microphone signal, second input 5b receives ground signal, or the first input end 5a of change-over circuit 5 receives ground signal, second input 5b receives microphone signal, the microphone output 5c of change-over circuit 5 always exports microphone signal, and ground output 5d always exports ground signal.
In addition, be connected with the ground output 5d electricity of change-over circuit 5 with reference to one end of ground electric wire 6, the other end is charging inlet 6a, be connected with the charging port of the mobile terminals such as mobile phone, thus a clear and definite reference earth signal is incorporated in change-over circuit 5, deliver to the negative pole of left earplug 1, the negative pole of right earplug 2 and the negative pole of microphone 3 further.
Above embodiment only in order to the technical solution of the utility model to be described, is not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that, it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.
Claims (4)
1. omnipotent earphone, comprises left earplug (1), right earplug (2), microphone (3) and interface plug (4), it is characterized in that: also comprise a change-over circuit (5);
Described interface plug (4) is four-part form interface plug, to comprise in tip (4a), first ring (4c) and end (4d) in ring (4b), second; Wherein, most advanced and sophisticated (4a) is L channel end, and be electrically connected with the positive pole of left earplug (1), in first, ring (4b) is R channel end, is electrically connected with the positive pole of right earplug (2);
Described change-over circuit (5) comprises two inputs (5a, 5b) and two outputs (5c, 5d), described two inputs (5a, 5b) comprise first input end (5a) and the second input (5b), and described two outputs (5c, 5d) comprise microphone output (5c) and ground output (5d);
Described interface plug (4) second in ring (4c), end (4d) and change-over circuit (5) two inputs (5a, 5b) electricity in succession; Described microphone output (5c) is electrically connected with the positive pole of microphone (3), and described ground output (5d) is connected with the negative electricity of left earplug (1), right earplug (2) and microphone (3) respectively.
2. omnipotent earphone as claimed in claim 1, it is characterized in that: also comprise one with reference to ground electric wire (6), electric wire (6) one end, described reference ground is electrically connected with the ground output (5d) of change-over circuit (5), and the other end is the charging inlet (6a) be connected with the charging port of mobile terminal.
3. omnipotent earphone as claimed in claim 2, is characterized in that: described charging inlet (6a) is micro USB interface.
4. omnipotent earphone as claimed in claim 1 or 2, is characterized in that: described change-over circuit (5) comprises P channel depletion type metal-oxide-semiconductor P2, P channel depletion type metal-oxide-semiconductor P3, N channel depletion type metal-oxide-semiconductor N2, N channel depletion type metal-oxide-semiconductor N3, diode D5, diode D6, diode D7, diode D8, diode D9, diode D10, diode D11, resistance R0 and resistance R2;
The drain electrode of described metal-oxide-semiconductor P2 and the drain electrode of metal-oxide-semiconductor N2 are connected in one end, and this end is the first input end (5a) of described change-over circuit (5); The source electrode of metal-oxide-semiconductor P2 is connected with the negative pole of diode D5, drains to be connected with the positive pole of diode D5; The drain electrode of metal-oxide-semiconductor N2 is connected with the negative pole of diode D6, and source electrode is connected with the positive pole of diode D6; The source electrode of metal-oxide-semiconductor P2 is connected with the negative pole of diode D9, and the source electrode of metal-oxide-semiconductor N2 is connected with the positive pole of diode D9;
The drain electrode of described metal-oxide-semiconductor P3 and the drain electrode of metal-oxide-semiconductor N3 are connected in one end, and this end is second input (5b) of described change-over circuit (5); The source electrode of metal-oxide-semiconductor P3 is connected with the negative pole of diode D8, drains to be connected with the positive pole of diode D8; The drain electrode of metal-oxide-semiconductor N3 is connected with the negative pole of diode D7, and source electrode is connected with the positive pole of diode D7;
The grid of metal-oxide-semiconductor P2 and the grid of metal-oxide-semiconductor N2 are all connected in one end of resistance R2, and the other end of resistance R2 is connected in the second input (5b); The grid of metal-oxide-semiconductor P3 and the grid of metal-oxide-semiconductor N3 are all connected in one end of resistance R0, and the other end of resistance R0 is connected in first input end (5a);
One end that resistance R2 is not connected with the second input (5b), be also connected with the negative pole of diode D10, the positive pole of diode D10 is connected with the source electrode of metal-oxide-semiconductor N2; One end that resistance R0 is not connected with first input end (5a), be also connected with the negative pole of diode D11, the positive pole of diode D11 is connected with the source electrode of metal-oxide-semiconductor N3;
The source electrode of metal-oxide-semiconductor P2 and the source electrode of metal-oxide-semiconductor P3 are connected in one end, and this end is the microphone output (5c) of described change-over circuit (5); The source electrode of metal-oxide-semiconductor N2 and the source electrode of metal-oxide-semiconductor N3 are connected in one end, and this end is the ground output (5d) of described change-over circuit (5), and this end is also connected with the one end with reference to ground electric wire (6) non-charging inlet (6a).
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CN104244148A (en) * | 2014-09-03 | 2014-12-24 | 深圳联华集成电路有限公司 | All-purpose earphones |
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CN104244148A (en) * | 2014-09-03 | 2014-12-24 | 深圳联华集成电路有限公司 | All-purpose earphones |
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