CN209608373U - A kind of charging cabin, bluetooth headset and charging bluetooth earphone system - Google Patents

Abstract

The utility model embodiment discloses a kind of charging cabin, bluetooth headset and charging bluetooth earphone system, wherein charging cabin includes the first positive pole port, first information communication port, the first power ground port, first microprocessor and display device；First positive pole port is electrically connected with the second source anode port of bluetooth headset；First information communication port is electrically connected with the second information communication port of bluetooth headset；First microprocessor is electrically connected with first information communication port and display device respectively；First microprocessor for receiving the charging status information of earphone and the information about power of earphone by first information communication port, and controls display device and shows charging status information and information about power；With the second source of bluetooth headset port is electrically connected for first power ground port, when charge capsule lid after, user can understand the charging status information of earphone and the information about power of earphone by the information that shows of cabin that charges in time.

Description

A kind of charging cabin, bluetooth headset and charging bluetooth earphone system

Technical field

The utility model embodiment is related to earphone charging technique more particularly to a kind of charging cabin, bluetooth headset and bluetooth ear Machine charging system.

Background technique

With the fast development of the communication technology, bluetooth headset is more more and more universal, gives people's lives, work and learning tape Great convenience is carried out.

Currently, most bluetooth headset usually uses built-in rechargeable battery as power supply.To guarantee bluetooth headset Normal use, need to charge to the rechargeable battery in bluetooth headset, such as user do not use bluetooth headset when, by bluetooth It charges in the charging cabin that earphone is put into the bluetooth headset.

But in the prior art, when charging cabin when to charging bluetooth earphone, bluetooth headset has the instruction of charged state Lamp, user can check the charged state of bluetooth headset by indicator light, but when charge capsule lid after, user can not determine Charged state of the bluetooth headset in charging cabin, which needs to open charging cabin, just can determine that the charged state of bluetooth headset, and bluetooth During the charging process, user can not also determine the electricity of bluetooth headset to earphone.

Utility model content

The utility model embodiment provides a kind of charging cabin, bluetooth headset and charging bluetooth earphone system, in bluetooth ear In machine charging process, the charged state and charge capacity of bluetooth headset can be shown in charging cabin, so that user understands in time The charge information of bluetooth headset, facilitates user.

In a first aspect, the utility model embodiment provides a kind of charging cabin, comprising: the first positive pole port, first Information communication port, the first power ground port, first microprocessor and display device；

First positive pole port is electrically connected with the second source anode port of bluetooth headset；

The first information communication port is electrically connected with the second information communication port of bluetooth headset；

The first microprocessor is electrically connected with the first information communication port and the display device respectively；Described One microprocessor, for receiving the charging status information and bluetooth ear of bluetooth headset by the first information communication port The information about power of machine, and control the display device and show the charging status information and the information about power；

With the second source of bluetooth headset port is electrically connected for first power ground port.

Second aspect, the utility model embodiment additionally provide a kind of bluetooth headset, comprising: second source anode port, Second information communication port, second source ground port and the second microprocessor；

Second source anode port is electrically connected with the first positive pole port in charging cabin；The second information communication Port is electrically connected with the second information communication port in charging cabin；

Second microprocessor is electrically connected with the second information communication port, for being communicated by second information Port send earphone charging status information and earphone information about power so that charging cabin show the charging status information with And the information about power；

The second source port with charging cabin the first power ground port be electrically connected.

The third aspect, the utility model embodiment additionally provide a kind of charging bluetooth earphone system, including the utility model The charging cabin and bluetooth headset provided by the embodiment of the utility model that embodiment provides.

Technical solution provided by the embodiment of the utility model, by charging cabin increase first information communication port and Increase by the second communication port on bluetooth headset；The second microprocessor in bluetooth headset can by the second information communication port To send the charging status information and information about power of earphone, the first microprocessor in cabin of charging can be logical by the first information Believe that port receives earphone charging status information and earphone information about power, and controls display device and shown；When charging capsule Gai Hou, user can understand the charging status information of earphone and the electricity letter of earphone by the information that cabin is shown that charges in time Breath, facilitates user.

Detailed description of the invention

Fig. 1 a is a kind of structural schematic diagram in cabin of charging provided by the embodiment of the utility model；

Fig. 1 b is a kind of electrical block diagram in cabin of charging provided by the embodiment of the utility model；

Fig. 2 a is a kind of structural schematic diagram of bluetooth headset provided by the embodiment of the utility model；

Fig. 2 b is a kind of electrical block diagram of bluetooth headset provided by the embodiment of the utility model；

Fig. 3 is a kind of electrical block diagram of Bluetooth charging system provided by the embodiment of the utility model.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.It further needs exist for It is bright, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.

Fig. 1 a is a kind of structural schematic diagram in cabin of charging provided by the embodiment of the utility model, and as shown in Figure 1a, this is practical The charging cabin that new embodiment provides, comprising: the first positive pole port VC1, first information communication port CO1, the first power supply Ground port GN1, first microprocessor 100 and display device 110.

Wherein, the first positive pole port VC1 is electrically connected with the second source anode port of bluetooth headset；The first information is logical Letter port CO1 is electrically connected with the second information communication port of bluetooth headset；First microprocessor 100 is communicated with the first information respectively Port CO1 and display device 110 are electrically connected；First microprocessor 100, it is blue for being received by first information communication port CO1 The charging status information of tooth earphone and the information about power of bluetooth headset, and control display device 110 and show charging status information And information about power；With the second source of bluetooth headset port is electrically connected first power ground port GN1.

In the utility model embodiment, optionally, display device 110 may include at least one indicator light.

Charging cabin provided by the embodiment of the utility model can be made in charging cabin by increasing first information communication port First microprocessor receive bluetooth headset send charging status information and earphone information about power, and control display device into Row display；When charge capsule lid after, user can understand the charged state of bluetooth headset by the information that shows of cabin that charges in time The information about power of information and bluetooth headset, facilitates user.

Fig. 1 b is a kind of electrical block diagram in cabin of charging provided by the embodiment of the utility model, as shown in Figure 1 b, In On the basis of above-described embodiment, display device may include at least one indicator light, may include 4 in the utility model embodiment A indicator light is LED1, LED2, LED3 and LED4 respectively.Optionally, charging cabin provided by the embodiment of the utility model is in addition to packet Include the first positive pole port VC1, first information communication port CO1 described in above-described embodiment, the first power ground port GN1, It can also include: the first power supply 12, the first triode Q1, third transistor Q3 except first microprocessor 100 and display device With booster circuit 11.

Wherein, the first end of booster circuit 11 is connect with the anode of the first power supply 12；The second end of booster circuit 11 is grounded； The third end of booster circuit 11 respectively with the first positive pole port VC1, the base stage of the first triode Q1, the first triode Q1 The electrical connection of the collector of collector and third transistor Q3；The of 4th end of booster circuit 11 and first microprocessor 100 One control terminal (end Ctrl) electrical connection；Power input (end the BAT) electricity of the anode of first power supply 12 and first microprocessor 100 Connection；The cathode of first power supply 12 is grounded.Wherein, booster circuit 11 are boosted for the voltage to the first power supply 12, with defeated Higher voltage out, optionally, the output voltage of the first power supply 12 can be 3.7V, and the output voltage of booster circuit 11 can be 5V.Wherein, first microprocessor 100 can control booster circuit 11 by the first control terminal and work.

Wherein, the collector of the first triode Q1 respectively with the base stage of third transistor Q3 and first information communication ends Mouth CO1 electrical connection；The emitter of first triode Q1 is grounded；The base stage of first triode Q1 is defeated with first microprocessor 100 Outlet (end UART_TX) electrical connection；First microprocessor 100 passes through at least one instruction port and at least one indicator light respectively First end electrical connection；The ground terminal (end GND) of first microprocessor 100 is grounded；The second end of indicator light and the first power supply 12 Anode electrical connection；The receiving end (end UART_RX) of first microprocessor 100 is electrically connected with the collector of third transistor Q3, the The emitter of three triode Q3 is electrically connected with the first power ground port GN1, the emitter of third transistor Q3 and the first power supply Ground port GN1 is grounded；

First microprocessor 100, for passing through the first triode Q1 and first information communication port CO1 to bluetooth headset It sends information about power and instruction is provided, and bluetooth headset hair is received by third transistor Q3 and first information communication port CO1 The information about power and charging status information sent.

Specifically, first microprocessor 100 exports the first low and high level signal by output end, for controlling the one or three pole The on and off of pipe Q1.When the first triode Q1 on and off, voltage at first information communication port CO1 not phase Together.Therefore, when first microprocessor 100 controls the first triode Q1 on and off by the first low and high level signal of output When, the second low and high level signal can be exported by first information communication port CO1, which can be information about power offer and refer to It enables, when so that earphone receiving the instruction, sends information about power.

Wherein, charging cabin can receive information about power by first information communication port CO1 and third transistor Q3.Electricity Information can be transmitted by third low and high level signal, and when third low and high level signal is not identical, information about power can also To be different.Specifically, charging cabin receives the information about power that bluetooth headset is sent by first information communication port CO1, The third low and high level signal of transmission information about power can control the on and off of third transistor Q3.As third transistor Q3 When on and off, the voltage on third transistor Q3 collector that first microprocessor 100 is detected by receiving end is not It is identical.Therefore, when the third low and high level signal for transmitting information about power controls third transistor Q3 on and off, first is micro- Processor 100 can detecte the 4th low and high level signal on third transistor Q3 collector by receiving end, pass through the 4th Low and high level signal can determine corresponding information about power；And information about power is shown by indicator light.Wherein, indicator light Can have multiple, can be controlled according to information about power and light the quantity of indicator light.

Specifically, charging status information can be sent to charging cabin, charging when bluetooth headset enters the charging of charging cabin Cabin receives the charging status information that bluetooth headset is sent by first information communication port CO1, and charging status information can pass through 5th low and high level signal is transmitted, when different forms are presented in the 5th low and high level signal, then characterize earphone charging, Charging finishes or charge fault etc..Wherein, the 5th low and high level signal can control the on and off of third transistor Q3. When third transistor Q3 on and off, third transistor Q3 current collection that first microprocessor 100 is detected by receiving end Voltage on extremely is not identical.Therefore, when the 5th low and high level signal of transmission charging status information controls third transistor Q3 When on and off, first microprocessor 100 can detecte the electricity of the height on third transistor Q3 collector by receiving end Ordinary mail number, the signal can be the 6th low and high level signal, can determine corresponding charging shape by the 6th low and high level signal State information；And charging status information is shown by indicator light.

It should be noted that the charging cabin that the utility model illustratively provides can also not need to provide booster circuit 11, when do not have provide booster circuit 11 when, the first power supply 12 anode respectively with the first positive pole port VC1, the one or three pole The collector of the base stage of pipe Q1, the collector of the first triode Q1 and third transistor Q3 is directly electrically connected.

On the basis of the above embodiments, optionally, as shown in Figure 1 b, charging cabin provided by the embodiment of the utility model is also It may include: key S1；The anode of the first end of key S1 and the first power supply 12 is electrically connected, the second end of key S1 and first micro- The second control terminal (end SW) of processor 100 is electrically connected；First microprocessor 100, for the triggering information control according to key S1 Indicator light processed.Wherein, user can be triggered by key, so that 100 control instructions lamp of first microprocessor.Optionally, it is pressing The 15th resistance R15 is also provided between key S1 and the anode of the first power supply 12, the effect of the 15th resistance R15 is to be used for Partial pressure.Optionally, the resistance for partial pressure is also provided between first microprocessor 100 and each indicator light.

Specifically, when first time triggering key S1, first microprocessor 100, the electricity in control instructions lamp display charging cabin Information is measured, when triggering key S1 for the second time, control instructions lamp shows the information about power of left ear earphone, and third time triggers key S1 When, 100 control instructions lamp of first microprocessor shows the information about power of auris dextra earphone.It should be noted that the utility model is real It applies example and is not limited to above-mentioned mode in such a way that key triggers control instructions lamp display information.

On the basis of the above embodiments, optionally, as shown in Figure 1 b, charging cabin provided by the embodiment of the utility model is also It may include first resistor R1, the 4th resistance R4, the 7th resistance R7 and the 9th resistance R9.Wherein, first resistor R1 setting is rising Between the third end of volt circuit 11 and the collector of the first triode Q1；The third end of booster circuit 11 is arranged in 4th resistance R4 Between the base stage of the first triode Q1；The third end of booster circuit 11 and the collection of third transistor Q3 is arranged in 7th resistance R7 Between electrode；9th resistance R9 is arranged between first information communication port CO1 and the base stage of third transistor Q3, and first Between the collector of triode Q1 and the base stage of third transistor Q3.Specifically, first resistor R1, the 4th resistance R4, the 7th electricity The effect for hindering R7 and the 9th resistance R9 is the effect of partial pressure.

It should be noted that when the output end of first microprocessor 100 sends information or instruction, first microprocessor 100 receiving end no longer receives information or instruction；When the receiving end of first microprocessor 100 receives instruction or information, The output end of first microprocessor 100 does not retransmit information or instruction.

Fig. 2 a is a kind of structural schematic diagram of bluetooth headset provided by the embodiment of the utility model, as shown in Figure 2 a, this reality The bluetooth headset provided with new embodiment, comprising: second source anode port VC2, the second information communication port CO2, second Power ground port GN2 and the second microprocessor 200.

Wherein, second source anode port VC2 is electrically connected with the first positive pole port in charging cabin；The communication of second information Port CO2 is electrically connected with the first information communication port in charging cabin；Second microprocessor 200 and the second information communication port CO2 Electrical connection, for sending the charging status information of bluetooth headset and the electricity of bluetooth headset by the second information communication port CO2 Information is measured, so that charging cabin shows charging status information and information about power；Second source port GN2 and charging cabin first Power ground port GN1 electrical connection.

A kind of bluetooth headset provided by the embodiment of the utility model can make the by increasing by the second information communication port The charging status information of earphone and earphone information about power are sent to charging cabin by two microprocessors, so that charging cabin is shown Show, when charge capsule lid after, user can understand the charging status information of bluetooth headset by the information that shows of cabin that charges in time And the information about power of bluetooth headset, facilitate user.

Fig. 2 b is a kind of electrical block diagram of bluetooth headset provided by the embodiment of the utility model, as shown in Figure 2 b, Bluetooth headset provided by the embodiment of the utility model is in addition to including second source anode port VC2 described in above-described embodiment, the Two information communication port CO2, second source except port GN2 and the second microprocessor 200, can also further include second source 22, the second triode Q2, the 4th triode Q4 and reduction voltage circuit 21.

Wherein, the first end of reduction voltage circuit 21 respectively with the collector of the second triode Q2 and second source anode port VC2 electrical connection；The second end of reduction voltage circuit 21 is connect with the anode of second source 22；The third end of reduction voltage circuit 21 is grounded.Its In, reduction voltage circuit 21 is used to be depressured to being input to voltage, to charge to second source 22.Optionally, it is input to decompression electricity The voltage on road 21 can be 5V, and the voltage of reduction voltage circuit output can be 4.2V.

Wherein, second source anode port VC2 respectively with the detection port of the second microprocessor 200 (end Detection) And second triode Q2 collector electrical connection；The collector of second triode Q2 respectively with the base stage of the 4th triode Q4 with And second information communication port CO2 electrical connection；The base stage of second triode Q2 respectively with the anode of second source 22 and second The output end (end UART_TX) of microprocessor 200 is electrically connected；The emitter of second triode Q2 is grounded；4th triode Q4's Base stage is electrically connected with the second information communication port CO2；The collector of 4th triode Q4 connects with second microprocessor 200 respectively The anode electrical connection of receiving end (end UART_RX) and second source 22；The emitter and second source ground terminal of 4th triode Q4 Mouthful GN2 electrical connection, the emitter and second source of the 4th triode Q4 port GN2 be grounded.

Wherein, the second microprocessor 200, for when determine detection port there are when voltage, by the second triode Q2 with And second information communication port CO2 send charging status information, and when pass through the second information communication port CO2 and the four or three pole When pipe Q4 receives the information about power offer instruction that charging cabin is sent, and the letter of the second triode Q2 and second is passed through according to instruction Message communication port CO2 sends information about power.

Specifically, the second microprocessor 200 when detect detection port (end Detection) there are when voltage, then show The second source anode port VC2 of bluetooth headset has voltage input, then shows that bluetooth headset is in charged state, the second micro process Device 200 exports the 7th low and high level signal by output end, for controlling the on and off of the second triode Q2.When the two or three When pole pipe Q2 on and off, the voltage at the second information communication port CO2 is not identical, therefore, when the second microprocessor 200 When controlling the second triode Q2 on and off by the 7th low and high level signal of output, pass through the second information communication port CO2 The 5th low and high level signal of transmission charging status information can be exported, so that charging cabin receives charging status information, and is carried out Display.

Refer to specifically, bluetooth headset receives the information about power offer that charging cabin is sent by the second information communication port CO2 Enable, which can be the second low and high level signal, the second low and high level signal can control the 4th triode Q4 conducting and Cut-off.When the 4th triode Q4 on and off, the second microprocessor 200 detects the 4th triode Q4 collection by receiving end Voltage on electrode is different.Therefore, when the second low and high level signal controls the 4th triode Q4 on and off, the Two microprocessors 200 detect the low and high level signal on the 4th triode Q4 collector, judge corresponding need according to the signal Information about power to be offered.When the second microprocessor 200, which determines, to be needed to provide information about power, the 9th low and high level signal is exported Pass through the second information communication ends when the second triode Q2 on and off to control the on and off of the second triode Q2 It is different that mouth CO2, which is exported to the voltage in charging cabin,.Therefore, when the second triode Q2 on and off, the detection of charging cabin Third low and high level signal onto the second information communication port CO2, the signal are used for transmission information about power, according to third height Low level signal can determine corresponding information about power.

The explanation needed is bluetooth headset provided by the embodiment of the utility model, can also select decompression electricity as needed Road, when not including reduction voltage circuit 21 in bluetooth headset, second source anode port VC2 can directly with second source 22 just Pole electrical connection.

On the basis of the above embodiments, optionally, as shown in Figure 2 b, bluetooth headset can also include second resistance R2, 3rd resistor R3, the 5th resistance R5, the 6th resistance R6, the 8th resistance R8 and the tenth resistance R10.

Wherein, the first end of second resistance R2 is electrically connected with second source anode port VC2, the second end of second resistance R2 It is electrically connected respectively with the detection port of the first end of the 6th resistance R6 and the second microprocessor 200；The second of 6th resistance R6 End ground connection；The first end of 3rd resistor R3 is electrically connected with second source anode port VC2, the second end of 3rd resistor R3 respectively with The first end of tenth resistance R10, the collector of the second triode Q2 and the second information communication port CO2 electrical connection；Tenth resistance The first end of R10 is electrically connected with the collector of the second triode Q2 and the second information communication port CO2 respectively, the tenth resistance R10 Second end be electrically connected with the base stage of the 4th triode Q4；Anode and the two or three pole of second source 22 is arranged in 5th resistance R5 Between the base stage of pipe Q2；8th resistance R8 is arranged between the anode of second source 22 and the collector of the 4th triode Q4.Its In, the effect of second resistance R2 and the 6th resistance R6 are the voltage values for controlling the second microprocessor 200 detection port and detecting.The Three resistance R3 and the tenth resistance R10 play the role of partial pressure.The effect of 5th resistance R5 is divided the second triode Q2 Pressure, the effect of the 8th triode is divided to the 4th triode Q4.

It should be noted that when the output end of the second microprocessor 200 sends information or instruction, the second microprocessor 200 receiving end no longer receives information or instruction；When the receiving end of the second microprocessor 200 receives instruction or information, The output end of second microprocessor 200 does not retransmit information or instruction.

Fig. 3 is a kind of charging bluetooth earphone circuit system structural schematic diagram provided by the embodiment of the utility model, such as Fig. 3 institute Show, charging bluetooth earphone system provided by the embodiment of the utility model includes charging cabin 300 provided by the above embodiment and above-mentioned Embodiment provides bluetooth headset 400.Wherein, the specific introduction in charging cabin and bluetooth headset can be detailed in above-described embodiment.Bluetooth Communication between earphone and charging cabin can refer to above-mentioned introduction.

Technical solution provided by the embodiment of the utility model, by charging cabin increase first information communication port and Increase by the second communication port on bluetooth headset；The second microprocessor in bluetooth headset can by the second information communication port To send the charging status information and information about power of earphone, the first microprocessor in cabin of charging can be logical by the first information Believe that port receives earphone charging status information and earphone information about power, and controls display device and shown；When charging capsule Gai Hou, user can understand the charging status information of earphone and the electricity letter of earphone by the information that cabin is shown that charges in time Breath, facilitates user.

Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended Scope of the claims determine.

Claims (10)

1. a kind of charging cabin characterized by comprising the first positive pole port, first information communication port, the first power ground Port, first microprocessor and display device；

First positive pole port is electrically connected with the second source anode port of bluetooth headset；

The first information communication port is electrically connected with the second information communication port of bluetooth headset；

The first microprocessor is electrically connected with the first information communication port and the display device respectively；Described first is micro- Processor, for receiving the charging status information and bluetooth headset of bluetooth headset by the first information communication port Information about power, and control the display device and show the charging status information and the information about power；

With the second source of bluetooth headset port is electrically connected for first power ground port.

2. charging cabin according to claim 1, which is characterized in that the display device includes at least one indicator light；

The charging cabin further include: the first power supply, the first triode and third transistor；

First power supply anode respectively with first positive pole port, the base stage of the first triode, the first triode Collector, third transistor collector and first microprocessor power input electrical connection；First power supply is born Pole ground connection；

The collector of first triode respectively with the base stage of the third transistor and the first information communication port Electrical connection；The emitter of first triode is grounded；

The base stage of first triode is electrically connected with the output end of the first microprocessor；The first microprocessor difference It is electrically connected by least one instruction port with the first end of at least one indicator light；The ground of the first microprocessor terminates Ground；The second end of the indicator light is electrically connected with the anode of first power supply；

The receiving end of the first microprocessor is electrically connected with the collector of the third transistor, the hair of the third transistor Emitter-base bandgap grading is electrically connected with first power ground port, and the emitter of the third transistor and first power ground port are equal Ground connection；

The first microprocessor, for by first triode and the first information communication port to the earphone It sends information about power and instruction is provided, and bluetooth headset is received by third transistor and the first information communication port and is sent Information about power and charging status information.

3. charging cabin according to claim 2, which is characterized in that further include booster circuit；

The first end of the booster circuit is connect with the anode of first power supply；The second end of the booster circuit is grounded；

The third end of the booster circuit respectively with first positive pole port, the base stage of the first triode, the one or three pole The collector of pipe and the electrical connection of the collector of the third transistor；

4th end of the booster circuit is electrically connected with the first control terminal of the first microprocessor.

4. charging cabin according to claim 3, which is characterized in that further include key；

The first end of the key is electrically connected with the anode of the first power supply, the second end of the key and the first microprocessor The second control terminal electrical connection；

The first microprocessor, for controlling the indicator light according to the triggering information of key.

5. charging cabin according to claim 3 or 4, which is characterized in that further include: first resistor, the 4th resistance, the 7th electricity Resistance and the 9th resistance；

The first resistor is arranged between the third end of the booster circuit and the collector of the first triode；

4th resistance is arranged between the third end of the booster circuit and the base stage of first triode；

7th resistance is arranged between the third end of the booster circuit and the collector of the third transistor；

9th resistance is arranged between the first information communication port and the base stage of the third transistor, and described Between the collector of first triode and the base stage of the third transistor.

6. a kind of bluetooth headset characterized by comprising second source anode port, the second information communication port, second source Ground port and the second microprocessor；

Second source anode port is electrically connected with the first positive pole port in charging cabin；The second information communication port It is electrically connected with the first information communication port in charging cabin；

Second microprocessor is electrically connected with the second information communication port, for passing through the second information communication port The charging status information of bluetooth headset and the information about power of bluetooth headset are sent, so that charging cabin shows the charged state letter Breath and the information about power；

The second source port with charging cabin the first power ground port be electrically connected.

7. bluetooth headset according to claim 6, which is characterized in that further include: second source, the second triode and the 4th Triode；

Second source anode port respectively with the anode of the second source, the detection port of the second microprocessor and The collector of two triodes is electrically connected；

The collector of second triode respectively with the base stage and the second information communication port of the 4th triode Electrical connection；

The base stage of second triode is electrically connected with the output end of the anode of second source and the second microprocessor respectively；Institute State the emitter ground connection of the second triode；

The base stage of 4th triode is electrically connected with the second information communication port；The collector of 4th triode point It is not electrically connected with the anode of the receiving end of second microprocessor and second source；

With second source port is electrically connected the emitter of 4th triode, the emitter of the 4th triode and described Second source port be grounded；

Second microprocessor, for when determining that the detection port there are when voltage, passes through the second triode and second Information communication port sends charging status information, and works as and receive charging by the second information communication port and the 4th triode When the information about power that cabin is sent provides instruction, and it is logical by second triode and second information according to described instruction Believe that port sends information about power.

8. bluetooth headset according to claim 7, which is characterized in that further include: reduction voltage circuit；

The first end of the reduction voltage circuit respectively with the collector of second triode and second source anode port Electrical connection；

The second end of the reduction voltage circuit is connect with the anode of the second source；The third end of the reduction voltage circuit is grounded.

9. bluetooth headset according to claim 8, which is characterized in that further include: second resistance, 3rd resistor, the 5th electricity Resistance, the 6th resistance, the 8th resistance and the tenth resistance；

The first end of the second resistance is electrically connected with second source anode port, the second end difference of the second resistance It is electrically connected with the detection port of the first end of the 6th resistance and the second microprocessor；

The second end of 6th resistance is grounded；

The first end of the 3rd resistor is electrically connected with second source anode port, the second end difference of the 3rd resistor It is electrically connected with the first end of the tenth resistance, the collector of second triode and the second information communication port；

The first end of tenth resistance is electrically connected with the collector of the second triode and the second information communication port respectively, The second end of tenth resistance is electrically connected with the base stage of the 4th triode；

The positive between the base stage of second triode of the second source is arranged in 5th resistance；

The positive between the collector of the 4th triode of the second source is arranged in 8th resistance.

10. a kind of charging bluetooth earphone system, which is characterized in that including charging cabin as described in any one in claim 1-5 and Bluetooth headset as claim in any one of claims 6-9.