CN203734071U - Connector module with feedback charging function - Google Patents

Connector module with feedback charging function Download PDF

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Publication number
CN203734071U
CN203734071U CN201420017260.5U CN201420017260U CN203734071U CN 203734071 U CN203734071 U CN 203734071U CN 201420017260 U CN201420017260 U CN 201420017260U CN 203734071 U CN203734071 U CN 203734071U
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China
Prior art keywords
connector
circuit board
external equipment
electrically
double
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CN201420017260.5U
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Chinese (zh)
Inventor
张乃千
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TETONG TECHNOLOGY Co Ltd
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TETONG TECHNOLOGY Co Ltd
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Priority to CN201420017260.5U priority Critical patent/CN203734071U/en
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Abstract

The utility model provides a connector module with a feedback charging function. The connector module comprises a circuit board, and a double-sided contact-type connector and a microprocessor which are electrically connected on the circuit board, wherein the double-sided contact-type connector is respectively provided with an identification terminal on the front and back surfaces, when the connector module is plugged with external equipment through the double-sided contact-type connector, whether the connector module and the external equipment are in a first plugging mode or a second plugging mode can be judged according to the connection state of the two identification terminal. Through the control of the microprocessor, the connector module provides electric power for the connected external equipment in the first plugging mode, and gets electric power from the connected external equipment in the second plugging mode. Therefore, the connector module can provide electric power for the connected external equipment, and can use the connected external equipment as a mobile power supply.

Description

The connector modules with feedback charge function
Technical field
The utility model is relevant with connector, is particularly to a kind of connector modules with feedback charge function.
Background technology
Electronic industry prosperity now, various electronic installation is full of general popular life, and for input control order is to control electronic installation, or between a plurality of electronic installations, transmitting mutually data, the electronic installations of the overwhelming majority all dispose one or more connector.
On market, common connector is all provided with risk management now, as USB (Universal Serial Bus, USB) the 30pin connector that connector, small USB (Micro USB) connector, external series high-tech configuration (external Serial Advanced Technology Attachment, e-SATA) connector, Apple (Apple.Inc) develop etc.That is to say, these connector male heads for example,, only pegging graft when in the right direction (face up or reverse side upward), just can insert in corresponding connector female end smoothly, and with its generation electrical connection.Design although it is so can prevent that user from misapplying, but the also use because user cannot at random peg graft, and produce many inconvenience.
Recently, Apple has developed a kind of lightning (lightning) connector, this lightning connector is a kind of connector can double contact using, no matter be front or reverse side, all can successfully insert in corresponding connector female end, and then produce electrical connection with this connector female end, quite convenient.
This lightning connector arranges 8 splicing ears in front, and is also provided with 8 corresponding splicing ears in reverse side, whereby, reaches object positive, that reverse side can be pegged graft corresponding connector female end.On this lightning connector, be provided with altogether the nearly splicing ear of 16, yet no matter be positive pegging graft or reverse side grafting, the function that this lightning connector can be carried out is all identical, cannot produce because of the difference of positive and negative different functions, and reality is worked as unfortunately.
Utility model content
In view of this, main purpose of the present utility model is to provide a kind of connector modules with feedback charge function, it can provide electric power for the external equipment connecting, and can obtain reverse power from the external equipment connecting, and external equipment is used as to portable power source, uses.
For achieving the above object, the utility model provides a kind of connector modules with feedback charge function, and this connector modules is in order to connect external equipment, and this connector modules comprises: circuit board; Double-surface contact type connector, is electrically connected on described circuit board, and this double-surface contact type connector has front and reverse side, on described front and described reverse side, is respectively arranged with recognition terminal; Microprocessor, be electrically connected on described circuit board, and be electrically connected by described circuit board and described double-surface contact type connector, this microprocessor, by two recognition terminal on described front and described reverse side and the connection state of described external equipment, judges between described connector modules and described external equipment to be the first grafting kenel or the second grafting kenel; And housing, coated described circuit board, described double-surface contact type connector and described microprocessor, wherein said double-surface contact type connector exposes outside this housing; Wherein, described microprocessor provides electric power to the described external equipment connecting when described the first grafting kenel, and from the described external equipment connecting, obtains reverse power when described the second grafting kenel.
Preferably, described connector modules also comprises female connector, this female connector is electrically connected on described circuit board, and be electrically connected by described circuit board and described microprocessor, and this female connector exposes outside described housing, described connector modules receives electric power by described female connector and offers the described external equipment of connection, or receives electric power and externally transmit by described female connector from the described external equipment connecting.
Preferably, described connector modules also comprises the second female connector, this second female connector is electrically connected on described circuit board, and be electrically connected by described circuit board and described microprocessor, and this second female connector exposes outside described housing, described connector modules connects external electronic by described the second female connector, and whereby, described external equipment and described external electronic are carried out transfer of data by described connector modules.
Preferably, described female connector is USB (Universal Serial Bus, USB) connector, and described the second female connector is small USB (Micro USB) connector.
Preferably, the described front of described double-surface contact type connector has two above the first terminals, and described reverse side has two above the second terminals, and the quantity of described two above the first terminals equates with the quantity of described two above the second terminals.
Preferably, described double-surface contact type connector is lightning (lightning) connector.
Preferably, described connector modules also comprises rechargeable battery, this rechargeable battery is electrically connected on described circuit board, and be electrically connected by described circuit board and described microprocessor, described connector modules provides electric power to the described external equipment connecting by described rechargeable battery, or receives electric power and be stored in described rechargeable battery from the described external equipment connecting.
Preferably, described connector modules also comprises display unit, and this display unit is electrically connected on described circuit board, and is electrically connected by described circuit board and described microprocessor.
For achieving the above object, the utility model separately provides a kind of connector modules with feedback charge function, and this connector modules is in order to connect external equipment, and this connector modules comprises: circuit board; Double-surface contact type connector, is electrically connected on described circuit board, and this double-surface contact type connector has front and reverse side, on described front and described reverse side, is respectively arranged with recognition terminal; Microprocessor, be electrically connected on described circuit board, and be electrically connected by described circuit board and described double-surface contact type connector, this microprocessor, by two recognition terminal on described front and described reverse side and the connection state of described external equipment, judges between described connector modules and described external equipment to be the first grafting kenel or the second grafting kenel; Transmission line, one end is electrically connected on described circuit board, and is electrically connected by described circuit board and described microprocessor; Housing, coated described circuit board, described double-surface contact type connector and described microprocessor, wherein said double-surface contact type connector and described transmission line expose respectively outside this housing; Wherein, described microprocessor provides electric power to the described external equipment connecting when described the first grafting kenel, and from the described external equipment connecting, obtains reverse power when described the second grafting kenel.
Preferably, described double-surface contact type connector is lightning (lightning) connector, and the other end of described transmission line has small USB (Micro USB) connector.
The effect that the utility model is reached compared to prior art is, the characteristic that all can peg graft with external equipment in the positive and negative two sides that utilizes double-surface contact type connector, the dynamic detection and the configuration feature that coordinate microprocessor, be distinguished into the first grafting kenel (i.e. positive pegging graft) and the second grafting kenel (being that reverse side is pegged graft) by the inserting mode of connector modules and external equipment.When the first grafting kenel, can provide electric power to the external equipment connecting, when the second grafting kenel, can obtain electric power from the external equipment connecting.Thus, when externally equipment does not have electricity, can use connector modules of the present utility model to power for the external equipment connecting; Otherwise when having specific demand, connector modules of the present utility model can also be obtained reverse power from the external equipment connecting, the external equipment of connection is considered as to portable power source, use.
Accompanying drawing explanation
Fig. 1 is the perspective exploded view of the first embodiment of the present utility model;
Fig. 2 is the circuit block diagram of the first embodiment of the present utility model;
Fig. 3 A is the schematic perspective view () of the first embodiment of the present utility model;
Fig. 3 B is the schematic perspective view (two) of the first embodiment of the present utility model;
Fig. 4 A is the schematic side view () of the first embodiment of the present utility model;
Fig. 4 B is the schematic side view (two) of the first embodiment of the present utility model;
Fig. 5 A is the first grafting kenel schematic diagram of the first embodiment of the present utility model;
Fig. 5 B is the second grafting kenel schematic diagram of the first embodiment of the present utility model;
Fig. 6 is the circuit block diagram of the second embodiment of the present utility model;
Fig. 7 is the schematic perspective view of the second embodiment of the present utility model;
Fig. 8 is the schematic perspective view of the 3rd embodiment of the present utility model;
Fig. 9 A is the front schematic view of the double-surface contact type connector of the first embodiment of the present utility model;
Fig. 9 B is the reverse side schematic diagram of the double-surface contact type connector of the first embodiment of the present utility model.
Description of reference numerals
1,1 ', 1 " connector modules 11 circuit boards
12 double-surface contact type connector 121 fronts
1211 the first terminal 122 reverse side
1221 second terminal 123,124 recognition terminal
125 power supplys receive terminal 13 microprocessors
14 female connector 141 first female connectors
142 second female connector 15 housings
151 first breach 152 second breach
16 rechargeable battery 17 display units
18 transmission line 19 Male head connectors
2 external equipment 3,6 external transmission lines
31 transformer 4 civil powers
5 external electronic P1 the first electric power
P2 the second electric power
Embodiment
Understanding feature of the present utility model and technology contents for can be more detailed, be described as follows cooperation accompanying drawing, yet appended accompanying drawing is only as illustrative purposes, not for limiting to the utility model.
Please refer to Fig. 1 and Fig. 2, be respectively perspective exploded view and the circuit block diagram of the first embodiment of the present utility model.The utility model mainly discloses a kind of connector modules (below in specification referred to as connector modules 1) with feedback charge function, as shown in the figure, this connector modules 1 mainly comprises circuit board 11, double-surface contact type connector 12, microprocessor 13 and housing 15.This circuit board 11 is electrically connected this double-surface contact type connector 12 and this microprocessor 13, and as shown in Figure 2, this microprocessor 13 is electrically connected by this circuit board 11 and this double-surface contact type connector 12.This housing 15 coated this circuit board 11, this double-surface contact type connector 12 and this microprocessor 13, wherein a side of this housing 15 offers the first breach 151, and this double-surface contact type connector 12 is exposed to outside this housing 15 by this first breach 151.
With reference to Fig. 3 A, Fig. 3 B, Fig. 4 A and Fig. 4 B, be respectively the first stereogram, the second stereogram, the first end view and second end view of the first specific embodiment of the present utility model simultaneously.In figure, can find out, this double-surface contact type connector 12 has front 121 and reverse side 122, this front 121 has two above the first terminals 1211, this reverse side 122 has two above the second terminals 1221, and the quantity of these two above the first terminals 1211 is identical with the quantity of these two above the second terminals 1221.In the present embodiment, it is example that this double-surface contact type connector 12 mainly be take lightning (lightning) connector of Apple (Apple. Inc) exploitation, yet this double-surface contact type connector can be for example also USB (the Universal Serial Bus of double-surface contact type, USB) connector, small USB (Micro USB) connector or external series high-tech configuration (external Serial Advanced Technology Attachment, e-SATA) connector etc., is not limited at this.
It is worth mentioning that, this double-surface contact type connector 12 of this case carries out customized modification for general lightning connector, the quantity of on this front 121 these two above the first terminals 1211 and configuration are all identical with the front of general lightning connector, and the quantity of on this reverse side 122 these two above the second terminals 1221 is identical with the number of terminals of the reverse side of general lightning connector, configures and according to customized content, revise.
Referring to Fig. 9 A and Fig. 9 B, be respectively front schematic view and the reverse side schematic diagram of the double-surface contact type connector of the first embodiment of the present utility model.As shown in Figure 9 A, in these two of this front 121 above the first terminals 1211, be at least provided with earth terminal (GND), power supply terminal (PWR), positive signal transmission terminal (S+), negative signal transmission terminal (S-) and recognition terminal (ID_BUS) 123.And as shown in Figure 9 B, in these two above the second terminals 1221 of this reverse side 122, be at least provided with earth terminal (GND), power supply terminal (PWR), recognition terminal (ID_BUS) 124 and power supply and receive terminal (ACC2) 125.
This microprocessor 13 in this connector modules 1 has dynamic detection and configuration feature.When the corresponding connector female end of this connector modules 1 by these double-surface contact type connector 12 grafting external equipments 2, what this microprocessor 13 produced electrical connection by these two recognition terminal, 123,124 judgements and this external equipment 2 is these two the above the first terminals 1211 in this front 121, or these two above the second terminals 1221 of this reverse side 122.
In the present embodiment, this microprocessor 13, by the connection state of these two recognition terminal 123,124 and this external equipment 2, judges between this connector modules 1 and this external equipment 2 to be the first grafting kenel or the second grafting kenel.More specifically, when this microprocessor 13 detects this recognition terminal 123 while being connected with this external equipment 2, be expressed as positive pegging graft, regard as this first grafting kenel; Otherwise, when this microprocessor 13 detects this recognition terminal 124 while being connected with this external equipment 2, be expressed as reverse side and peg graft, regard as this second grafting kenel.Whereby, reach the function of dynamic detection and configuration.
In the utility model, during at this connector modules 1 this external equipment 2 of grafting and in this first grafting kenel, this microprocessor 13 provides electric power to this external equipment 2 connecting by the power supply terminal (PWR) on this front 121; In addition, during at this connector modules 1 this external equipment 2 of grafting and in this second grafting kenel, this microprocessor 13 receives terminal (ACC2) 125 by this power supply on this reverse side 122, from this external equipment 2 connecting, obtains electric power, can feed back charging by this external equipment 2 whereby.Yet, the foregoing is only preferred embodiment of the present utility model, this microprocessor 13 also can be pegged graft front to regard as this second grafting kenel, and reverse side is pegged graft and regarded as this first grafting kenel, should not be limited with above-mentioned.
Refer again to Fig. 1 and Fig. 2, this connector modules 1 also can include at least one female connector 14, and this female connector 14 is electrically connected on this circuit board 11, and is electrically connected by this circuit board 11 and this microprocessor 13.This housing 15 is coated this female connector 14 simultaneously, and as shown in Figure 1, this housing 15 offers the second breach 152 in the opposite side away from this first breach 151, and this female connector 14 is exposed to outside this housing 15 by this second breach 152.
With reference to Fig. 5 A and Fig. 5 B, be respectively the first grafting kenel schematic diagram and the second grafting kenel schematic diagram of the first embodiment of the present utility model.As shown in the figure, this connector modules 1 can connect external transmission lines 3 by this female connector 14, and by this external transmission lines 3, is connected to other equipment again.In the present embodiment, this female connector 14 mainly be take universal serial bus connector as example, but is not limited.
As mentioned above, when this connector modules 1 is connected with this first grafting kenel with this external equipment 2, can provide electric power to this external equipment 2 by this connector modules 1.In the embodiment of Fig. 5 A, one end of this external transmission lines 3 is electrically connected this female connector 14 on this connector modules 1, and the other end is electrically connected transformer 31, and connects civil power 4 by this transformer 31.Whereby, in this first grafting kenel, this connector modules 1 can receive the electric power that this civil power 4 provides by this external transmission lines 3, and gives by this double-surface contact type connector 12 transmission the first electric power P1 this external equipment 2 connecting, for this external equipment 2 is powered.
On the other hand, when this connector modules 1 is connected with this second grafting kenel with this external equipment 2, this connector modules 1 can be obtained reverse power from this external equipment 2.In the embodiment of Fig. 5 B, one end of this external transmission lines 3 is electrically connected this female connector 14 on this connector modules 1, and the other end is electrically connected external electronic 5.Whereby, in this second grafting kenel, this connector modules 1 can pass through this double-surface contact type connector 12, receives the second electric power P2, and by this external transmission lines 3, this second electric power P2 is transferred to this external electronic 5 again from this external equipment 2 connecting.Whereby, this external equipment 2 is used as to portable power source, with thinking that this external electronic 5 powers.
It is worth mentioning that, this second electric power P2 is mainly the battery (not shown) that comes from these external equipment 2 inside.In this second grafting kenel, this connector modules 1 mainly can receive the input current of about 300mA~400mA, and it,, depending on the battery capacity of this external equipment 2, is not limited at this.In the present embodiment, it is example that this external equipment 2 be take the iPad with high capacity cell, and it is example that this external electronic 5 be take the iPhone that battery capacity is less than the battery capacity of this external equipment 2.In the ordinary course of things, the device that battery capacity is larger can be that the device that battery capacity is less charges by this second grafting kenel of this connector modules 1; Otherwise the device that battery capacity is less cannot be that the device that battery capacity is larger charges by this second grafting kenel of this connector modules 1.Yet, the foregoing is only preferred embodiments of the present utility model, should be as limit.In addition, this microprocessor 13 of the present utility model also can be through setting, and from battery capacity is less than the electronic equipment of threshold value, do not obtain electric power, but be not limited.
With reference to Fig. 6 and Fig. 7, be respectively circuit block diagram and the schematic perspective view of the second embodiment of the present utility model.Fig. 6 and Fig. 7 disclose another connector modules 1 ', as shown in the figure, this connector modules 1 ' has the first female connector 141 and the second female connector 142, this first female connector 141 is electrically connected at respectively on this circuit board 11 with this second female connector 142, and is electrically connected by this circuit board 11 and this microprocessor 13.This housing 15 coated this first female connector 141 and this second female connector 142, and this first female connector 141 is exposed to outside this housing 15 with this second female connector 142.
This first female connector 141 is same as this female connector 14 in above-mentioned this connector modules 1, is power transmission connector, does not repeat them here.This second female connector 142 is mainly data transmission connector.This connector modules 1 ' can connect external transmission lines 6 by this second female connector 142, and is electrically connected external electronic (for example this external electronic 5 in Fig. 5 B) by this external transmission lines 6.Whereby, when this connector modules 1 ' is connected with this first grafting kenel with this external equipment 2, this external equipment 2 can carry out transfer of data by this connector modules 1 ' with this external electronic 5.And, in the present embodiment, it is example that this second female connector 142 mainly be take small USB (Micro USB) connector, yet in other embodiments, this second female connector 142 can be universal serial bus connector, Small Universal universal serial bus (mini USB) connector of type A etc., is not limited.
As shown in Figure 6, this connector modules 1 ' also can comprise rechargeable battery 16, and this rechargeable battery 16 is electrically connected on this circuit board 11, and is electrically connected this microprocessor 13 by this circuit board 11.In the present embodiment, when this connector modules 1 ' is with this external equipment 2 being connected during in this first grafting kenel, this connector modules 1 ' can offer this external equipment 2 by the electric power of storage in this rechargeable battery 16.Whereby, this connector modules 1 ' is considered as to portable power source, with thinking that this external equipment 2 powers.In this embodiment, this connector modules 1 ' mainly can connect this external transmission lines 3 by this first female connector 141, and connects this civil power 4 by this external transmission lines 3, so as to being charged for this rechargeable battery 16 by this civil power 4.
In addition, when this connector modules 1 ' is with this external equipment 2 being connected during in this second grafting kenel, this connector modules 1 ' can receive reverse powers from this external equipment 2 connecting, and is stored in this rechargeable battery 16.Whereby, this external equipment 2 is considered as to portable power source, with thinking that this rechargeable battery 16 in this connector modules 1 ' charges.And, this connector modules 1 ' can connect this external transmission lines 3 by this first female connector 141, and connect this external electronic 5 by this external transmission lines 3, so as to by this rechargeable battery 16 storage electric power transfer to this external electronic 5, for this external electronic 5 is powered.
As shown in Figure 6, this connector modules 1 ' also can comprise display unit 17, and this display unit 17 is electrically connected on this circuit board 11, and is electrically connected by this circuit board 11 and this microprocessor 13.This display unit 17 can be exposed to outside this housing 15.In the present embodiment, this display unit 17 mainly can be one or more light-emitting diodes (Light Emitted Diode, LED) or liquid crystal display (Liquid Crystal Display, LCD), but is not limited.This connector modules 1 ' mainly can show by this display unit 17 relevant information of these connector modules 1 ', such as at present in this first grafting kenel or the second grafting kenel, at present just at transferring electric power or transmission data, the current input/output magnitude of current and the capacity of this rechargeable battery 16 etc.But, the foregoing is only preferred embodiments of the present utility model, should be as limit.
With reference to Fig. 8, it is the schematic perspective view of the 3rd embodiment of the present utility model.Fig. 8 discloses another connector modules 1 ", be this connector modules 1 with the difference of above-mentioned this connector modules 1 " also there is transmission line 18 and Male head connector 19.
Particularly, this connector modules 1 " there is this circuit board 11, this double-surface contact type connector 12, this microprocessor 13 and this housing 15 in this connector modules 1, and comprise this transmission line 18 and this Male head connector 19.One end of this transmission line 18 is electrically connected on this circuit board 11, and is electrically connected by this circuit board 11 and this microprocessor 13.This transmission line 18 exposes outside this housing 15, and these Male head connector 19 these transmission lines 18 of electric connection are exposed to the other end outside this housing 15.In the present embodiment, this Male head connector 19 mainly be take small USB (Micro USB) connector and is example, but is not limited.
In the present embodiment, this connector modules 1 " can pass through this double-surface contact type connector 12 these external equipments 2 of grafting, and by this Male head connector 19 these external electronic 5 of grafting.Whereby, in this first grafting kenel, this connector modules 1 " can provide electric power to this external equipment 2, and this external equipment 2 can transmit mutually data with this external electronic 5.In addition, if this connector modules 1 " by this Male head connector 19, connect this civil power 4,, in this first grafting kenel, also can provide electric power to this external equipment 2 by this civil power 4.
In addition, in this second grafting kenel, this connector modules 1 " can receive reverse power from this external equipment 2 connecting, and offer again this external electronic 5 uses, for this external electronic 5 is powered.
The above, be only illustrating of preferred embodiment of the present utility model, and not in order to limit to protection range of the present utility model, other any equivalent transformation all should belong to the application's claim scope.

Claims (10)

1. a connector modules with feedback charge function, is characterized in that, this connector modules is in order to connect external equipment, and this connector modules comprises:
Circuit board;
Double-surface contact type connector, is electrically connected on described circuit board, and this double-surface contact type connector has front and reverse side, on described front and described reverse side, is respectively arranged with recognition terminal;
Microprocessor, be electrically connected on described circuit board, and be electrically connected by described circuit board and described double-surface contact type connector, this microprocessor, by two recognition terminal on described front and described reverse side and the connection state of described external equipment, judges between described connector modules and described external equipment to be the first grafting kenel or the second grafting kenel; And
Housing, coated described circuit board, described double-surface contact type connector and described microprocessor, wherein said double-surface contact type connector exposes outside this housing;
Wherein, described microprocessor provides electric power to the described external equipment connecting when described the first grafting kenel, and from the described external equipment connecting, obtains reverse power when described the second grafting kenel.
As claimed in claim 1 have feedback charge function connector modules, it is characterized in that, this connector modules also comprises female connector, this female connector is electrically connected on described circuit board, and be electrically connected by described circuit board and described microprocessor, and this female connector exposes outside described housing, described connector modules receives electric power by described female connector and offers the described external equipment of connection, or receives electric power and externally transmit by described female connector from the described external equipment connecting.
As claimed in claim 2 have feedback charge function connector modules, it is characterized in that, this connector modules also comprises the second female connector, this second female connector is electrically connected on described circuit board, and be electrically connected by described circuit board and described microprocessor, and this second female connector exposes outside described housing, described connector modules connects external electronic by described the second female connector, whereby, described external equipment and described external electronic are carried out transfer of data by described connector modules.
4. the connector modules with feedback charge function as claimed in claim 3, is characterized in that, described female connector is universal serial bus connector, and described the second female connector is small universal serial bus connector.
As claimed in claim 1 have feedback charge function connector modules, it is characterized in that, the described front of described double-surface contact type connector has two above the first terminals, described reverse side has two above the second terminals, and the quantity of described two above the first terminals equates with the quantity of described two above the second terminals.
6. the connector modules with feedback charge function as claimed in claim 5, is characterized in that, described double-surface contact type connector is lightning connector.
As claimed in claim 1 have feedback charge function connector modules, it is characterized in that, this connector modules also comprises rechargeable battery, this rechargeable battery is electrically connected on described circuit board, and be electrically connected by described circuit board and described microprocessor, described connector modules provides electric power to the described external equipment connecting by described rechargeable battery, or receives electric power and be stored in described rechargeable battery from the described external equipment connecting.
8. the connector modules with feedback charge function as claimed in claim 1, is characterized in that, this connector modules also comprises display unit, and this display unit is electrically connected on described circuit board, and is electrically connected by described circuit board and described microprocessor.
9. a connector modules with feedback charge function, is characterized in that, this connector modules is in order to connect external equipment, and this connector modules comprises:
Circuit board;
Double-surface contact type connector, is electrically connected on described circuit board, and this double-surface contact type connector has front and reverse side, on described front and described reverse side, is respectively arranged with recognition terminal;
Microprocessor, be electrically connected on described circuit board, and be electrically connected by described circuit board and described double-surface contact type connector, this microprocessor, by two recognition terminal on described front and described reverse side and the connection state of described external equipment, judges between described connector modules and described external equipment to be the first grafting kenel or the second grafting kenel;
Transmission line, one end is electrically connected on described circuit board, and is electrically connected by described circuit board and described microprocessor;
Housing, coated described circuit board, described double-surface contact type connector and described microprocessor, wherein said double-surface contact type connector and described transmission line expose respectively outside this housing;
Wherein, described microprocessor provides electric power to the described external equipment connecting when described the first grafting kenel, and from the described external equipment connecting, obtains reverse power when described the second grafting kenel.
10. the connector modules with feedback charge function as claimed in claim 9, is characterized in that, described double-surface contact type connector is lightning connector, and the other end of described transmission line has small universal serial bus connector.
CN201420017260.5U 2014-01-10 2014-01-10 Connector module with feedback charging function Active CN203734071U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420017260.5U CN203734071U (en) 2014-01-10 2014-01-10 Connector module with feedback charging function

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420017260.5U CN203734071U (en) 2014-01-10 2014-01-10 Connector module with feedback charging function

Publications (1)

Publication Number Publication Date
CN203734071U true CN203734071U (en) 2014-07-23

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420017260.5U Active CN203734071U (en) 2014-01-10 2014-01-10 Connector module with feedback charging function

Country Status (1)

Country Link
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