Have the portable power source that fingerprint is controlled concurrently
Technical field:
The utility model relates to a kind of portable power source, especially a kind of portable power source that has fingerprint control concurrently.
Background technology:
In order to facilitate the chargings such as mobile phone, on market, there is portable power source, existing portable power source fail safe is not high, so long as can using of matching with portable power source model of mobile phone, therefore sometimes without owner, permit, the power supply of the inside may have been used up by others, when oneself need to charge, and cannot reach the object of charging.
Summary of the invention:
The purpose of this utility model is to solve prior art deficiency, and a kind of portable power source that fingerprint is controlled that has concurrently is provided.
The technical solution of the utility model is:
Have the portable power source that fingerprint is controlled concurrently, comprise movable power shell, also comprise the housing of Fingerprint Identification Unit, movable power shell is provided with a notch, the housing of Fingerprint Identification Unit is arranged in notch, is provided with power circuit, charge-discharge control circuit in movable power shell, USB interface, battery, fingerprint sensor, fingerprint control circuit, fingerprint recognition chip and the charge-discharge control circuit being electrically connected to fingerprint recognition chip, fingerprint control circuit is electrically connected to fingerprint sensor and fingerprint recognition chip respectively; Charge-discharge control circuit is connected with battery with USB interface respectively; Power circuit is connected with battery, fingerprint recognition chip and fingerprint control circuit respectively and is used to fingerprint recognition chip and fingerprint control circuit to power.
Wherein, also comprise reset circuit and crystal oscillating circuit, fingerprint recognition chip is connected with crystal oscillating circuit with reset circuit respectively.
Wherein, also comprise indicator light and control button, charge-discharge control circuit is connected with control button with indicator light respectively.
Wherein, fingerprint recognition chip is AS606.
Wherein, outer casing of power supply is provided with for covering the slide plate of notch.
Wherein, also comprise data wire, fingerprint recognition chip is connected with USB interface by data wire.
Wherein, also comprise charging IC, charging IC is connected with power circuit.
Wherein, also comprise battery protecting circuit, battery protecting circuit is connected with battery.
From such scheme, because portable power source is provided with Fingerprint Identification Unit, before using portable power source, must be through fingerprint recognition, Fingerprint Identification Unit passes to fingerprint recognition chip by identification signal, through the processing of fingerprint recognition chip with after analyzing, signal is passed to charge-discharge control circuit, charge-discharge control circuit, to controlling battery to outside charging of mobile devices, has increased the fail safe of portable power source; Outside mobile device (as mobile phone) is connected with fingerprint chip by data wire simultaneously, by realizing the functions such as mobile-phone payment after the identification of Fingerprint Identification Unit, increases the fail safe of mobile-phone payment.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is functional-block diagram of the present utility model;
Fig. 3 is the AS606 first circuit diagram in the utility model;
Fig. 4 is the AS606 second portion circuit diagram in the utility model;
Fig. 5 is the AS606 third part circuit diagram in the utility model;
Fig. 6 is AS606 the 4th partial circuit figure in the utility model;
Fig. 7 is the charge-discharge control circuit figure in the utility model;
Fig. 8 is the fingerprint control circuit figure in the utility model;
Fig. 9 is the charging IC circuit figure in the utility model;
Figure 10 is the battery protecting circuit figure in the utility model;
Figure 11 is the power circuit diagram in the utility model;
Figure 12 is the reset circuit figure in the utility model;
Figure 13 is the crystal oscillating circuit figure in the utility model;
Figure 14 is the Fingerprint Identification Unit stereogram in the utility model.
Embodiment:
For setting forth thought of the present utility model and object, below in conjunction with the drawings and specific embodiments, the utility model is further described.
As shown in Fig. 1 to Figure 14, a kind of portable power source that has fingerprint control concurrently, comprise movable power shell 1, the housing 21 that also comprises Fingerprint Identification Unit 2, movable power shell 1 is provided with a notch 11, the housing 21 of Fingerprint Identification Unit 2 is arranged in notch 11, in movable power shell 1, be provided with power circuit 110, charge-discharge control circuit 105, usb 1 04, battery 106, fingerprint sensor 112, fingerprint control circuit 111, fingerprint recognition chip 109 and the charge-discharge control circuit 105 being electrically connected to fingerprint recognition chip 109, fingerprint control circuit 111 is electrically connected to fingerprint sensor 112 and fingerprint recognition chip 109 respectively, charge-discharge control circuit 105 is connected with battery 106 with usb 1 04 respectively, power circuit 110 is connected with battery 106, fingerprint recognition chip 109 and fingerprint control circuit 111 respectively and is used to fingerprint recognition chip 109 and fingerprint control circuit 111 to power.
Also comprise reset circuit 107 and crystal oscillating circuit 108, fingerprint recognition chip 109 is connected with crystal oscillating circuit 108 with reset circuit 107 respectively.When Fingerprint Identification Unit 2 cisco unity malfunctions or appearance deadlock, 107 pairs of Fingerprint Identification Units 2 of reset circuit restart, and make Fingerprint Identification Unit 2 reach normal operating conditions; Crystal oscillating circuit 108 is connected with fingerprint recognition chip 109, at fingerprint recognition chip 109, switches on moment, and crystal oscillating circuit 108 produces oscillator signals, finally by oversampling circuit correction, program timing sequence pulse signal, after this, fingerprint recognition chip 109, under the beat of this pulse signal, is worked length by length.
Also comprise indicator light 101 and control button 102, charge-discharge control circuit 105 is connected with control button 102 with indicator light 101 respectively.Wherein fingerprint recognition chip 109 is AS606.
In order to prevent encountering unintentionally Fingerprint Identification Unit 2, on outer casing of power supply 1, be provided with for covering the slide plate of notch 11, at notch 11 places, a slideway is set, slide plate slides along slideway, when needs are used battery 106 for outside mobile device (mobile phone 103) charging, first sliding skateboard is opened notch 11, then beats fingerprint; When not needing to charge, available slide plate covers notch 11.
Also comprise data wire, fingerprint recognition chip 109 is connected with usb 1 04 by data wire.When outside mobile device (mobile phone 103) pays on the net, by data wire, Fingerprint Identification Unit 2 is connected with mobile phone 103, by fingerprint recognition and password double insurance, make to pay safer.
Also comprise charging IC, charging IC is connected with power circuit 110.Charging IC, for controlling when charging and detecting electric current, voltage, makes power circuit 110 take best state as 109 power supplies of fingerprint recognition chip.
Also comprise battery protecting circuit, battery protecting circuit is connected with battery 106.Battery protecting circuit is for controlling and detect electric current, the voltage of battery, and the temperature while also checking charge or discharge makes external power source take best state and take best state as external equipment power supply as battery 106 chargings or battery.
Introduce charging and discharging process of the present utility model below:
Charge the phone process: open slide block, fingerprint is aimed at fingerprint sensor 112, fingerprint control circuit is converted into the signal of telecommunication by fingerprint signal, and pass to fingerprint recognition chip 109, whether fingerprint recognition chip 109 identification fingerprints match with default fingerprint, if matched, charge-discharge control circuit 105 control batteries charge to outside mobile phone, if do not matched, charge-discharge control circuit 105 is controlled battery not to outside mobile phone charging.When not needing when charging the phone, with slide block sealing notch 11.
Process charges the battery: external power source can be directly with battery charging.
More than that the portable power source that has fingerprint control concurrently provided by the utility model is described in detail, applied specific case herein structural principle of the present utility model and execution mode are set forth, above embodiment is just for helping to understand method of the present utility model and core concept thereof; , for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, to sum up, this description should not be construed as restriction of the present utility model meanwhile.