CN205306956U - Bracelet treater that possesses supply circuit that resets - Google Patents

Abstract

The utility model provides a bracelet treater that possesses supply circuit that resets, include: bracelet and peripheral equipment, the bracelet includes, gravity sensor, power supply circuit and a bluetooth module, the power supply circuit feeder ear is connected to the gravity sensor power end, a bluetooth module power end is still connected to the power supply circuit feeder ear, gravity sensor connected signal central processing unit signal interaction terminal, central processing unit data transmission terminal connects a bluetooth module data transmission terminal, gravity sensor carries out assay through central processing unit with body motion information, transmits the analysis data to peripheral equipment through a bluetooth module.

Description

Possesses the bracelet processor of reset power supply circuits

Technical field

This utility model relates to acceleration transducer control field, particularly relates to a kind of bracelet processor possessing reset power supply circuits.

Background technology

It is note step that intelligence dresses the now general effect of bracelet, sleep monitor, general principle is exactly whether the bracelet monitoring you has vibrations, with vibrations for foundation, carry out note step record and sleep monitor, but what the acceleration transducer in bracelet can do runs far deeper than these, in prior art, person skilled is but without bracelet is applied to control intelligent terminal, or operation automobile and Intelligent remote control type device, and circuit layout is unreasonable, can not to carry out accurate information mutual with car networking or ancillary equipment, can not realize accurately controlling automobile, gate inhibition or other external equipments. this just needs those skilled in the art badly and solves corresponding technical problem.

Utility model content

This utility model is intended to the technical problem at least solving exist in prior art, especially innovatively proposes a kind of bracelet processor possessing reset power supply circuits.

In order to realize above-mentioned purpose of the present utility model, this utility model provides a kind of bracelet processor possessing reset power supply circuits, comprising: central processing unit, double; two micro voltage comparator, gravity sensor, power circuit, reset circuit, the first bluetooth module;

The double, two micro voltage comparison signal transmission ends of central processing unit connects double, two micro voltage comparator signal outfan, described pair of micro voltage comparator signal receiving terminal connects gravity sensor signal output part, described gravity sensor signal end is also connected with central processing unit gravitational cue input, described power circuit power end connects double, two micro voltage comparator power end, described power circuit reset feeder ear connects reset circuit power input, described reset-circuit signal end connects central processing unit reset signal end, described power circuit feeder ear is also connected with the first bluetooth module power input, described first bluetooth module signal controls end and connects central processing unit Bluetooth signal end,

Described power circuit includes: the 15th electric capacity, the 16th electric capacity, the 17th electric capacity, the 18th electric capacity, the 19th electric capacity;

Power input connects the 15th electric capacity one end and the 16th electric capacity one end respectively, described 15th electric capacity other end ground connection, described 16th electric capacity other end ground connection, described 16th electric capacity one end is also connected with manostat power input, described 16th electric capacity one end is also connected with manostat Enable Pin, described manostat power output end connects the 18th electric capacity one end and the 19th electric capacity one end, ground connection after described 19th electric capacity other end connection the 18th electric capacity other end, described manostat reference noise end connects the 17th electric capacity one end, described 17th electric capacity other end ground connection,

Described reset circuit includes: the 12nd resistance, the 13rd resistance, the 14th resistance, the 15th resistance, the 16th resistance, the 17th resistance, the 18th resistance, the 19th resistance, the 20th resistance, the 21st resistance, the 22nd resistance, the 23rd resistance, the 24th electric capacity, the 25th electric capacity, the first transistor, transistor seconds, the first diode;

Power input connects the 12nd resistance one end and the first diode cathode respectively, the described 12nd resistance other end connects the 13rd resistance one end, the described 13rd resistance other end connects the 20th resistance one end and the first transistor base stage respectively, described the first transistor base stage is also connected with the 21st resistance one end, the described 21st resistance other end connects the first transistor emitter stage ground connection, described first crystal pipe collector connects the 22nd resistance one end central processing unit respectively and resets end, the described 22nd resistance other end connects central processing unit power end, 25th electric capacity one end connects the 22nd resistance one end, the described 25th electric capacity other end connects the 23rd resistance one end, described 23rd resistance other end ground connection, described first diode cathode is also respectively connected with the 15th resistance one end and the 14th resistance one end, described 14th resistance other end ground connection, the described 15th resistance other end connects the first diode cathode and the 24th electric capacity one end respectively, the described 24th electric capacity other end connects the 16th resistance one end, described 16th resistance other end ground connection, described 24th resistance one end is also connected with the 19th resistance one end, the described 19th resistance other end connects the 17th resistance one end and transistor seconds base stage respectively, described transistor seconds colelctor electrode connects the 20th resistance other end, the described 17th resistance other end connects the 18th resistance one end ground connection, the described 18th resistance other end connects transistor seconds emitter stage,

Described central processing unit includes: control switch, the 24th resistance, the 25th resistance, the 26th resistance, the 27th resistance, the 26th electric capacity, the 27th electric capacity, the 28th electric capacity, the 29th electric capacity, the 30th electric capacity, agitator;

Control switch one end connect the 24th resistance one end respectively and process chip replacement end, described 24th resistance other end ground connection, the described switch other end that controls connects power end and the 27th electric capacity one end respectively, described 27th electric capacity other end ground connection, described 27th electric capacity one end is also respectively connected with control interface and the 26th electric capacity one end, above-mentioned 26th electric capacity other end ground connection, 28th electric capacity one end connects power input respectively and processes chip power end, described 28th electric capacity other end ground connection, 4th inductance one end connection processes chip switch end, the described 4th inductance other end connects the 27th resistance one end and the 20th Liu's resistance one end respectively, the described 27th resistance other end connects the 25th resistance one end respectively and processes chip power end, described 25th resistance other end ground connection, the described 26th resistance other end connects the 29th electric capacity one end respectively and processes chip reference voltage end, described 29th electric capacity one end is also connected with the 30th electric capacity one end, described 30th electric capacity other end ground connection, described 29th electric capacity other end ground connection, described agitator connection processes chip crystal oscillator end.

The described bracelet processor possessing reset power supply circuits, it is preferred that described manostat is RT9193.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are:

This utility model can better be interconnected with ancillary equipment by the gravity sensor in bracelet, realize Based Intelligent Control ancillary equipment, and ensure the precision controlled, realize the intelligent operation in life, improve people the experience sense of electronic equipment is subject to, be better the productive life service of people.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become apparent from the description below, or is recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is that this utility model realizes the direction recognition device schematic diagram of man-machine interaction based on acceleration transducer;

Fig. 2 is this utility model direction recognition device bracelet schematic diagram;

Fig. 3 is this utility model direction recognition device bracelet bluetooth module schematic diagram;

Fig. 4 is this utility model direction recognition device bracelet power circuit schematic diagram;

Fig. 5 is the double; two micro voltage comparator schematic diagram of this utility model direction recognition device bracelet;

Fig. 6 is this utility model direction recognition device bracelet reset circuit schematic diagram;

Fig. 7 is this utility model direction recognition device bracelet central processing unit schematic diagram;

Fig. 8 is this utility model direction recognition device automotive controls schematic diagram;

Fig. 9 is this utility model direction recognition device car acoustic power amplifier circuit diagram;

Figure 10 is this utility model direction recognition device window control circuit schematic diagram;

Figure 11 is this utility model direction recognition device window control circuit schematic diagram.

Detailed description of the invention

Being described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of same or like function from start to finish. The embodiment described below with reference to accompanying drawing is illustrative of, and is only used for explaining this utility model, and it is not intended that to restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " longitudinal direction ", " transverse direction ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

In description of the present utility model, unless otherwise prescribed and limit, it should be noted that term " installation ", " being connected ", " connection " should be interpreted broadly, for instance, can be mechanically connected or electrical connection, can also be the connection of two element internals, it is possible to be joined directly together, it is also possible to be indirectly connected to by intermediary, for the ordinary skill in the art, it is possible to understand the concrete meaning of above-mentioned term as the case may be.

As it is shown in figure 1, device of the present utility model, including: bracelet and ancillary equipment; Described bracelet includes, gravity sensor, power circuit and the first bluetooth module;

Described gravity sensor power end connects power circuit feeder ear, described power circuit feeder ear is also connected with the first bluetooth module power end, described gravity sensor signal end connects central processing unit signal interaction end, described central processing unit data transmission terminal connects the first bluetooth module data transmission terminal, body motion information is analyzed by described gravity sensor by central processing unit, and by the first bluetooth module, analytical data is transferred to ancillary equipment.

Described ancillary equipment includes: intelligent terminal, automobile parametric controller, gate control system and remote control unit;

Described first bluetooth module data interaction end wireless connections Intelligent terminal data interaction end, described first bluetooth module data interaction end wireless connections automobile parametric controller data interaction end, described first bluetooth module data interaction end wireless connections gate control system data interaction end, described first bluetooth module data interaction end wireless connections remote control unit data interaction end.

As shown in Figure 2, the double, two micro voltage comparison signal transmission ends of Intelligent bracelet central processing unit connects double, two micro voltage comparator signal outfan, described pair of micro voltage comparator signal receiving terminal connects gravity sensor signal output part, described gravity sensor signal end is also connected with central processing unit gravitational cue input, described power circuit power end connects double, two micro voltage comparator power end, described power circuit reset feeder ear connects reset circuit power input, described reset-circuit signal end connects central processing unit reset signal end, described power circuit feeder ear is also connected with the first bluetooth module power input, described first bluetooth module signal controls end and connects central processing unit Bluetooth signal end.

As it is shown on figure 3, described bluetooth module includes: the first electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11st electric capacity, the 12nd electric capacity, the 13rd electric capacity, the 14th electric capacity, the first resistance, the first crystal oscillator, the first inductance, the second inductance, the 3rd inductance;

Described first electric capacity one end connects first crystal oscillator one end and Bluetooth chip crystal oscillator input respectively, the described first electric capacity other end connects the second electric capacity one end and ground connection, the described second electric capacity other end connects the first crystal oscillator other end and Bluetooth chip crystal oscillator outfan respectively, described first resistance one end connects Bluetooth chip reference voltage end, the described first resistance other end connects Bluetooth chip earth terminal respectively, the described first resistance other end is also connected with the 8th electric capacity one end, the described 8th electric capacity other end connects power end, described 6th electric capacity one end connects exterior antenna and the 5th electric capacity one end respectively, described 6th electric capacity other end ground connection, the described 5th electric capacity other end connects the 3rd inductance one end, the described 3rd inductance other end connects Bluetooth chip antenna signal end and first inductance one end respectively, the described first inductance other end connects Bluetooth chip antenna signal end and second inductance one end respectively, the described second inductance other end connects the 4th electric capacity one end, described 4th electric capacity other end ground connection, described 4th electric capacity one end is also connected with the 3rd electric capacity one end, described 3rd electric capacity other end ground connection, described 3rd electric capacity one end is also connected with Bluetooth chip and powers outfan, described 12nd electric capacity one end connects Bluetooth chip low-voltage power supply end, described 12nd electric capacity other end ground connection, ground connection behind described 13rd connection the 14th electric capacity one end, electric capacity one end, the described 13rd electric capacity other end connects second crystal oscillator one end, the described 14th electric capacity other end connects the second crystal oscillator other end, described second crystal oscillator connects Bluetooth chip crystal oscillator end, described 9th electric capacity one end connects Bluetooth chip power end, described 9th electric capacity other end ground connection, described tenth electric capacity one end connects Bluetooth chip output end of stabilized voltage supply, described tenth electric capacity other end ground connection, described 11st electric capacity one end connects output end of stabilized voltage supply, described 11st electric capacity other end ground connection.

Described Bluetooth chip is preferably nRF8001.

As shown in Figure 4, described power subsystem includes: the 15th electric capacity, the 16th electric capacity, the 17th electric capacity, the 18th electric capacity, the 19th electric capacity;

Power input connects the 15th electric capacity one end and the 16th electric capacity one end respectively, described 15th electric capacity other end ground connection, described 16th electric capacity other end ground connection, described 16th electric capacity one end is also connected with manostat power input, described 16th electric capacity one end is also connected with manostat Enable Pin, described manostat power output end connects the 18th electric capacity one end and the 19th electric capacity one end, ground connection after described 19th electric capacity other end connection the 18th electric capacity other end, described manostat reference noise end connects the 17th electric capacity one end, described 17th electric capacity other end ground connection.

Described manostat is preferably RT9193.

As it is shown in figure 5, described pair of micro voltage comparator includes: the first operational amplifier, the second operational amplifier, the 3rd comparator, four-operational amplifier, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, the 6th resistance, the 7th resistance, the 8th resistance, the 9th resistance, the tenth resistance, the 11st resistance, the 20th electric capacity, the 21st electric capacity, the 22nd electric capacity, the 23rd resistance;

First operational amplifier U1B electrode input end connects second operational amplifier U1A negative input and the 11st resistance one end respectively, described first operational amplifier negative input connects the first operational amplifier output terminal and the 21st electric capacity one end respectively, the described 21st electric capacity other end connects the 4th resistance one end and the 3rd comparator negative input respectively, described 4th resistance other end ground connection, described second operational amplifier negative input is also connected with the 20th electric capacity one end, the described 20th electric capacity other end connects the 3rd resistance one end, the described 3rd resistance other end connects second resistance one end box the second operational amplifier electrode input end respectively, the described second resistance other end connects the second operational amplifier output terminal and the 11st resistance other end respectively, described 3rd comparator electrode input end connects the tenth resistance one end and the 9th resistance one end, described tenth resistance other end ground connection, the described 9th resistance other end connects four-operational amplifier outfan, described 3rd comparator bypass end connects the 8th resistance one end, the described 8th resistance other end connects the 22nd electric capacity one end and four-operational amplifier electrode input end respectively, described 22nd electric capacity other end ground connection, described 3rd comparator bypass end connects power input and the 6th resistance one end, the described 6th resistance other end connects the 3rd comparator output terminal and the 7th resistance one end respectively, the described 7th resistance other end connects four-operational amplifier negative input and the 23rd electric capacity one end, the described 23rd electric capacity other end connects central processing unit signal output part and four-operational amplifier outfan respectively, described power input is also connected with the 6th resistance one end, the described 6th resistance other end connects the 3rd comparator output terminal and the 7th resistance one end respectively, the described 7th resistance other end connects four-operational amplifier negative input.

Described comparator is preferably TLC393.

As shown in Figure 6, described reset circuit includes: the 12nd resistance, the 13rd resistance, the 14th resistance, the 15th resistance, the 16th resistance, the 17th resistance, the 18th resistance, the 19th resistance, the 20th resistance, the 21st resistance, the 22nd resistance, the 23rd resistance, the 24th electric capacity, the 25th electric capacity, the first transistor, transistor seconds, the first diode;

Power input connects the 12nd resistance one end and the first diode cathode respectively, the described 12nd resistance other end connects the 13rd resistance one end, the described 13rd resistance other end connects the 20th resistance one end and the first transistor base stage respectively, described the first transistor base stage is also connected with the 21st resistance one end, the described 21st resistance other end connects the first transistor emitter stage ground connection, described first crystal pipe collector connects the 22nd resistance one end central processing unit respectively and resets end, the described 22nd resistance other end connects central processing unit power end, 25th electric capacity one end connects the 22nd resistance one end, the described 25th electric capacity other end connects the 23rd resistance one end, described 23rd resistance other end ground connection, described first diode cathode is also respectively connected with the 15th resistance one end and the 14th resistance one end, described 14th resistance other end ground connection, the described 15th resistance other end connects the first diode cathode and the 24th electric capacity one end respectively, the described 24th electric capacity other end connects the 16th resistance one end, described 16th resistance other end ground connection, described 24th resistance one end is also connected with the 19th resistance one end, the described 19th resistance other end connects the 17th resistance one end and transistor seconds base stage respectively, described transistor seconds colelctor electrode connects the 20th resistance other end, the described 17th resistance other end connects the 18th resistance one end ground connection, the described 18th resistance other end connects transistor seconds emitter stage.

As it is shown in fig. 7, described central processing unit includes: control switch, the 24th resistance, the 25th resistance, the 26th resistance, the 27th resistance, the 26th electric capacity, the 27th electric capacity, the 28th electric capacity, the 29th electric capacity, the 30th electric capacity, agitator;

Control switch one end connect the 24th resistance one end respectively and process chip replacement end, described 24th resistance other end ground connection, the described switch other end that controls connects power end and the 27th electric capacity one end respectively, described 27th electric capacity other end ground connection, described 27th electric capacity one end is also respectively connected with control interface and the 26th electric capacity one end, above-mentioned 26th electric capacity other end ground connection, 28th electric capacity one end connects power input respectively and processes chip power end, described 28th electric capacity other end ground connection, 4th inductance one end connection processes chip switch end, the described 4th inductance other end connects the 27th resistance one end and the 20th Liu's resistance one end respectively, the described 27th resistance other end connects the 25th resistance one end respectively and processes chip power end, described 25th resistance other end ground connection, the described 26th resistance other end connects the 29th electric capacity one end respectively and processes chip reference voltage end, described 29th electric capacity one end is also connected with the 30th electric capacity one end, described 30th electric capacity other end ground connection, described 29th electric capacity other end ground connection, described agitator connection processes chip crystal oscillator end.

Described process chip is preferably DA14580.

As shown in Figure 8, vehicle-mounted console includes: vehicle-mounted central processor, wireless transport module, power amplifier module, power module and window control circuit;

Vehicle-mounted central processor is wirelessly transferred end and connects wireless transport module, for receiving the data of Intelligent bracelet the first bluetooth module transmission, described vehicle-mounted central processor power amplifier controls end wired power amplifier module signal end, described vehicle-mounted central processor vehicle window controls end and connects window control circuit control signal end, and described power circuit power end connects vehicle-mounted central processor power supply end.

Vehicle-mounted central processor is preferably C8051F040.

As shown in Figure 9, sound equipment power amplifier includes: the 31st electric capacity, 32nd electric capacity, 33rd electric capacity, 34th electric capacity, 35th electric capacity, 36th electric capacity, 37th electric capacity, second diode, 3rd diode, 4th diode, 5th diode, 5th inductance, 28th resistance, 29th resistance, 30th resistance, 31st resistance, 32nd resistance, 33rd resistance, 34th resistance, 35th resistance, 36th resistance, 37th resistance, 38th resistance, 39th resistance, 40th resistance, third transistor, 4th transistor, 5th transistor, 6th transistor,

Power output end connects the 31st electric capacity one end and the 32nd electric capacity one end respectively, the described 31st electric capacity other end connects the 28th resistance one end, the described 32nd electric capacity other end connects the 31st electric capacity other end ground connection, described 32nd electric capacity one end is also connected with power amplifier chips power end, the described 28th resistance other end connects the 29th resistance one end, the described 29th resistance other end connects the 31st resistance one end and the 33rd resistance one end respectively, the described 31st resistance other end connects the 32nd resistance one end and the 34th electric capacity one end respectively, described 34th electric capacity other end ground connection, the described 32nd resistance other end connects the 34th resistance one end and power amplifier chips negative input respectively, the described 34th resistance other end connects the 33rd resistance other end and power amplifier chips PWN pulse ends respectively, described 34th resistance one end is also connected with the 35th resistance one end, the described 35th resistance other end connects the 36th resistance one end, the described 36th resistance other end connects the 40th resistance one end and described power amplifier chips electrode input end respectively, described 36th resistance one end is also respectively connected with the 35th electric capacity one end and the 37th resistance one end, the described 35th electric capacity other end connects power amplifier chips crystal oscillator end, described power amplifier chips crystal oscillator end is also connected with the 37th resistance other end, described 37th resistance one end is also connected with the 38th resistance one end, the described 38th resistance other end connects the 4th transistor base, described 38th resistance one end is also connected with the 4th transistor collector, described 4th transistor base is also connected with third transistor base stage, described third transistor emitter stage connects the 4th emitter and transformator outfan respectively, described third transistor colelctor electrode connects power amplifier chips collector terminal and the 5th transistor collector respectively, described 5th transistor base connects the 6th transistor base, described 5th emitter connects the 6th emitter, described 6th transistor base is also connected with the 39th resistance one end, the described 39th resistance other end connects the 38th resistance one end and the 6th transistor collector respectively, described 5th emitter is also connected with transformator outfan, described transformer inputs connects rectifier bridge one end, the described rectifier bridge other end connects power input and the 5th inductance one end respectively, the described 5th inductance other end connects the 37th electric capacity one end and the 36th electric capacity one end respectively, the described 37th electric capacity other end connects power input after connecting the 36th electric capacity other end.

Described power amplifier chips is preferably TL494.

As shown in FIG. 10 and 11, described window control circuit includes: the 6th diode, the 7th light emitting diode, the 8th diode, the 7th transistor, the 41st resistance, the 42nd resistance, the 43rd resistance, the 44th resistance, the 45th resistance, the 46th resistance, the 47th resistance, the 48th resistance, the 49th resistance, the 50th resistance, the 51st resistance, the first switch, second switch, the 3rd switch, the 4th switch, the 38th electric capacity, the 39th electric capacity, the 40th electric capacity, the 41st electric capacity;

Vehicle mounted electric source connects the 6th diode cathode, described 6th diode cathode connects control motor speed switch, described control motor speed switchs one end and connects vehicle window control chip control end, described 6th diode cathode is also connected with Car window electric machine one end, the described Car window electric machine other end connects the 7th transistor gate, described 7th transistor source connects vehicle window control chip PWM and controls end, described 7th transistor drain connects the 41st resistance one end, described 41st resistance other end ground connection, described dual-Hall sensor signal transmission ends connects vehicle window control chip signal feed end, described dual-Hall sensor rotating speed end connects vehicle window control chip rotating speed end, described dual-Hall sensor direction end connects vehicle window control chip direction end, described vehicle mounted electric source is also respectively connected with the 48th resistance one end, 49th resistance one end, 50th resistance one end, 51st resistance one end, the described 48th resistance other end connects the 43rd resistance one end and first switch one end respectively, described first switch other end ground connection, the described 49th resistance other end connects the 44th resistance one end and second switch one end respectively, described second switch other end ground connection, the described 50th resistance other end connects the 45th resistance one end and the 3rd switch one end respectively, described 3rd switch other end ground connection, the described 51st resistance other end connects the 46th resistance one end and the 4th switch one end respectively, described 4th switch other end ground connection, the described 43rd resistance other end, the 44th resistance other end, the 45th resistance other end, the 46th resistance other end connects vehicle window control chip respectively and controls end, described vehicle window control chip signal display end connects the 47th resistance one end, the described 47th resistance other end connects the 7th light emitting diode positive pole, described 7th light emitting diode minus earth. described first switch, second switch, the 3rd switch, the 4th switch control four car door car window respectively.

Described dual-Hall sensor is preferably TLE4966.

Described vehicle window control chip is preferably TLE7810.

By using wireless Bluetooth circuit transmission data, data transmission is stable, it is possible to quickly connecting ancillary equipment, accurately obtain information, this circuit design is rationally stable.

Above-mentioned power circuit provides stabilized power source to Intelligent bracelet, and ensure that low-power consumption, extends the stand-by time of bracelet, energy-conserving and environment-protective.

Above-mentioned pair of micro voltage comparison circuit can carry out judging that the up and down or left and right of human body moves according to the signal that gravity sensor or acceleration transducer send, thus the central processing unit that comparison signal is sent to bracelet judges, this circuit is stable, and output signal is accurate.

Above-mentioned reset circuit can control its charging or reset operation by central processing unit, it is ensured that bracelet corresponding component can steady operation, it is not easy to be burned out, and extends product service life.

This central processor circuit ensure that bluetooth module and reset circuit and micro voltage comparator collaborative work, and processor is powerful, enables bracelet accurately to perform user instruction.

This power amplifier can be passed through the blue-tooth device connecting bracelet and be controlled the power amplifier operation of sound equipment by vehicle-mounted console, it is achieved that the steady operation of sound equipment.

Connected the bluetooth module of Intelligent worn device by wireless module, by wearable device, vehicle window is controlled, facilitate user to take article.

The software program that above-mentioned utility model uses is well known to those skilled in the art.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example describe are contained at least one embodiment of the present utility model or example. In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example. And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that: these embodiments can being carried out multiple change, amendment, replacement and modification when without departing from principle of the present utility model and objective, scope of the present utility model is limited by claim and equivalent thereof.

Claims (2)

1. the bracelet processor possessing reset power supply circuits, it is characterised in that including: central processing unit, double; two micro voltage comparator, gravity sensor, power circuit, reset circuit, the first bluetooth module;

The double, two micro voltage comparison signal transmission ends of central processing unit connects double, two micro voltage comparator signal outfan, described pair of micro voltage comparator signal receiving terminal connects gravity sensor signal output part, described gravity sensor signal end is also connected with central processing unit gravitational cue input, described power circuit power end connects double, two micro voltage comparator power end, described power circuit reset feeder ear connects reset circuit power input, described reset-circuit signal end connects central processing unit reset signal end, described power circuit feeder ear is also connected with the first bluetooth module power input, described first bluetooth module signal controls end and connects central processing unit Bluetooth signal end,

Described power circuit includes: the 15th electric capacity, the 16th electric capacity, the 17th electric capacity, the 18th electric capacity, the 19th electric capacity;

Power input connects the 15th electric capacity one end and the 16th electric capacity one end respectively, described 15th electric capacity other end ground connection, described 16th electric capacity other end ground connection, described 16th electric capacity one end is also connected with manostat power input, described 16th electric capacity one end is also connected with manostat Enable Pin, manostat power output end connects the 18th electric capacity one end and the 19th electric capacity one end, ground connection after described 19th electric capacity other end connection the 18th electric capacity other end, described manostat reference noise end connects the 17th electric capacity one end, described 17th electric capacity other end ground connection;

Described reset circuit includes: the 12nd resistance, the 13rd resistance, the 14th resistance, the 15th resistance, the 16th resistance, the 17th resistance, the 18th resistance, the 19th resistance, the 20th resistance, the 21st resistance, the 22nd resistance, the 23rd resistance, the 24th electric capacity, the 25th electric capacity, the first transistor, transistor seconds, the first diode;

Power input connects the 12nd resistance one end and the first diode cathode respectively, the described 12nd resistance other end connects the 13rd resistance one end, the described 13rd resistance other end connects the 20th resistance one end and the first transistor base stage respectively, described the first transistor base stage is also connected with the 21st resistance one end, the described 21st resistance other end connects the first transistor emitter stage ground connection, described first crystal pipe collector connects the 22nd resistance one end respectively and central processing unit resets end, the described 22nd resistance other end connects central processing unit power end, 25th electric capacity one end connects the 22nd resistance one end, the described 25th electric capacity other end connects the 23rd resistance one end, described 23rd resistance other end ground connection, described first diode cathode is also respectively connected with the 15th resistance one end and the 14th resistance one end, described 14th resistance other end ground connection, the described 15th resistance other end connects the first diode cathode and the 24th electric capacity one end respectively, the described 24th electric capacity other end connects the 16th resistance one end, described 16th resistance other end ground connection, described 24th resistance one end is also connected with the 19th resistance one end, the described 19th resistance other end connects the 17th resistance one end and transistor seconds base stage respectively, described transistor seconds colelctor electrode connects the 20th resistance other end, the described 17th resistance other end connects the 18th resistance one end ground connection, the described 18th resistance other end connects transistor seconds emitter stage,

Described central processing unit includes: control switch, the 24th resistance, the 25th resistance, the 26th resistance, the 27th resistance, the 26th electric capacity, the 27th electric capacity, the 28th electric capacity, the 29th electric capacity, the 30th electric capacity, agitator;

Control switch one end connect the 24th resistance one end respectively and process chip replacement end, described 24th resistance other end ground connection, the described switch other end that controls connects power end and the 27th electric capacity one end respectively, described 27th electric capacity other end ground connection, described 27th electric capacity one end is also respectively connected with control interface and the 26th electric capacity one end, above-mentioned 26th electric capacity other end ground connection, 28th electric capacity one end connects power input respectively and processes chip power end, described 28th electric capacity other end ground connection, 4th inductance one end connection processes chip switch end, the described 4th inductance other end connects the 27th resistance one end and the 26th resistance one end respectively, the described 27th resistance other end connects the 25th resistance one end respectively and processes chip power end, described 25th resistance other end ground connection, the described 26th resistance other end connects the 29th electric capacity one end respectively and processes chip reference voltage end, described 29th electric capacity one end is also connected with the 30th electric capacity one end, described 30th electric capacity other end ground connection, described 29th electric capacity other end ground connection, described agitator connection processes chip crystal oscillator end.

2. the bracelet processor possessing reset power supply circuits according to claim 1, it is characterised in that described manostat is RT9193.