CN104918158A - NFC based high-sensitivity brain wave induction Bluetooth earphone - Google Patents

Abstract

The invention discloses an NFC based high-sensitivity brain wave induction Bluetooth earphone. The Bluetooth earphone comprises a brain wave inductor, a filtering and amplification unit, a multipath selection switch, an analog-to-digital converter and a brain wave collecting and processing unit which are connected successively. The brain wave inductor comprises a brain wave sensor A distributed in the forehead region of the brain and a brain wave sensor B distributed in the occipital region of the brain. The filtering and amplification unit successively comprises a first amplifier, a trip filter, a low-pass filter, a band pass filter and a second amplifier of high-impedance difference input and in successive connection. An earphone body further comprises an NFC module, the NFC module controls a Bluetooth module to realize automatic pairing as well as connection between a Bluetooth control circuit and the Bluetooth module, and the NFC module is connected with a target terminal via an NFC transmitting-receiving antenna. Through the Bluetooth earphone, a user can realize pairing directly via NFC, and controls motion of the target terminal via brain waves, and control is convenient.

Description

A kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone

Technical field

The present invention relates to bluetooth earphone field, particularly relate to a kind of high sensitivity brain wave based on NFC induction bluetooth earphone.

Background technology

Along with the development of brain wave detection technique is more and more perfect, brain wave detection technique can be applied in mutual field, computer terminal by we, responds to earphone, be directly transferred on target terminal by the idea of user by brain wave, meter terminal does not does not directly accept, and carries out the operation of user's idea.

At present, bluetooth earphone, when opening and using, needs to carry out Bluetooth pairing setting, and this often needs long period and loaded down with trivial details operating procedure.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, a kind of high sensitivity brain wave based on NFC is provided to respond to bluetooth earphone, make user directly can carry out matching operation by NFC, carry out corresponding action by brain wave control objectives terminal, manipulation is convenient.

The object of the invention is to be achieved through the following technical solutions: a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone, comprise headset body and brain wave sensing unit, brain wave sensing unit comprises the multiple brain wave inductors connected successively, many groups filter and amplification unit, multidiameter option switch, analog to digital converter and acquiring brain waves process chip, filter and amplification unit comprises filter and amplification unit A and filter and amplification unit B, brain wave inductor comprises the brain wave sensor A being distributed in brain frontal region and the brain wave sensor B being distributed in brain occipital region, brain wave inductor and filter and amplification unit connect one to one, described filter and amplification unit comprises the first amplifier of the high-impedance differential input connected successively, trapper, low pass filter, band pass filter and the second amplifier, described headset body is bluetooth earphone, acquiring brain waves process chip is connected with the control inputs port of target terminal with control output end mouth by bluetooth, headset body is connected with the audio output port of target terminal with audio input port by bluetooth.Acquiring brain waves process chip to be mated with target terminal by bluetooth and is connected, and intercom mutually, brain wave sensor A is connected with headset body respectively by connecting rod with brain wave sensor B.

Headset body also comprises NFC module, and NFC module passes through to realize automatic matching for controlling bluetooth module, the Bluetooth control circuit of communication is connected with bluetooth module, and described NFC module is also connected with target terminal by NFC dual-mode antenna.

Described trapper comprises the Chebyshev's band stop filter suppressing 50Hz power frequency component.

Described acquiring brain waves process chip comprises TMS320VC5402 chip.

Described control output end mouth is also connected with target terminal by a data line with audio input port.

Described headset body is also provided with USB interface, carries out exchanges data and charging by USB interface.

Described headset body is also provided with memory module or memory card slot, for storing brain wave data and other data.

Described headset body is also provided with managing electric quantity unit and battery alert unit.

Described NFC dual-mode antenna comprises magnetic FPC antenna, is convenient to be arranged in headset body.

Described NFC module comprises PN532 chip.

The invention has the beneficial effects as follows:

1) the present invention sets up one or more brain wave inductor, one or more groups filter and amplification unit, multidiameter option switch, analog to digital converter and acquiring brain waves process chip on bluetooth earphone, realize detecting eeg signal by bluetooth earphone, come to carry out mutual interactive communication with target terminal.

2) the present invention is inputted by high-impedance differential the first amplifier, trapper, low pass filter, band pass filter and the second amplifier carry out filter amplifying processing to brain wave, make eeg signal acquisition process more accurate.

3) the present invention is provided with the brain wave sensor A being distributed in brain frontal region with the brain wave sensor B being distributed in brain occipital region, brain wave sensor A for detecting β ripple, and brain wave sensor B, for detecting α ripple, effectively improves the sensitivity of brain wave induction.

4) the present invention adopts NFC target and mode terminal automatically to identify pairing, when after the code data pair verification success that bluetooth earphone is corresponding to target terminal, bluetooth earphone will open Bluetooth function automatically, and also opened in the lump by the Bluetooth function of NFC mode control objectives terminal, then the fast automatic pairing of bluetooth of bluetooth earphone and target terminal is realized, and then realize bluetooth earphone and be connected alternately with the blue-teeth data of target terminal, communicate very easy to use.

Accompanying drawing explanation

Fig. 1 is the circuit block diagram of brain wave of the present invention induction bluetooth earphone;

Fig. 2 is the circuit block diagram of filter and amplification unit of the present invention.

Embodiment

Below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail, but protection scope of the present invention is not limited to the following stated.

As shown in Figure 1, a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone, comprise headset body and brain wave sensing unit, brain wave sensing unit comprises the multiple brain wave inductors connected successively, many groups filter and amplification unit, multidiameter option switch, analog to digital converter and acquiring brain waves process chip, filter and amplification unit comprises filter and amplification unit A and filter and amplification unit B, brain wave inductor comprises the brain wave sensor A being distributed in brain frontal region and the brain wave sensor B being distributed in brain occipital region, brain wave inductor and filter and amplification unit connect one to one.Acquiring brain waves process chip to be mated with target terminal by bluetooth and is connected, intercom mutually, described headset body is bluetooth earphone, headset body also can comprise mobile communication module, intercomed mutually by mobile communication wireless network and target terminal, region restriction is less, and can carry out remote interaction control whenever and wherever possible, brain wave sensor A is connected with headset body respectively by connecting rod with brain wave sensor B.

Acquiring brain waves process chip is connected with the control inputs port of target terminal with control output end mouth by bluetooth, and headset body is connected with the audio output port of target terminal with audio input port by bluetooth.

Headset body also comprises NFC module, and NFC module passes through to realize automatic matching for controlling bluetooth module, the Bluetooth control circuit of communication is connected with bluetooth module, and described NFC module is also connected with target terminal by NFC dual-mode antenna.

On the connecting rod that described NFC dual-mode antenna is arranged on described headset body or on left/right ear-hang.

Headset body is also provided with USB interface, carries out exchanges data and charging by USB interface, headset body is also provided with memory module or memory card slot, for storing brain wave data and other data.

Described control output end mouth is also connected with target terminal by a data line with audio input port.

Described headset body also comprises managing electric quantity unit and battery alert unit, managing electric quantity unit is for managing the power supply of headset body and detecting power supply surplus, when power supply surplus is lower than predetermined threshold value, managing electric quantity unit carries out alarm by battery alert unit.

As shown in Figure 2, described filter and amplification unit comprises the first amplifier, trapper, low pass filter, band pass filter and the second amplifier that connect successively.

Described trapper comprises the Chebyshev's band stop filter suppressing 50Hz power frequency component.

Described acquiring brain waves process chip comprises TMS320VC5402 chip.

Described headset body is also provided with USB interface, carries out exchanges data and charging by USB interface.

Described headset body is also provided with memory module or memory card slot, for storing brain wave data and other data.

Described headset body is also provided with managing electric quantity unit and battery alert unit.

Described NFC dual-mode antenna comprises magnetic FPC antenna, is convenient to be arranged in headset body.

Described NFC module comprises PN532 chip.

In the present invention, brain wave inductor detects induction eeg signal, and send to the first amplifier tentatively to amplify process this eeg signal, again through interference and the noise of 50Hz trapper filtering 50Hz, carry out further filtering finally by low pass filter, band pass filter and the second amplifier and amplify process, the eeg signal exported after optimizing carries out data acquisition to acquiring brain waves process chip.

Multichannel eeg signal is separated into the pulse signal of a road serial through multidiameter option switch, then after analog-to-digital conversion, carries out data acquisition by first processor.

Claims (9)

1. the induction of the high sensitivity brain wave based on a NFC bluetooth earphone, it is characterized in that: comprise headset body and brain wave sensing unit, brain wave sensing unit comprises the multiple brain wave inductors connected successively, many groups filter and amplification unit, multidiameter option switch, analog to digital converter and acquiring brain waves process chip, filter and amplification unit comprises filter and amplification unit A and filter and amplification unit B, brain wave inductor comprises the brain wave sensor A being distributed in brain frontal region and the brain wave sensor B being distributed in brain occipital region, brain wave sensor and filter and amplification unit connect one to one, described filter and amplification unit comprises the first amplifier of the high-impedance differential input connected successively, trapper, low pass filter, band pass filter and the second amplifier, described headset body is bluetooth earphone, acquiring brain waves process chip is connected with the control inputs port of target terminal with control output end mouth by bluetooth, headset body is connected with the audio output port of target terminal with audio input port by bluetooth, brain wave sensor A is connected with headset body respectively by connecting rod with brain wave sensor B,

Headset body also comprises NFC module, and NFC module passes through to realize automatic matching for controlling bluetooth module, the Bluetooth control circuit of communication is connected with bluetooth module, and described NFC module is also connected with target terminal by NFC dual-mode antenna.

2. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described trapper comprises the Chebyshev's band stop filter suppressing 50Hz power frequency component.

3. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described acquiring brain waves process chip comprises TMS320VC5402 chip.

4. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described control output end mouth is also connected with target terminal by a data line with audio input port.

5. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described headset body is also provided with USB interface, carries out exchanges data and charging by USB interface.

6. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described headset body is also provided with memory module or memory card slot, for storing brain wave data and other data.

7. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described headset body is also provided with managing electric quantity unit and battery alert unit.

8. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described NFC dual-mode antenna comprises magnetic FPC antenna.

9. a kind of induction of the high sensitivity brain wave based on NFC bluetooth earphone according to claim 1, is characterized in that: described NFC module comprises PN532 chip.