CN205754441U - A kind of molecular recognition terminal and molecular recognition mobile phone - Google Patents

Abstract

nullThe utility model discloses a kind of molecular recognition terminal and molecular recognition mobile phone，Described molecular recognition terminal includes local device and remote-control device，Described local device includes molecule infrared sensor、Sensor communication interfaces module、Native processor、Operating unit and display unit，Described remote-control device includes teleprocessing unit，Wherein，Local device completes the collection of the molecular vibration collection of illustrative plates of measuring targets，Remote-control device completes the analysis to molecular vibration collection of illustrative plates and judgement，The exchange of data is communicatively realized between local device and remote-control device，Thus traditional method carrying out molecular recognition at local measuring targets is decomposed into this locality and adds long-range recognition methods，Simplify processing locality step，Reduce the local identification equipment i.e. burden of molecular recognition terminal further，Thus the miniaturization of molecular recognition equipment can be realized，Solve current molecular recognition equipment build big、Cost is high、The problem used and carry inconvenience.

Description

A kind of molecular recognition terminal and molecular recognition mobile phone

Technical field

This utility model relates to molecular recognition technical field, is specifically related to a kind of molecular recognition terminal and molecular recognition hands Machine.

Background technology

China is currently in the epoch of a rapid economic development, but counterfeit and shoddy goods are along with the development of market economy Occur the most in a large number, become and hinder one of economy and social development very distinct issues.In recent years, along with electronics technology not Disconnected development, carries out molecular recognition for jobbie and then judges that the molecular recognition technology of chemical composition of this object has obtained soon Speed development, the appearance of various molecular recognition equipment to some extent solves and realizes the Zhen to fake products by molecular recognition Other problem.But the current identification equipment divided is all the Large-scale professional detection equipment that can only use at laboratory, there is cost Problem high, that use and carry inconvenience.

Utility model content

The purpose of this utility model is to provide a kind of molecular recognition terminal and molecular recognition mobile phone, solves current molecule and knows The problem that other equipment build is big, cost is high, uses and carries inconvenience.

This utility model is achieved through the following technical solutions:

A kind of molecular recognition terminal, including local device and remote-control device, described local device includes: molecule infrared sensing Device, sensor communication interfaces module, native processor, operating unit and display unit, described remote-control device includes teleprocessing Device, wherein,

Described molecule infrared sensor is for gathering the molecular vibration collection of illustrative plates of object under test, and it is logical to send it to sensor Letter interface module；

Described sensor communication interfaces module one end connects molecule infrared sensor, and the other end connects native processor, uses Data exchange between molecule infrared sensor and native processor；

Described native processor is communicated by network with teleprocessing unit, is used for controlling molecule infrared sensor, and The molecular vibration collection of illustrative plates transmitting sensor communication interfaces is sampled and after digitized processing, is sent to far by network Thread processor；

Described operating unit electrically connects with native processor, for sending operational order to native processor；

Described display unit electrically connects with native processor, for showing the testing result of object under test；

Described teleprocessing unit vibration collection of illustrative plates after the sampling transmitting native processor and digitized processing is carried out Analyze, it is judged that the chemical composition of object under test, and be sent to native processor as testing result by network.

Especially, described molecule infrared sensor includes that infrared radiation source and receptor, described receptor are provided with slit and multistage Dispersion means, infrared radiation source launches infrared light to object under test, and the light of return injects first order dispersion means through slit, through first Inject second level dispersion means after level dispersion means reflection, after the dispersion means diffraction of the second level, inject third level dispersion means, Gathering vibration collection of illustrative plates after third level dispersion means reflects, described first order dispersion means uses illuminator, described second level color Employing grating of putting in bulk, described third level dispersion means uses illuminator, and wherein, the direction of injecting of return projector is sequentially provided with narrow Seam, third level dispersion means, second level dispersion means, first order dispersion means.

Especially, described native processor and teleprocessing unit are communicated by wireless network.

Especially, described sensor communication interfaces module includes MIPI interface module and I2C interface module, and described MIPI connects Mouth die block one end connects molecule infrared sensor, and the other end connects native processor, for molecule infrared sensor and is originally located in Between reason device, two-way handshake signal is mutual；Described I2C interface module one end connects molecule infrared sensor, and the other end connects this locality Processor, for being converted into the molecular vibration collection of illustrative plates of the object under test of molecule infrared sensor collection and native processor phase The data form joined is sent to native processor.

Especially, described molecular recognition terminal also includes ciphering unit, Clock Managing Unit and Power Management Unit, described Ciphering unit electrically connects with native processor, for the molecular vibration collection of illustrative plates after sampling and digitized processing is encrypted place Reason, described Clock Managing Unit and Power Management Unit all electrically connect with molecule infrared sensor, are respectively used to molecule infrared Sensor provides clock signal and provides voltage.

The invention also discloses a kind of molecular recognition mobile phone, it includes above-mentioned molecular recognition terminal.

Especially, described native processor uses mobile phone application processor, and described sensor communication interfaces uses mobile phone to lead to Letter interface, described operating unit and display unit use handset touch panel.

This utility model compared with prior art, has such advantages as and beneficial effect:

A kind of molecular recognition terminal described in the utility model and molecular recognition mobile phone, local device completes measuring targets The collection of molecular vibration collection of illustrative plates, remote-control device completes the analysis to molecular vibration collection of illustrative plates and judgement, local device and remote-control device Between communicatively realize the exchange of data, it is achieved thereby that the miniaturization of molecular recognition equipment, even pacify in mobile phone Fill corresponding molecular recognition terminal and can complete the molecular recognition of measuring targets, solve current molecular recognition equipment build Greatly, the problem that cost is high, uses and carries inconvenience.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing being further appreciated by this utility model embodiment, constitutes the one of the application Part, is not intended that the restriction to this utility model embodiment.In the accompanying drawings:

The molecular recognition terminal structure block diagram that Fig. 1 provides for this utility model embodiment 1.

The molecular recognition handset structure block diagram that Fig. 2 provides for this utility model embodiment 2.

The Molecular identification methods flow chart that Fig. 3 provides for this utility model embodiment 3.

Fig. 4 is that current molecular infrared sensor receptor receives light schematic diagram.

The molecule infrared sensor receptor that Fig. 5 provides for this utility model embodiment 1 receives light schematic diagram.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with embodiment and accompanying drawing, The utility model is described in further detail, and exemplary embodiment of the present utility model and explanation thereof are only used for explaining this Utility model, is not intended as restriction of the present utility model.

Embodiment 1

As it is shown in figure 1, the molecular recognition terminal structure block diagram that Fig. 1 provides for this utility model embodiment 1.

In the present embodiment, described molecular recognition terminal includes that local device and remote-control device, described local device include: point Sub-infrared sensor, sensor communication interfaces module, native processor, operating unit and display unit, described remote-control device bag Include teleprocessing unit, wherein,

Described molecule infrared sensor electrically connects with sensor communication interfaces module, carries out molecular recognition at measuring targets During, launch near infrared light to object under test, excite the molecular vibration in object under test, open after a period of time and collect merit Can, gather the molecular vibration collection of illustrative plates of object under test, and send it to sensor communication interfaces module.

Described sensor communication interfaces module one end connects molecule infrared sensor, and the other end connects native processor, will The object under test molecular vibration collection of illustrative plates of molecule infrared sensor collection is sent to native processor, is sent by native processor simultaneously Control instruction be sent to molecule infrared sensor.

Described native processor electrically connects with sensor communication interfaces module, is carried out by network with teleprocessing unit simultaneously Communication, during measuring targets carries out molecular recognition, native processor sends acquisition instructions to molecule infrared sensor, Controlling molecule infrared sensor and launch near infrared light to object under test, thus excite the molecular vibration in object under test, collection is treated Survey the molecular vibration collection of illustrative plates of object, by sensor communication interfaces module, molecular vibration collection of illustrative plates is sent to native processor, this It is sampled and after digitized processing by ground processor, is sent to teleprocessing unit by network.

Described operating unit electrically connects with native processor, can use button or touch screen, send to native processor Start the operational orders such as test, after native processor obtains the instruction starting test, control molecule infrared sensor action.

Described teleprocessing unit is communicated with native processor by network, it is thus achieved that native processor transmit sampling and Vibration collection of illustrative plates after digitized processing, is analyzed it, it is judged that the chemical composition of object under test, and as testing result It is sent to native processor by network.

Described display unit electrically connects with native processor, can use LCD display or touch screen, shows teleprocessing Device returns to the testing result of the object under test of native processor.

In a preferred implementation of the present embodiment, described molecule infrared sensor includes infrared radiation source and receptor, Described receptor is provided with multistage dispersion means.As shown in Figure 4, Fig. 4 is that current molecular infrared sensor receptor reception light shows Being intended to, infrared radiation source is launched near infrared light to object under test, is promoted object under test Middle molecule structure to vibrate, the light warp of return Being arranged at the prism at A and carry out light splitting, the wave-length coverage as can be seen from the figure obtained at C is much larger than the ripple obtained at B Long scope, therefore must assure that suitably distance could obtain resolution height, clearly collection of illustrative plates, this characteristic causes high-resolution point Sub-infrared sensor volume is bigger.And in the present embodiment preferred implementation, use multistage dispersion means, such as Fig. 5 institute Showing, the molecule infrared sensor receptor that Fig. 5 provides for this utility model embodiment 1 receives light schematic diagram, to determinand During body is identified, native processor sends acquisition instructions to molecule infrared sensor, then infrared radiation source is to object under test Launching near infrared light, thus promote object under test Middle molecule structure to vibrate, receptor receives the molecular vibration of object under test Collection of illustrative plates, be provided with inside described receptor be arranged at slit at A and be respectively arranged at the first order at B, at C, at D, the second level, Third level dispersion means, return projector inject direction be sequentially provided with slit, third level dispersion means, second level dispersion means, First order dispersion means, first order dispersion means uses illuminator, and second level dispersion means uses grating, third level dispersion means Using illuminator, the light of return injects first order dispersion means through slit, injects second after first order dispersion means reflects Level dispersion means, injects third level dispersion means after the dispersion means diffraction of the second level, adopts after third level dispersion means reflects Collection vibration collection of illustrative plates, every grade of dispersion means is positioned over certain position according to certain angle, thus ensures that previous stage dispersion fills Put injection light enter next stage dispersion means, it is achieved shorter distance to return light carry out multiple reflections and/or Diffraction, both ensure that the wave-length coverage of acquisition was wide, and had shortened again distance, thus realize high-resolution molecule infrared sensing body Amass and be substantially reduced, reduce the volume of molecular recognition terminal further.

In a preferred implementation of the present embodiment, described native processor and teleprocessing unit pass through wireless network Communicate.Described teleprocessing unit uses cloud database, shaking after the sampling of native processor transmission and digitized processing Cardon spectrum is sent to cloud database by wireless network, and data base is analyzed beyond the clouds, and the result of analysis is led to Cross wireless network and be sent to native processor.

In a preferred implementation of the present embodiment, described sensor communication interfaces module includes MIPI interface module Connecting molecule infrared sensor with I2C interface module, described MIPI interface module and the equal one end of I2C interface module, the other end is even Connect native processor, after molecule infrared sensor collection completes the molecular vibration collection of illustrative plates of object under test, first through I2C interface module Sending two-way handshake signal to native processor, notice native processor has data will be transmitted, afterwards by molecular vibration Collection of illustrative plates is transferred to native processor through MIPI interface module.

In a preferred implementation of the present embodiment, described local device also includes ciphering unit, described encryption list Unit electrically connects with native processor, all molecular vibration collection of illustrative plates after native processor sampling and digitized processing, is sending All must be encrypted by encrypted unit before teleprocessing unit.

In a preferred implementation of the present embodiment, described local device also includes Clock Managing Unit and power supply pipe Reason unit, described Clock Managing Unit and Power Management Unit all electrically connect with molecule infrared sensor, to molecule infrared sensing Device provides clock signal and provides voltage.When molecule infrared identification sensor does not has data to transmit, Clock Managing Unit is closed, Allowing molecule infrared sensor enter sleeping state, this state can be a transient state；When there being data to transmit, I2C shakes hands letter Number occur after, Clock Managing Unit is opened, and molecule infrared sensor is immediately available for starting working；And when I2C handshake is long Between all do not have signal to transmit, then explanation molecule infrared sensor be not activated by, then close Power Management Unit, molecule infrared sensing Device enters deep sleep state.Need to experience certain duration from deep sleep recovering state to duty, restart mutually powered-down Road waits stabilization time and locking time.

The technical scheme of first embodiment of the present utility model, local device completes the molecular vibration collection of illustrative plates of measuring targets Collection, remote-control device completes the analysis to molecular vibration collection of illustrative plates and judgement, to communicate between local device with remote-control device Mode realizes the exchange of data, it is achieved thereby that miniature local device and virtual remote-control device, furthermore achieved that molecule The miniaturization of identification equipment, it is simple to use and carry, solves current molecular recognition equipment because using large-scale instrument to add calculating Machine and the build that causes is big, cost is high, the problem that uses and carry inconvenience.

Embodiment 2

The present embodiment illustrates a kind of molecular recognition mobile phone, be specially by the molecular recognition terminal applies described in embodiment 1 in Mobile phone, described native processor uses mobile phone application processor, and described sensor communication interfaces uses mobile communication interface, described Operating unit and display unit use handset touch panel.

As in figure 2 it is shown, the molecular recognition handset structure block diagram that Fig. 2 provides for this utility model embodiment 2.

In the present embodiment, described molecular recognition mobile phone includes that molecule infrared sensor, mobile communication interface module, mobile phone should With processor and handset touch panel, described molecule infrared sensor connects mobile phone application processor through mobile phone communication interface modules, Described handset touch panel connects mobile phone application processor.With this utility model embodiment 1 in like manner, described molecular recognition mobile phone is treated Survey object carries out the principle of molecular recognition: send identification instruction by handset touch panel to mobile phone application processor, and mobile phone should After receiving instruction with processor, control molecule infrared sensor transmission near infrared light is to object under test, excites object under test molecule to shake Dynamic, molecule infrared sensor gathers molecular vibration collection of illustrative plates, transmits in one's hands by mobile communication interface module by molecular vibration collection of illustrative plates Machine application processor, is sent to cloud database after the sampling digitizing of mobile phone application processor processes and carries out data pair Ratio, comparing result sends back mobile phone application processor as testing result, shows at handset touch panel.

In a preferred implementation of the present embodiment, described molecule infrared sensor is same as in Example 1, thus Ensure that the volume being greatly reduced molecule infrared sensor on the basis of high-resolution, enable to be integrated in mobile phone.

In a preferred implementation of the present embodiment, described mobile phone application processor and cloud database are by wireless Network communicates.Vibration collection of illustrative plates after the sampling of mobile phone application processor transmission and digitized processing is by wireless network transmission To cloud database, data base is analyzed beyond the clouds, and by the result of analysis by wireless network be sent to mobile phone should Use processor.

In a preferred implementation of the present embodiment, described mobile communication interface module include MIPI interface module and I2C interface module, described MIPI interface module and the equal one end of I2C interface module connect molecule infrared sensor, and the other end connects Mobile phone application processor, after molecule infrared sensor collection completes the molecular vibration collection of illustrative plates of object under test, first through I2C interface mould Block sends two-way handshake signal to mobile phone application processor, and notice mobile phone application processor has data will be transmitted, afterwards Molecular vibration collection of illustrative plates is transferred to mobile phone application processor through MIPI interface module.

In a preferred implementation of the present embodiment, described molecular recognition mobile phone also includes ciphering unit, described in add Close unit electrically connects with mobile phone application processor, all molecular vibrations after the sampling of mobile phone application processor and digitized processing Collection of illustrative plates, all must be encrypted by encrypted unit before being sent to cloud database.

In a preferred implementation of the present embodiment, described molecular recognition mobile phone also includes Clock Managing Unit and electricity Source control unit, described Clock Managing Unit and Power Management Unit all electrically connect with molecule infrared sensor, infrared to molecule Sensor provides clock signal and provides voltage.When molecule infrared identification sensor does not has data to transmit, Clock Managing Unit Closing, allow molecule infrared sensor enter sleeping state, this state can be a transient state；When there being data to transmit, I2C holds After hands signal occurs, Clock Managing Unit is opened, and molecule infrared sensor is immediately available for starting working；And when I2C handshake All do not have signal to transmit for a long time, then explanation molecule infrared sensor is not activated by, then close Power Management Unit, and molecule is infrared Sensor enters deep sleep state.Need to experience certain duration from deep sleep recovering state to duty, restart phase Close circuit and wait stabilization time and locking time.

The technical scheme of the second embodiment of the present utility model, molecular recognition mobile phone completes the molecular vibration of measuring targets The collection of collection of illustrative plates, high in the clouds completes the analysis to molecular vibration collection of illustrative plates and judgement, and mobile phone and high in the clouds communicatively realize data Exchange, the recognition mode of traditional laboratory " large-scale instrument+computer " is become the mode in " mobile phone+high in the clouds ", mobile phone is not It is only a means of communication can made a phone call, send short messages, becomes a set molecule identification function further in the intelligence of one Controlling product, meanwhile, mobile phone is easy to use as molecular recognition equipment and carries, and solves current molecular recognition equipment because adopting The build adding computer with large-scale instrument and cause is big, cost is high, use and carry the problem of inconvenience, makes molecular recognition technology Broader in daily life, it is simple to popularize.

Embodiment 3

The present embodiment illustrates above-mentioned molecular recognition terminal and the recognition methods of molecular recognition mobile phone, specifically includes following step Rapid:

S101, molecule infrared sensor gather the molecular vibration collection of illustrative plates of object under test.

Sending identification instruction by operating unit to native processor, it is infrared that native processor controls molecule after receiving instruction Sensor transmission near infrared light, to object under test, excites object under test molecular vibration, and molecule infrared sensor gathers molecular vibration Collection of illustrative plates, is sent to native processor by sensor communication interfaces module by molecular vibration collection of illustrative plates.

S102, native processor obtain molecular vibration collection of illustrative plates, sample it and after digitized processing, are passed through net Network is sent to teleprocessing unit.

The object under test molecular vibration collection of illustrative plates that native processor obtains is picture format, between teleprocessing unit Data transmission, it is sampled and is sent to teleprocessing unit by network after digitized processing by native processor.

Vibration collection of illustrative plates after sampling and digitized processing is analyzed by S103, teleprocessing unit, it is judged that object under test Chemical composition, is sent to native processor as testing result by network.

The molecular vibration collection of illustrative plates of object under test is sent to high in the clouds data after native processor carries out sampling digitizing process Storehouse, utilizes big data resource that with the composition profiles in kind in data base, it is analyzed comparison and matching, comparing result conduct Testing result sends back native processor by network, shows at display unit.

In a preferred implementation of the present embodiment, in described step S102, native processor obtains molecular vibration figure Spectrum, samples and after digitized processing to it, is sent to teleprocessing unit by wireless network.

In a preferred implementation of the present embodiment, in described step S102, native processor obtains molecular vibration figure Spectrum specifically includes: after molecule infrared sensor collection completes the molecular vibration collection of illustrative plates of object under test, first through I2C interface module Sending two-way handshake signal to native processor, notice native processor has data will be transmitted, afterwards by molecular vibration Collection of illustrative plates is transferred to native processor through MIPI interface module.

In a preferred implementation of the present embodiment, in described step S102, native processor obtains molecular vibration figure Spectrum, samples and after digitized processing to it, after being encrypted it further, is sent to teleprocessing by network Device.

In a preferred implementation of the present embodiment, described Molecular identification methods also includes S104: when molecule is infrared Identify that, when sensor does not has data to transmit, Clock Managing Unit is closed, allow molecule infrared sensor enter sleeping state, this State can be a transient state；When there being data to transmit, after I2C handshake occurs, Clock Managing Unit is opened, the infrared biography of molecule Sensor is immediately available for starting working；And when I2C handshake does not the most all have signal to transmit, then explanation molecule infrared sensor Being not activated by, then close Power Management Unit, molecule infrared sensor enters deep sleep state.From deep sleep recovering state to work Need to experience certain duration as state, restart interlock circuit and wait stabilization time and locking time.

The technical scheme of the 3rd embodiment of the present utility model, local device completes the molecular vibration collection of illustrative plates of measuring targets Acquisition step, remote-control device completes the analysis to molecular vibration collection of illustrative plates and judges step, and local device and remote-control device are with logical The mode of letter realizes the exchange of data, thus traditional method carrying out molecular recognition at local measuring targets is decomposed into this Ground adds long-range recognition methods, simplifies processing locality step, reduces the negative of the local i.e. molecular recognition terminal of identification equipment further Load, thus can realize the miniaturization of molecular recognition equipment, it is simple to uses and carries, and solves current because of all of identification step The molecular recognition equipment build all completed in this locality and cause is big, cost is high, use and carry the problem of inconvenience, makes molecule know Other technology broader in daily life, it is simple to popularize.

It should be noted that method described in this utility model embodiment three is applicable to described in this utility model embodiment one divide Sub-identification terminal, is equally applicable to the molecular recognition mobile phone described in this utility model embodiment two, and is applied to this utility model In like manner, molecular recognition mobile phone completes the collection step of the molecular vibration collection of illustrative plates of measuring targets to molecular recognition terminal described in embodiment one Suddenly, cloud database completes the analysis to molecular vibration collection of illustrative plates and judges step, and molecular recognition mobile phone and cloud database are with logical The mode of letter realizes the exchange of data, thus traditional method carrying out molecular recognition at local measuring targets is decomposed into point Son identifies that mobile phone adds the recognition methods of cloud database, simplifies processing locality step, reduces local identification equipment further and i.e. divides Son identifies the burden of mobile phone, thus a means of communication can made a phone call, send short messages is not only by mobile phone, becomes one further Set molecule identification function is in the Based Intelligent Control product of one, and mobile phone is easy to use as molecular recognition equipment and carries, and solves Having determined, the current molecular recognition equipment build caused because all of identification step all completes in this locality is big, cost is high, use With carry inconvenience problem, make molecular recognition technology broader in daily life, it is simple to popularize.

Above-described detailed description of the invention, is entered the purpose of this utility model, technical scheme and beneficial effect One step describes in detail, be it should be understood that and the foregoing is only detailed description of the invention of the present utility model, is not used to limit Fixed protection domain of the present utility model, all within spirit of the present utility model and principle, any amendment, the equivalent made are replaced Change, improvement etc., within should be included in protection domain of the present utility model.

Claims (6)

1. a molecular recognition terminal, it is characterised in that include that local device and remote-control device, described local device include: point Sub-infrared sensor, sensor communication interfaces module, native processor, operating unit and display unit, described remote-control device bag Include teleprocessing unit, wherein,

Described molecule infrared sensor is for gathering the molecular vibration collection of illustrative plates of object under test, and sends it to sensor communication and connect Mouth die block；

Described sensor communication interfaces module one end connects molecule infrared sensor, and the other end connects native processor, for dividing Data exchange between sub-infrared sensor and native processor；

Described native processor is connected by network with teleprocessing unit, is used for controlling molecule infrared sensor, and to sensor After the molecular vibration collection of illustrative plates that communication interface transmits carries out sampling and digitized processing, it is sent to teleprocessing by network Device；

Described operating unit electrically connects with native processor, for sending operational order to native processor；

Described display unit electrically connects with native processor, for showing the testing result of object under test；

Described teleprocessing unit vibration collection of illustrative plates after the sampling transmitting native processor and digitized processing is analyzed, Judge the chemical composition of object under test, and be sent to native processor as testing result by network.

Molecular recognition terminal the most according to claim 1, it is characterised in that described molecule infrared sensor includes infrared radiation source And receptor, described receptor is provided with slit and multistage dispersion means, and infrared radiation source launches infrared light to object under test, the light of return Line injects first order dispersion means through slit, injects second level dispersion means, through the second level after first order dispersion means reflects Inject third level dispersion means after dispersion means diffraction, gather after third level dispersion means reflects and vibrate collection of illustrative plates, described first Level dispersion means uses illuminator, and described second level dispersion means uses grating, and described third level dispersion means uses illuminator, Wherein, the direction of injecting of return projector is sequentially provided with slit, third level dispersion means, second level dispersion means, first order dispersion Device.

Molecular recognition terminal the most according to claim 1, it is characterised in that described native processor and teleprocessing unit lead to Cross wireless network to communicate.

Molecular recognition terminal the most according to claim 1, it is characterised in that described sensor communication interfaces module includes MIPI interface module and I2C interface module, described MIPI interface module one end connects molecule infrared sensor, and the other end connects this Ground processor, mutual for two-way handshake signal between molecule infrared sensor and native processor；Described I2C interface module one End connects molecule infrared sensor, and the other end connects native processor, for the object under test gathered by molecule infrared sensor Molecular vibration collection of illustrative plates be converted into the data form matched with native processor and be sent to native processor.

Molecular recognition terminal the most according to claim 1, it is characterised in that described local device also include ciphering unit, Clock Managing Unit and Power Management Unit, described ciphering unit electrically connects with native processor, for sampling and digitized Molecular vibration collection of illustrative plates after process is encrypted, all infrared with the molecule biography of described Clock Managing Unit and Power Management Unit Sensor electrically connects, and is respectively used to provide clock signal to molecule infrared sensor and provide voltage.

6. the molecular recognition mobile phone of the molecular recognition terminal that a kind has as described in claim 1 to 5 is arbitrary, it is characterised in that Described native processor uses mobile phone application processor, and described sensor communication interfaces uses mobile communication interface, described operation Unit and display unit use handset touch panel.