CN204255389U - High measurement frequency magneto strictive sensor - Google Patents

Abstract

The utility model relates to a kind of magneto strictive sensor, may be used for displacement measurement and level gauging.The measurement module of described sensor comprises n measuring unit, wherein n be more than or equal to 2 natural number, each measuring unit FIFO or token circulation or poll or similar arbitration mechanism, obtain by an idle measuring unit power of measurement at every turn, before the echo corresponding to a measuring unit not yet returns, just initiate once new measurement by another idle measuring unit, the measuring unit after each activation obtains echoed signal successively by initiation order.Highest measurement frequency of the present utility model be the k of original deisgn product doubly, k be greater than 1 natural number.

Description

High measurement frequency magneto strictive sensor

Technical field

The utility model relates to a kind of magneto strictive sensor, may be used for displacement measurement and level gauging, and particularly a kind of is traditional product n magneto strictive sensor doubly in survey frequency, described n be more than or equal to 1 natural number.

Background technology

Magneto strictive sensor, English name Magnetostrictive Sensor.It is a kind of sensor made based on the graceful effect Wiedemann effect of magnetostriction Wei De.During measurement, stimulating module in electronic compartment applies an inquiry pulse at sensitive detection element magnetostrictive waveguide silk two ends, this pulse forms circumferential ampere toroidal magnetic field with the light velocity around waveguide filament, during the biased permanent magnetic field generation coupling of this toroidal magnetic field and vernier magnet ring, Wei De graceful effect distorting stress ripple can be formed on the surface of waveguide filament, torsional wave is a little propagated to the two ends of waveguide filament by producing with the velocity of sound, pass the damped device of adterminal torsional wave to absorb, the signal being transmitted to excitation end is then detected device and receives, control module in electronic compartment calculates the mistiming between inquiry pulse and Received signal strength, be multiplied by the velocity of propagation of distorting stress ripple in waveguide material again and be about 2830m/s, the distance between torsional wave generation position and datum mark can be calculated, also namely vernier magnet ring is instantaneous relative to the absolute distance between datum mark at this, thus the real―time precision measurment realized vernier magnet ring position.

Inquiry pulse is a kind of excitation electric signal, and with light velocity motion, when existing magneto strictive sensor range is no more than 100 meters, signal transmission time is all below us and microsecond.And the torsional wave returned is a ultrasonic signal, transmission speed is far below the light velocity.When existing sensor launches driving pulse with fixed frequency, complete one-shot measurement because just calculate after only receiving the torsional wave echoed signal returned.Like this when vernier runs to away from sensor head end and electronic compartment place end, because the distance that echoed signal returns is more and more far away, signal transmission time is also more and more longer, and survey frequency will lower than when slider position be near sensor head end.Transducer range is longer, and this problem will be more obvious.

Following technology drawback can be brought like this: within the scope of gamut, survey frequency is uneven; Vernier away from during sensor head end survey frequency decline, have influence on the accurate measurement to vernier real time position, especially when vernier high-speed cruising, survey frequency is difficult to catch up with movement velocity.

Utility model content

For above technical matters, the present invention proposes a kind of high measurement frequency magneto strictive sensor, described sensor comprises electronic compartment, measuring staff and magnet ring vernier, have waveguide filament in measuring staff, electronic compartment comprises microprocessor module, measurement module, excitation control module, driver module, detection module, amplification module, Shaping Module, channel signal separation module and output interface module.

Microprocessor module is connected with measurement module, output interface module respectively;

Measurement module respectively with microprocessor module, encourage control module to be connected;

Excitation control module is connected with measurement module, driver module respectively;

Driver module is connected with excitation control module, waveguide filament respectively;

Waveguide filament respectively with driver module, detection model calling;

Detection module is connected with waveguide filament, amplification module respectively;

Amplification module is connected with detection module, Shaping Module respectively;

Shaping Module is connected with amplification module, channel signal separation module respectively;

Channel signal separation module is connected with Shaping Module, measurement module respectively;

Output interface module is connected with microprocessor module.

Described microprocessor module comprises data processing unit, Data Synthesis unit, measure-controlling unit,

Data processing unit is connected with Data Synthesis unit, measure-controlling unit respectively.

Have n measuring unit in described measurement module, wherein n be more than or equal to 2 natural number.

Another kind of high measurement frequency magneto strictive sensor, described sensor comprises electronic compartment, measuring staff and magnet ring vernier, have waveguide filament in measuring staff, electronic compartment comprises microprocessor module, measurement module, excitation control module, driver module, detection module, amplification module, Shaping Module and output interface module.

Microprocessor module is connected with measurement module, output interface module respectively;

Measurement module respectively with microprocessor module, encourage control module, Shaping Module is connected;

Excitation control module is connected with measurement module, driver module respectively;

Driver module is connected with excitation control module, waveguide filament respectively;

Waveguide filament respectively with driver module, detection model calling;

Detection module is connected with waveguide filament, amplification module respectively;

Amplification module is connected with detection module, Shaping Module respectively;

Shaping Module is connected with amplification module, measurement module respectively;

Output interface module is connected with microprocessor module.

Described high measurement frequency magneto strictive sensor, measurement module comprises n measuring unit and a channel signal separative element, wherein n be more than or equal to 2 natural number.

Magneto strictive sensor improves a method for survey frequency, it is characterized in that comprising the steps:

Step one: n measuring unit of magneto strictive sensor, wherein n be more than or equal to 2 natural number, its measuring sequence is: as the measuring unit U initiating recently to measure _i, its echo corresponding to measurement of initiating not yet returns and is detected before module receives, and is arbitraryly in idle condition measure-controlling unit U _j, the independent excitation control module that controls sends pumping signal, initiates another one-shot measurement, U _iwith U _jthe minimum interval of initiating to measure is T _min, T _minequal 2 times of an echoed signal length cycles;

Step 2: the echoed signal that channel signal separation module will receive, sends with charge free to the first measuring unit be in the measuring unit queue of state of activation formed according to first in first out, namely works as U _iwhen corresponding echo arrives channel signal separation module, U _ifirst measuring unit in queue, following closely be U _j, measuring unit carries out subsequent treatment after receiving one's own echoed signal, is marked as idle condition after completing process.

Described microprocessor module forms by being no less than an electron device possessing programmability, described electron device concrete form comprise single-chip microprocessor MCU, programmable logic controller (PLC) PLC, complex programmable logic device (CPLD), field programmable gate array FPGA, based on the universal cpu of X86 or ARM or POWERPC or MIPS framework and application-specific integrated circuit ASIC.

Described data processing unit is at least one piece of integrated circuit by pre-set programs running in microprocessor module.Described Data Synthesis unit is at least one integrated circuit by pre-set programs running in microprocessor module.Described measure-controlling unit is at least one integrated circuit by pre-set programs running in microprocessor module.

Microprocessor module is responsible for the running of master control sensor.It is mutual by measure-controlling unit and measurement module, and control survey module operates.The measurement data that it is returned by Data Synthesis unit reception measurement module, and export cursor location information to output interface module after being calculated by data processing unit.

Measuring unit in measurement module comprises precision counter and logic controller.Arbitrary measuring unit A in described measurement module, independently can control excitation control module and send pumping signal, and the echoed signal being specific to measuring unit A corresponding to this pumping signal of receiving cable signal separation module passback.In working sensor process, under measure-controlling unit instruction, only by 1 measuring unit execution work, also can form measuring unit group co-operation by the measuring unit more than 1 according to specific logical order, play the effect exceeding single-measurement unit survey frequency.

Excitation control module is set of circuits.Be responsible for and receive measurement module alternately, and according to arbitrary measuring unit A requirement, the parameters such as the waveform of pumping signal, voltage, electric current, rising time, high level time, low level time and negative edge time can be set.

Driver module is one group of mimic channel, is responsible for, according to the given parameter of excitation control module, exporting corresponding pumping signal, and pumping signal being transferred on waveguide filament.

Waveguide filament is the tinsel made with Ni-Fe or nickel-gallium rare earth material, is the carrier of the graceful effect of magnetostriction Wei Te, is the Physical layer of sensor.When the biased permanent magnetic field generation coupling of toroidal magnetic field and vernier magnet ring that driving pulse is formed, can at the surface of waveguide filament formation Wei De graceful effect distorting stress ripple.This echoed signal is detected module and receives.

Detection module is a kind of " sound-electric " energy transducer, is responsible for the electric signal ultrasonic signal of echo being converted into relevant voltage and electric current, and by this electrical signal transfer to amplification module.Comprise an inductive coil in detection module, the axis of this coil has through hole, and waveguide filament is installed in the center in this hole.During inductive coil work, waveguide filament act as the function of iron core.When there being mechanical wave propagation in waveguide filament, waveguide filament changes as the magnetic permeability of iron core, result through the change of flux of inductive coil, inductive coil produces induction electromotive force, thus mechanical wave signals is transformed into electric signal.

Amplification module comprises the instrument amplifier of prestage, bandpass filter and rearmounted level low noise operational amplifier, the ultra-weak electronic signal being responsible for detection module being transmitted becomes the little wavy signal of transition after carrying out amplifying process, this signal is follow-up is transferred to signal shaping module.Prestage in amplification module adopts instrument amplifier, can remove the common mode interference in ultra-weak electronic signal; Bandpass filter can remove the out-of-band noise contribution of useful signal, improves signal to noise ratio (S/N ratio); Rearmounted level adopts the operational amplifier of low noise can reduce the electronic white noise introduced in amplification process.

Shaping Module is one group of mimic channel, and the electric signal being responsible for amplification module to transmit is shaped to square-wave signal, uses for measurement module.Signal shaping module is made up of the comparer of high-speed low-power-consumption and monostable.Signal transmission is to channel signal separation module the most at last.

Channel signal separation module is a kind of echo analyzer, and the different ultrasonic echo features that during work, channel signal separation module is responsible for different measuring unit to excite distinguish, and is transferred to corresponding measuring unit.Because each measuring unit sets the pumping signal parameter of self uniqueness by excitation control module, the echo that these unique pumping signals excite also with own waveform character, thus by the identification of channel signal separation module.

So far each measuring unit completes a measurement circulation completed from sending pumping signal instruction to receiving echo.Precision counter in each measuring unit calculates each measurement circulation required time, after the deduction power-off signal transmission time, be exactly that pulse echo prolongs waveguide filament turn around time, then this time is multiplied by ultrasonic velocity, just can obtain vernier magnet ring place instantaneous position and absolute position.

The precision counter that measuring unit adopts is not traditional product based on crystal oscillator.Because shake and the temperature drift of the pulse self of crystal oscillator output are all larger, serious Accuracy can be caused to magneto strictive sensor.So what adopt here is the high-resolution counter made based on " digital interpolation method " principle, its principle be time-digital conversion technique.Utilize a kind of new time interval measurement method that signal was proposed by the absolute transmission time of logic gates, the time interval between start signal and stop signal is decided by the number of gate circuit, and electric signal accurately can be determined by integrated circuit technology by the transmission time of door.Have the advantages that measuring accuracy is high, speed is fast, the linearity is good, Measuring Time is short, temperature influence is less and electromagnetic radiation is little.Ps picosecond high-precision timing can be realized.

In the low precision version of high measurement frequency magneto strictive sensor, temperature compensating crystal oscillator TXCO can be adopted as precision counter.Tuning fork-shaped quartz crystal oscillator has the characteristic that oscillation frequency changes with environment temperature, then needs to carry out accuracy compensation for improving clock accuracy.Digital TCXO converts environment temperature information to numeral every some cycles, and the corresponding offset of this temperature of breathing out from internal memory, compensates oscillation frequency.Frequency accuracy can reach 0.05ppm, not high in accuracy requirement, and volume limits little occasion foot and applies use.

During measurement, from measure-controlling unit sends excitation instruction, an idle measuring unit in measurement module is activated, and described measuring unit sends signal to excitation control module and starts timing.Excitation control module sets out the unique pumping signal distinguished by described measuring unit and other measuring units, and excitation control module reaches this technique effect by setting waveform, voltage, electric current, rising time, high level time, low level time and negative edge time.Pumping signal is after driver module sends, and the echoed signal of generation there has also been the waveform characteristic with pumping signal direct correlation.Echo, after detection, amplification, shaping, is delivered to channel signal separation module.Channel signal separation module according to waveform characteristic judge this echoed signal belong to which measuring unit all after, described echoed signal is passed to corresponding measuring unit.After measuring unit receives signal, stop timing, all times t now obtained _w.By t _wreturn to microprocessor module, be responsible for process by Data Synthesis unit _.t _wdeduct and issue a signal to from measuring unit the time that electric signal passes to the vernier magnet ring position time and expend detection module, amplification module, Shaping Module, channel signal separation module, be i.e. the T.T. t of electric signal transmission and process _e, just obtain echoed signal travel time t _s.By t _sbe multiplied by ultrasonic velocity, just can obtain this absolute position measuring vernier or immediate movement amount.This absolute position, after data processing unit coding or D/A conversion, passes to output interface module.Because pumping signal is run with the light velocity, speed is far above the mechanical velocity of wave of echo, and sensor only needs the Microsecond grade transmission time less than the range of hundred meters relative to the light velocity, and Electric signal processing time lag is also extremely limited, so t under normal circumstances _ean insignificant Microsecond grade time, all times t _wapproximate echoed signal travel time t _s.

Output interface module is specialized protocol driving chip or one group of D/A change-over circuit, positional information is aimed at 485, the numeral such as SSI, Profibus, CAN exports, or transfers two-wire system to or three-wire system current/voltage analog exports.

In measuring process, the bang path of signal is microprocessor module → measurement module → excitation control module → driver module → waveguide filament → detection module → amplification module → Shaping Module → channel signal separation module → measurement module → microprocessor module → output interface module.

By the innovative design in Survey control module, original single measure-controlling unit is become multiple measure-controlling unit, and each measuring unit independently can initiate pumping signal and the joint passage signal separation module completes the process of corresponding echoed signal.As long as according to the specified range of magneto strictive sensor and vernier maximum movement speed, calculate minimum interval T between echo that two different measuring unit excite _min, in actual use, generally do not reach T _minsuch limiting frequency, the time interval can possess surplus, and the minimum interval t that two different measuring unit initiate to measure demarcates before sensor dispatches from the factory in manufacturer _min, and t _min>=T _min, each measuring unit just by FIFO or token circulation or poll or similar arbitration mechanism, can obtain by a measuring unit power of measurement at every turn.So different measure-controlling units is divided on different passages, makes the same time can have multiple echoed signal on waveguide filament, instead of as traditional product the same time only have an echoed signal.Like this, according to current cursor magnet ring position, the maximum number of echoes that vernier magnet ring to transducer zeroing this section of waveguide filament can carry is the highest measurement frequency that current sensor can bear, highest measurement frequency be the k of original product doubly, k be greater than 1 natural number.K is a variation value, relevant with transducer zeroing distance to vernier magnet ring, and distance is larger, and k is larger.

As another kind of design form of the present utility model.Channel signal separation module is not set up as separate modular, but is integrated in measurement module.Electronic compartment comprises microprocessor module, measurement module, excitation control module, driver module, detection module, amplification module, Shaping Module and output interface module.Shaping Module is connected with amplification module, measurement module respectively.Measurement module comprises n measuring unit and a channel signal separative element, wherein n be more than or equal to 2 natural number.In measuring process, the bang path of signal is microprocessor module → measurement module → excitation control module → driver module → waveguide filament → detection module → amplification module → Shaping Module → measurement module → microprocessor module → output interface module.

Further simplify channel signal separative element in this configuration and encourage the design of control module, driver module, make only to use the pumping signal of same waveform characteristic just can distinguish the echo belonging to different measuring unit.

Before measurement starts, it is idle FIFO that all measuring units are all arranged in a state, when initiating one-shot measurement, just from this FIFO, ejects a measuring unit, and the state of entering is in the FIFO activated.The rest may be inferred, until all states are for just stopping time empty in the FIFO of free time.It is in the FIFO activated that now all measuring units come state all successively.Because echo wave speed is the octuple of velocity of sound in air, the translational speed of vernier magnet ring is negligible by comparison, and echoed signal must be that the sequencing of corresponding pumping signal returns.After measurement starts, it is the measuring unit coming foremost in the FIFO activated that the echoed signal returned at first after any instant corresponds to state certainly.It is the measuring unit coming foremost in the FIFO activated that such channel signal separative element only issues state the echoed signal received.Receiving the measuring unit after echoed signal from state is eject the FIFO activated, and receive echo, the state that is discharged into once again after issuing Data Synthesis unit after completing counting is in idle FIFO.

Adopt the magneto strictive sensor of the utility model design, by measuring unit programming, according to certain sequential and logical relation running measuring unit, just can reach multiple technologies effect.A kind of effect is: according to the survey frequency f of setting, a measuring unit is only started when vernier magnet ring is positioned at transducer zeroing, along with vernier magnet ring is away from transducer zeroing, progressively start increasing measuring unit, when vernier magnet ring moves to maximum range position, start whole n measuring unit.Achieve sensor like this and maintain constant survey frequency f at gamut.Sensor more than 1 meter during range effect the most obvious.

Another kind of effect is: user can the survey frequency of setting sensor, and within the scope of one, stepping regulates or smooth adjustment.Survey frequency is just promoted to obtain more measured value when needing to improve measuring accuracy, again by mathematical measures such as statistical study weighted means, draw the matched curve more meeting vernier magnet ring actual motion curve, improve the real-time performance of sensor, improve measuring accuracy.

The third effect is: for the different range segment of same sensor, can set different survey frequencies, to adapt to the rig-site utilization demand of user.

Accompanying drawing explanation

Fig. 1 is the utility model module map;

Fig. 2 is signal graph of the present invention;

1-amplification module

2-detection module

3-magnet ring vernier

4-waveguide filament

Embodiment

For describing technology contents of the present utility model, architectural feature, the technical purpose of realization and technique effect in detail, be described in detail below in conjunction with drawings and embodiments.

Embodiment 1: a kind of high measurement frequency magneto strictive sensor, described sensor comprises electronic compartment, measuring staff and magnet ring vernier, have waveguide filament in measuring staff, electronic compartment comprises microprocessor module, measurement module, excitation control module, driver module, detection module, amplification module, Shaping Module, channel signal separation module and output interface module.Microprocessor module is connected with measurement module, output interface module respectively; Measurement module respectively with microprocessor module, encourage control module to be connected; Excitation control module is connected with measurement module, driver module respectively; Driver module is connected with excitation control module, waveguide filament respectively; Waveguide filament respectively with driver module, detection model calling; Detection module is connected with waveguide filament, amplification module respectively; Amplification module is connected with detection module, Shaping Module respectively; Shaping Module is connected with amplification module, channel signal separation module respectively; Channel signal separation module is connected with Shaping Module, measurement module respectively; Output interface module is connected with microprocessor module.

Described microprocessor module comprises data processing unit, Data Synthesis unit, measure-controlling unit, and data processing unit is connected with Data Synthesis unit, measure-controlling unit respectively.

Microprocessor module in the present embodiment adopts 16 PIC24 MCU, and this single-chip microcomputer is powerful 16 single-chip microcomputers of performance that Microchip company produces.Have 16 bit data bit wides and 24 bit instruction bit wides.Single-chip microcomputer has 16-bit DAC support up to the sampling rate of 100 Ksps, can accurately transfer vernier magnet ring absolute position digital signal to voltage signal or current signal.Single-chip microcomputer coordinates with translation circuit can realize 0-5V, 0-10V, ± 5V, and ± 10V voltage exports and 0-20mA, 4-20mA, 0-24mA electric current exports.Be RS-485 communication chip with Maxim MAX487 chip in the present embodiment.Serial communication port USART and MAX487 in PIC single chip microcomputer connects, and can work in full duplex mode of operation or half-duplex asynchronous work mode, and communication can be selected as required.Many groups I/O port can export as the input of general data and data and use, and all has special function register, for user in programming, also can well facilitate later expanding system function, so just achieve RS-485 signal and export.This single-chip microcomputer also has a CAN interface, coordinates Microchip MCP2551 transceiver, supports the CAN up to 1M baud rate.

Measuring unit is made up of special chip ASIC, high accuracy count chip, and ASIC is as logic controller.Built-in 2 or 3 or 4 or 5 or 6 or 8 or 9 or 10 or 12 or 16 or 18 or 20 or 24 or 30 or 32 measuring units of measurement module.Measuring accuracy is 125 ps, has multiple work range and mode of operation.

After sensor powers on, by ASIC, the initialization operation such as service aisle, mode of operation selection is carried out to high accuracy count chip.Send start signal by ASIC, when after the stop signal receiving channel signal separation module, high accuracy count chip is started working according to setting in advance and the result of measurement is stored in corresponding result register.After measurement terminates, high accuracy count chip causes interrupt notification ASIC and measurement result is passed to microprocessor module and completes relevant data processing.

ASIC inside adopts token circulation format management measuring unit.The minimum interval t measured is initiated by two different measuring unit of setting _min, token presses the circulation of FIFO principle between the measuring unit of free time.After measurement module receives the new measurement instruction of the initiation transmitted from microprocessor module, the current idle measuring unit holding token is activated, this measuring unit enters and activates measuring unit fifo queue, sends start signal, carry out timing to high accuracy count chip.Simultaneously at t _minsubsequent idle measuring unit is handed to after date token.After high accuracy count chip triggered interrupts represents that measurement completes, corresponding measuring unit reads high accuracy count chip register result and starts microprocessor module and interrupts sending data to it.Complete measuring unit after sending and be marked as idle condition again, surrender token.

According to the difference of accuracy requirement, measurement module is under high precision mode, and high accuracy count chip enables single, and each passage activates measuring unit cooperating with 1 at most.Measurement module high accuracy count chip under low accuracy modes enables dual channel mode, and each high accuracy count chip activates measuring unit cooperating with 2 at most in without correction situation.Sensor, according to measurement module built-in measuring unit quantity and different mode of operations, assembles the high accuracy count chip of respective numbers according to above-mentioned quantity corresponding relation.

Embodiment 2: a kind of high measurement frequency magneto strictive sensor, described sensor comprises electronic compartment, measuring staff and magnet ring vernier, have waveguide filament in measuring staff, electronic compartment comprises microprocessor module, measurement module, excitation control module, driver module, detection module, amplification module, Shaping Module and output interface module.Microprocessor module is connected with measurement module, output interface module respectively; Measurement module respectively with microprocessor module, encourage control module to be connected; Excitation control module is connected with measurement module, driver module respectively; Driver module is connected with excitation control module, waveguide filament respectively; Waveguide filament respectively with driver module, detection model calling; Detection module is connected with waveguide filament, amplification module respectively; Amplification module is connected with detection module, Shaping Module respectively; Shaping Module is connected with amplification module, measurement module respectively.Output interface module is connected with microprocessor module.

Described sensor adopts Ti company F28M36x Concerto as control device.F28M36x is the MCU system of a core double-core, subsystem in F28M36x-ARM Cortex-M3 is as digital output section, the control subsystem-TMS320C28x 32 bit CPU control survey module in F28M36x and the modulating output part as output interface module of microprocessor module and output interface module.Take full advantage of the powerful data-handling capacity of F28M36x and peripheral unit control ability like this, simplify system.

Measuring unit comprises high accuracy count chip and logic controller, and each measuring unit has the separate high accuracy counting chip being specific to self.Measurement module comprises measuring unit and channel signal separative element.Built-in 2 or 3 or 4 or 5 or 6 or 8 or 9 or 10 or 12 or 16 or 18 or 20 or 24 or 30 or 32 measuring units of measurement module.By TMS320C28x 32 bit CPU control FIFO, high accuracy count chip, and as the logic controller of measurement module, simultaneously as channel signal separative element.

During measurement, the start signal that logically controller sends of the separate high accuracy counting chip in each measuring unit starts timing, and measuring unit is eject the FIFO of free time from state, and the state of entering is in the FIFO activated.Each measuring unit be activated subsequently also ejects successively from state is idle FIFO, and the state of entering is in the FIFO activated.Until all measuring unit is activated.When channel signal separative element monitored echoed signal return time, be that the FIFO activated is hit by a bullet out first measuring unit from state immediately, and stop signal is passed to this measuring unit, high accuracy count chip stops timing.The position of vernier magnet ring just can be known according to the timing result of register in high accuracy count chip.

The design of miscellaneous part in the present embodiment, identical with embodiment 1.Same support various asynchronous/synchronization serial output and CAN export.Coordinate with the protocol chip such as SPC3, VPC3+, Anybus AB6000, Profibus-DP can be realized and export, can also coordinate with CPLD, realize SSI and export.The 10 figure place weighted-voltage D/A converters of TMS320C28x support that high-precision multi-path analog voltage/current exports.

The above; it is only preferred embodiment of the present utility model; it is not limiting the scope of the present invention; as long as employing the technical solution of the utility model; or be only that any routine can made by those of ordinary skill in the art is revised or equivalent variations, all fall among the present invention's scope required for protection.

Claims (7)

1. a high measurement frequency magneto strictive sensor, described sensor comprises electronic compartment (1), measuring staff (2) and magnet ring vernier (3), has waveguide filament (2-1) in measuring staff (2),

It is characterized in that:

Electronic compartment (1) comprises microprocessor module (1-1), measurement module (1-2), excitation control module (1-3), driver module (1-4), detection module (1-5), amplification module (1-6), Shaping Module (1-7), channel signal separation module (1-8) and output interface module (1-9).

2. high measurement frequency magneto strictive sensor as claimed in claim 1,

It is characterized in that:

Microprocessor module (1-1) is connected with measurement module (1-2), output interface module (1-9) respectively;

Measurement module (1-2) respectively with microprocessor module (1-1), encourage control module (1-3), channel signal separation module (1-8) is connected;

Excitation control module (1-3) is connected with measurement module (1-2), driver module (1-4) respectively;

Driver module (1-4) is connected with excitation control module (1-3), waveguide filament (2-1) respectively;

Waveguide filament (2-1) is connected with driver module (1-4), detection module (1-5) respectively;

Detection module (1-5) is connected with waveguide filament (2-1), amplification module (1-6) respectively;

Amplification module (1-6) is connected with detection module (1-5), Shaping Module (1-7) respectively;

Shaping Module (1-7) is connected with amplification module (1-6), channel signal separation module (1-8) respectively;

Channel signal separation module (1-8) is connected with Shaping Module (1-7), measurement module (1-2) respectively;

Output interface module (1-9) is connected with microprocessor module (1-1).

3. high measurement frequency magneto strictive sensor as claimed in claim 1,

It is characterized in that:

Described microprocessor module (1-1) comprises data processing unit (1-1-1), Data Synthesis unit (1-1-2), measure-controlling unit (1-1-3),

Data processing unit (1-1-1) is connected with Data Synthesis unit (1-1-2), measure-controlling unit (1-1-3) respectively.

4. high measurement frequency magneto strictive sensor as claimed in claim 1,

It is characterized in that: in described measurement module (1-2), have n measuring unit (1-2-1), wherein n be more than or equal to 2 natural number.

5. a high measurement frequency magneto strictive sensor, described sensor comprises electronic compartment (1), measuring staff (2) and magnet ring vernier (3), has waveguide filament (2-1) in measuring staff (2),

It is characterized in that:

Electronic compartment (1) comprises microprocessor module (1-1), measurement module (1-2), excitation control module (1-3), driver module (1-4), detection module (1-5), amplification module (1-6), Shaping Module (1-7) and output interface module (1-9).

6. high measurement frequency magneto strictive sensor as claimed in claim 5, is characterized in that:

Microprocessor module (1-1) is connected with measurement module (1-2), output interface module (1-9) respectively;

Measurement module (1-2) respectively with microprocessor module (1-1), encourage control module (1-3), Shaping Module (1-7) is connected;

Excitation control module (1-3) is connected with measurement module (1-2), driver module (1-4) respectively;

Driver module (1-4) is connected with excitation control module (1-3), waveguide filament (2-1) respectively;

Waveguide filament (2-1) is connected with driver module (1-4), detection module (1-5) respectively;

Detection module (1-5) is connected with waveguide filament (2-1), amplification module (1-6) respectively;

Amplification module (1-6) is connected with detection module (1-5), Shaping Module (1-7) respectively;

Shaping Module (1-7) is connected with amplification module (1-6), measurement module (1-2) respectively;

Output interface module (1-9) is connected with microprocessor module (1-1).

7. high measurement frequency magneto strictive sensor as claimed in claim 5, is characterized in that: measurement module (1-2) comprises n measuring unit (1-2-1) and a channel signal separative element (1-2-2), wherein n be more than or equal to 2 natural number.