CN209559327U - A kind of standard ultrasound power source - Google Patents

Abstract

A kind of standard ultrasound power source, comprising: for inputting the input unit of frequency and power parameter；For generating the DDS signal generating module of sinusoidal signal；For making it generate the control module of corresponding sinusoidal signal according to the frequency and amplitude and output to DDS signal generating module of the frequency and power parameter of input calculating acquisition sinusoidal signal；For carrying out the power amplifier module of power amplification to sinusoidal signal；For exporting the ultrasonic transducer of sound wave according to amplified sinusoidal signal.Thus, using DDS signal generating module, the output of frequency and amplitude is automatically controlled according to the frequency and power parameter of input by control module, function signal generator is used in the prior art compared to rising, without being manually adjusted according to the measurement voltage of high-frequency millivolt meter, automation and the intelligentized control method of standard ultrasound power source are realized.

Description

A kind of standard ultrasound power source

Technical field

The utility model relates to a kind of Vltrasonic device more particularly to a kind of standard ultrasound power sources.

Background technique

Standard ultrasound power source is a kind of stable, known ultrasonic power source for exporting ultrasonic acoustical power, is mainly used as The Transfer Standards of ultrasonic sound power measurement, to compare and calibrate various ultrasonic sound power measurement devices, such as ultrasonic power meter.

As shown in Figure 1, standard ultrasound power source system on the market generally includes the function signal being sequentially connected electrically generation Device (such as Agilent 33250A), power amplifier (such as AR25A100), adaptation and ultrasonic transducer, and adaptation is exported The high-frequency millivolt meter (such as URV55) that measures of voltage value, have the disadvantage that

One, using function signal generator, need the voltage value measured according to high-frequency millivolt meter to function signal generator The frequency and amplitude of output are manually adjusted, and different ultrasonic powers could be exported.

Two, function signal generator, power amplifier, adaptation and ultrasonic transducer are independent instrument, are mutually interconnected It connects to form standard ultrasound power source system, can not carry to scene and carry out calibration.

Three, adaptation is placed outside ultrasonic transducer, mutually indepedent, is unfavorable for job stability, and taken up too much space, It is unfavorable for the lighting of standard ultrasound power source.

Four, the structure of the piezoelectric chip 01 of ultrasonic transducer is as shown in Fig. 2, one island of central silver-plated formation in chip is electric Pole 011 is equipped with a circle annular electrode cut-off rule 013 around island electrode, is equipped with a circle plating around annular electrode cut-off rule again The annular electrode 012 of silver, the side and the back side of piezoelectric chip are equally silver-plated, and grounding electrode is collectively formed with annular electrode；The pressure Electric chip generally uses quartz piezoelectric material, and transformation efficiency is low, and the electrode of piezoelectric chip generally uses silver-coated electrode, it is anti-oxidant and Corrosion resistance is poor.

Five, the working principle of the piezoelectric chip of ultrasonic transducer is to receive electric signal to vibrate and launch ultrasonic wave, therefore The structure of ultrasonic transducer should allow piezoelectric chip to vibrate but prevent its vibration from coming loose simultaneously to fall, and Fig. 3 is in the prior art super Piezoelectric chip is set to the end of the sleeve 03 of opening to allow piezoelectric chip sufficiently to vibrate by the structure of sonic transducer, set Cylinder end is equipped with a groove 032 radially, and piezoelectric chip 01 is arranged in the groove 032, by infusing in groove 032 Enter silicone rubber filler (not shown), be filled in the gap between groove and piezoelectric chip, plays fixed and waterproof Effect, but in the case where vibrating biggish situation, which is still easily separated from silicone rubber and recalls sleeve.

Six, it can only realize that single-frequency exports, and output frequency is lower, is generally not more than 16MHz.

Utility model content

One purpose of the utility model is to provide a kind of standard ultrasound power source, at least one in solving the above problems It is a.

One aspect according to the present utility model provides a kind of standard ultrasound power source, comprising:

For inputting the input unit of frequency and power parameter；

For generating the DDS signal generating module of sinusoidal signal；

It obtains the frequency of sinusoidal signal for being calculated according to the frequency and power parameter of input and amplitude and exports to DDS Signal generating module makes it generate the control module of corresponding sinusoidal signal；

For carrying out the power amplifier module of power amplification to sinusoidal signal；

For exporting the ultrasonic transducer of sound wave according to amplified sinusoidal signal.

DDS signal generating module is used as a result, and frequency is automatically controlled according to the frequency and power parameter of input by control module The output of rate and amplitude has been compared in the prior art using function signal generator, without the measurement electricity according to high-frequency millivolt meter Pressure is manually adjusted, and automation and the intelligentized control method of standard ultrasound power source are realized.

In some embodiments, ultrasonic transducer includes:

Sleeve；

It is fixed in sleeve, for realizing the piezoelectric chip of electroacoustic conversion；

It is fixed in sleeve, is connected between piezoelectric chip and power amplifier module, for realizing piezoelectric chip and power The inductor of impedance matching between amplification module.

Inductor is built in ultrasonic transducer as a result, can be improved job stability, reduces occupied space, is realized light Just change.

In some embodiments, piezoelectric chip uses mono-crystalline lithium niobate crystal, and cut direction is 36 ° of Y, with a thickness of 0.9mm-1.1mm, diameter are 25mm ± 0.3mm；

Inductor includes magnetic core and the copper wire that is wound on magnetic core；The number of turns of copper wire is 2-3, diameter 1mm；Magnetic core uses Nickel zinc magnet ring, overall diameter 13mm, interior diameter 7mm.

The standard ultrasound power source for using the piezoelectric chip and inductor as a result, can be realized the ultrasound of three Frequency points Power output, and highest frequency can reach 18MHz or more.

In some embodiments, the number of turns of copper wire is 2.5.

The working effect of standard ultrasound power source is more excellent as a result,.

In some embodiments, piezoelectric chip includes:

It is set to the island electrode of the first end face of piezoelectric chip, is connect with power amplifier module；

It is set to the first end face of piezoelectric chip and surrounds the annular electrode cut-off rule of island electrode；

It is set to the side of piezoelectric chip and the grounding electrode of second end face.

The effective surface of emission of the island electrode as piezoelectric chip as a result, has compared the prior art, has eliminated in first end face Annular grounding electrode, increase the area of island electrode, improve the emission effciency of piezoelectric chip.

In some embodiments, the diameter of island electrode is 23mm ± 0.3mm.

The emission area of piezoelectric chip is improved as a result, and then improves emission effciency.

In some embodiments, island electrode and grounding electrode are gold-plated film layer electrode.

Plating silver film electrode in the prior art has been compared as a result, the anti-oxidant and corrosion resistance of gold-plated film layer is more excellent, The working effect for optimizing standard ultrasound power source, increases service life.

In some embodiments, ultrasonic transducer further include:

The first end that is fixed on sleeve, the bnc connector for being connect with power amplifier module；Inductor is set to sleeve Interior, both ends are serially connected between bnc connector and the island electrode of piezoelectric chip by conducting wire；

Second end opening of sleeve, and it is provided in the opening with the flange of radially-inwardly protrusion；The second end face of piezoelectric chip Abutment flange is to be fixed in sleeve.

Piezoelectric chip is securely fixed in sleeve by setting flange as a result, prevents its vibration from dropping out, improves mark The job stability of quasi- ultrasonic power source.

Detailed description of the invention

Fig. 1 is the functional block diagram of the standard ultrasound power source of the prior art；

Fig. 2 is the schematic diagram of the piezoelectric chip of the prior art；

Fig. 3 is the structural schematic diagram of ultrasonic transducer in the prior art；

Fig. 4 is the functional block diagram of the standard ultrasound power source of the utility model；

Fig. 5 is the structural schematic diagram of the ultrasonic transducer of the utility model；

Fig. 6 is the schematic diagram of the first end face of the piezoelectric chip of the utility model；

Fig. 7 is the schematic diagram of the second end face of the piezoelectric chip of the utility model；

Fig. 8 is impedance principle schematic diagram；

Fig. 9 is impedance plot of the inductor using the ultrasonic transducer of ferrimagnetic stick；

Figure 10 is impedance plot of the inductor using the ultrasonic transducer of ferrimagnetic ring；

Figure 11 is impedance plot of the inductor using the ultrasonic transducer of manganese-zinc magnetic ring；

Figure 12 is impedance plot of the inductor using the ultrasonic transducer of nickel zinc magnet ring；

Figure 13 is the preceding impedance plot that coarse scan is carried out to ultrasonic transducer of Frequency point matching；

Figure 14 is 3.361MHz frequency point 10mW ultrasonic power measurement result；

Figure 15 is 3.361MHz frequency point 100mW ultrasonic power measurement result；

Figure 16 is 3.361MHz frequency point 1W ultrasonic power measurement result；

Figure 17 is 11.27MHz frequency point 100mW ultrasonic power measurement result；

Figure 18 is 18.90MHz frequency point 100mW ultrasonic power measurement result；

Figure 19 is 18.90MHz measurement result curve matching.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.

Fig. 4 schematically shows a kind of standard ultrasound power source of embodiment according to the present utility model.As schemed Show, which includes shell, the input device and display device that is fixed on shell, and is immobilized in the shell DDS signal generating module, control module, power amplifier module and ultrasonic transducer.It is used in the prior art independently compared to rising The standard ultrasound power source system of instrument, each component part of the utility model are integrated on a shell, form complete machine, energy Enough carry to scene carries out calibration.

Key board or touch screen specifically can be used for inputting frequency and power parameter in the input unit.

The display device is used to show the frequency and the information such as power parameter and other parameters of input, specifically can be used Liquid crystal display.

The DDS signal generating module is for generating sinusoidal signal.DDS refers to Direct Digital Synthesizer (Direct Digital Synthesizer), and function signal generator is compared, and is had low cost, low-power consumption, high-resolution and is quickly turned The advantages that changing the time, can generate low distortion, the stable high_frequency sine wave signal of needs, and can be controlled by single-chip microcontroller System.

Frequency and power parameter that the control module is used to be inputted according to input unit calculate the frequency for obtaining sinusoidal signal With amplitude and output is to DDS signal generating module, generates corresponding sinusoidal signal by DDS signal generating module.The control module STC12C5A60S2 series monolithic specifically can be used, the frequency and amplitude of DDS signal generating module are controlled by serial ports, it is soft Part programmed fraction can refer to the prior art.

The power amplifier module carries out function according to preset amplification factor to the sinusoidal signal that DDS signal generating module exports Rate amplification.

The ultrasonic transducer includes sleeve 3, bnc connector 4, firewire 5, ground wire 6, piezoelectric chip 1 and inductor 2.Such as Fig. 5 Shown, which is cylindrical shape, and first end is fixed with BNC (Bayonet Neill-Concelman) connector, BNC connection Device 4 with power amplifier module for connecting.Second end opening of sleeve 3, and it is provided in the opening with the flange of radially-inwardly protrusion 31, which is connected at flange 31 to be fixed in sleeve 3.It can be filled between flange 31 and the gap of piezoelectric chip 1 There is silicone rubber filler (not shown), plays waterproof.The both ends of the inductor 2 are serially connected in BNC company by firewire 5 It connects between device 4 and piezoelectric chip 1.

Fig. 6 is the first end face of piezoelectric chip 1, and the first end face of the piezoelectric chip 1 is equipped with an island for using gold-plated film layer Shape electrode 11 is connect with firewire 5, is effective surface of emission of piezoelectric chip 1.Around island electrode 11 equipped with an annular electrode point Secant 13 is used for 12 insulated separation of island electrode 11 and grounding electrode.Fig. 7 is the second end face of piezoelectric chip 1, the piezo crystals The side of piece 1 and second end face are equipped with gold-plated film layer, to form grounding electrode 12, with the ground wire 6 for being fixed on 3 inner wall of sleeve Welding conducting is grounded by the sleeve 3 of stainless steel material.The second end face of the piezo-electric crystal abuts the flange 31 of sleeve 3, to prevent Sleeve 3 is dropped out when only piezoelectric chip 1 vibrates.

The standard ultrasound power source of the utility model can be realized the ultrasonic power output in three Frequency points, the frequency point Not are as follows: 3.45~3.85MHz, 10.35~11.55MHz and 17.25~19.25MHz, specifically, in the present embodiment, it is possible to Enough realize following frequencies in the output of certain power point:

(1) frequency 3.361MHz:10mW, 100mW, 1W；

(2) frequency 11.27MHz:100mW；

(3) frequency 18.90MHz:100mW.

In order to realize the ultrasonic power output at three Frequency points, the design of piezoelectric chip 1 and inductor 2 is especially closed Key is described in detail below.

The piezoelectric chip 1 uses mono-crystalline lithium niobate crystal, relative to quartz crystal, the curie point of mono-crystalline lithium niobate crystal compared with Height, suitable for working under hot environment, stable chemical performance is suitable for production high-frequency transducer, and mechanical quality factor is high, With good mechanical performance, and its acoustic impedance is low, and ultrasound loss is small.The cut direction of the mono-crystalline lithium niobate crystal selects 36 ° Y, under the cut direction, for the coefficient of coup up to 0.55, frequency constant is high, is suitable for production high-frequency transducer.The piezoelectric chip 1 Thickness d be 0.8mm-1.1mm, preferably 0.9mm-1.0mm, be in the present embodiment 0.95mm, a diameter of 25mm ± 0.3mm.The diameter of the island electrode 11 is 23mm ± 0.3mm, and the width of annular electrode cut-off rule 13 is 1mm.

Wherein, the selection of the thickness d of piezoelectric chip 1 is more crucial, obtains with reference to following formula:

D=N/f₀

Wherein, d is the thickness (mm) of vibrating reed, and N is frequency constant, and the lithium columbate crystal of 36 ° of Y cutting is taken 3.62MHzmm f₀For frequency constant (Hz).

According to above-mentioned formula, to the ultrasonic chip of design frequency 18MHz or more, wafer thickness should be 0.201mm, due to The thickness cutting of 0.2mm and it is gold-plated is not easily accomplished, while output ultrasonic power is limited when thickness is thin, so practical at this The frequency-doubling method that radix is considered as in novel carries out frequency multiplication, in addition considers to realize that the ultrasonic power of three fixed frequency points is defeated Out, therefore according to 1,3,5 frequency multiplication, f is enabled₀=18MHz/5=3.6MHz, then again according to d=N/f₀, calculate wafer thickness about For 1mm, consider further that the thickness (about 0.03mm) of Gold plated Layer and the error of cutting, used in the utility model wafer thickness for 0.95mm.Consider the range of output power size, it is more appropriate to choose diameter 25mm.

The inductor 2 is as adaptation for realizing the impedance matching between piezoelectric chip and the power amplifier module. In ultrasound transducer design and test, source of ultrasound signal (sinusoidal signal i.e. after power amplification) and piezoelectricity can be encountered always The resistance matching problem of chip.Facts proved that can ultrasonic transducer efficiently and safely work, depend greatly on Matched design between piezoelectric chip and source of ultrasound signal.

Supersonic signal generator (being DDS signal generating module and power amplifier module in the present embodiment), adaptation with And the impedance principle between piezoelectric chip three is as shown in Figure 8.Wherein Z_iIt is the input impedance of piezoelectric chip, Z_cBe it is matched with The output impedance of piezoelectric chip afterwards, Z₀For the output impedance of supersonic signal generator.In general, piezoelectric chip is a resistance Element, input impedance are represented by Z_i=R_i+jX_i.Its impedance becomes Z after matched device_c=R_c+jX_c。Z_iAnd Z_cBetween Physical relationship is determined by the concrete form of adaptation.Under normal circumstances, the output impedance of supersonic signal generator is pure resistance Property, so can approximate representation be Z₀=R₀.According to Exchange theory, the maximum power output condition of electric generator, i.e. piezoelectric chip Perfect match condition are as follows:

R₀=R_c

X_c=0

Since the impedance of the crystal of piezoelectric material is capacitive reactances, to realize resonance, series resonant circuit can be used, i.e., It connects an inductor.Electricity matching is realized using series reactor in the utility model, main method is to use impedance analysis Instrument carries out impedance analysis to ultrasonic transducer, then by constantly adjusting each design parameter of inductor, to realize certain several frequency The resonance of rate.

The inductor 2 includes magnetic core and the copper wire being wound on the magnetic core, wherein shape and the material selection of magnetic core are to close One of key, such as the shape of magnetic core can be bar magnet or magnet ring, and material can be iron oxygen, iron sial, MnZn and nickel zinc etc.. Since Frequency point is from 3.61MHz~18.90MHz wider range, and the capacitive reactance of piezoelectric chip this segment limit curve rise and fall compared with Greatly, realize three Frequency points real impedance matching it is very high to the selection requirement of magnetic core, by ferrimagnetic stick, ferrimagnetic ring, Manganese-zinc magnetic ring and nickel zinc magnet ring carry out match test, carry out impedance scanning using impedance analyzer, final choice nickel zinc magnet ring It is matched as magnetic core, can be realized highest frequency in 18MHz or more, while the matching of the real impedance of three Frequency points.It is real Highly effective, the electroacoustic high conversion efficiency of bright matching is verified, Frequency point is stablized.Fig. 9-12 is please referred to, wherein Fig. 9 is using ferrimagnetic The impedance plot that stick is tested, Figure 10 are the impedance plots tested using ferrimagnetic ring, and Figure 11 is using MnZn The impedance plot that magnet ring is tested, Figure 12 are the impedance plots tested using nickel zinc magnet ring, and horizontal axis is frequency in figure Rate (Hz), the longitudinal axis are respectively impedance Z (Ω) and impedance angle θ_z(°)。

From Fig. 9 and 10 as can be seen that ferrimagnetic stick and ferrimagnetic ring matching after impedance it is bigger, low frequency 3~ Apply in 4MHz is that there is no problem, but matches in high frequency less than real impedance.It can be seen from figure 11 that manganese-zinc magnetic ring exists High-frequency effect is more satisfactory (can realize high frequency matching by adjusting the number of turns), but frequency of occurrences offset is larger in low frequency, and Impedance value is very big, has reached 1k ohm or more, therefore match suitable for application in the ultrasonic transducer of multiple Frequency points；From The effect that Figure 12 can be seen that nickel zinc magnet ring is more satisfactory, real impedance can be not only matched on three Frequency points, but also hinder Relatively 50 ohm of anti-value, therefore the utility model uses nickel zinc magnet ring as magnetic core.

Secondly, the size design of the number of turns of the copper wire, size and magnetic core is also key point.By constantly to inductor into Row adjustment, changes each design parameter of inductor, is measured to ultrasonic transducer to obtain the impedance at three Frequency points Parameter makes impedance parameter reach ideal value, obtains following design parameter: the number of turns of copper wire is 2-3, in the present embodiment preferably 2.5 a diameter of 1mm；The magnetic core uses nickel zinc magnet ring, overall diameter 13mm, interior diameter 7mm.

Details are as follows for measurement process and result to ultrasonic transducer.

Firstly, carrying out coarse scan to ultrasonic transducer before the matching for carrying out three Frequency points.Using WK6500B impedance analysis The automatically scanning function of instrument, this time purpose be to find out to be appropriate for matched resonance frequency, number of scan points be 1600 points, frequency from 1MHz measures 20MHz, record respectively impedance Z and impedance angle θ under each Frequency point, the real part R of impedance and imaginary part X, inductance L and Capacitor C, the directly X-Y scheme of export test, the case where by analysis of two-dimensional plane, determine in ultrasonic transduction implement body at which Band frequency range needs further measure more carefully.Figure 13 is bigness scale as a result, horizontal axis is frequency (Hz) in figure, and the longitudinal axis is respectively Impedance Z (Ω) and impedance angle θ_z(°).Know this ultrasonic transducer in 3.0~3.8MHz, 10.5 respectively by observing and analyzing ~there is the resonant frequency point that may be implemented between 12.0MHz and 18.5~19.6MHz, it needs further in these frequency bands The measurement that refinement analysis and work more refine.

By the detection further refined, Impedance Peak, In are found near 3.3MHz, 11.3MHz and 18.9MHz respectively These three Frequency points nearby read specific impedance parameter, are shown in Table 1, table 2 and table 3.In order to can be realized three Frequency points simultaneously Resonance, consider response of the inductor to frequency, Preliminary design series reactor resonance near 18.90MHz, according to formula R₀ =R_c, X_c=0, inductance is calculated, Frequency point 3.61MHz inductance is about 200nF, and Frequency point 11.27MHz inductance is about 140nF, 18.90MHz inductance is about (70~80) nF.

Table 1 match before ultrasonic transducer 3.3MHz impedance parameter

Ultrasonic transducer before the matching of table 2 is in 11.3MHz impedance parameter

Ultrasonic transducer before the matching of table 3 is in 18.8MHz impedance parameter

Then, by constantly to the fine tuning of inductance, finally realizing the resonance of three Frequency points, being respectively: 3.361MHz, 11.27MHz and 18.90MHz, in order to realize that resonance point data is really quasi-, using Agilent 4285A impedance point Analyzer carries out the impedance parameter measurement of ultrasonic transducer, the results are shown in Table 4, impedance plot, that is, Figure 12 after matching.

Ultrasonic transducer impedance parameter after the matching of table 4

Frequency (MHz)	Impedance (Ω)	Impedance angle (°)	Real part (Ω)	Imaginary part (Ω)
					3.361	47.6	0.02	47.6	0.02
11.27	52.4	0.09	52.4	0.08
					18.90	40.3	0.03	40.4	0.01

In order to ensure measurement result is credible, using the milliwatt and watt grade ultrasonic power base of Guangdong Institute of Metrology Standard apparatus measures the standard ultrasound power source of the present embodiment, and standard apparatus is using radiation force method, measuring principle It is: in small Amplitude Plane ultrasonic sound field, the time mean individual pressure i.e. radiation pressure that occurs in two kinds of medium interfaces.Its Value is equal to the difference of both sides acoustic density.Target that resulting radiation pressure can be placed in ultrasonic field with one measures.It is right Total reflection target, the total acoustic power and act on the relationship between the radiant force on target that ultrasonic transducer is radiated are as follows:

Wherein, P is total acoustic power, unit W；F is to act on the power on target, unit N along ultrasonic wave direction of a curve；C is super The spread speed of sound in a liquid, unit m/s；θ is the angle between target surface normal and incident acoustic beam, unit °.Measurement target has instead Shoot at the target with two kinds of absorbing target, absorbing target is used when medium-high frequency.

Ultrasonic power measurement is carried out in different power 10mW, 100mW and 1W respectively for 3.361MHz frequency point, is as a result seen Figure 14~16 and table 5~7.

5 3.361MHz frequency point 10mW measurement result of table

6 3.361MHz frequency point 100mW measurement result of table

7 3.361MHz frequency point 1W measurement result (watt grade) of table

Ultrasonic power measurement, the result is shown in Figure 17 and table 8 are carried out at power 100mW for 11.27MHz frequency point.

8 11.27MHz frequency point 100mW measurement result (absorbing target) of table

For 18.90MHz frequency point ultrasonic power measurement the result is shown in Figure 18 and table 9.

9 18.90MHz frequency point 100mW measurement result (absorbing target) of table

Since 18.90MHz frequency is very high, money that the coefficient of the damped expoential of ultrasonic wave in water can not refer to Material, so can only see Figure 19, final result 98.2mW by taking logarithm to carry out square law fitting further according to distance power. Measurement result, which summarizes, is shown in Table 10.

The standard ultrasound power source model machine measurement result of 10 the utility model of table summarizes

Further, the standard ultrasound power source of the utility model is sent to United Kingdom National laboratory (NPL) and is measured, Comparing is carried out with the ultrasonic power standard apparatus in United Kingdom National laboratory, the report that NPL is provided is shown in Table 11.

11 United Kingdom National lab measurements of table

It is flat using the weighting of Guangdong Institute of Metrology and the measurement result in the United Kingdom National laboratory laboratory Liang Jia For mean value as reference, can calculate comparison result is satisfied with evaluation index value, is shown in Table 12.

12 measurement result of table and compare satisfaction index

For reference value, the error of indication of the standard ultrasound power source of the utility model meets JJG within 5% The requirement of 868-1994 " milliwatt standard ultrasonic source vertification regulation ".From between available two laboratories of comparison result En value Measurement result is very close, wherein En is satisfied for comparison result better than 1.

Above-described is only some embodiments of the utility model.For those of ordinary skill in the art, Without departing from the concept of the present invention, various modifications and improvements can be made, or to above-mentioned technical proposal It is freely combined, these are all within the protection scope of the present invention.

Claims (8)

1. a kind of standard ultrasound power source characterized by comprising

For inputting the input unit of frequency and power parameter；

For generating the DDS signal generating module of sinusoidal signal；

It obtains the frequency of sinusoidal signal for being calculated according to the frequency and power parameter of input and amplitude and exports to the DDS Signal generating module makes it generate the control module of corresponding sinusoidal signal；

For carrying out the power amplifier module of power amplification to sinusoidal signal；

For exporting the ultrasonic transducer of sound wave according to amplified sinusoidal signal.

2. standard ultrasound power source according to claim 1, which is characterized in that the ultrasonic transducer includes:

Sleeve (3)；

It is fixed in the sleeve (3), for realizing the piezoelectric chip (1) of electroacoustic conversion；

Be fixed in the sleeve (3), be connected between the piezoelectric chip (1) and the power amplifier module, for realizing The inductor (2) of impedance matching between piezoelectric chip (1) and the power amplifier module.

3. standard ultrasound power source according to claim 2, it is characterised in that:

The piezoelectric chip (1) uses mono-crystalline lithium niobate crystal, and cut direction is 36 ° of Y, with a thickness of 0.9mm-1.1mm, directly Diameter is 25mm ± 0.3mm；

The inductor (2) includes magnetic core and the copper wire that is wound on the magnetic core；The number of turns of the copper wire is 2-3, and diameter is 1mm；The magnetic core uses nickel zinc magnet ring, overall diameter 13mm, interior diameter 7mm.

4. standard ultrasound power source according to claim 3, it is characterised in that: the number of turns of the copper wire is 2.5.

5. standard ultrasound power source according to claim 3, which is characterized in that the piezoelectric chip (1) includes:

It is set to the island electrode (11) of the first end face of the piezoelectric chip (1), is connect with the power amplifier module；

It is set to the first end face of the piezoelectric chip (1) and surrounds the annular electrode cut-off rule of the island electrode (11) (13)；

It is set to the side of the piezoelectric chip (1) and the grounding electrode (12) of second end face.

6. standard ultrasound power source according to claim 5, it is characterised in that: the diameter of the island electrode (11) is 23mm±0.3mm。

7. standard ultrasound power source according to claim 5, it is characterised in that: the island electrode (11) and grounding electrode It (12) is gold-plated film layer electrode.

8. standard ultrasound power source according to any one of claims 5 to 7, which is characterized in that the ultrasonic transducer Further include:

It is fixed on the first end of the sleeve (3), the bnc connector (4) for connecting with the power amplifier module；The electricity Sensor (2) is set in the sleeve (3), and both ends are serially connected in the bnc connector (4) and the piezoelectric chip by conducting wire (1) between island electrode (11)；

Second end opening of the sleeve (3), and the flange (31) of radially-inwardly protrusion is equipped in the opening；The piezoelectricity The second end face of chip (1) abuts the flange (31) to be fixed in the sleeve (3).