CN201788278U - Depth finder high-power acoustic wave transmitting device - Google Patents

Abstract

The utility model relates to a depth finder acoustic wave transmitting device, in particular to a special high-power acoustic wave transmitting device for a depth finder, which belongs to the technical field of underwater measurement and sonar measurement equipment by the aid of acoustic wave. The depth finder acoustic wave transmitting device mainly comprises a transmitting pulse frequency dividing module, transmitting loop driving modules, a transmitting wave power main loop module, a protecting module and an energy converter, wherein the transmitting pulse frequency dividing module receives transmitting pulse signals transmitted from a depth finder control circuit and transmits transmitting wave positive semi-cycle and negative semi-cycle transmitting pulse signals respectively formed after binary frequency division of the frequency dividing module to the left transmitting loop driving module and the right transmitting loop driving module, the left transmitting loop driving module and the right transmitting loop driving module drive all switching tubes of a full-bridge circuit of the transmitting wave power main loop module, the transmitting wave power main loop module loads high-voltage direct current onto the energy converter by the aid of the full-bridge circuit consisting of four switching tubes to form depth finder transmitting acoustic wave, and the protecting module acquires signals of the power main loop module. When abnormity such as short circuit and the like occurs in the circuit, control signals are outputted, and all transmission is closed to protect a transmitting circuit. The quality of depth finder acoustic wave transmitting can be greatly improved by the aid of the transformer-less high-power acoustic wave transmitting circuit with wide application prospect.

Description

The high-power acoustic emission apparatus of sounder

Technical field

The utility model relates to a kind of sounder acoustic emission apparatus, relates in particular to the high-power acoustic emission apparatus of sounder special use, belongs to the sonar to measure equipment technical field of utilizing sound wave to carry out underwater survey.

Background technology

Underwater sound signal has been widely used among the various sonars of Underwater Target Detection as the most effective means of undersea detection.Sonic echo depth finder is to use the conventional bathymetric survey equipment that underwater sound signal is found range, and also is the current the most general detecting devices of using.Its principle of work is the sound wave by transducer emission certain frequency, utilize sound wave when water transmission, run into the different medium of density (as water-bed or other objects) and can produce reflected signal, according to sound wave round time and the velocity of propagation in the survey regional water thereof, try to achieve the air line distance of transducer, promptly record the depth of water to reflectance target.

For identical measurement environment, the emission sound wave amplitude that the acoustic emission apparatus of sounder sends is big more, and the complete more then transmitted wave of transmitted waveform energy is big more, and echo is strong more, and measurement effect is good more.In order to realize the transmitted wave of higher-energy, generally adopt a low direct voltage drive switching tube to form transmitted wave in traditional sounder radiating circuit, the voltage amplitude that adopts step-up transformer to promote transmitted wave then reaches the purpose that improves emissive power.But it has following defective usually: at first, owing to need successively to realize electricity-magnetic, magnetic-electricity conversion in the step-up transformer, the maximum transmitted width of signal is subjected to the restriction of magnetic saturation characteristic, thereby the top of signal is difficult for transmission, the easy distortion of transmitted waveform; Secondly, the minimum widith of signal is limit by magnetization current; Once more, adopting the lower emission sound wave (for example 10kHz) of frequency, just must select the bigger transformer of no-load voltage ratio that boosts for realizing high-power emission, and be to suppress magnetic saturation characteristic, the inevitable volume of transformer is big, heaviness, and processed complex, even if like this, emissive power also can only reach about 2000W, and is still not ideal enough; At last; the emission holding circuit of traditional sounder is gathered the current data of power major loop by the sampling resistor of ground wire side; deliver to the sounder control circuit with analog form; output control signal when abnormal conditions such as short circuit occurring when circuit; close whole emissions with the protection radiating circuit; owing to consider circuit altogether, having of sampling resistor may cause circuit to damage, and causes the reaction of holding circuit still rapid inadequately.

Therefore, can develop the special-purpose high-power acoustic emission apparatus of a kind of novel sounder, make it can overcome above-mentioned shortcoming, become those skilled in the art's letter technical barrier to be solved.

The utility model content

In order to solve the problems of the technologies described above, the utility model aims to provide the special-purpose high-power acoustic emission apparatus of a kind of sounder, that is the high-power radiating circuit of a kind of transless, and the technical scheme of employing is as follows:

The high-power acoustic emission apparatus of this sounder comprises: transponder pulse frequency division module, launching circuit driver module, transmitted wave power major loop module and transducer; Wherein, described transponder pulse frequency division module is connected to the launching circuit driver module, and described launching circuit driver module and transducer are connected respectively to described transmitted wave power major loop module.

Preferably; also comprise protection module; the one end is connected with described transmitted wave power major loop module; the other end is connected with described transponder pulse frequency division module; it gathers the signal of described power major loop module; the output control signal is closed whole emissions comprise described transponder pulse frequency division module with protection radiating circuit when abnormal conditions appear in circuit.

Preferably, described transponder pulse frequency division module receives the transponder pulse signal that the sounder control circuit is sent here, and positive half cycle, the negative half period transmitted wave pulse signal that forms respectively behind its two divided-frequency sent in the described launching circuit driver module.

Preferably, described launching circuit driver module comprises left launching circuit driver module and right launching circuit driver module, and the circuit of two modules is identical, is used to drive the different switching tubes of the full-bridge circuit of described transmitted wave power major loop module.

Preferably, described launching circuit driver module comprises boostrap circuit, it is connected to an end of shunt capacitance and is formed by diode anode connection power supply, negative terminal, has both comprised the electric capacity that the equivalent series resistance resistance is lower in the described shunt capacitance, comprises the electrochemical capacitor that capacity is bigger again.

Preferably, comprise chip for driving in the described launching circuit driver module, and the pressure-sensitive diode and the voltage dependent resistor (VDR) that are used to protect described chip for driving, described pressure-sensitive diode and voltage dependent resistor (VDR) are connected in parallel.

Preferably, have in the described launching circuit driver module resistance in series and with one of them resistance diode connected in parallel, be used for turn-on and turn-off time of common gauge tap pipe.

Preferably, described transmitted wave power major loop module has the full-bridge circuit that four switching tubes form, and is used for high voltage direct current is loaded into described transducer, forms sounder emission sound wave.

Preferably, have storage capacitor and protection sampling resistor in the described transmitted wave power major loop module, described protection sampling resistor is connected to the power end of described storage capacitor.

Preferably; has switching tube in the described transmitted wave power major loop module; and the switching tube holding circuit that forms by voltage dependent resistor (VDR), protective resistance, protection electric capacity; wherein; described voltage dependent resistor (VDR) is in parallel with described switching tube, and the combination after described protective resistance and the protection capacitances in series is in parallel with described switching tube.

Compared with prior art, the utlity model has following advantage:

1. adopt high voltage direct current driving switch pipe, switching tube adopts full-bridge mode.Bridge circuit both sides switching tube conducting respectively is loaded into transducer the two poles of the earth, forms the positive-negative half-cycle signal of transmitted wave, promptly complete measurement emission sound wave.By the selection of driving circuit and switching tube, in the radiating circuit of having realized, be 380V through actual measurement unidirectional emission voltage, when the transducer load was 15 ohm, circuit can long-term, steady operation, and promptly emissive power can reach more than the 9000W.And because radiating circuit, does not exist electricity-magnetic, magnetic-electricity conversion for directly being loaded into the transducer two ends in the circuit, transmitted waveform is distortion not, is drive waveforms substantially;

2. the capacitor C 7 in the launching circuit driver module, C8 need the certain capacity requirement as the energy-storage travelling wave tube of driving circuit, and because circuit characteristic needs good mapping, require lower ESR value, in the design, select for use two electric capacity parallel connection: C7 to select the ceramic condenser of low ESR for use, C8 selects the bigger electrochemical capacitor of capacity for use, both reduce cost, dwindled volume, realized the requirement of capacity and low ESR simultaneously.

3. the resistance R 14 in the launching circuit driver module, R15, R18, R19 have participated in the startup of switching tube and have closed as starting, close resistance.Because loop of power circuit adopts full-bridge mode, for serviceability needs switching tube to open than jogging speed, to form slow transmitted wave rising edge; But again for circuit safety before down pipe is opened, need to close rapidly bridge circuit the same side on pipe.The startup shut-in time is depended on the RC constant of circuit, and C adopts general circuit form to address the above problem by the decision of switching tube characteristic.Taked the combinational circuit of resistance and diode among the design, V6, V8 are owing to starting current direction reason is in cut-off state when starting, R14, R15, R18, R19 have participated in the startup of switching tube as starting resistance, starting resistance R is bigger, switching tube is to open than jogging speed, and the change of circuit Tipping Center overshooting is suppressed; When the off switch pipe, with the reverse cut-off current of starting current through V6, V8 short circuit R15, R18, it is less to close resistance break, switching tube is closed rapidly, has protected circuit.The design has reached simultaneously and has delayed the function of opening and quickening to turn-off.

4. present design uses high voltage direct current as the emission power supply, and the introducing of high-tension electricity requires to increase the every safeguard measure to circuit.Preventing that high pressure from damaging aspect the driving circuit and since on radiating circuit work loop during the pipe conducting voltage of GH end add the summation of the driving voltage of switching tube for the dc high voltage of emission usefulness; The voltage of VsH end is the dc high voltage of emission usefulness, and these voltages are directly connected on the chip for driving by starting resistance.Because transducer is the complex load that contains induction reactance, capacitive reactance, and the electric current that flows through transducer when adopting high-power emission sound wave is very big, when transmitted wave transfers negative half period to by positive half cycle, because the effect of inductance, electric capacity in the transducer, in circuit, can appear as 2 times of due to voltage spikes to emission voltage, be easy to surpass the chip for driving rated voltage, puncture chip.V7, R17 are pressure-sensitive diode and voltage dependent resistor (VDR) in parallel in driving circuit: the V7 reaction is very fast but load current is less, for subduing due to voltage spikes (transient state) fast; The R17 reaction is slow but load current is big, but stable state is subdued too high voltages; These measures can effectively prevent high pressure infringement chip for driving.Switching tube is as the power component in the circuit, and is also very important to its protection.The switching tube on-line operation is in the high pressure master loop of power circuit of sounder emission, because the existence of inductance, electric capacity in the transducer when the emission wave line of propagation changes moment, peak voltage can occur in the circuit, may surpass switching tube withstand voltage breakdown switch pipe.This programme designed at the two ends of each switching tube one group by voltage dependent resistor (VDR), protective resistance, protection electric capacity form to holding circuit.Voltage dependent resistor (VDR) rises subdues the peak voltage function, and the RC loop that protective resistance, protection electric capacity are formed can effectively absorb peak voltage.Because loop of power circuit is taked full-bridge mode, upper and lower two switching tubes of the same side brachium pontis are all conductings simultaneously at any time, otherwise will produce catastrophic effect.This phenomenon can not occur though the conducting of switching tube is controlled in logic by driving circuit, when loop of power circuit is big by electric current,, may brings out existing induced voltage spike at switching tube G, thereby occur misleading because the electric current between lead interacts.In order to prevent this situation, the design puts suitable magnet ring on switching tube G end pin.Because the induced voltage spike is the spike pulse form, starting impulse contains certain width, because the galvanomagnetic effect of magnet ring can effectively suppress spike pulse behind the cover upper magnetic ring and disturb, does not also influence operate as normal simultaneously.At the circuit side connector face, the twisted-pair feeder mode is adopted in being electrically connected of driving circuit and switching tube, can effectively suppress the common mode interference on switching tube driving (G) the end lead.

5. sampling resistor is installed on power supply ground end in traditional approach design, and control circuit directly reads voltage analog on the sampling resistor by bleeder circuit, then this voltage is carried out Integral Processing, cut-out circuit when the magnitude of voltage behind the integration reaches the warning value.Although but the sampling resistor value is very little when using high-power emission, the electric current that flows through this resistance is very big, will raise the voltage of switching tube (pipe down) E end.The driving voltage of (pipe down) is reference point with ground because switching tube, will cause the insufficient appearance heating of switching tube (pipe down) conducting, even might make switching tube work in magnifying state to cause switching tube to burn.The electric capacity of integrating circuit needs certain capacity, so that the warning pin in the energy Drive and Control Circuit.But the selection of big electric capacity will cause control circuit slow in reacting to the abnormal conditions that circuit occurs, and can not finely play a protective role.The protection sampling resistor is installed on power end among the design, and switching tube when high-power emission (pipe down) work is not influenced by sampling resistor.The sample circuit of holding circuit and testing circuit are by light-coupled isolation, and the alerting signal of holding circuit is output as digital signal, the abnormal conditions that make things convenient for the rapid treatment circuit of control circuit to occur.

Description of drawings

Fig. 1: the system construction drawing of the high-power acoustic emission apparatus of sounder of the present utility model;

Fig. 2: the circuit diagram of the transponder pulse frequency division module among Fig. 1;

Fig. 3: the circuit diagram of the launching circuit driver module among Fig. 1;

Fig. 4: the circuit diagram of the transmitted wave power major loop module among Fig. 1;

Fig. 5: the circuit diagram of the protection module among Fig. 1.

Symbol description

1 transponder pulse frequency division module

2 launching circuit driver modules

2A left side launching circuit driver module

The right launching circuit driver module of 2B

3 transmitted wave power major loop modules

4 protection modules

5 transducers

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing and example:

As shown in Figure 1, this sounder acoustic emission apparatus mainly comprises: transponder pulse frequency division module 1, launching circuit driver module 2, transmitted wave power major loop module 3 and transducer 5; Wherein, transponder pulse frequency division module 1 is connected to launching circuit driver module 2, and launching circuit driver module 2 and transducer 5 are connected respectively to transmitted wave power major loop module 3.

Transponder pulse frequency division module 1 is used to receive the transponder pulse signal that the sounder control circuit is sent here, and positive half cycle and the negative half period transmitted wave pulse signal that forms respectively behind its two divided-frequency sent in the launching circuit driver module 2.

Its detailed circuit diagram as shown in Figure 2,1 pin of transponder pulse frequency division module 1 by input terminal X1 receives the transponder pulse CLK that sends here from sounder main control circuit (for example DSP circuit), sends into frequency division chip N1 after the first high speed photo coupling V1 isolates; 2 pin by input terminal X1 receive the emission enable signal EN that sends here from the sounder main control circuit, after isolating, the second high speed photo coupling V2 sends into frequency division chip N1, frequency division chip N1 carries out two divided-frequency to the signal of sending into to be handled, and forms the positive half cycle signal of transmitted wave HCLK, negative half-cycle signal LCLK; Positive half cycle signal HCLK is by the 1 pin output of lead-out terminal X2, and negative half-cycle signal LCLK is loaded into the launching circuit driver module 2 of back level by the 2 pin output of lead-out terminal X2.

Simultaneously; when this sounder acoustic emission apparatus has protection module 4; transponder pulse frequency division module 1 is the effective ERR signal of high level by the digital alerting signal HERR(that input terminal reception protection module 4 is sent here also); when the high level of alerting signal, turn-off frequency division N1, to stop to export transponder pulse.

Launching circuit driver module 2 comprises left launching circuit driver module 2A and right launching circuit driver module 2B, and it is the identical driving circuits of two covers, is used to drive each switching tube of the full-bridge circuit of transmitted wave power major loop module 3.

Its detailed circuit diagram as shown in Figure 3, left and right launching circuit driver module receives the positive half cycle signal of transmitted wave HCLK, the negative half-cycle signal LCLK that transmits from transponder pulse frequency division module 1, exports the drive signal of the switching tube of transmitted wave power major loop module 3 again according to the difference in left and right loop.When wherein the HCLK signal was effective, pipe GH signal, right loop were managed the GL signal down and are driven effectively on the left loop; When the LCLK signal was effective, the driving of GH signal was managed effectively on pipe GL signal, the right loop down in left loop.

The anode connection power supply of diode V5 (+15V), negative terminal is connected to the end of shunt capacitance C7, C8, thus form boostrap circuit.Its course of work is: power supply is at first to charging to capacitor C 7 and C8 by diode V5, when the HCLK signal among Fig. 3 is effective, capacitor C 7, C8 play the voltage source effect and open chip for driving N2 internal circuit, make power supply be added to the GH end, and GH end output high level is with starting power contactor pipe; When the HCLK signal was low level, power supply charged to capacitor C 7, C8 by diode V5.

For assurance circuit operate as normal electric capacity needs the certain capacity requirement, and for switching tube can move rapidly, the pressure drop that need as far as possible reduce on the electric capacity just needs electric capacity that lower ESR value (equivalent series resistance resistance) is arranged; Simultaneously, capacitor C 7, C8 need the certain capacity requirement as the energy-storage travelling wave tube of chip for driving N2, and because circuit characteristic also needs good mapping.In order to satisfy above-mentioned requirements, the ceramic condenser of capacitor C 7 preferred low ESR, the electrochemical capacitor that the preferred capacity of C8 is bigger.

V7 is a pressure-sensitive diode in the circuit, and Bing Lian R17 is a voltage dependent resistor (VDR) with it, and the two is connected to the VsH end by resistance R 16, and circuit is shielded; Its principle of work is: when managing conducting on radiating circuit work loop, the voltage of GH end adds the summation of the driving voltage of switching tube for the dc high voltage of emission usefulness, the voltage of VsH end is the dc high voltage of emission usefulness, and these voltages are directly connected on the chip for driving N2 by several small resistors.Because the transducer 5 that is connected with transmitted wave power major loop module 3 is for containing the complex load of induction reactance, capacitive reactance, and the electric current that flows through transducer 5 when adopting high-power emission sound wave is very big, when transmitted wave transfers negative half period to by positive half cycle, because the effect of inductance, electric capacity in the transducer 5, in circuit, can appear as 2 times of due to voltage spikes to emission voltage, be easy to surpass the rated voltage of chip for driving 2, thus damage and even breakdown driven chip 2.V7, R17 are pressure-sensitive diode and voltage dependent resistor (VDR) in parallel in the circuit, and the V7 reaction is very fast but load current is less, for subduing due to voltage spikes (transient state) fast; The R17 reaction is slow but load current is big, but stable state is subdued too high voltages, thereby realizes the protection to circuit.

Because loop of power circuit adopts full-bridge mode, for serviceability needs switching tube to open than jogging speed, to form slow transmitted wave rising edge; But for circuit safety, before down pipe is opened, need again to close rapidly bridge circuit the same side on pipe.Resistance in series R14, R15 and be used for time of turn-on and turn-off of the last pipe of common gauge tap pipe with resistance R 15 diode connected in parallel V6, resistance in series R18, R19 and be used for being used for jointly time of turn-on and turn-off of the following pipe of gauge tap pipe with resistance R 19 diode connected in parallel V8, and resistance is big more, and action time is long more.Wherein, R14, R15(R18, R19) participated in the startup of switching tube as starting resistance; When switching tube is closed, with the reverse cut-off current of starting current through diode V6(V8) realized resistance R 15(R18) and short circuit, quicken the function of turn-offing thereby played.

Transmitted wave power major loop module 3 is loaded into high voltage direct current on the transducer 4 by the full-bridge circuit that four switching tubes form, and forms sounder emission sound wave.Its detailed circuit diagram as shown in Figure 3, high-voltage DC power supply (30V-380V) by diode V13 and parallel resistance R28, R29 to emission storage capacitor C11-C19 charging; In a moment, two launching circuit driver modules drive actuating switch pipe V14, V17, and off switch pipe V15, V16 form the loop, and high voltage direct current is loaded on the transducer 5, form the positive half cycle of transmitted wave; In next moment, two launching circuit driver modules drive actuating switch pipe V15, V16, and off switch pipe V14, V17 form the loop, and high voltage direct current is loaded into transducer 5 opposite sides, form the transmitted wave negative half period.

Owing to directly adopt high voltage direct current driving switch pipe, switching tube adopts full-bridge mode, bridge circuit both sides switching tube conducting respectively is loaded into transducer the two poles of the earth, form the positive-negative half-cycle signal (being complete measurement emission sound wave) of transmitted wave, thereby, in the radiating circuit of having realized, be 380V, when the transducer load is 15 ohm through actual measurement unidirectional emission voltage by the selection of driving circuit and switching tube, long-term, the steady operation of circuit energy, promptly emissive power can reach more than the 9000W.And because radiating circuit, does not exist electricity-magnetic, magnetic-electricity conversion for directly being loaded into the transducer two ends in the circuit, transmitted waveform is distortion not, is drive waveforms substantially.

The emission full-bridge circuit is connected to the power end of storage capacitor C11-C19 by protection sampling resistor R31.Protection sampling resistor R31 does not adopt the traditional approach design to hold on power supply ground.Owing to need to consider the common ground property of circuit in the traditional circuit, protection sampling resistor layout can only be held on power supply ground; Although the protection sampling resistor is very little; but when using high-power emission; the electric current that flows through this resistance is very big; to raise the voltage of switching tube (pipe down) E end; cause the insufficient appearance heating of switching tube (down pipe) conducting, even might make switching tube work in magnifying state to cause switching tube to burn.Owing to need not consider circuit altogether, the protection sampling resistor is installed on power end among the design, and switching tube when high-power emission (pipe down) work is not influenced by sampling resistor.

Diode V18, V19, V20, V21 are transmit-receive switch, and its concrete annexation as shown in Figure 4.

Voltage dependent resistor (VDR) R32, protective resistance R33, protection capacitor C 21 have formed the holding circuit to switching tube V14, and wherein, voltage dependent resistor (VDR) R32 is in parallel with switching tube V14, and the combination after protective resistance R33 and 21 series connection of protection capacitor C is in parallel with switching tube V14; Its principle of work is: switching tube V14 on-line operation is in the high pressure master loop of power circuit of sounder emission, because the existence of inductance, electric capacity in the transducer 5, when the emission wave line of propagation changes moment, peak voltage can occur in the circuit, may surpass the withstand voltage of switching tube V14 and damage and even the breakdown switch pipe.Voltage dependent resistor (VDR) R32 rises and subdues the peak voltage function, and the RC loop that protective resistance R33, protection capacitor C 21 are formed can effectively absorb peak voltage.

In like manner, voltage dependent resistor (VDR) R34, protective resistance R35, protection capacitor C 22 have formed the holding circuit to switching tube V15; Voltage dependent resistor (VDR) R37, protective resistance R36, protection capacitor C 23 have formed the holding circuit to switching tube V16; Voltage dependent resistor (VDR) R39, protective resistance R38, protection capacitor C 24 have formed the holding circuit to switching tube V17; The circuit connecting mode of each group is also similar with the holding circuit of V14.

This sounder acoustic emission apparatus can also comprise protection module 4; the one end is connected with transmitted wave power major loop module 3; the other end is connected with transponder pulse frequency division module 1; be used to gather the signal of power major loop module 3; the output control signal is closed whole emissions comprise transponder pulse frequency division module 1 with protection radiating circuit when abnormal conditions such as short circuit occurring when circuit.

Its detailed circuit diagram as shown in Figure 4, protection module 4 is by shown in the sampling resistor R31(Fig. 3 in the transmitted wave power major loop module 3) detect the working current of major loop, need to select the current parameters of reporting to the police by divider resistance R40, R41 dividing potential drop.When abnormal conditions appear in radiating circuit, the component of voltage of voltage on optocoupler V22 that causes sampling resistor to be exported reaches and is enough to conducting optocoupler V22, then optocoupler V22 conducting is after the effective alerting signal ERR of amplifier chip N4 output high level, and delivers to transponder pulse frequency division module 1 to close the emission of sounder.

With way of example the utility model is illustrated above, but the utility model is not limited to above-mentioned specific embodiment, all any change or modification of doing based on the utility model all belong to the claimed scope of the utility model.

Claims (10)

1. the high-power acoustic emission apparatus of sounder is characterized in that comprising: transponder pulse frequency division module (1), launching circuit driver module (2), transmitted wave power major loop module (3) and transducer (5); Wherein, described transponder pulse frequency division module (1) is connected to launching circuit driver module (2), and described launching circuit driver module (2) and transducer (5) are connected respectively to described transmitted wave power major loop module (3).

2. the high-power acoustic emission apparatus of sounder according to claim 1; it is characterized in that; also comprise protection module (4); the one end is connected with described transmitted wave power major loop module (3); the other end is connected with described transponder pulse frequency division module (1); it gathers the signal of described power major loop module (3), and the output control signal is closed whole emissions comprise described transponder pulse frequency division module (1) with protection radiating circuit when abnormal conditions appear in circuit.

3. the high-power acoustic emission apparatus of sounder according to claim 1, it is characterized in that, described transponder pulse frequency division module (1) receives the transponder pulse signal that the sounder control circuit is sent here, and positive half cycle, the negative half period transmitted wave pulse signal that forms respectively behind its two divided-frequency sent in the described launching circuit driver module (2).

4. the high-power acoustic emission apparatus of sounder according to claim 1, it is characterized in that, described launching circuit driver module (2) comprises left launching circuit driver module (2A) and right launching circuit driver module (2B), the circuit of two modules is identical, is used to drive the different switching tubes of the full-bridge circuit of described transmitted wave power major loop module (3).

5. the high-power acoustic emission apparatus of sounder according to claim 1, it is characterized in that, described launching circuit driver module (2) comprises boostrap circuit, its by diode (V5) anode connect power supply (+15V), negative terminal is connected to an end of shunt capacitance (C7, C8) and forms, both comprise the lower electric capacity of equivalent series resistance resistance (C7) in the described shunt capacitance, comprised the bigger electrochemical capacitor of capacity (C8) again.

6. the high-power acoustic emission apparatus of sounder according to claim 1; it is characterized in that; comprise chip for driving (N2) in the described launching circuit driver module (2); and the pressure-sensitive diode (V7) and the voltage dependent resistor (VDR) (R17) that are used to protect described chip for driving (N2), described pressure-sensitive diode (V7) is connected in parallel with voltage dependent resistor (VDR) (R17).

7. the high-power acoustic emission apparatus of sounder according to claim 1, it is characterized in that, have in the described launching circuit driver module (2) resistance in series (R14, R15) and with one of them resistance (R15) diode connected in parallel (V6), be used for turn-on and turn-off time of common gauge tap pipe.

8. the high-power acoustic emission apparatus of sounder according to claim 1, it is characterized in that, described transmitted wave power major loop module (3) has the full-bridge circuit that four switching tubes form, and is used for high voltage direct current is loaded into described transducer (4), forms sounder emission sound wave.

9. the high-power acoustic emission apparatus of sounder according to claim 1; it is characterized in that; have storage capacitor (C11-C19) and protection sampling resistor (R31) in the described transmitted wave power major loop module (3), described protection sampling resistor (R31) is connected to the power end of described storage capacitor (C11-C19).

10. the high-power acoustic emission apparatus of sounder according to claim 1; it is characterized in that; has switching tube (V14-V17) in the described transmitted wave power major loop module (3); and the switching tube holding circuit that forms by voltage dependent resistor (VDR) (R32), protective resistance (R33), protection electric capacity (C21); wherein; described voltage dependent resistor (VDR) (R32) is in parallel with described switching tube (V14), and the combination after described protective resistance (R33) and protection electric capacity (C21) series connection is in parallel with described switching tube (V14).

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