CN104767291A - Wireless charging system based on ultrasonic waves - Google Patents

Abstract

The invention provides a wireless charging system based on ultrasonic waves. The wireless charging system at least comprises an external ultrasonic wave launching device, an implant ultrasonic wave receiving transduction piece, an adaptive circuit module and a rechargeable battery module, wherein the ultrasonic wave launching device launches impulse type focus ultrasonic waves, the ultrasonic waves are converted into electric energy through the transduction piece, and the electric energy is rectified by the adaptive circuit module and is charged into the rechargeable battery module. The ultrasonic waves serve as a carrier of energy and can penetrate through a human body in a noninvasive mode, implantable medical equipment inside the human body can be charged, after a battery runs out, the process of replacing the battery or a system through a reoperation is avoided, the risk of the reoperation and the pain of a patient are relieved, and the economical load of the patient is relieved; the charging efficiency is higher.

Description

Based on hyperacoustic wireless charging system

Technical field

The present invention relates to medical instruments field, mainly refer to and utilize ultrasonic wave to realize the active medical equipment in implant into body to charge, more specifically, particularly relate to a kind of based on hyperacoustic wireless charging system.

Background technology

Active implantable medical device refers to by shell or internal medicine means, part or all of implant into body, or get involved nature accent by medical procedure and intend the implantable medical devices that stays in the body, rely on electric energy or other energy to help the function of patient's realization or recovery system or organ, existing active implanting device mainly comprises Implanted cardiac pacemaker, implanting type artificial cochlea, embedded nerve stimulator, the dynamo-electric cardiocirculatory of implanted etc.This kind of implantable medical devices price is general costly, but the life-span is mostly shorter, causes the shorter main cause of this kind of instrument life to be that it carries the capacity problem of battery.

For extending the useful life of implantable device, the energy consumption of existing mode mainly on the one hand alap reduction implantable device, change the battery that energy density is larger and capacity is larger on the other hand, which increase the volume and weight of embedded system, as the battery weight of existing typically traditional cardiac pacemaker implanted and volume just account for the over half of whole system, even if having employed up-to-date lithium battery, its life-span generally also can only maintain 5-8, battery energy storage is once exhaust, need replacing battery of again performing the operation, even change whole system, increase the misery of patient, too increase the economic pressures of patient simultaneously.As can be seen here, the electric energy problem of active implantable medical devices has become a bottleneck of its development of restriction.

The wireless charging technology of active implantable medical devices, can be transported in body by external by electric energy, the charging of complete battery pair wirelessly, is the effective way overcome the above problems.This technology can not injured skin, can avoid postoperative infection, reduces the misery of patient, greatly reduces the treatment cost of patient, have application prospect extensively in medical industry.Existing wireless energy transfer mode just under study for action mainly contains electromagnetic induction, and this mode also exists that directivity is bad, penetrability is poor in body, receiving coil volume is bigger than normal and the shortcoming such as electromagnetic radiation, governs the development of this technology.

In view of existing implanted active medical equipment there will be the situation of power depletion after certain time limit that implants, thus, need replacing or the supply of carrying out power supply again.Generally take two kinds of ways in prior art, first carries out the replacing of power supply by the mode of operation, and the method brings huge physiological pain to patient, and surgery cost also costly; Second carries out power supply supply by external equipment to the equipment in body exactly, wherein comprise again intrusive mood and non-intrusion type, intrusive mood that is to say in meeting intrusive body, similar with the mode by performing the operation, what but the wound mode of relatively performing the operation was come is less, and non-intrusion type is exactly the supply being carried out power supply by the mode of similar electromagnetic induction or other similar Energy Transfers.But, existing electromagnetic induction wireless energy transfer mode also exists that directivity is bad, penetrability is poor in body, receiving coil volume is bigger than normal and the shortcoming such as electromagnetic radiation, governs the development of this technology.

In addition, also have the equipment by non-intrusion types such as ultrasonic waves, active medical equipment being carried out to power supply supply in prior art, but in use find that the existing power supply replenishment device that these relate to non-intrusion type still exists some defects:

First, be positioned at the comparatively complicated for the accepting device receiving external energy output signal of body, exist except active medical equipment other energy consumption equipments unexpected, thus the consumption added for powering device in body, the temporal frequency causing user to carry out the supply of function device power supply like this becomes large, the charging carrying out function device also can reduce the performance of active medical equipment itself too frequent, allows the unexpected risk probability of the appearance of user increase virtually.

Secondly, owing to also having additional other parts irrelevant with the direct supply of power supply except active medical equipment, power supply function in vivo, make the volume of implanting device or shape become large, and then add the difficulty of active medical equipment implantation.

In addition, the power supply replenishment device of existing non-intrusion type is when charging, be full of once the consuming time more of a specified duration of electricity, and the energy conversion efficiency of the energy conversion elements being positioned at body is not high yet, and because the charging interval is long in charging process, the interior heat that ultrasonic wave produces often makes the skin damage at charging position, occurs the phenomenons such as red and swollen.

In a word, based on defect existing in prior art, the present invention proposes a kind of based on hyperacoustic wireless charging system, in order to charge to the battery/power source parts in the active medical training equipment implanted.

Summary of the invention

The shortcoming of prior art in view of the above, the object of the present invention is to provide a kind of based on hyperacoustic wireless charging system, for solving in prior art the problem of charged to the active medical equipment in implant into body by the mode of operation be with skin injury, postoperative infection and physical distress, with provide a kind of safer, effectively, more permanent, free of contamination power supply technique.

For achieving the above object and other relevant objects, the invention provides following technical scheme:

A kind of based on hyperacoustic wireless charging system, at least comprise: for being placed in external ultrasonic transmission device, for exporting low intensive concentration ultrasonic with making pulsed, and the duty ratio of described concentration ultrasonic is not more than 10; For the cylindrical transduction piece implanted, for receiving described concentration ultrasonic and converting thereof into the piezoelectric signal with electrical potential difference, and exported; For implant and be connected to the adapter circuit module of described transduction piece, for receiving described piezoelectric signal and converting thereof into the DC signal being suitable for charging, and exported; For implant and be connected to the battery module of described adapter circuit module, for receiving described DC signal to carry out charging battery module.

As the above-mentioned preferred version based on hyperacoustic wireless charging system, described cylindrical transduction piece is 1-3 type piezo-electricity composite material.

As the above-mentioned preferred version based on hyperacoustic wireless charging system, the diameter of described cylindrical transduction piece is the wavelength of 2-5 described concentration ultrasonic.

As the further optimization of above-mentioned preferred version, the described cylindrical transduction piece changed for 1-3 type piezo-electricity composite material is made up of piezoelectric ceramic square column, polymer and upper/lower electrode, described piezoelectric ceramic square column and polymer are arranged between described upper/lower electrode, described piezoelectric ceramic square column arrangement in the polymer, and described piezoelectric ceramic square column accounts for the 40%-80% of whole described cylindrical transduction piece volume, the height of described piezoelectric ceramic square column is at least greater than 3 with the ratio of the square length of side.

As the further optimization of above-mentioned preferred version, described adapter circuit module and battery module are pure resistance characteristic, and described ultrasonic transmission device launches hyperacoustic frequency between the positive resonance frequency and anti-resonance frequency of described cylindrical transduction piece.

As the further optimization of above-mentioned preferred version, the impedance of described adapter circuit module and battery module equals the impedance of described cylindrical transduction piece on positive resonance point, and described ultrasonic transmission device launches the positive resonance frequency that hyperacoustic frequency is described cylindrical transduction piece.

To sum up, the present invention at least has following beneficial effect: (1) the present invention adopts ultrasonic wave as the carrier of energy, human body can be penetrated in noninvasive mode, implantable medical devices in body is charged, avoid battery power consumption and change the process of battery or system by again performing the operation afterwards, alleviate the risk of again performing the operation and the misery of patient, and alleviate the financial burden of patient.(2) the present invention adopts pulsed low intensity focus supersonic transmitting energy, ensure that the fail safe of ultrasonic wave in transmitting procedure, validity and delivery location accuracy.(3) the present invention adopts 1-3 type piezo-electricity composite material as reception transduction piece, ensure that the ultrasonic wave to being transported in body absorbs efficiently; (4) the present invention also to be transmitted and the efficiency of transfer process has carried out optimizing further ultrasonic wave, makes time of charging shorter, more efficient, and lower for the side effect of human body.

Accompanying drawing explanation

Fig. 1 is shown as a kind of principle schematic based on hyperacoustic wireless charging system of the present invention.

The transduction piece schematic diagram that the 1-3 type piezo-electricity composite material that Fig. 2 is shown as a kind of cylindrical structural realizes.

Fig. 3 is shown as the impedance contrast curve of 1-3 type piezo-electricity composite material transduction piece and PZT-5 piezoelectric transduction piece when resonance frequency is 0.8MHz.

Fig. 4 is shown as output voltage when transduction piece connecing different pure resistance load and driving frequency curve.

Fig. 5 is shown as the power stage design sketch when impedance and transduction piece load impedance identical of transduction piece.

Drawing reference numeral explanation

10 ultrasonic transmission devices

20 transduction pieces

21a, 21b electrode

22 piezoelectric ceramic square columns

23 polymer

30 adapter circuit modules

40 battery modules

Embodiment

Below by way of specific instantiation, embodiments of the present invention are described, those skilled in the art the content disclosed by this specification can understand other advantages of the present invention and effect easily.The present invention can also be implemented or be applied by embodiments different in addition, and the every details in this specification also can based on different viewpoints and application, carries out various modification or change not deviating under spirit of the present invention.It should be noted that, when not conflicting, the feature in following examples and embodiment can combine mutually.

It should be noted that, the diagram provided in following examples only illustrates basic conception of the present invention in a schematic way, then only the assembly relevant with the present invention is shown in graphic but not component count, shape and size when implementing according to reality is drawn, it is actual when implementing, and the kenel of each assembly, quantity and ratio can be a kind of change arbitrarily, and its assembly layout kenel also may be more complicated.

In order to enable those skilled in the art understand technical scheme in the present invention better, here the technology that will relate to below is made an explanation explanation.

1-3 type piezo-electricity composite material: be arranged in parallel the two-phase piezo-electricity composite material with piezoelectric effect formed in the polymer of three-dimensional communication by the piezoelectric ceramic post of one dimension.Simply, 1-3 type piezo-electricity composite material is a kind of piezo-electricity composite material.

In view of existing implanted active medical equipment there will be the situation of power depletion after certain time limit that implants, thus, need replacing or the supply of carrying out power supply again.Generally take two kinds of ways in prior art, first carries out the replacing of power supply by the mode of operation, and the method brings huge physiological pain to patient, and surgery cost also costly; Second carries out power supply supply by external equipment to the equipment in body exactly, wherein comprise again intrusive mood and non-intrusion type, intrusive mood that is to say in meeting intrusive body, similar with the mode by performing the operation, what but the wound mode of relatively performing the operation was come is less, and non-intrusion type is exactly the supply being carried out power supply by the mode of similar electromagnetic induction or other similar Energy Transfers.

Although, also there is the equipment relating to and by non-intrusion type, active medical equipment is carried out to power supply supply in prior art, but in use find that the existing power supply replenishment device relating to non-intrusion type still exists some defects:

First, be positioned at the comparatively complicated for the accepting device receiving external energy output signal of body, exist except active medical equipment other energy consumption equipments unexpected, thus the consumption added for powering device in body, the temporal frequency causing user to carry out the supply of function device power supply like this becomes large, the charging carrying out function device also can reduce the performance of active medical equipment itself too frequent, allows the unexpected risk probability of the appearance of user increase virtually.

Secondly, owing to also having additional other parts irrelevant with the direct supply of power supply except active medical equipment, power supply function in vivo, make the volume of implanting device or shape become large, and then add the difficulty of active medical equipment implantation.

And, the power supply replenishment device of existing non-intrusion type is when charging, be full of once the consuming time more of a specified duration of electricity, and the energy conversion efficiency of the energy conversion elements being positioned at body is not high yet, and because the charging interval is long in charging process, the interior heat that ultrasonic wave produces often makes the skin damage at charging position, occurs the phenomenons such as red and swollen.

In addition, along with deepening continuously of the research to 1-3 type piezo-electricity composite material, existing 1-3 type piezo-electricity composite material technology is comparatively ripe, and is little by little applied in various electronic equipment.1-3 type piezo-electricity composite material is the piezoelectric effect that it has as the principle of sensor sensing element, 1-3 type piezo-electricity composite material is arranged in parallel in the polymer of three-dimensional communication by the piezoelectric ceramic post of one dimension, and the two-phase piezo-electricity composite material that the polarised direction of composite material is formed perpendicular to electrode surface.In the 1-3 type piezo-electricity composite material utilizing piezo-electric traverse effect, the polarised direction of each piezoelectric ceramic unit is parallel with applied direction of an electric field, namely along the thickness direction of 1-3 type piezo-electricity composite material; And if utilize the situation of longitudinal piezoelectric effect just the opposite.In high accuracy field, the 1-3 type piezo-electricity composite material of difformity and size, its performance also will have huge difference, different application environment its not identical to the demand of 1-3 type piezo-electricity composite material performance yet, need to study as the case may be.

In a word, based on defect existing in prior art, the present invention proposes a kind of based on hyperacoustic wireless charging system, in order to charge to the battery/power source parts in the active medical training equipment implanted.

Particularly, please refer to Fig. 1, show a kind of principle schematic based on hyperacoustic wireless charging system of the present invention, provided by the inventionly at least comprise ultrasonic transmission device 10, the transduction piece 20 Gong implanting, adapter circuit module 30 and battery module 40 based on hyperacoustic wireless charging system, wherein, described ultrasonic transmission device 10 for exporting a low intensive concentration ultrasonic with making pulsed, and the duty ratio of described concentration ultrasonic is not more than 10%; Transduction piece 20, for receiving described low intensive concentration ultrasonic and converting thereof into the piezoelectric signal with electrical potential difference, and is exported; Adapter circuit module 30, is connected to described transduction piece 20, for receiving described piezoelectric signal and converting thereof into the DC signal being suitable for charging; Battery module 40, connects described adapter circuit module 30, carries out battery module 40 charge for receiving described DC signal.

Particularly, above-mentioned based in hyperacoustic wireless charging system, the ultrasonic signal exported be pulsed export, this is because certain thermal effect can be produced when ultrasonic signal transmits in human body, if the ultrasonic signal exported is continuous shape, so can be rapidly formed accumulated heat in vivo, thus cause fire damage; In contrast, hyperacoustic duty ratio of this pulsed should be set to less than 10%, similarly, when duty ratio is less than 10%, when ultrasonic signal enters in body, remain mechanical effect to be dominant, thus caused thermal effect is low, ensure that ultrasonic wave transmits efficiently in vivo in the mode of mechanical energy and is transported to efficiently by vibrational energy on the transduction piece 20 of receiving terminal.Thus ensure that ultrasonic wave in vivo in transmitting procedure thermal losses little, ultrasonic wave does not produce fire damage in transmitting procedure, can not cause the damage being difficult to recover, ensure that fail safe during charging to the skin of human body.In addition, described ultrasonic signal be low intensive (should be appreciated that ultrasonic wave have low-intensity and high strength point, this kind of point-score is the classification of a kind of industry technology), this is because the ultrasonic wave of high strength can damage in-vivo tissue.

Need to further illustrate, existing non-intrusion type charging device easily causes interior heat when charging, thus injured cutaneous tissue.And cause the reason of heat accumulation in body to mainly contain: the first, (there is relevant criterion in country to hyperacoustic intensity, and intensity is directly proportional to generation heat energy, and intensity is high, easily causes fire damage; Intensity is low, safer, and the present invention adopts low intensity ultrasound, is also to consider based on this); The second, the ultrasonic wave duration, the Ultrasonic Radiation time is longer, and heat energy accumulation is more; 3rd, ultrasonic absorption coefficient of biological tissue (this and frequency dependence, frequency is higher, and absorption coefficient is larger, more easily causes fire damage) etc.

Again specifically, the ultrasonic signal exported is that the mode focused on is exported, this is relevant with the transduction piece 20 be arranged in body, usually, the size of the transduction piece 20 Gong implanting very little, in order to enable ultrasonic signal be absorbed rapidly, concentration ultrasonic is so adopted to be a kind of preferred scheme.And focusing is realized by transmitting terminal, mechanical type or phase control type focused transducer such as can be adopted as ultrasonic transmission device 10, and realize hyperacoustic focusing by described mechanical type or phase control type focused transducer.In addition, the focus size of focusing and focal length are that transmitting transducer determines, and carry out arranging acquisition according to known parameters by mechanical type or phase control type focused transducer.Adopt concentration ultrasonic that the focus of launched concentration ultrasonic can be made to drop on transduction piece 20, thus reach all good transfer ratio, if described transduction piece 20 is not drop in the focus of concentration ultrasonic, so its acoustic pressure will be very low, generation current is also very little, cannot reach the requirement of charging.

By above-mentioned based on hyperacoustic wireless charging system, output ultrasonic wave signal is carried out by low intensive concentration ultrasonic, and piezoelectric signal is directly changed into after the reception of transduction piece 20, here obtained piezoelectric signal is the ac signal with certain pressure reduction, then utilize adapter circuit module 30 to convert this interchange piezoelectric signal to DC signal, be finally used for as battery module 40 charges.Whole charging process fast, directly, and for the transduction piece 20 that implants and adaptation module volume structure all less, can implant together with active medical equipment very easily.

Further, in order to implement technical scheme provided by the present invention better, described transduction piece 20 preferably can adopt the 1-3 type piezo-electricity composite material of cylindrical structural, and the diameter of transduction piece 20 is received hyperacoustic wavelength length by 2-5.

In detail, see Fig. 2, show transduction piece 20 structural representation for cylindrical structural that a kind of 1-3 of employing type piezo-electricity composite material obtains, as shown in the figure, 1-3 type piezo-electricity composite material transduction piece 20, by piezoelectric ceramic square column 22, polymer 23 and upper/lower electrode (21a, 21b) form, wherein, piezoelectric ceramic square column 22 is arranged in polymer 23, the height of piezoelectric ceramic square column 22 and the ratio of the square length of side are greater than 3, and piezoelectric ceramic square column 22 (i.e. ceramic composition) accounts between the 40%-80% of total whole transduction piece 20 volume, the reason why arranged like this is, if adopt the structure that the ratio of height and the square length of side is greater than 3, the transduction piece 20 that piezoelectric ceramic square column can be made to form excites simple thickness vibration, inhibit transverse vibration, ultrasonic longitudinal wave can be absorbed efficiently, hyperacoustic mechanical energy is converted to electric energy, if the ratio of square column dimensional height and the square length of side is less than 3, this transduction piece 20 receive ultrasonic longitudinal wave time, except excited thickness vibration except, also can excite stronger transverse vibration, have lost part energy, greatly reduce the efficiency that ultrasonic wave converts electric energy to.It should be noted that 1-3 type piezo-electricity composite material refers to the class-1 piezoelectric material with said structure, wherein, piezoelectric ceramic square column 22 can select various concrete piezoelectric, such as PZT-5 piezoelectric.

In further detail, between the 40%-80% being preferably set to piezoelectric ceramic square column 22 (ceramic composition) to account for cumulative volume, this is based on following consideration, if ceramic composition accounts for more than 80% of cumulative volume, interval between square column can be very little, not easily processes when making; If ceramic composition accounts for less than 40% of cumulative volume, because the piezoelectric ceramic square column in 1-3 type piezo-electricity composite material transduction piece 20 is funtion part ultrasonic wave being converted to electric energy, the volume that piezoelectric ceramic square column accounts for is too small, can reduce transduction piece 20 to hyperacoustic absorption and conversion.

In addition, for in piezoceramic material (the i.e. piezoelectric ceramic square column 22) selection of 1-3 type piezo-electricity composite material transduction piece 20, through experimental analysis, the power output on 1-3 type piezo-electricity composite material transduction piece 20 can calculate with following formula (1).

$\mathrm{Power}=\frac{1}{2}{\left(\frac{P{e}_{33}}{{\mathrm{\ϵ}}_{33}{\stackrel{\‾}{c}}_{33}\mathrm{\ξ}\cot \mathrm{\ξh}}\right)}^2\frac{Z_L}{{(Z_C+Z_L)}^2}......\left(1\right)$

Wherein, P is the hyperacoustic driving pressure on transduction piece 20, e ₃₃for effective piezoelectric constant of transduction piece 20, for the effective elastic constant of transduction piece 20, ε ₃₃for the effective dielectric constant of transduction piece 20, h is the thickness of prisoner's energy sheet, and ξ is wave number, Z _lfor load resistance resists, Z _cfor the electrical impedance of transduction piece 20, as can be seen from formula, power output is directly proportional to effective piezoelectric constant of transduction piece 20 and the quadratic power of driving pressure, be inversely proportional to the quadratic power of effective elastic constant and effective dielectric constant, therefore, piezoelectricity is better, and power output is larger; Material softer (elastic constant is little), power output is larger.Consider, the piezoelectric ceramic square column 22 in the 1-3 type piezo-electricity composite material that PZT-5 or PMN-PT (lead magnesio-niobate crystal) can be adopted to make, thus the power that 1-3 type piezo-electricity composite material is exported is comparatively large, to improve charge efficiency.

Again specifically, the shape of described transduction piece 20 is set to cylindrical structural, be because cylindrical structural have round and smooth, without features such as sharp comer, transduction piece 20 is implanted understand comparatively safe; In addition, consider that the focal regions focal plane of concentration ultrasonic is for circular, and about main peak size is approximately 2 wavelength, described concentration ultrasonic can be received better to make transduction piece 20, so its minimum dimension should cover the focal plane of focus supersonic, thus the diameter minimum value of transduction piece 20 to get 2 wavelength just comparatively suitable; Also consider the volume microminiaturization problem implanting transduction piece 20 simultaneously, the diameter of transduction piece 20 is also unsuitable long, generally transduction piece 20 largest diameter value is got 5 wavelength for all good (if volume is excessive, then be unfavorable for implanting), so transduction piece 20 diameter of described cylindrical structural is arranged in 2-5 wavelength as all good.

More specifically, generally by described implant be set to 0.3M-3MHz for all good for 1-3 type piezo-electricity composite material transduction piece 20 operating frequency, through Experimental comparison, as Fig. 3, show the impedance contrast curve of 1-3 type piezo-electricity composite material transduction piece 20 and PZT-5 piezoelectric transduction piece 20 under resonance frequency is 0.8MHz, as can be seen from Figure 3, 1-3 type piezo-electricity composite material thickness vibration response curve is single, without clutter, response curve is obviously better than the curve of PZT-5 piezoelectric, then clutter is more for the curve that PZT-5 piezoelectric transduction piece 20 shows.It should be noted that, PZT-5 piezoelectric involved in Fig. 3 is single cylindrical that is made up of PZT-5, and it is not identical with 1-3 type piezo-electricity composite material transduction piece 20 structure.

It should be noted that the particularity considered for battery charging in body, it can not charge with to general electronic product or electric equipment, as long as wait of connecting with the mains is full of.Carry out the supplementing of electric energy except except considering to battery itself when charging to battery module 40, the physical effects of the efficiency also must considering charging and patient et al. Ke being had to battery module 40, and the charge efficiency of existing charging modes is lower.To provide in the present invention as realizing the higher several preferred implementations of charge efficiency below.

Preferably, described adapter circuit module 30 and charging module can be regarded as the load that transduction piece 20 connects, consider that rechargeable battery impedance operator is pure resistance characteristic, for the energy conversion efficiency of optimization system, when same transduction piece 20 connects different pure resistance load, the operating frequency of its optimum is also different, when this just means different pure resistance loads, launch hyperacoustic frequency and have impact to the output voltage that transduction piece 20 produces, incorporated by reference to Fig. 4, show output voltage when to connect different pure resistance load on transduction piece 20 and driving frequency curve, can find out, its rule is that the hyperacoustic frequency of transmitting should between the positive resonance frequency of transduction piece 20 and anti-resonance frequency, the voltage that load produces could be maximum, and pure resistance load is larger, launching hyperacoustic frequency should be higher.Given this reason, when described adapter circuit module 30 and charging module are all pure resistance characteristic, so generally ultrasonic transmission device 10 is launched hyperacoustic set of frequency between the positive resonance frequency and anti-resonance frequency of 1-3 type piezo-electricity composite material transduction piece 20 for all good.

Preferably, the load impedance that transduction piece 20 connects and institute launch the power output of hyperacoustic frequency on electric energy and have impact, and incorporated by reference to Fig. 5, analysis shows, at frequency 7-8*10 ⁵hz and 9-10*10 ⁵time between Hz, the power output of transduction piece 20 is the highest, and the condition that transduction piece 20 reaches optimum working efficiency is the impedance that connected load impedance equals transduction piece 20 itself, under these conditions, the energy conversion efficiency of hyperacoustic frequency on system also has impact simultaneously, when ultrasonic frequency equals the positive resonance frequency of transduction piece 20, the electric energy power output that transduction piece 20 produces is maximum, loading condition is now that load impedance (that is to say when described adapter circuit module 30 and charging module are all pure resistance characteristic) equals the impedance of transduction piece 20 on its positive resonance point.Therefore it is generally equal to the impedance of 1-3 type piezo-electricity composite material transduction piece 20 on its positive resonance point all good using being set to as the described adapter circuit module 30 of load and the impedance of battery module 40.

Generally speaking, in conjunction with above-mentioned optimal way, if hyperacoustic conversion efficiency will be promoted further, so need to improve from hyperacoustic conversion efficiency.Can know in above preferred embodiment, the critical piece relating to power conversion is ultrasonic transmission device 10 and transduction piece 20; In addition, although the resonance frequency of transduction piece 20 is fixing, if but on transduction piece 20, added different loads, so it produces some electric energy also by difference, and in different operating frequencies, the efficiency producing electric energy is also different, this needs by ultrasonic transmission device 10 and the setting of transduction piece 20 and the comparative analysis of scientific experiment, could the system of debugging reach the structure of optimum Working, thus also the absorption of ultrasonic high-efficiency can be converted into electric energy by guarantee transduction piece 20 under the optimal condition.

Also required explanation is, in above-mentioned various embodiment or preferred version, described adapter circuit module 30 is for being suitable for rectification circuit alternating current being changed into direct current, object the alternating current of generation is become direct current to be stored in battery module 40, natch, the rectification circuit that described rectification circuit can select this area general or rectification circuit integrated chip (such as AC/DC preferred circuit chip), and described battery module 40 can adopt chargeable lithium cell.

In sum, of the present inventionly at least to have the following advantages:

(1) the present invention adopts ultrasonic wave as the carrier of energy, human body can be penetrated in noninvasive mode, implantable medical devices in body is charged, avoid battery power consumption and change the process of battery or system by again performing the operation afterwards, alleviate the risk of again performing the operation and the misery of patient, and alleviate the financial burden of patient.

(2) the present invention adopts pulsed low intensity focus supersonic transmitting energy, ensure that the fail safe of ultrasonic wave in transmitting procedure, validity and delivery location accuracy.

(3) the present invention adopts 1-3 type piezo-electricity composite material as the hyperacoustic transduction piece 20 of reception, ensure that the ultrasonic wave to being transported in body absorbs efficiently.

(4) the present invention also to be transmitted and the efficiency of transfer process has carried out optimizing further ultrasonic wave, makes time of charging shorter, more efficient, and lower for the side effect of human body.

Above-described embodiment is illustrative principle of the present invention and effect thereof only, but not for limiting the present invention.Any person skilled in the art scholar all without prejudice under spirit of the present invention and category, can modify above-described embodiment or changes.Therefore, such as have in art usually know the knowledgeable do not depart from complete under disclosed spirit and technological thought all equivalence modify or change, must be contained by claim of the present invention.

Claims (10)

1. based on a hyperacoustic wireless charging system, it is characterized in that, at least comprise:

For being placed in external ultrasonic transmission device, for exporting low intensive concentration ultrasonic with making pulsed, and the duty ratio of described concentration ultrasonic is not more than 10%;

For the cylindrical transduction piece implanted, for receiving described concentration ultrasonic and converting thereof into the piezoelectric signal with electrical potential difference, and exported;

For implant and be connected to the adapter circuit module of described transduction piece, for receiving described piezoelectric signal and converting thereof into the DC signal being suitable for charging, and exported;

For implant and be connected to the battery module of described adapter circuit module, for receiving described DC signal to carry out charging battery module.

2. according to claim 1ly it is characterized in that based on hyperacoustic wireless charging system, described cylindrical transduction piece is 1-3 type piezo-electricity composite material.

3. according to claim 2 based on hyperacoustic wireless charging system, it is characterized in that, the described cylindrical transduction piece changed for 1-3 type piezo-electricity composite material is made up of piezoelectric ceramic square column, polymer and upper/lower electrode, described piezoelectric ceramic square column and polymer are arranged between described upper/lower electrode, described piezoelectric ceramic square column arrangement in the polymer, and described piezoelectric ceramic square column accounts for the 40%-80% of whole described cylindrical transduction piece volume, the height of described piezoelectric ceramic square column is at least greater than 3 with the ratio of the square length of side.

4. according to claim 2ly it is characterized in that based on hyperacoustic wireless charging system, described piezoelectric ceramic square column is that PZT-5 or PMN-PT piezoelectric is made.

5. according to claim 2 based on hyperacoustic wireless charging system, it is characterized in that, described adapter circuit module and battery module are pure resistance characteristic, and described ultrasonic transmission device launches hyperacoustic frequency between the positive resonance frequency and anti-resonance frequency of described cylindrical transduction piece.

6. according to claim 5 based on hyperacoustic wireless charging system, it is characterized in that, the impedance of described adapter circuit module and battery module equals the impedance of described cylindrical transduction piece on positive resonance point, and described ultrasonic transmission device launches the positive resonance frequency that hyperacoustic frequency is described cylindrical transduction piece.

7. according to claim 1ly it is characterized in that based on hyperacoustic wireless charging system, the diameter of described cylindrical transduction piece is the wavelength of 2-5 described concentration ultrasonic.

8. according to claim 1ly it is characterized in that based on hyperacoustic wireless charging system, described ultrasonic transmission device is mechanical focus transducer or phase control type focused transducer.

9. according to claim 1ly it is characterized in that based on hyperacoustic wireless charging system, described adapter circuit module is AC/DC preferred circuit.

10. according to claim 1ly it is characterized in that based on hyperacoustic wireless charging system, described battery module is the lithium battery being suitable for charging.