CN107332311A - A kind of et al. Ke Medical Devices wireless charging system - Google Patents

Abstract

The present invention relates to a kind of vivo implantation type Medical Devices wireless charging system, including charging end and receiving terminal；Charging end, including control device (11), signal generation device (12), frequency shift (FS) device (13), signal amplifying apparatus (14), state monitoring apparatus (16), antenna module (15) and feedback device and/or communication device；Receiving terminal, it is implanted into human body, the rechargeable battery being connected including receiving coil (21) and with receiving coil (21), receiving coil (21) can receive the electromagnetic wave of antenna module (15) and produce electric current to charge for rechargeable battery.This vivo implantation type Medical Devices wireless charging system, can quickly realize that the alignment of charging end charge coil and receiving coil is positioned, greatly improve charge efficiency.

Description

A kind of et al. Ke Medical Devices wireless charging system

Technical field

The present invention relates to a kind of et al. Ke Medical Devices wireless charging system, belong to technical field of medical instruments.

Background technology

Implantable medical devices wide variety, have wide range of applications, existing implantable medical product is more in the market It is powered using the lithium primary cell of high-energy-density, the life-span is mostly shorter.In recent years, with the development of medical technology, implantation It is more complicated that the function of formula medical product becomes, and power consumption is also increased as, and the life-span of conventional lithium primary cell can not expire The present application demand of foot, therefore, exploitation life-span longer chargeable implantable medical devices product have become following hair The main trend of exhibition.

Because implantable medical product needs to be chronically implanted in patient's body, it is necessary to using the preferable Titanium of biocompatibility Shell is sealed, and has the tissue such as skin to isolate between external charging device, it is therefore desirable to wirelessly to et al. Ke Formula Medical Devices carry out energy transmission.

The near radio charging technique of current main flow typically uses electromagnetic induction principle, and this charging method needs to send There is good magnetic coupling between receiving coil could effectively improve charge efficiency.But when Medical Devices implant Afterwards, patient is difficult that the Medical Devices implanted are accurately positioned, and is existed because inside and outside device is inaccurate or long-time The problem of contraposition causes the heating increase of vivo implantation type medicine equipment.

It is existing at present mainly to have than more conventional contraposition scheme for alignment issues：

In charging gap, the information exchange of internal external equipment is periodically carried out, by the energy for analyzing internal external equipment Efficiency of transmission judges whether contraposition accurate, and this scheme can find optimal charge position, but contraposition governing speed by In vivo, there is the slow-footed problem of governing response in outer device radio-communication period limitation.

The content of the invention

The technical problem to be solved in the present invention is：The technology of corresponding slow-footed problem during positioning to solve prior art Problem, so as to provide the vivo implantation type Medical Devices wireless charging system that a kind of locating speed is fast, charge efficiency is high.

The present invention is for the technical scheme that is used of its technical problem of solution：

The present invention provides a kind of vivo implantation type Medical Devices wireless charging system, including charging end and receiving terminal；

Charging end, including, control device, signal generation device, frequency shift (FS) device, signal amplifying apparatus, status monitoring Device, antenna module and feedback device and/or communication device；

Signal generation device, for send one group of opposite polarity, fixed skew square-wave signal；

Frequency shift (FS) device, for carrying out frequency shift (FS) to the square-wave signal for sending signal generation device, after skew Frequency is (70%-99%) f0 or (101%-130%) f0, whereinL is the inductance of charge coil, Unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is resonant frequency value, and unit is Hz；

Signal amplifying apparatus, for the square-wave signal after skew to be amplified；

Antenna module, including charge coil, matching capacitance and magnetic core, for receiving signal generation device is produced or warp Square-wave signal after signal amplifying apparatus amplification, and send electromagnetic wave, charge coil and matching capacitance formation LC concussions；

Condition checkout gear, transmission electric current or power for detecting signal amplifying apparatus；

Control device, the performance number or transmission current value of the signal amplifying apparatus that reception state detection means is detected, And according to performance number with obtaining charge coil and reception apart from-performance number curve or emission current-performance number curve conversion The distance between coil；

Feedback device, for reacting the distance between charge coil and receiving coil value to user；

Communication device, for the distance between charge coil and receiving coil value to be sent into smart machine, passes through intelligence Energy equipment reacts the distance between charge coil and receiving coil value to user；

In receiving terminal, implantation human body, including receiving coil and the rechargeable battery that is connected with receiving coil, receiving coil can Receive the electromagnetic wave of antenna module and produce electric current and charged for rechargeable battery.

Preferably, vivo implantation type Medical Devices wireless charging system of the invention, frequency shift (FS) device, to signal is produced The square-wave signal that generating apparatus is sent carries out frequency shift (FS), and the frequency after skew is f0.

Preferably, vivo implantation type Medical Devices wireless charging system of the invention, condition checkout gear is electric power detection Chip, the current value for detecting signal amplifying apparatus.

Preferably, vivo implantation type Medical Devices wireless charging system of the invention, the feedback device is display screen, is shown Display screen display control unit 11 converts obtained distance or the size for representing graphically out distance.

Preferably, vivo implantation type Medical Devices wireless charging system of the invention, the magnetic core includes middle centre Protuberance and the flange protrusions positioned at edge, are receiving charge coil holding tank between intermediate ledge and flange protrusions.

Preferably, vivo implantation type Medical Devices wireless charging system of the invention, the magnetic core is FERRITE CORE.

Preferably, vivo implantation type Medical Devices wireless charging system of the invention, the intermediate ledge and edge are convex Go out portion concordant in a thickness direction.

Preferably, vivo implantation type Medical Devices wireless charging system of the invention, the square-wave signal is by least two pairs There is fixed skew between opposite polarity single square wave composition, the single square wave of each pair.

The beneficial effects of the invention are as follows：

1. the vivo implantation type Medical Devices wireless charging system of the present invention, by launching different from reference frequency value f0's Square-wave signal, can measure distance-performance number curve that slope is not 0, so that can be by the power of signal amplifying apparatus Value conversion obtains distance and is achieved so as to carry out positioning.Moreover, only needing to measure the power of charging end in position fixing process, it is not required to To be communicated with et al. Ke equipment, therefore fast response time.

Little power consumption in position fixing process when 2. frequency floats, can be with power saving.Therefore, optimal selection is upper inclined 5%-10% ((105%-110%) f0).Within this range not only can the using electricity wisely in position fixing process, moreover it is possible to obtain more fixed Position result.

Brief description of the drawings

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing：

Fig. 1 is vivo implantation type Medical Devices wireless charging system；

Fig. 2 is charge coil and a kind of set-up mode of matching capacitance；

Fig. 3 is charge coil and another set-up mode of matching capacitance；

Fig. 4 is a kind of set-up mode of signal amplifying apparatus；

Fig. 5 is another set-up mode of signal amplifying apparatus；

Fig. 6 a are the embodiments of the first concrete structure of battery core；

Fig. 6 b are sectional views of Fig. 6 a along A-A directions；

Fig. 7 a are the embodiments of second of concrete structure of battery core；

Fig. 7 b are sectional views of Fig. 7 a along A-A directions；

Fig. 8 a are the embodiments of the third concrete structure of battery core；

Fig. 8 b are sectional views of Fig. 8 a along A-A directions；

Fig. 9 is the oscillogram of square-wave signal.

Reference is：

11- control devices；12- signal generation devices；13- frequency shift (FS) devices；14- signal amplifying apparatus；15- antennas Component；16- state monitoring apparatus；17- first communication modules；21- receiving coils；22- rechargeable batteries；23- second communication modules； 31- charge coils；32- battery cores；321- intermediate ledges；322- flange protrusions.

Embodiment

Embodiment 1

The present embodiment provides a kind of vivo implantation type Medical Devices wireless charging system, including charging end and receiving terminal；

Charging end, including, control device 11, signal generation device 12, frequency shift (FS) device 13, signal amplifying apparatus 14, State monitoring apparatus 16, antenna module 15 and feedback device and/or communication device (feedback device and communication device alternative or Person is set),

Signal generation device 12, for send one group of opposite polarity, fixed skew square-wave signal, by least two pairs poles Property opposite single square wave composition, there is fixed skew between the single square wave of each pair, two couples of totally 4 single sides are illustrated in figure 9 Ripple；

Frequency shift (FS) device 13, for carrying out frequency shift (FS) to the square-wave signal for sending signal generation device 12, preferably To offset up, the frequency after skew is (70%-99%) f0 or (101%-130%) f0, wherein L is the inductance of charge coil 31, and unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is resonant frequency value, and unit is Hz, as shown in fig. 4 or 5, charge coil 31 and matching capacitance are full-bridge type of drive or half-bridge driven mode；

Signal amplifying apparatus 14, for side that receive signal generation device generation or after amplifying through signal amplifying apparatus Ripple signal；

Antenna module 15, including charge coil 31, matching capacitance and magnetic core, are produced for receiving signal generation device 12 Or the square-wave signal after amplification, and send electromagnetic wave, charge coil 31 and matching capacitance formation LC concussions, charge coil 31 can connect (Fig. 2) or in parallel (Fig. 3) is set with matching capacitance, and magnetic core is preferably FERRITE CORE, core structure be with Middle intermediate ledge 321 and the flange protrusions 322 positioned at edge, between intermediate ledge 321 and flange protrusions 322 To accommodate the holding tank of charge coil 31, (intermediate ledge 321 is put down in a thickness direction with flange protrusions 322 by such as Fig. 6 a and 6b Together), Fig. 7 a and 7b (intermediate ledge 321 is higher than flange protrusions 322), Fig. 8 a and 8b (non-flanged protuberance 322), respectively For three kinds of specific embodiments, the front projection of magnetic core can be circular or polygon, and intermediate ledge 321 is preferably with filling Electric coil 31 is concordant；

Condition checkout gear 16, transmission electric current or power for detecting signal amplifying apparatus 14, can use electric quantity acquisition The transmission electric current of chip signal amplifying device 14 is to obtain performance number；

Control device 11, the performance number for the signal amplifying apparatus 14 that reception state detection means is detected or according to reception Calculate performance number to current value is sent, and according to the performance number with apart from-performance number curve conversion obtain charge coil 31 with The distance between receiving coil 21；

Feedback device, for reacting the distance between charge coil 31 and receiving coil 21 value, feedback device to user Can be display screen, display control unit 11 converts obtained distance or the size for representing graphically out distance, can be with It is acoustical generator, sends " ticking ", audible frequency is faster (more rapid) when distance is nearer, audible frequency is smaller when distance is more remote, Can also be instruction lamp, the quantity or flicker frequency lighted by indicator lamp represent apart from size or vibrations electricity Machine, distance is represented by shockproofness；

Communication device, for the distance between charge coil 31 and receiving coil 21 value to be sent into smart machine, leads to Cross smart machine and react the distance between charge coil 31 and receiving coil 21 value, smart machine, such as mobile phone, flat board to user Computer etc., distance is reflected by the display screen on smart machine or other feedback systems；

Receiving terminal, including the receiving coil 21 being implanted into human body and the rechargeable battery being connected with receiving coil 21, receive line Circle 21 can receive the electromagnetic wave of antenna module 15 and produce electric current to charge for rechargeable battery.

The present embodiment use principle be：Line displacement is entered to signal frequency by frequency shift (FS) device 13, works as energy acceptance Coil 21 apart from antenna module 15 farther out when, the degree of coupling of antenna module 15 and energy acceptance coil 21 is very low, passes through antenna sets Guiding of the magnetic core to the magnetic line of force inside part 15, charging end is in low-load while floating (frequency) or high capacity, and (frequency is floated downward When) stable state, power consumption is small during low-load, and power consumption is big during high capacity；When antenna module 15 moves closer to energy acceptance During coil 21, the degree of coupling of antenna module 15 and energy acceptance coil 21 gradually strengthens, and load becomes big or diminished, drive device Power consumption can increase or reduce with the enhancing of magnetic coupling degree, until coil block and energy acceptance coil 21 are complete During alignment, preferably, load is maximum or minimum for degree of coupling, and the power of signal amplifying apparatus 14 is also maximum or minimum, signal Degree of coupling between the power and coil of amplifying device 14 is linear, and which forms distance-performance number curve, control Device 11 processed can intuitively judge the alignment between antenna module 15 and energy acceptance coil 21, antenna by power Component 15 and the degree of coupling of energy acceptance coil 21 reach best, charge efficiency highest during this position, you can it is determined that optimal Charge position.

What deserves to be explained is, after the completion of alignment function, frequency shift (FS) device 13 is no longer worked, and signal generation device 12 is produced Waveform be directly entered signal amplifying apparatus 14, carry out charging operations.

The first communication module 17 and second communication module 23 that can be in communication with each other are respectively arranged with charging end and receiving terminal, If long-time distance value does not change or during variable quantity very little, charging end is once communicated with receiving terminal, if charging end is not received The signal of communication of receiving terminal, then illustrate that receiving terminal breaks down or is not keyed up or hypertelorism, charging end sends alarm and carried Wake up user.

Embodiment 2

The present embodiment provides a kind of wireless charging method, comprises the following steps：

S1：One group of opposite polarity, the square-wave signal of fixed skew are sent, the frequency of square-wave signal is 70%f0, whereinL is the inductance of charge coil 31, and unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is Resonant frequency value, unit is Hz；

S2：After by signal amplifying apparatus 14, square-wave signal is amplified, by the formation electromagnetic wave of charge coil 31, and it will fill Electric coil 31 is close to receiving coil 21；

S3：The performance number of measurement signal amplifying device 14, regulation charge coil 31 position is charged when finding performance number maximum The position of coil 31, that is, complete the alignment of charge coil 31 and receiving coil 21；

S4：The position of charge coil 31 is kept, regulation square-wave signal frequency is put to charge frequency and through signal amplifying apparatus 14 Big and charge coil 31 is changed into after electromagnetic wave to charge to rechargeable battery.

In S3 steps, the performance number of measurement signal amplifying device 14, in addition to charging wire is obtained by performance number calculating Circle 31 and the distance of receiving coil 21, and feed back to user the process of the range information.

Embodiment 3

The present embodiment provides a kind of wireless charging method, comprises the following steps：

S1：One group of opposite polarity, the square-wave signal of fixed skew are sent, the frequency of square-wave signal is 90%f0, whereinL is the inductance of charge coil 31, and unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is Resonant frequency value, unit is Hz；

S2：After by signal amplifying apparatus 14, square-wave signal is amplified, by the formation electromagnetic wave of charge coil 31, and it will fill Electric coil 31 is close to receiving coil 21；

S3：The performance number of measurement signal amplifying device 14, regulation charge coil 31 position is charged when finding performance number maximum The position of coil 31, that is, complete the alignment of charge coil 31 and receiving coil 21；

S4：The position of charge coil 31 is kept, regulation square-wave signal frequency is put to charge frequency and through signal amplifying apparatus 14 Big and charge coil 31 is changed into after electromagnetic wave to charge to rechargeable battery.

In S3 steps, the performance number of measurement signal amplifying device 14, in addition to charging wire is obtained by performance number calculating Circle 31 and the distance of receiving coil 21, and feed back to user the process of the range information.

Embodiment 4

The present embodiment provides a kind of wireless charging method, comprises the following steps：

S1：One group of opposite polarity, the square-wave signal of fixed skew are sent, the frequency of square-wave signal is 99%f0, whereinL is the inductance of charge coil 31, and unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is Resonant frequency value, unit is Hz；

S2：After by signal amplifying apparatus 14, square-wave signal is amplified, by the formation electromagnetic wave of charge coil 31, and it will fill Electric coil 31 is close to receiving coil 21；

S3：The performance number of measurement signal amplifying device 14, regulation charge coil 31 position is charged when finding performance number maximum The position of coil 31, that is, complete the alignment of charge coil 31 and receiving coil 21；

S4：The position of charge coil 31 is kept, regulation square-wave signal frequency is put to charge frequency and through signal amplifying apparatus 14 Big and charge coil 31 is changed into after electromagnetic wave to charge to rechargeable battery.

In S3 steps, the performance number of measurement signal amplifying device 14, in addition to charging wire is obtained by performance number calculating Circle 31 and the distance of receiving coil 21, and feed back to user the process of the range information.

Embodiment 5

The present embodiment provides a kind of wireless charging method, comprises the following steps：

S1：One group of opposite polarity, the square-wave signal of fixed skew are sent, the frequency of square-wave signal is 101%f0, its InL is the inductance of charge coil 31, and unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is Resonant frequency value, unit is Hz；

S2：After by signal amplifying apparatus 14, square-wave signal is amplified, by the formation electromagnetic wave of charge coil 31, and it will fill Electric coil 31 is close to receiving coil 21；

S3：The performance number of measurement signal amplifying device 14, regulation charge coil 31 position is charged when finding performance number minimum The position of coil 31, that is, complete the alignment of charge coil 31 and receiving coil 21；

S4：The position of charge coil 31 is kept, regulation square-wave signal frequency is put to charge frequency and through signal amplifying apparatus 14 Big and charge coil 31 is changed into after electromagnetic wave to charge to rechargeable battery.

In S3 steps, the performance number of measurement signal amplifying device 14, in addition to charging wire is obtained by performance number calculating Circle 31 and the distance of receiving coil 21, and feed back to user the process of the range information.

Embodiment 6

The present embodiment provides a kind of wireless charging method, comprises the following steps：

S1：One group of opposite polarity, the square-wave signal of fixed skew are sent, the frequency of square-wave signal is 105%f0, its InL is the inductance of charge coil 31, and unit is H, and C is the capacitance of matching capacitance, and unit is F, fo For resonant frequency value, unit is Hz；

S2：After by signal amplifying apparatus 14, square-wave signal is amplified, by the formation electromagnetic wave of charge coil 31, and it will fill Electric coil 31 is close to receiving coil 21；

S3：The performance number of measurement signal amplifying device 14, regulation charge coil 31 position is charged when finding performance number minimum The position of coil 31, that is, complete the alignment of charge coil 31 and receiving coil 21；

S4：The position of charge coil 31 is kept, regulation square-wave signal frequency is put to charge frequency and through signal amplifying apparatus 14 Big and charge coil 31 is changed into after electromagnetic wave to charge to rechargeable battery.

In S3 steps, the performance number of measurement signal amplifying device 14, in addition to charging wire is obtained by performance number calculating Circle 31 and the distance of receiving coil 21, and feed back to user the process of the range information.

Embodiment 7

The present embodiment provides a kind of wireless charging method, comprises the following steps：

S1：One group of opposite polarity, the square-wave signal of fixed skew are sent, the frequency of square-wave signal is 130%f0, whereinL is the inductance of charge coil 31, and unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is Resonant frequency value, unit is Hz；

S2：After by signal amplifying apparatus 14, square-wave signal is amplified, by the formation electromagnetic wave of charge coil 31, and it will fill Electric coil 31 is close to receiving coil 21；

S3：The performance number of measurement signal amplifying device 14, regulation charge coil 31 position is charged when finding performance number minimum The position of coil 31, that is, complete the alignment of charge coil 31 and receiving coil 21；

S4：The position of charge coil 31 is kept, regulation square-wave signal frequency is put to charge frequency and through signal amplifying apparatus 14 Big and charge coil 31 is changed into after electromagnetic wave to charge to rechargeable battery.

In S3 steps, measurement is obtained after the performance number of signal amplifying apparatus 14, in addition to is obtained by performance number calculating Charge coil 31 and the distance of receiving coil 21, and feed back to user the process of the range information.

The current value of electric power detection chip detection signal amplifying apparatus 14 is set to obtain the work(of charging end in embodiment 2-7 Rate value so that more accurate must be measured to performance number.

Effect example

This experiment is the static emission current contrasted under different frequency and couples emission current when preferably, wherein antenna sets The inductance L of charge coil 31 is 2.5mH in part 15, and the electric capacity C of matching capacitance is 0.1uF, and resonant frequency is 10KHz, during experiment Antenna module 15 and receiving coil 21 keep horizontal positioned, and antenna module 15 and receiving coil 21 keep vertical height to be 1cm Distance.

Static emission current is (surrounding is without receiving terminal) when being at a distance sufficiently large, the current value launched, and coupling is most Emission current when good is emission current when receiving coil 21 is aligned with charge coil 31.In above process, voltage is protected Hold constant, only electric current and voltage need to be carried out into product just can obtain power.

Static emission current and the result for coupling emission current when preferably under table different frequency

Illustrated by upper table：

1. absolute difference can all be produced by floating and floating downward, distance-performance number slope of a curve is not 0, can pass through signal The performance number conversion of amplifying device 14 obtains distance to be positioned, and distance-performance number slope of a curve under reference frequency For 0, it is impossible to positioned.Moreover, only needing to measure the power of charging end in position fixing process, it is not necessary to et al. Ke equipment only Communication is needed, therefore corresponding speed is fast.

2. absolute difference is bigger, illustrative graph slope is bigger, and error is smaller during positioning.

Little power consumption in position fixing process when 3. frequency floats, can be with power saving.Therefore, optimal selection is upper inclined 5%-10% ((105%-110%) f0).

Using the above-mentioned desirable embodiment according to the present invention as enlightenment, by above-mentioned description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property scope is not limited to the content on specification, it is necessary to its technical scope is determined according to right.

Claims (9)

1. a kind of vivo implantation type Medical Devices wireless charging system, including charging end and receiving terminal；

Charging end, including, control device (11), signal generation device (12), frequency shift (FS) device (13), signal amplifying apparatus (14), state monitoring apparatus (16), antenna module (15) and feedback device and/or communication device；

Signal generation device (12), for send one group of opposite polarity, fixed skew square-wave signal；

Frequency shift (FS) device (13), for carrying out frequency shift (FS), skew to the square-wave signal for sending signal generation device (12) Frequency afterwards is (70%-99%) f0 or (101%-130%) f0, whereinL is charge coil (31) inductance, unit is H, and C is the capacitance of matching capacitance, and unit is F, and fo is resonant frequency value, and unit is Hz；

Signal amplifying apparatus (14), for the square-wave signal after skew to be amplified；

Antenna module (15), including charge coil (31), matching capacitance and magnetic core, are produced for receiving signal generation device (12) Or the square-wave signal after amplifying through signal amplifying apparatus (14), and send electromagnetic wave, charge coil (31) and matching capacitance Form LC concussions；

Condition checkout gear (16), transmission electric current or power for detecting signal amplifying apparatus (14)；

Control device (11), the performance number for the signal amplifying apparatus (14) that reception state detection means (16) is detected or transmission Current value, and according to performance number with obtaining charge coil apart from-performance number curve or emission current-performance number curve conversion (31) the distance between with receiving coil (21)；

Feedback device, for reacting the distance between charge coil (31) and receiving coil (21) value to user；

Communication device, for the distance between charge coil (31) and receiving coil (21) value to be sent into smart machine, leads to Cross smart machine and react the distance between charge coil (31) and receiving coil (21) value to user；

In receiving terminal, implantation human body, including receiving coil (21) and the rechargeable battery that is connected with receiving coil (21), receiving coil (21) electromagnetic wave of antenna module (15) can be received and electric current is produced and charged for rechargeable battery.

2. vivo implantation type Medical Devices wireless charging system according to claim 1, it is characterised in that frequency shift (FS) is filled Put (13) to carry out after frequency shift (FS) the square-wave signal for sending signal generation device (12), the frequency of square-wave signal is (105%-110%) f0.

3. vivo implantation type Medical Devices wireless charging system according to claim 1 or 2, it is characterised in that state is examined Survey device is electric power detection chip, the current value for detecting signal amplifying apparatus (14).

4. the vivo implantation type Medical Devices wireless charging system according to claim any one of 1-3, it is characterised in that institute Feedback device is stated for display screen, distance that display screen display control unit (11) conversion is obtained or represent graphically out away from From size.

5. the vivo implantation type Medical Devices wireless charging system according to claim any one of 1-4, it is characterised in that institute Stating magnetic core includes the intermediate ledge and the flange protrusions positioned at edge of centre, is between intermediate ledge and flange protrusions Accommodate charge coil holding tank.

6. vivo implantation type Medical Devices wireless charging system according to claim 5, it is characterised in that the magnetic core is FERRITE CORE.

7. vivo implantation type Medical Devices wireless charging system according to claim 5, it is characterised in that the centre is convex Go out portion concordant in a thickness direction with flange protrusions.

8. the vivo implantation type Medical Devices wireless charging system according to claim any one of 1-7, it is characterised in that institute State square-wave signal to be made up of at least two pairs opposite polarity single square waves, there is fixed skew between the single square wave of each pair.

9. the vivo implantation type Medical Devices wireless charging system according to claim any one of 1-8, it is characterised in that fill Electric end on receiving terminal with being respectively arranged with the first communication module (17) and second communication module (23) that can be in communication with each other, if when long Between distance value do not change or during variable quantity very little, charging end is once communicated with receiving terminal, if charging end does not receive receiving terminal Signal of communication, charging end sends alarm and reminding user.