CN101534016B - Charging device - Google Patents

Abstract

A charging device comprises an energy resource emitter and an energy resource receiver; wherein the energy resource emitter is used for receiving a first electric energy and converting the first electric energy into energy resource; and the energy resource receiver is used for receiving the energy resource and converting the energy resource into a second electric energy that is used by external devices. A natural energy resource conversion module can be utilized to form the first electric energy by the natural energy resource with the transmission medium of fiber, waveguide or air.

Description

Charging device

Technical field

The present invention relates to a kind of charging device, and particularly relate to a kind of charging device of energy conversion.

Background technology

Natural energy resources has low pollution, high regeneration, obtains easy characteristic, particularly wind-force and solar energy, compared to limited (coal, oil, casinghead gas) and the generation air pollution that coal ash caused of thermal power generation fuel source; Perhaps hydroelectric power generation is subject to the restriction in landform, river, in the application of exploitation wind-force and solar energy, has bigger inducement.Especially integrate multinomial natural energy resources but not be dependent on single source, more can guarantee the stability and the continuation of energy supply.

Application and Development about solar power generation increases severely day by day in recent years; Enterprise sets up the solar energy film plate also day by day to be in fashion to reduce the required power consumption cost of production on a large scale; Building an oligosaprobic production environment is that enterprise is to society's responsibility; And the electrical power storage how more effectively widely natural energy resources to be converted to is thought other application, continues the important topic of the energy especially forever.For example U.S. Pat 6,994,448 discloses a kind of light-emitting device that uses solar energy as energy.

But, because the essential important document that electric energy uses for driving electronic instrument, electrical equipment, and traditional charging modes, its electric energy is to utilize existing firepower, waterpower, nuclear energy power generation to produce, and reaches charging effect through transformer, power line, socket again.Yet existing charging modes be because need be abutted against to touch just and be achieved, except be prone to cause contact point oxidation charging effect not good, also cause spark, electric shock, the electric danger of jumping easily.In addition, required power line, the charging device of various electronics, electrical appliance is also different, thus use multiple electronic product can cause circuit to tangle, and limit the region and the activity space of use because of power supply source, circuit length.

The research and development of part about utilizing wireless mode to charge are also arranged recently, and for example U.S. Pat 2007/0114967 discloses a kind of smooth charging device, wherein comprises a light source and a transducer that is connected to light source.When sensor to is that the type of the taking electronic installation of receiving system is during near aforementioned light source with the solar cell; Transducer can let aforementioned light source luminescent; The illumination that aforementioned light source is sent is mapped to the solar cell in the above-mentioned portable electronic apparatus, makes handheld electronic apparatus therefore begin to charge.But this charging device that U.S. Pat 2007/0114967 is proposed is because of utilizing the receiving terminal of solar cell (photovoltaic cell) as power transfer, and its photoelectric conversion efficiency is lower, and practicality still remains to be improved.

Summary of the invention

The present invention proposes the charging device that a kind of natural energy resources drives, and comprises natural energy resources modular converter, energy transmitter, energy receiver and accumulate element.Above-mentioned natural energy resources modular converter; Be used to receive a kind of natural energy resources and form first electric energy; Energy transmitter then is used to receive first electric energy and converts the energy to, is to be used to receive the above-mentioned energy as for energy receiver, and conversion formation second electric energy thinks that external device (ED) uses; The accumulate element links to each other with this energy receiver, to store this second electric energy that this energy receiver conversion forms.

The present invention also proposes the charging device that a kind of natural energy resources drives, and comprises natural energy resources modular converter, electromagnetic wave transmitter and electromagnetic wave receiver.Above-mentioned natural energy resources modular converter is used to receive a natural energy resources and forms first electric energy.The electromagnetic wave transmitter then is used to receive first electric energy and converts an electromagnetic wave to.And electromagnetic wave receiver is used to receive the aforementioned electric magnetic wave, and conversion formation second electric energy thinks that external device (ED) uses.

The present invention also proposes the charging device that a kind of natural energy resources drives, and comprises natural energy resources modular converter, wireless transmitter and radio wave reception converter.Above-mentioned natural energy resources modular converter is used to receive a natural energy resources and forms first electric energy, and wireless transmitter then is connected to the natural energy resources modular converter, is used to receive first electric energy and converts an electromagnetic wave to.Radio wave reception converter is wireless transmitter configuration relatively then, is used to receive the aforementioned electric magnetic wave, and conversion formation second electric energy thinks that external device (ED) uses.

The present invention also proposes the charging device that a kind of natural energy resources drives, and comprises a natural energy resources modular converter, a light-emitting device and a photodetector.Wherein, the natural energy resources modular converter is used to receive a natural energy resources and forms one first electric energy, and light-emitting device then is connected to the natural energy resources modular converter, is used to receive first electric energy and converts a light source to.And photodetector is relative light-emitting device configuration, is used to receive aforementioned light source, and conversion formation one second electric energy thinks that external device (ED) uses.

The present invention also proposes a kind of electromagnetic wave charging device, comprises an energy transmitter, an energy receiver and an accumulate element.Energy transmitter is used to receive first electric energy and converts electromagnetic wave to; Wherein this electromagnetic wave is the laser light wave; Energy receiver then receives the electromagnetic wave from above-mentioned energy transmitter through a transmission medium, and its conversion is formed second electric energy, thinks that external device (ED) uses; The accumulate element links to each other with this energy receiver, to store this second electric energy that this energy receiver conversion forms.

The present invention also proposes a kind of electromagnetic wave charging device, comprises an energy transmitter, a transmission medium and an energy receiver.Aforementioned energy transmitter is used to receive first electric energy and converts electromagnetic wave to.Transmission medium then supplies to pass through from the electromagnetic wave that energy transmitter sends.And aforementioned energy receiver is used to be received from transmission medium and the electromagnetic wave that comes, and conversion forms second electric energy and thinks that external device (ED) uses.

For making the present invention can be more obviously understandable, hereinafter is special lifts embodiment, and is described with reference to the accompanying drawings as follows.

Description of drawings

Fig. 1 is the calcspar according to the charging device of a kind of natural energy resources driving of the first embodiment of the present invention.

Fig. 2 is the calcspar that is applied to the device of solar generating of first embodiment.

Fig. 3 is the calcspar that is applied to the wind power generation plant of first embodiment.

Fig. 4 is the calcspar according to the charging device of a kind of natural energy resources driving of the second embodiment of the present invention.

Fig. 5 is the calcspar according to the charging device of a kind of natural energy resources driving of the third embodiment of the present invention.

Fig. 6 is the calcspar according to the charging device of a kind of natural energy resources driving of the fourth embodiment of the present invention.

Fig. 7 is the calcspar according to a kind of electromagnetic wave charging device of the fifth embodiment of the present invention.

The reference numeral explanation

100,400,500,600: the natural energy resources modular converter

102,700: energy transmitter

104,702: energy receiver

106,406,506,606,708: external device (ED)

200: solar array

202: the rechargeable battery set row

204: the single direction current element

206: outer lead

210: solar chip

212: rechargeable battery

304,408,512,608: the accumulate element

402: the electromagnetic wave transmitter

404: electromagnetic wave receiver

502: wireless transmitter

504: radio wave reception converter

508: transmitting antenna

510: reception antenna

602: light-emitting device

604: photodetector

704: transmission medium

706: the energy supply module

Embodiment

Hereinafter please refer to accompanying drawing to understand the present invention more fully, wherein accompanying drawing shows various embodiments of the present invention.But, also available multiple multi-form practice of the present invention, and should it be interpreted as and be limited to the embodiment that hereinafter is stated.In fact, provide these embodiment, fully convey the scope of the invention to those skilled in the art simultaneously by this just in order to make the present invention disclosed more detailedly and complete.In the accompanying drawings, for the purpose of clear and definite, maybe the size and the relative size exaggeration of each layer be described.

Fig. 1 is the calcspar according to the charging device of a kind of natural energy resources driving of the first embodiment of the present invention.

Please refer to Fig. 1, the charging device that the natural energy resources of first embodiment drives comprises a natural energy resources modular converter 100, an energy transmitter 102 and an energy receiver 104.Above-mentioned natural energy resources modular converter 100 is used to receive a kind of natural energy resources and forms first electric energy.Energy transmitter 102 then is used to receive first electric energy and converts the energy to, for example light-emitting device or wireless transmitter.For instance, above-mentioned light-emitting device can be light-emitting diode or incandescence; Above-mentioned wireless transmitter can be a transmitting antenna, be used for converting first electric energy to electromagnetic wave, and radiation is to the space.In addition, can on energy transmitter 102, install a transducer (not shown), in order to detecting the position of energy receiver 104, when detect energy receiver 104 near the time, transducer can order about energy transmitter 102 and start working.Be used to receive the above-mentioned energy as for energy receiver 104, and conversion formation second electric energy is thought external device (ED) 106 uses, wherein energy receiver 104 such as photodetector or radio wave reception converter.For instance, above-mentioned photodetector can be optoelectronic semiconductor, inspection optical diode or inspection photistor.In addition, above-mentioned energy receiver 104 is if radio wave reception converter then can be made up of reception antenna, to receive electromagnetic wave and conversion formation second electric energy.In addition, the charging device that natural energy resources drives also can comprise an accumulate element (not shown), in order to store second electric energy.Above-mentioned energy transmitter 102 can be induction coil with energy receiver 104.In Fig. 1, be the connection of representing not have the conventional power source line with the dotted line arrow between the two between energy transmitter 102 and the energy receiver 104, promptly reach the transmission of energy.For instance, when energy transmitter 102 was light-emitting device, then the light available fiber from its generation passed to energy receiver 104; And when energy transmitter 102 is wireless transmitter, be media from its electromagnetic wave that sends waveguide capable of using (to radio wave) or air, be sent to energy receiver 104.

Please refer again to Fig. 1, above-mentioned natural energy resources modular converter 100 can be device of solar generating or wind power generation plant.When natural energy resources modular converter 100 is device of solar generating, can convert solar energy source to first electric energy.For instance, above-mentioned device of solar generating can be as shown in Figure 2, comprises solar array 200, rechargeable battery set row 202, single direction current element 204 and outer lead 206.Wherein, solar array 200 comprises more than one solar chip 210, be used to absorb solar energy source and convert first electric energy to, and rechargeable battery set row 202 comprises more than one rechargeable battery 212, are used to store first electric energy.Between solar array 200 and rechargeable battery set row 202, wherein single direction current element 204 for example intercepts diode as for single direction current element 204, and this intercepts diode and is used to prevent that the electric energy that the electric current adverse current produces from consuming.Outer lead 206 then is used to connect solar array 200, single direction current element 204 and rechargeable battery set row 202.In addition, when natural energy resources modular converter 100 is wind power generation plant, can convert wind-force to first electric energy.For instance, above-mentioned wind power generation plant can be as shown in Figure 3, comprises wind-driven generator 300, digital inverter (digital inverter) 302 and another accumulate element 304.Wind-driven generator 300 wherein is used for converting wind energy to first electric energy, and 302 voltages that are used to change first electric energy of digital inverter are used to store first electric energy as for accumulate element 304.

Fig. 4 is the calcspar according to the charging device of a kind of natural energy resources driving of the second embodiment of the present invention.

Please refer to Fig. 4, the charging device that the natural energy resources of second embodiment drives comprises natural energy resources modular converter 400, electromagnetic wave transmitter 402 and electromagnetic wave receiver 404.Above-mentioned natural energy resources modular converter 400 is used to receive a natural energy resources and forms first electric energy.402 of electromagnetic wave transmitters are used to receive first electric energy and convert electromagnetic wave (as: laser light wave or radio wave) to, wherein electromagnetic wave transmitter 402 for example laser diode (Laser Diodes, LD) or other can send the device of laser.After electromagnetic wave transmitter 402 produces the laser light waves, can pass through Optical Fiber Transmission or point-to-point be the transmission of media with the air, luminous energy is delivered to electromagnetic wave receiver 404.In addition, can on electromagnetic wave transmitter 402, install a transducer (not shown), in order to detecting the position of electromagnetic wave receiver 404, when detect electromagnetic wave receiver 404 near the time, transducer can order about electromagnetic wave transmitter 402 and send electromagnetic wave.In the selection of laser light wave, can be the laser of GaAs substrate series visible light or invisible light, like the laser of wavelength between 600nm-1600nm; Perhaps, the laser of GaN substrate series visible light or DUV is like the laser of wavelength between 200nm-600nm.In addition, above-mentioned laser light wave can also be an InP substrate series, like the laser of wavelength between the 1100nm-1800nm scope.Above-mentioned laser also can select solid-state laser, gaseous state laser or laser diode (Laser Diode, LD).

Please continue with reference to figure 4, the electromagnetic wave receiver 404 in the charging device that natural energy resources drives is used to receive aforementioned laser, and conversion formation second electric energy thinks that external device (ED) 406 uses.For instance, the electromagnetic wave receiver 404 of second embodiment comprises a kind of photodetector, wherein photodetector such as optoelectronic semiconductor, inspection optical diode or inspection photistor.And the suitable wave band of above-mentioned photodetector comprises that wavelength contains the wave band of visible light or invisible light.The electric energy that transforms out through photodetector is generally current source; Become voltage source after can passing through conversion; Or utilize an accumulate element (like battery) 408 earlier with after second electrical power storage, drive the external device (ED) 406 of rear end, as: light-emitting device, mobile device, display unit ... etc.For instance, the laser of a GaAs substrate sends 980nm, and the laser light of 100mW through the photodetector of Optical Fiber Transmission to GaAs substrate, produces the electric current of 40mA, just is enough to drive a miniature bulb.And in a second embodiment, the transmission medium between above-mentioned electromagnetic wave transmitter 402 and the electromagnetic wave receiver 404 can be air or optical fiber.Can be as for 400 of natural energy resources modular converters with reference to the natural energy resources modular converter 100 of first embodiment.

Fig. 5 is the calcspar according to the charging device of a kind of natural energy resources driving of the third embodiment of the present invention.

Please refer to Fig. 5, the charging device that the natural energy resources of the 3rd embodiment drives comprises natural energy resources modular converter 500, wireless transmitter 502 and radio wave reception converter 504.Above-mentioned natural energy resources modular converter 500 is used to receive a natural energy resources and forms first electric energy, and natural energy resources modular converter 500 can be with reference to the natural energy resources modular converter 100 of first embodiment.Wireless transmitter 502 then is connected to natural energy resources modular converter 500, is used to receive first electric energy and converts a radio wave to.In addition, can on wireless transmitter 502, install a transducer (not shown), in order to detecting the position of radio wave reception converter 504, when detect radio wave reception converter 504 near the time, transducer can order about wireless transmitter 502 and send radio wave.504 relative wireless transmitter 502 configurations of radio wave reception converter be used to receive aforementioned radio wave, and conversion formation second electric energy think that external device (ED) 506 uses.Above-mentioned wireless transmitter 502 comprises a transmitting antenna 508, be used for converting first electric energy to electromagnetic wave, and radiation is to the space.As for, radio wave reception converter 504 is a reception antenna 510 for example, to receive radio wave and conversion formation second electric energy.And the charging device that natural energy resources drives also can comprise an accumulate element 512.This accumulate element 512 links to each other with radio wave reception converter 504, thinks that in order to store second electric energy external device (ED) 506 is required.In the 3rd embodiment, above-mentioned wireless transmitter 502 can be induction coil with radio wave reception converter 504, and the transmission medium between wireless transmitter 502 and the radio wave reception converter 504 can be waveguide or air.

Fig. 6 then is the calcspar according to the charging device of a kind of natural energy resources driving of the fourth embodiment of the present invention.

Please refer to Fig. 6, the charging device that the natural energy resources of the 4th embodiment drives comprises a natural energy resources modular converter 600, a light-emitting device 602 and a photodetector 604.Wherein, natural energy resources modular converter 600 is used to receive a natural energy resources and forms one first electric energy, and natural energy resources modular converter 600 can be with reference to the natural energy resources modular converter 100 of first embodiment.602 of light-emitting devices are connected to natural energy resources modular converter 600; Be used to receive first electric energy and convert a light source to, wherein light source can be the light (as: laser light wave) of electromagnetic wave kenel or the light (as: light that light-emitting diode or incandescent lamp bulb sent) of non-electromagnetic wave kenel.In the 4th embodiment, above-mentioned light-emitting device 602 is light-emitting diode or incandescence for example.In addition, can on light-emitting device 602, install a transducer (not shown), in order to detecting the position of photodetector 604, when detect photodetector 604 near the time, it is luminous that transducer can order about light-emitting device 602.Since the present embodiment utilization can corresponding relevant wavelength photodetector 604, so the conversion efficiency between the photoelectricity is higher, generally can surpass 60%, on power conversion, have tangible lifting.And except that photoelectric conversion efficiency apparently higher than solar cell, the wavelength absorption scope of solar cell is generally 0.4 μ m-1.1 μ m, the present invention utilizes the photodetector of corresponding light source in the selection of wave-length coverage, will have more elasticity.

Please continue with reference to figure 6, photodetector 604 relative light-emitting device 602 configurations be used to receive aforementioned light source, and conversion formation one second electric energy think that external device (ED) 606 uses.Wherein, Photodetector 604 is an optoelectronic semiconductor, an inspection optical diode or an inspection photistor for example; Wherein examine photistor and be generally an inspection optical diode and add that one changes impedance amplifier, this changes impedance amplifier is that the current conversion that the inspection optical diode is provided is a voltage, makes to be output as voltage source.In addition, in the 4th embodiment, the charging device that above-mentioned natural energy resources drives also comprises one first accumulate element 608, links to each other with photodetector 604, in order to store second electric energy.

Fig. 7 then is the calcspar according to a kind of electromagnetic wave charging device of the fifth embodiment of the present invention.

Please refer to Fig. 7, the electromagnetic wave charging device of the 5th embodiment comprises an energy transmitter 700 and an energy receiver 702.Wherein, energy transmitter 700 is used to receive one first electric energy and converts electromagnetic wave (as: radio wave or laser light wave) to.As for 702 electromagnetic waves that receive from energy transmitter 700 through a transmission medium 704 of energy receiver, and conversion forms one second electric energy.In addition, can on energy transmitter 700, install a transducer (not shown), in order to detect energy receiver 702 near the time, order about energy transmitter 700 and start working.Aforementioned transmission medium 704 can be air or optical fiber or waveguide, wherein for example silica fiber or plastic fiber of optical fiber.In addition, the electromagnetic wave charging device of the 5th embodiment also can comprise an energy supply module 706, in order to providing above-mentioned first electric energy to energy transmitter 700, and the modular converter of a for example general power supply of wherein energy supply module 706 or a natural energy resources; For instance, then for example solar energy or wind-force of general power supply such as battery or civil power, natural energy resources.After energy transmitter 700 is received first electric energy that energy supply module 706 provided, the electromagnetic wave that energy receiver 702 can receive from energy transmitter 700 through transmission medium 704, and conversion forms second electric energy, uses for external device (ED) 708.

In sum, charging device of the present invention is owing to not needing additional wires to connect energy transmitter and energy receiver, so do not used the many restrictions on zone and the activity space.And the energy transmitter that charging device available electrical energy of the present invention drives converts electrical energy into electromagnetic wave; And use energy receiver to receive electromagnetic wave, and convert thereof into electrical power storage, therefore can reach the effect of non-traditional power line transmission charging.Thus, not only can prevent the existing contact point oxidation that the contact charging modes caused, jump outside the appearance of problems such as electricity and electromagnetic interference, can also avoid the use of the circuit that multiple electronic product causes and tangle problem.In addition, charging device of the present invention also can receive natural energy resources and form first electric energy, and converts thereof into the energy.

Though the present invention discloses as above with embodiment; But it is not in order to qualification the present invention, those skilled in the art, under the premise without departing from the spirit and scope of the present invention; When can doing some changes and modification, so protection scope of the present invention should be as the criterion with claim of the present invention.

Claims (35)

1. the charging device that drives of a natural energy resources is characterized in that this charging device comprises:

One natural energy resources modular converter is used to receive a natural energy resources and forms one first electric energy;

One energy transmitter is connected to this natural energy resources modular converter, is used to receive this first electric energy and converts an energy to;

One energy receiver, this energy transmitter configuration is used to receive this energy relatively, and conversion formation one second electric energy thinks that external device (ED) uses; And

One accumulate element links to each other with this energy receiver, to store this second electric energy that this energy receiver conversion forms.

2. the charging device that natural energy resources as claimed in claim 1 drives, wherein this energy transmitter comprises a light-emitting device or an electromagnetic wave transmitter.

3. the charging device that natural energy resources as claimed in claim 2 drives, wherein this electromagnetic wave transmitter comprises a wireless transmitter or a laser light wave transmitter.

4. the charging device that natural energy resources as claimed in claim 3 drives, wherein this wireless transmitter comprises a transmitting antenna, be used for converting this first electric energy to electromagnetic wave, and radiation is to the space.

5. the charging device that natural energy resources as claimed in claim 2 drives, wherein this light-emitting device comprises a light-emitting diode or an incandescence.

6. the charging device that natural energy resources as claimed in claim 1 drives also comprises a transducer, is installed on this energy transmitter, in order to detect the position of this energy receiver.

7. the charging device that natural energy resources as claimed in claim 1 drives, wherein this energy receiver comprises a photodetector, an electromagnetic wave receiver or a radio wave reception converter.

8. the charging device that natural energy resources as claimed in claim 7 drives, wherein this photodetector comprises an optoelectronic semiconductor, an inspection optical diode or an inspection photistor.

9. the charging device that natural energy resources as claimed in claim 7 drives, wherein the suitable wave band of this photodetector comprises that wavelength contains the wave band of visible light or invisible light.

10. the charging device that natural energy resources as claimed in claim 7 drives, wherein this radio wave reception converter comprises a reception antenna, in order to receive electromagnetic wave and conversion formation one second electric energy.

11. the charging device that natural energy resources as claimed in claim 2 drives, wherein this electromagnetic wave transmitter comprises a laser diode.

12. the charging device that natural energy resources as claimed in claim 7 drives, wherein this energy comprises electromagnetic wave.

13. the charging device that natural energy resources as claimed in claim 12 drives, wherein this electromagnetic wave comprises laser light wave or radio wave.

14. the charging device that natural energy resources as claimed in claim 13 drives, wherein this laser light wave comprises solid-state laser, gaseous state laser or the laser that sends from laser diode.

15. the charging device that natural energy resources as claimed in claim 13 drives, wherein this laser light wave comprises the laser of GaAs substrate series visible light or invisible light, and wavelength is between the laser of 600nm-1600nm.

16. the charging device that natural energy resources as claimed in claim 13 drives, wherein this laser light wave comprises the laser of GaN substrate series visible light or DUV, and wavelength is between the laser of 200nm-600nm.

17. the charging device that natural energy resources as claimed in claim 13 drives, wherein this laser light wave comprises InP substrate series, and wavelength is between the laser of 1100nm-1800nm scope.

18. the charging device that natural energy resources as claimed in claim 1 drives, wherein this energy transmitter and this energy receiver are induction coil.

19. the charging device that natural energy resources as claimed in claim 1 drives, wherein this natural energy resources modular converter comprises a device of solar generating, in order to a solar energy source is converted to this first electric energy.

20. the charging device that natural energy resources as claimed in claim 19 drives, this device of solar generating wherein comprises:

One solar array comprises more than one solar chip, is used to absorb this solar energy source and converts this first electric energy to;

One rechargeable battery set row comprise more than one rechargeable battery, are used to store this first electric energy;

One single direction current element is between solar array and rechargeable battery set row; And

One outer lead is used to connect this solar array, this single direction current element and this rechargeable battery set row.

21. the charging device that natural energy resources as claimed in claim 20 drives, wherein this single direction current element comprises that one intercepts diode, and this obstruct diode is used to prevent that the electric energy that the electric current adverse current produces from consuming.

22. the charging device that natural energy resources as claimed in claim 1 drives, wherein this natural energy resources modular converter comprises a wind power generation plant, in order to a wind energy is converted to this first electric energy.

23. the charging device that natural energy resources as claimed in claim 22 drives, this wind power generation plant wherein comprises:

One wind-driven generator is used for converting this wind energy to this first electric energy;

One digital inverter, it is used to change the voltage of this first electric energy; And

One accumulate element is used to store this first electric energy.

24. an electromagnetic wave charging device is characterized in that, this charging device comprises:

One energy transmitter is used to receive one first electric energy and converts an electromagnetic wave to, and wherein this electromagnetic wave is the laser light wave; And

One energy receiver receives this electromagnetic wave from this energy transmitter through a transmission medium, and conversion formation one second electric energy thinks that external device (ED) uses; And

One accumulate element links to each other with this energy receiver, to store this second electric energy that this energy receiver conversion forms.

25. electromagnetic wave charging device as claimed in claim 24, wherein this transmission medium comprises air, optical fiber or waveguide.

26. electromagnetic wave charging device as claimed in claim 25, wherein this optical fiber comprises silica fiber or plastic fiber.

27. electromagnetic wave charging device as claimed in claim 24 also comprises an energy supply module, in order to provide this first electric energy to this energy transmitter.

28. electromagnetic wave charging device as claimed in claim 27, wherein this energy supply module comprises the modular converter of a general power supply or a natural energy resources.

29. electromagnetic wave charging device as claimed in claim 28, wherein this general power supply comprises battery or civil power.

30. electromagnetic wave charging device as claimed in claim 28, wherein this natural energy resources comprises solar energy or wind-force.

31. electromagnetic wave charging device as claimed in claim 24 also comprises a transducer, is installed on this energy transmitter, in order to detect the position of this energy receiver.

32. electromagnetic wave charging device as claimed in claim 24, wherein this laser light wave comprises solid-state laser, gaseous state laser or the laser that sends from laser diode.

33. electromagnetic wave charging device as claimed in claim 24, wherein this laser light wave comprises the laser of GaAs substrate series visible light or invisible light, and wavelength is between the laser of 600nm-1600nm.

34. electromagnetic wave charging device as claimed in claim 24, wherein this laser light wave comprises the laser of GaN substrate series visible light or DUV, and wavelength is between the laser of 200nm-600nm.

35. electromagnetic wave charging device as claimed in claim 24, wherein this laser light wave comprises InP substrate series, and wavelength is between the laser of 1100nm-1800nm scope.

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