KR20230036410A - LED luminaries employing wireless supplying power of LED typed in moisture-attack, dust employing magnetic field - Google Patents

Abstract

The present invention relates to an LED lamp based on moisture-proof and dust-proof LED wireless power supply using a magnetic field, which is convenient for maintenance and installation. The LED lamp comprises: a wireless power transmission unit; a receiving coil; a support unit; a stand unit; a metal member; a ferrite blocking member; a guide member; a wireless power transmission receiving unit; an LED driver; and a control unit.

Description

LED luminaires employing wireless supplying power of LED typed in moisture-attack, dust employing magnetic field}

The content disclosed herein relates to the field of LED lighting driving technology, and more specifically, when using LED lights on the ceiling in a factory, since power is supplied wirelessly to the LED lights, complicated wiring work on the ceiling is omitted and moisture-proofing It is a technology that supplies power such as and waterproof type.

Unless otherwise indicated herein, material described in this section is not prior art to the claims in this application, and inclusion in this section is not an admission that it is prior art.

In general, lighting systems use light sources such as incandescent lamps, discharge lamps, and fluorescent lamps, and are mainly used for home, landscape, and industrial purposes. Among these light sources, resistive light sources such as incandescent lamps have low efficiency and generate heat, discharge lamps have problems due to high price and high voltage, and fluorescent lamps have environmental problems due to the use of mercury.

For this reason, despite a long history in the lighting industry, research on a light source for a lighting device, a light emitting method, and a driving method is still being conducted.

Meanwhile, in relation to a light source of a lighting system, a light emitting diode having advantages such as efficiency, color diversity, and design autonomy has recently been attracting attention. A light emitting diode, that is, an LED, is a semiconductor device that emits light when a voltage is applied in the forward direction, and has long lifespan, low power consumption, and electrical, optical, and physical properties suitable for mass production. It is rapidly replacing conventional light sources.

In addition, when such an LED light is provided as a light source, it is installed in various facilities in a factory and is widely used to provide these advantages.

However, when LED lights are installed in this way, they are generally installed on the ceiling, so it is not easy to wire the lines, and there are various difficulties in installation and maintenance, which increases as more LED lights are installed.

The prior art literature with this background is to the extent that the following patent literature comes out.

(Patent Document 0001) KR101088401 B1

For reference, the prior art in this background is generally about wireless power transmission technology, and there are generally few prior art documents applied to lighting systems such as LEDs by applying this.

In addition, the technology of Patent Document 1 above is to supply power to LED lights within a certain range without limiting the transmission and reception distance, and in relation to the contents disclosed in this specification, when supplying power to LED lights, the point of maintaining strong power intensity is similar. do.

The disclosed content is, when using LED lights on the ceiling in a factory, by supplying power to the LED lights wirelessly, eliminating complicated wiring work on the ceiling and providing moisture-proof and waterproof LED lights using a magnetic field to supply power. It is intended to provide a wireless power supply-based LED lighting fixture.

And, when these LED lighting fixtures are installed, so that they can be easily installed in a detachable manner from the ceiling, it is also possible to provide maintenance convenience and the like of the lighting fixtures.

Additionally, these LED lighting fixtures control the flickering operation of LED lights by the number of specific LED lights in different workplaces or specific workplaces when LED lights are used in this way, so that the user wants the LED light lighting environment (eg, saving or product lighting service according to each working environment).

Moisture-proof and dust-proof LED wireless power supply-based LED lighting fixtures using a magnetic field according to the embodiment,

When using LED lights installed on ceilings of various facilities in a factory, power is generated by a magnetic field from a commercial power source and supplied wirelessly to LED lights such as ceilings. It supplies power to LED light smoothly.

In addition, when installed in addition to this, since it is installed by a detachable method applying a magnet structure from the ceiling, it is easy to install and maintain the luminaire maintenance convenience by improving the problems caused by being installed on the existing ceiling.

Additionally, the LED lights are installed, for example, in a workshop (or a place with high humidity) in a factory, and according to an embodiment, the number of LED lights for each facility location is grouped according to the desire of the manager to supply power. It is done.

At this time, the power supply is performed for each group desired by the user because the wireless power of the LED lamp by the magnetic field is differently converted according to the number of LED lamps for each facility place designated by the manager, for example, for each different group.

According to the embodiments, when using LED lights installed on the ceilings of various facilities such as factories, by generating power by a magnetic field from a commercial power source and wirelessly supplying it to LED lights such as ceilings, complicated wiring work on the ceiling is omitted and moisture-proofing and waterproof type, stable power supply, etc.

And, in this case, since it is easily installed on the ceiling in a detachable manner, it provides convenience in installation of the device and luminaire maintenance.

In addition, when LED lights are used in this way, the blinking operation of the LED lights is controlled by the number of LED lights for each different workplace desired by the manager, according to the LED light lighting environment desired by the manager (e.g., economy type or work environment by product). We offer a variety of lighting services.

1 is a view for conceptually explaining a moisture-proof and dust-proof LED wireless power supply-based LED luminaire using a magnetic field according to an embodiment.
Figure 2 is a view showing a system as a whole to which a moisture-proof, dust-proof LED wireless power supply-based LED luminaire is applied using a magnetic field according to an embodiment
Figure 3 is a block diagram showing the configuration of a moisture-proof, dust-proof LED wireless power supply-based LED luminaire using a magnetic field according to an embodiment
Figure 4 is a flow chart showing the operation of a moisture-proof, dust-proof LED wireless power supply-based LED lighting device in order using a magnetic field according to an embodiment.

1 is a view for conceptually explaining a moisture-proof and dust-proof LED wireless power supply-based LED lighting fixture using a magnetic field according to an embodiment.

As shown in FIG. 1, the LED lighting fixture 100 of one embodiment generates wireless power by a magnetic field from a commercial power source when using LED lights installed on ceilings of various facilities in a factory and supplies it to LED lights such as ceilings, It eliminates many wired wiring work that electrically connects commercial power and LED lamps on the ceiling, and provides stable power supply in a moisture-proof and waterproof type.

And, as another example, in this case, the LED lamp 100 generates wireless power by a magnetic field from PoE in addition to commercial power.

In addition, in addition to this, when the LED lamp is used in this way, the commercial power source side (eg ballast) and the LED lamp side are installed in a detachable way from the ceiling, so problems appearing when installed on the ceiling By improving the lighting fixture maintenance convenience and installation are easy.

To this end, when the LED lighting fixture 100 is installed, it attaches and detaches itself to the ballast part of the commercial power supply and the LED lamp fixture by means of magnets, so that the installation of the luminaire is made easy and convenient (specific details regarding the detachable structure). description will be given later).

Additionally, in this case, the LED lighting fixture 100 is installed in rooms 1 and 2 or a workshop (or a place with high humidity) in a factory, for example, as here, and according to an embodiment, such a facility place Power is supplied by grouping the number of LED lights according to the user's desire.

At this time, the power supply is performed for each group desired by the user because the wireless power of the LED light by the magnetic field is differently converted according to the number of LED lights for each different group, that is, for each facility place to be used by the manager.

2 is a diagram showing a system in general to which a moisture-proof and dust-proof LED wireless power supply-based LED lighting fixture using a magnetic field according to an embodiment is applied.

As shown in FIG. 2, the system according to an embodiment includes a plurality of LED lighting fixtures 100-1 to 100-n provided for each LED lamp installed in a plurality of different workplaces, and each LED controller 100-1 to 100-n) includes a management information processing device 200 that oversees the blinking operation of the LED lights.

Additionally, in the system, when LED light state information is generated through a plurality of LED lamps 100-1 to 100-n, the management information processing device 200 transmits fault repair request information differently according to the current LED light state. It includes a fault repair information processing device that is provided and processed.

In addition, the system includes a fire station information processing device that receives an alarm from the management information processing device 200 and promptly handles the fire when it is confirmed whether or not a fire has occurred through such a management operation.

The plurality of LED lighting fixtures 100-1 to 100-n are provided for each LED lamp installed on the ceiling in the workplace. When each LED lamp is used, wireless power is generated by a magnetic field from a commercial AC power source to generate ceiling light. By supplying to the LED lights of the lamp, streamlined and complicated wiring work on the ceiling is omitted, and moisture-proof and waterproof type stable power supply is provided. In addition, since the plurality of LED lighting fixtures 100-1 to 100-n detect and provide LED light status information to the management information processing device 200 when the LED lamp is used in this way, the management information processing device 200 ), this allows smooth maintenance of the LED lamp. In this case, the plurality of LED lighting fixtures 100-1 to 100-n receive LED on/off control information from the management information processing device 200 beforehand according to the LED light schedule, or the current LED light It receives this control information according to whether an event occurs according to the state, etc., and provides various lighting services by blinking its own LED lamp.

When each LED light is used, the management information processing device 200 transmits on/off control information of the LED light to a plurality of LED light fixtures 100-1 to 100-n according to a LED light schedule set by the user in advance. Since it is provided through a private network, the LED lights flicker according to the time desired by the user. In addition, the management information processing device 200, when LED light status information is provided from a plurality of LED lighting fixtures 100-1 to 100-n through its own network, for example, the current LED light status and on/off schedule Based on the result of comparison with time, it is checked whether the LED lights are abnormal or not, and provided to the information processing device of the troubleshooting center. Therefore, when this information is transmitted, the information processing device at the breakdown repair site systemically provides diagnosis results for each failure type, so that the manager can perform repairs promptly and accurately. In addition, when the management information processing device 200 confirms whether or not a fire has occurred through such a management operation, the fire is promptly handled by sending an alarm to a pre-registered fire station information processing device.

Figure 3 is a block diagram showing the configuration of a moisture-proof, dust-proof LED wireless power supply-based LED lighting fixture using a magnetic field according to an embodiment.

As shown in FIG. 3, the LED lighting fixture 300 of one embodiment is attached to the ballast side of the commercial AC power source, generates power by a magnetic field from the commercial power source, and wirelessly transmits the power to the surroundings using a wireless power transmission unit 311. include

In addition, a receiving coil 312 that is separated from the ballast side and detached from the side of a lighting fixture such as an LED to receive this wireless power, a wireless power transmission receiver 314 that converts this wireless power into driving power such as an LED, and such a driving power source It includes an LED driver 330 for driving the LED light, and a control unit 320 for controlling the driving operation of the LED light.

Additionally, in the LED lighting fixture 300 of one embodiment, when state information such as LED is sensed, the controller 320 provides current state information to the management information processing device 200, so that the management information processing device 200 Including a communication module 310 to check whether the LED is abnormal.

In addition, in order to make it easy to install the LED lighting fixture 300 on the ceiling, etc., when actually installed, it is fixed to the cable casing, a magnet is attached to the lower surface, and the wireless power transmission transmitter 311 is in the middle Includes a support (not shown) installed on.

In this case, the support unit is bonded to the lower surface of the support unit through a magnet, and the receiving coil 312 and the wireless power transmission receiver 314 are installed on its lower surface, thereby allowing the device to be detachably installed as a whole ( not shown) are also included.

Additionally, on the other hand, the LED lamp 300 includes a metal member (not shown) positioned under the receiving coil 312 and a ferrite blocking member (not shown) positioned under the metal member.

Accordingly, when the receiving coil 311 transmits the received wireless power to the wireless power transmission receiver 314, electromagnetic waves are blocked from the wireless power and the wireless power is prevented from blocking the magnetic field to the outside. Since it is transmitted to the transmission receiver 314, the wireless power is transmitted as it is.

In addition, when AC power is generated by the receiving coil 311, the receiving coil 311 is formed to surround the shielding material, and a soft metallic salient pole structure is formed in the receiving coil 311 in the inner direction of the receiving coil 311 to form an electromagnetic beam. While having, since it also prevents eddy currents generated through the surrounding metal, it also includes a guide member 313 for guiding maximum wireless power.

On the other hand, in addition to this, the LED lighting fixture 300 has the following configuration in the control unit 320 in order to selectively drive LED lights as many as the number of LED lights and a specific workshop desired by a manager in a factory with many workshops. Since it is equipped, it achieves this.

Specifically, in this case, the control unit 320 first receives information on the number of LED lights for each workplace where the LED lights will be used from the management information processing device 200, etc., and checks the environment type of the LED lights to be used.

Next, when the confirmation is completed in this way, the control unit 320 controls the conversion operation of the LED driver 330 to change the driving power of the LED lights differently according to the number of LED lights for each workplace where the LED lights are to be used, that is, wirelessly by magnetic field. By converting DC power from electricity, lighting service is provided according to the type of environment such as LED desired by the user.

And, in this case, the information on the number of LED lights for each workplace is provided with related information from the key signal input unit 340 or a separate sensing unit (not shown), so that the user can grasp the LED light environment information according to the desired LED light group. and is transmitted to the control unit 320.

When the LED light is used, the wireless power transmission transmitter 311 is detached from the ballast of the existing commercial AC power source, induces power by a magnetic field from the commercial power source, and transmits it wirelessly to the surrounding LED light, so that it is sent to a specific place (eg: It provides a power source by omitting a separate wired wiring work for the LED lights installed on the ceiling). At this time, the wireless power transmission transmitter 311, for example, when power is transmitted in this way, the overvoltage protection unit connected to the commercial AC power ballast (ie, the SMPS unit of the ballast) and the SMPS unit strongly transmit DC power It includes an HF inverter to do so, and a coil for wireless power transmission that wirelessly transmits the power of the magnetic field to the surroundings as an inverted power source. For reference, the SMPS unit includes, for example, a line filter that removes noise from commercial AC power, a rectifier that converts to DC power, a PFC unit that aligns the phase of the voltage and current of the power supply, an overcurrent protection unit, and an overvoltage protection unit includes wealth

When wireless power is transmitted from the ballast side by the wireless power transmission transmitter 311, the receiving coil 312 is detached from the LED light side and receives the wireless power from its surroundings. In this case, since the receiving coil 312 has a winding length equal to the separation distance from the wireless power transmission transmitter 311, maximum wireless power is obtained.

When wireless power is received by the receiving coil 312, the wireless power transmission receiver 314 converts the received wireless power into direct current power of driving power such as LEDs in a synchronous rectifier within itself, so that LEDs are driven. Let it be. At this time, the wireless power transmission receiver 314 includes, for example, a communication FET, a synchronous rectifier, a clamp FET, and a WPTC. In this case, the WPTC monitors the power, voltage, current, etc. of the LED driver through mutual communication under the control of the control unit 320 . Also, since the communication FET turns on/off the load modulation signal of the WPTC, it communicates with the wireless power transmission unit 311. In addition, since the clamp FET clamps against overvoltage when converted to DC power through a synchronous rectifier, damage to the LED driver (ie, the LED driver 330) is prevented.

Since the LED driver 330 differently converts the DC power converted by the wireless power transmission receiver 314 into different values, it drives the LED light in various ways in a form desired by the user.

When wireless power such as LEDs is generated by the magnetic field, the control unit 320 provides, for example, information on the number of LED lights for each workplace where the LED lights that the manager wants to use in the management information processing device 200 will be used. is provided, and the environment type of the LED lamp to be used is checked. Next, when the confirmation is completed in this way, the control unit 320 controls the conversion operation of the LED driver 330 to convert the direct current power of the LED driving power differently according to the workplace and the number of LED lights to be used, thereby different LED light environment types. It becomes a lighting service according to .

In addition, in order to save power in consideration of the fact that the LED lighting fixture 300 additionally uses LED lights and a magnetic field, when turning on and off the LED lights, the power consumption pattern of the LED lights is grasped in advance and when an abnormality occurs In this case, an alarm is provided so that measures such as troubleshooting are performed.

To this end, the controller 320 has the following configuration.

a) That is, the control unit 320 analyzes the power consumption pattern for the LED lamp based on the LED driving characteristics by the magnetic field, for example, using LSTM (Long short-term memory) to predict each different power change pattern Match and register power consumption.

In this case, it is confirmed that the learning based on the charging characteristics of the charging unit shows a tendency and is predicted in conjunction with a change in power consumption pattern.

b) Then, when the LED lamp is driven, a change pattern of actual power is extracted.

c) Next, the actual power consumption according to the actual power change pattern extracted in this way is compared with the predicted power consumption matched to the actual power change pattern.

d) Therefore, as a result of the comparison, when the difference between actual power consumption and predicted power consumption falls within a preset range, an alarm is not provided to the pre-registered terminal, and an alarm is provided when it falls within a preset range. .

On the other hand, in addition to this, when the magnetic field is generated from the wireless power transmission transmitter 311 to the receiving coil 312, the LED lamp 300 generates a strong magnetic field at a location where the wireless power transmission coil and the receiving coil 312 are spaced apart. A relay unit (not shown) is provided so as to be maintained.

Specifically, the first relay unit of one embodiment is composed of a coil for wireless power transmission, a sub-wireless power transmission coil of a shielding material spaced apart from each other, and a sub-receive coil that are spaced apart from each other, and is connected to both coils to generate resonance and impediment. A first variable capacitor for turns matching is provided.

And, in this case, the receiving coil 312 is located in the closed path of the relay unit.

The second relay unit of another embodiment is made of a conductive metal thin film of a shielding material spaced apart from each other and a sub-receiving coil that forms a closed circuit with the wireless power transmission coil, and is connected to the conductive metal thin-film and the sub-receiving coil to perform resonance and impedance matching. A second variable capacitor is provided.

And, even in this case, the receiving coil 312 is located in the closed path of the relay unit.

Additionally, in order to keep the magnetic flux strong at this time, the coil for wireless power transmission is, for example, wound around a magnetic core in the loop of each relay unit, or wrapped around a magnetic core to offset the magnetic flux generated in the loop.

Therefore, through this, when the LED controller according to the embodiment generates a magnetic field from the wireless power transmission transmitter to the receiving coil, the magnetic field is maintained in a strong state between the coil of the transmitter and the coil of the receiver.

4 is a flow chart showing the operation of a moisture-proof and dust-proof LED wireless power supply-based LED lighting device in order using a magnetic field according to an embodiment (see FIG. 3).

As shown in FIG. 4, the LED lighting fixture of one embodiment first converts power by a magnetic field from a commercial power source in a wireless power transmission unit detached from the stabilizer side of the commercial power source when using LED lamps installed on the ceiling for each of a plurality of different facilities. It is induced and transmitted wirelessly (S401).

Then, the LED lamp according to one embodiment receives such wireless power in its receiving coil (S403).

Then, the wireless power transmission receiver converts the wireless power into DC power, which is driving power such as LED (S404).

In this case, when the controller receives information on the number of LED lights for each facility to be used by the manager, the control unit controls the conversion operation of the LED driver to convert this DC power to a preset switching time and facility location of one LED drive power. Since it is converted differently according to the difference value between the driving power switching times of the number of LED lights, the power is converted integrally (S405).

Then, the LED driver supplies the converted DC power, that is, the DC power converted to the LED light environment desired by the manager to the LED light, so that it is suitable for each different LED light environment (eg, economy type or work environment for each product). Lighting service is made (S406).

Therefore, through this, the LED controller according to an embodiment provides driving power to surrounding LED lights wirelessly from such a magnetic field induction method when LED lights installed on the ceiling of a different workplace are used, so commercial power from the existing ceiling and LED light luminaires It omits the complicated wired wiring work that electrically connects the devices, and provides stable power supply in a moisture-proof and waterproof type.

As described above, in one embodiment, when using an LED lamp in a ceiling in a factory, power is generated by a magnetic field from a commercial power source and supplied to the LED lamp in a wireless manner. It smoothly supplies power to LED lamps that are difficult to fall and install.

In addition, in addition to this, in the case of installation, the commercial power side (eg, ballast) and the LED lamp luminaire side from the ceiling are applied with a magnet-type detachable structure and are immediately coupled immediately when installed, so the installation and Maintenance is made easy and convenient.

Additionally, in this case, the LED lights are installed, for example, in a workplace (or a place with high humidity) in a factory, and according to an embodiment, the number of LED lights for each facility location is grouped according to the user's desire and power is supplied. this is done

At this time, since the power supply is performed for each group desired by the user, since the wireless power of the LED lamp by the magnetic field is converted to the specific number of LED lamps for each different group, for example, the manager designated by the facility location.

Therefore, through this, in one embodiment, when LED lights installed on the ceilings of various workplaces are used, driving power is wirelessly provided from the magnetic field induction method to the surrounding LED lights, thereby electrically connecting the commercial power source in the existing ceiling and the LED luminaires. It omits the complicated wired wiring work, and provides stable power supply of moisture-proof and waterproof type.

In addition, when it is installed, it is easy to install by applying a detachable structure of the magnet type to the ceiling, so it is easy to install and maintain the luminaire maintenance convenience by improving the problem of being installed on the existing ceiling.

In addition, when LED lights are used in this way, the LED lights are blinked according to the number of LED lights for each different workplace desired by the manager, and the lighting service is tailored to the LED lighting environment desired by the manager (e.g., economy type or work environment by product). provides

100, 300: LED luminaires based on moisture-proof and dust-proof LED wireless power supply using magnetic fields
200: management information processing device
301: communication module 302: control unit
303: LED driver 341: wireless power transmission unit
342: receiving coil 343: vortex prevention member
344: SMPS unit 305: key signal input unit

Claims (5)

In the case of driving LED lights installed for a plurality of different facilities, since driving power is supplied using commercial power for each LED light, in a device providing lighting service,
When the lighting service is provided, a wireless power transmission transmitter installed on the commercial power side to induce power by a magnetic field into the commercial power source and transmit it wirelessly;
Since it is installed on the side of the LED lamp spaced apart from the commercial power supply side, receives the wireless power transmitted by the wireless power transmission transmitter, and has a winding length corresponding to the separation distance from the wireless power transmission transmitter, the maximum wireless power a receiving coil for receiving;
The wireless power transmission unit is installed in the middle of its own, is itself fixed to the cable casing, and has a magnet attached to its lower surface;
A supporting portion bonded to the lower surface of the supporting portion through a magnet and having the receiving coil installed on its lower surface, so that the device is detachably installed as a whole;
a metal member located under the receiving coil;
a ferrite blocking member located under the metal member;
When wireless power is received through the receiving coil and transmitted to the metal member, the receiving coil is formed to surround a shielding material, and a soft metallic salient pole structure is formed toward the inside of the receiving coil to have an electromagnetic beam and Since the vortex generated through the metal is also prevented, a guide member for guiding the wireless power in a good state;
A wireless power transmission receiving unit positioned below the receiving coil of the base unit and converting wireless power through the metal member, the ferrite blocking member, and the eddy current prevention member into direct current power as driving power such as an LED;
an LED driver that converts the direct current power converted by the wireless power transmission receiver into different values and supplies them to respective LED lights; and
a control unit for controlling the conversion operation of the LED driver to control the flickering operation of the LED lamp according to the user's desire; contains,

The control unit,
When a manager is provided with information on the number of LED lights for each different facility location to be used, the conversion operation of the LED driver is controlled to convert the DC power to a preset switching time of driving power for one LED lamp and LED lights for each facility location. Since the number of driving power is converted differently according to the difference between switching times, power conversion is integrated for each lighting environment; Moisture-proof and dust-proof LED wireless power supply-based LED luminaires using a magnetic field. The method of claim 1,
The control unit,
a) Analyzing the power consumption pattern for LEDs based on the LED driving characteristics by the magnetic field, matching and registering predicted power consumption for each different power change pattern,
b) When driving the LED light, by extracting the change pattern of actual power,
c) comparing the actual power consumption according to the extracted actual power change pattern with the predicted power consumption matched to the actual power change pattern;
d) As a result of the comparison, when the difference between the actual power consumption and the predicted power consumption falls within a preset range, an alarm is not provided to a pre-registered terminal, and an alarm is provided when it falls within a preset range. ; Moisture-proof and dust-proof LED wireless power supply-based LED luminaires using a magnetic field. The method of claim 1,
The wireless power transmission unit
When the power is transmitted, an overvoltage protection unit connected to a ballast having an SMPS unit that converts commercial power into DC power, an HF inverter for DC power of the SMPS unit, and wirelessly transmitting power by the HF inverter as a magnetic field Including a coil for wireless power transmission,

It is composed of a sub-wireless power transmission coil and a sub-reception coil of a shielding material spaced apart from each other forming a closed path with the wireless power transmission coil, and is connected to the sub-wireless power transmission coil and the sub-reception coil to generate resonance and impedance A first relay unit having a first variable capacitor for matching; including,
The receiving coil,
located within the closed passage of the relay unit; Moisture-proof and dust-proof LED wireless power supply-based LED luminaires using a magnetic field. The method of claim 1,
The wireless power transmission unit
When the power is transmitted, an overvoltage protection unit connected to a ballast having an SMPS unit that converts commercial power into DC power, an HF inverter for DC power of the SMPS unit, and wirelessly transmitting power by the HF inverter as a magnetic field Including a coil for wireless power transmission,

A second variable consisting of a conductive metal thin film of a shielding material spaced apart from the wireless power transmission coil and a sub-receiving coil that forms a closed path, and is connected to the conductive metal thin-film and the sub-receiving coil to perform resonance and impedance matching. A second relay unit having a capacitor; including,
The receiving coil,
located within the closed passage of the relay unit; Moisture-proof and dust-proof LED wireless power supply-based LED luminaires using a magnetic field. According to claim 3 or claim 4,
The coil for wireless power transmission,
Those made by winding and erecting magnetic cores in the closed passages of each relay unit, or by winding and laying magnetic cores to offset magnetic flux generated in the closing passages; Moisture-proof and dust-proof LED wireless power supply-based LED luminaires using a magnetic field.

Images