CN101667752A - Wireless coupling resonance magneto-electric transmitter - Google Patents

Wireless coupling resonance magneto-electric transmitter Download PDF

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Publication number
CN101667752A
CN101667752A CN 200810071707 CN200810071707A CN101667752A CN 101667752 A CN101667752 A CN 101667752A CN 200810071707 CN200810071707 CN 200810071707 CN 200810071707 A CN200810071707 A CN 200810071707A CN 101667752 A CN101667752 A CN 101667752A
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CN
China
Prior art keywords
transmitter
line
electrically connected
coil
receiver
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CN 200810071707
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Chinese (zh)
Inventor
洪长胜
Original Assignee
洪长安
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Priority to CN 200810071707 priority Critical patent/CN101667752A/en
Publication of CN101667752A publication Critical patent/CN101667752A/en

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Abstract

The invention relates to the technical field of electronics, in particular to a wireless coupling resonance magneto-electric transmitter consisting of a transmitter and a receiver. The transmitter consists of a power supply input circuit, a longitudinal wave generating line, a frequency modulation and carrier line, a transmitting line and a transmitting coil frequency modulation line which are electrically connected in turn; and the receiver consists of a receiving power supply coil, a frequency modulation and line, a variable voltage rectifying line and a load which are electrically connected. Because of the structure, the transmitter can wirelessly transmit magnetic electricity, can be applied to daily life, has good safety effect, avoids sparkles and danger causing explosion, thoroughlyprevents water, reduces the cost, increases the competition, and is convenient to operate.

Description

无线耦合共振磁电传送器 A wireless transmitter coupled resonator magnetoelectric

技术领域: FIELD:

本发明涉及电子技术领域,具体涉及无线耦合共振磁电传送器。 The present invention relates to electronic technologies, and particularly relates to a wireless transmitter coupled magnetic resonance. 背景技术: Background technique:

室内空间安装线路麻烦复杂,影响室内美观,易产产生事故,现有的文献记载,Hwang等在《Proceeding of 2005正EE EMB,pp809-813》(2005国际电子电工生物医学工程年会)上发表的Relative Location Estimation of power-Receiver from Transmitter for In Vivo Robotic Capsules (机器人胶囊能量收发相对位置的估算)提出一对平行安装的接收、发射线圈,该文中提出的这种安装方法过于理想化,其实对于运动器件来说,接收线圈是随机运动的,并不能保持两者的相对平行使发射线圈磁力线最多的穿过接收线圈,传送的能量小,在某种极限情况,例如接收线圈轴线与发射线圈轴线升垂直时, 有可能接收不到能量,而基于两组独立电路透过耦合在空气中电源传输的技术,这技术在上世纪N.Tesla,USpatent 1,119,732(1914).中发表 Indoor space to install complex wiring trouble, affecting indoor appearance, easy to produce to produce an accident, the existing literature, Hwang et published in the "Proceeding of 2005 positive EE EMB, pp809-813" (2005 International Electronic and Electrical Biomedical Engineering Annual Meeting) the relative location Estimation of power-receiver from transmitter for in Vivo robotic capsules (capsule robot energy transceiver estimated relative position) is proposed to receive a pair of parallel mounting of the transmit coil, this mounting method proposed in this paper too idealistic, in fact, for movement means, the receiver coil is a random motion, and can not maintain the relative levels of both of the most exercised through the receiving coil of the transmitter coil of the magnetic field lines, small energy transfer, in some extreme cases, such as the axis of the receiving coil and the transmitting coil axis when the vertical lift, there might not receive power, and based on two independent circuits, published in the technical century N.Tesla, USpatent 1,119,732 (1914). through coupling power transmission technology in air

过有关高压耦合放电技术,但这高压耦合放电技术很难应用到日常生 For high voltage discharge through the coupling technique, but this technique is difficult to apply high voltage to the discharge coupling daily life

活上,结构复杂,使用不便。 On live, complex structure, and inconvenient to use.

发明内容 SUMMARY

本发明的目的是提供无线耦合共振磁电传送器,可无线传送磁电。 Object of the present invention to provide a wireless transmitter coupled magnetic resonance, magnetic transmission can be wireless. 无线耦合共振磁电传送器由发送器和接收器构成,所述发送器依次由电源输入电路、纵波产生线路、调频及载波线路、发射线路、发射线圈调频线路电连接而成,所述接收器由接收电源线圈、调频及线路、变压整流线路、负载电连接而成。 A wireless transmitter coupled resonator composed of a magnetic transmitter and a receiver, the transmitter sequentially input from the power circuit, a longitudinal wave generating circuit, and a frequency modulated carrier lines, transmission lines, the FM transmitter coil electrically connected in line, said receiver a power receiving coil, and the frequency modulation circuit, the rectified line transformer, the load electrically connected to each other.

所述纵波产生线路、调频及载波线路、发射线路电连接于CPU控制器上。 The longitudinal wave generating circuit, and a frequency modulated carrier lines, transmission lines electrically connected to the CPU controller.

所述输入电源为交流电,所述发送器依次由交流电源输入电路、 变压整流线路、纵波产生线路、调频及载波线路、发射线路、发射线圈调频线路电连接而成。 The input power is AC, the transmitter sequentially from the AC power input circuit, the rectified line transformer, longitudinal wave generating circuit, and a frequency modulated carrier lines, transmission lines, the transmission line is electrically connected in the FM coil.

由于设有上述结构,该传送器可无线传送磁电,可以应用到日常生活上,安全效果好、避免火花和引起爆炸的危险,彻底做到防水, 成本减低,增加竞争力,操作方便。 Due to the above structure is provided, the transmitter can wirelessly transmit magnetic power, it can be applied to daily life, good security effect, to avoid the risk of sparks and cause an explosion, do a thorough waterproof, reduce costs, increase competitiveness, and easy to operate. 附图说明 BRIEF DESCRIPTION

图1为本发明的无线耦合共振磁电传送器的板块示意图。 1 of the present invention FIG wireless coupling magnetic resonance schematic conveyor plate.

图2为本发明的无线耦合共振磁电传送器发送器的原理图。 A wireless transmitter coupled magnetic resonance schematic diagram of the transmitter of FIG. 2 of the present invention. 图3为本发明的无线耦合共振磁电传送器接收器的原理图。 Magnetic resonance coupling radio transmitter receiver schematic in Figure 3 of the present invention. 具体实施方式实施例1 DETAILED DESCRIPTION Example 1

如图1、图2、图3所示,无线耦合共振磁电传送器由发送器1 和接收器2构成,所述发送器依次由直流电源输入电路17、纵波产生线路13、调频及载波线路14、发射线路15、发射线圈调频线路16 电连接而成,所述接收器2由接收电源线圈21、调频及线路22、变压整流线路23、负载24电连接而成。 1, FIG. 2, FIG. 3, the radio transmitter coupled magnetic resonance constituted by the transmitter 1 and the receiver 2, the transmitter 13 generates in turn, and the carrier frequency modulated by the DC power supply line of the circuit input circuit 17, the longitudinal wave 14, transmission line 15, the FM transmitter coil 16 is electrically connected in line, the receiver 2 receives a power from the coil 21, and the FM circuit 22, the rectified line transformer 23, the load 24 is electrically connected to each other. 所述纵波产生线路13、调频及载波线路14、发射线路15电连接于控制器18上.所述输入电源为交流电时,所述发送器依次由交流电源输入电路ll、变压整流线路12、 纵波产生线路13、调频及载波线路14、发射线路15、发射线圈调频线路16电连接而成。 When the longitudinal wave generating circuit 13, and the FM carrier line 14, transmission line 15 is electrically connected to the controller 18. The AC input power, the transmitter sequentially from the AC power input circuit ll, transformer rectifier circuit 12, longitudinal wave generating circuit 13, and the FM carrier line 14, transmission line 15, the FM transmitter coil 16 is electrically connected to each line. 使用时,发射器和接收器振动频率要一致,而振动频率是基于频率公式计算而得的,发射器加入纵波载负电源发射传送出去,而接收组加入共振感应,可以调校到所需要的共振距离, 而产生共振原理,共振距离最好应为波长一半,而调校振动频率是调校L和C之值,由理论公式计算调校,交流电源输入发射组,交流电源会经过变压整流线路,变为直流电推动纵波产生线路,同时,自动调校所需要的共振距离,CPU控制器会用以理论公式计算电感(L) 和电容(C)值,决定纵波的频调率和波长,再经过载波和发射线路从线圈发射出去。 In use, the transmitter and receiver to be consistent oscillation frequency, while the vibration frequency is obtained based on the frequency formula, compressional wave transmitter added negative power transmitter to send out the carrier, and the receiver group join resonant inductive, can adjust to the required resonance distance, while the principle of resonance, a resonance distance should preferably half wavelength, while the vibration frequency is tuned to adjust the value of L and C, is calculated by the theoretical formula of calibration, transmit AC power pack, AC transformer will go through the rectified line, into direct current lines to promote the longitudinal wave is generated, while the required automatic tuning resonance distance, the CPU controller theoretical formula for the inductance (L) and capacitance (C) value, determined tone and the wavelength of the longitudinal wave , and then through the transmission line carrier emitted from the coil.

如图2所示,用直流电源输入发射组,则直流电源便可以直接连接到纵波产生线路上,而不需要经过变压整流线路。 2, DC power input emitter group, and the DC power source can be connected directly to the P-wave generating circuit, the rectified line without passing through the transformer. 实施例3 Example 3

如图l、图2、图3所示,如所需要感应距离不长的话,亦可以不用CPU控制器,只靠耦合原理,接收器亦可感应到发射器所传来的电能,接收器是要有相同调频线路来接收发射器所传来的电能,是交流电源,要输入到变压整流线路,使变为直流电压,可以应用到负载上。 FIG. L, FIG. 2, FIG. 3, as desired sensing distance is not long, CPU controller also can not, rely on coupling principle, the receiver can also be induced to the power transmitted by the transmitter, the receiver is have the same FM receiver circuit to the power transmitted by the transmitter, an AC power source, the transformer to be input to the rectifying circuit, into a DC voltage so can be applied to the load. 如负载是可以应用交流电的话,接收组所接收到的交流电源, 便可以直接应用到负载上,实际操作上,发射器基本上是固定在插座上,而接收器是可以携带式的电子设备。 The load is applied alternating current, the receiver can set the received AC power, it can be directly applied to the load, the actual operation, the transmitter is substantially fixed to the socket, and the receiver is a portable electronic device. 如图1所示,电力线会透过发射线圈从两面作环状散射出外,这是发射器从AC交流电取得电能, As shown in FIG 1, the power line will be scattered to go out from both sides through the annular transmitter coil, which is acquired transmitter power from AC power AC,

透过发射线圈用本原理发射出去,电力是不会受遮挡物3影响,可以绕过遮挡物3而传送,无电能的负载,只靠感应到的无电便可以工作。 Electroless transmit through the transmit coil out by the present principles, the power is not affected by the covering 3, 3 can be transmitted to bypass an obstruction, no load power, can rely on the induction to work.

Claims (3)

1、无线耦合共振磁电传送器,其特征是:无线耦合共振磁电传送器由发送器和接收器构成,所述发送器依次由电源输入电路、纵波产生线路、调频及载波线路、发射线路、发射线圈调频线路电连接而成,所述接收器由接收电源线圈、调频及线路、变压整流线路、负载电连接而成。 1, a wireless transmitter coupled magnetic resonance, characterized in that: a wireless transmitter coupled resonator composed of a magnetic transmitter and a receiver, the transmitter sequentially input from the power circuit, a longitudinal wave generating circuit, and a frequency modulated carrier lines, transmission lines , FM transmitter coil electrically connected in line, the receiver receives from the power coil and the FM circuit, the rectified line transformer, the load electrically connected together.
2、 根据权利要求l所述的无线耦合共振磁电传送器,其特征是: 所述纵波产生线路、调频及载波线路、发射线路电连接于CPU控制器上。 2, a wireless transmitter electrically coupled to the magnetic resonance as claimed in claim l, wherein: the longitudinal wave generating circuit, and a frequency modulated carrier lines, transmission lines electrically connected to the CPU controller.
3、 根据权利要求l所述的无线耦合共振磁电传送器,其特征是: 所述输入电源为交流电,所述发送器依次由交流电源输入电路、变压整流线路、纵波产生线路、调频及载波线路、发射线路、发射线圈调频线路电连接而成。 3, a wireless transmitter electrically coupled to the magnetic resonance as claimed in claim l, wherein: the input power is AC, the transmitter sequentially from the AC power input circuit, the rectified line transformer, longitudinal wave generating circuit, and FM carrier line, transmission lines, the transmission line is electrically connected in the FM coil.
CN 200810071707 2008-09-04 2008-09-04 Wireless coupling resonance magneto-electric transmitter CN101667752A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101969237A (en) * 2010-11-05 2011-02-09 天津工业大学 Radio electric energy transmission experimental system
CN102396855A (en) * 2010-09-10 2012-04-04 北京爱国者新能源科技发展有限公司 Solar wireless power transmission umbrella
CN102403802A (en) * 2010-09-10 2012-04-04 北京爱国者新能源科技发展有限公司 Point-to-point wireless power transmission system

Citations (5)

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Publication number Priority date Publication date Assignee Title
US5898578A (en) * 1996-12-24 1999-04-27 Matsushita Electric Works, Ltd. Transformer-isolated power transfer apparatus having intermittent and continuous oscillation modes of operation
US20070222542A1 (en) * 2005-07-12 2007-09-27 Joannopoulos John D Wireless non-radiative energy transfer
CN101147308A (en) * 2006-10-24 2008-03-19 翰林Postech株式会社 Non-contact charger available of wireless data and power transmission, charging battery-pack and mobile divice using non-contact charger
US20080157603A1 (en) * 2006-03-23 2008-07-03 Access Business Group International Llc Inductive power supply with device identification
CN201499022U (en) * 2009-06-18 2010-06-02 洪长安 Wireless coupling resonance magneto-electricity transmitter

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5898578A (en) * 1996-12-24 1999-04-27 Matsushita Electric Works, Ltd. Transformer-isolated power transfer apparatus having intermittent and continuous oscillation modes of operation
US20070222542A1 (en) * 2005-07-12 2007-09-27 Joannopoulos John D Wireless non-radiative energy transfer
US20080157603A1 (en) * 2006-03-23 2008-07-03 Access Business Group International Llc Inductive power supply with device identification
CN101147308A (en) * 2006-10-24 2008-03-19 翰林Postech株式会社 Non-contact charger available of wireless data and power transmission, charging battery-pack and mobile divice using non-contact charger
CN201499022U (en) * 2009-06-18 2010-06-02 洪长安 Wireless coupling resonance magneto-electricity transmitter

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102396855A (en) * 2010-09-10 2012-04-04 北京爱国者新能源科技发展有限公司 Solar wireless power transmission umbrella
CN102403802A (en) * 2010-09-10 2012-04-04 北京爱国者新能源科技发展有限公司 Point-to-point wireless power transmission system
CN101969237A (en) * 2010-11-05 2011-02-09 天津工业大学 Radio electric energy transmission experimental system

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