TWM496908U - A wireless charging coil PCB structure - Google Patents

Abstract

A wireless charging coil PCB structure comprising at least one coil is disposed on a printed circuit board (PCB), wherein a slit forming on a portion of the wire of the coil. The slit is located in the center of the coil wires extending parallel to the guide wire of the coil to increase the distance between the coil turns of the wire winding, and to overcome the "Proximity Effect" between the coil wire, and reducing the coil impedance and enhance the cooling effect.

Description

無線充電印刷電路板線圈結構Wireless charging printed circuit board coil structure

新型係為一種無線充電線圈結構，特別是關於一種可解決線圈間「鄰近效應」(Proximity Effect)的無線充電傳送端的線圈結構。The new type is a wireless charging coil structure, and more particularly relates to a coil structure that can solve the wireless charging transmission end of the "Proximity Effect" between the coils.

無線充電(Wire-Less Charger,WLC)技術是一種不需要使用電力線，利用電磁感應的方式傳輸電力充電技術。如圖一所示，係為習知無線充電傳輸的架構示意圖，包括有一電力傳送模組10及一電力接收模組20，該電力傳送感應模組10具有一傳送端線圈11、一傳送端鐵心板12，而該電力接收感應模組20亦同樣具有一接收端線圈21、一接收端鐵心板22。當該電力接收模組20靠近該電力傳送模組10時，電流流經該電力傳送感應模組10的傳送端線圈11產生磁場，使得該電力接收感應模組20的接收端線圈21感應該磁場產生電流。Wire-Less Charger (WLC) technology is a method of transmitting power charging technology by using electromagnetic induction without using a power line. As shown in FIG. 1 , it is a schematic diagram of a conventional wireless charging transmission, including a power transmission module 10 and a power receiving module 20 . The power transmission sensing module 10 has a transmitting end coil 11 and a transmitting end core. The power receiving and sensing module 20 also has a receiving end coil 21 and a receiving end core plate 22. When the power receiving module 20 is close to the power transmitting module 10, a current flows through the transmitting end coil 11 of the power transmitting sensing module 10 to generate a magnetic field, so that the receiving end coil 21 of the power receiving sensing module 20 senses the magnetic field. Generate current.

高階的無線充電模組在電力傳送端會做成較大充電範圍感應板，而被充電端的電力接收裝置則不論放在感應板的任何地方都能順利進行充電，而不必放在固定位置， 因此無線充電傳送端就會設置多組的線圈覆蓋充電範圍，如二組線圈、三組線圈...等等。The high-end wireless charging module will be made into a larger charging range sensing board at the power transmitting end, and the power receiving device of the charged end can be charged smoothly regardless of where it is placed on the sensing board, without being placed in a fixed position. Therefore, the wireless charging transmitting end sets a plurality of sets of coils covering the charging range, such as two sets of coils, three sets of coils, and the like.

由於線圈捲繞的匝數與無線充電的傳送頻率有關，且線圈11捲繞的中心部位會形成感應的空窗區13，故一般會將另一組線圈11’排列在線圈11的上方，如圖二所示為一種習知有二組線圈的感應板12示意圖，意即線圈11’放置在線圈11的上方，且上方線圈11’有一部分會經過下方線圈11中心空窗區13，相對的下方線圈11也會有一部分經過上方線11’的中心空窗區13’。Since the number of turns of the coil is related to the transmission frequency of the wireless charging, and the center portion of the coil 11 is wound to form the induced empty window region 13, the other coil 11' is generally arranged above the coil 11, such as 2 is a schematic view of a sensing plate 12 having two sets of coils, that is, the coil 11' is placed above the coil 11, and a part of the upper coil 11' passes through the central hollow window region 13 of the lower coil 11, opposite The lower coil 11 also has a portion passing through the central empty window portion 13' of the upper line 11'.

而如圖三所示為一種習知有三組線圈的感應板示意圖。在圖三中的三組線圈會排列成上下的品字狀，其中每一組線圈11’會排列在另外一組線圈11”中間的上方或下方，使每一組線圈11’都會有一部分經過另一組線圈11”的中心空窗區13”。同樣地，四組、五組或以上的線圈也是以此類推，只是排列的方式會有些差異，因此就不再贅述。As shown in FIG. 3, a schematic diagram of an induction board having three sets of coils is known. The three sets of coils in Fig. 3 are arranged in a vertical shape, wherein each set of coils 11' is arranged above or below the middle of the other set of coils 11", so that each set of coils 11' will have a part of it. The other group of coils 11" has a central empty window region 13". Similarly, four groups, five groups or more of coils are similar, but the arrangement will be somewhat different, and therefore will not be described again.

而為了降低無線充電模組的整體高度，業者會使用多層印刷電路來製做多組交錯堆疊的線圈，如圖四即為習知印刷電路板的三組線圈感應板的側視示意圖，其中三組線圈11’、11”皆會安置在一傳送端鐵心板12上，上端再覆罩一頂板14，因此習知的無線充電感應板就會有至少四層或以上的厚度。In order to reduce the overall height of the wireless charging module, the manufacturer will use a multi-layer printed circuit to make a plurality of sets of staggered stacked coils, as shown in FIG. 4, which is a side view of three sets of coil sensing boards of a conventional printed circuit board, three of which The set of coils 11', 11" will be placed on a transfer end core plate 12, and the upper end will be covered with a top plate 14, so that the conventional wireless charge sensor board will have a thickness of at least four layers or more.

再由於高階無線充電模組對於較高的傳送效率 及較佳的散熱有相當高的要求，因此使用印刷電路板的線圈阻抗就必需非常低，然而無線充電技術是使用高頻的交流電(AC)，因此在線圈的緊密迴圈之間或是上下重疊的線圈之間就會形成電磁場的「鄰近效應」(Proximity Effect)，這會使得線圈的阻抗增加，並發生散熱不良的情況，因此對於高階無線充電模組而言是急待克服解決的問題。And because of the high transmission efficiency of high-order wireless charging modules And the better heat dissipation has a very high requirement, so the coil impedance of the printed circuit board must be very low, but the wireless charging technology uses high frequency alternating current (AC), so between the tight loops of the coil or up and down The "Proximity Effect" of the electromagnetic field is formed between the overlapping coils, which causes the impedance of the coil to increase and causes poor heat dissipation. Therefore, it is an urgent problem to be solved for the high-order wireless charging module.

本創作的主要目的係為解決習知印刷電路板的無線充電線圈結構，因線圈導線之間的「鄰近效應」(Proximity Effect)，因此本創作主要技術特徵係提供一種無線充電印刷電路板線圈結構，在線圈的至少一部分導線上設計有狹縫，且該狹縫位於線圈導線的中央處，沿著線圈導線平行延伸，如此可增加線圈導線圈繞的距離，降低線圈阻抗及加強散熱效果。The main purpose of this creation is to solve the structure of the wireless charging coil of the conventional printed circuit board. Because of the "Proximity Effect" between the coil wires, the main technical feature of the present invention is to provide a wireless charging printed circuit board coil structure. A slit is designed on at least a part of the wire of the coil, and the slit is located at the center of the coil wire and extends along the coil wire in parallel, so as to increase the distance of the coil guide coil, reduce the coil impedance and enhance the heat dissipation effect.

本創作的次要技術特徵係在於提供上述無線充電印刷電路板線圈結構，該線圈可分布於印刷電路板的單一表面、上下層表面或中間層。且上述的狹縫可布滿整個線圈導線，僅線圈的兩端部導線沒有狹縫；或者上述的狹縫僅存在於該線圈的非轉角導線上。A secondary technical feature of the present invention is to provide the above described wirelessly charged printed circuit board coil structure that can be distributed over a single surface, upper and lower surface or intermediate layer of the printed circuit board. And the above slit can cover the entire coil wire, and only the wires at both ends of the coil have no slit; or the slit described above exists only on the non-corner wire of the coil.

本創作之再一技術特徵係在於提供上述無線充電印刷電路板線圈結構，其中印刷電路的其中一層該線圈的導線經過另一層該線圈中心無導線的空窗區，使上下層間的 該些線圈呈交錯堆疊狀。A further technical feature of the present invention is to provide the above-mentioned wireless charging printed circuit board coil structure, wherein one of the coils of the printed circuit passes through another layer of the coil-free empty window area at the center of the coil, so that the upper and lower layers are The coils are in a staggered stack.

本創作之又一技術特徵係在於提供上述無線充電印刷電路板線圈結構，其中印刷電路板下層或中間層的線圈至少有部分導線穿過印刷電路板分布在上層表面，且分布在上層表面線圈的非重疊區。Another technical feature of the present invention is to provide the above-described wireless charging printed circuit board coil structure, wherein at least a part of the wires of the lower layer or the intermediate layer of the printed circuit board are distributed on the upper surface through the printed circuit board, and are distributed on the upper surface coil. Non-overlapping area.

10‧‧‧電力傳送模組10‧‧‧Power transmission module

11,11’,11”‧‧‧傳送端線圈11,11’,11”‧‧‧ transmit coil

12‧‧‧傳送端鐵心板12‧‧‧Transport end core plate

13,13’,13”‧‧‧空窗區13,13’,13”‧‧‧ empty window area

14‧‧‧頂板14‧‧‧ top board

20‧‧‧電力接收模組20‧‧‧Power receiving module

21‧‧‧接收端線圈21‧‧‧ receiving coil

22‧‧‧接收端鐵心板22‧‧‧ receiving end core plate

30‧‧‧印刷電路板30‧‧‧Printed circuit board

50,81~83,85~90‧‧‧線圈50,81~83,85~90‧‧‧ coil

51,84‧‧‧狹縫51,84‧‧‧ slit

52‧‧‧端部導線52‧‧‧End wire

53‧‧‧轉角導線53‧‧‧Corner wire

91~93‧‧‧導線91~93‧‧‧Wire

圖一係為習知無線充電傳輸的架構示意圖；圖二為習知有二組線圈的感應板示意圖；圖三為習知有三組線圈的感應板示意圖；圖四為習知三組線圈感應板的側視示意圖；圖五為本創作單一線圈的印刷電路板實施例示意圖；圖六為本創作四組線圈的印刷電路板實施例示意圖；圖七為本創作線圈轉角導線的實施例局部放大圖；圖八A~C為本創作三組線圈實施例的印刷電路板上視圖、下視圖及側視圖；圖九為本創作三組線圈實施例的印刷電路板側示意圖；及圖十A、B為本創作雙面印刷電路板的另一實施例的上視圖及下視圖。Figure 1 is a schematic diagram of a conventional wireless charging transmission; Figure 2 is a schematic diagram of an induction board having two sets of coils; Figure 3 is a schematic diagram of an induction board having three sets of coils; and Figure 4 is a conventional three-group coil sensing board. Figure 5 is a schematic view of an embodiment of a printed circuit board for creating a single coil; Figure 6 is a schematic view of an embodiment of a printed circuit board for creating four sets of coils; Figure 7 is a partial enlarged view of an embodiment of a coiled corner wire for creating a coil Figure 8A~C is a printed circuit board view, bottom view and side view of the three sets of coil embodiments; Figure 9 is a schematic view of the printed circuit board side of the three sets of coil embodiments; and Figure 10A, B A top view and a bottom view of another embodiment of the present double-sided printed circuit board.

為了使 貴審查委員能更進一步瞭解本創作為達成預定目的所採取之技術、手段及功效，請參閱以下有關 本創作之詳細說明與附圖，相信本創作之目的、特徵與特點，當可由此得一深入且具體之瞭解，然而所附圖式僅提供參考與說明用，並非用來對本創作加以限制者。In order to enable your review board to better understand the techniques, means and effects of this creation for the intended purpose, please refer to the following The detailed description and the drawings of the present invention are believed to have an in-depth and specific understanding of the purpose, features and characteristics of the present invention. However, the drawings are only for reference and explanation, and are not intended to limit the creation. .

本創作主要是解決無線充電感應板中印刷電路板式線圈的「鄰近效應」(Proximity Effect)，以降低線圈的阻抗值，而本創作的印刷電路板包括有單層板、雙面板或多層板，因此以下將分別舉出實施例加以說明，然而本創作的線圈數並不受限於所例舉的實施例。This creation is mainly to solve the "Proximity Effect" of the printed circuit board coil in the wireless charging sensor board to reduce the impedance value of the coil, and the printed circuit board of the present invention includes a single layer board, a double panel or a multi-layer board. Therefore, the following description will be respectively given by way of examples, but the number of coils of the present creation is not limited to the illustrated embodiment.

首先本創作以單層印刷電路板的無線充電線圈結構為例，如圖五所示係為本創作單一線圈的印刷電路板實施例示意圖。本創作的無線充電感應線圈結構包括有一組線圈50捲繞成一同心軸方式設置於一印刷電路板30上，而該印刷電路板30則設置於一鐵心板(圖中未示)，以形成無線充電的感應板，且該線圈50的導線上形成有一狹縫51，且該狹縫51是位於該線圈50導線的中央處，沿著該線圈50導線平行延伸。而該線圈50捲繞的形狀可為矩形、圓形、橢圓形或多邊形等，本創作線圈20的捲繞形狀不受限於本案所列舉的實施例。又如圖六所示為本創作四組線圈的印刷電路板實施例示意圖，本創作的無線充電線圈結構，包括有四組線圈50分布於一印刷電路板30上，每一線圈20的導線上同樣地形成有狹縫21，而該些線圈50的組數、大小及形狀等可不盡相同，可依印刷電路板的形狀及大小做變動，不受限於本創作所列舉 的實施例。Firstly, the present invention takes a wireless charging coil structure of a single-layer printed circuit board as an example, as shown in FIG. 5 is a schematic diagram of an embodiment of a printed circuit board for creating a single coil. The wireless charging induction coil structure of the present invention comprises a coil 50 wound in a concentric manner on a printed circuit board 30, and the printed circuit board 30 is disposed on a core board (not shown) to form a wireless A charging sensor board is formed, and a slit 51 is formed on the wire of the coil 50, and the slit 51 is located at the center of the wire of the coil 50, and the wire extends parallel along the coil 50. The shape in which the coil 50 is wound may be rectangular, circular, elliptical or polygonal, and the winding shape of the present coil 20 is not limited to the embodiment exemplified in the present invention. FIG. 6 is a schematic diagram of an embodiment of a printed circuit board for creating four sets of coils. The wireless charging coil structure of the present invention includes four sets of coils 50 distributed on a printed circuit board 30, and wires of each coil 20 Similarly, the slits 21 are formed, and the number, size, and shape of the coils 50 may be different, and may be changed according to the shape and size of the printed circuit board, and are not limited to the examples listed in the present application. An embodiment.

在本創作的實施例中，在線圈20導線上的狹縫21可以增加線圈50導線圈繞的距離，但又不會增加線圈50的圈繞匝數，如此可降低線圈50導線之間鄰近效應，使得線圈50的交流(AC)阻抗降低，並加強線圈50的散熱效果。而在圖五及圖六的實施例中，該線圈50導線上的狹縫51是佈滿整個線圈50，僅線圈50的兩端部導線52沒有狹縫51。另外，在本創作的圖七線圈轉角導線的實施例局部放大圖中，該狹縫51是僅存在於線圈50的非轉角導線上，如僅在線圈50的直線導線上存在有狹縫51，而在線圈50的轉角導線53上並沒有狹逢51存在，因為轉角處導線相較於直線處導線較不易產生「鄰近效應」，因此本創作可以在轉角的導線處不在存狹逢51。In the present embodiment, the slit 21 on the wire of the coil 20 can increase the distance around which the coil 50 is wound, but does not increase the number of turns of the coil 50, thus reducing the proximity effect between the wires of the coil 50. The alternating current (AC) impedance of the coil 50 is lowered, and the heat dissipation effect of the coil 50 is enhanced. In the embodiment of Figures 5 and 6, the slit 51 on the wire of the coil 50 is full of the entire coil 50, and only the wire 52 at both ends of the coil 50 has no slit 51. In addition, in a partially enlarged view of the embodiment of the coiled corner wire of FIG. 7 of the present invention, the slit 51 is only present on the non-corner wire of the coil 50, such as the slit 51 only on the straight wire of the coil 50, On the corner wire 53 of the coil 50, there is no narrowness 51, because the wire at the corner is less prone to the "proximity effect" than the wire at the straight line, so the creation can be omitted at the corner of the wire.

接著本創作以雙面印刷電路板的無線充電線圈結構為例說明，請一併參閱圖八A、圖八B及圖八C所示，圖八A為本創作三組線圈實施例的印刷電路板上視圖，圖八B為下視圖，圖八C為側視圖。在本創作圖八的實施例中包括有三組線圈，其中一組線圈81分布於印刷電路板30的第一表面，另外二組線圈82、83則分布於印刷電路板30的第二表面，當然本創作雙面印刷電路板上的線圈數量、大小及形狀並不受限於所列舉的實施例。同樣地，在每一線圈81~83的導線上都形成有狹縫84，而該狹縫84可以佈滿整個線圈81~83，僅線圈兩端部導線沒有狹縫84，也可以僅存在於線圈81~83的非轉角 導線上。而在圖八A~C的實施例中該狹縫84是布滿整個線圈導線。另外在圖八A~C的實施例中，三組線圈的排列方式是在印刷電路板30第一表面的一組線圈81對應於第二表面二組線圈82、83中間位置，使印刷電路板的上下表面間的該些線圈呈交錯堆疊狀，換言之，線圈81的導線會經過線圈82、83中心的空窗區，同樣地，線圈82、83也會經過線圈31中心的空窗區，使得無線充電感應板上的每個位置都能感應充電而沒有空窗區。Next, the present invention is described by taking the wireless charging coil structure of the double-sided printed circuit board as an example. Please refer to FIG. 8A, FIG. 8B and FIG. 8C together. FIG. 8A is a printed circuit for creating three sets of coil embodiments. The board view, FIG. 8B is a bottom view, and FIG. 8C is a side view. In the embodiment of the present invention, eight sets of coils are included, wherein one set of coils 81 are distributed on the first surface of the printed circuit board 30, and the other two sets of coils 82, 83 are distributed on the second surface of the printed circuit board 30, of course. The number, size and shape of the coils on the double-sided printed circuit board of the present invention are not limited to the illustrated embodiments. Similarly, a slit 84 is formed on each of the wires 81 to 83, and the slit 84 can cover the entire coil 81 to 83. Only the wires at both ends of the coil have no slit 84, and may exist only in the wire. Non-rotation angle of coils 81~83 On the wire. In the embodiment of Figures 8A-C, the slit 84 is full of the entire coil wire. In addition, in the embodiment of FIGS. 8A to AC, the three sets of coils are arranged in such a manner that a set of coils 81 on the first surface of the printed circuit board 30 corresponds to the middle position of the second set of two sets of coils 82, 83, so that the printed circuit board The coils between the upper and lower surfaces are in a staggered stack. In other words, the wires of the coil 81 pass through the empty window region at the center of the coils 82, 83. Similarly, the coils 82, 83 also pass through the empty window region at the center of the coil 31, so that Each location on the wireless charging sensor board senses charging without an empty window area.

再著本創作以多層印刷電路板的無線充電線圈結構為例說明，請參閱圖九所示，圖九為本創作三組線圈實施例的印刷電路板側示意圖。在本創作圖九的實施例中包括有三組線圈，其中第一組線圈85分布於印刷電路板30的最上層表面，第二組線圈86分布於印刷電路板30的中間層，而第三組線圈87分布於印刷電路板的最下層表面，當然本創作多層印刷電路板上的線圈數量、大小及形狀並不受限於所列舉的實施例。同樣地，在每一線圈85~87的導線上都形成有狹縫84，而該狹縫84可以佈滿整個線圈85~87，僅線圈兩端部沒有狹縫84，也可以僅存在於線圈85~87的非轉角導線上。而在印刷電路板中的其中一層(包括最上層表面、中間層或最下層表面)線圈的導線會經過至少另一層(包括最上層表面、中間層或最下層表面)線圈中心的空窗區。如圖九的實施例中，第一組線圈85經過第二組線圈86中心的空窗區，而第二組線圈86又 經過第三線87及第一組線圈85中心的空窗區，第三組線圈亦經過第二線圈86中心的空窗區，使得無線充電感應板上的每個位置都能感應充電而沒有空窗區。The present invention is described by taking the wireless charging coil structure of the multilayer printed circuit board as an example. Referring to FIG. 9 , FIG. 9 is a schematic side view of the printed circuit board of the embodiment of the three sets of coils. In the embodiment of the present invention, nine sets of coils are included, wherein the first set of coils 85 are distributed on the uppermost surface of the printed circuit board 30, the second set of coils 86 are distributed on the intermediate layer of the printed circuit board 30, and the third set The coils 87 are distributed over the lowermost surface of the printed circuit board. Of course, the number, size and shape of the coils on the multilayer printed circuit board are not limited to the illustrated embodiments. Similarly, slits 84 are formed on the wires of each of the coils 85-87, and the slits 84 can cover the entire coils 85-87, and only the ends of the coils have no slits 84, and may exist only in the coils. 85~87 on non-corner wires. The wires of one of the layers (including the uppermost layer, the intermediate layer or the lowermost surface) of the printed circuit board pass through the empty window region at the center of the coil of at least one other layer (including the uppermost surface, the intermediate layer or the lowermost surface). In the embodiment of Figure 9, the first set of coils 85 pass through the empty window region at the center of the second set of coils 86, and the second set of coils 86 After the third line 87 and the empty window area at the center of the first set of coils 85, the third set of coils also pass through the empty window area at the center of the second coil 86, so that each position on the wireless charging sensor board can be inductively charged without an empty window. Area.

另外，眾所周知的，無線電力感應板的電力傳輸端與接收端的距離越近，則傳輸耗損越低，效率則越高，因此，本創作利用雙面印刷電路板或多層印刷電路，將中間層或最下層的線圈儘可能的移到最上層，如圖十A及圖十B所示，為本創作之雙面印刷電路板的另一無線充電線圈結構的上視圖及下視圖。如圖十A所示，該印刷電路板30的上層表面有二組線圈88、89，下層表面有一組線圈90，而在印刷電路板30上層表面線圈88、89的中心空窗區及外圈區的無導線區域為與下層表面線圈90的非重疊區，故下層表面線圈90有部分導線穿過該印刷電路板30分布在上層表面，且分布在前述的非重疊區，如圖十A的導線91分布在線圈88、89的外圍，而導線92分布在線圈88中心的空窗區，及導線93分布在線圈89中心的空窗區，如此可使印刷電路板的上層表面儘可能地布滿線圈導線，以縮短與被接收端的距離，增加傳輸效率。In addition, it is well known that the closer the distance between the power transmission end and the receiving end of the wireless power sensor board, the lower the transmission loss and the higher the efficiency. Therefore, the present invention uses a double-sided printed circuit board or a multilayer printed circuit to The lowermost layer of the coil is moved as far as possible to the uppermost layer, as shown in FIG. 10A and FIG. 10B, which is a top view and a bottom view of another wireless charging coil structure of the double-sided printed circuit board of the present invention. As shown in FIG. 10A, the upper surface of the printed circuit board 30 has two sets of coils 88, 89, and the lower layer has a set of coils 90, and the central empty window area and outer ring of the upper surface coils 88, 89 on the printed circuit board 30. The non-wired area of the area is a non-overlapping area with the lower surface coil 90, so that some of the lower surface coil 90 is distributed through the printed circuit board 30 on the upper surface and distributed in the aforementioned non-overlapping area, as shown in FIG. The wires 91 are distributed around the periphery of the coils 88, 89, and the wires 92 are distributed in the empty window region at the center of the coil 88, and the wires 93 are distributed in the empty window region at the center of the coil 89, so that the upper surface of the printed circuit board can be laid as much as possible. Full coil wire to shorten the distance from the receiving end and increase transmission efficiency.

綜上所述，本創作提供一種迴然不同於習知者的設計，堪能提高整體之使用價值，又其申請前未見於刊物或公開使用，誠已符合新型專利之要件，爰依法提出新型專利申請。In summary, this creation provides a design that is different from the conventional one, which can improve the overall use value, and it has not been seen in the publication or public use before the application. Cheng has already met the requirements of the new patent, and proposed a new patent according to law. Application.

惟，上述所揭露之圖式、說明，僅為本創作之實 施例而已，凡精于此項技藝者當可依據上述之說明作其他種種之改良，而這些改變仍屬於本創作以所界定之專利範圍中。However, the above-mentioned drawings and descriptions are only for the purpose of this creation. For example, those skilled in the art may make other improvements based on the above description, and such changes are still within the scope of the patent defined by this creation.

30‧‧‧印刷電路板30‧‧‧Printed circuit board

50‧‧‧線圈50‧‧‧ coil

51‧‧‧狹縫51‧‧‧Slit

52‧‧‧端部導線52‧‧‧End wire

Claims (15)

一種無線充電印刷電路板線圈結構，包括：至少一線圈，設置於一印刷電路板上，其中該線圈的至少一部分導線上形成有一狹縫，且該狹縫位於該線圈導線的中央處沿著該線圈導線平行延伸。A wireless charging printed circuit board coil structure comprising: at least one coil disposed on a printed circuit board, wherein at least a portion of the wire of the coil is formed with a slit, and the slit is located at a center of the coil wire along the The coil wires extend in parallel. 如申請專利範圍第1項所述之無線充電印刷電路板線圈結構，其中該線圈係分布於該印刷電路板的單一表面。The wireless charging printed circuit board coil structure of claim 1, wherein the coil is distributed on a single surface of the printed circuit board. 如申請專利範圍第1項所述之無線充電印刷電路板線圈結構，其中該線圈為複數個，分布於該印刷電路板之雙面的上、下層表面。The wireless charging printed circuit board coil structure according to claim 1, wherein the plurality of coils are distributed on upper and lower surfaces of both sides of the printed circuit board. 如申請專利範圍第3項所述之無線充電印刷電路板線圈結構，其中該些線圈更包括分布於該印刷電路板之至少一中間層。The wireless charging printed circuit board coil structure of claim 3, wherein the coils further comprise at least one intermediate layer distributed on the printed circuit board. 如申請專利範圍第1項所述之無線充電印刷電路板線圈結構，其中該狹縫僅存在於該線圈的非轉角導線上。The wireless charging printed circuit board coil structure of claim 1, wherein the slit is present only on the non-corner wire of the coil. 如申請專利範圍第1項所述之無線充電印刷電路板線圈結構，其中該狹縫布滿整個該線圈導線，僅線圈的兩端部導線沒有狹縫。The wireless charging printed circuit board coil structure of claim 1, wherein the slit covers the entire coil wire, and only the wires at both ends of the coil have no slit. 如申請專利範圍第1項所述之無線充電印刷電路板線圈結構，其中該印刷電路板係設置於一鐵心板上。The wireless charging printed circuit board coil structure of claim 1, wherein the printed circuit board is disposed on a core plate. 如申請專利範圍第3項所述之無線充電印刷電路板線圈結構，其中該印刷電路的其中一面該線圈的導線經過另一面 該線圈中心無導線的空窗區，使上下表面間的該些線圈呈交錯堆疊狀。The wireless charging printed circuit board coil structure of claim 3, wherein one side of the coil of the printed circuit passes the other side The coil has no empty space in the center of the coil, so that the coils between the upper and lower surfaces are in a staggered stack. 如申請專利範圍第4項所述之無線充電印刷電路板線圈結構，其中該印刷電路板的其中一層該線圈的導線經過至少另一層該線圈中心無導線的空窗區。The wireless charging printed circuit board coil structure of claim 4, wherein one of the coils of the printed circuit board passes through at least another layer of the open window region of the coil center. 如申請專利範圍第1、3或4項所述之無線充電印刷電路板線圈結構，其中該線圈捲繞的形狀可為矩形、圓形、橢圓形或多邊形。The wireless charging printed circuit board coil structure of claim 1, wherein the coil winding shape may be rectangular, circular, elliptical or polygonal. 如申請專利範圍第3或4項所述之無線充電印刷電路板線圈結構，其中該些線圈的大小可不相同。The wireless charging printed circuit board coil structure of claim 3, wherein the coils are different in size. 如申請專利範圍第3項所述之無線充電印刷電路板線圈結構，其中分布於該印刷電路板下層表面的至少一該線圈，至少有部分導線穿過該印刷電路板分布於該印刷電路板的上層表面，且該些導線分布於該上層表面線圈的非重疊區。The wireless charging printed circuit board coil structure of claim 3, wherein at least one of the coils distributed on a surface of the lower surface of the printed circuit board has at least a portion of the wires distributed through the printed circuit board on the printed circuit board. An upper surface, and the wires are distributed in non-overlapping regions of the upper surface coil. 如申請專利範圍第12項所述之無線充電印刷電路板線圈結構，其中該上層表面線圈的非重疊區為中心空窗區或外圍區。The wireless charging printed circuit board coil structure of claim 12, wherein the non-overlapping area of the upper surface coil is a central empty window area or a peripheral area. 如申請專利範圍第4項所述之無線充電印刷電路板線圈結構，其中分布於該印刷電路板中間層的至少一該線圈，至少有部分導線穿過該印刷電路板分布於該印刷電路板的上層表面，且該些導線分布於該上層表面線圈的非重疊區。The wireless charging printed circuit board coil structure of claim 4, wherein at least one of the coils distributed in the intermediate layer of the printed circuit board has at least a portion of the wires distributed through the printed circuit board on the printed circuit board. An upper surface, and the wires are distributed in non-overlapping regions of the upper surface coil. 如申請專利範圍第14項所述之無線充電印刷電路板線圈 結構，其中該上層表面線圈的非重疊區為中心空窗區或外圍區。Wireless charging printed circuit board coil as described in claim 14 A structure wherein the non-overlapping region of the upper surface coil is a central empty window region or a peripheral region.