WO2013029073A1 - Method for integrating a component into a printed circuit board or a printed circuit board intermediate product, and printed circuit board or printed circuit board intermediate product - Google Patents

Abstract

A method for integrating a component into a printed circuit board or printed circuit board intermediate product comprises the following steps: - providing a layer (1) for supporting at least temporarily the component (4) to be integrated, - fixing the component (4) to be integrated on the supporting layer (1), - providing a printed circuit board element (9) with a cavity (10) having dimensions that at least correspond to the size and shape of the component (4) to be integrated, - fixing the printed circuit board element (9) on the supporting layer (1), the component (4) to be integrated being accommodated in the cavity (10). The printed circuit board element (9) that has the cavity (10) for receiving the component (4) to be integrated is formed by at least one non-conductive layer of the printed circuit board or the printed circuit board intermediate product to be produced. In addition, a printed circuit board or a printed circuit board intermediate product is provided.

Description

 Method for integrating a component in a printed circuit board or a printed circuit board intermediate product and printed circuit board or printed circuit board intermediate product

The present invention relates to a method for integrating at least one component into a printed circuit board or a printed circuit board intermediate product as well as to a printed circuit board or a printed circuit board intermediate product.

In connection with growing product functionalities of devices provided with in particular electronic components and an increasing miniaturization of such components as well as an increasing number of components with which printed circuit boards are to be populated, increasingly powerful field- or array-shaped components or packages are involved used a plurality of electronic components having a plurality of contacts or terminals with increasingly reduced distance of these contacts. For fixing or contacting of such components, the use of highly unbound printed circuit boards is increasingly required, it being understood that with a simultaneous reduction of the product size and the components and printed circuit boards to be expected in terms of both the thickness and the surface of such elements in that a placement or arrangement of such components over the required multiplicity of contact points on printed circuit boards becomes problematic or reaches the limits of the possible resolution of such contact points.

When integrating components into a printed circuit board or a printed circuit board intermediate product such a component or component was originally arranged on a layer or layer of a printed circuit board, the thickness of such a component the thickness of at least one layer or layer Sheath of the same particular. Such a jacket was made in known embodiments of an insulating or non-conductive material, resulting in a corresponding increase in the total thickness of the printed circuit board or the printed circuit board intermediate product.

To solve such problems, it has been proposed to integrate components at least partially into a printed circuit board, reference being made, for example, to WO 03/065778, WO 03/065779 or WO 2004/077902. However, in these known methods and embodiments of components or components integrated in a printed circuit board, it is disadvantageous that the inclusion of such electronic components or components each recesses or holes are provided in a basic element of a printed circuit board, wherein in addition, prior to arrangement of a component in such a hole conductor tracks are formed. The present invention therefore aims to eliminate or at least minimize the above-mentioned problems in integrating or picking up a component into a printed circuit board or a printed circuit board intermediate product, and in particular aims to provide a method of the type mentioned at the beginning To provide printed circuit board or a printed circuit board intermediate product, in which not only a simple and reliable arrangement of such a component in a printed circuit board or in a printed circuit board intermediate product is made possible, but also for components with particular large thickness reduction or minimization the entire thickness of the printed circuit board or the printed circuit board intermediate product to be produced can be achieved. Furthermore, an improved accessibility of the component to be embedded is targeted.

To solve these objects, a method of the type initially mentioned essentially comprises the following steps:

 Providing a layer for at least temporary support of the component to be integrated,

 Fixing the component to be integrated on the supporting layer,

 Providing a printed circuit board element having a recess which has dimensions at least corresponding to the size and shape of the component to be integrated,

Fixing the printed circuit board element on the supporting layer, wherein the component to be integrated is received in the recess,

wherein the circuit board element having the recess for receiving the component to be integrated is formed by at least one non-conductive layer of the printed circuit board or of the intermediate printed circuit board to be produced.

By means of the method steps proposed according to the invention, a component to be integrated or a component to be integrated can be defined in a recess of a printed circuit board element or coupled with the printed circuit board element to be integrated in a simple and reliable manner. By the procedure according to the invention, the possibility is given, even with the use of a comparatively large thickness having components to be integrated subsequently a circuit board or to provide a printed circuit board intermediate with a correspondingly reduced overall height. In particular, a component of large thickness can be reliably integrated within the printed circuit board element, consisting of at least one non-conductive layer of the printed circuit board to be produced or printed circuit board intermediate product, wherein corresponding to the component to be integrated, the printed circuit board element having the recess with a corresponding, possibly large thickness provided. As a material for the circuit board element having the recess, it is possible, for example, to use an FR4 material or an FR4 printed circuit board which is designed to correspond to the dimensions of the component to be integrated with a corresponding recess or free position. Thus, according to the invention, the component to be integrated can be reliably and positionally integrated within the surrounding printed circuit board element which consists of at least one non-conductive layer. For a reliable integration and positioning of the component to be integrated in the printed circuit board or the printed circuit board intermediate product, it is proposed according to a preferred embodiment that a connection or coupling of the component to be integrated with the printed circuit board element is performed.

In addition to a connection or coupling between the component to be integrated and the printed circuit board element in the area provided in the circuit board element recess for receiving or embedding of the component to be integrated is for an additional connection or coupling in a further structure of the printed circuit board to be produced or the produced Printed circuit board intermediate product according to a further preferred embodiment provided that the connection or coupling of the component to be integrated with the circuit board element by arranging at least one of the component and the circuit board element cross-over, additional layer of the printed circuit board or the printed circuit board Zwischenprodukts to be made.

In this context, moreover, it is proposed that the at least one additional layer be laminated with the component to be integrated and the printed circuit board element, as corresponds to a further preferred embodiment of the method according to the invention. Such laminating between individual layers or layers of a multilayer printed circuit board are seen in the Production of a printed circuit board known, so that the method according to the invention for integrating a component in a printed circuit board or a printed circuit board intermediate can be implemented with known method steps. When integrating a component or a component in a printed circuit board or a printed circuit board intermediate product, it is sometimes necessary, in particular depending on the application or intended use of the component to be integrated, at least portions of the component to be integrated, for example, for subsequent contact or during subsequent To expose processing or manufacturing steps of the circuit board. In this context, it is proposed according to a further preferred embodiment of the method according to the invention for a simple, at least partial removal of the additional layer to be provided that a material preventing the further layer from adhering is applied to the component to be integrated before an additional layer is arranged. By employing such an adhesion preventive material, the portion to be subsequently exposed is supported against a firm bond with the overlaying additional layer, such that by simple process steps known in the manufacture of a printed circuit board, such as milling or the like, the overlapping additional layer can be easily removed in the area to be exposed or freed to be integrated component. In this context, it is proposed according to a further preferred embodiment of the method according to the invention that the component to be integrated is at least partially exposed after the formation or arrangement of the additional layer, in particular by forming apertures in the additional layer and / or by partial removal.

For an optionally further reduction of the entire thickness of the component to be produced of a multilayer printed circuit board is provided according to a further preferred embodiment, that on the component to be integrated surrounding non-conductive layer at least one conductive and at least one non-conductive layer exhibiting core element is arranged, which in particular has a recess corresponding to the component to be integrated. In this way, in addition to the provision of at least one layer of a nonconductive material which serves for positioning or receiving the component to be integrated, it is possible to provide an additional core element essentially at the level of the component to be integrated, which has at least one conductive and at least one conductive core a non-conductive layer, so that in particular in a high-height components to be integrated conductive, optionally structured layers can be provided at the level or the level of the component to be integrated in the printed circuit board to be produced.

Depending on the printed circuit board to be produced or the printed circuit board intermediate product to be produced, an embedding or receiving of the component to be integrated in the printed circuit board element results in a further arrangement of layers or layers and connection thereof to produce the printed circuit board. In this case, it is proposed according to a preferred embodiment of the method according to the invention that the supporting layer is removed after a connection or coupling of the component to be integrated with the printed circuit board element. The supporting layer is used essentially only for a provisional support, whereupon, after removal thereof, a construction of further layers or layers which cover both the embedded component and the surrounding printed circuit board element can be undertaken.

According to an alternative method of the invention, it is preferably proposed that the supporting layer is formed by a particular multilayer film, which consists in particular of at least one conductive and at least one non-conductive layer, which after determining the component to be integrated and the printed circuit board element, a portion of forms printed circuit board or the printed circuit board intermediate product to be produced. In this way, the supporting layer can be used directly as a film for further production or for further construction of the printed circuit board or of the printed circuit board intermediate to be produced, wherein, for example, the conductive layer of this supporting multilayer film can also be subjected to a corresponding structuring. With the method according to the invention, a different multiplicity of components can be integrated into a printed circuit board to be produced, in particular by reducing or minimizing the thickness of the printed circuit board to be produced. In this context, according to a further preferred embodiment, it is proposed that the component to be integrated is an active component such as an electronic component, an opto-electronic component, a chip, a sensor, a component integrated into a core element, or a passive component, such as a cooling element, a hollow body defining a passageway, in particular consisting of glass or ceramic, or the like. Is formed.

For a reliable coupling or contacting of a possibly large number of contacts of such a to be integrated, in particular electronic component is also proposed that contacts of the component to be integrated or a particular conductive layer thereof after connection to the printed circuit board element with conductive areas of the printed circuit board to be produced or the printed circuit board intermediate to be produced is or will be coupled, as corresponds to a further preferred embodiment of the method according to the invention.

For a simple and reliable fixing of both the male or female component to be integrated and the printed circuit board element surrounding the component, it is also preferred that the component to be integrated and the printed circuit board element be mediated by an adhesive, an adhesive film, an adhesive coating Soldering or the like. Be fixed on the supporting layer. In particular, depending on whether the supporting layer is used only for a provisional support or optionally for a further construction of the multilayer printed circuit board, a corresponding choice of the connection means to be used can take place.

To achieve a correspondingly low overall thickness of the printed circuit board to be produced, it is additionally provided that an adhesive layer or film or coating is formed with a thickness of at most 15 μm, in particular approximately 0.1 to 10 μm, as described in a further preferred embodiment of the according to the invention. Here, for a simple application of such an adhesive layer known methods can be used, wherein according to the invention it is preferably proposed that an adhesive layer is applied by ink, flex, gravure, screen or offset printing.

For a simple registration and positioning of the component to be integrated, it is additionally provided that the component to be integrated is positioned on the supporting layer relative to markings on the supporting layer and / or on the printed circuit board element having the recess, as is the case of a further preferred embodiment of FIG according to the invention. As has already been mentioned several times, the inventive arrangement or embedding of a component to be integrated in a printed circuit board element formed by at least one non-conductive layer makes it possible to reduce or minimize the entire thickness of the printed circuit board to be produced even when large dimensions and in particular large thicknesses are used having components to be integrated. In this case, it is proposed according to a further preferred embodiment of the method according to the invention that the thickness of the printed circuit board element having the recess for receiving the component to be integrated is at least selected according to the thickness of the component to be integrated.

To solve the problems mentioned above, a printed circuit board or a printed circuit board intermediate product is furthermore characterized in that a component to be integrated is accommodated in a recess of a printed circuit board element, whereby the printed circuit board element comprising the recess for receiving the component to be integrated has at least a non-conductive layer of the printed circuit board or of the printed circuit board intermediate product to be produced is formed. As already stated above, it is thus possible to provide a printed circuit board or a printed circuit board intermediate product which is not only easy to produce, with reliable recording and positioning of the component to be integrated in the printed circuit board to be produced possible, but rather It is also possible to provide a printed circuit board or a printed circuit board intermediate product with a correspondingly reduced overall height. According to a preferred embodiment, it is proposed that at least on one surface of the printed circuit board element and the component to be integrated, a further layer or position of the printed circuit board or the printed circuit board intermediate product is provided, so that in addition to a simple and reliable integration of the component to be integrated, a achieve reliable connection between the component and the surrounding circuit board element.

For a coupling or contacting of an optionally large number of contacts of the component to be integrated, moreover, it is proposed that contacts or a conductive layer of the component to be integrated be connected or coupled to further layers of the printed circuit board or the printed circuit board intermediate product, as this is another preferred embodiment of the inventive printed circuit board or the printed circuit board intermediate according to the invention.

As already mentioned, a large number of different components can be integrated into such a printed circuit board according to the invention, wherein it is proposed according to a further preferred embodiment that the component to be integrated of an active component, such as an electronic component, an opto-electronic component, a Chip, a sensor, a component integrated in a core element, or a passive component, such as a cooling element, a passageway defining hollow body, in particular made of glass or ceramic, or the like. Is formed.

The invention will be explained in more detail with reference to embodiments schematically illustrated in the accompanying drawings. In this show:

1 a to 1 h different process steps of a method according to the invention for producing a printed circuit board according to the invention or a printed circuit board intermediate product according to the invention;

 Fig. 2a to 2b similar to the steps which are shown in Figures 1 a and 1 b, a modified embodiment of a method according to the invention for producing a printed circuit board according to the invention.

 FIGS. 3 and 4 show different embodiments of printed circuit boards or printed circuit board intermediates to be produced according to the method of the invention; FIGS.

5a to 5e different process steps of a further modified inventive method for producing a printed circuit board according to the invention or a printed circuit board intermediate product according to the invention;

 6 similar to the representations of FIGS. 3 and 4, a further modified embodiment of a printed circuit board to be produced according to the method according to the invention;

 7 shows schematic views of different components which can be integrated into a printed circuit board according to the invention, for defining cavities to be provided in a printed circuit board to be produced;

8a to 8f different process steps of a further modified inventive method for producing a printed circuit board according to the invention or a printed circuit board intermediate product according to the invention; 9 shows a schematic partial section through a further modified embodiment of a printed circuit board intermediate product according to the invention, produced according to a method according to the invention; and

 Fig. 10 in a view similar to Fig. 9 is a further partial section through a further modified embodiment of a printed circuit board intermediate according to the invention, to be produced according to a method of the invention.

In the method step shown in FIG. 1 a, an adhesive layer or adhesive film 2 is applied to a supporting layer 1. In addition, a conductive layer, for example made of copper 3, which has a recess corresponding to the component 4 to be integrated or to be integrated. The component 4 to be integrated is formed, for example, by an IMS substrate, which is used, for example, for high dielectric strengths and heat dissipation for cooling of corresponding elements. The component 4 to be integrated likewise has, in accordance with the height or thickness of the copper layer 3, a copper layer 5 which, as will be discussed below, is used for contacting with further conductive layers of the printed circuit board to be produced.

In addition, a layer 6 of a material preventing adhesion is provided on the component 4 to be integrated on the side remote from the supporting or carrier layer.

A reliable positioning of the component 4 to be embedded in the printed circuit board to be produced or the printed circuit board intermediate product to be produced takes place by a precisely fitting arrangement in the recess 7 of the layer 3 provided on the supporting layer. Alternatively or additionally, markings may be provided, such as those shown in FIG the layer 3 are indicated.

In the method step illustrated in FIG. 1 b, it can be seen that after an arrangement or fixing of the component 4 to be integrated on the adhesive layer 2, a printed circuit board element 9 is arranged on the layer 3, wherein the printed circuit board element 9 consists of a plurality of non-conductive layers consists. This printed circuit board element 9 has, according to the dimensions of the component 4 to be integrated, a recess 10, so that the component 4 to be integrated can also be reliably positioned relative to the printed circuit board element 9. In addition to the plurality of non-conductive layers of the printed circuit board element 9, a further conductive layer 1 1, for example, in turn, of copper is additionally indicated. In the lamination or Verpressschritt shown in Fig. 1 c in addition to a compound of the individual layers of the printed circuit board element 9 and a filling of free spaces, as can be seen in Fig. 1 b, by the non-conductive material of the printed circuit board element 9 also a Structuring of the conductive layer 1 1 according to the dimensions of the component to be integrated 4. In addition, in the process step shown in Fig. 1 c can be seen that the provided only for a provisional support backing layer 1 as well as the adhesive layer 2 after completion of the lamination or Pressing step was removed.

After such exposure of the conductive or copper layer 3 according to the process step shown in Fig. 1c, an arrangement of an additional copper layer 12, which directly with the already existing copper layer 3 and the copper layer 5 of the integratable to Component 4 is connected. Subsequently, after such a connection or coupling of the component 4 to be integrated, and in particular the copper layer 5 with the additional conductive or copper layer 12, a structuring of these consisting of the layers 3 and 12 and together with 13 designated conductive layer, wherein such Structural element in Fig. 1f with 14 is indicated.

In the method step illustrated in FIG. 1g, it can be seen that partial removal of the conductive or copper layer 11 exposes the component 4 to be integrated at the side or surface facing away from the layer 13, corresponding to the contours of the component to be integrated 4, for example, by laser cutting according to the depressions 15 of the component 4 is exposed on its upper side.

By providing the adhesion-preventing layer 6 on the component 4 to be integrated, a remaining covering element, which is schematically indicated by 17 in FIG. 1g, can be removed in a simple manner, as is clearly evident in the method step according to FIG is apparent, so that now a Printed circuit board 18 and a printed circuit board intermediate is present, wherein a component to be integrated 4, which is formed for example by serving as a cooling element or Wärmeableitelement IMS substrate is accurately integrated into a printed circuit board element 9, wherein additionally at least partially structured conductive layers 1 1 and 13 are indicated.

Optionally, such a circuit board 18, as shown in Fig. 1 h, be completed by arranging or providing further layers or layers of a printed circuit board.

In the modified embodiment shown in FIG. 2, similar to the embodiment of the embodiment of FIG. 2, a conductive layer is formed on a support or a supporting layer 21 by means of an adhesive layer or adhesive film 22 Layer 23 is provided, which serves for positioning or receiving a turn, for example, formed by an IMS substrate, to be integrated component 24. The component 24 to be integrated, in turn, has a layer 25 of a conductive material, in particular copper, similar to the preceding embodiment, wherein the dimensions of the recess 26 formed in the conductive layer 23 are matched to the dimensions of the component 24 to be integrated.

For embedding the component 24 to be integrated in turn, a printed circuit board element 27 formed from a plurality of non-conductive layers or layers is provided, wherein an adhesion-preventing layer 28 having the dimensions exceeding the dimensions of the component to be integrated 24 is provided. Similar to the previous embodiment, a layer 29 of a conductive material, in particular copper, is again provided.

Similarly as in the preceding embodiment, a pressing or laminating takes place in turn, the further method steps according to the embodiment according to FIG. 1 also being able to be provided in the method guidance according to FIG. 2.

As in the case of the embodiment according to FIG. 1, a printed circuit board or a printed circuit board intermediate product is again provided, in which (m) a component 24 to be integrated is contained in a precisely fitting manner. In Fig. 3 and 4 respectively printed circuit boards or printed circuit board intermediates are shown, in which a component has been integrated, with possibilities of contacting such an integrated component are indicated.

In the printed circuit board 31 shown in FIG. 3, a component to be integrated formed by a cooling element 32 is integrated in a printed circuit board element 33, for example similar to the method guides according to FIGS. 1 and 2, wherein an additional layer or layer is provided for good heat conduction Layer 34 contains a thermally highly conductive material. The component 32 serves for a heat dissipation of heat generated by a chip, for example an SMD component 35, with additional connection points or contacts of the chip 35 being indicated at 36.

Since the component 32 to be integrated in the printed circuit board 31 for heat dissipation or cooling protrudes on the side facing away from the chip 35, as indicated by the projecting region 37, a corresponding improvement of the heat dissipation can be achieved.

Similarly, in the embodiment of FIG. 4, a circuit board 41 is shown, wherein a turn formed by a cooling element 42 to be integrated component is integrated or incorporated in a circuit board element 43. The component 42, similar to the previous embodiment, has an additional layer 44 which is electrically insulating and provides good heat conduction. The component 42 serves for heat dissipation of heat generated by an example unhoused chip, such as a LED 45, wherein electrically conductive regions 46 for contacting contacts not shown in detail and a bonding wire 47 are additionally indicated.

5, a supporting or carrier layer 51 is provided similar to the embodiments according to FIGS. 1 and 2, this carrier layer 51 being formed, for example, by a metallic, in particular copper carrier, on which a metallic foil 52, which is also made of copper, for example. For fixing a component to be integrated in a printed circuit board, an adhesive layer 53 is provided, in particular according to the dimensions of the component to be integrated. In the method step according to FIG. 5 b, it can be seen that a component to be integrated formed, for example, by a sensor 54, is fixed on the carrier layer or supporting layer 51 by the adhesive 53 through the intermediary of the conductive layer 52.

In addition to schematically indicated contacts 55 of the component 54 to be integrated, an active sensor surface 56 is also indicated.

For embedding the component 54 to be integrated, an arrangement or fixing of a printed circuit board element 57, which consists of a nonconductive material, is carried out, this printed circuit board element being formed, for example, by a prepreg with a recess or relief 58 corresponding to the dimensions of the component to be integrated or sensor is provided. Again, similar to the previous embodiments, on the surface 55 of the component to be integrated 54 having the contacts 55 and active sensing layer 56, an adhesion preventing layer 59 is deposited prior to placing another layer 60 of the printed circuit board to be fabricated, as shown in FIG. 5d indicated method step is indicated.

After a corresponding connection of the component to be integrated surrounding circuit board element 57 and the additional layer 60, which is uniformly referred to as layer or layer 61 in the process step shown in Fig. 5e, takes place in particular by providing the adhesion preventing layer 59 exposing the active sensor surface 56 of the integrated and formed by a sensor member 54. In addition, contacts 62 are indicated in the process step shown in Fig. 5e.

In a modification of the process guides shown in FIGS. 1 and 2, in the process control according to FIG. 5, the supporting layer 51 can be used in particular for the formation of further conductive layers of the printed circuit board or of the intermediate printed circuit board to be produced.

In the schematic representation according to FIG. 6, a further modified embodiment of a printed circuit board 71 to be produced is shown, wherein on a supporting Layer 72 is a component 73 to be integrated in a recess 74 of the component 73 surrounding the circuit board element 75 is arranged.

Particularly in the case of the embodiment shown in FIG. 6, components which define a cavity can be used in a further production of the printed circuit board, as is indicated schematically in FIG. 7. The components 73 ', 73 "and 73"' indicated in FIG. 7 have a special shape corresponding to a desired cavity which is to be defined in the region of the component 73 to be accommodated. In this case, the components defining a cavity, to be integrated 73 or 73 ', 73 "and 73"' can be made for example of glass or ceramic.

In the different method steps shown in FIG. 8 of a further modified method for producing a printed circuit board or a printed circuit board intermediate product, in particular a two-layer supporting layer 81 is provided according to the method step illustrated in FIG. 8a, wherein this two-layer supporting layer or carrier layer, for example consists of a first layer or layer 81 'having a comparatively large thickness and a second layer or layer 81 "having a comparatively smaller thickness, In particular, taking into account the printed circuit board intermediate product or the circuit board to be produced in the case of the circuit board shown in FIG. 8, the two-layer supporting layer 81 is respectively made of metallic layers, in particular of copper, on this two-layer supporting layer 81, in particular according to the method step illustrated in FIG Considering the size or dimensions of the subsequently to be determined component, an adhesive layer 82 is provided. In the method step illustrated in FIG. 8 c, it can be seen that a component 83 is fixed on the layer or carrier layer 81 to be supported by the intermediary of the adhesive layer 82.

In addition, in the method step illustrated in FIG. 8d, it can be seen that in addition to the supporting layer 81, next to the component 83, a printed circuit board element 84 is arranged or fixed, which consists of a non-conductive layer consists, according to the dimensions of the component 83, a recess or exemption 85 is provided.

In addition to an arrangement of the printed circuit board element 84, which consists of a non-conductive layer, takes place, as shown in the process step shown in Fig. 8e, additionally an arrangement of a particular structured core element 86, which as well as the printed circuit board element 84 with a Recess or exemption 87 is formed according to the dimensions of the component 83 to be integrated.

A structuring of the core element 86 is indicated here by structured regions 88 and vias 89.

Similar to the preceding embodiments, as shown in the method step shown in FIG. 8f, an arrangement of further layers of the printed circuit board intermediate or circuit board to be produced is subsequently carried out, wherein in the embodiment shown in FIG Core element 86 is a layer 90 of a non-conductive element, in particular a prepreg layer is arranged, on which a conductive layer, such as a Cu film 91 is provided.

Similar to the preceding embodiments, and as shown in particular for example in the process control according to FIG. 1, the individual layers or layers are subsequently also pressed in the embodiment according to FIG. 8, whereupon further processing or processing steps are subsequently required if necessary , For example, may be provided for structuring of conductive layers or layers.

In the illustration according to FIG. 9, a printed circuit board intermediate product 92 is shown, wherein, in particular according to the method steps according to one of the above different methods, pressing or bonding of different layers or layers has already been carried out.

In the printed circuit board intermediate product 92 shown in FIG. 9, it can be seen that a component formed, for example, by an optoelectronic component 93 in a printed circuit board element or a layer 94 is made of a nonconductive material Material is embedded, wherein in the embodiment shown in Fig. 9, a support or support layer 95 is formed of a conductive material, such as copper. The opto-electronic component 93 is contacted with the supporting and conductive layer 95 via contacts 96.

In addition, in the printed circuit board intermediate product shown in FIG. 9, an optical window 97 is indicated, wherein an additional, in particular structured, layer 98 of a conductive material is also shown.

It is thus possible in the embodiment shown in FIG. 9 to integrate an optoelectronic component 93 in a printed circuit board or a printed circuit board intermediate product 92, for which purpose a surrounding the opto-electronic component 93 layer 94 of a non-conductive material in the Arrangement on the supporting layer 95 is formed with an adapted to the dimensions of the component to be integrated 93 recess or free position.

In Fig. 10, another modified embodiment of a herberstellenden intermediate circuit board 100 is shown. In this embodiment, a layer 101 of conductive material, for example copper, and an additional layer or layer 102 of non-conductive material, for example a prepreg material, are provided as supporting or carrier layer. On these supporting layers 101 and 102, for example, in turn, with the intermediation of an adhesive or an adhesive layer as in the preceding embodiments, a comparatively large thickness having to be integrated component 103 is arranged, which is formed for example by a shunt. As in the previous embodiments, a printed circuit board element or a layer or layer of a non-conductive material is provided in addition to the component to be integrated 103 on the supporting layers, wherein in accordance with Fig. 10, this layer or layer of non-conductive material according to To be produced printed circuit board intermediate product 100 at different side regions of the component to be integrated 103 has a different thickness. Thus, in the illustration according to FIG. 10 on the left side, a partial region 104 'of the printed circuit board element can be seen which essentially has a thickness corresponding to the thickness or height of the component 103 to be integrated, while on the right side according to the illustration of FIG. 10, the non-conductive layer or the printed circuit board element 104 "has a comparatively small thickness, which in any case is less than the thickness or height of the component 103 to be integrated.

As in the preceding embodiments, the layer or layer 104 'and 104 "of nonconductive material surrounding the component to be integrated 103 has a recess or release 105 corresponding to the dimensions of the component 103 to be integrated.

In the embodiment illustrated in FIG. 10, in addition to the component 103 having a comparatively large thickness or height, an additional component 106 is accommodated in the printed circuit board intermediate product 100 to be produced, wherein the component 106 to be integrated in particular has a core component indicated schematically at 107. Element includes integrated component 108, which is formed for example by a MOSFET. Further layers or layers of the component 108 containing the component 106 are indicated by 109 and 1 10.

Similar to the previous embodiments, at least one further layer or layer 11 is additionally provided. Moreover, it is indicated in FIG. 10, in particular on the right-hand side, that, in particular according to the height of the component 106 to be integrated, a further layer or layer or a printed circuit board element 12 is also arranged of non-conductive material, which, taking into account the Dimensions of the component 106 to be integrated with a recess or exemption 1 13 is provided.

In the embodiment illustrated in FIG. 10, it can be seen that components 103 and 106 or 108 of different thickness or of generally different dimensions, in particular, can be integrated into a printed circuit board or a printed circuit board intermediate product 100 to be produced. For this purpose, in particular different dimensions or thicknesses having printed circuit board elements or layers or layers 104 ', 104 "and 1 12 of non-conductive material use, which in each case with recesses or exemptions 105 or 1 13 are formed according to the components to be integrated or to be included 103 and 106 and 108, respectively.

In addition to the components to be integrated described in detail in the preceding embodiments, such as a cooling element, a sensor, an opto-electronic component, a component integrated in a core element, or a component defining a cavity, other, in a circuit board to be integrated components such as chips, other electronic, in particular active components and the like. Embedded or integrated.

If it is not necessary to at least partially expose or release the component to be integrated after arranging or providing an at least partially overlapping additional layer, the use of an adhesion-preventing layer is accordingly dispensed with.

Applying an adhesive layer can be applied in a manner known per se, for example by a printing process, in particular an ink, flex, gravure, screen or offset printing process. In addition, for at least provisional definition or positioning of the component to be integrated with comparatively thin adhesive layers, the Auslangen be found whose thickness, for example, a maximum of 15 μηι, in particular about 0.1 to 10 μΐτι.

Claims

claims

A method of integrating a component into a printed circuit board or printed circuit board intermediate, comprising the following steps:

- Providing a layer (1, 21, 51, 72, 81, 95, 101, 102) for at least temporary support of the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73" ', 83, 93, 103, 106, 108),

 - fixing the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) on the supporting layer (1, 21, 51, 72, 81, 95, 101, 102),

- Providing a printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 1 12) having a recess (10, 26, 58, 85, 105, 1 13), which dimensions at least according to the size and shape of the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108),

 - Fixing the printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 1 2) on the supporting layer (1, 21, 51, 72, 81, 95, 101, 102 ), wherein the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) is received in the recess,

wherein the recess (10, 26, 58, 85, 105, 1 13) for receiving the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93 , 103, 106, 108) comprising printed circuit board elements (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 112) of at least one non-conductive layer of the printed circuit board or of the printed circuit board to be produced. Intermediate is formed.

2. The method according to claim 1, characterized in that a connection or coupling of the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93,

103, 106, 108) with the printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 1 12) is made.

3. The method according to claim 2, characterized in that the connecting or coupling of the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93,

103, 106, 108) with the printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 112) by arranging at least one component (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) and the printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 1 12) overlapping, additional layer (11, 29, 60, 90, 91, 98, 11 1) of the produced printed circuit board or the printed circuit board intermediate product to be produced.

4. The method according to claim 3, characterized in that the at least one additional layer (1 1, 29, 60, 90, 91, 98, 1 1 1) with the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73'", 83, 93, 103, 106, 108) and the printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 04 ', 104 ", 112 ) is laminated.

5. The method according to any one of claims 1 to 4, characterized in that on the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106 , 108) is applied before arranging a further layer, a further adhesion of the further layer preventing material (6, 59).

6. The method according to any one of claims 1 to 5, characterized in that the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) after forming or arranging the additional layer (1 1, 29, 60, 90, 91, 98, 1 1 1) is at least partially exposed, in particular by forming openings in the additional layer and / or by a partial removal ,

7. The method according to any one of claims 1 to 6, characterized in that on the the component to be integrated (83) surrounding non-conductive layer (84) at least one conductive and at least one non-conductive layer having core element ( 86) is arranged, which in particular has a recess (87) corresponding to the component to be integrated (83).

8. The method according to any one of claims 1 to 7, characterized in that the supporting layer (1, 21, 51, 72) after a connection or coupling of the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"') with the printed circuit board element (9, 27, 33, 43, 57, 75) is removed.

9. The method according to any one of claims 1 to 7, characterized in that the supporting layer of a particular multilayer film (51, 52, 81) is formed, which consists in particular of at least one conductive and at least one non-conductive layer, which after fixing of the component (54, 83) to be integrated and of the printed circuit board element (57, 84) forms a subregion of the printed circuit board or of the intermediate printed circuit board to be produced.

10. The method according to any one of claims 1 to 9, characterized in that the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73'", 83, 93, 103, 106, 108) of an active component, such as an electronic component, an optoelectronic component, a chip, a sensor, a component embedded in a core element, or a passive component, such as a cooling element, a hollow body defining a passageway, in particular consisting of glass or ceramic, or the like. Is formed.

1 1. Method according to one of claims 1 to 10, characterized in that contacts (36, 55, 96) of the component to be integrated (32, 54, 93) or a particular conductive layer thereof after connection to the printed circuit board element with conductive regions of the printed circuit board to be produced or the printed circuit board intermediate to be produced.

12. The method according to any one of claims 1 to 1 1, characterized in that the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73'", 83, 93, 103, 106 , 108) and the printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 11 12) by means of an adhesive (2, 22, 53, 82), an adhesive film, an adhesive coating, by soldering or the like are fixed on the supporting layer.

13. The method according to claim 12, characterized in that an adhesive layer or film (2, 22, 53, 82) or coating with a thickness of at most 15 μΐη, in particular about 0, 1 to 10 μπι is formed.

14. The method according to claim 12 or 13, characterized in that an adhesive layer (2, 22, 53, 82) by ink, flex, depth, screen or offset printing is applied.

15. The method according to any one of claims 1 to 14, characterized in that the component to be integrated (4) relative to markings (8) on the supporting layer

(1) and / or on which the recess (10) having printed circuit board element (9) is positioned on the supporting layer.

16. The method according to claim 1 to 15, characterized in that the thickness of the recess (10, 26, 58, 85, 105, 113) for receiving the to be integrated

Component (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108). terplattenelements (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 12) at most corresponding to the thickness of the component to be integrated (4, 24, 32, 42, 54, 73, 73' 73 ", 73"', 83, 93, 103, 106, 108).

17. Printed circuit board or printed circuit board intermediate product, characterized in that a component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) in a recess (10, 26, 58, 85, 105, 1 13) of a printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 1 12) is received, wherein the Recess (10, 26, 58, 85, 105, 1 13) for receiving the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73'", 83, 93, 103, 106, 108) comprising printed circuit board elements (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 112) of at least one non-conductive layer of the printed circuit board or of the intermediate printed circuit board to be produced ,

18. Printed circuit board or printed circuit board intermediate product according to claim 17, characterized in that at least on a surface of the printed circuit board element (9, 27, 33, 43, 57, 75, 84, 94, 104 ', 104 ", 1 12) and the zu integrating component (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73'", 83, 93, 103, 106, 108) a further layer or layer (1 1, 29, 60, 90 , 91, 98, 11) of the printed circuit board or of the intermediate printed circuit board.

19. Printed circuit board according to claim 17 or 18, characterized in that in addition at least one conductive and at least one non-conductive layer exhibiting core element (86) is provided, which in particular a recess (87) corresponding to the component to be integrated ( 83).

20. Printed circuit board or printed circuit board intermediate product according to claim 17, 18 or 19, characterized in that contacts (2, 22, 53, 96) or a conductive layer (5) of the component to be integrated (4, 24, 32, 42, 54 , 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) are connected to further layers of the printed circuit board or the printed circuit board intermediate.

21. Printed circuit board according to one of claims 17 to 20, characterized in that the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) at its to another layer of the printed circuit board or PCB Intermediate surface facing covered with a adhesion of the further layer preventing material (6, 59).

22. Printed circuit board according to one of claims 17 to 21, characterized in that the component to be integrated (4, 24, 32, 42, 54, 73, 73 ", 73", 73 "', 83, 93, 103, 106, 108) after forming or arranging the additional layer (1 1, 29, 60, 90, 91, 98, 1 1 1), in particular by forming openings in the additional layer and / or by a partial removal thereof at least partially exposed is.

23. Circuit board or printed circuit board intermediate product according to one of claims 17 to 22, characterized in that the component to be integrated (4, 24, 32, 42, 54, 73, 73 ', 73 ", 73"', 83, 93, 103, 106, 108) of an active component, such as an electronic component, an optoelectronic component, a chip, a sensor, a component embedded in a core element, or a passive component, such as a cooling element Passage channel defining hollow body, in particular consisting of glass or ceramic, or the like. Is formed.