WO2009037178A1

WO2009037178A1 - Module, and method for the production of a module

Info

Publication number: WO2009037178A1
Application number: PCT/EP2008/062031
Authority: WO
Inventors: Thomas Buck; Thorsten Pannek; Ulrike Scholz; Gustav Klett
Original assignee: Robert Bosch Gmbh
Priority date: 2007-09-19
Filing date: 2008-09-11
Publication date: 2009-03-26
Also published as: DE102008007239A1

Abstract

Disclosed is a module, particularly a sensor module, comprising a housing, a first support element, a second support element, and at least one component which is arranged on the first support element. The housing fully encloses the first support element and the at least one component. The first support element is in indirect or direct contact with the second support element. Furthermore, the second support element is designed in a mechanically flexible manner and has a first and second subarea. The first subarea is enclosed by the housing while the second subarea is located outside the housing.

Description

description

title

Module and method for making a module

State of the art

The invention is based on a module according to the preamble of claim 1.

Such modules are well known. For example, DE 102 40 446 A1 discloses a sensor module having at least one sensor element, a flexible housing and a flexible carrier material, the sensor element being at least partially surrounded by a housing and the housing having a transmission device. A compact sensor module, which has a liquid or gas-tight housing for protection against aggressive media and at the same time a comparatively powerful antenna, is not apparent from the prior art.

Disclosure of the invention

The module according to the invention and the method according to the invention for producing a module according to the independent claims have the advantage over the prior art that the antenna in the form of the flexible second carrier element is led out of the rigid housing and thus with a minimum and stable housing size a comparatively large and especially powerful antenna outside the housing is realized in a simple manner. Consequently, a module is provided with a space-compact housing and a comparatively high performance and efficiency of the antenna, which in a simple and cost-effective manner with the

Standard manufacturing processes and the standard components is manufactured. Thus, in particular, an integration of the module in areas with high demands on the compactness and the stability of the module, preferably in a vehicle, particularly preferably in a tire and very particularly preferably as Tire pressure sensor, possible. The formation of the antenna as a flexible second carrier element, in particular as a flexible printed circuit board and / or as a flexible board, ensures optimum transmission power, a comparatively simple contacting possibility with the first carrier element, and a comparatively cost-effective production, since the second carrier element in

Manufacturing process of the module is only led out of the housing and thus no additional contacting, conduction and / or support elements manufactured and / or must be mounted inside or outside the housing. The component preferably comprises sensors, semiconductor components, passive electrical components and / or micromechanical components, particularly preferably a two-sided assembly of the first support member is provided with components and wherein very particularly preferably also at least partially equipped with the second support member is provided with components.

Advantageous embodiments and modifications of the invention are the dependent claims and the description with reference to the drawings.

According to a preferred development it is provided that the module has an internal and / or an external power supply unit, so that in particular the at least one component is supplied with electrical energy. The internal power supply unit preferably comprises a battery and / or an energy converter, wherein the internal energy converter in particular converts energy from the surroundings of the module, for example heat and / or acceleration forces, into electrical energy and wherein the external energy supply unit preferably comprises a further energy converter for inductive or capacitive coupling of external electrical energy.

According to a preferred embodiment, the housing comprises a

Sealing region, which is arranged substantially between the housing and the second carrier element in the transition region from the first to the second partial region, wherein the sealing region in particular has a sealing means. A seal of the housing interior is thus advantageously achieved, whereby in particular, the components, the first carrier element, the power supply unit and / or the electrical contacts in the housing are protected against corrosion. Preferably, an insulated protective atmosphere is provided in the housing.

According to a further preferred refinement, the second subarea has a third and a fourth subarea, wherein the first subarea lies between the third and fourth subarea and / or wherein the third and fourth subarea are connected to one another outside the housing. Thus, on the one hand, the realization of a dipole antenna which is substantially rod-shaped and in particular protrudes from the housing at its free ends or at least two-part design is advantageously possible, the type of dipole antenna preferably being fixable by conductor tracks on the second carrier element that depending on the requirements of the circuit, for example, a Stabdipol or a Faltdipol can be realized, the Faltdipol in particular has a fourfold Fußpunktwiderstand against the elongated Stabdipol. On the other hand, a loop antenna can likewise be realized, wherein preferably the third and the fourth partial area are connected to one another. The loop antenna is preferably arranged such that the plane of the loop antenna is aligned parallel or perpendicular to the first carrier element. Particularly preferably, the loop antenna is rotationally symmetrical, so that particularly advantageously no alignment of the loop antenna, for example, in a tire or during integration into a tire is necessary.

In accordance with a further preferred development, it is provided that the second carrier element or the second subarea functions as an antenna and is designed as a flexible circuit board and / or that a subregion of the housing functions as a housing cover and / or that the housing is substantially rigid. Advantageously, the manufacturing process, in particular the assembly process of the support elements, by an open housing with a

Part of the housing facilitates as a housing cover, the closed housing cover ensures the protective functions of the housing. The housing cover preferably has a frictional, positive and / or material connection to the rest of the housing. Particularly preferred provided that the second support element is led out in the region of the interface between the portion and the remaining portion of the housing from the housing, whereby the assembly of the module is further simplified.

According to a further preferred development, it is provided that the antenna is designed as a dipole antenna, preferably as a rod dipole antenna or as a folded dipole antenna, or as a loop antenna, wherein the loop antenna is preferably aligned parallel or perpendicular to the first carrier element, so that particularly advantageously the antenna is space-specific, application-specific and / or adaptable to the transmitting and / or receiving electronics of a vehicle.

According to a further preferred embodiment, it is provided that the direct or indirect contact between the first and the second carrier element comprises an electrically conductive and / or a mechanical contact, so that particularly advantageous the contact, optionally for establishing an electrical contact between the first and the second Carrier element and / or for mechanical fixation of the first and second support member is provided relative to each other.

According to a further preferred development, it is provided that the module for data transmission between the first and the second carrier element has a coupling unit, which in particular comprises an inductive and / or a capacitive coupling between the first and the second carrier element. Particularly advantageously, the capacitive coupling is realized at least by an interaction between a first electrode on the first carrier element and a second electrode on the second carrier element.

Another object of the present invention is a method for producing a module, wherein in a first method step, the first support member connected to the second support member and / or equipped with the at least one component, wherein in a second method step, the first support member is mounted in the housing and wherein in the second or in a third method step, the second portion of the second carrier element is led out of the housing. Is thus advantageous in simple way, the module only under the use of standard manufacturing processes and standard elements cost-effectively. In particular, the third method step does not require any additional method step for mounting and / or making electrical contact with the antenna either outside or inside the housing.

According to a preferred embodiment, the direct or indirect contact between the first and the second carrier element in the first process step by a soldering process, preferably a Bügellötverfahren, and / or an adhesive method, preferably using an anisotropically electrically conductive film, an anisotropically electrically conductive adhesive and / or an electrically non-conductive adhesive produced. Advantageously, the antenna is thus comparatively contact-secure manner with the first carrier element and electrically conductively connected to the at least one component, wherein the electrically conductive contact is also preferably used for mechanical fixation of the second carrier element. Alternatively, particularly advantageously, the second carrier element is fixed relative to the first carrier element by the contact only mechanically comparatively resilient, wherein the contact does not produce an electrically conductive connection between the first and the second carrier element.

According to a further preferred development, the housing cover is closed in a fourth method step and / or mounted on the housing and additionally mechanically fixed in particular by welding the housing cover to the housing. By closing the housing cover and / or the mounting of the housing cover on the housing, the

Components advantageously protected against mechanical damage and / or corrosion. Preferably, a mounting in a protective atmosphere is provided, so that the protective atmosphere is formed substantially permanently in the interior of the housing.

According to a further preferred development, the fixing of the first carrier element in the housing is performed in a fifth method step, wherein preferably the first carrier element to the housing cohesively by an adhesive method and / or frictionally by clamping, more preferably by closing and / or mounting the housing cover , is connected. Advantageously, the first carrier element is thus mounted in the housing in a simple manner, wherein preferably the force-locking clamping of the first carrier element by the housing cover in a particularly advantageous manner saves the process part of the step adhesive process.

According to a further development, the second carrier element is encapsulated in a sixth method step in the transition region of the first to the second portion with the sealant, wherein in the third step, the sealing means is clamped in the Abdichtbereich and wherein the sealing means preferably comprises a liquid silicone. Advantageously, the production of the sealant is realized in a relatively inexpensive and easy-to-control process by simply encapsulating the second support member, at the same time a positive and cohesive connection between the sealant and the second support member is guaranteed. The frictional connection between the housing and the sealant in the sealing area by simply clamping the sealant allows particularly advantageous at the same time a secure seal of the housing, as well as an additional mechanical fixation of the second support member.

According to a further preferred refinement, before the first and / or before the second method step, the housing and / or the sealing means are produced in an injection molding process and in particular in a two-component injection molding process, wherein the sealing means preferably comprises a liquid silicone. Thus, both the housing and the sealant are advantageously produced at the same time in a particularly cost-effective manner in a single production process, wherein a two-component injection molding process makes it possible to produce the mechanically stable and rigid housing and the flexible and shape-reversible sealant in a single method step.

According to a further development, the second carrier element is mounted in an eighth method step in the housing and / or on the first carrier element, wherein the eighth method step is performed temporally after the second method step. Thus, an assembly of the first carrier element and the at least one component is advantageous, wherein the first carrier element is preferred provided on both sides equipped with components, allows time before assembly of the second support member.

According to a further development it is provided that in a ninth method step, the sensor module is provided with the coupling unit, wherein preferably the first support member is provided at least with a first electrode and the second support member at least with a second electrode. If the direct or indirect contact is carried out only as a mechanical contact, for example by means of a non-conductive adhesive for relative fixation of the first and the second support member to each other, so particularly advantageous is the coupling between the first and the second electrode for signal transmission between the first and the second carrying member. The ninth method step is carried out in particular before, during or after the first method step.

Another object of the present invention is the use of a module according to the invention as a sensor module in a tire of a motor vehicle, in particular as a tire pressure sensor.

Embodiments of the invention are illustrated in the drawings and explained in more detail in the following description.

Short description of the drawing

Show it

Figure 1 is a schematic plan view of a module according to a first

Embodiment of the present invention

Figure 2 is a schematic side view of a module according to a second

Embodiment of the present invention, Figure 3 is a schematic side view of a module according to a third

Embodiment of the present invention

Figure 4 is a schematic plan view of a module according to a fourth

Embodiment of the present invention

FIG. 5 shows a schematic plan view of a module according to a fifth embodiment of the present invention, FIG. 6 shows a schematic plan view of a module according to a sixth embodiment of the present invention,

Figure 7 is a schematic side view of a module according to a seventh embodiment of the present invention, Figure 8 is a schematic side view of a module according to an eighth embodiment of the present invention,

FIG. 9 is a schematic front view of a module according to the eighth embodiment of the present invention;

10 is a schematic side view of a portion of a module according to a ninth embodiment of the present invention;

Figure 11 is a schematic side view of a portion of a module according to a tenth embodiment of the present invention and Figure 12 is a schematic side view of a module according to an eleventh embodiment of the present invention.

Embodiment (s) of the invention

In the various figures, the same parts are always provided with the same reference numerals and are therefore usually mentioned only once in each case.

1 shows an exemplary schematic plan view of a module 1 according to a first embodiment of the present invention, wherein the module 1, which in particular represents a sensor module, a housing 2, a first carrier element 3, a second carrier element 4 and a plurality of components. 5 wherein the plurality of components 5 are arranged on the first carrier element 3, wherein the housing 2 completely surrounds the first carrier element 3 and the plurality of components 5 and wherein the first carrier element 3 has an immediate contact 6 to the second carrier element 4. The contact 6 may comprise both an electrically conductive or electrically non-conductive contact, as well as a mechanical contact. The second carrier element 4 is formed mechanically flexible and has a first and a second portion 7, 8, wherein the first portion 7 enclosed by the housing 2 and the second portion 8 is disposed outside of the housing 2. The second Carrier element 4 is formed substantially rod-shaped and the second portion 8 further includes a third and fourth portion 11, 12, wherein between the third and fourth portion 11, 12 of the first portion 7 is located. In other words, the second portion 8 protrudes with its free ends, ie the third and fourth portion 11, 12, out of the housing 2, while the first portion 7 between the two free ends, ie between the third and fourth portion 11, 12th , is arranged in the housing 2. The second carrier element 4 thus forms a dipole antenna. Furthermore, the housing 2 comprises a sealing region 9 which is arranged substantially between the housing 2 and the second carrier element 4 in the transition region from the first to the second partial region 7, 8, the sealing region 9 having a sealing means 10 which integrates into the housing 2 itself is and in particular produced together with the housing 2 in a 2-component injection molding process.

FIG. 2 shows a schematic side view of a module 1 according to a second embodiment of the present invention, the second embodiment being substantially identical to the first embodiment illustrated in FIG. 1, the second carrier element 4 comprising two conductor tracks 50 which together with the second one Carrier element 4 act as an antenna and wherein the conductor tracks 50 are connected via two electrically conductive contacts 6 in the interior of the housing 2 with the first support member 3. The antenna is designed in particular as Stabdipol.

3 shows a schematic side view of a module 1 according to a third embodiment of the present invention, wherein the third

Embodiment is substantially identical to the second embodiment illustrated in Figure 2, wherein the second support member 4 is interrupted in the interior of the housing 2.

FIG. 4 shows a schematic side view of a module 1 according to a fourth embodiment of the present invention, the fourth embodiment being substantially identical to the second embodiment illustrated in FIG. 2, wherein the carrier element 4 comprises only one conductor track 50, which is formed as a loop and via two electrically conductive contacts 6 with are connected to the first carrier element. The antenna is designed in particular as a folding dipole.

In Figure 5 is a schematic plan view of a module 1 according to a fifth embodiment of the present invention, wherein the fifth

Embodiment is substantially identical to the second embodiment illustrated in Figure 2, wherein the two interconnects 50 are each formed as a loop and are each connected via two electrically conductive contacts 6 within the housing 2 with the first support member 3.

FIG. 6 shows a schematic plan view of a module 1 according to a sixth embodiment of the present invention, the sixth embodiment being substantially identical to the first embodiment illustrated in FIG. 1, the second portion 8 of the second carrier element 4 being substantially outside the housing 2 a circular outer contour parallel to a main extension plane of the first support member 3 and wherein the first portion 7 of the second support member 4 in the interior of the housing 2 is substantially cross-shaped, for example, the four legs of the cross at their ends in the circular second portion. 8 of the second support member 4 pass. Alternatively, also formations of the second carrier element 4 in the interior of the housing 2 are conceivable, which have more than four or less than four legs. Furthermore, the second carrier element 4 has a conductor track 50, which is designed essentially as a circular loop and is connected to the first carrier element 3 via two electrically conductive contacts 6 in the interior of the housing. The main extension plane of the loop is in particular parallel to the main extension plane of the first carrier element. The antenna is designed in particular as a loop antenna.

FIG. 7 shows a schematic side view of a module 1 according to a seventh embodiment of the present invention, wherein the seventh embodiment is substantially identical to the second embodiment illustrated in FIG. 2, wherein the second carrier element 2 outside the housing 2 is essentially a closed arcuate one Section is formed, wherein the main extension plane of the arcuate portion is aligned perpendicular to the main extension plane of the first support member 3. The conductor tracks are connected to each other at their ends via the arcuate portion, so that the resulting conductor track 50 is formed as a loop with a main extension plane perpendicular to the main extension plane of the first support member 3. The antenna is designed in particular as a loop antenna.

8 shows an exemplary schematic side view of a module 1 according to an eighth embodiment of the present invention, the illustrated eighth embodiment of the module 1 being substantially identical to the first embodiment illustrated in FIG. 1, and only a part of the housing 2 being the housing cover 13 is formed, which cohesively, positively and / or positively connected to the rest of the housing 2, wherein preferably in the region of the interface between the housing cover 13 and the rest of the housing, the second support element 4 is led out of the housing 2. In particular, the interface between the housing cover 13 and the remaining housing 2 runs parallel to the main extension planes of the first support element 3 and perpendicular to the main extension plane of the first support element 3 in the region of the second support element 4 and / or the sealing region 9 or the sealant 10.

FIG. 9 shows a schematic front view of a module 1 according to the eighth embodiment of the present invention, the front view being a 90 ° rotated side view of the module 9 compared to FIG.

FIG. 10 shows a schematic side view of a subregion of a module 1 according to a ninth embodiment of the present invention, wherein the subregion represents the connection between the first carrier element 3 and the second carrier element 4. The second carrier element 4 has a conductor track 50 which is electrically conductively contacted to the first carrier element 3 via a direct and electrically conductive contact 6, wherein the first Carrier element 3 has an electrically conductive connected to the contact 6 further conductor 51. Furthermore, the contact 6 produces a mechanically loadable contact between the first and the second carrier element 3, 4.

11 is a schematic side view of a portion of a module according to a tenth embodiment of the present invention, wherein the illustrated tenth embodiment of the module 1 is substantially identical to the ninth embodiment illustrated in Figure 10, wherein the contact 6 only a mechanical contact to the relative Fixing of the first and second support member 3, 4 comprises and wherein a transmission of electrical signals between the first and the second support member 3, 4 or an energy transfer between the first and the second support member 3, 4 is provided by means of a coupling unit 200, wherein the coupling unit 200 for capacitive coupling between the first and the second carrier element 3, 4 a first electrode 52 on the first support member 3 and a first electrode 52 substantially parallel and perpendicular to the main extension plane of the first support member 3, the first electrode 52 via lappende second electrode 53 on the second carrier element 4, wherein the first electrode 52 to the further conductor 51 and the second electrode 53 to the conductor 50 are electrically conductively connected.

FIG. 12 shows a schematic side view of a module 1 according to an eleventh embodiment of the present invention, wherein the illustrated eleventh embodiment is substantially identical to the eighth embodiment illustrated in FIG. 8, wherein the sealing means 10 is not integrated into the housing 2, but integrally and / or positively connected to the second support member 10 and in particular only by clamping in the Abdichtbereich 9 with the housing 2 has a frictional and positive connection. The sealing means 10 is produced by Umsphtzen the second support member 4 and preferably comprises a silicone.

Claims

claims

1. module (1), in particular a sensor module, with a housing (2), a first carrier element (3), a second carrier element (4) and at least one component (5), wherein the at least one component (5) on the first Carrier element (3) is arranged, wherein the housing (2), the first

Carrier element (3) and the at least one component (5) completely encloses and wherein the first carrier element (3) has an indirect or immediate contact (6) to the second carrier element (4), characterized in that the second carrier element (4) mechanically flexible is formed and a first and second portion (7, 8), wherein the first portion (7) enclosed by the housing (2) and the second portion (8) outside the housing (2) is arranged.

2. Module (1) according to claim 1, characterized in that the module (1) has an internal and / or external power supply unit.

3. Module (1) according to any one of the preceding claims, characterized in that the housing (2) comprises a sealing region (9) which substantially between the housing (2) and the second support member (4) in the transition region from the first to the second subregion

(7, 8) is arranged, wherein the sealing region (9) in particular a sealing means (10).

4. Module (1) according to any one of the preceding claims, characterized in that the second portion (8) has a third and fourth

Partial area (11, 12), wherein between the third and fourth portion (11, 12) of the first portion (7) and / or wherein the third and fourth portion (11, 12) outside the housing (2) are interconnected ,

5. Module (1) according to one of the preceding claims, characterized in that the second carrier element (4), the second portion (8) and / or a conductor track (50) on the second carrier element (4) acts as an antenna and as a flexible Line board is formed and / or that a portion (13) of the housing (2) acts as a housing cover (13) and / or that the housing (2) is substantially rigid.

6. Module (1) according to any one of the preceding claims, characterized in that the antenna as a dipole antenna, preferably as

Stabdipolantenne or as a folded dipole antenna, or as a loop antenna, wherein the loop antenna is preferably aligned parallel or perpendicular to the first carrier element (3) is formed.

7. Module (1) according to any one of the preceding claims, characterized in that the direct or indirect contact (6) between the first and the second carrier element (3, 4) comprises an electrically conductive and / or a mechanical contact.

8. Module (1) according to one of the preceding claims, characterized in that the module (1) for data transmission between the first and the second carrier element (3, 4) has a coupling unit (200), which in particular an inductive and / or capacitive Coupling between the first and the second carrier element (3, 4).

9. A method for producing a module (1) according to any one of the preceding claims, characterized in that in a first method step, the first carrier element (3) connected to the second carrier element (4) and / or equipped with the at least one component (5) is, wherein in a second method step, the first support member (3) in the housing (2) is mounted and wherein in the second or in a third process step, the second portion (8) of the second support member (4) is led out of the housing (2).

10.Verfahren according to claim 9, characterized in that the direct or indirect contact (6) between the first and the second carrier element (3, 4) in the first process step by a soldering and / or welding process, preferably a Bügellötverfahren, and / or an adhesive method, preferably using an anisotropically electroconductive film, an anisotropically electroconductive adhesive and / or an electrically non-conductive adhesive.

11.Verfahren according to any one of claims 9 or 10, characterized in that in a fourth method step, the housing cover (13) closed and / or mounted on the housing (2) and in particular by welding the housing cover (13) to the housing (2 ) is mechanically fixed additionally.

12. The method according to any one of claims 9 to 11, characterized in that the fixing of the first carrier element (3) in the housing is carried out in a fifth method step, wherein preferably the first carrier element (3) to the housing (2) cohesively by an adhesive method and / or non-positively by clamping, particularly preferably by the mounting of the housing cover (13) is connected.

13. The method according to any one of claims 9 to 12, characterized in that the second carrier element (4) in a sixth method step in the transition region of the first to the second portion (7, 8) with the sealing means (10) is encapsulated, wherein in the third method step the

Sealing means (10) is clamped in the sealing region (9) and wherein the sealing means (10) preferably comprises a liquid silicone.

14. The method according to any one of claims 9 to 13, characterized in that before the first and / or before the second process step in a seventh

Process step, the housing (2) and / or the sealing means (10) are produced in an injection molding process and in particular in a two-component injection molding process, wherein the sealing means (10) preferably comprises a liquid silicone.

15. The method according to any one of claims 9 to 14, characterized in that the second carrier element (4) is mounted in an eighth method step in the housing (2) and / or on the first carrier element (3), wherein the eighth method step after the time second method step is performed.

16. The method according to any one of claims 9 to 15, characterized in that in a ninth step, the sensor module (1) with the coupling unit (200) is provided, wherein preferably the first carrier element (3) at least with a first electrode (3 ') and the second support member (4) is provided with at least a second electrode (4 ').

17. Use of a module (1) according to one of claims 1 to 8 as a sensor module in a tire of a motor vehicle, in particular as a tire pressure sensor.