A sensor device, having a flexible printed circuit board that has a fastening section for a chip structure, a chip structure situated on the fastening section of the flexible printed-circuit board, and a damper element for damping the chip structure from mechanical influences. The fastening section
A sensor device, having a flexible printed circuit board that has a fastening section for a chip structure, a chip structure situated on the fastening section of the flexible printed-circuit board, and a damper element for damping the chip structure from mechanical influences. The fastening section of the flexible printed circuit board, the chip structure and the damper element are situated one on top of the other.
대표청구항▼
1. A sensor device, comprising: a flexible printed circuit board having a fastening section for a chip structure;the chip structure situated on the fastening section of the flexible printed circuit board;a carrier device; anda damper element provided on at least the fastening section of the flexible
1. A sensor device, comprising: a flexible printed circuit board having a fastening section for a chip structure;the chip structure situated on the fastening section of the flexible printed circuit board;a carrier device; anda damper element provided on at least the fastening section of the flexible printed circuit board for damping the chip structure from mechanical influences,whereinthe flexible printed circuit board is electrically connected to the carrier device,the flexible printed circuit board has a first side and a second side that is opposite to the first side,the chip structure is situated on the first side of the flexible printed circuit board,the damper element is provided on the second side of the flexible printed circuit board and not on provided on the chip structure, andthe fastening section of the flexible printed circuit board, the chip structure, and the damper element are situated one over the other. 2. The sensor device as recited in claim 1, wherein the flexible printed circuit board has a U-shaped form having a first leg and a second leg, which enclose an intermediate area. 3. The sensor device as recited in claim 2, wherein the damper element is situated in the intermediate area. 4. The sensor device as recited in claim 1, wherein the fastening section is a rigid section of the flexible printed circuit board. 5. The sensor device as recited in claim 1, wherein the chip structure includes one of the following components: i) sensor chip, ii) an evaluation chip, or iii) a chip module. 6. A method for producing a sensor device, comprising: providing a flexible printed circuit board, the flexible printed circuit board having a fastening section for a chip structure;positioning the chip structure on the fastening section of the flexible printed circuit board on a first side of the flexible printed circuit board; andbending the flexible printed circuit board into a U-shaped form having a first leg and a second leg in such a way that a second side of the flexible printed circuit board opposite of the first side is in between the first leg and second leg,developing a damper element on at least the fastening section of the flexible printed circuit board on the second side in such a way that the fastening section of the flexible printed circuit board, the chip structure and the damper element are situated one over the other,wherein the damper element is configured to provide the chip structure damping from mechanical influences and is not provided on the chip structure. 7. A sensor device, comprising: a flexible printed circuit board having a fastening section for a chip structure at a first end of the flexible printed circuit board and having a first side and a second side that is opposite to the first side;the chip structure situated on the fastening section of the flexible printed circuit board;a first carrier device;a second carrier device; anda damper element provided on at least the second carrier device and the second side of the flexible printed circuit board for damping the chip structure from mechanical influences;wherein the flexible printed circuit board electrically connected to the first carrier device at a second end of the flexible printed circuit board, andthe fastening section of the flexible printed circuit board, the chip structure, the second carrier device, and the damper element are situated one over the other. 8. The sensor device as recited in claim 7, wherein the second carrier device is a housing. 9. A method for producing a sensor device, comprising: providing a flexible printed circuit board, the flexible printed circuit board having a fastening section for a chip structure;positioning the chip structure on the fastening section of the flexible printed circuit board;providing a first carrier device;providing a second carrier device;electrically connecting the flexible printed circuit board to the first carrier device; anddeveloping a damper element on at least a surface of the second carrier device in such a way that the fastening section of the flexible printed circuit board, the chip structure, the second carrier device, and the damper element are situated one over the other,wherein the damper element is provided between the second carrier device and the flexible printed circuit board and is configured to provide the chip structure damping from mechanical influences. 10. The sensor device as recited in claim 7, wherein the chip structure is provided on the first sides of the flexible printed circuit board and the damper is not provided on the chip structure. 11. The sensor device as recited in claim 7, wherein the chip structure is provided on the second side of the flexible printed circuit board and the damper additionally encloses the chip structure. 12. A sensor device, comprising: a flexible printed circuit board having a fastening section for at least one chip structure;a first chip structure situated on the fastening section of the flexible printed circuit board;a second chip structure situated on the fastening section of the flexible printed circuit board;a damper element provided on at least the fastening section of the flexible printed circuit board for damping the second chip structure from mechanical influences, anda first carrier device,whereinthe flexible printed circuit board is electrically connected to the first carrier device,the flexible printed circuit board has a first side and a second side that is opposite to the first side,the first chip structure is situated on the first side of the flexible printed circuit board,the second chip structure is situated on second side of the flexible printed circuit board,the damper element is provided on the second side of the flexible printed circuit board to enclose the second chip structure,the damper element is not provided on the first side of the flexible printed circuit board, andthe fastening section of the flexible printed circuit board, the first chip structure, and the damper element are situated one over the other. 13. The sensor device of claim 12, wherein the flexible printed circuit board has a U-shaped form having a first leg and a second leg, which enclose an intermediate area, the damper element is situated in the intermediate area, the first chip structure is situated on the first leg, and the second leg is fastened to the first carrier device. 14. The sensor device of claim 12, further comprising a second carrier device, wherein the flexible printed circuit board is electrically connected to the first carrier device at a first end of the flexible printed circuit board, the damper element is provided on second carrier device such that the damper element is between the flexible printed circuit board and the second carrier device. 15. The method of claim 6, further comprising providing a second chip structure such that the damper encloses the second chip structure.
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