Capacitance sensing circuits, methods and systems having conductive touch surface
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-027/26
H03K-017/975
H03K-017/96
H03K-017/98
출원번호
US-0247248
(2011-09-28)
등록번호
US-9490804
(2016-11-08)
발명자
/ 주소
Hanumanthaiah, Shruti
Srinivasagam, Kannan
출원인 / 주소
CYPRESS SEMICONDUCTOR CORPORATION
인용정보
피인용 횟수 :
6인용 특허 :
12
초록▼
A capacitance sense device can include a plurality of sense electrodes; a nonconductive structure comprising first regions formed over the sense electrodes and second regions formed between first regions that are less compressible than the first regions; a conductive touch surface formed over the no
A capacitance sense device can include a plurality of sense electrodes; a nonconductive structure comprising first regions formed over the sense electrodes and second regions formed between first regions that are less compressible than the first regions; a conductive touch surface formed over the nonconductive structure; and a capacitance sense circuit coupled to at least the sense electrodes.
대표청구항▼
1. A capacitance sense device, comprising: a plurality of sense electrodes;a conductive touch surface configured to receive direct contact by a conductive object;a nonconductive structure comprising first nonconductive regions formed between the conductive touch surface and each of the plurality of
1. A capacitance sense device, comprising: a plurality of sense electrodes;a conductive touch surface configured to receive direct contact by a conductive object;a nonconductive structure comprising first nonconductive regions formed between the conductive touch surface and each of the plurality of sense electrodes, and second nonconductive regions that are less compressible than the first nonconductive regions, each of the second nonconductive regions formed adjacent to at least one of the first nonconductive regions, wherein the conductive touch surface overlies both of the first nonconductive regions and the second nonconductive regions so that a portion of the conductive touch surface overlying the first nonconductive regions is capable of being displaced in response to the direct contact; anda capacitance sense circuit coupled to at least the sense electrodes, the capacitance responsive to the direct contact by the conductive object. 2. The capacitance sense device of claim 1, wherein the sense electrodes comprise conductive areas of a printed circuit board. 3. The capacitance sense device of claim 1, wherein the nonconductive structure comprises a rigid layer, and the first nonconductive regions comprise openings in the rigid layer. 4. The capacitance sense device of claim 1, wherein: the sense electrodes and first nonconductive regions have widths in a direction parallel to touch surface, and a width of at least one first nonconductive region is selected from: a same width as a corresponding sense electrode; a smaller width than the corresponding sense electrode; and a greater width than the corresponding sense electrode. 5. The capacitance sense device of claim 1, wherein the conductive touch surface comprises a contiguous structure formed over the sense electrodes. 6. The capacitance sense device of claim 1, wherein the conductive touch surface is selected from: a rigid layer of metal; a flexible conductive layer; a conductive paint formed on a flexible nonconductive layer. 7. The capacitance sense device of claim 1, further including: a switch circuit that selectively connects at least one sense electrode to the capacitance sense circuit; andthe capacitance sense circuit comprises a sigma-delta modulation capacitance sense circuit. 8. A capacitance sensing system, comprising: a plurality of sense electrodes;a conductive surface configured to receive contact by a sense object,wherein at least a portion of the conductive surface overlies both of a first nonconductive region and a second nonconductive region that is less compressible than the first nonconductive region so that a portion of the conductive touch surface overlying the first nonconductive regions is capable of being displaced in response to the contact; anda capacitance sensing circuit configured to detect changes in capacitance between the conductive surface and each sense electrode in response to contact made between the sense object and the conductive surface, wherein a change in capacitance of the conductive surface and a sense electrode, of the plurality of sense electrodes, is responsive to a change in distance between the conductive surface and the sense electrode. 9. The capacitance sensing system of claim 8, wherein: the conductive surface comprises a contiguous conductive layer; andthe sense electrodes are substantially coplanar and parallel to the conductive surface. 10. The capacitance sensing system of claim 8, wherein the capacitance sensing circuit includes: a store for storing at least one proximity threshold value and at least one touch threshold value for each sense electrode; andat least one comparator circuit configured to compare a capacitance reading from the conductive surface to the at least one proximity threshold value and to compare capacitance readings for each sense electrode to its corresponding touch threshold value. 11. The capacitance sensing system of claim 8, further including a switching circuit that couples the conductive surface to a sense node in a first mode, and selectively couples sense electrodes to the sense node in a second mode. 12. The capacitance sensing system of claim 11, wherein the switching circuit further couples the conductive surface to a ground node in the second mode. 13. The capacitance sensing system of claim 8, further including a non-conductive overlay that includes first regions formed between the conductive surface and each sense electrode and a second regions formed between first regions, the first regions being more compressible than the second regions in response to pressing on the conductive surface. 14. The capacitance sensing system claim 8, wherein the conductive surface comprises a surface of an electronic device. 15. A method, comprising: in a first mode, detecting touches of an object at locations on a conductive touch surface by sensing changes in capacitance between the conductive touch surface and a plurality of sense electrodes, wherein the sensing of the changes in capacitance includes detecting capacitance changes responsive to contact between the object and the conductive touch surface and changes in distance between the conductive touch surface and the sense electrodes, wherein the conductive touch surface overlies both of a first nonconductive region and a second nonconductive region that is less compressible than the first nonconductive region so that a portion of the conductive touch surface overlying the first nonconductive regions is capable of being displaced in response to the contact; andin a second mode, detecting a proximity of the object to the conductive touch surface by sensing changes in capacitance of the conductive touch surface, wherein the proximity of the object to the conductive touch surface does not include contact between the object and the conductive touch surface. 16. The method of claim 15, further including connecting the touch surface to a ground node in the first mode and to a capacitance sense circuit in the second mode. 17. The method of claim 15, further including switching to the first mode from the second mode in response to detecting the proximity of the object to the touch surface in the second mode. 18. The method of claim 15, wherein detecting touches includes detecting touches that compress first regions formed between each sense electrode and the touch surface, the first regions being formed adjacent to second regions that are less compressible than the first regions.
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