Method of fabricating tamper-respondent sensor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05K-001/02
H05K-003/10
G06F-021/72
G06F-021/87
H05K-001/03
H05K-001/14
H05K-001/16
H05K-003/06
H05K-003/36
출원번호
US-0249663
(2016-08-29)
등록번호
US-10257939
(2019-04-09)
발명자
/ 주소
Dangler, John R.
Isaacs, Phillip Duane
Long, David C.
출원인 / 주소
INTERNATIONAL BUSINESS MACHINES CORPORATION
대리인 / 주소
Poltavets, Esq., Tihon
인용정보
피인용 횟수 :
0인용 특허 :
125
초록▼
Methods of fabricating tamper-respondent electronic circuit structures and electronic assembly packages are provided which include, at least in part, a tamper-respondent sensor including one or more formed flexible layers of, for instance, a dielectric material, having opposite first and second side
Methods of fabricating tamper-respondent electronic circuit structures and electronic assembly packages are provided which include, at least in part, a tamper-respondent sensor including one or more formed flexible layers of, for instance, a dielectric material, having opposite first and second sides, and circuit lines defining at least one resistive network. The circuit lines are disposed on at least one of the first side or the second side of the formed flexible layer(s). The formed flexible layer(s) with the circuit lines includes curvatures, and the circuit lines overlie, at least in part, the curvatures of the formed flexible layer(s). In certain embodiments, the formed flexible layer(s) may be one or more corrugated layers or one or more flattened, folded layers.
대표청구항▼
1. A method of fabricating a tamper-respondent sensor, the method comprising: forming at least one formed flexible layer having opposite first and second sides with surface curvatures extending from the opposite first and second sides of the at least one formed flexible layer;providing circuit lines
1. A method of fabricating a tamper-respondent sensor, the method comprising: forming at least one formed flexible layer having opposite first and second sides with surface curvatures extending from the opposite first and second sides of the at least one formed flexible layer;providing circuit lines comprising at least one resistive network on at least one of the first side or the second side of the at least one formed flexible layer, the circuit lines wrapping over, at least in part, the surface curvatures extending from the at least one first side or second side of the at least one formed flexible layer; andwherein forming the at least one formed flexible layer comprises collapsing by flattening the at least one formed flexible layer with the circuit lines into at least one flattened, folded layer by applying a z-direction force and a shear force to the at least one formed flexible layer. 2. The fabrication method of claim 1, wherein a transverse cross-section of a flattened, folded layer of the at least one flattened, folded layer intersects vertically multiple times a common surface of the flattened, folded layer with the circuit lines forming the at least one resistive network. 3. The fabrication method of claim 1, wherein the tamper-respondent sensor comprises a stack of layers, the at least one flattened, folded layer being at least one layer of the stack of layers, and wherein the stack of layers further comprises at least one other layer overlying at least one side of the at least one flattened, folded layer. 4. The fabrication method of claim 3, wherein the at least one other layer of the stack of layers comprises at least one other flexible layer overlying at least one side of the at least one flattened, folded layer. 5. The fabrication method of claim 3, wherein the at least one other layer of the stack of layers comprises at least one breakable layer overlying at least one side of the at least one flattened, folded layer. 6. The fabrication method of claim 1, further comprising providing a stack of layers, the stack of layers comprising multiple formed flexible layers, each with circuit lines forming at least one respective resistive network disposed on at least one of the first side or the second side thereof, the at least one formed flexible layer being at least one formed flexible layer of the multiple formed flexible layers. 7. The fabrication method of claim 1, further in combination with providing an electronic enclosure mounted to a multilayer circuit board, the multilayer circuit board comprising an embedded tamper-respondent sensor within the multilayer circuit board, the tamper-respondent sensor and the embedded tamper-respondent sensor together defining a secure volume between the electronic enclosure and the multilayer circuit board. 8. The fabrication method of claim 7, wherein the at least one formed flexible layer with the circuit lines is secured to an inside surface of the electronic enclosure. 9. A method of fabricating a tamper-respondent sensor, the method comprising: forming at least one formed flexible layer having opposite first and second sides with surface curvatures extending from the opposite first and second sides of the at least one formed flexible layer;providing circuit lines comprising at least one resistive network on at least one of the first side or the second side of the at least one formed flexible layer, the circuit lines wrapping over, at least in part, the surface curvatures extending from the at least one first side or second side of the at least one formed flexible layer; andfurther comprising providing multiple formed flexible layers, each having opposite first and second sides, and circuit lines forming at least one resistive network disposed on at least one of the first side or the second side thereof, the at least one formed flexible layer being at least one formed flexible layer of the multiple formed flexible layers, and wherein the multiple formed flexible layers are separate, discrete formed flexible layers positioned, at least in part, around an electronic assembly enclosure to be secured, at least two formed flexible layers of the multiple formed flexible layers overlapping where adjoining along the electronic assembly enclosure. 10. The fabrication method of claim 9, wherein the multiple flexible formed layers comprise multiple flattened, folded layers, each with respective circuit lines forming least one respective resistive network.
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