A contact smart card has a smart card contact pad and an IC chip. The smart card contact pad includes a circuit substrate, a card-reader contact element on a first side of the circuit substrate, and a connection element on a second side of the circuit substrate. The card-reader contact element has a
A contact smart card has a smart card contact pad and an IC chip. The smart card contact pad includes a circuit substrate, a card-reader contact element on a first side of the circuit substrate, and a connection element on a second side of the circuit substrate. The card-reader contact element has a noble metal electrically conductive surface, and the connection element has a chip terminal connection surface which is not a noble metal. The IC chip is preferably flip-chip mounted at the second side of the circuit substrate and electrically connected to the chip terminal connection surface. Furthermore, the chip terminal connection surface is preferably an organometallic electrically conductive corrosion protection layer.
대표청구항▼
1. A contact smart card comprising a smart card contact pad and an IC chip, wherein the smart card contact pad comprises a circuit substrate, a card-reader contact element on a first side of the circuit substrate, and a chip connection element on a second side of the circuit substrate which is oppos
1. A contact smart card comprising a smart card contact pad and an IC chip, wherein the smart card contact pad comprises a circuit substrate, a card-reader contact element on a first side of the circuit substrate, and a chip connection element on a second side of the circuit substrate which is opposite the first side, the card-reader contact element having a noble metal electrically conductive surface, the chip connection element having a chip terminal connection surface which is not a noble metal, and the IC chip being mounted at the second side of the circuit substrate and electrically connected to the chip terminal connection surface, wherein a portion of the chip terminal connection surface is an exposed surface. 2. The contact smart card of claim 1, wherein said noble metal is or includes gold. 3. The contact smart card of claim 1, wherein at least one of the noble metal electrically conductive surface of the card-reader contact element and the chip terminal connection surface of the chip connection element is an electrodeposited layer. 4. The contact smart card of claim 1, further comprising at least one electrically conductive corrosion protection layer which form an outermost surface of at least one of the chip terminal connection surface and the noble metal electrically conductive surface. 5. The contact smart card of claim 4, wherein the said corrosion protection layer is an organometallic electrically conductive layer. 6. The contact smart card of claim 4, wherein the corrosion protection layer is thiol-based. 7. The contact smart card of claim 4, wherein the corrosion protection layer is a self-assembled mono-layer. 8. The contact smart card of claim 1, wherein the IC chip is flip-chip mounted to the chip connection element. 9. The contact smart card of claim 8, further comprising a plurality of electrically-conductive bumps which interconnect the IC chip and the chip connection element. 10. The contact smart card of claim 9, wherein the bumps are pointed studs or plated pads. 11. The contact smart card of claim 10, wherein the bumps lie on a first layer of the chip connection element. 12. A SIM card comprising a carrier substrate and the contact smart card of claim 1 carried by the carrier substrate. 13. A bank card comprising a carrier substrate and the contact smart card of claim 1 carried by the carrier substrate. 14. A method of forming a smart card contact pad, comprising the steps of: a] feeding a flexible carrier strip through a roll-to-roll transfer system;b] applying at least a noble metal card-reader layer at a first side of the flexible carrier strip; andc] applying a non-noble metal chip terminal connection layer at a second side of the flexible carrier strip which is opposite the first side, wherein, for at least a portion of the card, the chip terminal connection layer is the outermost layer. 15. The method of claim 14, further comprising a step d] which is subsequent to step c] of applying a metallic corrosion protection layer over at least one of the chip terminal connection layer and the noble metal card-reader layer. 16. The method of claim 15, wherein the corrosion protection layer is an organometallic electrically-conductive layer. 17. A method of preventing or limiting oxidation of a non-noble metal chip terminal connection surface of a smart card contact pad, the method comprising the step of applying an organometallic electrically-conductive corrosion-protection layer to the whole of a non-noble metal chip terminal connection surface prior to mounting of an IC chip using a flip-chip mounting technique, wherein at least a portion of the organometallic electrically-conductive corrosion-protection layer remains an outermost exposed surface of the non-noble metal chip terminal connection surface after mounting the IC chip. 18. The method of claim 17, wherein the corrosion-protection layer is contiguously applied to the whole of the non-noble metal chip terminal connection surface to form an unbroken overlying barrier surface. 19. A smart card contact pad comprising a circuit substrate, an electrical circuit supported by the circuit substrate and having a card-reader contact element on a first side of the circuit substrate, and a chip connection element on a second side of the circuit substrate which is opposite the first side, the card-reader contact element having a noble metal electrically conductive surface, and the chip connection element having a chip terminal connection surface which is not a noble metal, the chip terminal connection being an exposed electrically conductive surface which includes at least one electrically conductive corrosion protection layer which forms an outermost surface. 20. The smart card contact pad of claim 19, further comprising a thiol-based organometallic electrically conductive self-assembled mono-layer applied to the chip connection element.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (1)
Tommie W. Kelley ; Dawn V. Muyres ; Mark J. Pellerite ; Timothy D. Dunbar ; Larry D. Boardman ; Terrance P. Smith, Surface modifying layers for organic thin film transistors.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.