IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0336621
(2003-01-02)
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등록번호 |
US-7294209
(2007-11-13)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Lemaire Patent Law Firm, P.L.L.C.
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인용정보 |
피인용 횟수 :
38 인용 특허 :
171 |
초록
▼
A battery-operated device provided on a thin-film battery and a method for making. Some embodiments provide a system that includes a vacuum chamber, a plurality of pairs of source and take-up reels within the vacuum chamber, including a first source reel that supplies a first strip of substrate mate
A battery-operated device provided on a thin-film battery and a method for making. Some embodiments provide a system that includes a vacuum chamber, a plurality of pairs of source and take-up reels within the vacuum chamber, including a first source reel that supplies a first strip of substrate material and a first take-up reel, and a second source reel that supplies a first mask strip having a plurality of different masks and a second take-up reel, a first deposition station configured to deposit material onto the first strip of substrate running between the first source reel and the first take-up reel, as defined by the first mask strip running between the second source reel and the second take-up reel, and a controller operatively coupled to run the first strip of substrate between the first source reel and the first take-up reel at a first independent rate and tension, and to run the mask strip between the second source reel and the second take-up reel.
대표청구항
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What is claimed is: 1. A system for making an RFID device, the system comprising: one or more supply reels that feed one or more source substrates; one or more supply reels that feed at least one electronic circuit and RF antenna; one or more deposition stations that deposit layers onto the one or
What is claimed is: 1. A system for making an RFID device, the system comprising: one or more supply reels that feed one or more source substrates; one or more supply reels that feed at least one electronic circuit and RF antenna; one or more deposition stations that deposit layers onto the one or more substrates, wherein the layers include: (i) layers to form a solid-state lithium-based battery, the battery layers including: a) a cathode layer; b) an electrolyte layer; c) an anode layer; (ii) a wiring layer to couple the battery to the at least one electronic circuit, and to couple the RF antenna to the at least one electronic circuit; a movable mask strip having a plurality of different mask areas used for different deposition operations; a supply reel that feeds a peel-and-stick adhesive layer; and a vacuum chamber that contains the supply reels and the deposition station. 2. An apparatus for forming a device, the apparatus comprising: means for providing a flexible substrate; means for moving a mask strip having a plurality of different mask areas used for different deposition operations; means for depositing a battery, including means for depositing an anode, a cathode, and an electrolyte separating the anode and cathode each defined by a different mask area on the mask strip; means for depositing a wiring layer; means for placing an electronic circuit onto the deposited layers, wherein the electronic circuit is operatively connected to the battery by the wiring layer; means for depositing a pressure-sensitive adhesive to allow peel-and-stick applications; and means for covering the device. 3. The apparatus of claim 2, wherein the means for depositing of the battery on the flexible substrate includes using an energy between about 50 eV and about 95 eV. 4. The apparatus of claim 2, wherein the means for depositing of the battery on the flexible substrate includes using an energy between 70 eV and 90 eV. 5. The apparatus of claim 2, further comprising means for forming an RFID device that comprises the electronic circuit. 6. An apparatus comprising: means for supplying and moving a first strip of substrate material through a deposition station; means for moving a first mask strip through the deposition station in a same direction as the first strip of substrate is moving; means for depositing, while the first strip of substrate is moving, a first layer of material from the deposition station onto the first substrate material in a pattern defined by a first area of the first mask strip; and means for depositing, while the first strip of substrate is moving, a second layer of material from the deposition station onto the first substrate material in a pattern defined by a second area of the first mask strip. 7. An apparatus comprising: means for supplying a first strip of substrate material through a deposition station; means for moving a first mask strip through the deposition station; means for depositing a first layer of material from the deposition station onto the first substrate material in a pattern defined by a first area of the first mask strip; means for depositing a second layer of material from the deposition station onto the first substrate material in a pattern defined by a second area of the first mask strip; means for supplying a second strip of substrate material through the deposition station; means for moving a second mask strip through the deposition station; means for depositing a first layer of material from the deposition station onto the second substrate material in a pattern defined by a first area of the second mask strip; and means for depositing a second layer of material from the deposition station onto the second substrate material in a pattern defined by a second area of the second mask strip. 8. The apparatus of claim 7, wherein the means for supplying the first strip of substrate material and means for supplying the second strip of substrate material move the first and second strips of substrate material at different rates. 9. The apparatus of claim 7, wherein the means for supplying the first strip of substrate material and means for supplying the second strip of substrate material move the first and second strips of substrate material at different tensions. 10. A system comprising: a vacuum chamber; a plurality of pairs of source and take-up reels within the vacuum chamber, including a first source reel that supplies a first strip of substrate material and a first take-up reel, and a second source reel that supplies a first mask strip having a plurality of different masks and a second take-up reel; a first deposition station configured to deposit material onto the first strip of substrate running between the first source reel and the first take-up reel, as defined by the first mask strip running between the second source reel and the second take-up reel; a controller operatively coupled to run the first strip of substrate between the first source reel and the first take-up reel at a first independent rate and tension, and to run the first mask strip between the second source reel and the second take-up reel; and a third deposition station configured to deposit pressure-sensitive adhesive material onto the first strip of substrate. 11. A system comprising: a vacuum chamber; a plurality of pairs of source and take-up reels within the vacuum chamber, including a first source reel that supplies a first strip of substrate material and a first take-up reel, and a second source reel that supplies a first mask strip having a plurality of different masks and a second take-up reel; a first deposition station configured to deposit material onto the first strip of substrate running between the first source reel and the first take-up reel, as defined by the first mask strip running between the second source reel and the second take-up reel; a controller operatively coupled to run the first strip of substrate between the first source reel and the first take-up reel at a first independent rate and tension, and to run the first mask strip between the second source reel and the second take-up reel; and a third source reel that supplies a second strip of substrate material and a third take-up reel, wherein the controller is coupled to run the second strip of substrate between the third source reel and the third take-up reel at a second independent rate and tension, wherein the second strip of substrate material includes a pressure-sensitive adhesive and a release layer, and further comprising an apparatus that attaches the second strip of material to the first strip of material. 12. The apparatus of claim 6, further comprising: a vacuum chamber, wherein: the means for supplying the first strip, the means for moving the first mask strip, the means for depositing the first layer onto the first substrate material, and the means for depositing the second layer onto the first substrate material, are each at least partially contained within the vacuum chamber. 13. The apparatus of claim 7, further comprising: a vacuum chamber, wherein: the means for supplying the first strip, the means for moving the first mask strip, the means for depositing the first layer onto the first substrate material, the means for depositing the second layer onto the first substrate material, the means for supplying the second strip, the means for moving the second mask strip, the means for depositing the first layer onto the second substrate material, and the means for depositing the second layer onto the second substrate material are each at least partially contained within the vacuum chamber. 14. The apparatus of claim 6, wherein the means for moving the first mask strip includes a controller operatively coupled to run the mask strip between a first mask source reel and a first mask take-up reel. 15. The apparatus of claim 6, wherein the means for supplying the first strip of substrate material through the deposition station includes a controller operatively coupled to run the first strip of substrate between a first substrate source reel and a first substrate take-up reel at a first independent rate and tension. 16. The apparatus of claim 7, wherein: the means for supplying the first strip of substrate material through the deposition station and the means for supplying the second strip of substrate material through the deposition station include a controller operatively coupled to run the first strip of substrate between a first substrate source reel and a first substrate take-up reel at a first independent rate and tension, and to run the second strip of substrate between a second substrate source reel and a second substrate take-up reel at a second independent rate and tension. 17. The apparatus of claim 8, wherein: the means for supplying the first strip of substrate material through the deposition station and the means for supplying the second strip of substrate material through the deposition station include a controller operatively coupled to run the first strip of substrate between a first substrate source reel and a first substrate take-up reel at a first independent rate and tension, and to run the second strip of substrate between a second substrate source reel and a second substrate take-up reel at a second independent rate and tension. 18. The apparatus of claim 9, wherein: the means for supplying the first strip of substrate material through the deposition station and the means for supplying the second strip of substrate material through the deposition station include a controller operatively coupled to run the first strip of substrate between a first substrate source reel and a first substrate take-up reel at a first independent rate and tension, and to run the second strip of substrate between a second substrate source reel and a second substrate take-up reel at a second independent rate and tension. 19. The apparatus of claim 6, further comprising: means for supplying a second strip of substrate material through the deposition station, wherein the first mask strip provides masking for both the first and second substrate strips. 20. An apparatus comprising: means for supplying and moving a first strip of substrate material through a deposition station; means for moving a first mask strip through the deposition station in a same direction as the first strip of substrate is moving means for depositing a first layer of material from the deposition station in a same direction as the first strip of substrate is moving onto the first substrate material in a pattern defined by a first area of the first mask strip; means for depositing a second layer of material from the deposition station onto the first substrate material in a pattern defined by a second area of the first mask strip; and means for attaching a peel-and-stick adhesive layer to the first substrate. 21. The apparatus of claim 20, further comprising: means for supplying a second strip of substrate material through the deposition station; means for moving a second mask strip through the deposition station; means for depositing a first layer of material from the deposition station onto the second substrate material in a pattern defined by a first area of the second mask strip; means for depositing a second layer of material from the deposition station onto the second substrate material in a pattern defined by a second area of the second mask strip; and means for attaching a peel-and-stick adhesive layer to the second substrate. 22. The apparatus of claim 20, further comprising: means for supplying a second strip of substrate material through the deposition station; means for moving a second mask strip through the deposition station; means for depositing a first layer of material from the deposition station onto the second substrate material in a pattern defined by a first area of the second mask strip; means for depositing a second layer of material from the deposition station onto the second substrate material in a pattern defined by a second area of the second mask strip; and means for attaching a peel-and-stick adhesive layer to the second substrate, wherein the means for supplying the first strip of substrate material and means for supplying the second strip of substrate material move the first and second strips of substrate material at different rates. 23. The apparatus of claim 20, further comprising: means for supplying a second strip of substrate material through the deposition station; means for moving a second mask strip through the deposition station; means for depositing a first layer of material from the deposition station onto the second substrate material in a pattern defined by a first area of the second mask strip; means for depositing a second layer of material from the deposition station onto the second substrate material in a pattern defined by a second area of the second mask strip; and means for attaching a peel-and-stick adhesive layer to the second substrate, wherein the means for supplying the first strip of substrate material and means for supplying the second strip of substrate material move the first and second strips of substrate material at different tensions. 24. The apparatus of claim 12, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 25. The apparatus of claim 13, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 26. The apparatus of claim 14, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 27. The apparatus of claim 15, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 28. The apparatus of claim 16, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 29. The apparatus of claim 17, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 30. The apparatus of claim 18, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 31. The apparatus of claim 19, further comprising: means for attaching a peel-and-stick adhesive layer to the first substrate. 32. The apparatus of claim 6, wherein the first layer and second layer of the first substrate form at least a portion of a solid-state lithium-based battery. 33. The apparatus of claim 7, wherein the first layer and second layer of the first substrate form at least a portion of a solid-state lithium-based battery, and wherein the first layer and second layer of the second substrate form at least a portion of a solid-state lithium-based battery. 34. The apparatus of claim 12, wherein the first layer and second layer of the first substrate form at least a portion of a solid-state lithium-based battery. 35. The apparatus of claim 13, wherein the first layer and second layer of the first substrate form at least a portion of a solid-state lithium-based battery, and wherein the first layer and second layer of the second substrate form at least a portion of a solid-state lithium-based battery. 36. The apparatus of claim 6, wherein the first layer and second layer of the first substrate form at least a portion of a thin-film solid-state battery. 37. The apparatus of claim 7, wherein the first layer and second layer of the first substrate form at least a portion of a thin-film solid-state battery, and wherein the first layer and second layer of the second substrate form at least a portion of a thin-film solid-state battery. 38. The apparatus of claim 12, wherein the first layer and second layer of the first substrate form at least a portion of a thin-film solid-state battery. 39. The apparatus of claim 13, wherein the first layer and second layer of the first substrate form at least a portion of a thin-film solid-state battery, and wherein the first layer and second layer of the second substrate form at least a portion of a thin-film solid-state battery. 40. The apparatus of claim 6, wherein the first layer and second layer of the first substrate form at least a portion of a lithium-based battery. 41. The apparatus of claim 7, wherein the first layer and second layer of the first substrate form at least a portion of a lithium battery, and wherein the first layer and second layer of the second substrate form at least a portion of a lithium-based battery. 42. A system for making an RFID device, the system comprising: one or more supply reels that feed at least one source substrate; one or more supply reels that feed, for placement onto the at least one source substrate, at least one electronic circuit; one or more deposition stations that deposit layers onto the at least one source substrate, wherein the layers include: (iii) layers to form a solid-state lithium-based battery, the battery layers including: a) a cathode layer; b) an electrolyte layer; c) an anode layer; (iv) a wiring layer and an RF antenna, wherein the wiring couples the battery to the at least one electronic circuit, and couples the RF antenna to the at least one electronic circuit; a movable mask strip having a plurality of different mask areas used for different deposition operations; a supply reel that feeds a peel-and-stick adhesive layer; and a vacuum chamber that contains the supply reels and the deposition station.
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