Method and apparatus for burning-in semiconductor devices in wafer form
First Claim
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1. A method of burning-in semiconductor devices, comprising:
- providing a semiconductor water comprising a plurality of unsingulated semiconductor devices and a plurality of elongate, resilient contact structures mounted on the semiconductor devices, each said elongate, resilient contact structure extending away from a surface of the semiconductor wafer;
providing a test board with a plurality of contact elements, making pressure connections between the elongate, resilient contact structures and corresponding contact element of the test board, and operating the semiconductor devices at an elevated temperature for a selected period of time.
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Abstract
Resilient contact structures are mounted directly to bond pads on semiconductor dies, prior to the dies being singulated (separated) from a semiconductor wafer. This enables the semiconductor dies to be exercised (e.g., tested and/or burned-in) by connecting to the semiconductor dies with a circuit board or the like having a plurality of terminals disposed on a surface thereof. Subsequently, the semiconductor dies may be singulated from the semiconductor wafer, whereupon the same resilient contact structures can be used to effect interconnections between the semiconductor dies and other electronic components (such as wiring substrates, semiconductor packages, etc.). Using the all-metallic composite interconnection elements of the present invention as the resilient contact structures, burn-in can be performed at temperatures of at least 150° C., and can be comprised in less than 60 minutes.
223 Citations
20 Claims
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1. A method of burning-in semiconductor devices, comprising:
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providing a semiconductor water comprising a plurality of unsingulated semiconductor devices and a plurality of elongate, resilient contact structures mounted on the semiconductor devices, each said elongate, resilient contact structure extending away from a surface of the semiconductor wafer;
providing a test board with a plurality of contact elements, making pressure connections between the elongate, resilient contact structures and corresponding contact element of the test board, and operating the semiconductor devices at an elevated temperature for a selected period of time. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
(i) an attachment portion attached to a corresponding one of the semiconductor devices, (ii) a resilient section, having an elongate springable shape, extending from the attachment portion, and (iii) a contact region from the semiconductor device, the resilient contact structure being free standing and the contact region being depressible towards the semiconductor wafer due to resilient spring action of the resilient section. -
11. The method of claim 10 wherein said contact region comprises a contact tip structure joined to the resilient contact structure.
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12. The method of claim 1 wherein said test board comprises a printed circuit board.
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13. The method of claim 1 wherein said contact elements comprise a plurality of terminals mounted adjacent the test board.
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14. The method of claim 1 further comprising testing the functionality of a semiconductor device during the burn-in.
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15. The method of claim 1 further comprising testing a plurality of selected operating parameters of a semiconductor device during the burn-in.
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16. A method comprising:
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providing a semiconductor wafer comprising a plurality of unsingulated semiconductor devices and a plurality of resilient contact structures mounted on the semiconductor devices and extending away from a surface of the semiconductor wafer;
bringing contact elements of a test board into contact with ones of said resilient contact structures and compressing said ones of said resilient contact structures, thereby forming electrical connections between said contact elements of said test board and said ones of said resilient contact structures; and
providing electrical signals through said contact elements of said test board to said ones of said resilient contact structures, thereby exercising at least one of said semiconductor devices. - View Dependent Claims (17, 18, 19, 20)
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Specification
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Current AssigneeFormFactor Incorporated
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Original AssigneeFormFactor Incorporated
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InventorsMathieu, Gaetan L., Eldridge, Benjamin N., Grube, Gary W., Khandros, Igor Y.
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Primary Examiner(s)Arbes, Carl J.
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Application NumberUS09/468,620Time in Patent Office1,442 DaysField of Search298/43, 298/25, 298/29, 298/38, 298/42, 298/74, 298/83US Class Current29/843CPC Class CodesB23K 1/0008 specially adapted for parti...B23K 20/004 Wire weldingB23K 2101/40 Semiconductor devicesC23C 18/1605 by maskingC23C 18/165 Multilayered product layere...C25D 21/02 Heating or coolingC25D 5/22 Electroplating combined wit...C25D 5/605 Surface topography of the l...G01R 1/07342 the body of the probe being...G01R 31/2856 Internal circuit aspects, e...G01R 31/2863 Contacting devices, e.g. so...G01R 31/2884 using dedicated test connec...G01R 31/2886 Features relating to contac...H01L 21/4853 Connection or disconnection...H01L 21/4889 Connection or disconnection...H01L 21/563 Encapsulation of active fac...H01L 21/6835 using temporarily an auxili...H01L 22/20 Sequence of activities cons...H01L 2223/54453 for use prior to dicingH01L 2224/02311 Additive methodsView All
