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Electric signal connecting device and probe assembly and probing device using the same |
| 7368926 |
Electric signal connecting device and probe assembly and probing device using the same
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| Patent Drawings: | |
| Inventor: |
Kimoto |
| Date Issued: |
May 6, 2008 |
| Application: |
11/080,601 |
| Filed: |
March 15, 2005 |
| Inventors: |
Kimoto; Gunsei (Minato-ku, Tokyo, JP)
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| Assignee: |
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| Primary Examiner: |
Nguyen; Ha Tran |
| Assistant Examiner: |
Isla-Rodas; Richard |
| Attorney Or Agent: |
Haynes and Boone, LLP |
| U.S. Class: |
324/754 |
| Field Of Search: |
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| International Class: |
G01R 31/02 |
| U.S Patent Documents: |
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| Foreign Patent Documents: |
0802419 |
| Other References: |
Faure, "Modular Probe", IBM Technical Disclosure Bulletin, Nov. 1974, vol. 17, No. 6, p. 1634. cited by other.
European Search Report issued Mar. 29, 2007 in Application No. EP 05 25 5613. cited by other. |
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| Abstract: |
The present invention is for enabling to carry out probing tests en bloc at the same time on electronic devices and semiconductor chips having high-density terminals. For this purpose, the electric signal connecting device includes vertical probes for getting into contact with terminals for electric connection created on electric functional elements to be tested for electric connection, and a resin film supporting the vertical probes, and the vertical probes are planted resiliently deformably in a surface of a resin film in a direction along the film surface, and an end of the vertical probes is brought into contact with terminals of electric functional elements to be tested and another end of the vertical probes is brought into contact with terminals of an electric function testing apparatus so that signals may be transmitted and received between the electric functional elements to be tested and the electric function testing apparatus. |
| Claim: |
What is claimed is:
1. A probing device for establishing electric connection between a testing device and a plurality of semiconductor chips to be tested formed on a semiconductor wafer throughprobes by bringing the probes into contact with the semiconductor chips to be tested, each of the chips comprising one or more pads, the device comprising: a plurality of sets of units in an X direction and of units in a Y direction comprising aplurality of ribbon-like resin films comprising a plurality of probes laid out together in the probing device, each probe comprising a curved part; wherein the plurality of sets of units in the X direction and units in the Y direction are arranged in agrid form on a supporting board to be positioned and fixed there, and the probes positioned at each crossing of the units in the X direction and the units in the Y direction are brought into contact en bloc with all the pads of the chips to be testedformed on a semiconductor wafer to carry out probing tests; and wherein said ribbon-shaped film in the Y direction is arranged in such a way that an end of the probe protrude from the upper side of the curved part in the longitudinal direction, theother end tails down from the lower side of the curved part and extends to the end of the ribbon-shaped film to form a wiring line, a length of protrusion of the probe is formed longer than a length of protrusion in said ribbon-shaped film in the Xdirection, while the resin film part has an opening cut out being encircled by the curved part.
2. The probing device according to claim 1, wherein crossing positions of the plurality of sets of units in the X direction and units in the Y direction where said probes are arranged correspond one to one with all the semiconductor chips to betested formed on a semiconductor wafer, and the ribbon-shaped film in the X direction and the ribbon-shaped resin film in the Y direction occupy exclusive spaces at the crossing positions and do not interfere among themselves.
3. The probing device according to claim 1, wherein an arrangement of said probes arranged at each crossing position of said units in the X direction and units in the Y direction is supported by fixing means, and a pad arrangement of eachsemiconductor chip to be tested and the top of the probes agree.
4. The probing device according to claim 1, wherein said ribbon-shaped resin film comprises a ribbon-shaped film in the X direction and a ribbon-shaped film in the Y direction, respectively formed by a probe having a curved part created on acopper foil laminated resin film and a wiring line pattern connected thereto by etching.
5. The probing device according to claim 4, wherein a plurality of resiliently deformable contact terminals are provided for each wiring line.
6. The probing device according to claim 1, wherein said ribbon-shaped resin film is arranged in such a way that curved parts of adjacent probes may face in an opposite direction.
7. The probing device according to claim 1, wherein said ribbon-shaped film in the X direction is arranged in such a way that an end of the probe protrudes from an upper side of the curved part in a longitudinal direction, and another end tailsdown from the lower side of the curved part and extends to an end of the ribbon-shaped film to form a wiring line, while the resin film part has a second opening cut out being encircled by the curved part and a second opening cut out at equal intervalsin the longitudinal direction for allowing the ribbon-shaped film in the Y direction to pass at the right angle.
8. The probing device according to claim 1, further comprising a plurality of square bars for supporting an arrangement of said probes arranged at each crossing position of said units in the X direction and units in the Y direction, at leastone square bar comprising a convex protrusion arranged on a surface thereof, and wherein a position at which a surface in a thickness direction of the convex protrusion arranged on the surface of the at least one square bar and the ribbon-shaped films inthe X direction or the ribbon-shaped films in the Y direction come into contact in order to precisely determine the position in the thickness direction of the ribbon-shaped film in the X direction and the ribbon-shaped film in the Y direction is aposition at a limit of shiftability of the films.
9. A probing device for establishing electric connection between a testing device and a plurality of semiconductor chips to be tested formed on a semiconductor wafer through probes by bringing the probes into contact with the semiconductorchips to be tested, each of the chips comprising one or more pads, the device comprising: a plurality of sets of units in an X direction and of units in a Y direction comprising a plurality of ribbon-like resin films comprising a plurality of probes laidout together in the probing device, each probe comprising a curved part; wherein the plurality of sets of units in the X direction and units in the Y direction are arranged in a grid form on a supporting board to be positioned and fixed there, and theprobes positioned at each crossing of the units in the X direction and the units in the Y direction are brought into contact en bloc with all the pads of the chips to be tested formed on a semiconductor wafer to carry out probing tests; wherein saidribbon-shaped film in the X direction is arranged in such a way that an end of the probe protrudes from an upper side of the curved part in a longitudinal direction, and another end tails down from the lower side of the curved part and extends to an endof the ribbon-shaped film to form a wiring line, while the resin film part has a first opening cut out being encircled by the curved part and a second opening cut out at equal intervals in the longitudinal direction for allowing the ribbon-shaped film inthe Y direction to pass at the right angle; and wherein said ribbon-shaped films in the X and Y directions have spring restoring force in an axis direction of the probes by resilient deformation of a narrow width part of the resin film formed by theopening encircled by said curved part and the upper side of the resin film at the time of a test.
10. The probing device according to claim 9, wherein the unit in the Y direction passes at the right angle through the second opening of the unit in the X direction, the curved part of the unit in the X direction and the curved part of the unitin the Y direction are arranged having a difference in phase without interference in the Z axis direction, and wherein the probing device further comprises square bars for supporting the respective curved parts cross at the right angle having adifference in phase in the Z axis direction, and said respective square bars are at an equal distance from adjacent semiconductor chips to be tested.
11. A probing device for establishing electric connection between a testing device and a plurality of semiconductor chips to be tested formed on a semiconductor wafer through probes by bringing the probes into contact with the semiconductorchips to be tested, each of the chips comprising one or more pads, the device comprising: a plurality of sets of units in an X direction and of units in a Y direction comprising a plurality of ribbon-like resin films comprising a plurality of probes laidout together in the probing device; wherein the plurality of sets of units in the X direction and units in the Y direction are arranged in a grid form on a supporting board to be positioned and fixed there, and the probes positioned at each crossing ofthe units in the X direction and the units in the Y direction are brought into contact en bloc with all the pads of the chips to be tested formed on a semiconductor wafer to carry out probing tests; and wherein said units in the X direction and units inthe Y direction are erected being arranged in a matrix form on the supporting board and are arranged on a plurality of props for positioning in the X direction and the Y direction linked with fixing means.
12. The probing device according to claim 11, wherein each of the probes comprises a curved part, and wherein said unit in the X direction and unit in the Y direction are arranged at the right angle having a difference in phase in a Z axisdirection without interference, the curved part in the unit in the X direction and the curved part in the unit in the Y direction are arranged having a difference in phase in the Z axis direction without interference, the fixing means comprising a meansof supporting the respective curved parts cross at the right angle having a difference in phase in the Z axis direction, and said respective square bars are at an equal distance from adjacent semiconductor chips to be tested. |
| Description: |
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