Claims
- 1. A method for connecting electronic parts comprising the steps of:forming metal projections on a plurality of connection terminals prepared on a surface of a first electronic part; preliminarily contacting by pressure against a plurality of connection terminal surfaces prepared on a second electronic part a resin film which has a laminated B/A/B structure or a structure where a first resin layer (A) is sandwiched between second and third resin layers (B), with an elastic modulus of the latter being smaller than that of the former; and pressing the first electronic part against the other electronic part in the presence of heat, after having properly aligned the metal projections of the former with the connection terminals of the latter, thereby establishing electric connection of the two and at the same time mechanically combining the two through the resin film melt and solidifying.
- 2. A method for connecting electronic parts comprising the steps of:forming metal projections on a plurality of connection terminals prepared on a surface of a first electronic part; preliminarily contacting by pressure against a plurality of connection terminal surfaces prepared on a second electronic part a resin film which has a laminated B/A/B structure or a structure where a first resin layer (A) is sandwiched between second and third resin layers (B), layer A containing inorganic particles in its base resin while layers B containing no such insulating inorganic particles in their base resins; and pressing the first electronic part against the other electronic part in the presence of heat, after having properly aligned the metal projections of the former with the connection terminals of the latter, thereby establishing electric connection of the two and at the same time mechanically combining the two through the resin film melt and solidifying.
- 3. A method for connecting electronic parts as described in claim 2 comprising the use of a resin film in which the melt viscosity of base resin constituting the first resin layer (A) is smaller than those of second and third resin layers (B).
- 4. A method for connecting electronic parts as described in claim 2 comprising the use of a resin film in which at least one of the second and third resin layers (B) contains conductive particles in its base resin.
- 5. A method for connecting electronic parts as described in claim 4 comprising the use of a resin film in which, when a plurality of connection terminals prepared on the first electronic part have metal projections each of which has a pointed tip, and the connection terminal of second electronic part corresponding to the former has a substantially flattened surface, a diameter of conductive particles contained in at least one of the second and third resin layers (B) is smaller than that of insulating inorganic particles contained in the base resin of the first resin layer (A).
- 6. A method for connecting electronic parts as described in claim 4 comprising the use of a resin film in which, when a plurality of connection terminals prepared on the first electronic part have metal projections each of which has a flattened tip, and the connection terminal of second electronic part corresponding to the former has a substantially flattened surface, a diameter of conductive particles contained in at least one of the second and third resin layers (B) is larger than that of insulating inorganic particles contained in the base resin of first resin layer (A).
Priority Claims (1)
Number |
Date |
Country |
Kind |
10-50630 |
Mar 1998 |
JP |
|
Parent Case Info
This application is a divisional application of U.S. application Ser. No. 09/258,794 filed on Mar. 1, 1999 now U.S. Pat. No. 6,214,446.
US Referenced Citations (8)
Foreign Referenced Citations (4)
Number |
Date |
Country |
62-141083 |
Jun 1987 |
JP |
2-7180 |
Jan 1990 |
JP |
7-157720 |
Jun 1995 |
JP |
9-97816 |
Apr 1997 |
JP |