Claims
- 1. A casting mold configuration for producing an integrated module with a plastic package, comprising:
a casting mold divided into a first casting mold region and a second casting mold region; said first casting mold region being formed with a first cavity region, said second casting mold region being formed with a second cavity region; said first cavity region and said second cavity region forming a cavity when said first casting mold region and said second casting mold region are in an assembled state, said cavity being configured to receive a metallic leadframe and to be filled with a plastic molding compound; said casting mold having an edge region configured to form a centering edge on a plastic package; said first cavity region having a first contact region in said edge region of said casting mold, said second cavity region having a second contact region in said edge region of said casting mold; and said first contact region bearing against said second contact region when said first casting mold region and said second casting mold region are in the assembled state.
- 2. The casting mold configuration according to claim 1, wherein said casting mold has further edge regions.
- 3. The casting mold configuration according to claim 1, wherein:
said first contact region has a first contact surface, said second contact region has a second contact surface; and said first contact surface rests on said second contact surface when said first casting mold region and said second casting mold region are in the assembled state.
- 4. The casting mold configuration according to claim 3, wherein:
said first contact surface has a first side edge, said second contact surface has a second side edge; and said first side edge coincides with said second side edge when said first casting mold region and said second casting mold region are in the assembled state.
- 5. The casting mold configuration according to claim 3, wherein said first contact surface lies substantially flat on said second contact surface when said first casting mold region and said second casting mold region are in the assembled state.
- 6. The casting mold configuration according to claim 1, wherein:
said casting mold has a rounded-off corner; and said edge region of said casting mold is disposed at said rounded-off corner.
- 7. A method of producing an integrated circuit with a plastic package, the method which comprises:
providing a casting mold divided into a first casting mold region formed with a first cavity region and into at least a second casting mold region formed with a second cavity region; inserting a metallic leadframe between the first casting mold region and the second casting mold region; and bringing the first casting mold region and second casting mold region together such that the first cavity region and the second cavity region form a cavity between the first casting mold region and the second casting mold region for receiving the metallic leadframe such that a first contact region provided in the first cavity region bears against a second contact region provided in the second cavity region, and such that the cavity can be filled with a plastic molding compound.
- 8. An integrated circuit, comprising:
a metallic leadframe defining a given main plane, said metallic leadframe extending substantially in the given main plane; and a plastic package having at least one centering portion disposed substantially at the given main plane, said plastic package covering said leadframe substantially completely at least at said at least one centering portion such that said plastic package forms a smooth, burr-free surface on said plastic package.
- 9. The integrated circuit according to claims, wherein:
said plastic package has a corner region; and said smooth, burr-free surface on said plastic package is provided at said corner region.
- 10. A method of functionally testing an integrated circuit with a plastic package, the method which comprises:
providing an integrated circuit having a metallic leadframe and a plastic package, the metallic leadframe extending substantially in a given main plane, the plastic package having at least one centering portion disposed substantially at the given main plane, the plastic package covering the leadframe substantially completely at least at the at least one centering portion such that the plastic package forms a smooth, burr-free surface on the plastic package; and inserting the integrated circuit into a test mount such that the at least one centering portion of the plastic package bears against a centering stop in the test mount.
- 11. A method of functionally testing an integrated circuit with a plastic package, the method which comprises:
providing an integrated circuit having a metallic leadframe and a plastic package, the integrated circuit being produced by using a casting mold divided into a first casting mold region formed with a first cavity region and into at least a second casting mold region formed with a second cavity region, by inserting the metallic leadframe between the first casting mold region and the second casting mold region, by bringing the first casting mold region and second casting mold region together such that the first cavity region and the second cavity region form a cavity between the first casting mold region and the second casting mold region for receiving the metallic leadframe such that a first contact region provided in the first cavity region bears against a second contact region provided in the second cavity region, and by filling the cavity with a plastic molding compound; and inserting the integrated circuit into a test mount such that at least one centering portion formed on the plastic package bears against a centering stop in the test mount.
Priority Claims (1)
Number |
Date |
Country |
Kind |
199 08 186.7 |
Feb 1999 |
DE |
|
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application is a continuation of copending International Application No. PCT/DE00/00483, filed Feb. 21, 2000, which designated the United States.
Continuations (1)
|
Number |
Date |
Country |
Parent |
PCT/DE00/00483 |
Feb 2000 |
US |
Child |
09940089 |
Aug 2001 |
US |