Semiconductor device manufacturing: process – Repair or restoration
Reexamination Certificate
1999-05-10
2002-01-01
Bowers, Charles (Department: 2813)
Semiconductor device manufacturing: process
Repair or restoration
C438S015000, C438S106000, C216S065000
Reexamination Certificate
active
06335208
ABSTRACT:
This invention relates generally to an apparatus and method for removing plastic compounds that encapsulate integrated circuits and particularly, to a laser-equipped apparatus and method for decapsulating plastic encapsulated integrated circuits.
The vast majority of integrated circuits are packaged in plastic resins including but not limited to biphenyl, ortho-cresol novolac, and dicyclopentadienyl types. The plastic package seals the enclosed integrated circuit from the external environment, including moisture and dust. The resin contains fillers such as silica or other insulating materials to enhance the physical and mechanical properties of the package. The integrated circuits are encapsulated using a transfer molding process. During that process a solid charge of resin is melted and then forced under pressure into a multi cavity mold that contains a number of integrated circuits. One mold may contain tens or hundreds of integrated circuits. The size of the molded integrated circuits varies in length, width and height. As the resins cool, their molecules cross-link into a solid resin. Some devices using the standard dual-in-line package are several millimeters thick. Other small outline packages are a millimeter in thickness.
There are a number of reasons for removing the plastic encapsulant from finished Integrated circuits. One reason is to monitor the manufacturing process. In most mass manufacturing processes, samples of finished product are often taken and analyzed to check whether or not the finished product is made to the manufacturing specifications. When one or more devices fail, it is desirable to analyze those failed devices to detect process flaws so that the flaws can be corrected. Some devices are also reverse engineered in order to discover how the device is constructed.
Current techniques for removing the plastic are time consuming and environmentally unfriendly. One acid etching technique uses fuming nitric or sulfuric acid. That technique can take several hours or more to remove the plastic, and the spent chemicals must be properly disposed of. In addition, these harsh chemicals come in contact with the surface of the integrated chip being exposed, which may chemically remove foreign substances or contaminants residing between the top of the die and the mold compound which will subsequently not be detected in failure analysis. Plasma etching may be used but it is slow and also leaves undesired residues. As such, there is a long felt and unfulfilled need for a faster process that is environmentally friendly and less disruptive to the top surface of the integrated circuit chip.
SUMMARY
The invention eliminates hazardous acid waste and provides a faster decapsulation process which is less disruptive to the top-of-die surface. The invention provides an apparatus and method for removing plastic encapsulant using a tunable laser. A chamber has a stage for holding the integrated circuit during decapsulation. The stage is an X,Y table that comprises rods so that encapsulant debris may fall between the rods. Below the stage is a dust bin for collecting the debris. A hinge on the table lets the operator adjust the angle of incidence of the laser beam on the surface of the device under test.
A laser outside the chamber shines its beam through a window or other suitable optical opening onto the surface of the device under test. The laser beam is tunable in frequency and intensity to suitable settings for removing the encapsulant. The laser beam is generated by a YAG or infrared laser or any other laser suitable for breaking the cross linked bonds of the encapsulant without damaging the integrated circuit.
The decapsulation process is controlled by a computer that includes a microprocessor or digital signal processor, suitable memory, an application program for operating the apparatus and suitable sensors. One sensor is an endpoint detector. It is focused on the integrated circuit to detect reflected light. Where the plastic is removed, the beam strikes the integrated circuit and the amplitude and frequency of the reflected light changes. The endpoint detector senses those changes. In response to a signal indicating that the integrated circuit is exposed, the computer shuts down the laser beam or moves the laser beam to a new location.
The apparatus has a sealed chamber. Fumes generated by decapsulation are exhausted through a suitable fan or blower-operated exhaust port. A cleaning gas such as nitrogen or compressed air is directed at the surface of the integrated circuit to remove dust and debris. The removed dust and debris are either exhausted or fall to into the dust bin.
REFERENCES:
patent: 5182230 (1993-01-01), Donelon et al.
patent: 5281798 (1994-01-01), Hamm et al.
patent: 5424254 (1995-06-01), Damiot
patent: 5643472 (1997-07-01), Engelsberg et al.
patent: 5700697 (1997-12-01), Dlugokecki
patent: 5817243 (1998-10-01), Shaffer
patent: 5824569 (1998-10-01), Brooks et al.
patent: 6048588 (2000-04-01), Engelsberg
patent: 2 731 637 (1996-09-01), None
patent: 2 177 965 (1987-02-01), None
patent: WO 86/07492 (1986-12-01), None
Bowers Charles
Intersil America's Inc.
Jaeckle Fleischmann & Mugel LLP
Smoot Stephen W.
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