A semiconductor die is enveloped by an ambient gas that will react to the presence of a particular wave length of light. A laser beam is focused on the edge of the die to deposit a dielectric coating. The laser beam or the die is rotated until the dielectric coating covers the entire die edge. The dielectric coating acts as a seal that is impervious to water and other contamination that can reduce the die reliability. The dielectric coating also electrically insulates the die from its surroundings.

The invention is to a semiconductor package and the method of making the package. A moisture resistant coating such as a ceramic material is applied over a plastic packaged semiconductor device to seal the package from moisture.

A semiconductor wafer level package used to encapsulate a device fabricated on a semiconductor substrate wafer before dicing of the wafer into individual chips. A cap wafer is bonded to the semiconductor substrate wafer using a pre-patterned frit glass as a bonding agent such that the device is hermetically sealed inside a cavity. A hole in the cap wafer allows electrical connections to be made to the device through electrodes which pass through the frit glass seal.

A lead over chip packaged device that is less prone to package cracking during surface mounting is disclosed. The lead over chip lead frame overlies the active face of a semiconductor circuit. The backside of the semiconductor circuit is covered with an aminopropyltriethoxysilane coating. The aminopropyltriethoxysilane coating promotes adhesion between the backside of the semiconductor circuit and the mold compound used to encapsulate the device. This reduces package cracking resulting from delamination between the inactive face of the chip and the mold compound during reflow solder.

An on-board chip package has a hermetically sealed connector mechanically secured to a printed wiring board and electrically connected to input/output pads on the board. Chip dies are mechanically bonded to the board and then individually encapsulated with a suitable potting material. The entire assembly is coated with an encapsulating polymer, which partially overlaps the inboard side of the hermetic connector housing and which provides a relatively smooth, crevice-free outer surface. The entire assembly is then covered, in the preferred embodiment, with a metal layer, to hermetically seal the entire chip-on-board assembly.