Semiconductor device manufacturing: process – Packaging or treatment of packaged semiconductor – Including contaminant removal or mitigation
Reexamination Certificate
2000-12-14
2002-08-20
Nguyen, Tuan H. (Department: 2813)
Semiconductor device manufacturing: process
Packaging or treatment of packaged semiconductor
Including contaminant removal or mitigation
C438S710000, C438S720000
Reexamination Certificate
active
06436731
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method of producing a semiconductor device in which a semiconductor chip with wiring terminals is applied to a component of a housing configuration which contains organic, silicon-containing material, and in which the conductor tracks are subsequently connected to the wiring terminals.
Integrated semiconductor devices are used in various applications. A semiconductor chip with wiring terminals (so-called bond pads) is in this case generally packaged in a housing and mounted on a printed-circuit board. For example, a semiconductor device is disposed in a housing configuration in accordance with a so-called fine-pitch ball grid array (FBGA) housing configuration, which is based in particular on the so-called beam-lead-bonding technique. This type. of housing configuration can be advantageously used in particular in the case of semiconductor memory devices based on Rambus technology with comparatively high clock-pulse rates, since in particular line inductances are relatively low because of the specific configuration of the arrangement.
The FBGA housing configuration, also referred to as an FBGA package, usually contains a semiconductor chip with terminals for the electrical connection to the terminals of the printed-circuit board and a flexible printed-circuit board (also referred to as interposer) with a substrate and conductor tracks applied to it. Applied in turn to the interposer there are usually a plurality of spacers (also referred to as nubbins).
During the mounting of the semiconductor chip, it is initially attached to the spacers with or without an additional layer of adhesive (so-called die bonding), whereby a narrow intermediate space is produced between the semiconductor chip and the interposer. To conform to the customary configuration requirements, the spacers and adhesive are formed of organic silicon-containing materials. In a subsequent production step (so-called lead bonding), parts of the conductor tracks (so-called leads) are bent from the interposer onto the wiring terminals of the semiconductor chip and are welded on there with the aid of heat, pressure and ultra sound. The requirements for the quality of the welded contacts are relatively high, in order that the functionality of the semiconductor device is ensured even under high electrical demands, for example at high clock-pulse rates.
For attaching the semiconductor chip on the spacers, the semiconductor device is usually subjected to a process at a correspondingly elevated process temperature, in which the silicon-containing material of the layer of adhesive and the spacers is released. This then generally adheres to the surfaces of the conductor tracks and/or wiring terminals of the semiconductor chip as a contaminant layer. This impairs the contact quality during the later connection of the conductor tracks to the wiring terminals of the semiconductor chip.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a method of producing a semiconductor device that overcomes the above-mentioned disadvantages of the prior art methods, in which a semiconductor chip is applied to a silicon-containing component of a housing configuration, and which ensures relatively high contact quality during the later connection of the semiconductor tracks to the wiring terminals of the semiconductor chip.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method of producing a semiconductor device. The method includes providing a housing configuration formed of conductor tracks and a component formed of an organic, silicon-containing material connected to the conductor tracks. A semiconductor chip having wiring terminals is permanently connected to the component of the housing configuration. The conductor tracks and/or the wiring terminals are then subjected to a cleaning process, for removing any of silicon-containing material adhering to a surface of either the conductor tracks or the wiring terminal. The conductor tracks are then connected, in an electrically conducting manner, to the wiring terminals.
According to the invention, the semiconductor chip is applied to the component of the housing configuration that contains the organic silicon-containing material and is permanently connected to the component of the housing configuration. The conductor tracks for the electrical connection of the semiconductor chip and/or the wiring terminals of the semiconductor chip are subsequently subjected to a cleaning process, in which silicon-containing material adhering to a surface is eliminated. Following this, the conductor tracks are connected in an electrically conducting manner to the wiring terminals of the semiconductor chip. The cleaning process ensures that any contaminant layer of silicon-containing material is removed. Such a contaminant layer may be located on the conductor tracks and/or the wiring terminals of the semiconductor chip.
This eliminates contaminants that are present before the semiconductor chip is applied and contaminants that are caused by the semiconductor chip being applied. The described sequence of the method steps ensures that, during the connection of the conductor tracks, good contact quality is made possible by clean surfaces.
If other provisions are made in the production of the semiconductor device, for example there is already a method step for cleaning devices of, for example, carbon compounds, it can be modified in a way according to the invention. With the cleaning process described, the substrate and the conductor tracks located on it (the interposer) and also the spacers located on that can be additionally cleaned before the semiconductor chips are applied.
An advantageous development of the invention provides that the conductor tracks are additionally subjected to the cleaning process described before the semiconductor chip is applied to the component of the housing configuration. This cleaning step is provided for any contaminants of silicon-containing material that are already present before the semiconductor chip is applied to be removed before it is applied. This can additionally improve the contact quality during the later connection of the conductor tracks.
In an advantageous embodiment of the invention, the cleaning process has a plasma etching process. The etching removal required to eliminate a contaminant layer takes place by dry etching by use of atoms or molecules of a gas and/or by bombardment of the surface to be etched with ions, photons or electrons. The etching process may, for example, be of a physical or chemical type.
For etching away entire surfaces of layers, a chemical plasma etching process may be used for example. In this, a chemical etching reaction takes place between excited particles of a reaction gas and atoms of the surface to be etched. Consequently, silicon-containing material adhering to a surface is chemically converted and detached from the surface by the reaction gas. A precondition for such a cleaning operation is in this case the formation of a gaseous volatile reaction product that can be carried away in the gaseous state.
It is favorable in this case that the reaction gas has a fluorine component. For example, excited fluorine atoms from the plasma form with the atoms of the surface contaminated with silicon-containing material the volatile reaction product SiF
4
.
CF
4
, SF
6
or NF
3
may be used for example as the reaction gas. In the case of the cleaning process with the plasma etching process described, undesired byproducts may occur and be deposited on the surfaces to be cleaned. For example, when CF
4
is used, an increased tendency for carbon compounds to be deposited (for example polymer deposits) can be observed. However, reaction products that are produced by the cleaning process being applied are also formed when SF
6
or NF
3
is used. These reaction products may be caused, for example, by the cleaning by the reaction gas also affecting surrounding material that is not
Neu Achim
Strutz Volker
Uhlmann Rüdiger
Wege Stephan
Berezny Nema
Greenberg Laurence A.
Infineon - Technologies AG
Locher Ralph E.
Nguyen Tuan H.
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