摘要:
A method of fabricating high quality passive components having reduced capacitive and magnetic effects by using a Schottky diode underlying the passive components in the manufacture of integrated circuits is described. A Schottky diode is formed completely covering an active area where passive devices are to be formed. The Schottky diode is covered with a dielectric layer. Passive components are formed overlying the dielectric layer wherein the Schottky diode reduces substrate noise resulting in high quality of the passive components.
摘要:
A new method is provided for the creation of a horizontal spiral inductor over the surface of a silicon substrate. A first layer of dielectric is deposited over the surface of the substrate, this first layer of dielectric is patterned and etched creation islands of first dielectric material overlying the surface of the substrate, the islands of first dielectric material align with coils of a thereover to be created spiral inductor. The openings created in the layer of dielectric by the patterning and etching of the first layer of dielectric are filled by selective deposition of epitaxial silicon therein. Second and third layers of dielectric are successively deposited over the surface of the first layer of dielectric. A spiral horizontal inductor is then created over the surface of the third layer of dielectric.
摘要:
A novel complimentary shielded inductor on a semiconductor is disclosed. A region of electrically floating high resistive material is deposited between the inductor and the semiconductor substrate. The high resistive shield is patterned with a number of gaps, such that a current induced in the shield by the inductor does not have a closed loop path. The high resistive floating shield compliments a grounded low resistive shield to achieve higher performance inductors. In this fashion, noise in the substrate is reduced. The novel complimentary shield does not significantly degrade the figures of merit of the inductor, such as, quality factor and resonance frequency. In one embodiment, the grounded shield is made of patterned N-well (or P-well) structures. In still another embodiment, the low resistive electrically grounded shield is made of patterned Silicide, which may be formed on portions of the substrate itself.
摘要:
A silicon-based inductor in a semiconductor is disclosed. One embodiment provides for an inductor having a metal region comprising turns. The metal region has spacing between adjacent turns. The width of the spacing varies. The spacing is pre-determined to optimize the performance of the inductor by reducing eddy currents in the turns and reducing eddy currents induced in a substrate. One embodiment provides for an inductor having a spiral structure. The spiral structure may have a number of turns with the spacing between the turns of the inductor being larger near the inside of the spiral structure. A large spacing between the inductor's inner turns may serve to reduce both conductor eddy currents and the induced substrate current. Thus, the structure improves the inductor's overall performance.