摘要:
In a method for manufacturing a semiconductor acceleration sensor, a movable portion including a mass portion and movable electrodes is formed in a single crystal silicon thin film provided on a silicon wafer through an insulation film by etching both the single crystal silicon thin film and the silicon wafer. In this case, the movable portion is finally defined at a movable portion defining step that is carried out in a vapor phase atmosphere. Accordingly, the movable portion is prevented from sticking to other regions due to etchant during the manufacture thereof.
摘要:
A method for manufacturing a semiconductor device having a movable portion includes the steps of: forming a trench on a semiconductor layer so that the trench reaches an insulation layer; and forming a movable portion by etching a sidewall of the trench so that the semiconductor layer is separated from the insulation layer. The steps of forming the trench and forming the movable portion are performed by a reactive ion etching method. The insulation layer disposed on the bottom of the trench is prevented from charging positively in the step of forming the trench. The insulation layer disposed on the bottom of the trench is charged positively in the step of forming the movable portion.
摘要:
A method for manufacturing a semiconductor device having a movable portion includes the steps of: forming a trench on a semiconductor layer so that the trench reaches an insulation layer; and forming a movable portion by etching a sidewall of the trench so that the semiconductor layer is separated from the insulation layer. The steps of forming the trench and forming the movable portion are performed by a reactive ion etching method. The insulation layer disposed on the bottom of the trench is prevented from charging positively in the step of forming the trench. The insulation layer disposed on the bottom of the trench is charged positively in the step of forming the movable portion.
摘要:
A semiconductor dynamic quantity sensor, for example, an acceleration sensor is formed on a SOI substrate having an activation layer and a supporting layer with an oxide film interposed therebetween. A structure for the sensor is formed in the activation layer. An opening is formed in the supporting layer and the oxide film to expose the structure. In this sensor, stress layer is formed in the activation layer at a side contacting the oxide film. The stress layer is removed at a region facing the opening to prevent the structure from cambering.
摘要:
A plasma etching method, which can form concave parts and/or opening parts on a substrate by performing etching at a high speed and does not damage an element part formed on the surface of the substrate, is disclosed. On a semiconductor substrate with one surface as an element part forming surface and the other surface having an insulating film thereon as an etching surface are formed concave parts and/or opening parts by means of etching by applying a high-frequency electric power to a reactive gas and generating plasma thereby. The substrate is disposed on an electrode having grounded electric potential with the insulating film positioned on the lower side and a conductive part material having grounded electric potential is disposed around the substrate. When one end of the conductive part material is contacted with the side of the etching surface of the substrate, electric charge generated on the surface of the substrate moves to the conductive part material, and the electric potential of the substrate is lowered.
摘要:
In a manufacturing method for a semiconductor device having a coil layer part on a substrate, two support substrates each having a flat surface are prepared, and a component member is formed on the flat surface of each of the support substrates. The component member includes a wiring portion having a predetermined pattern and an insulation film surrounding the wiring portion. The wiring portion is provided with a connecting portion exposing from the insulation film. A coil layer part is formed by opposing and bonding the component members formed on the support substrates to each other while applying pressure in a condition where the flat surfaces of the support substrates are parallel to each other. A coil is formed in the coil layer part by connecting the wiring portions through the connecting portions.
摘要:
In a manufacturing method for a semiconductor device having a coil layer part on a substrate, two support substrates each having a flat surface are prepared, and a component member is formed on the flat surface of each of the support substrates. The component member includes a wiring portion having a predetermined pattern and an insulation film surrounding the wiring portion. The wiring portion is provided with a connecting portion exposing from the insulation film. A coil layer part is formed by opposing and bonding the component members formed on the support substrates to each other while applying pressure in a condition where the flat surfaces of the support substrates are parallel to each other. A coil is formed in the coil layer part by connecting the wiring portions through the connecting portions.
摘要:
An acceleration sensor includes: a semiconductor substrate including a support layer and a semiconductor layer, which are stacked in a first direction; a movable electrode and a fixed electrode; and a trench. The movable electrode separately faces the fixed electrode by sandwiching the trench along with a second direction. The trench has a detection distance in the second direction. The movable electrode is movable along with the first direction when acceleration is applied. The movable electrode has a bottom apart from the support layer. The width of the movable electrode along with the second direction is smaller than the width of the fixed electrode. The thickness of the movable electrode along with the first direction is smaller than the thickness of the fixed electrode.
摘要:
An acceleration sensor includes: a semiconductor substrate including a support layer and a semiconductor layer, which are stacked in a first direction; a movable electrode and a fixed electrode; and a trench. The movable electrode separately faces the fixed electrode by sandwiching the trench along with a second direction. The trench has a detection distance in the second direction. The movable electrode is movable along with the first direction when acceleration is applied. The movable electrode has a bottom apart from the support layer. The width of the movable electrode along with the second direction is smaller than the width of the fixed electrode. The thickness of the movable electrode along with the first direction is smaller than the thickness of the fixed electrode.
摘要:
In a process for forming trenches having M different widths in a substrate, a passivation step and an etching step are alternately performed. The passivation step includes depositing a passivation layer on a bottom of the trenches by converting gas introduced in a chamber into plasma. The etching step includes removing the passivation layer on the bottom of the trenches and applying reactive ion etching to the bottom to increase a depth of the trenches. The etching step further includes setting energy for the reactive ion etching to a predetermined value when the passivation layer on the bottom of the trench having the Nth smallest width is removed. The value allows the etching amount of the trench having the Nth smallest width to be equal to or greater than the etching amount of the trench having the (N+1)th smallest width.