摘要:
A MEMS device and a method of making a MEMS device are disclosed. In one embodiment a semiconductor device comprises a substrate, a moveable electrode and a counter electrode, wherein the moveable electrode and the counter electrode are mechanically connected to the substrate. The movable electrode is configured to stiffen an inner region of the movable membrane.
摘要:
A packaged MEMS device and a method of calibrating a packaged MEMS device are disclosed. In one embodiment a packaged MEMS device comprises a carrier, a MEMS device disposed on the substrate, a signal processing device disposed on the carrier, a validation circuit disposed on the carrier; and an encapsulation disposed on the carrier, wherein the encapsulation encapsulates the MEMS device, the signal processing device and the memory element.
摘要:
A capacitor includes a semiconductor substrate in which a trench is formed through which the substrate is doped. A dielectric layer covers the surface of the trench, wherein furthermore an electrically conductive material is arranged in the trench. A first contact structure for contacting the electrically conductive material in the trench in an electrically conductive manner and a second contact structure for contacting the doped semiconductor substrate in an electrically conductive manner are also formed in the capacitor. The capacitor has low series resistance of the electrodes and may be produced in a simple manner.
摘要:
A packaged MEMS device and a method of calibrating a packaged MEMS device are disclosed. In one embodiment a packaged MEMS device comprises a carrier, a MEMS device disposed on the substrate, a signal processing device disposed on the carrier, a validation circuit disposed on the carrier; and an encapsulation disposed on the carrier, wherein the encapsulation encapsulates the MEMS device, the signal processing device and the memory element.
摘要:
The invention relates to an overvoltage protection apparatus having a semiconductor substrate, a first doping region in order to provide a protection diode, and a second doping region in order to provide a protection resistance, with the second doping region being immediately adjacent to the first doping region.
摘要:
The invention relates to a method for generating very short gate structures. In a method for generating a structure on a substrate in accordance with one embodiment of the invention, first of all a layer sequence of a first oxide layer, a first nitride layer and a second oxide layer is disposed onto the substrate. Subsequently, a portion of the second oxide layer and a portion of the first nitride layer is removed in order to expose a portion of the first oxide layer. Then, a part of the first nitride layer above the first oxide layer and below the second oxide layer is removed in order to expose the area of the structure.
摘要:
A tunable MEMS device and a method of manufacturing a tunable MEMS device are disclosed. In accordance with an embodiment of the present invention, a semiconductor device comprises a substrate, a moveable electrode and a counter electrode. The moveable electrode or the counter electrode comprises a first region and a second region, wherein the first region is isolated from the second region, wherein the first region is configured to be tuned, wherein the second region is configured to provide a sensing signal or control a system, and wherein the moveable electrode and the counter electrode are mechanically connected to the substrate.
摘要:
The invention relates to an overvoltage protection apparatus having a semiconductor substrate, a first doping region in order to provide a protection diode, and a second doping region in order to provide a protection resistance, with the second doping region being immediately adjacent to the first doping region.
摘要:
The invention relates to a method for generating very short gate structures. In a method for generating a structure on a substrate in accordance with one embodiment of the invention, first of all a layer sequence of a first oxide layer, a first nitride layer and a second oxide layer is disposed onto the substrate. Subsequently, a portion of the second oxide layer and a portion of the first nitride layer is removed in order to expose a portion of the first oxide layer. Then, a part of the first nitride layer above the first oxide layer and below the second oxide layer is removed in order to expose the area of the structure.
摘要:
A tunable MEMS device and a method of manufacturing a tunable MEMS device are disclosed. In accordance with an embodiment of the present invention, a semiconductor device comprises a substrate, a moveable electrode and a counter electrode. The moveable electrode or the counter electrode comprises a first region and a second region, wherein the first region is isolated from the second region, wherein the first region is configured to be tuned, wherein the second region is configured to provide a sensing signal or control a system, and wherein the moveable electrode and the counter electrode are mechanically connected to the substrate.