| Patent application number | Description | Published |
|---|
| 20090012439 | Attachment Member for Semiconductor Sensor Device - A semiconductor sensor device is electrically coupled to an object. An attachment member attaches the semiconductor sensor device to the object. The attachment member comprises a first conductive contact region and a second conductive contact region. An insulating portion is electrically isolates the semiconductor sensor device from the first conductive contact region and second conductive contact region. | 01-08-2009 |
| 20090050970 | Diode-Based ESD Concept for DEMOS Protection - The invention relates to an ESD protection circuit for an integrated circuit including a drain-extended MOS device and an output pad that requires protection. The ESD protection circuit includes a first diode coupled to the output pad and to a bias voltage rail, a second diode coupled to the output pad and to another bias voltage rail, and an ESD power clamp coupled between the two bias voltage rails. The ESD power clamp is formed as a vertical npn transistor with its base and emitter coupled together. The collector of the npn transistor is formed using an n-well implantation and a DEMOS n-drain extension to produce a snapback-based voltage limiting characteristic. The diodes are formed with a lightly p-doped substrate region over a buried n-type layer, and a p-well implant and an n-well implant separated by intervening substrate. A third diode may be coupled between the two bias voltage rails. | 02-26-2009 |
| 20090066354 | Electrostatic Discharge Test System And Electrostatic Discharge Test Method - A method of conducting an electrostatic discharge test on an integrated circuit is described. The method comprises configuring a test board assembly to emulate characteristics of a system in which the integrated circuit is to be used, coupling the integrated circuit to the test board assembly, and applying an electrostatic discharge test signal of system-level type to the test board assembly. | 03-12-2009 |
| 20090283810 | Integrated Circuit Arrangements With ESD-Resistant Capacitor and Corresponding Method of Production - A circuit arrangement including a capacitor in an n-type well is disclosed. A specific polarization of the capacitor ensures that a depletion zone arises in the well and the capacitor has a high ESD strength. An optionally present auxiliary doping layer ensures a high area capacitance of the capacitor despite high ESD strength. | 11-19-2009 |
| 20090283859 | Integrated Circuit Arrangements With ESD-Resistant Capacitor and Corresponding Method of Production - A circuit arrangement including a capacitor in an n-type well is disclosed. A specific polarization of the capacitor ensures that a depletion zone arises in the well and the capacitor has a high ESD strength. An optionally present auxiliary doping layer ensures a high area capacitance of the capacitor despite high ESD strength. | 11-19-2009 |
| 20100032749 | Field-Effect Device and Manufacturing Method Thereof - Embodiments relate to a field-effect transistor that includes a body region, a first source/drain region of a first conductivity type, a second source/drain region of the first conductivity type, and a pocket implant region adjacent to the first source/drain region, the pocket implant region being of a second conductivity type, wherein the second conductivity type is different from the first conductivity type. The body region physically contacts the pocket implant region. | 02-11-2010 |
| 20100032773 | Semiconductor Devices and Methods for Manufacturing a Semiconductor Device - In an embodiment, a semiconductor device is provided. The semiconductor device may include a first diffusion region, a second diffusion region an active region disposed between the first diffusion region and the second diffusion region, a control region disposed above the active region, a first trench isolation disposed laterally adjacent to the first diffusion region opposite to the active region, and a second trench isolation disposed between the second diffusion region and the active region. The second trench isolation may have a smaller depth than the first trench isolation. | 02-11-2010 |
| 20100062573 | METHOD FOR PRODUCING AN ELECTRONIC COMPONENT, METHOD FOR PRODUCING A THYRISTOR, METHOD FOR PRODUCING A DRAIN-EXTENDED MOS FILED-EFFECT TRANSISTOR, ELECTRONIC COMPONENT, DRAIN-EXTENDED MOS FIELD-EFFECT TRANSISTOR, ELECTRONIC COMPONENT ARRANGEMENT - In a method for producing an electronic component, a first doped connection region and a second doped connection region are formed on or above a substrate; a body region is formed between the first doped connection region and the second doped connection region; at least two gate regions separate from one another are formed on or above the body region; at least one partial region of the body region is doped by means of introducing dopant atoms, wherein the dopant atoms are introduced into the at least one partial region of the body region through at least one intermediate region formed between the at least two separate gate regions. | 03-11-2010 |
| 20100117116 | INTEGRATED CIRCUIT ARRANGEMENT WITH SHOCKLEY DIODE OR THYRISTOR AND METHOD FOR PRODUCTION AND USE OF A THYRISTOR - An integrated circuit arrangement includes a Shockley diode or a thyristor. An inner region of the diode or of the thyristor is completely or partially shielded during the implantation of a p-type well. This gives rise to a Shockley diode or a thyristor having improved electrical properties, in particular with regard to the use as an ESD protection element. | 05-13-2010 |
| 20100120208 | INTEGRATED CIRCUIT ARRANGEMENT WITH SHOCKLEY DIODE OR THYRISTOR AND METHOD FOR PRODUCTION AND USE OF A THYRISTOR - An integrated circuit arrangement includes a Shockley diode or a thyristor. An inner region of the diode or of the thyristor is completely or partially shielded during the implantation of a p-type well. This gives rise to a Shockley diode or a thyristor having improved electrical properties, in particular with regard to the use as an ESD protection element. | 05-13-2010 |
| 20100163995 | Semiconductor Device With Cooling Element - Some embodiments discussed herein include a semiconductor having a source region, a drain region and an array of fins operatively coupled to a gate region controlling current flow through the fins between the source region and the drain region. The semiconductor also has at least one cooling element formed at least in part of a material having a heat capacity equal to or larger than the heat capacity of the material of the source region, drain region and array of fins, the cooling elements being in close vicinity to fins of the array of fins electrically isolated from the fins of the array, the source region and the drain region. Other embodiments are also disclosed | 07-01-2010 |
| 20100200916 | SEMICONDUCTOR DEVICES - In an embodiment, a semiconductor device is provided. The semiconductor device may include a substrate having a main processing surface, a first source/drain region comprising a first material of a first conductivity type, a second source/drain region comprising a second material of a second conductivity type, wherein the second conductivity type is different from the first conductivity type, a body region electrically coupled between the first source/drain region and the second source/drain region, wherein the body region extends deeper into the substrate than the first source/drain region in a first direction that is perpendicular to the main processing surface of the substrate, a gate dielectric disposed over the body region, and a gate region disposed over the gate dielectric, wherein the gate region overlaps with at least a part of the first source/drain region and with a part of the body region in the first direction. | 08-12-2010 |
| 20100207161 | Device and Method for Coupling First and Second Device Portions - This disclosure relates to devices and methods relating to coupled first and second device portions. | 08-19-2010 |
| 20100237412 | SEMICONDUCTOR DEVICES AND METHODS FOR MANUFACTURING A SEMICONDUCTOR DEVICE - In various embodiments, a semiconductor device is provided. The semiconductor device may include a first source/drain region, a second source/drain region, an active region electrically coupled between the first source/drain region and the second source/drain region, a trench disposed between the second source/drain region and at least a portion of the active region, a first isolation layer disposed over the bottom and the sidewalls of the trench, electrically conductive material disposed over the isolation layer in the trench, a second isolation layer disposed over the active region, and a gate region disposed over the second isolation layer. The electrically conductive material may be coupled to an electrical contact. | 09-23-2010 |
| 20110031556 | FIN INTERCONNECTS FOR MULTIGATE FET CIRCUIT BLOCKS - In an embodiment, an apparatus includes a first field effect transistor including a first source contact region, a first drain contact region and a first plurality of fins overlying a substrate, a first gate overlying the first plurality of fins, the first source contact region coupled to first ends of the first plurality of fins, and a second field effect transistor including a second source contact region, a second drain contact region, and a second plurality of fins overlying the substrate, a second gate overlying the second plurality of fins, and an interconnection contact region overlying the substrate, electrically coupling the first drain contact region and the second source contact region and abutting the first and the second pluralities of fins. | 02-10-2011 |
| 20110147838 | Tunnel Field Effect Transistors - Tunnel field effect devices and methods of fabricating tunnel field effect devices are described. In one embodiment, the semiconductor device includes a first drain region of a first conductivity type disposed in a first region of a substrate, a first source region of a second conductivity type disposed in the substrate, the second conductivity type being opposite the first conductivity type, a first channel region electrically coupled between the first source region and the first drain region, the first source region underlying a least a portion of the first channel region, and a first gate stack overlying the first channel region. | 06-23-2011 |
