Patent application number | Description | Published |
20120280278 | Normally-Off High Electron Mobility Transistors - A normally-off transistor includes a first region of III-V semiconductor material, a second region of III-V semiconductor material on the first region, a third region of III-V semiconductor material on the second region and a gate electrode adjacent at least one sidewall of the third region. The first region provides a channel of the transistor. The second region has a band gap greater than the band gap of the first region and causes a 2-D electron gas (2DEG) in the channel. The second region is interposed between the first region and the third region. The third region provides a gate of the transistor and has a thickness sufficient to deplete the 2DEG in the channel so that the transistor has a positive threshold voltage. | 11-08-2012 |
20130075724 | SEMICONDUCTOR ARRANGEMENT WITH AN INTEGRATED HALL SENSOR - A semiconductor arrangement includes a semiconductor body and a semiconductor device, the semiconductor device including first and second load terminals arranged distant to each other in a first direction of the semiconductor body and a load path arranged in the semiconductor body between the first and second load terminals. The semiconductor arrangement further includes at least one Hall sensor arranged in the semiconductor body distant to the semiconductor device in a second direction perpendicular to the first direction. The Hall sensor includes two current supply terminals and two measurement terminals. | 03-28-2013 |
20130153919 | III-V Semiconductor Devices with Buried Contacts - A semiconductor device such as a diode or transistor includes a semiconductor substrate, a first region of III-V semiconductor material on the semiconductor substrate and a second region of III-V semiconductor material on the first region. The second region is spaced apart from the semiconductor substrate by the first region. The second region is of a different composition than the first region. The semiconductor device further includes a buried contact extending from the semiconductor substrate to the second region through the first region. The buried contact electrically connects the second region to the semiconductor substrate. | 06-20-2013 |
20130256699 | Gate Overvoltage Protection for Compound Semiconductor Transistors - A transistor device includes a compound semiconductor body, a drain disposed in the compound semiconductor body and a source disposed in the compound semiconductor body and spaced apart from the drain by a channel region. A gate is provided for controlling the channel region. The transistor device further includes a gate overvoltage protection device connected between the source and the gate, the gate overvoltage protection device including p-type and n-type silicon-containing semiconductor material. | 10-03-2013 |
20130299841 | GaN-Based Optocoupler - An optocoupler includes a GaN-based photosensor disposed on a substrate and a GaN-based light source disposed on the same substrate as the GaN-based photosensor. A transparent material is interposed between the GaN-based photosensor and the GaN-based light source. The transparent material provides galvanic isolation and forms an optical channel between the GaN-based photosensor and the GaN-based light source. | 11-14-2013 |
20130299842 | Contact Structures for Compound Semiconductor Devices - A semiconductor device includes a semiconductor body including a plurality of compound semiconductor layers and a two-dimensional charge carrier gas channel region formed in one of the compound semiconductor layers. The semiconductor device further includes a contact structure disposed in the semiconductor body. The contact structure includes a metal region and a doped region. The metal region extends into the semiconductor body from a first side of the semiconductor body to at least the compound semiconductor layer which includes the channel region. The doped region is formed in the semiconductor body between the metal region and the channel region so that the channel region is electrically connected to the metal region through the doped region. | 11-14-2013 |
20140103398 | RF POWER HEMT GROWN ON A SILICON OR SIC SUBSTRATE WITH A FRONT-SIDE PLUG CONNECTION - A compound semiconductor device includes a plurality of high-resistance crystalline silicon epitaxial layers and a plurality of activated dopant regions disposed in a same region of at least some of the epitaxial layers so that the activated dopant regions are aligned in a vertical direction perpendicular to a main surface of the epitaxial layers. The compound semiconductor device further includes an III-nitride compound semiconductor device structure disposed on the main surface of the epitaxial layers. The III-nitride compound semiconductor device structure has a source, a drain and a gate. An electrically conductive structure is formed from the activated dopant regions. The electrically conductive structure extends in the vertical direction through the epitaxial layers with the activated dopant regions toward the III-nitride compound semiconductor device structure, and is electrically connected to the source. | 04-17-2014 |
20140106516 | SELF-DOPED OHMIC CONTACTS FOR COMPOUND SEMICONDUCTOR DEVICES - A compound semiconductor device is manufactured by forming an III-nitride compound semiconductor device structure on a silicon-containing semiconductor substrate, the III-nitride compound semiconductor device structure including a GaN alloy on GaN and a channel region arising near an interface between the GaN alloy and the GaN. One or more silicon-containing insulating layers are formed on a surface of the III-nitride compound semiconductor device structure adjacent the GaN alloy, and a contact opening is formed which extends through the one or more silicon-containing insulating layers to at least the GaN alloy. A region of GaN is regrown in the contact opening, and the regrown region of GaN is doped exclusively with Si out-diffused from the one or more silicon-containing insulating layers to form an ohmic contact which is doped only with the Si out-diffused from the one or more silicon-containing insulating layers. | 04-17-2014 |