Patent application number | Description | Published |
20140021480 | HIGH ELECTRON MOBILITY TRANSISTORS AND METHODS OF MANUFACTURING THE SAME - A HEMT according to example embodiments may include a first semiconductor layer, a second semiconductor layer configured to induce a 2-dimensional electron gas (2DEG) in the second semiconductor layer, an insulating mask layer on the second semiconductor layer, a depletion forming layer on one of a portion of the first semiconductor layer and a portion of the second semiconductor layer that is exposed by an opening defined by the insulating mask layer, a gate on the depletion forming layer, and a source and a drain on at least one of the first semiconductor layer and the second semiconductor layer. The source and drain may be spaced apart from the gate. The depleting forming layer may be configured to form a depletion region in the 2DEG. | 01-23-2014 |
20140021510 | HIGH ELECTRON MOBILITY TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - A higher electron mobility transistor (HEMT) and a method of manufacturing the same are disclosed. According to example embodiments, the HEMT may include a channel supply layer on a channel layer, a source electrode and a drain electrode that are on at least one of the channel layer and the channel supply layer, a gate electrode between the source electrode and the drain electrode, and a source pad and a drain pad. The source pad and a drain pad electrically contact the source electrode and the drain electrode, respectively. At least a portion of at least one of the source pad and the drain pad extends into a corresponding one of the source electrode and drain electrode that the at least one of the source pad and the drain pad is in electrical contact therewith. | 01-23-2014 |
20140021511 | HIGH ELECTRON MOBILITY TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - A high electron mobility transistor (HEMT) according to example embodiments includes a channel layer, a channel supply layer on the channel layer, a source electrode and a drain electrode on at least one of the channel layer and the channel supply layer, a gate electrode between the source electrode and the drain electrode, and a Schottky electrode forming a Schottky contact with the channel supply layer. An upper surface of the channel supply layer may define a Schottky electrode accommodation unit. At least part of the Schottky electrode may be in the Schottky electrode accommodation unit. The Schottky electrode is electrically connected to the source electrode. | 01-23-2014 |
20140021514 | NITRIDE-BASED SEMICONDUCTOR DEVICE - A nitride-based semiconductor diode includes a substrate, a first semiconductor layer disposed on the substrate, and a second semiconductor layer disposed on the first semiconductor layer. The first and second semiconductor layers include a nitride-based semiconductor. A first portion of the second semiconductor layer may have a thickness thinner than a second portion of the second semiconductor layer. The diode may further include an insulating layer disposed on the second semiconductor layer, a first electrode covering the first portion of the second semiconductor layer and forming an ohmic contact with the first semiconductor layer and the second semiconductor layer, and a second electrode separated from the first electrode, the second electrode forming an ohmic contact with the first semiconductor layer and the second semiconductor layer. | 01-23-2014 |
20140042449 | HIGH ELECTRON MOBILITY TRANSISTOR - According to example embodiments, a high electron mobility transistor (HEMT) includes a channel supply layer that induces a two-dimensional electron gas (2DEG) in a channel layer, a source electrode and a drain electrode that are at sides of the channel supply layer, a depletion-forming layer that is on the channel supply layer and contacts the source electrode, a gate insulating layer on the depletion-forming layer, and a gate electrode on the gate insulating layer. The depletion-forming layer forms a depletion region in the 2DEG. | 02-13-2014 |
20140048850 | SEMICONDUCTOR DEVICES AND METHODS OF MANUFACTURING THE SEMICONDUCTOR DEVICE - According to example embodiments, a semiconductor device may include a high electron mobility transistor (HEMT) on a first region of a substrate, and a diode on a second region of the substrate. The HEMT may be electrically connected to the diode. The HEMT and the diode may be formed on an upper surface of the substrate such as to be spaced apart from each other in a horizontal direction. The HEMT may include a semiconductor layer. The diode may be formed on another portion of the substrate on which the semiconductor layer is not formed. The HEMT and the diode may be cascode-connected to each other. | 02-20-2014 |
20140049296 | ELECTRONIC DEVICE INCLUDING TRANSISTOR AND METHOD OF OPERATING THE SAME - An electronic device may include a first transistor having a normally-on characteristic; a second transistor connected to the first transistor and having a normally-off characteristic; a constant voltage application unit configured to apply a constant voltage to a gate of the first transistor; and a switching unit configured to apply a switching signal to the second transistor. The first transistor may be a high electron mobility transistor (HEMT). The second transistor may be a field-effect transistor (FET). The constant voltage application unit may include a diode connected to the gate of the first transistor; and a constant current source connected to the diode. | 02-20-2014 |
20140061725 | HIGH ELECTRON MOBILITY TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - According to example embodiments, a higher electron mobility transistor (HEMT) may include a first channel layer, a second channel layer on the first channel layer, a channel supply on the second channel layer, a drain electrode spaced apart from the first channel layer, a source electrode contacting the first channel layer and contacting at least one of the second channel layer and the channel supply layer, and a gate electrode unit between the source electrode and the drain electrode. The gate electrode unit may have a normally-off structure. The first and second channel layer form a PN junction with each other. The drain electrode contacts at least one of the second channel layer and the channel supply layer. | 03-06-2014 |
20140091310 | SEMICONDUCTOR DEVICE USING 2-DIMENSIONAL ELECTRON GAS AND 2-DIMENSIONAL HOLE GAS AND METHOD OF MANUFACTURING THE SEMICONDUCTOR DEVICE - A semiconductor device includes a first compound semiconductor layer on a substrate, first through third electrodes spaced apart from each other on the first compound semiconductor layer, a second compound semiconductor layer on the first compound semiconductor layer between the first through third electrodes, a third compound semiconductor layer on the second compound semiconductor layer between the first and second electrodes, a first gate electrode on the third compound semiconductor layer, a fourth compound semiconductor layer having a smaller thickness than the third compound semiconductor layer on a portion of the second compound semiconductor layer between the second and third electrodes, and a second gate electrode on the fourth compound semiconductor layer. The first compound semiconductor layer between the second and third electrodes includes a 2-dimensional electron gas (2DEG) and the third compound semiconductor layer includes a 2-dimensional hole gas (2DHG). | 04-03-2014 |
20140091311 | NITRIDE SEMICONDUCTOR BASED POWER CONVERTING DEVICE - A nitride semiconductor based power converting device includes a nitride semiconductor based power transistor, and at least one nitride semiconductor based passive device. The passive device and the power transistor respectively include a channel layer including a first nitride semiconductor material, and a channel supply layer on the channel layer including a second nitride semiconductor material to induce a 2-dimensional electron gas (2DEG) at the channel layer. The passive device may be a resistor, an inductor, or a capacitor. | 04-03-2014 |
20140091312 | POWER SWITCHING DEVICE AND METHOD OF MANUFACTURING THE SAME - A power switching device includes a channel forming layer on a substrate which includes a 2-dimensional electron gas (2DEG), and a channel supply layer which corresponds to the 2DEG at the channel forming layer. A cathode is coupled to a first end of the channel supply layer and an anode is coupled to a second end of the channel supply layer. The channel forming layer further includes a plurality of depletion areas arranged in a pattern, and portions of the channel forming layer between the plurality of depletion areas are non-depletion areas. | 04-03-2014 |
20140091363 | NORMALLY-OFF HIGH ELECTRON MOBILITY TRANSISTOR - According to example embodiments, a normally-off high electron mobility transistor (HEMT) includes: a channel layer having a first nitride semiconductor, a channel supply layer on the channel layer, a source electrode and a drain electrode at sides of the channel supply layer, a depletion-forming layer on the channel supply layer, a gate insulating layer on the depletion-forming layer, and a gate electrode on the gate insulation layer. The channel supply layer includes a second nitride semiconductor and is configured to induce a two-dimensional electron gas (2DEG) in the channel layer. The depletion-forming layer is configured has at least two thicknesses and is configured to form a depletion region in at least a partial region of the 2DEG. The gate electrode contacts the depletion-forming layer. | 04-03-2014 |
20140091366 | SEMICONDUCTOR DEVICES AND METHODS OF MANUFACTURING THE SAME - Example embodiments relate to semiconductor devices and/or methods of manufacturing the same. According to example embodiments, a semiconductor device may include a first heterojunction field effect transistor (HFET) on a first surface of a substrate, and a second HFET. A second surface of the substrate may be on the second HFET. The second HFET may have different properties (characteristics) than the first HFET. One of the first and second HFETs may be of an n type, while the other thereof may be of a p type. The first and second HFETs may be high-electron-mobility transistors (HEMTs). One of the first and second HFETs may have normally-on properties, while the other thereof may have normally-off properties. | 04-03-2014 |
20140103969 | HIGH ELECTRON MOBILITY TRANSISTOR AND METHOD OF DRIVING THE SAME - According to example embodiments, a HEMT includes a channel layer, a channel supply layer on the channel layer, a source electrode and a drain electrode spaced apart on the channel layer, a depletion-forming layer on the channel supply layer, and a plurality of gate electrodes on the depletion-forming layer between the source electrode and the drain electrode. The channel supply layer is configured to induce a two-dimensional electron gas (2DEG) in the channel layer. The depletion-forming layer is configured to form a depletion region in the 2DEG. The plurality of gate electrodes include a first gate electrode and a second gate electrode spaced apart from each other. | 04-17-2014 |
20140151747 | HIGH ELECTRON MOBILITY TRANSISTOR INCLUDING PLURALITY OF GATE ELECTRODES - According to example embodiments, a high electron mobility transistor includes: a channel layer including a first semiconductor material; a channel supply layer on the channel layer and configured to generate a 2-dimensional electron gas (2DEG) in the channel layer, the channel supply layer including a second semiconductor material; source and drain electrodes spaced apart from each other on the channel layer, and an upper surface of the channel supply layer defining a gate electrode receiving part; a first gate electrode; and at least one second gate electrode spaced apart from the first gate electrode and in the gate electrode receiving part. The first gate electrode may be in the gate electrode receiving part and between the source electrode and the drain electrode. The at least one second gate electrode may be between the source electrode and the first gate electrode. | 06-05-2014 |
20140151749 | HIGH ELECTRON MOBILITY TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - According to example embodiments, a high electron mobility transistor (HEMT) includes a channel layer; a channel supply layer on the channel layer; a source electrode and a drain electrode spaced apart from each other on one of the channel layer and the channel supply layer; a gate electrode on a part of the channel supply layer between the source electrode and the drain electrode; a first depletion-forming layer between the gate electrode and the channel supply layer; and a at least one second depletion-forming layer on the channel supply layer between the gate electrode and the drain electrode. The at least one second depletion-forming layer is electrically connected to the source electrode. | 06-05-2014 |
20140240026 | METHOD AND APPARATUS FOR CONTROLLING A GATE VOLTAGE IN HIGH ELECTRON MOBILITY TRANSISTOR - According to example embodiments, a method for controlling a gate voltage applied to a gate electrode of a high electron mobility transistor (HEMT) may include measuring a voltage between a drain electrode and a source electrode of the HEMT, and adjusting a level of the gate voltage applied to the gate electrode of the HEMT according to the measured voltage. The level of the gate electrode may be adjusted if the voltage between the drain electrode and the source electrode is different than a set value. | 08-28-2014 |
20140327043 | HIGH ELECTRON MOBILITY TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - Provided are a high electron mobility transistor (HEMT) and a method of manufacturing the HEMT. The HEMT includes: a channel layer comprising a first semiconductor material; a channel supply layer comprising a second semiconductor material and generating two-dimensional electron gas (2DEG) in the channel layer; a source electrode and a drain electrode separated from each other in the channel supply layer; at least one depletion forming unit that is formed on the channel supply layer and forms a depletion region in the 2DEG; at least one gate electrode that is formed on the at least one depletion forming unit; at least one bridge that connects the at least one depletion forming unit and the source electrode; and a contact portion that extends from the at least one bridge under the source electrode. | 11-06-2014 |
20150048421 | HIGH ELECTRON MOBILITY TRANSISTORS, METHODS OF MANUFACTURING THE SAME, AND ELECTRONIC DEVICES INCLUDING THE SAME - Provided are high electron mobility transistors (HEMTs), methods of manufacturing the HEMTs, and electronic devices including the HEMTs. An HEMT may include an impurity containing layer, a partial region of which is selectively activated. The activated region of the impurity containing layer may be used as a depletion forming element. Non-activated regions may be disposed at opposite side of the activated region in the impurity containing layer. A hydrogen content of the activated region may be lower than the hydrogen content of the non-activated region. In another example embodiment, an HEMT may include a depletion forming element that includes a plurality of regions, and properties (e.g., doping concentrations) of the plurality of regions may be changed in a horizontal direction. | 02-19-2015 |