Patent application number | Description | Published |
20120001230 | Multi-gate semiconductor devices - A multi-gate semiconductor device with inter-gate conductive regions being connected to balance resistors is provided. The multi-gate semiconductor device comprises a substrate, a multilayer structure formed upon the substrate, a first ohmic electrode, a second ohmic electrode, a plural of gate electrodes, at least one conductive region, and at least one resistive component. When put into practice, the multi-gate semiconductor device is advantageous in reducing the voltage drop along the conductive region with a minimal change in device layout, improving the | 01-05-2012 |
20130140671 | COMPOUND SEMICONDUCTOR INTEGRATED CIRCUIT WITH THREE-DIMENSIONALLY FORMED COMPONENTS - The present invention relates to a compound semiconductor integrated circuit with three-dimensionally formed components, such as three-dimensionally formed bond pads or inductors, positioned above an electronic device. The dielectric layer inserted between the electronic device and the bond pads or inductors thereon has a thickness between 10 to 30 microns, so that it can effectively mitigate the effect of the structure on the device performance. A protection layer can be disposed to cover the electronic devices to prevent contamination from the bond pad or inductor material to the electronic device, and therefore the lower cost copper can be used as the bond pad and inductor material. The three-dimensional bond pad can be used in wire bonding or bump bonding technology. | 06-06-2013 |
20140097515 | COMPOUND SEMICONDUCTOR INTEGRATED CIRCUIT WITH THREE-DIMENSIONALLY FORMED COMPONENTS - A compound semiconductor integrated circuit with three-dimensionally formed components, such as three-dimensionally formed bond pads or inductors, positioned above an electronic device. The dielectric layer inserted between the electronic device and the bond pads or inductors thereon has a thickness between 10 to 30 microns, so that it can effectively mitigate the effect of the structure on the device performance. A SiN protection layer can be disposed to cover the electronic devices to prevent contamination from the bond pad or inductor material to the electronic device, and therefore the lower cost copper can be used as the bond pad and inductor material. The three-dimensional bond pad can be used in wire bonding or bump bonding technology. | 04-10-2014 |
20140209926 | SEMICONDUCTOR INTEGRATED CIRCUIT - A compound semiconductor integrated circuit chip has a front and/or back surface metal layer used for electrical connection to an external circuit. The compound semiconductor integrated circuit chip (first chip) comprises a substrate, an electronic device layer, and a dielectric layer. A first metal layer is formed on the front side of the dielectric layer, and a third metal layer is formed on the back side of the substrate. The first and third metal layer are made essentially of Cu and used for the connection to other electronic circuits. A second chip may be mounted on the first chip with electrical connection made with the first or the third metal layer that extend over the electronic device in the first chip in the three-dimensional manner to make the electrical connection between the two chips having connection nodes away from each other. | 07-31-2014 |
20140231875 | INTEGRATED CIRCUITS WITH ESD PROTECTION DEVICES - An integrated circuit with ESD protection comprises at least one ESD protection circuit block, which comprises a DC blocking capacitor connected in parallel with at least one compound semiconductor enhancement mode FET as an ESD protection device. The ESD protection circuit block that is built in an integrated circuit provides ESD protection while minimizing the generation of unwanted nonlinear signals resulting from the ESD protection. An integrated circuit comprises a high frequency circuit, a switching element, and two ESD protection circuit blocks, in which the high frequency circuit is connected between a first terminal and a second terminal for inputting or outputting the RF signals, the first ESD protection circuit block is connected from a branch node between the first terminal and the high frequency circuit to the switching element, and the second ESD protection circuit block is connected from the switching element to the ground. | 08-21-2014 |
20140231876 | pHEMT and HBT integrated epitaxial structure - An improved pseudomorphic high electron mobility transistor (pHEMT) and heterojunction bipolar transistor (HBT) integrated epitaxial structure, in which the structure comprises a substrate, a pHEMT structure, an etching-stop spacer layer, and an HBT structure. The pHEMT structure comprises a buffer layer, a bottom barrier layer, a first channel spacer layer, a channel layer, a second channel spacer layer, a Schottky spacer layer, a Schottky donor layer, a Schottky barrier layer, an etching-stop layer, and at least one cap layer. By introducing the first channel spacer layer and the second channel spacer layer to reduce the density of the dislocations and to reduce the compressive strain in the pseudomorphic channel layer. | 08-21-2014 |
20140312390 | Layout Structure of Heterojunction Bipolar Transistors - A layout structure of HBTs comprising one or more HBTs, each of which comprises a base electrode, an emitter electrode, and a collector electrode. A passive layer, a first dielectric layer, a collector redistribution layers, one or more emitter copper pillars, and one or more collector copper pillars are formed above the one or more HBTs. The passive layer comprises a collector and an emitter pads. The first dielectric layer has one or more emitter and collector via holes. The emitter copper pillar is disposed on the emitter via hole and forms an electrical connection to the emitter electrode. The collector copper pillar is disposed on the collector redistribution layer and forms electrical connection to the collector electrode. The layout design of the emitter and collector copper pillars is therefore flexible, and the heat dissipation efficiency is improved. | 10-23-2014 |
Patent application number | Description | Published |
20130320402 | pHEMT HBT INTEGRATED EPITAXIAL STRUCTURE AND A FABRICATION METHOD THEREOF - An improved pseudomorphic high electron mobility transistor (pHEMT) and heterojunction bipolar transistor (HBT) integrated epitaxial structure and the fabrication method thereof, in which the structure comprises a substrate, a pHEMT structure, an etching-stop spacer layer, and an HBT structure. The pHEMT's structure comprises a buffer layer, a barrier layer, a first channel spacer layer, a channel layer, a second channel spacer layer, a Schottky barrier layer, an etching-stop layer, and at least one cap layer. The fabrication method of an HBT and a pHEMT are also included. | 12-05-2013 |
20140054608 | COMPOUND SEMICONDUCTOR INTEGRATED CIRCUIT - A compound semiconductor integrated circuit is provided, comprising a substrate, at least one compound semiconductor electronic device, a first metal layer, a protection layer, a plurality of second metal layers, and at least one dielectric layer. The first metal layer contains Au but does not contain Cu, and is at least partly electrically connected to the compound semiconductor electronic device. The protection layer covers the compound semiconductor electronic device and at least part of the first metal layer. Each of the plurality of second metal layers contains at least a Cu layer, and at least one of the plurality of second metal layers is partly electrically connected to the first metal layer described above. The at least one dielectric layer separates each pair of adjacent second metal layers. The second metal layers are used to form passive electronic components. | 02-27-2014 |
20140183544 | COMPOUND SEMICONDUCTOR ESD PROTECTION DEVICES - The present invention relates to compound semiconductor ESD protection devices of three types. The device comprises a multi-gate enhancement mode FET (E-FET). For the type I compound semiconductor ESD protection device, the source electrode is connected to the plural gate electrodes through at least one first resistor, and the drain electrode is connected to the plural gate electrodes through at least one second resistor. For the type II compound semiconductor ESD protection device, the plural gate electrodes are connected to at least one of the inter-gate regions between two adjacent gate electrodes through at least one fourth resistor. For the type III compound semiconductor ESD protection device, the plural gate electrodes are connected to the source or drain electrodes through at least one seventh resistor. Any two gate electrodes in the three types of compound semiconductor ESD protection devices can be connected by a resistor. | 07-03-2014 |
20140183609 | COMPOUND SEMICONDUCTOR ESD PROTECTION DEVICES - The present invention relates to compound semiconductor ESD protection devices using plural compound semiconductor E-FETs or compound semiconductor multi-gate E-FETs. The device comprises plural compound semiconductor E-FETs or multi-gate E-FETs, in which each of the gates is DC-connected to the source, drain, or an inter-gate region between two adjacent gates in the multi-gate E-FET through at least one first resister, and at least one of the gates is AC-connected to the source, drain, or an inter-gate region between two adjacent gates in the multi-gate E-FET through a gate capacitor. | 07-03-2014 |