Patent application number | Description | Published |
20080296624 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The object of the present invention is to provide a semiconductor device and the manufacturing method thereof which are capable of preventing decrease in the collector breakdown voltage and reducing the collector resistance. The semiconductor device according to the present invention includes: a HBT formed on a first region of a semiconductor substrate; and an HFET formed on a second region of the semiconductor substrate, wherein the HBT includes: an emitter layer of a first conductivity; a base layer of a second conductivity that has a band gap smaller than that of the emitter layer; a collector layer of the first conductivity or a non-doped collector layer; and a sub-collector layer of the first conductivity which are formed sequentially on the first region, and the HFET includes an electron donor layer including a part of the emitter layer, and a channel layer formed under the electron donor layer. | 12-04-2008 |
20090230431 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The present invention has as an objective to provide: a semiconductor device to satisfy both of the trade-off characteristic advantages of the HBT; and the HFET and a manufacturing method thereof. The semiconductor device in the present invention is an HBT and HFET integrated circuit. The HBT includes a sub-collector layer, a GaAs collector layer, a GaAs base layer, and an InGaP emitter layer which are sequentially stacked. The sub-collector layer includes a GaAs external sub-collector region, and a GaAs internal sub-collector region disposed on the GaAs external sub-collector region. A mesa-shaped collector part and a collector electrode are separately formed on the GaAs external sub-collector region. The HFET includes a GaAs cap layer, a source electrode, and a drain electrode, the GaAs cap layer including portion of the GaAs external sub-collector region, and the source electrode and the drain electrode being formed on the GaAs cap layer. | 09-17-2009 |
20090230482 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device in which an E-FET and a D-FET are integrated on the same substrate, wherein an epitaxial layer includes, in the following order from the semiconductor substrate: a first threshold adjustment layer that adjusts a threshold voltage of a gate of the E-FET and a threshold voltage of a gate of the D-FET; a first etching-stopper layer that stops etching performed from an uppermost layer to a layer abutting on the first etching-stopper layer; a second threshold adjustment layer that adjusts the threshold voltage of the gate of the D-FET; and a second etching-stopper layer that stops the etching performed from the uppermost layer to a layer abutting on the second etching-stopper layer, and at least one of the first etching-stopper layer and the second threshold adjustment layer includes an n-type doped region. | 09-17-2009 |
20100171151 | HETEROJUNCTION BIPOLAR TRANSISTOR AND MANUFACTURING METHOD THEREOF - An HBT according to this invention includes: a sub-collector layer; a collector layer formed on the sub-collector layer and the base layer including a first collector layer, a second collector layer, a third collector layer, and a fourth collector layer. The first collector layer is formed on the sub-collector layer, and is made of semiconductor different from semiconductor of which the second to the fourth collector layers are made. The fourth collector layer is formed on the first collector layer, and has an impurity concentration lower than an impurity concentration of the second collector layer. The second collector layer is formed on the fourth collector layer, and has an impurity concentration lower than an impurity concentration of the sub-collector layer and higher than an impurity concentration of the third collector layer. The third collector layer is formed between the second collector layer and the base layer. | 07-08-2010 |
20100187571 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object of the present invention is to provide a semiconductor resistive element having excellent linearity. A semiconductor device according to the present invention includes a HBT which is formed on a GaAs substrate and includes a group III-V compound semiconductor, and a semiconductor resistive element made of at least one layer included in a semiconductor epitaxial layer included in the HBT, and the semiconductor resistive element includes helium impurities. | 07-29-2010 |
20100224908 | SEMICONDUCTOR DEVICE - A semiconductor device according to the present invention includes a substrate; a nitride semiconductor layer formed above the substrate and having a laminated structure including at least three layers; a heterojunction bipolar transistor formed in a region of the nitride semiconductor layer; and a field-effect transistor formed in a region of the nitride semiconductor layer, the region being different from the region in which the heterojunction bipolar transistor is formed. | 09-09-2010 |
20100314696 | FIELD-EFFECT TRANSISTOR AND METHOD OF FABRICATING SAME - A field-effect transistor having a high-quality semiconductor/oxide interface and a method of fabricating the field-effect transistor are provided. The field-effect transistor includes a semiconductor substrate; a channel layer formed on the semiconductor substrate; a donor layer formed on the channel layer; a semiconductor layer formed in the donor layer and containing Pt; an oxide layer formed on the semiconductor layer and containing a perovskite-type oxide which functions as a gate insulating film; and a gate electrode formed on the oxide layer. | 12-16-2010 |
20110250726 | SEMICONDUCTOR DEVICE HAVING A HETERO-JUNCTION BIPOLAR TRANSISTOR AND MANUFACTURING METHOD THEREOF - Method for manufacturing a semiconductor device. A channel layer is formed by epitaxially growing a semiconductor layer, in which an ion species of a first conductivity is implanted on a semiconductor substrate. A source region, a drain region, and an emitter region which are of the first conductivity, are formed by activating, using annealing, a portion of the semiconductor substrate in which the ion species has been implanted. An emitter layer of the first conductivity, a base layer of a second conductivity having a band gap smaller than a band gap of the emitter layer, and a collector layer of the first conductivity or a non-doped collector layer are sequentially and epitaxially grown on the channel layer. | 10-13-2011 |
20130221371 | SEMICONDUCTOR DEVICE - A semiconductor device according to the present invention includes a substrate; a nitride semiconductor layer formed above the substrate and having a laminated structure including at least three layers; a heterojunction bipolar transistor formed in a region of the nitride semiconductor layer; and a field-effect transistor formed in a region of the nitride semiconductor layer, the region being different from the region in which the heterojunction bipolar transistor is formed. | 08-29-2013 |