Patent application number | Description | Published |
20130270552 | SEMICONDUCTOR DEVICE - A transistor includes oxide semiconductor stacked layers between a first gate electrode layer and a second gate electrode layer through an insulating layer interposed between the first gate electrode layer and the oxide semiconductor stacked layers and an insulating layer interposed between the second gate electrode layer and the oxide semiconductor stacked layers. The thickness of a channel formation region is smaller than the other regions in the oxide semiconductor stacked layers. Further in this transistor, one of the gate electrode layers is provided as what is called a back gate for controlling the threshold voltage. Controlling the potential applied to the back gate enables control of the threshold voltage of the transistor, which makes it easy to maintain the normally-off characteristics of the transistor. | 10-17-2013 |
20130285047 | SEMICONDUCTOR DEVICE - A transistor including an oxide semiconductor film, in which the threshold voltage is prevented from being a negative value, is provided. A high quality semiconductor device having the transistor including an oxide semiconductor film is provided. A transistor includes an oxide semiconductor film having first to third regions. The top surface of the oxide semiconductor film in the first region is in contact with a source electrode or a drain electrode. The top surface of the oxide semiconductor film in the second region is in contact with a protective insulating film. The thickness of the second region is substantially uniform and smaller than the maximum thickness of the first region. The top surface and a side surface of the oxide semiconductor film in the third region are in contact with the protective insulating film. | 10-31-2013 |
20140034954 | SEMICONDUCTOR DEVICE - To provide a semiconductor device including a capacitor whose charge capacity is increased without reducing the aperture ratio. The semiconductor device includes a transistor including a light-transmitting semiconductor film, a capacitor where a dielectric film is provided between a pair of electrodes, an insulating film provided over the light-transmitting semiconductor film, and a light-transmitting conductive film provided over the insulating film. In the capacitor, a metal oxide film containing at least indium (In) or zinc (Zn) and formed on the same surface as the light-transmitting semiconductor film in the transistor serves as one electrode, the light-transmitting conductive film serves as the other electrode, and the insulating film provided over the light-transmitting semiconductor film serves as the dielectric film. | 02-06-2014 |
20140110705 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - To reduce defects in an oxide semiconductor film in a semiconductor device. To improve the electrical characteristics and the reliability of a semiconductor device including an oxide semiconductor film. In a semiconductor device including a transistor including a gate electrode formed over a substrate, a gate insulating film covering the gate electrode, a multilayer film overlapping with the gate electrode with the gate insulating film provided therebetween, and a pair of electrodes in contact with the multilayer film, a first oxide insulating film covering the transistor, and a second oxide insulating film formed over the first oxide insulating film, the multilayer film includes an oxide semiconductor film and an oxide film containing In or Ga, the first oxide insulating film is an oxide insulating film through which oxygen is permeated, and the second oxide insulating film is an oxide insulating film containing more oxygen than that in the stoichiometric composition. | 04-24-2014 |
20140110707 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - In a semiconductor device including a transistor including a gate electrode formed over a substrate, a gate insulating film covering the gate electrode, a multilayer film overlapping with the gate electrode with the gate insulating film provided therebetween, and a pair of electrodes in contact with the multilayer film, a first oxide insulating film covering the transistor, and a second oxide insulating film formed over the first oxide insulating film, the multilayer film includes an oxide semiconductor film and an oxide film containing In or Ga, the oxide semiconductor film has an amorphous structure or a microcrystalline structure, the first oxide insulating film is an oxide insulating film through which oxygen is permeated, and the second oxide insulating film is an oxide insulating film containing more oxygen than that in the stoichiometric composition. | 04-24-2014 |
20140110708 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes a transistor including a gate electrode over a substrate, a gate insulating film covering the gate electrode, a multilayer film overlapping with the gate electrode with the gate insulating film provided therebetween, and a pair of electrodes in contact with the multilayer film, and an oxide insulating film covering the transistor. The multilayer film includes an oxide semiconductor film and an oxide film containing In or Ga, the oxide insulating film contains more oxygen than that in the stoichiometric composition, and in the transistor, by a bias-temperature stress test, threshold voltage does not change or the amount of the change in a positive direction or a negative direction is less than or equal to 1.0 V, preferably less than or equal to 0.5 V. | 04-24-2014 |
20150123126 | SEMICONDUCTOR DEVICE - A transistor includes oxide semiconductor stacked layers between a first gate electrode layer and a second gate electrode layer through an insulating layer interposed between the first gate electrode layer and the oxide semiconductor stacked layers and an insulating layer interposed between the second gate electrode layer and the oxide semiconductor stacked layers. The thickness of a channel formation region is smaller than the other regions in the oxide semiconductor stacked layers. Further in this transistor, one of the gate electrode layers is provided as what is called a back gate for controlling the threshold voltage. Controlling the potential applied to the back gate enables control of the threshold voltage of the transistor, which makes it easy to maintain the normally-off characteristics of the transistor. | 05-07-2015 |
20150262914 | SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor device includes: a semiconductor substrate, the semiconductor substrate having first and second surfaces; conductive regions extending in a direction from the first surface side toward the second surface side of the semiconductor substrate, the conductive regions including first and second vias; a first semiconductor region surrounding a part of each of the conductive regions on the second surface side of the semiconductor substrate, a portion other than a front surface of the first semiconductor region being surrounded by the semiconductor substrate; a first electrode provided on the second surface side; second electrodes provided on the first surface side, one of the second electrodes being in contact with one of the conductive regions; and an insulating film provided between each of the conductive regions and the semiconductor substrate, and between each of the conductive regions and the first semiconductor region. | 09-17-2015 |