Patent application number | Description | Published |
20090273031 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a first semiconductor layer of a first conductivity type; a second semiconductor layer of the first conductivity type provided on a major surface of the first semiconductor layer; a third semiconductor layer of a second conductivity type provided on the major surface of the first semiconductor layer, the third semiconductor layer forming a structure of periodical arrangement with the second semiconductor layer; a fourth semiconductor layer of the second conductivity type provided above the third semiconductor layer; a fifth semiconductor layer of the first conductivity type selectively provided on a surface of the fourth semiconductor layer; a first main electrode electrically connected to the first semiconductor layer; a second main electrode provided to contact a surface of the fifth semiconductor layer and a surface of the fourth semiconductor layer; and a control electrode provided above the fifth semiconductor layer, the fourth semiconductor layer, and the second semiconductor layer via an insulative film. A portion is provided locally in the third semiconductor layer, the portion depleting at a voltage not more than one third of a voltage at which the second semiconductor layer and the third semiconductor layer completely deplete. | 11-05-2009 |
20100096692 | SEMICONDUCTOR DEVICE - A semiconductor device of the invention includes: a super junction structure of an n-type pillar layer and a p-type pillar layer; a base layer provided on the p-type pillar layer; a source layer selectively provided on a surface of the base layer; a gate insulating film provided on a portion being in contact with the base layer, a portion being in contact with the source layer and a portion being in contact with the n-type pillar layer on a portion of a junction between the n-type pillar layer and the p-type pillar layer; a control electrode provided opposed to the base layer, the source layer and the n-type pillar layer through the gate insulating film; and a source electrode electrically connected to the base layer, the source layer and the n-type layer. The source electrode is contact with the surface of the n-type pillar layer located between the control electrodes to form a Schottky junction. | 04-22-2010 |
20100123186 | POWER SEMICONDUCTOR DEVICE - In a vertical power semiconductor device having the super junction structure both in a device section and a terminal section, an n-type impurity layer is formed on the outer peripheral surface in the super junction structure. This allows an electric field on the outer peripheral surface of the super junction structure region to be reduced. Accordingly, a reliable vertical power semiconductor device of a high withstand voltage can be provided. | 05-20-2010 |
20100264489 | SEMICONDUCTOR DEVICE - A transistor contains a first semiconductor layer of a first conductivity type and a drift layer having a pillar structure in which a second semiconductor layer of the first conductivity type and a third semiconductor layer of a second conductivity type are alternately disposed in a direction parallel to a surface of the first semiconductor layer. The fourth semiconductor layer of the first conductivity type and the fifth semiconductor layer of the second conductivity type are alternately disposed and parallel to the drift layer. The fifth semiconductor layer has a larger amount of impurities than the fourth semiconductor layer. The sixth semiconductor layer of the first conductivity type and the seventh semiconductor layer of the second conductivity type are alternately disposed and parallel to the fourth and the fifth semiconductor layers. The seventh semiconductor layer has a smaller amount of impurities than the sixth semiconductor layer. | 10-21-2010 |
20110018055 | POWER SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - According to one embodiment, a power semiconductor device includes a first semiconductor layer, and first, second and third semiconductor regions. The first semiconductor layer has a first conductivity type. The first semiconductor regions have a second conductivity type, and are formed with periodicity in a lateral direction in a second semiconductor layer of the first conductivity type. The second semiconductor layer is provided on a major surface of the first semiconductor layer in a device portion with a main current path formed in a vertical direction generally perpendicular to the major surface and in a terminal portion provided around the device portion. The second semiconductor region has the first conductivity type and is a portion of the second semiconductor layer sandwiched between adjacent ones of the first semiconductor regions. The third semiconductor regions have the second conductivity type and are provided below the first semiconductor regions in the terminal portion. | 01-27-2011 |
20110233656 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - According to one embodiment, a semiconductor device includes a semiconductor layer of a first conductivity type, first semiconductor pillar regions of the first conductivity type and second semiconductor pillar regions of a second conductivity type, a semiconductor region of the first conductivity type, a base region of the second conductivity type, a source region, a first main electrode, a second main electrode and a control electrode. The second semiconductor pillar region includes a plurality of semiconductor regions of the second conductivity type. A difference is provided between peak values of impurity concentration profiles of an uppermost and a lowermost semiconductor regions of the plurality of semiconductor regions, and in the alternately arranging direction of the first and second semiconductor pillar regions, maximum width of the uppermost semiconductor region is generally equal to or narrower than maximum width of the lowermost semiconductor region. | 09-29-2011 |
20110291181 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - According to one embodiment, a semiconductor device including a cell region and a terminal region includes a first semiconductor region of a first conductivity type, semiconductor pillars of the first and a second conductivity type, a second semiconductor region of the second conductivity type, and a third semiconductor region of the first conductivity type. The semiconductor pillars of the first and second conductivity type are and arranged alternately on the first semiconductor region. The second semiconductor region is provided on the semiconductor pillar of the second conductivity type. The third semiconductor region is provided on the second semiconductor region. A semiconductor pillar other than a semiconductor pillar most proximal to the terminal region is provided in a stripe configuration. The semiconductor pillar most proximal to the terminal region includes regions having a high and a low impurity concentration. The regions are provided alternately. | 12-01-2011 |
20120061721 | POWER SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A power semiconductor device includes a first semiconductor layer of a first conductivity type, a first drift layer, and a second drift layer. The first drift layer includes a first epitaxial layer of the first conductivity type, a plurality of first first-conductivity-type pillar layers, and a plurality of first second-conductivity-type pillar layers. The second drift layer is formed on the first drift layer and includes a second epitaxial layer of the first conductivity type, a plurality of second second-conductivity-type pillar layers, a plurality of second first-conductivity-type pillar layers, a plurality of third second-conductivity-type pillar layers, and a plurality of third first-conductivity-type pillar layers. The plurality of second second-conductivity-type pillar layers are connected to the first second-conductivity-type pillar layers. The plurality of second first-conductivity-type pillar layers are connected to the first first-conductivity-type pillar layers. The plurality of third second-conductivity-type pillar layers are arranged on the first epitaxial layer. | 03-15-2012 |
20120074491 | POWER SEMICONDUCTOR DEVICE - In general, according to one embodiment, a power semiconductor device includes a first pillar region, a second pillar region, and an epitaxial layer of a first conductivity type on a first semiconductor layer. The first pillar region is composed of a plurality of first pillar layers of a second conductivity type and a plurality of second pillar layers of the first conductivity type alternately arranged along a first direction. The second pillar region is adjacent to the first pillar region along the first direction and includes a third pillar layer of the second conductivity type, a fourth pillar layer of the first conductivity type, and a fifth pillar layer of the second conductivity type in this order along the first direction. A plurality of second base layers of the second conductivity type electrically connected, respectively, onto the third pillar layer and the fifth pillar layer and spaced from each other. | 03-29-2012 |
20120241823 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device includes a first semiconductor layer of a first conductivity type, a second semiconductor layer provided thereon, mutually separated columnar third semiconductor layers of a second conductivity type extending within the second semiconductor layer, island-like fourth semiconductor layers of the second conductivity type provided on the third semiconductor layers, fifth semiconductor layers of the first conductivity type, sixth semiconductor layers of the second conductivity type, a gate electrode, a first electrode, and a second electrode. The fifth semiconductor layers are selectively provided on the fourth semiconductor layers. The sixth semiconductor layer electrically connects two adjacent fourth semiconductor layers. The first electrode is in electrical connection with the first semiconductor. The second electrode is in electrical connection with the fourth semiconductor layers and the fifth semiconductor layers via the openings in the gate electrode. | 09-27-2012 |
20130069158 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device includes a high resistance epitaxial layer having a first pillar region and a second pillar region as a drift layer. The first pillar region includes a plurality of first pillars of the first conductivity type and a plurality of second pillars of the second conductivity type disposed alternately along a first direction. The second pillar region is adjacent to the first pillar region along the first direction. The second pillar region includes a third pillar and a fourth pillar of a conductivity type opposite to a conductivity type of the third pillar. A net quantity of impurities in the third pillar is less than a net quantity of impurities in each of the plurality of first pillars. A net quantity of impurities in the fourth pillar is less than the net quantity of impurities in the third pillar. | 03-21-2013 |
20130093003 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - A semiconductor device includes first, second, and third semiconductor layers each having multiple diffusion layers. The first direction widths of the first diffusion layers are the same. The amount of impurity within the first diffusion layers gradually increases from the bottom end towards the top end of the first semiconductor layer. The first direction widths of the second diffusion layers are the same. The amounts of impurity within the second diffusion layers are the same. The first direction widths of the third diffusion layers are narrower than the first direction widths of the first diffusion layers and the first direction widths of the second diffusion layers at the same level, and gradually become narrower from the bottom end towards the top end of the third semiconductor layer. The amount of impurity within the third. diffusion layers are the same. | 04-18-2013 |
20130248979 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device according to an embodiment includes an element portion in which MOSFET elements are provided and a termination portion provided around the element portion, and has pillar layers provided respectively in parallel to each other in a semiconductor substrate. The device includes a first trench and a first insulation film. The first trench is provided between end portions of the pillar layers, in the semiconductor substrate at the termination portion exposed from a source electrode of the MOSFET elements. The first insulation film is provided on a side surface and a bottom surface of the first trench. | 09-26-2013 |