摘要:
The present invention aims to provide an etching solution composition which enables to etch a metal film in a controllable manner, form a desired definite tapered shape, and obtain a smooth surface without causing etching solution exudation trace. Said problems have been solved by the present invention, which is an etching solution composition for etching metal films containing one or more surfactants selected from the group consisting of alkyl sulfate or perfluoroalkenyl phenyl ether sulfonic acid and the salts thereof.
摘要:
The present invention aims to provide an etching solution composition which enables to etch a metal film in a controllable manner, form a desired definite tapered shape, and obtain a smooth surface without causing etching solution exudation trace. Said problems have been solved by the present invention, which is an etching solution composition for etching metal films containing one or more surfactants selected from the group consisting of alkyl sulfate or perfluoroalkenyl phenyl ether sulfonic acid and the salts thereof.
摘要:
The present invention aims to provide an etching solution composition which enables to etch a metal film in a controllable manner, form a desired definite tapered shape, and obtain a smooth surface without causing etching solution exudation trace. Said problems have been solved by the present invention, which is an etching solution composition for etching metal films containing one or more surfactants selected from the group consisting of alkyl sulfate or perfluoroalkenyl phenyl ether sulfonic acid and the salts thereof.
摘要:
The stacked battery includes a negative electrode (46) and a positive electrode (41). The negative electrode has a negative electrode main portion (50) and a negative electrode lead (52). The positive electrode has a positive electrode main portion (45) and a positive electrode lead (51). The negative electrode main portion and the positive electrode main portion are stacked in a thickness direction with the negative electrode lead and the positive electrode lead extending in different directions as viewed from above. The positive electrode lead is fixed to a positive electrode case. In the positive electrode lead, a break place (X) is provided outside the negative electrode main portion as viewed from above when the negative electrode and the positive electrode are placed on top of each other. The break place (X) is broken when a shock is applied to the electrodes.
摘要:
A vertical JFET 1a according to the present invention has an n+ type drain semiconductor portion 2, an n-type drift semiconductor portion 3, a p+ type gate semiconductor portion 4, an n-type channel semiconductor portion 5, an n+ type source semiconductor portion 7, and a p+ type gate semiconductor portion 8. The n-type drift semiconductor portion 3 is placed on a principal surface of the n+ type drain semiconductor portion 2 and has first to fourth regions 3a to 3d extending in a direction intersecting with the principal surface. The p+ type gate semiconductor portion 4 is placed on the first to third regions 3a to 3c of the n-type drift semiconductor portion 3. The n-type channel semiconductor portion 5 is placed along the p+ type gate semiconductor portion 4 and is electrically connected to the fourth region 3d of the n-type drift semiconductor portion 3.
摘要:
An ohmic electrode for SiC semiconductor that contains Si and Ni or an ohmic electrode for SiC semiconductor that further contains Au or Pt in addition to Si and Ni is provided. In addition, a method of manufacturing the ohmic electrode for SiC semiconductor, a semiconductor device including the ohmic electrode for SiC semiconductor, and a method of manufacturing the semiconductor device are provided.
摘要:
A lateral junction field effect transistor includes a first gate electrode layer arranged in a third semiconductor layer between source/drain region layers, having a lower surface extending on the second semiconductor layer, and doped with p-type impurities more heavily than the second semiconductor layer, and a second gate electrode layer arranged in a fifth semiconductor layer between the source/drain region layers, having a lower surface extending on a fourth semiconductor layer, having substantially the same concentration of p-type impurities as the first gate electrode layer, and having the same potential as the first gate electrode layer. Thereby, the lateral junction field effect transistor has a structure, which can reduce an on-resistance while maintaining good breakdown voltage properties.
摘要:
A junction field-effect transistor comprises an n-type semiconductor layer having a channel region, a buffer layer formed on the channel region and a p+ region formed on the buffer layer. The concentration of electrons in the buffer layer is lower than the concentration of electrons in the semiconductor layer. The concentration of electrons in the buffer layer is preferably not more than one tenth of the concentration of electrons in the semiconductor layer. Thus, the threshold voltage can be easily controlled, and saturation current density of a channel can be easily controlled.
摘要:
A lateral junction field effect transistor includes a first gate electrode layer arranged in a third semiconductor layer between source/drain region layers, having a lower surface extending on the second semiconductor layer, and doped with p-type impurities more heavily than the second semiconductor layer, and a second gate electrode layer arranged in a fifth semiconductor layer between the source/drain region layers, having a lower surface extending on a fourth semiconductor layer, having substantially the same concentration of p-type impurities as the first gate electrode layer, and having the same potential as the first gate electrode layer. Thereby, the lateral junction field effect transistor has a structure, which can reduce an on-resistance while maintaining good breakdown voltage properties.
摘要:
A JFET is a semiconductor device allowing more reliable implementation of the characteristics essentially achievable by employing SiC as a material and includes a wafer having at least an upper surface made of silicon carbide, and a gate contact electrode formed on the upper surface. The wafer includes a first p-type region serving as an ion implantation region formed so as to include the upper surface. The first p-type region includes a base region disposed so as to include the upper surface, and a protruding region. The base region has a width (w1) in the direction along the upper surface greater than a width (w2) of the protruding region. The gate contact electrode is disposed in contact with the first p-type region such that the gate contact electrode is entirely located on the first p-type region as seen in plan view.