Abstract: A fuel cell system for a load device may include a fuel cell, a battery, and a controller configured to control the fuel cell and the battery. The controller may be configured to: cumulatively calculate first accumulated electric energy generated by the fuel cell; cumulatively calculate a power generation efficiency average at the time of storage of the first accumulated electric energy; calculate required power generation efficiency to generate electric power that meets a power demand of the load device; under a first condition where the power generation efficiency average is lower than the required power generation efficiency, cause the fuel cell to generate electric power that meets the power demand; and under a second condition where the power generation efficiency average is higher, cause the fuel cell to generate electric power at a specific operating point and cause the battery to discharge deficient electric power.

Abstract: A small-size magnetic sensor comprises three axial sensors each configured using plural giant magnetoresistive elements, wherein an X-axis sensor and a Y-axis sensor are arranged on the planar surface of an embedded layer of a substrate, and giant magnetoresistive elements forming a Z-axis sensor are formed on slopes of projections, which are formed by etching the embedded layer. It is possible to form an elongated projection on a substrate by way of the high-density plasma CVD method or by way of plasma etching and microwave etching, so that giant magnetoresistive elements are formed on the slopes of the elongated projection.

Abstract: On the principal surface of a silicon substrate, a side spacer made of silicon nitride is formed on the side wall of a lamination including a silicon oxide film, a silicon nitride film and a silicon oxide film. Thereafter, a channel stopper ion doped region is formed by implanting impurity ions by using as a mask the lamination, side spacer and resist layer. After the resist layer and side spacer are removed, a field oxide film is formed through selective oxidation using the lamination as a mask, and a channel stopper region corresponding to the ion doped region is formed. After the lamination is removed, a circuit device such as a MOS type transistor is formed in each device opening of the field oxide film.

Abstract: On the principal surface of a silicon substrate, a side spacer made of silicon nitride is formed on the side wall of a lamination including a silicon oxide film, a silicon nitride film and a silicon oxide film. Thereafter, a channel stopper ion doped region is formed by implanting impurity ions by using as a mask the lamination, side spacer and resist layer. After the resist layer and side spacer are removed, a field oxide film is formed through selective oxidation using the lamination as a mask, and a channel stopper region corresponding to the ion doped region is formed. After the lamination is removed, a circuit device such as a MOS type transistor is formed in each device opening of the field oxide film.

Abstract: On the principal surface of a silicon substrate, a side spacer made of silicon nitride is formed on the side wall of a lamination including a silicon oxide film, a silicon nitride film and a silicon oxide film. Thereafter, a channel stopper ion doped region is formed by implanting impurity ions by using as a mask the lamination, side spacer and resist layer. After the resist layer and side spacer are removed, a field oxide film is formed through selective oxidation using the lamination as a mask, and a channel stopper region corresponding to the ion doped region is formed. After the lamination is removed, a circuit device such as a MOS type transistor is formed in each device opening of the field oxide film.

Abstract: A small-size magnetic sensor comprises three axial sensors each configured using plural giant magnetoresistive elements, wherein an X-axis sensor and a Y-axis sensor are arranged on the planar surface of an embedded layer of a substrate, and giant magnetoresistive elements forming a Z-axis sensor are formed on slopes of projections, which are formed by etching the embedded layer. It is possible to form an elongated projection on a substrate by way of the high-density plasma CVD method or by way of plasma etching and microwave etching, so that giant magnetoresistive elements are formed on the slopes of the elongated projection.