摘要:
A method of fabricating a silicon-based thin-film photoelectric conversion device, where a plasma CVD process is used to deposit a polycrystalline photoelectric conversion layer. During the deposition of the photoelectric conversion layer, the temperature of the underlying layer is less than 550° C., the pressure in the plasma chamber is more than 5 Torr, and the ratio of the flow rates of a hydrogen gas and a silane-type gas is more than 50. In addition, one of the following operations is carried out during the deposition to change the relevant parameters between the start and end of the deposition. First, the distance between the plasma discharge electrodes is increased gradually or in steps. Second, the pressure of the reaction chamber is increased gradually or in steps. Third, the flow rate of the silane-type gas is increased gradually. Fourth, the plasma discharge power density is reduced gradually or in steps.
摘要:
A p type semiconductor layer, an i type amorphous photoelectric conversion layer and an n type semiconductor layer of an amorphous type photoelectric conversion unit are formed in separate deposition chambers, respectively. A p type semiconductor layer, an i type crystalline photoelectric conversion layer and an n type semiconductor layer of crystalline type photoelectric conversion unit are formed continuously in one deposition chamber. Accordingly, a method of manufacturing a tandem type thin film photoelectric conversion device is obtained by which a tandem type thin film photoelectric conversion device having superior performance and high quality can be formed by a simple apparatus at a low cost with superior productivity.
摘要:
In a method of manufacturing a silicon-based thin film photoelectric converter, a crystalline photoelectric conversion layer included in the photoelectric converter is deposited by plasma CVD under the following conditions: the temperature of the underlying film is at most 550° C.; a gas introduced into a plasma reaction chamber has a silane-based gas and a hydrogen gas where the flow rate of the hydrogen gas relative to the silane-based gas is at least 50 times; the pressure in the plasma reaction chamber is set to 3 Torr; and the deposition speed is 17 nm/min in the thickness-wise direction.
摘要:
A p type semiconductor layer, an i type crystalline (polycrystalline, microcrystalline) photoelectric conversion layer, and an n type semiconductor layer are successively formed in the same plasma CVD deposition chamber. The p type semiconductor layer is produced on condition that the pressure in the deposition chamber is at least 5 Torr. Accordingly, a silicon-based thin film photoelectric conversion device having the p type semiconductor layer, the i type crystalline photoelectric conversion layer, and the n type semiconductor layer stacked on each other is manufactured. A method of manufacturing a silicon-based thin film photoelectric conversion device is thus implemented to produce a photoelectric conversion device having a superior performance and quality by a simple apparatus at a low cost and with high productivity.
摘要:
A vehicle includes a feeding system supplying an electric power to an external device disposed outside the vehicle, a controller controlling the operation of the feeding system, and an information output unit outputting predetermined information. The controller performs the processing of determining whether or not feeding can be performed from the feeding system to the external device. When the feeding from the feeding system to the external device is prohibited, the controller causes the information output unit to output prohibition information about the prohibition of the feeding including the contents of a determination processing.
摘要:
A control for a hybrid vehicle includes; obtaining information that an EV switch that is operated when a travel of the vehicle in an EV mode in which priority is given to an EV travel in which the vehicle travels by a motive power only from a rotary electric machine is to be selected has been operated; starting a permission preparation control for causing a transition from a state in which a situation of the vehicle satisfies a predetermined reservation condition for reserving the EV mode to a state in which the situation of the vehicle satisfies a predetermined permission condition for permitting the EV mode if the situation of the vehicle does not satisfy the permission condition but satisfies the reservation condition when the EV switch has been operated; and enabling to control the travel of the vehicle in the EV mode if the predetermined permission condition is satisfied.
摘要:
A thin film photoelectric converter, especially an integrated thin film photoelectric converter having improved photoelectric conversion efficiency is provided by controlling an open-circuit voltage and a fill factor so as not be small in a thin film photoelectric converter including a crystalline silicon photoelectric conversion unit. The thin film photoelectric converter by the present invention has at least a transparent electrode film, a crystalline silicon photoelectric conversion unit, and a back electrode film formed sequentially on one principal surface of a transparent substrate, and the converter has a whitish discoloring area on a part of a surface of the converter after formation of the crystalline silicon photoelectric conversion unit. A percentage of dimensions of the whitish discoloring area preferably is not more than 5% of a dimension of the photoelectric conversion area. A thin film photoelectric converter of the present invention is preferably an integrated thin film photoelectric converter.
摘要:
In a stacked-layer type photoelectric conversion device, a plurality of photoelectric conversion units are stacked on a substrate, each of which includes a one conductivity-type layer, a photoelectric conversion layer of substantially intrinsic semiconductor and an opposite conductivity-type layer in this order from a light-incident side. At least one of the opposite conductivity-type layer in a front photoelectric conversion unit arranged relatively closer to the light-incident side and the one conductivity-type layer in a back photoelectric conversion unit arranged adjacent to the front photoelectric conversion unit includes a silicon composite layer at least in a part thereof. The silicon composite layer has a thickness of more than 20 nm and less than 130 nm and an oxygen concentration of more than 25 atomic % and less than 60 atomic %, and includes silicon-rich phase parts in an amorphous alloy phase of silicon and oxygen.
摘要:
A method for manufacturing a thin film photovoltaic device comprising a transparent conductive film, a thin film photovoltaic unit, and a back transparent conductive film and a back metal electrode which are successively formed on a substrate, wherein the back transparent conductive film is formed by sputtering comprising steps of forming an initial back transparent conductive film under a pressure of 5×10−2 Torr or more for 1 to 30 seconds in the initial stage and forming a main back transparent conductive film having the remainder thickness under a pressure reduced to {fraction (1/10)} the initial pressure or less.
摘要:
Relays are inserted and connected between a battery and a boosting converter, and other relays are inserted and connected between another battery and another boosting converter. A controller outputs control signals that control opening/closing of the relays. When short-circuit of a switching element occurs in the boosting converters, the controller controls turning-off of the relays such that at least one of order and timing of turning off the relays is changed depending on which of the switching elements is short-circuited.