METHOD OF PRODUCING STANNOUS OXIDE, STANNOUS OXIDE, METHOD OF Sn PLATING SOLUTION, AND METHOD OF REMOVING IMPURITIES FROM SN PLATING SOLUTION

1 . A method of producing stannous oxide comprising: a Sn ion-containing acid solution forming step, which is a step of preparing a Sn ion-containing acid solution by adding Sn ions to an acid solution; a first neutralizing step, which is a step of forming Sn precipitates by adding one or more of alkaline solutions of ammonium carbonate, ammonium bicarbonate, and aqueous ammonia to the Sn ion-containing acid solution to retain pH at 3-6 therein; a Sn precipitate separating step, which is a step of separating the Sn precipitates from the Sn ion-containing acid solution; a Sn precipitate dispersing step, which is a step of dispersing the separated Sn precipitates in a solvent liquid to obtain a dispersion liquid; and a second neutralizing step, which is a step of forming SnO from the Sn precipitates by adding an alkaline solution to the dispersion liquid of the Sn precipitates and then by heating, wherein Na, K, Pb, Fe, Ni, Cu, Zn, Al, Mg, Ca, Cr, Mn, Co, In, and Cd reside in the Sn ion-containing acid solution in the first neutralizing step. 2 . The method of producing stannous oxide according to claim 1 , further comprising an acid adding step, which is a step of adding hydrochloric acid or citric acid to the dispersion liquid of the Sn precipitates between the Sn precipitate dispersing step and the second neutralizing step. 3 . A stannous oxide wherein each of content amounts of Na, K, Pb, Fe, Ni, Cu, Zn, Al, Mg, Ca, Cr, Mn, Co, In, and Cd is 1 ppm or less in a weight ratio. 4 . A method of producing a Sn plating solution used in Sn plating comprising a step of producing the Sn plating solution by dissolving the stannous oxide prepared in the method of producing stannous oxide according to claim 1 in an acid solution. 5 . A method of producing a Sn plating solution used in Sn plating comprising: a Sn ion-containing acid solution forming step, which is a step of preparing a Sn ion-containing acid solution by adding Sn ions to an acid solution; a first neutralizing step, which is a step of forming Sn precipitates by adding one or more of alkaline solutions of ammonium carbonate, ammonium bicarbonate, and aqueous ammonia to the Sn ion-containing acid solution to retain pH at 3-6 therein; a Sn precipitate separating step, which is a step of separating the Sn precipitates from the Sn ion-containing acid solution; and a Sn precipitate dissolving step, which is a step of dissolving the separated Sn precipitates in an acid solution, wherein Na, K, Pb, Fe, Ni, Cu, Zn, Al, Mg, Ca, Cr, Mn, Co, In, and Cd reside in the Sn ion-containing acid solution in the first neutralizing step. 6 . A method of removing impurities from an Sn plating solution, in which Sn ions present in an acid solution, the method of removing impurities comprising; a first neutralizing step, which is a step of forming Sn precipitates by adding one or more of alkaline solutions of ammonium carbonate, ammonium bicarbonate, and aqueous ammonia to the Sn plating solution to retain pH at 3-6 therein; a Sn precipitate separating step, which is a step of separating the Sn precipitates from the Sn plating solution; and a Sn precipitate dissolving step, which is a step of dissolving the separated Sn precipitates in an acid solution, wherein Na, K, Pb, Fe, Ni, Cu, Zn, Al, Mg, Ca, Cr, Mn, Co, In, and Cd reside in the Sn plating solution in the first neutralizing step.