Solar cell module and method of manufacturing the same

What is claimed is: 1. A solar cell module, comprising: a plurality of back contact solar cells; an interconnector that electrically connects adjacent back contact solar cells serially; an upper protective layer, which is positioned on light receiving surfaces of the plurality of back contact solar cells; a lower protective layer, which is positioned on an opposite side of the light receiving surfaces of the plurality of back contact solar cells; a transparent member that is positioned on the upper protective layer; and a back sheet that is positioned under the lower protective layer, wherein the upper protective layer is positioned between the plurality of back contact solar cells and the transparent member, and the lower protective layer is positioned between the plurality of back contact solar cells and the back sheet, wherein the upper protective layer and the lower protective layer are formed of different materials from each other, wherein the lower protective layer is further positioned between the interconnector and the back sheet, wherein the upper protective layer is formed of ethylene vinyl acetate (EVA) of a film form, and the lower protective layer consists of a single layered cured siloxane, wherein the lower protective layer fills a space between the plurality of the back contact solar cells, and wherein the lower protective layer physically and directly contacts each of front and back surfaces of the interconnector in an area between the adjacent back contact solar cells. 2. The solar cell module of claim 1 , wherein the cured siloxane contains poly dialkyl siloxane. 3. The solar cell module of claim 1 , wherein each back contact solar cell comprises: a semiconductor substrate of a first conductive type; a front surface field layer formed at a front surface of the semiconductor substrate; an anti-reflection layer formed on the front surface field layer; a first doped region that is formed at a back surface of the semiconductor substrate and is heavily doped with first conductive type impurities; a second doped region that is formed at the back surface of the semiconductor substrate at a location adjacent to the first doped region and is heavily doped with second conductive type impurities opposite the first conductive type impurities; a back passivation layer exposing a portion of each of the first doped region and the second doped region; a first electrode electrically connected to the exposed portion of the first doped region; and a second electrode electrically connected to the exposed portion of the second doped region. 4. A solar cell module, comprising: a plurality of back contact solar cells; an interconnector that electrically connects adjacent back contact solar cells serially; a transparent member that is positioned on light receiving surfaces of the plurality of back contact solar cells; a back sheet that is positioned under surfaces opposite the light receiving surfaces of the plurality of back contact solar cells; a first protective layer positioned between the plurality of back contact solar cells and the transparent member; a second protective layer positioned between the plurality of back contact solar cells and the back sheet and positioned between the interconnector and the back sheet, a portion of the second protective layer being filled in a space formed by the adjacent back contact solar cells, wherein the first protective layer and the portion of the second protective layer filled in the space formed by the adjacent back contact solar cells are formed of different materials, and wherein the first protective layer is formed of ethylene vinyl acetate (EVA) of a film form, and the second protective layer consists of a single layered cured siloxane, and wherein the second protective layer physically and directly contacts each of front and back surfaces of the interconnector in an area between the adjacent back contact solar cell. 5. A solar cell module, comprising: a plurality of back contact solar cells; an interconnector that electrically connects adjacent back contact solar cells to one another; a transparent member that is positioned on light receiving surfaces of the plurality of back contact solar cells; a back sheet that is positioned under surfaces opposite the light receiving surfaces of the plurality of back contact solar cells; a first protective layer positioned between the plurality of back contact solar cells and the transparent member; a second protective layer positioned between the plurality of back contact solar cells and the back sheet and positioned between the interconnector and the back sheet, a portion of the second protective layer being filled in a space formed by the adjacent back contact solar cells, wherein a front surface of the interconnector contacting the portion of the second protective layer has the same color as a semiconductor substrate of the plurality of back contact solar cells or the back sheet, and wherein the first protective layer is formed of ethylene vinyl acetate (EVA) of a film form, and the second protective layer consists of a single layered cured siloxane, and wherein the second protective layer physically and directly contacts each of front and back surfaces of the interconnector in an area between the adjacent back contact solar cells.