Solar cell and method for manufacturing the same

What is claimed is: 1 . A solar cell, comprising: a semiconductor substrate; a control passivation layer on a surface of the semiconductor substrate; a plurality of first conductive regions extending in a first direction on the control passivation layer and having a first conductivity type; a plurality of second conductive regions extending in the first direction to be spaced apart from the plurality of first conductive regions on the control passivation layer and having a second conductivity type different from the first conductivity type; a plurality of first electrodes electrically connected to the plurality of first conductive regions; and a plurality of second electrodes electrically connected to the plurality of second conductive regions, wherein the plurality of first conductive regions and the plurality of second conductive regions are spaced apart from an edge of the semiconductor substrate by a first interval, wherein the plurality of first conductive regions and the plurality of second conductive regions are spaced apart from each other in a second direction crossing the first direction by a second interval, and wherein the second interval is the same as or less than the first interval. 2 . The solar cell of claim 1 , further comprising: a barrier region surrounding each of the plurality of first conductive regions and the plurality of second conductive regions on the control passivation layer to separate the plurality of first conductive regions and the plurality of second conductive regions from each other. 3 . The solar cell of claim 1 , wherein the first interval is in a range of approximately 100 μm to 500 μm, and wherein the second interval is in a range of approximately 50 μm to 200 μm. 4 . The solar cell of claim 1 , wherein at least one of the plurality of first electrodes has a width smaller than a width of corresponding one of the plurality of first conductive regions, and has a length smaller than a length of the corresponding one of the plurality of first conductive regions, wherein an entire portion of the at least one of the plurality of first electrodes overlaps the corresponding one of the plurality of first conductive regions, wherein at least one of the plurality of second electrodes has a width smaller than a width of corresponding one of the plurality of second conductive regions, and has a length smaller than a length of the corresponding one of the plurality of second conductive regions, and wherein an entire portion of the at least one of the plurality of second electrodes overlaps the corresponding one of the plurality of second conductive regions. 5 . The solar cell of claim 4 , further comprising: a first distance between an edge of one of the plurality of first conductive regions and an edge of corresponding one of the plurality of first electrodes in the second direction; and a second distance between an edge of one of the plurality of second conductive regions and an edge of corresponding one of the plurality of second electrodes in the second direction, wherein the first distance and the second distance are one of the same as or less than the second interval. 6 . The solar cell of claim 4 , further comprising: a first distance between an end of one of the plurality of first conductive regions and an end of corresponding one of the plurality of first electrodes in the first direction; and a second distance between an end of one of the plurality of second conductive regions and an end of corresponding one of the plurality of second electrodes in the first direction, wherein the first distance and the second distance are one of the same as or less than the second interval. 7 . The solar cell of claim 4 , wherein a width of the plurality of first conductive regions is larger than a width of the plurality of second conductive regions, and wherein a distance between an edge of one of the plurality of first conductive regions and an edge of corresponding one of the plurality of first electrodes in the second direction is the same as or greater than a distance between an end of the one of the plurality of first conductive regions and an end of the corresponding one of the plurality of first electrodes in the first direction. 8 . The solar cell of claim 4 , wherein a width of the plurality of first conductive regions is larger than a width of the plurality of second conductive regions, wherein a width of the plurality of first electrodes is greater than a width of the plurality of second electrodes, and wherein a distance between an edge of one of the plurality of first conductive regions and an edge of corresponding one of the plurality of first electrodes in the second direction is greater than a distance between an edge of one of the plurality of second conductive regions and an edge of corresponding one of the plurality of second electrodes in the second direction. 9 . The solar cell of claim 1 , wherein the first interval is smaller than a width of the plurality of first conductive regions and a width of the plurality of second conductive regions in the second direction. 10 . The solar cell of claim 1 , wherein each of the plurality of first conductive regions, the plurality of second conductive regions, the plurality of first electrodes, and the plurality of second electrodes has a linear shape on the whole. 11 . The solar cell of claim 1 , wherein thicknesses of the plurality of first electrodes and the plurality of second electrodes are smaller than each of the first interval, the second interval, a width of the plurality of first conductive regions, a width of the plurality of second conductive regions, a width of the plurality of first electrodes, a width of the second electrodes, a distance between an end of one of the plurality of first or second conductive regions and an end of corresponding one of the plurality of first or second electrodes in the first direction, and a distance between an edge of one of the plurality of first or second conductive regions and an edge of corresponding one of the plurality of first or second electrodes in the second direction. 12 . The solar cell of claim 1 , wherein thicknesses of the plurality of first electrodes and the plurality of second electrodes are approximately 1 μm or less. 13 . A solar cell, comprising: a semiconductor substrate; a control passivation layer on a surface of the semiconductor substrate; a plurality of first conductive regions extending in a first direction on the control passivation layer and having a first conductivity type; a plurality of second conductive regions extending in the first direction to be spaced apart from the plurality of first conductive regions on the control passivation layer and having a second conductivity type different from the first conductivity type; a plurality of first electrodes electrically connected to the plurality of first conductive regions; and a plurality of second electrodes electrically connected to the plurality of second conductive regions, wherein a stepped portion is formed on the surface of the semiconductor substrate, and wherein at least one of the plurality of first electrodes and the plurality of second electrodes has a linear shape on the whole and partially includes a protrusion protruding to correspond to the stepped portion of the semiconductor substrate. 14 . The solar cell of claim 13 , wherein the stepped portion is formed by a concave portion that is depressed into the semiconductor substrate by a polishing mark formed at the surface of the semiconductor substrate. 15 . The solar cell of cl