Comparator circuit, semiconductor device, battery monitoring system, charging prohibition method, and computer-readable medium

What is claimed is: 1. A monitoring method for determining necessity of charging prohibition, comprising: acquiring a potential that is output from an output signal line of a comparator circuit, the comparator circuit comprising a first outer terminal connected to a positive electrode of a battery cell, a second outer terminal connected to a negative electrode of the battery cell, a switching element having (i) a first terminal to which a voltage applied to the first outer terminal is directly applied, (ii) a second terminal connected to a first fixed potential supply source, and (iii) a control terminal that controls conduction between the first terminal and the second terminal in response to an applied voltage, a voltage regulating unit that has one end connected to the second outer terminal and another end connected to the control terminal and to a second fixed potential supply source, and that regulates the voltage applied from the second outer terminal to the switching element, and the output signal line connected to a connecting portion of the second terminal and the first fixed potential supply source; judging whether or not the acquired potential is a potential of the first or second fixed potential supply source; and determining that a voltage of the battery cell is equal to or less than a charging prohibition voltage in a case in which it is judged that the acquired potential is the potential of the first or second fixed potential supply source. 2. The monitoring method according to claim 1 , wherein the determining that the voltage of the battery cell is equal to or less than the charging prohibition voltage further comprises prohibiting charging of the battery cell. 3. A monitoring method for determining necessity of charging prohibition, comprising: setting a number of output signals from comparator circuits corresponding to a charging prohibition voltage at a semiconductor circuit having a plurality of comparator circuits; performing, with respect to each battery cell in a plurality of battery cells, processing that acquires an output signal that is output from an output signal line of a comparator circuit from among the comparator circuits, the comparator circuit comprising a switching element that is disposed between a positive electrode of a battery cell from among the plurality of battery cells and a fixed potential supply source, that has a control terminal connected to a negative electrode of the battery cell, and that operates in response to a voltage applied from the battery cell to the control terminal, a voltage regulating unit that is disposed between the battery cell and the switching element and that regulates the voltage applied from the battery cell to the switching element, and the output signal line, which outputs a potential between the switching element and the fixed potential supply source as the output signal; acquiring a number of output signals in which the acquired output signal indicates the potential of the fixed potential supply source; and determining, if the acquired number of output signals in which the acquired output signal indicates the potential of the fixed potential supply source exceeds the set number of output signals, that the voltage of the battery cell is equal to or less than the charging prohibition voltage. 4. The monitoring method according to claim 3 , wherein the determining that the voltage of the battery cell is equal to or less than the charging prohibition voltage further comprises prohibiting charging of the battery cell. 5. A non-transitory computer-readable medium in which is stored a program for causing a computer to execute monitoring of processing for determining necessity of charging prohibition, the monitoring comprising: acquiring a potential that is output from an output signal line of a comparator circuit, the comparator circuit comprising a first outer terminal connected to a positive electrode of a battery cell, a second outer terminal connected to a negative electrode of the battery cell, a switching element having (i) a first terminal to which a voltage applied to the first outer terminal is directly applied, (ii) a second terminal connected to a first fixed potential supply source, and (iii) a control terminal that controls conduction between the first terminal and the second terminal in response to an applied voltage, a voltage regulating unit that has one end connected to the second outer terminal and another end connected to the control terminal and to a second fixed potential supply source, and that regulates the voltage applied from the second outer terminal to the switching element, and the output signal line connected to a connecting portion of the second terminal and the first fixed potential supply source; judging whether or not the acquired potential is a potential of the first or second fixed potential supply source; and determining that a voltage of the battery cell is equal to or less than a charging prohibition voltage in a case in which it is judged that the acquired potential is the potential of the first or second fixed potential supply source. 6. A non-transitory computer-readable medium in which is stored a program for causing a computer to execute monitoring of processing for determining necessity of charging prohibition, the monitoring comprising: setting a number of output signals from comparator circuits corresponding to a charging prohibition voltage at a semiconductor circuit having a plurality of comparator circuits; performing, with respect to each battery cell in a plurality of battery cells, processing that acquires an output signal that is output from an output signal line of a comparator circuit from among the comparator circuits, the comparator circuit comprising a switching element that is disposed between a positive electrode of a battery cell from among the plurality of battery cells and a fixed potential supply source, that has a control terminal connected to a negative electrode of the battery cell, and that operates in response to a voltage applied from the battery cell to the control terminal, a voltage regulating unit that is disposed between the battery cell and the switching element and that regulates the voltage applied from the battery cell to the switching element, and the output signal line, which outputs a potential between the switching element and the fixed potential supply source as the output signal; acquiring a number of output signals in which the acquired output signal indicates the potential of the fixed potential supply source; and determining, if the acquired number of output signals in which the acquired output signal indicates the potential of the fixed potential supply source exceeds the set number of output signals, that the voltage of the battery cell is equal to or less than the charging prohibition voltage.