Patent ID: 7595969

Claim:
An undervoltage warning circuit comprising: a first comparing circuit having two input units in order to execute a first comparison step; a first input circuit for inputting a voltage corresponding to a variation of an output voltage to one of the input units of the first comparing circuit and inputting the first undervoltage set value to the other input unit, wherein the first input circuit is a circuit for inputting the output voltage or a divided voltage of the output voltage to one of the input units of the first comparing circuit and inputting a constant voltage to the other input unit; a second comparing circuit having two input units in order to execute the second comparison step; a second input circuit for inputting a voltage corresponding to a variation of the output voltage to one of the input units of the second comparing circuit and inputting the second undervoltage set value that follows up the output voltage with a time lag to the other input unit wherein the second input circuit is a circuit for inputting the output voltage or a divided voltage of the output voltage to one of the input units of the second comparing circuit and inputting a charging voltage of a capacitor for charging the output voltage via a resistance to the other input unit; and wherein the first comparing circuit compares the output voltage to the first undervoltage set value to thereby output a result of the comparison so that the first LED element is turned on when the output voltage is at most the first undervoltage set value, the first transistor is conducted when the output voltage is at least the first undervoltage set value, and the first transistor is non-conducted when the output voltage is at most the first undervoltage set value, and the second comparing circuit compares the output voltage to the second undervoltage set value to thereby output a result of the comparison so that the second LED element is turned on when the output voltage is at most the second undervoltage set value, the second transistor is conducted when the output voltage is at least the second undervoltage set value, and the second transistor is non-conducted when the output voltage is at most the second undervoltage set value.