Inverter device

What is claimed is: 1 . An inverter device that causes a switching element turned on/off under control of a control circuit to switch an input voltage on/off, applies an excitation current to an excitation winding of a step-up transformer in a period in which the switching element is turned on, and outputs an output voltage with an alternating-current half-wave waveform from an output winding of the step-up transformer in a period in which the switching element is turned off, the inverter device comprising: an input-voltage detecting unit that detects a state of the input voltage, as a voltage; a current detecting unit that converts a current flowing through the switching element into a voltage to detects the current; and a comparing unit that compares a detected current value detected by the current detecting unit with a detected input voltage value detected by the input-voltage detecting unit, and detects a high-current period in which the detected current value exceeds the detected input voltage value, wherein based on information indicating the high-current period detected by the comparing unit, the control circuit adjusts the period in which the switching element is turned on. 2 . The inverter device according to claim 1 , wherein the control circuit adjusts the period in which the switching element is turned on in such a manner that the longer the high-current period is than a reference value, the longer the period in which the switching element is turned on; the shorter the high-current period is than the reference value, the shorter the period in which the switching element is turned on. 3 . An inverter device that causes a switching element turned on/off under control of a control circuit to switch an input voltage on/off, applies an excitation current to an excitation winding of a step-up transformer in a period in which the switching element is turned on, and outputs an output voltage with an alternating-current half-wave waveform from an output winding of the step-up transformer in a period in which the switching element is turned off, the inverter device comprising: an input-voltage detecting unit that detects a state of the input voltage, as a voltage; a current detecting unit that converts a current flowing through the switching element into a voltage to detect the current; a first comparing unit that compares a detected current value detected by the current detecting unit with a detected input voltage value detected by the input-voltage detecting unit, and detects a high-current period in which the detected current value exceeds the detected input voltage value; an output-voltage detecting unit that detects a state of the output voltage, as a voltage corresponding to an instantaneous value thereof; and a second comparing unit that compares a detected input voltage value detected by the input-voltage detecting unit with a detected output voltage value detected by the output-voltage detecting unit, and detects a high-output period in which the detected output voltage value exceeds the detected input voltage value, wherein based on information indicating the high-current period detected by the first comparing unit and information indicating the high-output period detected by the second comparing unit, the control circuit adjusts the period in which the switching element is turned on. 4 . The inverter device according to claim 3 , wherein the control circuit adjusts the period in which the switching element is turned on in such a manner that the longer both the high-current period and the high-output period are than respective reference values, the longer the period in which the switching element is turned on; the shorter both the high-current period and the high-output period are than the respective reference values, the shorter the period in which the switching element is turned on. 5 . The inverter device according to claim 3 , further comprising: a shift unit that shifts the information indicating the high-output period detected by the second comparing unit by a predetermined period so as to correspond to the period in which the switching element is turned on and outputs the shifted information; and an AND unit that performs a logical AND of the information indicating the high-output period shifted by the predetermined period by the shift unit and the information indicating the high-current period detected by the first comparing unit, wherein based on output information of the AND unit, the control circuit adjusts the period in which the switching element is turned on. 6 . The inverter device according to claim 5 , wherein the shift unit is a shift register that acquires the information indicating the high-output period, shifts the information by the predetermined period and, outputs the shifted information in synchronization with a clock signal with a higher frequency than a switching frequency. 7 . The inverter device according to claim 3 , wherein a tertiary winding installed in the step-up transformer generates a voltage with a waveform whose peak value is smaller than the output voltage in synchronization with the output voltage. 8 . The inverter device according to claim 1 , wherein the current detecting unit converts the current flowing through the switching element into a voltage using a current transformer inserted in a path of the current to detect the current. 9 . The inverter device according to claim 1 , wherein the current detecting unit converts the current flowing through the switching element into a voltage using a resistance inserted in a path of the current to detect the current. 10 . The inverter device according to claim 1 , wherein the step-up transformer includes a plurality of transformers which have respective separate cores and the same characteristics, and respective excitation windings of the plurality of transformers are connected in parallel or in series to let an excitation current through the excitation windings at the same time, and respective output windings of the plurality of transformers are connected in parallel or in series to output the output voltage.