DC-DC converter

The invention claimed is: 1. A DC-DC converter that increases or decreases an input voltage supplied from an input power source, and generates an output voltage having a constant voltage level, the DC-DC converter comprising: a coil; a voltage decreasing switch that is disposed between the input power source and one end of the coil; a first output terminal that outputs the output voltage; and a second output terminal that has a potential fixed at a reference potential; a voltage increasing switch that is disposed between the second output terminal and the other end of the coil; and a control unit that keeps the output voltage at the constant voltage level irrespective of variation in the input voltage by controlling an on-state and an off state of each of the voltage decreasing switch and the voltage increasing switch, wherein: the control unit performs a voltage increasing operation for increasing the input voltage or a first voltage increasing and decreasing operation having a voltage increase amount of the input voltage smaller than the voltage increasing operation; the control unit performs a voltage decreasing operation for decreasing the input voltage or a second voltage increasing and decreasing operation having a voltage decrease amount of the input voltage smaller than the voltage decreasing operation; in the voltage increasing operation, the control unit always controls the voltage decreasing switch to be in the on-state, and controls the voltage increasing switch to switch periodically between the on-state and the off-state; in the voltage decreasing operation, the control unit controls the voltage decreasing switch to switch periodically between the on-state and the off-state, and always controls the voltage increasing switch to be in the off-state; in each of the first voltage increasing and decreasing operation and the second voltage increasing and decreasing operation, the control unit controls the voltage decreasing switch and the voltage increasing switch to switch with a same period at a different duty ratio between the on-state and the off-state; when switching from the voltage increasing operation to the first voltage increasing and decreasing operation, the control unit increases an on-state time per one period in the voltage increasing switch at a beginning of the first voltage increasing and decreasing operation to be longer than an end of the voltage increasing operation so as to inhibit the output voltage from undershooting; when switching from the second voltage increasing and decreasing operation to the voltage decreasing operation, the control unit decreases an off-state time per one period in the voltage decreasing switch at a beginning of the voltage decreasing operation to be shorter than an end of the second voltage increasing and decreasing operation so as to inhibit the output voltage from undershooting; when switching from the voltage decreasing operation to the second voltage increasing and decreasing operation, the control unit increases the off-state time in the voltage decreasing switch at a beginning of the second voltage increasing and decreasing operation to be longer than an end of the voltage decreasing operation so as to inhibit the output voltage from overshooting; and when switching from the first voltage increasing and decreasing operation to the voltage increasing operation, the control unit decreases the on-state time in the voltage increasing switch at a beginning of the voltage increasing operation to be shorter than an end of the first voltage increasing and decreasing operation so as to inhibit the output voltage from overshooting. 2. The DC-DC converter according to claim 1 , wherein: when the output voltage is lower than a target voltage having the constant voltage level in the voltage increasing operation, the control unit gradually increases the on-state time in the voltage increasing switch so as to increase the input voltage. 3. The DC-DC converter according to claim 1 , wherein: when the output voltage is lower than a target voltage having the constant voltage level in the first voltage increasing and decreasing operation, the control unit gradually increases the on-state time in the voltage increasing switch so as to increase the input voltage. 4. The DC-DC converter according to claim 3 , wherein: in the first voltage increasing and decreasing operation, the control unit fixes the off-state time in the voltage decreasing switch at a predetermined minimum value. 5. The DC-DC converter according to claim 1 , wherein: when the output voltage is higher than a target voltage having the constant voltage level in the second voltage increasing and decreasing operation, the control unit gradually increases the off-state time in the voltage decreasing switch so as to decrease the input voltage. 6. The DC-DC converter according to claim 5 , wherein: in the second voltage increasing and decreasing operation, the control unit fixes the on-state time in the voltage increasing switch at a predetermined minimum value. 7. The DC-DC converter according to claim 1 , wherein: when the output voltage is higher than a target voltage having the constant voltage level in the voltage decreasing operation, the control unit gradually increases the off-state time in the voltage decreasing switch so as to decrease the input voltage.