Electromagnetic-valve controller

What is claimed is: 1. An electromagnetic-valve controller comprising: a control switch controlling a connection of an electromagnetic valve and a power; a control portion regulating a supply current supplied to the electromagnetic valve by controlling a drive of the control switch, the control portion controlling to open or close the electromagnetic valve; a current detection portion detecting the supply current, wherein the electromagnetic valve includes a fully open state in a case where the supply current becomes a first predetermined current and a fully closed state in a case where the supply current becomes a second predetermined current that is greater than the first predetermined current, and the control portion controls the drive of the control switch based on a detection result of the current detection portion, controls the drive of the control switch by using a first pulse signal having a duty ratio that is variable, in a closed period that the electromagnetic valve is changed from the fully open state to the fully closed state, and controls the drive of the control switch by using a second pulse signal maintaining the supply current to be constant so as to maintain the electromagnetic valve to be in the fully closed state, in a closed-state maintaining period that the electromagnetic valve is maintained to be in the fully closed state, wherein the control portion establishes a second predetermined time period that is necessary for the electromagnetic valve to be changed from the fully open state to the fully closed state, when the control portion determines that the supply current has not reached the second predetermined current after the second predetermined time period has elapsed since a time point that the first pulse signal is outputted to the control switch, the control portion changes the duty ratio of the first pulse signal so as to increase an amperage of the supply current. 2. The electromagnetic-valve controller according to claim 1 , wherein when the control portion determines that the supply current has not reached the second predetermined current after the second predetermined time period has elapsed since a time point that the first pulse signal is outputted to the control switch, the control portion changes the duty ratio of the first pulse signal to be equal to 100%. 3. The electromagnetic-valve controller according to claim 1 , wherein the control portion establishes a first constant-current threshold and a second constant-current threshold which are used for maintaining the electromagnetic valve to be in the fully closed state, the second constant-current threshold is greater than the first constant-current threshold, the second pulse signal includes a voltage level having a first level and a second level which are different from each other, when the voltage level of the second pulse signal is equal to the first level, the control switch is in a non-driving state, when the voltage level of the second pulse signal is equal to the second level, the control switch is in a driving state, and the control portion controls a time-average value of the supply current to be constant, by (i) outputting the voltage level of the second pulse signal that is equal to the second level when the supply current becomes less than the first constant-current threshold in the closed-state maintaining period, and (ii) outputting the voltage level of the second pulse signal that is equal to the first level when the supply current becomes greater than the second constant-current threshold in the closed-state maintaining period. 4. The electromagnetic-valve controller according to claim 3 , wherein the control portion sets at least one of a pulse width of the second pulse signal or a pulse period of the second pulse signal, based on a time change of the supply current. 5. The electromagnetic-valve controller according to claim 4 , wherein both the first constant-current threshold and the second constant-current threshold are less than the second predetermined current. 6. The electromagnetic-valve controller according to claim 1 , wherein the supply current maintaining the electromagnetic valve to be in the fully closed state includes a first supply current and a second supply current that is less than the first supply current, the control portion outputs the second pulse signal corresponding to the first supply current and the second pulse signal corresponding to the second supply current, the control portion controls the drive of the control switch by using the second pulse signal corresponding to the first supply current, in a start of the closed-state maintaining period, and the control portion controls the drive of the control switch by using the second pulse signal corresponding to the second supply current, after a first predetermined time period has elapsed since the start of the closed-state maintaining period. 7. The electromagnetic-valve controller according to claim 1 , wherein the duty ratio of the first pulse signal is greater than or equal to 50%.