Lighting circuit and lamp system

What is claimed is: 1 . A lighting circuit for turning on or off a semiconductor light source in accordance with a turning-on/off instruction signal from a processor, the lighting circuit comprising: a pulse input determining circuit that receives, from the processor, the turning-on/off instruction signal which is in pulse form in commanding turning-on and which is at a constant level in commanding turning-off, determines as to whether or not the turning-on/off instruction signal is in a turn-on state in which the turning-on/off instruction signal is in pulse form, and generates a determination signal which is asserted if the turning-on/off instruction signal is in pulse form; and a drive circuit that supplies the semiconductor light source with a drive current if the determination signal is asserted, and does not supply the semiconductor light source with the drive current if the determination signal is negated. 2 . The lighting circuit according to claim 1 , wherein the pulse input determining circuit comprises a capacitor, a charging/discharging circuit that charges the capacitor or causes the capacitor to discharge in response to detection of an edge of the turning-on/off instruction signal, and causes the capacitor to discharge or charges the capacitor if no edge of the turning-on/off instruction signal is detected, and a determination section that determines as to whether the turning-on/off instruction signal indicates turning-on or turning-off, based on a result of comparison between a voltage of the capacitor and a predetermined threshold voltage. 3 . The lighting circuit according to claim 2 , wherein the charging/discharging circuit comprises an edge detection circuit that detects the edge of the turning-on/off instruction signal, a current source that supplies a current to the capacitor in accordance with an output of the edge detection circuit, a discharge path through which the capacitor discharges, and a comparison transistor that receives the voltage of the capacitor at a control terminal thereof. 4 . The lighting circuit according to claim 1 , wherein the pulse input determining circuit comprises a retriggerable monostable multivibrator that receives, at a trigger input terminal thereof, a trigger signal corresponding to the turning-on/off instruction signal. 5 . The lighting circuit according to claim 1 , wherein the pulse input determining circuit comprises an edge detection circuit that detects an edge of the turning-on/off instruction signal, a non-retriggerable monostable multivibrator that receives, at a trigger input terminal thereof, a trigger signal corresponding to an output of the edge detection circuit, and a low-pass filter that is disposed downstream of the non-retriggerable monostable multivibrator. 6 . The lighting circuit according to claim 1 , wherein the pulse input determining circuit comprises a capacitor, a charging/discharging circuit that charges the capacitor when the turning-on/off instruction signal is at a first level, and causes the capacitor to discharge when the turning-on/off instruction signal is at a second level, a charging rate and a discharge rate being defined so that a voltage of the capacitor is between a first voltage) and a second voltage) when the turning-on/off instruction signal is in pulse form, and a determination section that compares the voltage of the capacitor with the first voltage) and the second voltage), and determines as to whether the turning-on/off instruction signal indicates turning-on or turning-off, based on a result of the comparison. 7 . A lamp system comprising: a right lamp; and a left lamp, wherein each of the right and left lamps comprises a semiconductor light source, a lamp ECU that generates a turning-on/off instruction signal for commanding turning-on or turning off of the semiconductor light source, and a lighting circuit that supplies a current to the semiconductor light source, the lighting circuit of the right lamp turns on the semiconductor light source of the right lamp if both of the turning-on/off instruction signal generated by the lamp ECU of the right lamp and the turning-on/off instruction signal generated by the lamp ECU of the left lamp command turning-on, and the lighting circuit of the left lamp turns on the semiconductor light source of the left lamp if both of the turning-on/off instruction signal generated by the lamp ECU of the left lamp and the turning-on/off instruction signal generated by the lamp ECU of the right lamp command turning-on.