Driving circuit and method for stepping motor

What is claimed is: 1. A driving circuit for a stepping motor, comprising: a logic circuit structured to switch a state of a full bridge circuit including four transistors connected to a coil of the stepping motor, in accordance with an external clock; and a zero-current detection circuit, wherein when transition is made from an excitation position at which coil current that flows in the coil is nonzero to an excitation position at which the coil current is zero, the logic circuit switches the full bridge circuit connected to the coil to (i) an inverse state where an on or off state of each of the four transistors before the transition is inverted, and then switches the full bridge circuit to (ii) an off state where all the four transistors are off, wherein the zero-current detection circuit structured to assert a zero-current detection signal when the coil current falls below a predetermined threshold value, wherein the response to the assertion of the zero-current detection signal, the logic circuit switches the full bridge circuit from the inverse state to the off state, and wherein the zero-current detection circuit includes a comparator structured to compare a current detection signal corresponding to a voltage drop across a detection resistor provided in the full bridge circuit, with a threshold voltage. 2. The driving circuit according to claim 1 , wherein the driving circuit is monolithically integrated on one semiconductor substrate. 3. Electronic equipment comprising: a stepping motor; and the driving circuit according to claim 1 , the driving circuit being structured to drive the stepping motor. 4. A driving circuit for a stepping motor, comprising: a logic circuit structured to switch a state of a full bridge circuit including four transistors connected to a coil of the stepping motor, in accordance with an external clock; a current-value setting circuit structured to generate a current set value; and a constant-current chopper circuit, wherein when transition is made from a excitation position at which coil current that flows in the coil is nonzero to an excitation position at which the coil current is zero, the logic circuit switches the full bridge circuit connected to the coil to (i) an inverse state where an on or off state of each of the four transistors before the transition is inverted, and then switches the full bridge circuit to (ii) an off state where all the four transistors are off, wherein the constant-current chopper circuit is structured to generate a pulse modulation single pulse-modulated such that a detection value of the coil current comes close to a target amount based on the current set value, and wherein in accordance with the pulse modulation signal, the logic circuit switches the two transistors of one leg of the full bridge circuit. 5. The driving circuit according to claim 4 , wherein the constant-current chopper circuit includes: a comparator structured to compare the detection value of the coil current with a threshold value based on the current set value; an oscillator structured to oscillate at a predetermined frequency; and a flip-flop structured to output the pulse modulation signal that transitions to off-level in accordance with an output of the comparator and transitions to on-level in accordance with an output of the oscillator. 6. Electronic equipment comprising: a stepping motor; and the driving circuit according to claim 4 , the driving circuit being structured to drive the stepping motor. 7. A driving method for a stepping motor, comprising: changing excitation position in accordance with an external clock; controlling a state of a full bridge circuit including four transistors connected to a coil of the stepping motor, in accordance with the excitation position; making a switch to, when transition is made from the excitation position at which coil current that flows in the coil is nonzero to the excitation position at which the coil current is zero, (i) an inverse state where an on or off state of each of the four transistors before the transition is inverted, and then making a switch to (ii) an off state where all the four transistors are off, and asserting a zero-current detection signal when the coil current falls below a predetermined threshold value; and switching the full bridge circuit from the inverse state to the off state in response to the asserting the zero-current detection signal.