Position sensorless step-wise freewheeling control method for switched reluctance motor

The invention claimed is: 1. A position sensorless step-wise freewheeling control method for a switched reluctance motor, including a power supply, windings of a switched reluctance motor, and a power converter including a main switch and diodes with an upper tube S 1 and a lower tube S 2 in the power converter of the main switch of a phase in an OFF state and the winding of the phase in the switched reluctance motor in DC negative voltage forced freewheeling state, comprising the steps of: setting a threshold for a winding current of the phase, and detecting the winding current i of the phase; switching on either the lower tube S 2 or the upper tube S 1 in the power converter of the main switch of the phase when the winding current i of the phase drops to a preset threshold, so that the winding of the phase in the switched reluctance motor changes into a zero voltage natural freewheeling state and the winding current i of the phase begins to rise up; and when the rotor position of the switched reluctance motor is a start position b of minimum phase inductance of the phase when the winding current i of the phase rises up to a peak value, acquiring the start position b of minimum phase inductance of the phase, taking the acquired value as the switch-on position θ 1 of the main switch of the phase in the power converter of switched reluctance motor, and switching on the upper tube S 1 and lower tube S 2 of the main switch in the power converter. 2. The method of claim 1 wherein said switching step switches on the lower tube S 2 . 3. The method of claim 1 wherein said switching step switches on the upper tube S 1 . 4. A method of controlling a switched reluctance motor to attain a position sensorless step-wise freewheeling control, the switched reluctance motor including a power supply, windings, and a power converter including a main switch and diodes with an upper tube S 1 and a lower tube S 2 in the power converter of the main switch of a phase in an OFF state and the winding of the phase in the switched reluctance motor in DC negative voltage forced freewheeling state, comprising the steps of: setting a threshold for a winding current of the phase, and detecting the winding current i of the phase; and switching on either the lower tube S 2 or upper tube S 1 in the power converter of the main switch of the phase when the winding current i of the phase drops to a preset threshold, so that the winding of the phase in the switched reluctance motor enters into zero voltage natural freewheeling state and the winding current i of the phase begins to rise up. 5. The method of claim 4 further comprising the step of: acquiring the start position b of minimum phase inductance of the phase when the rotor position of the switched reluctance motor is a start position b of minimum phase inductance of the phase when the winding current i of the phase rises up to a peak value. 6. The method of claim 5 further comprising the step of: taking the acquired value as the switch-on position θ 1 of the main switch of the phase in the power converter of switched reluctance motor, and switching on the upper tube S 1 and lower tube S 2 of the main switch in the power converter. 7. A method of attaining a position sensorless step-wise freewheeling control of a switched reluctance motor including a power supply, windings, and a power converter including a main switch and diodes, an upper tube S 1 and a lower tube S 2 for the main switch of a phase in the power converter being movable between an ON state and an OFF state, comprising the steps of: placing the upper tube S 1 and the lower tube S 2 into the OFF state, whereby the phase of the switched reluctance motor enters into a DC negative voltage forced freewheeling state; setting a threshold for the winding current of the phase; detecting the phase current; and when the winding current i of the phase drops to a preset threshold, switching either the lower tube S 2 or upper tube S 1 into the ON state so that the phase in the switched reluctance motor enters into a zero voltage natural freewheeling state and the phase current begins to rise. 8. The method of claim 7 further comprising the step of: when the winding current i of the phase rises up to a peak value, equating the rotor position of the switched reluctance motor to a start position b of a minimum phase inductance of the phase so that the start position b of minimum phase inductance of the phase becomes an acquired value. 9. The method of claim 8 further comprising the step of: taking the acquired value as the switch-on position θ 1 of the main switch of the phase in the power converter of switched reluctance motor, and moving both the upper tube S 1 and lower tube S 2 of the main switch in the power converter into the ON state. 10. The method of claim 9 wherein said switching step places only the upper tube S 1 into the ON state. 11. The method of claim 9 wherein said switching step places only the lower tube S 2 into the ON state.