Electric power steering apparatus

The invention claimed is: 1. An electric power steering apparatus that driving-controls a 3-phase brushless motor which applies an assist torque to a steering mechanism of a vehicle by using a current command value calculated based on at least a steering torque, and vector-controls said 3-phase brushless motor, via an inverter, by converting dq-axes command values converted from said current command value into 3-phase values, comprising: a dq-axes disturbance observer to compensate respective axes disturbance voltages, which include a dead time of said inverter, for said dq-axes command values, wherein said dq-axes disturbance observer comprises axes observer sections that each of a d-axis and a q-axis includes a motor model, an inverse motor model and a low pass filter, and wherein each of said axes observer sections comprises: a first subtracting section to subtract an axis disturbance estimation voltage from an axis voltage; said motor model to input an axis voltage command value that adds an axis disturbance element to a voltage deviation from said first subtracting section, and output an axis current; said inverse motor model to input said axis current; said low pass filter to input said voltage deviation; and a second subtracting section to subtract an output of said low pass filter from an output of said inverse motor model, and output said axis disturbance estimation voltage. 2. The electric power steering apparatus according to claim 1 , wherein a compensation value of said dq-axes disturbance observer is changeable depending on a power supply voltage of said inverter. 3. The electric power steering apparatus according to claim 1 , wherein an inductance nominal value of said dq-axes disturbance observer is changeable, sensitive to currents of said 3-phase brushless motor. 4. The electric power steering apparatus according to claim 1 , wherein a first spatial vector modulating section to superimpose a third harmonic is disposed at a subsequent stage of said dq-axes disturbance observer. 5. The electric power steering apparatus according to claim 1 , wherein a second spatial vector modulating section to input 3-phase motor currents of said 3-phase brushless motor, convert compensated dq-axes voltage command values from said dq-axes disturbance observer into 3-phase values, superimpose a third harmonic and compensate a dead time of said inverter, is disposed at a subsequent stage of said dq-axes disturbance observer. 6. The electric power steering apparatus according to claim 5 , wherein said second spatial vector modulating section comprises: a 2-phase/3-phase converting section to convert said compensated dq-axes voltage command values into 3-phase values; a third-harmonic superimposition section to superimpose a third harmonic on 3-phase converted voltages, which are outputted from said 2-phase/3-phase converting section, and output harmonic superimposition voltages; a dead time compensating section to output compensated dead time voltages in which said dead time is compensated based on said 3-phase converted voltages and said 3-phase motor currents; and an adding section to add said compensated dead time voltages to said harmonic superimposition voltages, and output said added voltages as 3-phase driving voltage command values. 7. The electric power steering apparatus according to claim 5 , wherein said dq-axes disturbance observer comprises axes observer sections that each of a d-axis and a q-axis includes a motor model, an inverse motor model and a low pass filter. 8. The electric power steering apparatus according to claim 6 , wherein said dq-axes disturbance observer comprises axes observer sections that each of a d-axis and a q-axis includes a motor model, an inverse motor model and a low pass filter. 9. The electric power steering apparatus according to claim 7 , wherein each of said axes observer sections comprises: a first subtracting section to subtract an axis disturbance estimation voltage from an axis voltage; said motor model to input an axis voltage command value that adds an axis disturbance element to a voltage deviation from said first subtracting section, and output an axis current; said inverse motor model to input said axis current; said low pass filter to input said voltage deviation; and a second subtracting section to subtract an output of said low pass filter from an output of said inverse motor model, and output said axis disturbance estimation voltage. 10. The electric power steering apparatus according to claim 8 , wherein each of said axes observer sections comprises: a first subtracting section to subtract an axis disturbance estimation voltage from an axis voltage; said motor model to input an axis voltage command value that adds an axis disturbance element to a voltage deviation from said first subtracting section, and output an axis current; said inverse motor model to input said axis current; said low pass filter to input said voltage deviation; and a second subtracting section to subtract an output of said low pass filter from an output of said inverse motor model, and output said axis disturbance estimation voltage. 11. The electric power steering apparatus according to claim 5 , wherein a compensation value of said dq-axes disturbance observer is changeable depending on a power supply voltage of said inverter. 12. The electric power steering apparatus according to claim 6 , wherein an inductance nominal value of said dq-axes disturbance observer is changeable, sensitive to currents of said 3-phase brushless motor.