Abstract
For pulse width modulation (PWM) inverter drives, an LC filter can cascade to a permanent magnet (PM) machine at inverter output to reduce PWM-reflected current harmonics. Because the LC filter causes resonance, the filter output current and voltage are required for the sensorless field-oriented control (FOC) drive. However, existing sensors and inverters are typically integrated inside commercial closed-form drives; it is not possible for these drives to obtain additional filter output signals. To resolve this integration issue, this paper proposes a sensorless LC filter state estimation using only the drive inside current sensors. The design principle of the LC filter is first introduced to remove PWM current harmonics. A dual-observer is then proposed to estimate the filter output current and voltage for the sensorless FOC drive. Compared to conventional model-based estimation, the proposed dual-observer demonstrates robust estimation performance under parameter error. The capacitor parameter error shows a negligible influence on the proposed observer estimation. The filter inductance error only affects the capacitor current estimation at high speed. The performance of the sensorless FOC drive using the proposed dual-observer is comparable to the same drive using external sensors for filter voltage and current measurement. All experiments are verified by a PM machine with only 130 μH phase inductance.
Highlights
The bus voltage usage is improved at high speed, pulse width modulation (PWM) inverter-reflected current harmonics increase the machine iron loss and cause rotor thermal issues [5,6]
Considering the operation for proposed of the for the proposed senseless drive with an Considering the operation of fieldoriented control (FOC) drive at high speed, the proposed dual-observer is developed in a dq machine rotorthe drive at high speed, the proposed dual-observer is developed in a dq machine referred synchronous frame
This section experimentally verifies the proposed dual-observer estimation on a lowinductance permanent magnet (PM) machine drive with an LC filter
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Considering the filter effect on the drive, several corrections are added to correct flux and torque commands This direct torque control still requires filter output currents to estimate the machine flux. In [21], a sensorless LC filter state estimation using only the closed-form drive inside current sensors is developed; only the preliminary observer topology is illustrated, neglecting various LC filter cross-coupling effects. These coupling issues including the parameter sensitivity on the filter state estimation are fully investigated here. All the tests are verified on a 105 W PM machine with only 130 μH phase inductance
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