Title :
Indirect and Direct Force Control of a Two-Phase Tubular Permanent Magnet Machine
Author :
Kremer, Viktor ; Zhu, Zi Qiang ; Howe, Dave
Author_Institution :
Dept. of Electron. & Electr. Eng., Univ. of Sheffield
fDate :
3/1/2007 12:00:00 AM
Abstract :
Vector control and direct torque control are employed extensively in variable-speed ac drive systems, particularly for induction machine drives. This paper describes the application of both control techniques to a two-phase tubular permanent magnet machine supplied from a full H-bridge inverter, with space vector modulation being employed to derive variable-amplitude, variable-frequency, two-phase sinusoidal voltages. The direct force control (DFC) strategy controls the flux and thrust force by means of an active and reactive force estimator, utilizing the concept of active and reactive power. It is demonstrated that compared to vector control, DFC is more effective in compensating for the influence of the cogging force
Keywords :
bridge circuits; force control; induction motor drives; machine vector control; permanent magnet machines; reactive power; variable speed drives; active-reactive power; cogging force; direct torque control; flux control; full H-bridge inverter; indirect-direct force control; induction machine drives; reactive force estimators; space vector modulation; thrust force; two-phase sinusoidal voltages; two-phase tubular permanent magnet machine; variable speed AC drive systems; vector control; Digital-to-frequency converters; Force control; Induction machines; Inverters; Machine vector control; Magnetic modulators; Magnetic variables control; Permanent magnet machines; Torque control; Voltage control; Brushless ac drive; H-bridge inverter; direct force control (DFC); force estimator; permanent magnet (PM); tubular motor; two-phase space vector (SV) modulation;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2006.890012
