Thesis Samer Saleh Hakami, "Torque Ripple Reduction and Flux-droop Minimization of DTC with Improved Interleaving CSFTC of IM fed by Threelevel NPC Inverter," 아주대학교 공학석사 학위 논문, 2020.
2020
본문
Among advanced AC motor control techniques is direct torque control (DTC), which is known for its fast decoupled control of both
torque and flux. This great feature owning to its basic control structure that needs only three main components; torque and flux
hysteresis, switching table and torque and flux calculation block. Therefore, unlike field oriented control (FOC), it does not require
any modulation function or reference frame transformation. However, when the DTC technique is used to drive an induction motor
(IM), there is a number of drawbacks including large torque and flux ripples, variable switching frequency for the inverter, and drop
of the stator flux especially when the IM operates in the low-speed region. These problems are associated with the usage of the
torque hysteresis controller (THC). To reduce the torque and flux ripples, the basic two-level inverter needs to be replaced by high
level inverter and among these multilevel inverter is the well know threelevel neutral-point clamped (NPC) inverter. In the case of
having low and variable switching frequency for the inverter will create high torque and flux ripples. In addition, the issue related
with unregulated stator flux coming about because of running the IM in the lowspeed region creates high stator current distortion
that thus debases the heartiness of the traditional DTC. To consider a solution for these issues, interleaving constant switching
frequency torque controller based DTC (CSFTC-DTC) was executed. The interleaving CSFTC-DTC was intended to build the duration
of the applied dynamic voltage vector and shorten the length of the applied zero vectors to improve the operation of the IM drives
particularly in the low-speed region. Despite the fact that the conventional interleaving CSFTC-DTC takes care of the issue of the
unregulated stator flux decreases the total harmonics distortion (THD) of the stator current, it delivers enormous torque and flux
ripples—the primary drawback of traditional DTC. In this thesis, modified 5-level interleaving CSFTC-DTC is proposed to shorten the
duration of the applied vectors of the three-level NPC inverter to restrain the impact of the enormous duration of the applied vectors on stator flux and torque ripples. The simulation and implementation results introduced approve the adequacy of the proposed method over the conventional interleaving CSFTC-DTC.
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