The Three-Carrier Quasi Switched Boost Inverter Control Technique
Copyright policy )The Three-Carrier Quasi Switched Boost Inverter Control Technique
This paper presents a carrier modulation technique to control the three-phase, two-level quasi switched boost inverter. This PWM algorithm uses three carrier waves, the first of which is for the inverter while the others are for the booster. The boost factor depends on the short circuit interval on the DC/DC booster and the inverter. When the short circuit interval on the DC boost is twice that on the inverter, the modulation index can be enlarged. The new algorithm is analyzed, calculated, simulated, and tested. The analysis and calculation results show that the proposed technique can reduce the voltage on the DC link capacitor compared to a conventional approach. It can reach 22.16% when the ratio of the DC source voltage to the effective reference voltage is 0.5. The modulation index can extend to 29% under these conditions and the current ripple in the boost inductor can be reduced by 4.8%. The simulation and experimental results also show similarities, thereby confirming the analysis and calculation.
- Dong A University Viet Nam
- Ho Chi Minh City University of Technology Viet Nam
- Ho Chi Minh City University of Technology and Education Viet Nam
- Lac Hong University Viet Nam
- Ho Chi Minh City University of Technology and Education Viet Nam
Artificial intelligence, Power Electronics and Conversion Systems, PWM Strategies, Control (management), QSBI, carrier PWM, Multilevel Converters, Engineering, Booster (rocketry), FOS: Electrical engineering, electronic engineering, information engineering, Control theory (sociology), three-carrier, Ripple, Inverter, Electrical and Electronic Engineering, Modulation (music), Voltage Source Inverters, Modulation index, Voltage Boosting Techniques, Electronic engineering, Physics, Voltage, Capacitor, Acoustics, Inductor, DC/DC boost, direct boost inverter, Computer science, Aerospace engineering, Control and Systems Engineering, Electrical engineering, Physical Sciences, Pulse-width modulation, Control and Synchronization in Microgrid Systems, Multilevel Converters in Power Electronics
Artificial intelligence, Power Electronics and Conversion Systems, PWM Strategies, Control (management), QSBI, carrier PWM, Multilevel Converters, Engineering, Booster (rocketry), FOS: Electrical engineering, electronic engineering, information engineering, Control theory (sociology), three-carrier, Ripple, Inverter, Electrical and Electronic Engineering, Modulation (music), Voltage Source Inverters, Modulation index, Voltage Boosting Techniques, Electronic engineering, Physics, Voltage, Capacitor, Acoustics, Inductor, DC/DC boost, direct boost inverter, Computer science, Aerospace engineering, Control and Systems Engineering, Electrical engineering, Physical Sciences, Pulse-width modulation, Control and Synchronization in Microgrid Systems, Multilevel Converters in Power Electronics
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