A dual inverter bridge is used to feed a 3-phase induction motor with open-end stator windings. The dual inverter is composed of a primary bridge connected to the power source and a secondary bridge with a floating capacitor. While the primary bridge operates at unity power factor, the secondary inverter produces the reactive power and boosts the voltage applied to the stator phases of the machine. As a result, the constant-power speed range of the induction machine increases in proportion to the secondary DC-link voltage. Another feature is that the primary inverter can operate in the overmodulation range without reducing the quality of the stator currents due to the compensating action of the secondary inverter. Experimental results show that the output power rises by about 10% in the field weakening speed region.
Open-End Winding Induction Motor Drive with a Floating Capacitor Bridge and Overmodulation of the Primary Inverter / Amerise, Albino; Mengoni, Michele; Rizzoli, Gabriele; Zarri, Luca; Tani, Angelo; Serra, Giovanni. - ELETTRONICO. - (2018), pp. 8558083.2394-8558083.2400. (Intervento presentato al convegno 10th Annual IEEE Energy Conversion Congress and Exposition, ECCE 2018 tenutosi a usa nel 2018) [10.1109/ECCE.2018.8558083].
Open-End Winding Induction Motor Drive with a Floating Capacitor Bridge and Overmodulation of the Primary Inverter
Amerise, Albino;Mengoni, Michele;Rizzoli, Gabriele;Zarri, Luca;Tani, Angelo;Serra, Giovanni
2018
Abstract
A dual inverter bridge is used to feed a 3-phase induction motor with open-end stator windings. The dual inverter is composed of a primary bridge connected to the power source and a secondary bridge with a floating capacitor. While the primary bridge operates at unity power factor, the secondary inverter produces the reactive power and boosts the voltage applied to the stator phases of the machine. As a result, the constant-power speed range of the induction machine increases in proportion to the secondary DC-link voltage. Another feature is that the primary inverter can operate in the overmodulation range without reducing the quality of the stator currents due to the compensating action of the secondary inverter. Experimental results show that the output power rises by about 10% in the field weakening speed region.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
