Title :
A Single DC-Source Seven-Level Inverter for Utility Equipment of Metro Railway, Power-Land Substations
Author :
Araujo-Vargas, Ismael ; Cano-Pulido, Kevin ; Ramirez-Hernandez, Jazmin ; Mondragon-Escamilla, Nancy ; Nicolas-Villalva, Caren-Ivet ; Villarruel-Parra, Alejandro ; Cortes-Rodriguez, Domingo-de-Jesus ; Perez-Pinal, Francisco-Javier
Author_Institution :
Super. Sch. of Mech. & Electr. Eng., Nat. Polytech. Inst., Mexico City, Mexico
Abstract :
This paper presents an unusual topology of a medium-power seven-level inverter that utilizes a single dc source and a three-phase transformer to generate high-performance seven-level voltage waveforms without complex cascade H-bridges with isolated dc supplies or neutral-point-clamped circuits with capacitor balancing techniques. In contrast to typical topologies of multilevel inverters, the control strategy of the presented circuit facilitates its implementation on a simple 16-bit microcontroller, such that the proposed inverter is operated under a space vector mode. The principle of operation of the seven-level inverter is analyzed, using idealized waveforms for easy and straight implementation together with a description of its practical development, showing experimental results obtained with a 1-kW prototype.
Keywords :
invertors; microcontrollers; power transformers; railway electrification; substations; DC-source seven-level inverter; capacitor balancing techniques; medium-power seven-level inverter; metro railway; microcontroller; multilevel inverters; neutral-point-clamped circuits; power 1 kW; power-land substations; seven-level voltage waveforms; space vector mode; storage capacity 16 bit; three-phase transformer; utility equipment; Bridge circuits; Capacitors; Harmonic analysis; Inverters; Rail transportation; Vectors; Voltage control; Seven-level inverter; space vector modulation (SVM); three-phase transformer;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2014.2312538
