Modulation Strategy and Controller for Grid-Tied Trinary Hybrid Multilevel Inverter

“…where v ek = 2 k−1 v e [24,25], having a maximum voltage level of (2 N − 1)v e producing 2 N +1 − 1 levels, and Trinary Hybrid Multilevel Inverter (THMI), where v ek = 3 k−1 v e with a v smax = 1 2 (3 N − 1)v e and 3 N levels [26][27][28][29]. It can be inferred that one advantage of having different input voltages on the input sources is to produce more levels per FB [23].…”

“…THMI is the topology that produces the most levels, l, per number of FBs, N, as [29,30] demonstrates. References [26,27,29] explain in more detail the principle of THMI. Knowing that each FB can generate 3 levels, Fig.…”

“…There exist many modulation strategies for Multicellular Converters [14,27,31,32], especially for Multilevel Inverters. This section explains the most relevant strategies and the ones used in this research.…”

“…All these modulation strategies are suitable for symmetric MCCs and are not adequate for asymmetric inverters such as THMI. References [26,27,36] propose modulation strategies for asymmetric inverter topologies.…”

“…In MCCs there are many objectives to achieve, as balancing the cell-variable (CV), regulating a global variable (GV), having fault tolerance ability, minimizing or equalizing the step voltage size in asymmetric inverters, suitable start-up, etc. In some cases, these objectives are achieved with a right modulation strategy such as happen in [26,27], where generating a piece-wise function for each switching device, the equalized step size is achieved in a THMI. In other cases, as in a Flying-Capacitor Multilevel Converter, adding some extra circuits in the hardware [47] balances the cell-variables and also produces a soft start-up.…”

Estrategias descentralizadas y adaptativas para la eliminación selectiva de armónicos en el control de convertidores multinivel

“…where v ek = 2 k−1 v e [24,25], having a maximum voltage level of (2 N − 1)v e producing 2 N +1 − 1 levels, and Trinary Hybrid Multilevel Inverter (THMI), where v ek = 3 k−1 v e with a v smax = 1 2 (3 N − 1)v e and 3 N levels [26][27][28][29]. It can be inferred that one advantage of having different input voltages on the input sources is to produce more levels per FB [23].…”

“…THMI is the topology that produces the most levels, l, per number of FBs, N, as [29,30] demonstrates. References [26,27,29] explain in more detail the principle of THMI. Knowing that each FB can generate 3 levels, Fig.…”

“…There exist many modulation strategies for Multicellular Converters [14,27,31,32], especially for Multilevel Inverters. This section explains the most relevant strategies and the ones used in this research.…”

“…All these modulation strategies are suitable for symmetric MCCs and are not adequate for asymmetric inverters such as THMI. References [26,27,36] propose modulation strategies for asymmetric inverter topologies.…”

“…In MCCs there are many objectives to achieve, as balancing the cell-variable (CV), regulating a global variable (GV), having fault tolerance ability, minimizing or equalizing the step voltage size in asymmetric inverters, suitable start-up, etc. In some cases, these objectives are achieved with a right modulation strategy such as happen in [26,27], where generating a piece-wise function for each switching device, the equalized step size is achieved in a THMI. In other cases, as in a Flying-Capacitor Multilevel Converter, adding some extra circuits in the hardware [47] balances the cell-variables and also produces a soft start-up.…”

Estrategias descentralizadas y adaptativas para la eliminación selectiva de armónicos en el control de convertidores multinivel

Bibliography analysis of Multilevel Inverters (2021-2022)

Cascaded Multi-Level Inverter with APOD Based PV System for Induction Motor using DTFC Control