This paper presents a novel single-phase multilevel inverter with boosting capabilities. The proposed inverter is powered by a single direct current supply, and it generates a thirteen-level voltage waveform utilizing fourteen switches, one diode, and three capacitors. The suggested inverter eliminates the need for a back-end H-bridge, and hence the voltage stress on all switches is less than the peak load voltage. The proposed topologys topological design, operation, and modulation strategy description are all analyzed in-depth, as is the power losses analysis. A detailed comparison with existing switched capacitor topologies (SCTs) proves the cost-effectiveness and compactness of the proposed topology. The MATLAB/Simulink environment and experimental setup were used to evaluate the effectiveness and feasibility of the proposed design