This paper proposes a novel approach for mitigating cross-regulation errors in multi-output flyback converters by integrating a balancing capacitor. The approach establishes a low-impedance path between the transformer’s secondary windings, equalizing node voltages and reducing reducing load imbalance effects. Experimental validation on a prototype demonstrates significant mitigation of cross-regulation errors, with the balancing capacitor maintaining a negligible average voltage drop. Results reveal that residual output offsets under unbalanced loads stem primarily from differences in the forward voltages of the rectifying diodes. The analysis is extended to a multi-output flyback topology delivering balanced positive and negative outputs, confirming the method’s applicability to multi-output configurations. These findings underscore the versatility and effectiveness of the proposed strategy for improving cross-regulation in low-power industrial applications.
Improved Cross-Regulation for Multi-Output Flyback Converters / Granello, Pierpaolo; Schirone, Luigi; Pellitteri, Filippo; Caruso, Massimo; Miceli, Rosario. - (2025), pp. 430-435. (Intervento presentato al convegno 2025 International Conference on Clean Electrical Power (ICCEP) tenutosi a Villasimius, Italy) [10.1109/iccep65222.2025.11143756].
Improved Cross-Regulation for Multi-Output Flyback Converters
Granello, Pierpaolo;Schirone, Luigi;Pellitteri, Filippo;Caruso, Massimo;
2025
Abstract
This paper proposes a novel approach for mitigating cross-regulation errors in multi-output flyback converters by integrating a balancing capacitor. The approach establishes a low-impedance path between the transformer’s secondary windings, equalizing node voltages and reducing reducing load imbalance effects. Experimental validation on a prototype demonstrates significant mitigation of cross-regulation errors, with the balancing capacitor maintaining a negligible average voltage drop. Results reveal that residual output offsets under unbalanced loads stem primarily from differences in the forward voltages of the rectifying diodes. The analysis is extended to a multi-output flyback topology delivering balanced positive and negative outputs, confirming the method’s applicability to multi-output configurations. These findings underscore the versatility and effectiveness of the proposed strategy for improving cross-regulation in low-power industrial applications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
