Alejandro Oliva scite author profile

A switching control strategy to control the power flow and minimize the total power losses of the dual active bridge converter topology is proposed in this paper. The control strategy consists of driving the bridge with the largest dc voltage to generate a three-level pulsewidth-modulated (PWM) voltage waveform. This PWM is ruled by two manipulated variables: the phase shift between the primary and secondary transformer voltages and the modulation index. These variables are calculated using an algorithm that is deduced on the basis of particular calculation and analysis of converter losses, which are also presented in this paper. An experimental prototype was implemented to validate the theoretical analysis and feasibility of the proposal. The experimental results revealed that the overall efficiency of this converter can be improved up to 10% using the control strategy instead of the conventional one.

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Nonlinear MPC for the airflow in a PEM fuel cell using a Volterra series model

Gruber

Bordons

Oliva

2012

Control Engineering Practice

110

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Extending the ZVS operating range of dual active bridge high-power DC-DC converters

et al. 2006

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Alejandro Oliva

Modulation strategy to operate the dual active bridge DC-DC converter under soft switching in the whole operating range

Switching Control Strategy to Minimize Dual Active Bridge Converter Losses

Nonlinear MPC for the airflow in a PEM fuel cell using a Volterra series model

Extending the ZVS operating range of dual active bridge high-power DC-DC converters

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