The main aim of this paper is to improve the performance of high current dual active bridge converters when operated over a wide voltage range. A typical application is for fuel cell vehicles where a bi-directional interface between a 12V battery and a high voltage DC bus is required. The battery side voltage ranges from 11V to 16V while the fuel cell is operated between 220V and 447V and the required power is typically 1kW. Careful analysis shows that the high currents on the battery side cause significant design issues in order to obtain a high efficiency. The standard phase shift modulation method can result in high conduction and switching losses. This paper proposes a combined triangular and trapezoidal modulation method to reduce losses over the wide operating range. Approximately, a 2% improvement in efficiency can be expected. An experimental system is used to verify the improved performance of the dual active bridge using the proposed advanced modulation method.
[1]
Nikolaus Schibli.
Symmetrical multilevel converters with two quadrant DC-DC feeding
,
2000
.
[2]
D. J. Adams,et al.
Experimental evaluation of a soft-switching DC/DC converter for fuel cell vehicle applications
,
2002,
Power Electronics in Transportation, 2002.
[3]
D.M. Divan,et al.
Performance characterization of a high power dual active bridge DC/DC converter
,
1990,
Conference Record of the 1990 IEEE Industry Applications Society Annual Meeting.
[4]
J Gowar,et al.
Power MOSFETs: Theory and Applications
,
1989
.
[5]
R.W. De Doncker,et al.
High-power galvanically isolated DC/DC converter topology for future automobiles
,
2003,
IEEE 34th Annual Conference on Power Electronics Specialist, 2003. PESC '03..