Bidirectional Isolated Ripple Cancel Dual Active Bridge DC-DC Converter

“…Thus, this proposed circuit can be easily applied to bidirectional converters. A bidirectional isolated ripplecancellation converter based on this technique was proposed in [34], and a bidirectional built-in filter converter was proposed in [35]. On the basis of the converters in [34] and [35], converters for three-port and high-voltage applications were proposed in [36] and [37].…”

“…A bidirectional isolated ripplecancellation converter based on this technique was proposed in [34], and a bidirectional built-in filter converter was proposed in [35]. On the basis of the converters in [34] and [35], converters for three-port and high-voltage applications were proposed in [36] and [37]. The converters in [34]- [37] are classified as being in the DAB family.…”

“…On the basis of the converters in [34] and [35], converters for three-port and high-voltage applications were proposed in [36] and [37]. The converters in [34]- [37] are classified as being in the DAB family. However, the SRC-DCX is more suitable for SSTs than DAB, as mentioned above.…”

“…Thus, a ripple-cancellation SRC-DCX converter was proposed in [38]. According to [34]- [38], compared with conventional converters, ripple-cancellation converters do not require an input/output filter and can use a miniaturized EMI filter. In [34], [35], and [38], the operating principles of the ripple-cancellation converter and superiority against EMI are presented.…”

“…According to [34]- [38], compared with conventional converters, ripple-cancellation converters do not require an input/output filter and can use a miniaturized EMI filter. In [34], [35], and [38], the operating principles of the ripple-cancellation converter and superiority against EMI are presented. However, a quantitative analysis of ripple-cancelling characteristics, the dynamics of the proposed converter, and a loss breakdown are not presented in detail.…”

Analysis and Comparison of Series Resonant Converter With Embedded Filters for High Power Density DCX of Solid-State Transformer

“…Thus, this proposed circuit can be easily applied to bidirectional converters. A bidirectional isolated ripplecancellation converter based on this technique was proposed in [34], and a bidirectional built-in filter converter was proposed in [35]. On the basis of the converters in [34] and [35], converters for three-port and high-voltage applications were proposed in [36] and [37].…”

“…A bidirectional isolated ripplecancellation converter based on this technique was proposed in [34], and a bidirectional built-in filter converter was proposed in [35]. On the basis of the converters in [34] and [35], converters for three-port and high-voltage applications were proposed in [36] and [37]. The converters in [34]- [37] are classified as being in the DAB family.…”

“…On the basis of the converters in [34] and [35], converters for three-port and high-voltage applications were proposed in [36] and [37]. The converters in [34]- [37] are classified as being in the DAB family. However, the SRC-DCX is more suitable for SSTs than DAB, as mentioned above.…”

“…Thus, a ripple-cancellation SRC-DCX converter was proposed in [38]. According to [34]- [38], compared with conventional converters, ripple-cancellation converters do not require an input/output filter and can use a miniaturized EMI filter. In [34], [35], and [38], the operating principles of the ripple-cancellation converter and superiority against EMI are presented.…”

“…According to [34]- [38], compared with conventional converters, ripple-cancellation converters do not require an input/output filter and can use a miniaturized EMI filter. In [34], [35], and [38], the operating principles of the ripple-cancellation converter and superiority against EMI are presented. However, a quantitative analysis of ripple-cancelling characteristics, the dynamics of the proposed converter, and a loss breakdown are not presented in detail.…”

Analysis and Comparison of Series Resonant Converter With Embedded Filters for High Power Density DCX of Solid-State Transformer

Electric Power Management and Control in DC Buildings—State-Of-The-Art and Emerging Technologies

Bidirectional Isolated Ripple Cancel Dual Active Bridge Modular Multile vel DC-DC Converter