Cell equalization is the process of restoring all cells in a rechargeable battery to an equal sate of charge. Even though there has been considerable research effort to control the equalizing process of series-connected Li-ion cells, many improvements can be done in a more practical and efficiency-effective manner to enhance the electrochemical uniformity of the individual cells, to prolong the battery lifetime and to insure safe battery operation in automotive applications. The algorithm development is significantly more involved in order to shorten equalization time in cells capable of generating high power and being charged at constant current of between 4C and 5C rate in the fast charge mode. In this paper, a responsive active equalization with a charge shuttling unit, ultracapacitors, is presented to intelligently control the bidirectional equalization process. This shuttling algorithm can dramatically reduce equalization time up to 30% and it can be effectively achieved for each cell in the strings during fast charge mode. A prototype of twelve high power Li-ion cells with two most notable connections is implemented. Both the simulation and experimental results show that, the proposed algorithm demonstrates high capability of energy redistribution in fast charge conditions, together with state of charge determination.