Balancing apparatuses for balancing cells included in batteries and battery modules

What is claimed is: 1. An apparatus for performing balancing on a plurality of cells connected in series and included in a module, the apparatus comprising: a first switching unit including first cell selection switches respectively connected to cells of the plurality of cells, and configured to connect a first cell to be balanced to a balancing unit; a second switching unit including second cell selection switches respectively connected to cells of the plurality of cells, and configured to connect a second cell to be balanced to the balancing unit; a controller configured to measure voltages of each of the plurality of cells, and controlling operations of the first switching unit, the second switching unit, and the balancing unit based on information on the first and second cells, wherein the first and second cells are selected by the controller by using the measured voltages; and the balancing unit, connected to the first switching unit and the second switching unit, and configured to perform balancing between the first cell and the second cell that are selected by the controller; wherein the balancing unit comprises at least one forward converter which includes bidirectional switches configured to control currents flowing between the first switching unit, the second switching unit, and multiple wound transformers, and wherein a capacitor included in one of the bidirectional switches and an inductor included in one of the multiple wound transformers are configured to have a voltage between both ends of the one of the bidirectional switches or a current flowing through the one of the bidirectional switches having a minimum value when the one of the bidirectional switches is turned on or off. 2. The apparatus according to claim 1 , wherein a number of the plurality of cells is N, and the balancing unit includes at least one but no more than N forward converters. 3. The apparatus according to claim 2 , wherein the bidirectional switches are connected to the first switching unit and the second switching unit, and wherein each of the forward converters comprises: the multiple wound transformers connected to the bidirectional switches, and configured to transfer the energy between the first cell and the second cell; and a reset circuit connected to both ends of the module, and including a mutual inductor correlated with the multiple wound transformers and a diode. 4. The apparatus according to claim 1 , wherein each of the multiple wound transformers comprises two mutual inductors having a same number of windings. 5. The apparatus according to claim 1 , wherein each of the at least one forward converters is configured to allow the capacitor included in the one of the bidirectional switches and the inductor included in the one of the multiple wound transformers to form resonance. 6. The apparatus according to claim 1 , wherein the first cell and the second cell respectively have highest and lowest voltages from among the plurality of cells. 7. The apparatus according to claim 1 , wherein the controller is configured to control the first switching unit, the second switching unit, and the balancing unit to turn on the first and second cell selection switches respectively connected to the first and second cells and, then, repeatedly turn on and turn off the bidirectional switches in the balancing unit so as to perform the balancing, and to turn off the first and second cell selection switches respectively connected to the first and second cells after turning off the bidirectional switches so as to complete the balancing. 8. The apparatus according to claim 1 , wherein when the balancing unit comprises M forward converters, the M forward converters are connected in parallel, a first forward converter performs the balancing between a cell having a highest voltage and a cell having a lowest voltage of the plurality of cells, and a K-th forward converter performs the balancing between a cell having a K-th highest voltage and a cell having a K-th lowest voltage of the plurality of cells, where M is an integer greater than or equal to 2 but no more than a number of the plurality of cells, and K is an integer greater than or equal to 2 and less than or equal to M. 9. An apparatus for performing balancing on a plurality of cells connected in series and included in a module, the apparatus comprising: two or more balancing sets performing the balancing in parallel on cells in groups of cells into which the plurality of cells are divided; wherein each of the two or more balancing sets comprises: a first switching unit including first cell selection switches respectively connected to cells included in a first group of cells, and configured to connect a first cell to be balanced, from the first group of cells, to a balancing unit; a second switching unit including second cell selection switches respectively connected to cells included in a second group of cells, and configured to connect a second cell to be balanced, from the second group of cells, to the balancing unit; a controller configured to measure voltages of each of the cells in the first and second groups of cells, and configured to control operations of the first switching unit, the second switching unit, and the balancing unit based on information on the first and second cells, wherein the first and second cells are selected by the controller by using the measured voltages; and the balancing unit, connected to the first and second switching units, and configured to perform balancing between the first and second cells that are selected by the controller; and wherein the balancing unit comprises at least one forward converter which includes bidirectional switches configured to control currents flowing between the first switching unit, the second switching unit, and multiple wound transformers, and wherein a capacitor included in one of the bidirectional switches and an inductor included in one of the multiple wound transformers are configured to have a voltage between both ends of the one of the bidirectional switches or a current flowing through the one of the bidirectional switches having a minimum value when the one of the bidirectional switches is turned on or off. 10. The apparatus according to claim 9 , wherein a number of the cells in each group of cells connected to each of the balancing sets is N, and the balancing unit comprises one or more forward converters and N or fewer forward converters. 11. The apparatus according to claim 10 , wherein the bidirectional switches are connected to the first switching unit and the second switching unit, and wherein each of the forward converters comprises: the multiple wound transformers connected to the bidirectional switches, and configured to transfer the energy between the first cell and the second cell; and a reset circuit connected to both ends of the module, and including a mutual inductor correlated with the multiple wound transformers and a diode. 12. The apparatus according to claim 9 , wherein the multiple wound transformers comprise two mutual inductors having a same number of windings. 13. The apparatus according to claim 9 , wherein each of the at least one forward converters is configured to allow the capacitor included in the one of the bidirectional switches and the inductor included in the one of the multiple wound transformers to form resonance. 14. The apparatus according to claim 9 , wherein the first cell and the second cell respectively have highest and lowest voltages from among the plurality of cells. 15. The apparatus according to claim 9 , wherein the controller is configured to control t