DC/DC converter

What is claimed is: 1. A DC/DC converter comprising: a plurality of switching elements; a reactor; a low-voltage side capacitor; a high-voltage side capacitor; a charge-discharge capacitor; and a controller which drives and controls the switching elements; wherein the plurality of switching elements include a first switching element having a first terminal connected to a negative pole of the low-voltage side capacitor; a second switching element having a first terminal connected to a second terminal of the first switching element, and a second terminal connected to a positive pole of the low-voltage side capacitor via the reactor; a third switching element having a first terminal connected to the second terminal of the second switching element; and a fourth switching element having a first terminal connected to a second terminal of the third switching element, and a second terminal is connected to a positive pole of the high-voltage side capacitor; wherein the charge-discharge capacitor is connected between a connection point of the first switching element and the second switching element and a connection point of the third switching element and the fourth switching element; and wherein the controller performs soft start control in which a duty ratio of only some of the plurality of switching elements is gradually varied from 0% to 100%, and the other ones of the plurality of switching elements, in which the soft start control is not performed during a term of the soft start control, are turned off, whereby a both-end voltage of the low-voltage side capacitor is made equal to a both-end voltage of the charge-discharge capacitor, or the both-end voltage of the low-voltage side capacitor is made equal to a both-end voltage of the high-voltage side capacitor. 2. The DC/DC converter as recited in claim 1 , wherein the controller performs the soft start control of the some of the plurality of switching elements in accordance with a predetermined switching pattern. 3. The DC/DC converter as recited in claim 1 , wherein the controller performs the soft start control in a state where a frequency is higher than a frequency at a normal operation. 4. The DC/DC converter as recited in claim 1 , wherein the controller performs the soft start control of the first switching element. 5. The DC/DC converter as recited in claim 4 , wherein the controller performs the soft start control of the third switching element and the fourth switching element after a first soft start control is terminated. 6. The DC/DC converter as recited in claim 5 , wherein the controller sets a phase difference of gate signals of two switching elements of the plurality of switching elements, in which the soft start control is performed, as 180°. 7. The DC/DC converter as recited in claim 1 , wherein the controller performs the soft start control of the third switching element. 8. The DC/DC converter as recited in claim 7 , wherein the controller performs the soft start control of the third switching element and the fourth switching element after a first soft start control is terminated. 9. The DC/DC converter as recited in claim 8 , wherein the controller sets a phase difference of gate signals of two switching elements of the plurality of switching elements, in which the soft start control is performed, as 180°. 10. The DC/DC converter as recited in claim 1 , wherein the controller performs the soft start control of the first switching element and the third switching element. 11. The DC/DC converter as recited in claim 10 , wherein the controller performs the soft start control of the third switching element and the fourth switching element after a first soft start control is terminated. 12. The DC/DC converter as recited in claim 11 , wherein the controller sets a phase difference of gate signals of two switching elements of the plurality of switching elements, in which the soft start control is performed, as 180°. 13. The DC/DC converter as recited in claim 1 , wherein the controller performs the soft start control of the third switching element and the fourth switching element. 14. The DC/DC converter as recited in claim 13 , wherein the controller sets a phase difference of gate signals of two switching elements of the plurality of switching elements, in which the soft start control is performed, as 180°. 15. The DC/DC converter as recited in claim 1 , wherein a first voltage sensor, which measures a both-end voltage V 1 of the low-voltage side capacitor, a second voltage sensor, which measures a both-end voltage V 2 of the high-voltage side capacitor, and third voltage sensor, which measures a both-end voltage V 0 of the charge-discharge capacitor, are provided, and the controller performs the soft start control of the some of the plurality of switching elements in accordance with a predetermined switching pattern. 16. The DC/DC converter as recited in claim 15 , wherein the controller determines whether the soft start control is performed or is not performed based on detection values of the first voltage sensor, the second voltage sensor, and the third voltage sensor. 17. The DC/DC converter as recited in claim 1 , wherein a first voltage sensor, which measures a both-end voltage V 1 of the low-voltage side capacitor, a second voltage sensor, which measures a both-end voltage V 2 of the high-voltage side capacitor, and third voltage sensor, which measures a both-end voltage V 0 of the charge-discharge capacitor, are provided, and the controller performs the soft start control of the some of the plurality of switching elements in accordance with a switching pattern which is determined based on detection values of the first voltage sensor, the second voltage sensor, and the third voltage sensor. 18. The DC/DC converter as recited in claim 17 , wherein the controller determines whether the soft start control is performed or is not performed based on detection values of the first voltage sensor, the second voltage sensor, and the third voltage sensor.