Charger for vehicles

What is claimed is: 1. A charger for vehicles, comprising: an (alternating current/direct current) AC/DC converter configured to convert a commercial alternating current power source to a direct current power source; and a DC/DC converter configured to convert the direct current power source applied from the AC/DC converter to a battery charging power source and supply the direct current power source to a battery, wherein the DC/DC converter includes; a second rectifier configured to rectify a secondary alternating current power source of the transformer to a direct current power source; and a snubber circuit which reduces a magnitude of a ripple current of the charging power source, wherein the snubber circuit comprises: a first filter configured to suppress a surge voltage of the second rectifier and having a first filter reducing the ripple current; a first diode configured to be connected to an output of the second rectifier; a first capacitor configured to be connected in series to the first diode; and a second diode configured to be connected with the first diode in parallel, wherein the first filter comprises: an inductor configured to be directly connected to a cathode of the second diode; and a second capacitor configured to be connected with the inductor in parallel, and wherein the slope of the charging current of the first capacitor is reduced by the second capacitor and the inductor during a charging operation. 2. A charger for vehicles according to claim 1 , wherein the AC/DC converter comprises: a first rectifier configured to receive the commercial alternating current power source and rectify the commercial alternating current power source; and a boost type converter configured to be connected to an output of the first rectifier and configured to suppress a power factor by reducing a reactive power. 3. A charger for vehicles according to claim 2 , wherein the boost type converter is implemented by Power Factor Correction (PFC) boost converter. 4. A charger for vehicles according to claim 1 , wherein the DC/DC converter comprises: a switch including of a plurality of switching elements; a transformer configured to transform a primary alternating current power source with a predetermined ratio based on a switching operation of the switch and transmit the primary alternating current power source to a secondary alternating current power source; and a second filter configured to be connected to an output of the snubber circuit and maintain a constant voltage applied to the battery. 5. A charger for vehicles according to claim 4 , wherein the switch includes full bridge type of a plurality of switching elements. 6. A charger for vehicles according to claim 4 , wherein a gap is formed in a core of the transformer to facilitate adjusting a magnetizing inductance.