Composite electronic component and board having the same

What is claimed is: 1 . A composite electronic component comprising: a composite body in which a capacitor and an inductor are coupled to each other, the capacitor including a ceramic body in which a plurality of dielectric layers and first and second internal electrodes disposed to face each other with respective dielectric layers interposed between the first and second internal electrodes are stacked, and the inductor including a magnetic body including a coil part; an input terminal disposed on a first side surface of the composite body in a width direction of the composite body and connected to the coil part of the inductor; an output terminal including a first output terminal disposed on the first side surface of the composite body in the width direction and connected to the coil part of the inductor and a second output terminal disposed on a first end surface of the composite body in a length direction of the composite body and connected to the first internal electrodes of the capacitor; and a ground terminal disposed on a second end surface of the composite body in the length direction and connected to the second internal electrodes of the capacitor, wherein the capacitor is coupled to a side surface of the inductor. 2 . The composite electronic component of claim 1 , wherein the magnetic body has a form in which a plurality of magnetic layers on which conductive patterns are disposed are stacked, the conductive patterns configuring the coil part. 3 . The composite electronic component of claim 1 , wherein the inductor has a thin film form in which the magnetic body includes an insulating substrate and coils disposed on at least one surface of the insulating substrate. 4 . The composite electronic component of claim 1 , wherein the magnetic body has a form in which the magnetic body includes a core and coils wound around the core. 5 . The composite electronic component of claim 1 , wherein the inductor is a power inductor. 6 . The composite electronic component of claim 1 , wherein the capacitor and the inductor are coupled to each other by a conductive adhesive. 7 . A composite electronic component comprising: a power stabilization part including a composite body in which a capacitor and an inductor are coupled to each other, the capacitor including a ceramic body in which a plurality of dielectric layers and first and second internal electrodes disposed to face each other with respective dielectric layers interposed between the first and second internal electrodes are stacked, the inductor including a magnetic body including a coil part, and the capacitor being coupled to a side surface of the inductor; an input terminal disposed on a first side surface of the power stabilization part in a width direction of the power stabilization part and receiving power converted by a power management part; and an output terminal including first and second output terminals disposed on the first side surface of the power stabilization part in the width direction and a first end surface of the power stabilization part in a length direction of the power stabilization part and supplying power stabilized by the power stabilization part, wherein in a power stabilization electronic component used in a power terminal of a portable mobile device, suppressing an alternating current component of the received power, and decreasing ripples, the inductor suppresses the alternating current component of the received power, and the capacitor decreases ripples in the received power. 8 . The composite electronic component of claim 7 , further comprising a ground terminal disposed on a second end surface of the composite body in the length direction and connected to the second internal electrodes of the capacitor. 9 . The composite electronic component of claim 7 , wherein the magnetic body has a form in which a plurality of magnetic layers on which conductive patterns are disposed are stacked, the conductive patterns configuring the coil part. 10 . The composite electronic component of claim 7 , wherein the inductor has a thin film form in which the magnetic body includes an insulating substrate and coils disposed on at least one surface of the insulating substrate. 11 . The composite electronic component of claim 7 , wherein the magnetic body has a form in which the magnetic body includes a core and coils wound around the core. 12 . The composite electronic component of claim 7 , wherein the inductor is a power inductor. 13 . The composite electronic component of claim 7 , wherein the capacitor and the inductor are coupled to each other by a conductive adhesive. 14 . A board having a composite electronic component, the board comprising: a printed circuit board on which three or more electrode pads are disposed; the composite electronic component of claim 1 mounted on the printed circuit board; and solders connecting the electrode pads and the composite electronic component to each other. 15 . The board of claim 14 , wherein the magnetic body has a form in which a plurality of magnetic layers on which conductive patterns are disposed are stacked, the conductive patterns configuring the coil part. 16 . The board of claim 14 , wherein the inductor has a thin film form in which the magnetic body includes an insulating substrate and coils disposed on at least one surface of the insulating substrate. 17 . The board of claim 14 , wherein the magnetic body has a form in which the magnetic body includes a core and coils wound around the core. 18 . The board of claim 14 , wherein the inductor is a power inductor. 19 . The board of claim 14 , wherein the capacitor and the inductor are coupled to each other by a conductive adhesive.