The magnetic properties of SmBa$_{2}{\hbox{Cu}}_{3}{\hbox{O}}_{7-{\rm x}}$ (SmBCO) coated conductor (CC) that was fabricated on LaMnO$_{3}({\hbox{LMO}})/{\hbox{IBAD-MgO}}$ substrates using Evaporation using Drum in Dual Chamber (EDDC), which is a batch type co-evaporation system, was investigated. LMO buffer layer was deposited on IBAD-MgO templates by PLD method. The measurements of both the magnetization $M(H)$ and the resistance $R(T)$ for the SmBCO CC, were carried out at temperatures between 10 and 120 K in fields up to 8.5 T, using a PPMS-9T (with both ACMS and DCR options, Quantum Design). The SmBCO CC exhibited $T_{\rm c}$ (onset temperature) of 94.7 K with a narrow transition width of 0.6 K, which indicates a good homogeneity of the superconducting properties. The upper critical field $H_{{\rm c}2}$ near $T_{\rm c}$ of the SmBCO CC has been estimated by the resistance $R(T)$ approaches. The magnetization curves $M(H)$ are symmetric about the line $M=0$ for the SmBCO CC with the field applied parallel to both the $c$-axis and $c$-axis $+45^{\circ}$. For the SmBCO CC with the field applied parallel to the $ab$-plane, they are asymmetric. These symmetric and asymmetric curves can be explained by introducing the bulk pinning of 1-D flux lines and surface barrier-dominated system of 2-D pancake vortices.