Mn-Fe phosphate mineral complexes included within the pegmatite are observed at Jurassic Cheolwon two-mica granite in Gyeonggi Massif, South Korea. The genetic evolution between the Cheolwon two-mica granite and pegmatite, and various trend of Mn-Fe phosphate minerals is made by later magmatic, hydrothermal, and weathering process based on mineralogical, geochemical analysis. The Cheolwon two-mica granite is identified as S-type granite, considering its chemical composition (metaluminous ~ peraluminous), post-collisional environment, low magnetic susceptibility, and existence of biotite and muscovite. The K-Ar age (ca. 153 Ma) of pegmatite is well coincident with age of the Cheolwon two-mica granite (151±4 Ma). It indicates that these two rocks are originated from the same magma. Pegmatite indicates the LCT geochemical signature, and was classified as muscovite-rare element class / Li subclass / beryl type / beryl-columbite-phosphate subtype pegmatite. The triplite {(Fe 2+ 0.4 ,Mn 1.6 )(PO 4 )(F 0.9 )} is dominant phosphates in later magmatic stage which partly altered to leucophosphite {KFe 3+ 2 (PO 4 ) 2 OH·2H 2 O} and jahnsite {(Fe 3+ 0.7 ,Mn 2.3 )(PO 4 ) 2 OH·4H 2 O} by hydrothermal alteration. In particular, near fractures, the triplite has been separatelty replaced by the phosphosiderite (Fe 3+ PO 4 ·2H 2 O) and Mn-oxide minerals during weathering stage.