Global Navigation Satellite System (GNSS) are mostly elaborated in the Earth Centered Earth Fixed (ECEF) Cartesian coordinate system while the observations of a single station are utilized. These coordinates have to be transformed into geodetic coordinates, if they are demanded to be converted into plane coordinates with a specific map projection. The transform from ECEF coordinates to geodetic coordinates requires iterative procedures, and in the map projection, Taylor series expansion is frequently applied. These processes are quite technically demanding. Although the error propagation of covariance involves only straight forward numerical techniques, which is still complicated and difficult. This transform concerns not only the error propagation, but also the displacement, velocity, and other quantities derived in ECEF, where rotations converting the global Cartesian coordinate system into a station local Cartesian coordinate system are the primary mechanism. This note introduces this procedure which is illustrated with numerical examples.