Recently, rhombohedral phase CaMn7O12 has been reported as a new magnetic multiferroic material exhibiting an unprecedented giant improper ferroelectric polarization (~2870 C/m^2) along c-axis strongly coupled to the antiferromagnetic magnetic transition at the Néel temperature of 90 K. However, the investigation of this material in thin film form is largely lacking, which inevitably is very important for application and in order to harvest the giant magnetically induced polarization anticipated. In this study we have tried to grow the CaMn7O12 thin films on different substrates. The targets were prepared by pressing the CaMn7O12 powder derived from sol-gel method and high quality single crystals obtained by flux melting growth method into 1-inch pellets. We grew CaMn7O12 thin films on the the SiO2 substrates, the MgO substrate, and the SrTiO3 substrate respectively by pulsed laser deposition. Then we measured and analysed the structure and magnetic properties of the thin films on different substrates. The results of X-ray diffraction pattern and magnetic susceptibility measurements will be presented and discussed.