Recently, real-time measurement in FET biosensor has been studied widely to detect and distinguish analyte in concentration instantly. To avoid unexpected chemical reaction and to provide a reference potential, the reference electrode in solution is kept grounded during experiment. However, under the real-time measurement, the characteristic of commercial FET devices are not suitable due to grounded reference electrode. Besides, the circumstance of device is disrupted by drift effect and hysteresis effect. Drift effect often occurs with construction and reconstruction of electric double layer and hysteresis effect happens with diffusion velocity of different ions in solution and competition of pKa of functional groups (-OH or -NH2 group) on the sensing chip. In this study, we investigated two method, VDS control method and inverter control method to stabilize the circumstance of solution under measurement. We regulated voltage of drain and source and kept gate electrode grounded to adjust the threshold voltage and setpoint. Moreover, inverter control method is designed to source grounded to stabilize FET device. In pH buffer measurement, drift effect and hysteresis effect were improved using VDS control method compared with conventional method. And the results showed that SAM can also stabilize the surface of sensing chip. In streptavidin measurement, concentration of streptavidin can be distinguished by surface potential change, and the limit of detection (LOD) is ~42 pM by using inverter control method. According to the results of our experiment, we believe that this technique can be applied to the future bio-sensing.