A switched capacitor bandgap voltage reference with correlated double sampling structure embedded in a temperature sensor is implemented in a standard 0.35μm CMOS process.Due to the smaller change of the op-amp’s output voltage,this topology is very suitable for low power applications.In addition,errors caused by the finite op-amp gain,input offset voltage,and 1/f noise are eliminated with the correlated double sampling technique.Additionally,two-level process calibration techniques are designed to minimize the process spread. Finally,a method of getting a full period valid reference voltage output is discussed and experimental results are provided to verify the effectiveness of the proposed structure. A switched capacitor bandgap voltage reference with correlated double sampling structure embedded in a temperature sensor is implemented in a standard 0.35 μm CMOS process. Due to the smaller change of the op-amp’s output voltage, this topology is very suitable for low power applications. addition, errors caused by the finite op-amp gain, input offset voltage, and 1 / f noise are eliminated with the correlated double sampling technique. Additionally, two-level process calibration techniques are designed to minimize the process spread. Finally, a method of getting a full period valid reference voltage output is discussed and experimental results are provided to verify the effectiveness of the proposed structure.