The need for high-frequency capacitive measurement has increased due to newly emerging applications. For instance, specific parameters can be obtained only in higher frequency ranges in cell cytometry and soil analysis. Various novel architectures and methods are available, but the main concern is power consumption and parasitic resistance associated with the sensor. This project aims to develop a capacitance-to-voltage (C2V) converter circuit for high-frequency capacitance measurement. The circuit uses the sensor capacitor in a switched capacitor network and converts it to an equivalent voltage. The proposed C2V converter circuit uses only switches and logic circuits. The C2V converter offers good parasitic insensitivity for Rs≥ 5 kΩ compared with the reported literature and is validated experimentally in the 180-nm CMOS technology with an active area of 0.005 mm^2. The next challenge is integrating a complete system with an oscillator and current source, making it completely autonomous.