Temperature, stress birefringence and low frequency vibration have a negative impact on the long-term operation instability of optical voltage sensors (OVS), resulting in large random and fluctuate errors in the output signal. In order to suppress the error, this paper developed a method based on electrical field modulation with high-speed rotating isomerism electrodes and the digital lock-in amplifier technology. This method can shift the frequency band of the measured signal to $2\text{kHz}$, avoiding the low-frequency $(< 50\text{Hz})$ interference from temperature drift, stress birefringence and vibration. The waveform of modulated signal is studied by coupling wave theory and finite element simulation method. And the Simulink results show that digital lock-in technology can suppress the large random interference.