This paper introduces a single-photon TOF sensor pixel based on SMIC 0.13μm CIS technology. With an aim at the disadvantages of traditional SPAD structures, this paper uses p-well and STI as guard ring to avoid edge pre-breakdown, so that device area can be decreased. Deep n-well is added to decrease the depletion layer width of active region, thus reducing the avalanche breakdown voltage. The silicon epitaxial layers is added to shift the spectral response peak to required wavelengths to increase the absorption capacity of required light. By floating SPAD anode and using low-voltage CMOS active quenching, this circuit can quench avalanche current rapidly to reduce the quenching time and dead time. In order to verify the feasibility of this design, SILVACO TCAD and Cadence tools are used to simulate the technology, the device structure and the related circuit.