In this study, we analyze the optical and electrical properties of the strain-relaxed InAs/InGaAs quantum dot (QD) samples with two different InAs deposition thicknesses, 2.7 and 3.3 ML, and discuss the influence of strain relaxation on the Photo-capacitance of InAs QDs with InGaAs capping layer. Relaxation-induced defect reduces the background concentration beneath the QD layer , lowering the carrier emission rate of QDs, and formation of the Photo-capacitance by relaxed QDs Schottky diode. We demonstrate the photocurrent generated by GaAs Schottky diode can be suppressed by the relaxed QDs .When electrons are programmed into the relaxed QDs ,the potential drop is caused by the charged QDs, then reduced the Schottky diode’s depletion width, and suppressed the photocurrent. First, we compared with the effective RC circuit model is proved to interpret the mechanism by using the GaAs bulk sample series connected with a ceramic capacitor and the relaxed QDs have significantly suppress the photocurrent effect , then we can understand the relaxed QDs play a role as a capacitor. Therefore, the photo-capacitance can induced by relaxed QDs sample. Furthermore, we using the time-resolved measurement and tunneling rate theory to estimate the photo-capacitance of relaxed QDs is about 2000~3000 pF.