The purpose of this study is to investigate the effect of light source mismatch on the accuracy of camera color correction. In this study, CIE D65 was used as the default color correction environment, and CIE LED-B5 with a similar color temperature was used as the unmatched light source. To this end, this study created a virtual camera to evaluate the color accuracy of TCS99 color samples shot under D65 and LED-B5 light sources under the default D65 color correction mode. The experimental results show that when the camera shooting environment is different from the correction environment, the color accuracy will decrease. Compared with D65, white LEDs with similar color temperature will slightly increase the chroma of yellow and blue, and reduce the chroma of red and green. The additional second-order regression correction can not only effectively reduce the color errors caused by the difference between the shooting environment and the calibration environment, but also significantly reduce the color errors for the same environment combination. This may be because the color correction of general cameras only uses 24-patch ColorChecker to optimize the 3×3 color correction matrix. With such few samples and regression parameters, it is difficult to describe the color characteristics of TCS99 color samples.