The subtropical Eastern North Pacific (SENP) sea surface temperature (SST) is persistent warming from 2013. Notably, the impact of the SENP SST on weather and climate are also significant and demonstrated in several recent studies. Compare to the equatorial eastern Pacific SST, the characteristics of SENP SST are less discussed. In this study, we aired to diagnose the characteristics, warming mechanism, and possible impact of SENP SST. It reveals that the SENP SST is associated with Pacific meridional mode (PMM) and global warming. The warming trend contributes approximately 15% to the variability of SENP SST. Wavelet analysis further shows that SENP SST exhibits the interannual and interdecadal variations. The regression analysis shows that SENP and ENSO-like (El Niño–Southern oscillation) SST warm simultaneously in the interannual time scale. The Pacific decadal oscillation (PDO), North Pacific gyre oscillation (NPGO), Atlantic multi-decadal oscillation (AMO) have an impact on SENP SST variation in the interdecadal time scale. The mixed layer heat budget analysis suggested that the SENP SST is warming through wind–evaporation–SST mechanism. Furthermore, the impact of SENP SST on ENSO and tropical cyclone (TC) activity are also showed in the two case studies, which hinders the development of 2014 El Niño and enhances the 2016 TC activity in western North Pacific.