The present invention discloses a silicon-based germanium photodetector. The silicon-based germanium photodetector comprises an optical waveguide layer, a silicon oxide layer and a silicon substrate which are sequentially stacked from top to bottom; the optical waveguide layer includes an optical coupling region, a planar optical waveguide region and an optical output region which are distributed sequentially along the propagation direction of optical signals; a coupling grating for receiving the optical signals and guiding the optical signals to the planar optical waveguide region is formed in the coupling region; and the silicon-based germanium photodetector further comprises a germanium layer stacked on the optical output region, a silicon covering layer stacked on the germanium layer, a first electrode formed on the silicon covering layer, and a second electrode formed on the optical output region, wherein the germanium layer receives the optical signals from the optical output region and converts the optical signals into electrical signals. According to the silicon-based germanium photodetector of the invention, the silicon covering layer is adopted, so that bandwidth is greatly improved, the dark current of the device is greatly reduced, and therefore, the comprehensive performance index of the device can be improved, and the requirements of high-speed optical communication and optical interconnection systems can be better satisfied.