The electronic structure of EuCu₂Ge₂ single crystal has been investigated by the valence band photoemission across the Eu 4d-4f resonance and Eu L3 x-ray absorption edge spectroscopy. Signatures of both the Eu²⁺and Eu³⁺ states are observed in the resonant photoemission near the 4d threshold of Eu at 140 and 143 eV, respectively. The constant initial state spectra for Eu²⁺ and Eu³⁺ states exhibit Fano-type resonance profile. The experimental spectra have been interpreted with the help of first-principles density functional calculations within the generalized gradient approximations taking into account the strong intra-atomic (onsite) interaction Hubbard U term. The Eu 4f related resonant features are found to be hybridized with the Cu and Ge states. Supporting evidence for the existence of Eu in Eu²⁺ (92%) and Eu³⁺ (8%) states are also obtained from the x-ray absorption edge spectra, which probe the bulk response. Both the resonant photoemission and Eu L3 x-ray absorption edge spectroscopy gives the evidence that Eu is present in the inhomogeneous and static mixed valence state in EuCu₂Ge₂.