Taking　urban　power　supply　network　as　the　research　object,　this　paper　proposes　a　framework　and　method　to　evaluate　the　seismic　resilience　of　power　supply　network　considering　the　functional　characteristics　of　power　supply　network.　Based　on　the　grid　element　vulnerability　model,　the　framework　uses　Monte　Carlo　to　simulate　the　network　element　failure　induced　by　earthquake　damage.　The　power　flow　model　with　functional　characteristics　is　focused　to　analyze　the　post-earthquake　performance　response　of　the　power　supply　network.　The　dynamic　importance　of　the　influence　of　earthquake　failure　units　on　network　function　determines　the　post-earthquake　recovery　sequence　of　power　supply　network　units.　The　post-earthquake　recovery　process　is　considered　to　prioritize　restoring　power　supply　to　associated　nodes.　It　analyzes　the　influence　of　other　lifeline　networks　on　the　post-earthquake　recovery　sequence　of　power　supply　networks.　©　2021　IEEE.