This　article　developed　a　new　methodology　of　macro　dynamic　demand　response　(DDR)　strategy　considering　micropower　quality　disturbance　(PQD)　for　wind-storage　integrated　systems.　A　novel　idea　has　been　presented　in　this　methodology　to　eliminate　the　barrier　of　PQD　and　renewable　energy　dynamic　adjustment.　At　the　microlevel　for　PQD　elimination,　a　filtering　strategy　of　Butterworth-Wiener　filter　(Bw-WF)　is　proposed　to　deal　with　the　frequency　interference　PQD　in　wind-storage　integrated　system　by　Bw　and　the　WF.　The　method　connects　the　macro　DDR　and　the　PQD　elimination　at　the　microlevel　for　the　stable　wind　power　output　after　PQD　elimination.　At　the　macrolevel　for　dynamic　adjustment,　the　Hampel-Savitzky-Golay　macropower　filtering　method　is　proposed　to　calculate　the　low-frequency　power　in　line　with　the　national　standards.　Considering　all　wind　power　participates　in　the　DDR,　the　change　of　DDR　and　the　adjusted　power　curves　are　calculated　based　on　the　Logistics　function,　optimistic　response,　and　pessimistic　response　factors.　Through　the　experimental　verification,　it　is　found　that　the　power　and　state　of　charge　curves　of　energy　storage　can　be　significantly　changed　by　the　subtle　dynamic　changes　during　an　ultra-short　period.　Also,　it　is　demonstrated　that　the　theoretical　method　proposed　in　this　article　is　reliable　and　promising.　©　1982-2012　IEEE.