Since%20the%20method%20of%20transient%200%20mode%20current%20correlation%20coefficient%20in%20distribution%20network%20fault%20section%20locating%20exists%20the%20problem%20with%20large%20amount%20data%20processing%20and%20need%20time%20synchronization,%20this%20paper%20presents%20a%20dynamic%20time%20warping%20(DTW)%20distance%20method%20based%20on%20time%20series%20compression%20for%20fault%20section%20locating.%20The%20proposed%20method%20only%20extract%20data%20within%20a%20power%20frequency%20cycle%20after%20fault%20occurs%20which%20include%20the%20initial%20value,%20extreme%20value%20and%20two%20points%20of%20maximum%20difference%20change%20between%20two%20extreme%20points.%20Then%20a%20new%20time%20sequence%20is%20uploaded to the%20host,%20and%20finally%20by%20the%20main%20dynamic%20time%20warping%20distance%20algorithm%20calculating%20the%20similarity%20of%20two%20adjacent%20FTU.%20Through%20the%20comparison%20of%20the%20algorithm,%20the%20DTW%20algorithm%20is%20better%20than%20the%20correlation%20coefficient%20method%20in%20the%20ability%20of%20anti-synchronization%20error%20and%20signal%20amplitude.%20In%20addition,%20the%20similarity%20calculation%20of%20the%20new%20time%20series%20on%20DTW%20distance%20is%20the%20same%20as%20the%20original%20time%20series,%20but%20the%20data%20processing%20capacity%20is%20reduced%20by%20more%20than%20half.%20A%20large%20amount%20of%20ATP/EMTP%20simulation%20shows%20that%20the%20proposed%20method%20can%20accurately%20find%20fault%20segments%20in%20different%20fault%20angles,%20grounding%20resistance%20and%20fault%20location.