Eaton PowerXL DF1 Series User Manual

545. Parameter DescriptionEaton Electric General Inverters DF1 Series UMXXXXXXXXE February 2020 www.eaton.com4: 00-02 is set to4, and the screen will display after writing, all the parameters will be restored to the defaultvalues except the parameters in the table 1 and table 2 below.After parameters are restored, 00-02is restored to 0.Exception The parameters in table 2 below and table 1will not be restored to the default values:5: User registered parameter15-00~15-19will not be restored to the default value,During 15-00~15-19, the correspondingparameter valuesof setting parameter number and the parameters in table 1 above will not be restored to the defaultvalues.After parameters are restored, 00-02 is restored to 0.6: User registered parameter 15-00~15-19will not be restored to the default value, During 15-00~15-19, the correspond-ing parameter values of setting parameter number and the parameters in table 1 and table 2 above will not be restoredto the default values.After parameters are restored, 00-02 is restored to 0.ote:N When restoring all or some to default values, please be sure that the screen displays , which means parameters hasbeen restored to factory values, and then execute other operations.Group No. Name Group No. Name00-21 P.300 Motor control mode selection 02-47 P.190 AO1 output bias02-12 P.192 The minimum input positive voltage of AI1 02-49 P.536 AO2 output gain02-13 P.193 The maximum input positive voltage of AI1 0AI10 P.535 AO2 output bias02-14 P.194 The percentage corresponding to the mini-mum positive voltage of terminal AI10AI19 P.187 FM calibration parameter05-00 P.301 Motor parameter auto-tuning functionselection02-15 P.195 The percentage corresponding to the maxi-mum positive voltage of terminal AI1 05-01 P.302 Motor rated power02-16 P.512 The minimum input negative voltage of AI1 05-02 P.303 Motor poles02-17 P.513 The maximum input negative voltage of AI1 05-03 P.304 Motor rated voltage02-18 P.510 The percentage corresponding to the mini-mum negative voltage of termianl AI105-04 P.305 Motor rated frequency05-05 P.306 Motor rated current02-19 P.511 The percentage corresponding to the maxi-mum negative voltage of termianl AI105-06 P.307 Motor rated rotation speed05-07 P.308 Motor excitation current02-25 P.198 The minimum input current/voltage of AI3 05-08 P.309 IM motor stator resistance02-26 P.199 The maximum input current/voltage of AI3 05-09 P.310 IM motor rotor resistance02-27 P.196 The percentage corresponding to the mini-mum input current/voltage of AI305-10 P.311 IM motor leakage inductance05-11 P.312 IM motor mutual inductance02-28 P.197 The percentage corresponding to the maxi-mum input current/voltage of AI305-12 P.313 PM motor stator resistance05-13 P.314 PM motor d-axis inductance02-34 P.548 The minimum input current/voltage of AI2 05-14 P.315 PM motor q-axis inductance02-35 P.549 The maximum input current/voltage of AI2 05-15 P.316 PM motor Back-EMF coefficient02-36 P.546 The percentage corresponding to the mini-mum input current/voltage of AI2 05-16 P.317 PM motor Phase Z origin pulse compensation02-37 P.547 The percentage corresponding to the maxi-mum input current/voltage of AI205-17 P.318 Rotation inertia11-00 P.320 Speed control proportion coefficient 102-39 P.524 DIH input minimum frequency 11-01 P.321 Speed control integral time 102-40 P.525 DIH input maximum frequency 11-02 P.322 PI coefficient switching frequency 102-41 P.522 The percentage corresponding to DIH inputminimum frequency11-03 P.323 Speed control proportion coefficient 211-04 P.324 Speed control integral time 202-42 P.523 The percentage corresponding to DIH inputmaximum frequency11-05 P.325 PI coefficient switching frequency 211-06 P.326 Current control proportion coefficient02-46 P.191 AO1 output gain