Trial Operation Procedures4- 7* 1. 0 or 1 for flux vector control.* 2. The factory setting depends on the capacity of the Inverter.* 3. The upper limit of the setting range depends on the upper limit set in E1-04.* 4. When C6-01 = 0, the upper limit is 150.00.* 5. When C6-01 = 1, the upper limit is 400.00.* 6. When using flux vector control, 0 to 2. Settings for the Control MethodsAutotuning methods depend on the control method set for the Inverter. Make the settings required by the con-trol method.Overview of SettingsMake the required settings in quick programming mode and autotuning mode according to the following flow-chart.Note If the motor cable changes to 50 m or longer for the actual installation, perform stationary autotuning for the line-to-line resistance only on-site.* 1. Use rotational autotuning to increase autotuning accuracy whenever it is okay for the motor to be operated.* 2. If there is a reduction gear between the motor and PG, set the reduction ratio in F1-12 and F1-13.* 3. If the maximum output frequency is different from the base frequency, set the maximum output frequency (E1-04) to the value of the base frequencyafter autotuning.Fig 4.3 Settings According to the Control MethodSTARTYESV/f control?A1-02 = 0 or 1)PG?NO(Default:A1-02 = 0)YESA1-02 = 1NOVector control (A1-02 = 2 or 3 )Motor cable over50 m or heavy load possiblycausing motor to stallor overload?Set E1-03.V/f default: 200 V/60 Hz(400 V/60 Hz)Set E1-03, E2-04, and F1-01.V/f default: 200 V/60 Hz(400 V/60 Hz)NOYESYESNO*2*3Control mode selectionOK to operatemotor duringautotuning? *1Rotationalautotuning Stationaryautotuning 1Stationary autotuning forline-to-line resistance onlyENDYESLoad isconnected to motor whenoperating motor first timeafter autotuning?Stationaryautotuning 2