10-4Application Function PrecautionsObserve the following precautions when using the application functions.• Perform rotational autotuning during trial operation whenever it is possible to separate the motor andmachine. To achieve the characteristics of vector control described in Table 10.1, the control must beadjusted within a range that the machine will not vibrate after rotational autotuning has been performed.• With vector control, the motor and Inverter must be connected 1:1. Vector control is not possible whenmultiple motors are connected to a single Inverter. Select an Inverter capacity so the rated motor current is50% to 100% of the rated Inverter current.• For estimated speed searching, the motor and Inverter must be connected 1:1. The speed search must beperformed at a frequency of 130 Hz or less and with a motor with the same number of frames as or oneframe less than the Inverter capacity.• During high-slip braking, motor loss increases, so use a high-slip braking frequency of 5% ED or less, anda braking time of 90 seconds or less. Once high-slip braking has started, the motor cannot be restarted untilit has stopped.• Feed forward control is a function that improves the proportional gain of the motor speed in relation to thechange in the speed reference. Adjust the response to interference loads using the speed controller (ASR)constants.• The torque limit function will not operate during acceleration or deceleration (during soft start transition)when using a control method such as open-loop vector control. Even if the motor speed drops due to torquelimiting while set to a fixed speed, the speed will not fall below the minimum frequency and the motor willnot slip into reverse rotation. Control Methods and ApplicationsApplication examples for the Inverter control methods are provided here.V/f Control (A1-02 = 0)V/f control is suitable for applications where multiple motors are operated with a single Inverter, such as withmulti-motor drives.Fig 10.1Inverter M1M2M3(Thermal relay)