How to regulate the speed of Omron R88D KT driver?

Even if you press the increase and decrease buttons, the display still does not change, please check the following settings: *Inverter in running state (drive mode) When the inverter is running, it is not possible to set parameters. Set the parameters after the inverter is stopped* Allow the parameters to be written when H1-01 H1-05 (function selection of multi-function input terminal S3 S7) is set to 1B.

Parameters can only be set when the input that allows them to be written to is on. If the input that allows parameters to be written is off, the parameters cannot be set. *The password is inconsistent (only if the password has already been set) If the values of A1-04 (enter password) and A1-05 (password setting) are different, some parameters cannot be changed.

If you have forgotten your password, you can reset it in A1-05 by pressing the RESET and MENU buttons at the same time in A1-04. 2: The inverter displays OPE1 OPE11 *It means that there is a problem with the parameters set by the inverter, please correct parameter 3:

The inverter shows CPF00 or CPF01 *It means that the communication of the digital operator is faulty, and the wiring between the digital operator and the inverter is faulty, please remove the digital operator and reinstall it again.

Omron's modulation driver, if you want to adjust the speed, you can adjust the speed directly in the settings, and its shortcut options can be adjusted quite simply.

If you want to regulate the speed of Omron's driver, you should set it according to its governor.

Driving tips and complaints should be more difficult, you can check the Internet to check.

When the servo motor jitters at zero speed, the gain should be set high, which can reduce the gain value. If the alarm stops when starting, the most likely is that the phase sequence of the motor is incorrect.

Reason 2: 1. When the PID gain adjustment is too large, it is easy to cause the motor to shake, especially after adding D, which is especially serious, so try to increase P and reduce I, and it is best not to add D.

2. Jitter will also occur when the encoder wiring is wrong.

3. If the load inertia is too large, replace the larger motor and drive.

4. The analog input port interferes with jitter, and a magnetic ring is added to the motor input line and the servo drive power input line to keep the signal line away from the power line.

5. There is also a rotary encoder interface motor, which is easy to cause vibration if the grounding is not good.

Reason 3: Servo wiring:

A Use standard power cables, encoder cables, control cables, and whether the cables are damaged;

b. Check whether there is an interference source near the control line, and whether it is parallel to or too close to the nearby high-current power cable;

c Check whether there is any change in the potential of the grounding terminal to ensure that the grounding is good.

Servo parameters: a The servo gain setting is too large, it is recommended to readjust the servo parameters manually or automatically;

b Confirm the setting of the time constant of the velocity feedback filter, the initial value is 0, you can try to increase the setting value;

c The electronic gear ratio is too large, it is recommended to restore to the factory setting;

d The resonance of the servo system and the mechanical system, try to adjust the frequency and amplitude of the notch filter.

Mechanical system: a The coupling connecting the motor shaft and the equipment system is offset, and the mounting screws are not tightened;

b. Poor occlusion of pulleys or gears will also lead to load torque changes, try no-load operation, if no-load operation is normal, check whether the joint part of the mechanical system is abnormal;

c Confirm whether the load inertia, torque and rotational speed are too large, try to run at no load, if the operation is normal at no load, reduce the load or replace the drive and motor with a larger capacity.