C5: Auto Speed Regulator (ASR)

Before You Adjust ASR Parameters

• Do Auto-Tuning and set up all motor data correctly.

• Always make adjustments with the load connected to the motor.

• Use analog output signals to monitor U1-16 [SFS Output Frequency] and U1-05 [Motor Speed] when you adjust the ASR.

ASR Adjustment Procedure for AOLV/PM and EZOLV

Do this procedure to adjust ASR parameters:

1. Run the motor at zero speed or low speed and increase C5-01 [ASR Proportional Gain 1] until immediately before vibration starts to occur.

2. Run the motor at zero speed or low speed and decrease C5-02 [ASR Integral Time 1] until immediately before vibration starts to occur.

3. Check for oscillation when you run the motor at maximum speed.

4. If oscillation occurs, increase C5-02 and decrease C5-01.

   When there is no oscillation, the adjustment procedure is complete.

5. Set the low-speed gain. Run the motor at zero speed or low speed and increase C5-03 [ASR Proportional Gain 2] until immediately before vibration starts to occur.

   

6. Set the low-speed integral time. Run the motor at zero speed or low speed and decrease C5-04 [ASR Integral Time 2] until immediately before vibration starts to occur.

7. Set C5-07 [ASR Gain Switchover Frequency].

8. Check for oscillation when you run the motor at speeds more than the setting in C5-07.

Use MFDI Switch for Proportional Gain

You can use the input terminals set for ASR Gain (C5-03) Select [H1-xx = 77] to switch the proportional gains set with C5-01 and C5-03. When the configured input terminal is deactivated, the proportional gain set for C5-01 is selected. When the terminal is activated, the proportional gain set for C5-03 is selected. The proportional gain changes linearly over the time set in C5-02 [ASR Integral Time 1]. The signals from this MFDI are more important than C5-07 [ASR Gain Switchover Frequency].

 

Speed Waveform Monitoring Method

To make small adjustments of ASR parameters, monitor the speed waveforms when you make the adjustments. Table 1 shows example settings of parameters to monitor speed waveforms.

Based on this setting, MFAO terminal AM outputs the output frequency after SFS in a 0 V to 10 V (0% to 100%) range. The MFAO common is terminal AC:

Yaskawa recommends that you monitor the output frequency after SFS and the motor speed for delays in response and differences in reference values.

Adjust ASR Parameters

Use Table 2 to adjust ASR. The table lists parameters for motor 1. You can make the same changes to motor 2 parameters when you run a second motor.

Table 2. ASR Response and Possible Solutions

Problem		Possible Solutions
Speed response is slow.		Increase C5-01/C5-03 [ASR Proportional Gain]. Decrease C5-02/C5-04 [ASR Integral Time].
Overshoot or undershoot occurs at the end of acceleration or deceleration.		Decrease C5-01/C5-03. Increase C5-02/C5-04.
Vibration and oscillation occur at constant speed.		Decrease C5-01/C5-03. Increase C5-02/C5-04. Increase C5-06 [ASR Delay Time].
Oscillation at low speed and response is too slow at high speed. Oscillation at high speed and response is too slow at low speed.	-	When A1-02 = 6 [Control Method Selection = AOLV/PM], use C5-01 to C5-04 to set the best ASR settings for high and low speed. Use C5-07 [ASR Gain Switchover Frequency] to switch the ASR proportional gain and ASR integral time as specified by the output frequency.