6.12 Troubleshooting Without Fault Display
YASKAWA
SIEPYAIH6B01A HV600 AC Drive Bypass Technical Reference
525
◆
Motor Rotation Causes Oscillation or Hunting
Causes
Possible Solutions
The frequency reference is assigned to an external source, and there is electrical
interference in the signal.
Make sure that electrical interference does not have an effect on the signal lines.
•
Isolate control circuit wiring from main circuit wiring.
•
Use twisted-pair cables or shielded wiring for the control circuit.
•
Increase the value of
H3-13 [Analog Input FilterTime Constant]
.
The cable between the drive and motor is too long.
•
Do Auto-Tuning.
•
Make the wiring as short as possible.
The PID parameters are not sufficiently adjusted.
Adjust
b5-xx [PID control]
.
◆
PID Output Fault
Causes
Possible Solutions
There is no PID feedback input.
•
Examine the MFAI terminal settings.
•
See if
H3-02, H3-10 = B [MFAI Function Selection = PID Feedback]
is set.
•
Make sure that the MFAI terminal settings agree with the signal inputs.
•
Examine the connection of the feedback signal.
•
Make sure that
b5-xx [PID Control]
is set correctly.
Note:
If there is no PID feedback input to the terminal, the detected value is 0, which causes a PID
fault and also causes the drive to operate at maximum frequency.
The detection level and the target value do not agree.
Use
H3-03, H3-11 [Terminal A1, A2 Gain Setting]
to adjust PID target and feedback signal scaling.
Note:
PID control keeps the difference between the target value and detection value at 0. Set the input
level for the values relative to each other.
Reverse drive output frequency and speed detection. When output frequency
increases, the sensor detects a speed decrease.
Set
b5-09 = 1 [PID Output Level Selection = Reverse Output (Reverse Acting)]
.
◆
The Motor Rotates after the Drive Output Is Shut Off
Causes
Possible Solutions
DC Injection Braking is too low and the drive cannot decelerate correctly.
•
Increase the value set in
b2-02 [DC Injection Braking Current]
.
•
Increase the value set in
b2-04 [DC Inject Braking Time at Stop]
.
The stopping method makes the drive coast to stop.
Set
b1-03 = 0 or 2 [Stopping Method Selection = Ramp to Stop, DC Injection Braking to Stop]
.
◆
The Output Frequency Is Lower Than the Frequency Reference
Causes
Possible Solutions
The frequency reference is in the Jump frequency range.
Adjust
d3-01 to d3-03 [Jump Frequency 1 to 3]
and
d3-04 [Jump Frequency Width]
.
Note:
Enabling the Jump frequency prevents the drive from outputting the frequencies specified in the
Jump range.
The upper limit for the frequency reference has been exceeded.
Set
E1-04 [Maximum Output Frequency]
and
d2-01 [Frequency Reference Upper Limit]
to the best
values for the application.
Note:
This calculation supplies the upper value for the output frequency:
E1-04
×
d2-01
/ 100
A large load triggered Stall Prevention function during acceleration.
•
Decrease the load.
•
Adjust
L3-02 [Stall Prevent Level during Accel]
.
L3-01 = 3 [Stall Prevention during Accel = Current Limit Method]
has been
set.
1.
Make sure that the V/f pattern and motor parameter settings are appropriate, and set them
correctly.
2.
If this does not solve the problem, and it is not necessary to limit the current level of stall during
acceleration, adjust
L3-02
.
3.
If this does not solve the problem, set
L3-01 = 1 [Enabled]
.
The motor is rotating at this speed:
b2-01 [DC Injection/Zero SpeedThreshold]
≤ Motor Speed <
E1-09 [Minimum
Output Frequency]
Set
E1-09 < b2-01
.
Summary of Contents for HV600
Page 12: ...12 YASKAWA SIEPYAIH6B01A HV600 AC Drive Bypass Technical Reference...
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Page 454: ...5 14 Z Bypass Parameters 454 YASKAWA SIEPYAIH6B01A HV600 AC Drive Bypass Technical Reference...
Page 590: ...8 6 Storage Guidelines 590 YASKAWA SIEPYAIH6B01A HV600 AC Drive Bypass Technical Reference...
Page 780: ...11 3 European Standards 780 YASKAWA SIEPYAIH6B01A HV600 AC Drive Bypass Technical Reference...