Was verursacht Yaskawa-Fehler OL4?

Mechanical overload on the driven equipment (e.g., conveyor jam, pump impeller seized) causing motor current to exceed Parameter L6-05.. Motor sizing inadequate for the application's peak torque requirements, leading to frequent overtorque conditions.. Incorrect setting of Parameter L6-05 (Overtorque Detection 2 Level) or Parameter L6-04 (Overtorque Detection 2 Trigger Time).. Degradation of mechanical components (e.g., bearings, gears) increasing friction and required motor torque.. Partial short circuit in motor windings, drawing excessive current for a given mechanical load.

Wie behebt man Yaskawa-Fehlercode OL4?

1. 1. Measure actual motor current (Amps) with a clamp meter during peak load conditions and compare to motor nameplate FLA and Parameter L6-05 setting. 2. 2. Inspect the mechanical load for any binding, jams, or unusual resistance that would increase torque demand (e.g., check conveyor belt tension, pump impeller rotation). 3. 3. Verify the setting of Parameter L6-05 (Overtorque Detection 2 Level) and Parameter L6-04 (Overtorque Detection 2 Trigger Time) against application requirements. Adjust L6-05 to 120-150% of motor rated torque if appropriate. 4. 4. Check for excessive vibration or noise from the motor and driven equipment, indicating bearing wear or misalignment. 5. 5. Perform a motor insulation resistance test (Megger test) between motor phases and to ground to detect winding degradation. 6. 6. If the motor is consistently operating near its thermal limit, consider upsizing the motor or drive to match the application's torque demand.

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OL4

Overtorque Detection 2

Yaskawa · VS-616G5 Variable Speed Drive

Was bedeutet OL4 ?

The OL4 alarm or fault signifies that the motor's current or torque has surpassed the Overtorque Detection 2 Level (L6-05) under conditions defined by L6-04. Depending on the L6-04 setting, the inverter might continue running (alarm) or coast to a stop (fault). This secondary detection allows for different responses to specific overtorque scenarios.

Häufige Ursachen

Mechanical overload on the driven equipment (e.g., conveyor jam, pump impeller seized) causing motor current to exceed Parameter L6-05.
Motor sizing inadequate for the application's peak torque requirements, leading to frequent overtorque conditions.
Incorrect setting of Parameter L6-05 (Overtorque Detection 2 Level) or Parameter L6-04 (Overtorque Detection 2 Trigger Time).
Degradation of mechanical components (e.g., bearings, gears) increasing friction and required motor torque.
Partial short circuit in motor windings, drawing excessive current for a given mechanical load.

Reparaturschritte & Checkliste

Klicken Sie auf Schritte, um Ihren Fortschritt zu verfolgen.

1
1. Measure actual motor current (Amps) with a clamp meter during peak load conditions and compare to motor nameplate FLA and Parameter L6-05 setting.
2
2. Inspect the mechanical load for any binding, jams, or unusual resistance that would increase torque demand (e.g., check conveyor belt tension, pump impeller rotation).
3
3. Verify the setting of Parameter L6-05 (Overtorque Detection 2 Level) and Parameter L6-04 (Overtorque Detection 2 Trigger Time) against application requirements. Adjust L6-05 to 120-150% of motor rated torque if appropriate.
4
4. Check for excessive vibration or noise from the motor and driven equipment, indicating bearing wear or misalignment.
5
5. Perform a motor insulation resistance test (Megger test) between motor phases and to ground to detect winding degradation.
6
6. If the motor is consistently operating near its thermal limit, consider upsizing the motor or drive to match the application's torque demand.

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Verifizierte technische Daten. Zuletzt aktualisiert: March 2026

Overtorque Detection 2

Was bedeutet OL4 ?

Häufige Ursachen

Reparaturschritte & Checkliste

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