Error Code List.pdf - 第34页

AV131 ERROR CODE LIST 2.4 Errors D79EEC- 91-210-A 0 2.4- 1 1 1812 (-) Ov e rrun e rror DESCRI PTIO N Min us li mit se nso r fo r the ax is wh e re th e e rror o cc ur re d wa s t urn ed ON . CAUSE Minus l imit sensor inp…

AV131

ERROR CODE LIST

2.4 Errors

D79EEC-91-210-A0

2.4-10

1717

ZL/ZR axes minus overrun interlock

DESCRIPTION

The minus overrun interlock of the ZL/ZR axes was detected.

CAUSE

ZL/ZR minus overrun (80582:bit6) was detected while the ZL/ZR ax was running. A ZL/ZR ax is located near

mechanical stopper.

SOLUTION

Please confirm ZL/ZR minus overrun detection. Please confirm ZL/ZR axes position.

NOTE

1718

Ring IO communication interlock

DESCRIPTION

RING IO communication interlock was detected.

CAUSE

There is a possibility of coming off and the disconnection of the RING communication optical cable.

SOLUTION

Please confirm the RING communication optical cable.

NOTE

1720

Axis Moving interlock

DESCRIPTION

Direct start signal was off while axes was running.

CAUSE

Axis was not completed within its timing by the axis moving delay.

Direct start signal was off due to the power failure.

The direct start signal was off by the disconnection of cycle timer rotary encoder.

SOLUTION

Please confirm the axis where the error display. Please confirm axis movement is smooth, and confirm there is no

groan or Vibration.

Please release the power failure and restart operation.

Please confirm the state of the rotary encoder.

NOTE

1809

Servo ready off error

DESCRIPTION

The axis where the error occurred is not in NC ready status.

CAUSE

Ready input signal for the servo amplifier or NC board remains OFF.

SOLUTION

Check the condition of the servo amplifier, motor and NC/IO board.

NOTE

1811

(+) Overrun error

DESCRIPTION

Plus limit sensor for the axis where the error occurred was turned ON.

CAUSE

Plus limit sensor input was detected while the axis was moving (including starting to move) in the positive direction

for positioning or teaching.

SOLUTION

Close the error screen and move the axis in the negative direction. Or returning the axis to its origin also will do.

NOTE

AV131

ERROR CODE LIST

2.4 Errors

D79EEC-91-210-A0

2.4-11

1812

(-) Overrun error

DESCRIPTION

Minus limit sensor for the axis where the error occurred was turned ON.

CAUSE

Minus limit sensor input was detected while the axis was moving (including starting to move) in the negative direction

for positioning or teaching.

SOLUTION

Close the error screen and move the axis in the positive direction. Or returning the axis to its origin also will do.

NOTE

1824

Control power under voltage error

DESCRIPTION

Voltage between the terminals P and N of the control power converter dropped to below the rated value.

CAUSE

Low power supply voltage. Instantaneous power failure occurred.

Insufficient power capacity (Voltage dropped due to rush current at main power ON.)

Faulty servo amplifier (circuit).

SOLUTION

Measure the line voltage between the connectors (L1C, L2C) and terminal blocks (r, t).

(1) Increase the power voltage capacity. Change the power supply.

(2) Increase the power capacity.

(3) Replace the servo amplifier with a new one.

NOTE

1825

Overvoltage error

DESCRIPTION

Power voltage has exceeded the allowed input voltage range. (Voltage between the terminals P and N of the control

power converter has exceeded the rated value.)

CAUSE

Regenerative resistor is disconnected.

Regenerative energy cannot be absorbed due to improper external regenerative resistor.

Faulty servo amplifier (circuit).

SOLUTION

Measure the line voltage of the connectors (L1, L2, L3). Input the voltage properly.

(1) Measure the resistance of the resistor externally installed between the terminals P and B of the servo amplifier

using a tester. If the value is ∞ (infinite), wire is broken. Replace the external resistor.

(2) Change to the specified regenerative resistance value and wattage.

(3) Replace the servo amplifier with a new one.

NOTE

1826

Under voltage error

DESCRIPTION

Instantaneous interruption between L1-L3 lasted longer than the time set by the main power off detection time. Or

voltage between P and N of the main power converter dropped to below the rated value when the servomotor was

ON.

CAUSE

Low power supply voltage.

Instantaneous power failure occurred.

Insufficient power capacity (Voltage dropped due to rush current at main power ON.)

Open phase (Servo amplifier with 3-phase input spec. was operated with single-phase power.)

Faulty servo amplifier (circuit).

SOLUTION

Measure the line voltage of the connectors (L1, L2, L3).

(1) Increase the power voltage capacity. Change the power supply. Eliminate the cause of failed electromagnetic

contactor and turn power back ON.

(2) Check the setting time of main power OFF detection time. Set each phase of the power supply correctly.

(3) Increase the power capacity.

(4) Connect each phase (L1, L2, L3) of the power supply correctly.

(5) Replace the servo amplifier with a new one.

NOTE

AV131

ERROR CODE LIST

2.4 Errors

D79EEC-91-210-A0

2.4-12

1827

Overcurrent error

DESCRIPTION

Current exceeding rated value of the converter flowed.

CAUSE

Faulty servo amplifier (Defective parts in the circuit or IGBT)

Short-circuit occurred in the motor wire terminals U, V and W.

Ground fault occurred in the motor wire.

The motor burnt out.

The motor wire in poor contact.

The relay of the dynamic of brake welded due to frequent ON/OFF of the servo amplifier.

Mismatch between the motor and servo amplifier.

Start command is input simultaneously with or earlier than the servo ON timing.

SOLUTION

Disconnect the motor wire and turn ON the servomotor. If the same error reoccurs immediately, replace the servo

amplifier with a new one (or the one that is running properly).

Check the connector lead wires at the motor terminals U, V and W for any whisker that may cause short-circuit.

Reconnect the motor wires.

Check the insulation resistance between the motor terminals U/V/W and grounding wire. In case of an insulation

failure, replace the motor.

Check the resistance of the motor between the lines for proper balance. If not balanced, replace the motor.

Check the connector pins at the motor terminals U, V and W. If loose or missing, secure them in place.

Replace the servo amplifier. Do not turn ON/OFF the servo to start/stop the amplifier.

Check the product number (capacity) of the motor/servo amplifier on the nameplate and change to the motor

applicable to the servo amplifier. Change the command timing so that the start command will be input more than 100

ms after the servo ON.

NOTE

1828

Overheat error

DESCRIPTION

Temperature of the radiator or power elements in the servo amplifier have exceeded the rated value.

CAUSE

Ambient temperature of the servo amplifier has exceeded the rated value.

Overloaded

SOLUTION

Check the ambient temperature of the servo amplifier and remedy the cooling conditions.

Increase the servo amplifier/motor capacity. Increase the acceleration/deceleration time. Reduce load.

NOTE

1829

Overload error

DESCRIPTION

Working value of the torque command has exceeded the overload level.

CAUSE

The unit was activated for a long time with heavy load and the effective torque exceeded the rated torque.

Oscillation or hunting occurred due to improper adjustment of gain. Motor vibrations or abnormal sound occurred.

Improper inertia ratio setting.

Improper or broken motor wiring

The machine hit against something or became sluggish suddenly. Distortion of machine.

Electromagnetic brake has been left applied.

Motor cable misconnected to another axis when multiple units are connected.

SOLUTION

Check the torque (current) waveform for oscillation or strong vertical fluctuation. Check the warning message for

overload and load factor.

(1) Increase the servo amplifier/motor capacity. Increase the acceleration/ deceleration time or reduce the load.

Reduce load.

(2) Readjust the gain.

(3) Connect the wiring of the motor according to the wiring diagrams. Replace the cable.

(4) Correct the distortion of machine. Reduce load.

(5) Measure the voltage at the electromagnetic brake terminal. Release the electromagnetic brake.

(6) Perform wiring properly so that the motor cable and encoder cable may be connected one-one-one to the

amplifier.

NOTE