Error Code List.pdf - 第33页
AV131 ERROR CODE LIST 2.4 Errors D79EEC- 91-210-A 0 2.4- 10 1717 ZL / Z R a xes m i nu s o v er r un i n t er l o c k DESCRI PTIO N Th e m in u s o v er r u n in t erl o c k of th e Z L/ Z R a xes wa s d et ec t ed . CAU…
AV131
ERROR CODE LIST
2.4 Errors
D79EEC-91-210-A0
2.4-9
1711
θA axis minus overrun interlock
DESCRIPTION
The minus overrun interlock of the θA axis was detected.
CAUSE
θA minus overrun (80041:bit6) was detected while the θA axis was running. θA axis is located near mechanical
stopper.
SOLUTION
Please confirm θA minus overrun detection. Please confirm θA axis position.
NOTE
1712
V axis plus overrun interlock
DESCRIPTION
The plus overrun interlock of the V axis was detected.
CAUSE
V plus overrun (80082:bit0) was detected while the V axis was running. V axis is located near mechanical stopper.
SOLUTION
Please confirm V plus overrun detection. Please confirm V axis position.
NOTE
1713
V axis minus overrun interlock
DESCRIPTION
The minus overrun interlock of the V axis was detected.
CAUSE
V minus overrun (80082:bit2) was detected while the V axis was running. V axis is located near mechanical stopper.
SOLUTION
Please confirm V minus overrun detection. Please confirm V axis position.
NOTE
1714
X axis plus/minus overrun interlock
DESCRIPTION
The plus/minus overrun interlock of the X axis was detected.
CAUSE
X plus/minus overrun (80582:bit5) was detected while the X axis was running. X axis is located near mechanical
stopper.
SOLUTION
Please confirm X plus/minus overrun detection. Please confirm X axis position.
NOTE
1715
Y axis plus/minus overrun interlock
DESCRIPTION
The plus/minus overrun interlock of the Y axis was detected
CAUSE
Y plus/minus overrun (80582:bit4) was detected while the Y axis was running. Y axis is located near mechanical
stopper.
SOLUTION
Please confirm Y plus/minus overrun detection. Please confirm Y axis position.
NOTE
1716
ZL/ZR axes plus overrun interlock
DESCRIPTION
The plus overrun interlock of the ZL/ZR axes was detected.
CAUSE
ZL/ZR plus overrun (80582:bit7) was detected while the ZL/ZR ax was running. ZL/ZR axes is located near
mechanical stopper.
SOLUTION
Please confirm ZL/ZR plus overrun detection. Please confirm ZL/ZR axes position.
NOTE
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