5.1Errors (Alarms)
PROTECTIVE FUNCTIONS
If any fault has occurred in the inverter, the corresponding protective function is activated and the error (alarm) indication appears automatically on the PU display. When the protective function is activated, refer to "5.2 Troubleshooting" and clear up the cause by taking proper action. If an alarm stop has occurred, the inverter must be reset to restart it.
5.1.1 Error (alarm) definitions
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E.OC1 | OC During | During |
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Acc | acceleration |
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| Stedy Spd | During |
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E.OC2 | constant | Overcurrent | When the inverter output current reaches or exceeds approx. 200% of the | ||
OC | |||||
| speed | rated current, the protective circuit is activated to stop the inverter output. | |||
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| OC During | During |
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E.OC3 | deceleration |
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Dec |
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| During stop |
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E.OV1 | OV During | During |
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Acc | acceleration |
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| If regenerative energy from the running motor causes the inverter's | |
| Stedy Spd | During |
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| Regenerative | internal main circuit DC voltage to reach or exceed the specified value, | |||
E.OV2 | constant | ||||
OV | overvoltage | the protective circuit is activated to stop the inverter output. | |||
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| This may also be activated by a surge voltage generated in the power | |||
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| During | |||
| OV During |
| supply system. | ||
E.OV3 | deceleration |
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Dec |
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| During stop |
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| The electronic overcurrent protection in the inverter detects motor | |
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| overheat due to overload or cooling capability reduced during constant- | |
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| speed operation. When 85% of the preset value is reached, | |
E.THM | Motor |
| Motor | (TH indication) occurs. When the specified value is reached, the | |
Ovrload |
| protective circuit is activated to stop the inverter output. When a special | |||
| Overload |
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| motor such as a | ||
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| motor cannot be protected by the electronic overcurrent protection. | ||
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| Provide a thermal relay in the inverter output circuit. | ||
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| overcurrent |
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| protection) |
| If a current not less than 150% of the rated output current flows and | |
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| Inv. |
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| overcurrent | |
E.THT |
| Inverter | characteristics cause the electronic overcurrent protection to be activated | ||
Overload |
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| to stop the inverter output. (Overload immunity: 150%, 60 sec) | ||
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| If a power failure has occurred in excess of 15msec (this applies also to | |
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| inverter input | |
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| to prevent the control circuit from misoperation. At this time, the alarm | |
E.IPF | Inst.Pwr. | Instantaneous power failure | output contacts are opened (across | ||
Loss | protection |
| (Note 1) If a power failure persists for more than 100ms, the alarm output | ||
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| is not provided, and if the start signal is on at the time of power | |
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| restoration, the inverter will restart. (If a power failure is instantaneous | |
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| within 15msec, the control circuit operates properly.) | |
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| If the inverter power supply voltage drops, the control circuit will not | |
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| operate properly. Furthermore, the motor torque could drop and the heat | |
E.UVT | Under | Undervoltage protection | generated may increase. The inverter output will be stopped if the power | ||
Voltage | supply voltage drops to 150V (approx. 300V for 400V class) or less. | ||||
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| The undervoltage protection function will activate if the DC reactor | |
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| accessory is not used. | |
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E.FIN | H/Sink | Fin overheat |
| If the cooling fin overheats, the temperature sensor is activated to stop | |
O/Temp |
| the inverter output. | |||
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