What causes bus under voltage during running of Nidec NE300-4T0370G/0450P?
A bus under voltage during the operation of Nidec DC Drives is caused by power grid low voltage, so check the input power source.
What to do if Nidec DC Drives show ground fault?
If your Nidec DC Drives are indicating a ground fault, it could be due to a short circuit in one of the output phases. Check whether the electric motor insulation is weakening. Also, check whether the wiring between the frequency converter and the electric motor is damaged.
What to do if Nidec NE300-4T0370G/0450P show load short-circuit?
If your Nidec DC Drives are displaying a load short-circuit error, check whether the electric motor coil is short circuit. If the inverting module IGBT is damaged, ask for the services from manufacturers.
What to do if Nidec DC Drives show output phase loss?
If your Nidec DC Drives are showing an output phase loss, check the U-V-W motor wiring. Also, if there is a serious unbalance in output, check the load.
What to do if Nidec NE300-4T0370G/0450P DC Drives show input phase loss?
If your Nidec DC Drives are indicating an input phase loss, it means the input RST has phase loss or imbalance, so check input voltage.
General| Input Voltage | 3-Phase 380-480VAC |
|---|---|
| Output Power | 370kW (NE300-4T0370G), 450kW (NE300-4T0450P) |
| Output Current | 740A (NE300-4T0370G), 900A (NE300-4T0450P) |
| Input Frequency | 50/60 Hz |
| Cooling Method | Forced Air Cooling |
| Protection Features | Overcurrent, Overvoltage, Undervoltage, Short Circuit |
| Storage Temperature | -20°C to 65°C |
Provides critical guidelines for the intended and safe use of the drive.
Details important cautions and instructions for safe product installation.
Highlights critical warnings and precautions for electrical wiring safety.
Lists detailed technical specifications for NE200 and NE300 drives.
Lists important precautions and considerations for main circuit wiring.
Explains the multi-level menu structure for viewing and modifying function codes.
Details parameters related to the drive's start and stop operations.
Lists parameters specific to vector control mode for precise motor control.
Outlines parameters for V/F control, including V/F curves and torque boost.
Essential parameters for configuring motor characteristics for optimal performance.
Covers parameters for PID control loop tuning and configuration.
Details motor overload, voltage, current, and phase loss protections.
Details parameters for start, stop, acceleration, and deceleration modes.
Provides detailed parameters for vector control, including speed and torque.
Lists parameters for V/F control, including V/F curves and torque boost.
Essential parameters for configuring motor characteristics for optimal performance.
Covers PID control parameters for loop tuning and configuration.
Details motor overload, voltage, current, and phase loss protections.
Lists common trip codes, possible causes, and recommended solutions.
Describes warning codes, their types, and descriptions.
Provides a table for diagnosing common abnormalities and their countermeasures.
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