What does current limit reached mean on Lenze ESMD552L4TXA Inverter?
If the Lenze Inverter shows 'Current limit reached', it indicates a controllable overload. This is managed automatically, as described in C22.
What to do for Controller overtemperature on Lenze Inverter?
If the Lenze Inverter displays 'Controller overtemperature', it means the controller is too hot inside. To resolve this, reduce the controller load and improve cooling.
Why are Lenze Inverter buttons not working?
If the Lenze Inverter indicates that the remote keypad is active, the buttons on the front of the controller are disabled. This is normal operation when the remote keypad is in use.
Why is Lenze ESMD552L4TXA Inverter output frequency 0 Hz?
If the Lenze Inverter's output frequency is 0 Hz and the outputs U, V, W are inhibited, it could be due to: * Setpoint = 0 Hz (C31 = 0): In this case, you need to perform a setpoint selection. * Quick stop activated through digital input or serial link: Deactivate the Quick stop.
What to do if Lenze DC Drives show a short-circuit or overload?
If the Lenze DC Drives indicate a short-circuit or overload, the cause may be a short-circuit. You should find the reason for the short-circuit and check the motor cable. It can also be caused by excessive capacitive charging current of the motor cable, in this case use shorter motor cables with lower charging current. If the acceleration time is too short, increase the acceleration time and check the controller selection. Also, check wiring if the motor cable is defective and check the motor for internal faults. If there is frequent and long overload, check the controller selection.
How to resolve Lenze Inverter stop with inhibited outputs?
If the Lenze Inverter stops and the outputs U, V, W are inhibited, it is because there is a LOW signal at terminal 28. To solve this, set terminal 28 to HIGH.
What causes undervoltage on DC bus in Lenze Inverter?
If the Lenze Inverter shows 'Undervoltage on DC bus', the mains voltage might be too low. Check the mains voltage to ensure it is within the required range.
How to fix communication error on Lenze ESMD552L4TXA Inverter?
If the Lenze Inverter reports a communication error, it could be due to the serial timer timing out. In this case, check the serial link connections.
What does earth fault mean on Lenze ESMD552L4TXA?
If the Lenze Inverter indicates an earth fault, it could be due to: * A grounded motor phase: Inspect the motor and motor cable. * Excessive capacitive charging current of the motor cable: Use shorter motor cables with a lower charging current.
What causes motor overload on Lenze ESMD552L4TXA?
If the Lenze Inverter displays a motor overload (I2t overload), it means the motor is thermally overloaded. This can be due to: * Impermissible continuous current. * Frequent or excessively long acceleration processes. To resolve this: * Check the controller selection. * Check the setting of c20.
General| Type | Inverter |
|---|---|
| Power Rating | 5.5 kW |
| Input Voltage | 380-480 V AC |
| Output Voltage | 0-480 V AC |
| Input Current | 12 A |
| Output Current | 12 A |
| Series | ESMD |
| Protection Class | IP20 |
| Communication Interface | CANopen |
| Cooling Method | Fan |
| Operating Temperature | -10 ... 40 °C |
| Storage Temperature | -25 ... 70 °C |
| Relative Humidity | 5% to 95% (non-condensing) |
| Control Method | Vector Control |
General safety precautions and responsibilities for personnel.
Guidelines for intended use and compliance with directives like Machinery and EMC.
Precautions for handling, avoiding mechanical stress, and electrostatic discharge.
Requirements for electrical installation, national regulations, and EMC considerations.
Requirements for monitoring, protection devices, and safe operation practices.
Policy and liability statement regarding explosion proof motors and inverter use.
Notes specific to UL systems, including branch circuit protection and wiring.
Overview of conformity, approvals, and environmental conditions for operation.
Detailed specifications for power, voltage, current, and frequency ratings.
Instructions for connecting the drive electrically, including EMC.
Detailed description of each control terminal and its function.
Detailed explanation of error codes, their causes, and corrective actions.
Troubleshooting steps for OC1 short-circuit or overload errors.
Troubleshooting steps for OC2 earth fault errors.
Troubleshooting steps for OC6 motor overload errors, including UL delay.
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