What does Err02 mean on Inovance DC Drives?
Err02 can be caused by several issues. First, the main circuit may be grounded or short-circuited on the output side; eliminate external problems such as wiring errors. Second, motor auto-tuning may not have been performed; perform motor auto-tuning. Finally, the load may be too heavy; reduce the burst load.
What to do if Inovance DC Drives AC drive display is normal upon power-on, but "CRANE" is displayed after running and the AC drive stops immediately?
If the AC drive display is normal upon power-on, but "CRANE" is displayed after running and the AC drive stops immediately, the 8-core cable between the drive board and the control board may be in poor contact. Re-connect the 8-core cable. If the problem persists, contact the agent or Inovance for technical support.
What to do if there is no display at power-on for Inovance DC Drives?
If there is no display at power-on, the issue could be due to a few reasons. First, check the power supply to the AC drive. Second, the 8-core cable between the drive board and the control board might have poor contact; try reconnecting it. If neither of these steps works, components inside the AC drive may be damaged, and you should contact the agent or Inovance for technical support.
How to fix Err14 (module overheat) reported frequently on Inovance DC Drives?
If Err14, indicating module overheat, is frequently reported, it may be due to several reasons. First, the carrier frequency setting might be too high; try lowering it (F0-15). Second, the cooling fan could be damaged, or the air filter might be blocked; in this case, replace the fan and clean the air filter. If neither of these resolves the issue, the components inside the AC drive may be damaged (thermal coupler or others), and you should contact the agent or Inovance for technical support.
General| Humidity | 5% to 95% (non-condensing) |
|---|---|
| Cooling Method | Forced air cooling |
| Output Voltage | 0 to Input Voltage |
| Output Current | Dependent on model |
| Control Mode | V/F control, sensorless vector control |
| Protection Functions | Overvoltage, undervoltage, overload, overheat, short circuit |
| Communication | Modbus, CANopen |
| Operating Temperature | -10°C to 40°C |
| Storage Temperature | -20°C to 60°C |
Essential safety guidelines before, during, and after installation and operation.
Detailed precautions for motor tests, operation limits, and environmental factors.
Explains the naming convention and model structure of the CS500 drive.
Details the information found on the CS500 product nameplate.
Lists available CS500 models with their power capacity, current, and motor compatibility.
Outlines the technical features and performance parameters of the CS500 drive.
Provides drawings and dimensions for physical installation and mounting.
Lists available optional accessories for enhancing CS500 functionality.
Covers routine checks, periodic inspections, and maintenance procedures.
Outlines the terms and conditions of the product warranty.
Provides guidance on selecting the appropriate CS500 model based on application needs.
Offers advice on selecting suitable braking components for the CS500.
Details environmental requirements and installation space for mechanical setup.
Covers selection of peripheral devices and detailed wiring procedures.
Explains the controls, indicators, and display of the CS500 operation panel.
Guides users on navigating and changing function codes and parameters.
Describes how to monitor the drive's operational status and parameters.
Details methods for controlling the drive's start and stop functions.
Explains how to configure frequency sources and settings for operation.
Covers motor parameter configuration and the auto-tuning process.
Instructions for setting up password protection for parameter access.
Lists and describes fundamental operating parameters (F0 group).
Details parameters related to motor configuration and auto-tuning (F1 group).
Covers parameters specific to vector control modes (F2 group).
Details parameters for Voltage/Frequency (V/F) control modes (F3 group).
Describes the functions and configurations of input terminals (F4 group).
Explains the functions and configurations of output terminals (F5 group).
Lists auxiliary functions for enhanced control and operation (F6 group).
Parameters related to the operation panel and display features (F7 group).
Details additional auxiliary functions for specialized control (F8 group).
Lists protection functions and fault codes for system safety (F9 group).
Parameters specific to crane operation sequences (FA group).
Advanced functions tailored for crane applications (FB group).
Parameters for configuring multi-speed operation modes (FC group).
Settings for communication protocols and interfaces (FD group).
Parameters for managing user passwords and system security (FP group).
Defines Electromagnetic Compatibility (EMC) and its importance.
Discusses the EMC standards and testing applied to the CS500.
Addresses the impact of power supply harmonics on the AC drive.
Guidelines to mitigate electromagnetic interference during installation.
Methods to prevent external equipment interference on the AC drive.
Methods to prevent the AC drive from interfering with surrounding equipment.
Discusses leakage current issues and their handling.
Specific installation precautions for EMC input filters.
Overview of the CS500's fault detection and protection features.
Lists common issues, their causes, and solutions for troubleshooting.
Details the available PG card models and their technical specifications.
Explains how to use the PG card for encoder signal processing.
Shows connection diagrams for encoders with the PG card.
Introduces the MD32IO card and its capabilities for expanding I/O.
Guides on installing the card and describes its control terminals.
Introduces the CS70RC1 relay extension card and its included parts.
Details the installation process and control terminals of the relay card.
Explains how to set parameters related to the relay extension card functions.
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