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General| Model | VFD17AMS23ANSHA |
|---|---|
| Output Current | 17 A |
| Enclosure | IP20 |
| Input Voltage | 200 ~ 240 VAC |
| Phase | 3-Phase |
| Control Method | V/F Control, Sensorless Vector Control |
| Communication Protocol | MODBUS |
| Protection Features | Overheat protection |
| Operating Temperature | -10°C to 50°C |
| Storage Temperature | -20°C to 60°C |
| Humidity | 90% RH, non-condensing |
| Cooling Method | Fan |
Critical safety warnings regarding electrical hazards and component handling.
Important safety precautions for installation, wiring, and operation.
Guidelines for proper ventilation and spacing to ensure safe and effective installation.
General wiring instructions and diagrams for connecting the AC motor drive.
Comprehensive system wiring diagrams illustrating the connections of various components.
Visual representation of the main electrical circuit connections for the AC motor drive.
Detailed specifications and dimensions for ring lugs used in main circuit terminals.
Guidelines for connecting and using analog input signals for control.
Description of contact input terminals and their configurations.
Details on connecting and using transistor output terminals.
Selection guide for brake resistors and units compatible with AC motor drives.
Step-by-step guide for installing various option cards into the drive.
Environmental conditions for operation, storage, and transportation of the AC motor drive.
Derating curves and guidelines for ambient temperature and altitude effects on drive performance.
Explanation of the displayed items and their corresponding functions on the keypad.
Step-by-step guide on navigating and operating the digital keypad for various functions.
Detailed instructions on setting parameters, including user-defined applications and left shift key functions.
Additional protection parameters, including fault records and over-torque detection.
Detailed explanations of drive parameters, including identity codes and reset options.
Overview of essential basic parameters for motor operation, including frequency and voltage settings.
Settings for digital input and output functions, including multi-function terminals.
Configuration for analog inputs and outputs, including gain, bias, and filtering.
Detailed explanations of protection functions like low voltage, over-voltage, and over-current stall prevention.
Description and corrective actions for Modbus function code errors.
Description and corrective actions for errors related to Modbus data addresses.
Description and corrective actions for illegal Modbus data values.
Description and corrective actions for Modbus communication errors.
Warning code for IGBT overheating and corrective actions.
Causes and corrective actions for motor overheating due to internal temperature.
Descriptions and corrective actions for output phase loss errors.
Description and corrective actions for over-current errors during acceleration.
Description and corrective actions for over-current errors during deceleration.
Description and corrective actions for over-current errors during constant speed operation.
Error code and corrective actions for short circuits or IGBT module damage.
Causes and corrective actions for DC-BUS over-voltage during constant speed operation.
Causes and corrective actions for DC-BUS over-voltage during deceleration.
Causes and corrective actions for DC-BUS over-voltage at constant speed.
Causes and corrective actions for low DC-BUS voltage during acceleration.
Causes and corrective actions for low DC-BUS voltage during deceleration.
Causes and corrective actions for low DC-BUS voltage during constant speed operation.
Corrective actions for phase loss detection in 3-phase or 1-phase applications.
Causes and corrective actions for IGBT overheating.
Corrective actions for IGBT hardware errors.
Causes and corrective actions for excessive drive output current (overload).
Causes and corrective actions for motor overheating detected by internal temperature.
Corrective actions for internal hardware errors detected on S1~DCM.
Corrective actions when the safe torque off function is active.
Corrective actions for internal hardware errors detected on S2~DCM.
Corrective actions for internal hardware errors detected on both S1~DCM and S2~DCM.
Corrective actions for U-phase short circuits.
Corrective actions for V-phase short circuits.
Corrective actions for W-phase short circuits.
Corrective actions for output phase loss on Phase U.
Corrective actions for output phase loss on Phase V.
Corrective actions for output phase loss on Phase W.
Overview of the Safe Torque Off (STO) function and its international specifications.
Detailed description of STO related terminal functions and action logic.
Wiring diagrams for the safe control loop, including ESTOP switch connections.
Description of STO relevant error codes and troubleshooting steps.
Steps to check the normal operation of STO and related detection functions.
