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rachelbassSep 23, 2025
What to do if my CG VSS23 9p5 CEB show Err41?
- MMark BeardSep 23, 2025
If your CG DC Drive displays Err41, and E0.18 = 00100, it means that the current output amp is more than E0.19. Check the current load.
What to do if my CG VSS23 9p5 CEB show Err41?
If your CG DC Drive displays Err41, and E0.18 = 00100, it means that the current output amp is more than E0.19. Check the current load.
What to do if my CG VSS23 9p5 CEB show Err29?
If your CG DC Drive displays Err29, it indicates a fault that can arise from several causes. Here's what you should check: 1. The inverter output circuit is grounded or short-circuited: Troubleshoot peripheral problems. 2. The acceleration and deceleration time is too short: Increase the acceleration time. 3. Manual torque boost or V/F curve is not appropriate: Adjust the manually torque boost or V/F curve. 4. Voltage too low: Adjust the voltage to normal range. 5. Starting the running motor: Select RPM track start or start after the motor has stopped. 6. Sudden load in the acceleration process: Cancel the sudden load. 7. Model selection of inverter power is too small: Select an inverter with a higher rating.
What to do if my CG VSS23 9p5 CEB DC Drives show Err02?
If your CG DC Drives display Err02, it could be due to: * The output circuit being grounded or short-circuited: Eliminate external faults. * The deceleration time is too short: Increase the deceleration time. * The voltage is too low: Adjust the voltage to normal range. * A sudden load is added during deceleration: Remove the added load. * The braking unit and braking resistor are not installed: Install the braking unit and braking resistor.
What to do if my CG VSS23 9p5 CEB DC Drives show Err30?
If your CG DC Drive shows Err30, consider the following potential causes and solutions: 1. Input voltage is too high: Adjust the voltage to the normal range. 2. There is external force dragging the motor to run in the deceleration process: Cancel external force or install a brake resistor. 3. The deceleration time is too short: Increase the deceleration time. 4. No installation of braking resistor: Install braking resistor.
What to do if my CG VSS23 9p5 CEB DC Drives show Err03?
If your CG DC Drives display Err03, it may be caused by: * The output circuit being grounded or short-circuited: Eliminate external faults. * The voltage is too low: Adjust the voltage to normal range. * A sudden load is added during operation: Remove the added load. * The AC drive model is of too small power class: Select an AC drive of higher power class.
What to do if my CG VSS23 9p5 CEB DC Drives show Err13?
If your CG DC Drives display Err13, it indicates that an external fault signal is input via DI. Reset the operation.
What to do if my CG VSS23 9p5 CEB show Err23?
If your CG DC Drives are showing Err23, it could be because: * The brake line failure or damage the brake pipe: Check the brake unit, replace the brake pipe. * An external braking resistor is too small: Increase the braking resistor.
What to do if my CG DC Drives show Err18?
If your CG DC Drives display Err18, it could be due to: * The PC is not working properly: Check the PC Connection. * The communication line is not normal: Check the communication cable. * H0 set communication parameters set incorrectly: The communication parameters are set correctly.
What to do if my CG VSS23 9p5 CEB DC Drives show Err39?
If your CG DC Drive displays Err39, consider these possible causes: 1. PTC sensor configuration not right: Reset PTC sensor parameter. 2. Motor temperature protection value too small: Increase motor temperature protection value. 3. Motor temperature too high: Wait until the motor is cooled.
What to do if my CG VSS23 9p5 CEB DC Drives show Err14?
If your CG DC Drives display Err14, it might be due to: * The ambient temperature is too high: Lower the ambient temperature. * The air filter is blocked: Clean the air filter. * The fan is damaged: Replace the damaged fan. * The thermally sensitive resistor of the module is damaged: Replace the damaged thermally sensitive resistor. * The inverter module is damaged: Replace the inverter module.
General safety guidelines for product use and handling before and during installation.
Provides detailed wiring diagrams for various VS series models and essential wiring remarks.
Explains the main circuit and control circuit terminal configurations for different VSX, VSM, VSS, and VSR models.
Explains the process and validity of motor auto-tuning for optimal performance.
Parameters related to frequency command sources, settings, limits, and operation.
Parameters for controlling start/stop operations, including run command, direction, and stop modes.
Parameters for acceleration and deceleration times, curves, and switchover points.
Parameters specific to Motor 1, including type, power rating, voltage, current, and resistance.
V/f control parameters for Motor 1, covering curve settings, torque boost, and voltage compensation.
Vector control parameters for Motor 1, including speed/torque control, PI gains, and flux-weakening.
Parameters for Motor 2, mirroring those for Motor 1 (Group D0).
V/f control parameters for Motor 2, mirroring those for Motor 1 (Group D1).
Vector control parameters for Motor 2, mirroring those for Motor 1 (Group D2).
Parameters for various protection functions like current limits, overvoltage, and overload protection.
General safety guidelines for product use and handling before and during installation.
Provides detailed wiring diagrams for various VS series models and essential wiring remarks.
Explains the main circuit and control circuit terminal configurations for different VSX, VSM, VSS, and VSR models.
Explains the process and validity of motor auto-tuning for optimal performance.
Parameters related to frequency command sources, settings, limits, and operation.
Parameters for controlling start/stop operations, including run command, direction, and stop modes.
Parameters for acceleration and deceleration times, curves, and switchover points.
Parameters specific to Motor 1, including type, power rating, voltage, current, and resistance.
V/f control parameters for Motor 1, covering curve settings, torque boost, and voltage compensation.
Vector control parameters for Motor 1, including speed/torque control, PI gains, and flux-weakening.
Parameters for Motor 2, mirroring those for Motor 1 (Group D0).
V/f control parameters for Motor 2, mirroring those for Motor 1 (Group D1).
Vector control parameters for Motor 2, mirroring those for Motor 1 (Group D2).
Parameters for various protection functions like current limits, overvoltage, and overload protection.
General