How to fix SCI communication time-out on hpmont HD09-2S1P5G?
If your hpmont Inverter is experiencing SCI communication time-out, there may be a connection fault with the communication cable or the cable is disconnected or not well connected, so please check the connection.
What to do if hpmont HD09-2S1P5G Inverter shows DC bus over voltage during acceleration?
If your hpmont Inverter displays a DC bus acceleration overvoltage error, it could be due to several factors: the input voltage being too high, a deceleration time set too short, improper wiring leading to hardware overvoltage, or an incorrect selection of braking devices. Here’s how to address it: * Verify the power input. * Set a proper value for deceleration time using parameter F03.02. * Inspect the wiring and ensure it is correctly wired. * Select braking devices according to the recommendations.
How to fix hpmont Inverter acceleration overcurrent?
Inverter acceleration overcurrent in your hpmont device can occur due to improper connection between the inverter and motor, incorrect motor parameters, an inverter rating that's too small, or an acceleration/deceleration time that's too short. Here’s how to troubleshoot: * Ensure the inverter and motor are properly connected. * Set the correct motor parameters using settings F08.00 - F08.03. * Choose an inverter with a higher rating. * Set appropriate acceleration and deceleration times (F03.01, F03.02).
Why is my hpmont Inverter motor overloading?
Your hpmont Inverter's motor might be overloading due to an improper setting of the V/f curve, low mains supply voltage, prolonged operation with a heavy load at low speed, or blocked torque/excessive load. To resolve this: * Adjust the setting of the V/f curve using parameters F09.01 - F09.06. * Check the power input. * Consider using a special motor. * Inspect the load and mechanical transmission devices.
What does CPU fault mean on hpmont Inverter?
If your hpmont Inverter is showing a CPU fault, it indicates the CPU is abnormal, so please detect at power on after completely power outage. If the issue persists, please seek technical support.
What to do if there is fault of current detection circuit in hpmont HD09-2S1P5G?
If your hpmont Inverter indicates a fault in the current detection circuit, it means the current detection circuit is damaged, so please contact the supplier for repairing.
What causes motor overload on hpmont HD09-2S1P5G Inverter?
If the hpmont Inverter indicates a motor overload, the V/f curve setting might be incorrect, so adjust the setting of V/f curve (F09.01 - F09.06). The mains supply voltage might be too low, so check the power input. It's possible the motor is running for a long time with a heavy load at low speed, so please use a special motor. Also, the motor might be running with blocked torque or the load is too heavy, so check the load and mechanical transmission devices.
What to do for DC bus acceleration over voltage on hpmont HD09-2S1P5G?
If your hpmont Inverter shows a DC bus acceleration overvoltage, the input voltage might be too high, so please check the power input. The deceleration time might be too short, so set a proper value for deceleration time (F03.02). Improper wiring could lead to overvoltage of hardware, so check the wiring and wire the inverter properly. It may also be due to improper selection of the braking devices, so select according to the recommended braking devices of section 5.2 Braking Resistor, page 16.
What causes SCI communication time-out in hpmont HD09-2S1P5G Inverter?
SCI communication time-out with your hpmont Inverter can be caused by a connection fault in the communication cable, or if the cable is disconnected or not well connected. To resolve this, check the connection.
What to do if hpmont HD09-2S1P5G Inverter parameters auto-tuning fault?
If your hpmont Inverter's parameter auto-tuning fails, it is likely due to the parameter auto-tuning timing out. To address this: * Check the motor’s connection. * Input the correct motor parameters using settings F08.01 - F08.03.
Outlines environmental and spatial requirements for installing the inverter.
Covers essential electrical requirements including grounding and wiring.
Covers essential grounding methods and resistance requirements for safety.
Details how to route power, motor, and control cables to avoid interference.
Explains the built-in EMI filter and leakage protection switch functions.
Describes the power terminals for Size A and Size B units and their connections.
Details the control terminals, their functions, and wiring examples.
Provides recommended specifications for MCCB, contactor, and cables.
Summarizes electrical, environmental, and accessory specifications for the inverter.
Describes the standard LCD and optional LED display keypads and their buttons.
Provides step-by-step instructions for operating the inverter using the keypad.
Details how to control the inverter using external terminals for start/stop and direction.
Explains controlling the inverter via communication interfaces like MODBUS.
Defines parameters for acceleration and deceleration times, including switchover.
Details parameters for PID control, including feedback and gain settings.
Covers parameters for motor rated values and auto-tuning functions.
Details function selections for digital input and output terminals.
Covers parameters for analogue inputs (AI) and outputs (AO).
Details parameters for overload, output phase loss, and auto-reset.
Provides guidance on identifying and resolving inverter faults and alarms.
Outlines daily and periodic maintenance procedures for inverter longevity.
Covers parameters for adjusting acceleration and deceleration times.
Details parameters for PID control, including feedback and gain settings.
Covers parameters for motor rated values and auto-tuning functions.
Details parameters for configuring digital inputs and outputs.
Covers parameters for analogue inputs and outputs.
Details parameters for overload, output phase loss, and auto-reset.
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