INVT GD300-015G-4 User Manual

Introduction to Goodrive300 series VFDs, their features, and manual usage guidelines.

Guidelines for safe operation, including wiring, component handling, and environmental considerations.

Safety precautions for VFD delivery and installation, including material choice and handling.

Safety measures for VFD commissioning and operation, including power disconnection and high voltage precautions.

Safety guidelines for maintenance, inspection, and component replacement of the VFD.

Checks to perform after VFD installation to ensure correct wiring, mounting, and component setup.

Steps for basic VFD commissioning, including motor type selection, autotuning, and parameter setup.

Detailed technical specifications of the VFD, including input/output, control features, and interface.

Table of rated specifications for different VFD models, including power, current, and voltage.

Detailed specifications for AC 3PH 380V (-15%)–440V (+10%) VFDs, including model and ratings.

Detailed specifications for AC 3PH 380V (-10%)–550V (+10%) VFDs, including model and ratings.

Detailed specifications for AC 3PH 520V (-15%)–690V (+10%) VFDs, including model and ratings.

Details on mechanical installation, including environmental requirements and mounting considerations.

Guidelines for selecting an appropriate installation environment for the VFD, covering temperature, humidity, and altitude.

Standard wiring diagrams for the main circuit connections of Goodrive300 VFDs across different voltage ratings.

Main circuit connection diagrams for 380V VFDs, detailing connections for ≤30kW and ≥37kW models.

Main circuit connection diagrams for 380V-550V VFDs, covering ≤18.5kW and ≥22kW models.

Main circuit connection diagrams for 520V-690V VFDs, detailing connections for ≥37kW models.

Instructions for wiring the main circuit terminals, including grounding, motor, and brake resistor connections.

Diagram detailing the control circuit wiring for Goodrive300 VFDs, including digital and analog inputs.

Instructions on operating the VFD using the keypad, including navigating menus and modifying parameters.

Step-by-step guide on how to modify VFD function codes, covering menu levels and parameter modification.

Comprehensive list and description of general function parameters for Goodrive300 series VFDs, organized by group.

Steps for the initial powering on of the VFD after installation and wiring checks.

Explanation of vector control principles for asynchronous and synchronous motors, and parameter recommendations.

Explanation of torque control mode versus rotation speed control mode and their focusing points.

Important notes and warnings regarding motor parameter autotuning, safety during the process, and motor coupling.

Explanation of the three starting methods and control states for the VFD, including auto fault reset.

Methods for setting the VFD frequency, including main and assistant channels, and multi-function terminals.

Guide to setting parameters for multi-step speed running, enabling 16-stage speed selection via terminal combinations.

Explanation of PID control for procedure control, adjusting output frequency by proportional, integral, and differential operations.

Step-by-step guide to setting PID parameters: ensuring gain P, integral time Ti, and derivative time Td.

Information on fault procedures, including resetting faults, viewing fault history, and identifying causes and solutions.

Methods for resetting VFD faults using the keypad, digital input, or power switching.

Steps to take after a VFD fault, including checking parameters, identifying abnormal states, and implementing solutions.

Table listing VFD faults, their causes, and corresponding solutions for troubleshooting and resolution.

Common fault analysis flowcharts for diagnosing issues like motor not working or motor vibration.

Flowchart for analyzing and resolving the common fault where the motor does not work.

Flowchart for diagnosing and resolving overvoltage faults in the VFD.

Flowchart for diagnosing and resolving undervoltage faults in the VFD.

Troubleshooting steps for diagnosing VFD overheating, covering load, ambient temperature, and fan checks.

Troubleshooting flowchart for diagnosing and resolving motor stall issues occurring during acceleration (ACC).

Troubleshooting flowchart for diagnosing and resolving overcurrent faults in the VFD.

Technical data on VFD capacity, motor current and power ratings, and supply voltage considerations.

VFD sizing based on rated motor current and power, including maximum shaft power limits and ambient temperature ratings.

Information on load capacity derating due to ambient temperature, altitude, and switching frequency.

Details on rated output current derating based on ambient temperature, with a graphical representation.

Table of maximum motor cable lengths meeting EU EMC directive for 4 kHz carrier frequency, and EMC regulations.

Information on selecting braking components such as resistors and units to prevent overvoltage faults.

Guidelines for selecting braking components based on load inertia, VFD voltage, and operational requirements.