Need help?Do you have a question about the Fuling Inverter DZB300 Series and is the answer not in the manual?
General| Input Frequency | 50/60Hz |
|---|---|
| Protection Level | IP20 |
| Cooling Method | Forced air cooling |
| Storage Temperature | -20°C to +60°C |
| Input Voltage | 380V |
| Output Voltage | 0 to rated input voltage |
| Output Frequency | 0-400Hz |
| Control Mode | V/F control, Sensorless vector control |
| Braking Unit | Built-in or external (optional) |
| Protection Features | Overcurrent, Overvoltage, Undervoltage, Overheat, Overload |
| Communication | RS485 |
| Overload Capacity | 150% for 60 seconds, 180% for 10 seconds |
| Operating Temperature | -10°C to +40°C |
| Humidity | 5% to 95% non-condensing |
| Altitude | Below 1000m (Derating above 1000m) |
Manual guides installation, parameter setting, troubleshooting, and safe operation with warnings.
Defines safety levels (Danger, Note) and provides step-by-step cautions for installation and operation.
Covers cautions for running, maintenance, motor insulation, frequency, voltage, and environmental factors.
Instructions for handling the drive upon receipt and understanding its nameplate details.
Details on environmental requirements, mounting location, and spacing for proper heat dissipation.
Covers main circuit wiring, applicable devices, and peripheral equipment wiring diagrams.
Provides basic wiring diagrams, main circuit terminal descriptions, and wiring notes.
Details control terminal layout, functions, notes, and electromagnetic compatibility (EMC) guidelines.
Discusses harmonic influence, EMI mitigation, and leakage current management.
Describes the digital keypad layout and explains screen messages during operation and stop states.
Explains the 3-level menu for parameter settings and how to view inverter status parameters.
Covers password protection and the procedure for automatic motor parameter tuning.
Lists and describes F0 basic function parameters and F1 motor parameters.
Details F2 input/output terminal parameters and F3 human machine interface parameters.
Covers F3 HMI parameters, F4 application functions, and related settings.
Details F4 application functions and F5 protection parameters.
Covers F5 protection parameters and F6 communication parameters.
Details F6 communication parameters for serial interface settings.
Detailed descriptions of F0.00-F0.03 parameters: Control Mode, Command Source, UP/DOWN, Frequency Selection.
Details F0.04-F0.07 (Output Frequency) and 6. Remote Communication settings.
Describes F0.08-F0.23 parameters related to acceleration, deceleration, stopping, and braking.
Covers F0.24-F0.25, and F1.00-F1.05 for inverter model and basic motor ratings.
Details F1.06-F1.18 parameters for motor characteristics, self-learning, and speed loop tuning.
Covers F1.19-F1.24 (Torque, V/F, Energy Saving) and F2.00 (Signal Filter).
Details F2.01-F2.06 (Terminal Functions) and F2.07 (Control Modes).
Describes F2.08-F2.13 parameters for VI and CI analog input voltage/filtering.
Covers F2.14-F2.22 for CI input, output terminal functions, and analog output selection.
Details F2.23-F2.26 (Analog Output) and F3.00-F3.03 (User Password, STOP Option).
Covers F3.04-F3.13 for display options, module temp, software version, and fault history.
Details F3.14-F3.18 (Fault Status) and F4.00-F4.06 (Accel/Decel, Jogging, Skip).
Covers F4.07-F4.15 for Traverse, Fault Reset, FDT detection parameters.
Details F4.16-F4.24 for Brake Voltage, Speed Display, PID control setup and sources.
Explains PID control operation, proportional/integral/differential times, and discrepancy limit.
Covers F4.29-F4.36 (Multi-Speed) and F5.00 (Motor Overload Protection).
Details F5.01-F5.07 for overload current, power-down drop point, and over-voltage stall protection.
Covers F5.06-F5.07 (Current Limit) and F6.00-F6.02 (Communication settings).
Details F6.03-F6.06 for communication response delay, overtime faults, and error handling.
Identifies common faults and provides troubleshooting for no power and DC bus under-voltage.
Troubleshooting steps for over-voltage and over-current faults during running and acceleration/deceleration.
Provides diagnosis for motor overload, inverter overload, inverse unit, external, and diode module faults.
Troubleshooting for EEPROM, phase input/output, current inspection, learning, and communication faults.
Outlines manufacturer's responsibilities, user service rights, warranty period, and exclusions.
Provides a summary of key technical specifications for DZB300 and DZB200 series inverters.
Details the voltage ratings and specifications for AC220V and AC380V series inverters.
Defines Modbus protocol content, application modes, bus structure, and frame formats (RTU/ASCII).
Details RTU/ASCII frame standards and explains command codes for communication.
Illustrates RTU and ASCII command/response messages for master and slave devices.
Explains communication frame error checks, including byte bit checks and CRC checks.
Details CRC calculation and defines communication data addresses for inverter control.
Lists various data addresses for settings and status, and explains exception responses.
Provides ASCII fault response message structure and a table of fault code meanings.
Illustrates the physical dimensions for different inverter frame types (Plastic, Steel).
Lists standard extension cables and provides dimensions for digital hand-held programming panels.
To Next Page
