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General| Input Voltage | 480V AC |
|---|---|
| Output Current | 30 A |
| Communication Protocol | EtherNet/IP |
| Amperage | 30 A |
| Enclosure | Open Type |
| Certifications | cULus, CE, C-Tick |
| Horsepower | 20 HP |
| Communication Ports | EtherNet/IP |
| Operating Temperature | -10 to 50 °C |
Guidance on addressing potential power quality issues like low impedance, interruptions, or noise.
Essential requirements for connecting the drive to system ground and ensuring connection integrity.
Recommendations for input fuses and circuit breakers for branch circuit protection, including UL and IEC requirements.
Detailed instructions and considerations for connecting the main power wiring to the drive terminals.
Guidelines on selecting and using unshielded and shielded motor cables, including insulation requirements.
Best practices for wiring digital and analog I/O signals, including separation from power wires.
Details the structure and meaning of the PowerFlex 400 catalog numbers for different configurations.
Outlines the essential steps and checks required before applying power to the drive for initial setup.
Explains how to control the drive's start, stop, direction, and speed using the integral keypad.
Provides step-by-step instructions on how to navigate, view, and edit drive parameters using the integral keypad.
Covers commonly programmed parameters for motor data, frequency limits, start sources, and speed references.
Covers advanced parameters for PID control, acceleration/deceleration, boost, and fault handling.
Lists common fault types, their descriptions, and recommended actions for resolution.
Provides a troubleshooting guide for common drive issues like "Motor does not Start" or "Drive does not power up".
Troubleshooting steps for acceleration problems, including excess load, short times, or incorrect settings.
Troubleshooting guidance for when the drive shows no signs of power, checking input power and jumpers.
Details how the PID loop works, including reference, feedback, error calculation, and parameter settings.
Discusses how to select and scale analog inputs for PID reference and feedback signals.
Provides a step-by-step guide for tuning the PID controller gains to achieve optimal performance.
Details the feature for controlling up to three auxiliary motors in conjunction with the main drive-controlled motor.
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