Parker 590 series User Manual

Details dangers and warnings associated with the equipment.

Details the various control functions and features of the converter.

Details the physical mounting requirements and dimensions of the converter.

Specifies necessary air clearances and mounting for heat dissipation.

Covers general wiring safety and requirements for EMC compliance.

Outlines essential connections for basic speed controller operation.

Details mandatory earthing requirements for safety and EMC compliance.

Explains connections for 3-phase contactor and AC line choke.

Explains armature connections and considerations for regenerative modes.

Details connections for setpoint inputs, signal ground, and current demand.

Describes the wiring for starting, stopping, and enabling the controller.

Explains how the FIELD CONTROL function block manages the motor field.

Details how to install EMC filters for line conducted emissions.

Discusses recommendations and warnings regarding circuit breakers and earth fault currents.

Provides diagrams for converter stack assembly.

Essential checks to perform before applying power to the converter.

Guides users through the initial setup and calibration process.

Details how to calibrate the converter for motor parameters.

Explains how to set armature voltage calibration using switches.

Step-by-step procedure for the initial startup and configuration.

Explains how to adjust field weakening for speeds above base speed.

Covers tuning the current loop and speed loop for optimal performance.

Details the process and potential issues of the automatic current loop tuning.

Describes different methods for starting and stopping the converter.

Details normal stop, program stop, and coast stop parameters.

Explains how normal stopping is achieved via Terminal C3.

Details achieving a program stop using Terminal B8.

Explains how coast stop is achieved via Terminal B9.

Explains how trip conditions affect stopping and re-enabling.

Outlines the steps for a standard converter start.

Explains how to use the jog function for controlled movements.

Overview of the MMI display, keys, and LEDs.

Explains how to navigate and use the MMI control keys.

Explains the meaning of the status LEDs on the MMI.

Describes the hierarchical menu structure and main menu levels.

Explains how to move through the menu levels using the MMI keys.

Visual representation of the MMI menu structure and parameter locations.

Details how to edit parameter values using the MMI.

Explains how trip and alarm messages are shown on the MMI.

Details how to activate, deactivate, and use password protection for parameters.

Instructions for saving, restoring, and copying application data.

Introduces block diagram programming using MMI or software tools.

Explains the two modes for modifying block diagrams.

Describes how to add, move, or delete links in block diagrams.

Lists the rules to follow when programming in Parameterisation Mode.

Emphasizes saving changes made to parameters or links.

Lists and describes available function blocks and their corresponding pages.

Details the parameters and functionality of analog input blocks.

Details the parameters and functionality of analog output blocks.

Contains motor-specific parameters for calibration.

User parameterization of the conventional current/torque loop.

Parameters for current limiting based on speed for field weakening.

Monitors drive status, internal variables, inputs, and outputs.

Allows user control of software parameters via digital inputs.

Enables outputting digital parameters to external equipment.

Contains all parameters for the field operating mode.

Allows viewing and disabling of trip conditions.

Holds parameters for jog and slack functionality.

General purpose PID block for closed loop control applications.

Controls the rate of response to setpoint changes.

Contains parameters for setting up the speed loop.

Parameters for advanced users, including gain scheduling.

Holds all parameters concerning the stopping method of the converter.

Describes converter behavior when a trip condition occurs.

Explains the immediate actions when a trip is detected.

Details how trip conditions are displayed on the MMI and LEDs.

Provides methods to reset trips and re-enable the converter.

Explains how alarm messages are displayed and stored.

Guides users on how to interpret and manage trip messages via the MMI.

Lists common trip messages and their possible causes.

Provides a table of common problems, causes, and remedies.

Explains how the speed loop accepts demand and forms error signals.