6000-TD004D-EN-P PowerFlex 6000 Medium Voltage …literature.rockwellautomation.com/idc/groups/literature/documents/... · PowerFlex 6000 Medium Voltage Variable Frequency Drive Firmware,

PowerFlex 6000 Medium Voltage Variable Frequency Drive Firmware, Parameters, and Troubleshooting ManualFirmware Revision 6.xxx

Technical Data

Important User Information

Read this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.

Activities including installation, adjustments, putting into service, use, assembly, disassembly, and maintenance are required to be carried out by suitably trained personnel in accordance with applicable code of practice.

If this equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.

In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment.

The examples and diagrams in this manual are included solely for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or liability for actual use based on the examples and diagrams.

No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or software described in this manual.

Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation, Inc., is prohibited.

Throughout this manual, when necessary, we use notes to make you aware of safety considerations.

Labels may also be on or inside the equipment to provide specific precautions.

Allen-Bradley, Rockwell Automation, Rockwell Software, PowerFlex, and TechConnect are trademarks of Rockwell Automation, Inc.

Trademarks not belonging to Rockwell Automation are property of their respective companies.

WARNING: Identifies information about practices or circumstances that can cause an explosion in a hazardous environment, which may lead to personal injury or death, property damage, or economic loss.

ATTENTION: Identifies information about practices or circumstances that can lead to personal injury or death, property damage, or economic loss. Attentions help you identify a hazard, avoid a hazard, and recognize the consequence.

IMPORTANT Identifies information that is critical for successful application and understanding of the product.

SHOCK HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that dangerous voltage may be present.

BURN HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that surfaces may reach dangerous temperatures.

ARC FLASH HAZARD: Labels may be on or inside the equipment, for example, a motor control center, to alert people to potential Arc Flash. Arc Flash will cause severe injury or death. Wear proper Personal Protective Equipment (PPE). Follow ALL Regulatory requirements for safe work practices and for Personal Protective Equipment (PPE).

Table of Contents

Important User Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

Preface About this Publication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Who Should Use This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Additional Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Acronyms and Abbreviations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

Chapter 1Functional Descriptions Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

System Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Control Owner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10HMI Display. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Nameplate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Ramp. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Rated Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Stop Mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Motor Direction Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Switch Frequency Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Trends . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17VF Curve Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

Digital Output. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18Analog Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Drive Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Fan Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20Pre-charge Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Cell Information Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24Customized Trip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25Over Speed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

Line Side . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Voltage Sag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27Low Voltage Ride Through (LVRT) . . . . . . . . . . . . . . . . . . . . . . . . . . . 28Power Loss Auto Restart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

Motor Side . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Bypass . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Current Limit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Current Stability Loop. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34Flying Start . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Load Loss Control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Motor Auto-tune. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Restart Feature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37Skip Frequency Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38Start and Stop Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

Process Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39Deceleration and Acceleration Process User Define . . . . . . . . . . . . . 39PID Function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

Rockwell Automation Publication 6000-TD004D-EN-P - November 2017 3

Table of Contents

Deceleration Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42

Chapter 2Parameter Descriptions PowerFlex 6000 Medium Voltage AC Drive

Database Revision # 6.xxx . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Interpreting Bit-Encoded Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . 44

Control Owner Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46Nameplate Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49Other Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54HMI Display Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55Ramp Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59Frequency Setting Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61Stop Mode Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63Motor Direction Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64Switch Frequency Setting Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65VF Curve Setting Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65Analog Input Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72Digital Output Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75Analog Output Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83Version Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87Fan Control Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88Pre-charge Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91Customized Trip Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93Over Speed Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94Voltage Sag Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95Voltage Loop Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98Low Voltage Ride Through Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . 100Power Loss Auto Restart Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102Cell Bypass Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103Bypass Mode Switch Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107Fault Automatic Switch to Bypass Parameters. . . . . . . . . . . . . . . . . . . . . . 107Current Limit Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108Current Stability Loop Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111Flying Start Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113Load Loss Control Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 117Motor Auto-tune Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119Restart Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125Skip Frequency Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 126Start and Stop Sequence Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 127Deceleration and Acceleration Process Parameters . . . . . . . . . . . . . . . . . 128PID Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132Deceleration Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133Protection Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135Parameters Listed by Group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152Control Owner Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152

4 Rockwell Automation Publication 6000-TD004D-EN-P - November 2017

Table of Contents

Nameplate Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152Other Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 153HMI Display Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 153Ramp Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 154Frequency Setting Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 154Stop Mode Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155Motor Direction Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . 155Switch Frequency Setting Parameters . . . . . . . . . . . . . . . . . . . . . . . . . 155VF Curve Setting Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156Analog Input Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 157Digital Output Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 157Analog Output Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 158Version Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 159Fan Control Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 159Pre-charge Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160Customized Trip Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160Over Speed Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 161Voltage Sag Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 161Voltage Loop Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162Low Voltage Ride Through Parameters. . . . . . . . . . . . . . . . . . . . . . . . 162Power Loss Auto Restart Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . 163Cell Bypass Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 163Bypass Mode Switch Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164Fault Automatic Switch to Bypass Parameters. . . . . . . . . . . . . . . . . . 164Current Limit Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164Current Stability Loop Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . 165Flying Start Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 165Load Loss Control Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 166Motor Auto-tune Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 166Restart Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 167Skip Frequency Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 168Start and Stop Sequence Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . 168Deceleration and Acceleration Parameters . . . . . . . . . . . . . . . . . . . . . 168PID Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 169Deceleration Control Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 169Protection Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170

Parameters Listed by Linear Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 173Alphabetical Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 188Linear Number Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194

Chapter 3Fault Messages Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201

Fault Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201System Faults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201Logic Faults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 204Power Cell Faults. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208


Table of Contents

Chapter 4Warning Messages Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209

Warning Messages. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209System Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209Logic Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 211Power Cell Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 212


Preface

About this Publication This manual provides details regarding functions, parameters and troubleshooting information for medium voltage PowerFlex® 6000 drives.

Who Should Use This Manual This manual is intended for qualified service personnel responsible for troubleshooting and repairing medium voltage PowerFlex 6000 drives. You should have previous experience with, and basic understanding of, electrical terminology, procedures, required troubleshooting equipment, equipment protection procedures and methods, and safety precautions.

Additional Resources These documents contain additional information concerning related products from Rockwell Automation.

You can view or download publications athttp:/www.rockwellautomation.com/literature/. To order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative.

Acronyms and Abbreviations

Resource Description

PowerFlex 6000 Medium Voltage Variable Frequency Drive Installation Manual, publication 6000-IN006

Provides instructions for installing the drive, dimensions, requirements, and wiring information.

PowerFlex 6000 Medium Voltage Variable Frequency Drive Shipping and Handling Manual, publication 6000-IN008

Provides instructions for shipping and handling a Medium Voltage variable frequency drive and related equipment.

PowerFlex 6000 Medium Voltage Variable Frequency Drive User Manual, publication 6000-UM002

Provides instructions for daily recurring drive usage, HMI interface and maintenance tasks for the product’s end-user.

Acronym/ Abbreviation

Description Acronym/ Abbreviation

Description

A2D Analog to Digital FPGA Field-Programmable Gate Array

A/D Analog/Digital Freq Frequency

AC Alternating Current GND Ground

ACB Analog Control Board Gnrl General

Accel Acceleration HECS Hall Effect Current Sensor

ADC Analog to Digital Converter Hi High

Anlg Analog HP Horse Power

BW Bandwidth HW Hardware

Cap Capacitor I Current

Ch Channel IGDPS Isolated Gate Driver Power Supply

Chn Channel Init Initialize


http://literature.rockwellautomation.com/idc/groups/literature/documents/um/6000-um002_-en-p.pdf

http://literature.rockwellautomation.com/idc/groups/literature/documents/in/6000-in008_-en-p.pdf

http://literature.rockwellautomation.com/idc/groups/literature/documents/in/6000-in006_-en-p.pdf

http://www.rockwellautomation.com/literature/

Preface

CIB Customer Interface Board Inv Inverter

CMC Common Mode Choke IO Input/Output

Cmd Command Isoltn Sw Isolation Switch

Conv Converter L Inductance

CT Current Transformer L Line

Ctctr Contactor LED Light-emitting diode

Cur Current Liq Liquid

DAC Digital to Analog Converter LR Line Reactor

DB Dynamic Braking Lo Low

DC Direct Current LV Low Voltage

DCB Drive Control Board M Machine

DCSL Drive Control and Synchronization Link Magntz Magnetizing

DD Dimensional Drawings Max Maximum

Decel Deceleration Min Minimum

DIM Drive Identity Module Mstr Master

Dly Delay MTR Motor

DO Drive Output NVRAM Non-Volatile Random Access Memory

DPI Drive Peripheral Interface OC Overcurrent

DPM Drive Processor Module OL Overload

DrvIn Drive Input OP Output

ED Electrical Drawings PF Power Factor

ESP Electric Submersible Pump PFC Power Factor Correction

Fbk Feedback PID Proportional, Integral, Derivative (process control)

Flt Fault PLC Programmable Logic Control

Fltr Filter Sync Synchronous

FO Fiber-Optic Tach Tachometer

FOB Fiber-Optic Interface Board

FOI Fiber-Optic Interface TFB Temperature Feedback Board

PWM Pulse-Width Modulation TFB3 Temperature Feedback Board, 3rd generation

Rect Rectifier Trp Trip

Rot’n Rotation Trq Torque

SCB Signal Conditioning Board TSN Transient Suppression Network

SCR Silicon-Controlled Rectifier UB Unbalance

SGCT Symmetrical-Gate Commutated Thyristor UPS Uninterrupted Power Supply

Slv Slave USART Universal Synchronous/Asynchronous Transmitter/Receiver

Spd Speed V Volt

SPGD Self-Powered Gate Driver VSB Volt Sensing Board

SW Software Wrn Warning

OT Overtemperature Xfer Transfer

OV Overvoltage XIO External Input/Output

PD Parallel Drive

Acronym/ Abbreviation

Description Acronym/ Abbreviation

Description


Chapter 1

Functional Descriptions

Introduction The PowerFlex 6000 is an adjustable speed AC drive that is particularly suitable for new and retrofit centrifugal fan and pump applications. Air-cooled PowerFlex 6000 drives are designed to maximize energy efficiency by enabling soft-starting and variable-speed control in medium voltage, normal duty applications.

To achieve the low input harmonics and near-unity power factor that make this an ideal solution for standard motors, the drives utilize Cascaded “H’” Bridge (CHB) topology. This proven CHB topology combines an integrally mounted phase-shifting isolation transformer with series-connected power modules for each phase. In addition to stepping down the input voltage, the isolation transformer also provides two other principal functions:

• Mitigate common mode voltage stress so motors with standard insulation levels can be used.

• Reduce Total Harmonic Distortion (THD), due to the phase shifting of its secondary windings, so input side harmonics don’t negatively impact the plant or utility power grid.

System Settings The system settings include the following functions:• Control Owner on page 10• HMI Display on page 12• Nameplate on page 13• Ramp on page 14• Rated Frequency on page 15• Stop Mode on page 15• Motor Direction Control on page 16• Switch Frequency Settings on page 16• Trends on page 17• VF Curve Setting on page 17


Chapter 1 Functional Descriptions

Control Owner

This function is used to switch the control source between Local, DCS, and Remote Box. The switch can be performed while the drive is online.

Three parameters are used to determine the control method and given frequency reference. The value range of Owner #1 Selection (P475) is “0 or 1”, the value range of Owner #2 Selection (P476) is “2...23”, and the value range of Owner #3 Selection (P477) is “18...23”. The default values for the parameters are “0, 8, and 23” respectively. The combinations are shown in the following table.

Table 1 - Frequency Reference and Control Command Source Matrix

The control command selections are:

1. Drive HMI or control panel buttons

2. Remote hardwired

3. Remote communications

4. Remote box buttons

The frequency reference selections are:

1. Local touchscreen

2. Potentiometer on the control panel

3. Remote control analog 4-20 mA

4. Remote communications

5. 4-speed governor (Four frequency values are stored in parameters: 4-Step Variable Speed - Speed1 (P480), 4-Step Variable Speed - Speed2 (P481), 4- Step Variable Speed - Speed3 (P482), and 4-Step Variable Speed - Speed4 (P483))

6. Remote box buttons

Frequency Owner

Control Owner

HMI Comm /Local Button

DCS I/O DCS Comm Remote Box (Option)

HMI 0 6 12 18

Potentiometer0-10V (Option)

1 7 13 19

Analog 4-20 mA 2 8 14 20

Comm 3 9 15 21

4-Speed 4 10 16 22

Remote Box 5 11 17 23


Functional Descriptions Chapter 1

Take note of the following:• When HMI is selected, the HMI converts the frequency reference to a

value from 0...100 and sends it to the controller. The controller converts the received value to a unified data value from 0...10000 for internal calculations within the controller and computes the given frequency to be sent to the DSP.

• When the potentiometer is selected, the 0-10V signal sent to the controller is adjusted using the potentiometer. The controller processes the signal and computes the given frequency to be sent to the DSP (If the wiring is disconnected, the frequency reference value changes to zero and there will be no message prompt).

• When analog 4-20 mA is selected, the controller processes the signal and computes the given frequency to be sent to the DSP.

• When 4-speed governor is selected, the four frequency values stored in parameters 4-Step Variable Speed - Speed1, 4-Step Variable Speed - Speed2, 4-Step Variable Speed - Speed3, and 4-Step Variable Speed - Speed4 are used. These parameters correspond to the controller input points I-24, I-25, I-26, and I-27.

When the controller receives an input at a high level from an input point that corresponds to a frequency reference stored in one of the 4-Step Variable Speed parameters, the drive frequency reference is set to that value. For example, when the input I-24 is at a high level, the value of 4-Step Variable Speed - Speed1 is read as the frequency reference of the drive and so on.

• When remote communication is selected, the frequency reference value is provided by the remove communication with a range from 0...1000(1000 = maximum frequency reference).

When there is a fault between the host computer and remote communications, the drive response is determine by the value set in parameter When Disconnected Between DCS and PLC (P485) and described as follows:– P485= 0; The drive stops immediately.– P485 = 1; The drive continues running at current frequency.– P485 = 2; The drive continues running at frequency set in

4-step Variable peed - Speed1.– P485 = 3; The drive continues running at frequency set in

4-step Variable Speed - Speed2.– P485 = 4; The drive continues running at frequency set in

4-step Variable Speed - Speed3.– P485 = 5; The drive continues running at frequency set in

4-step Variable Speed - Speed4.• When Remote box is selected, the frequency reference is set by using the

acceleration/deceleration button on the HMI, or the acceleration/ deceleration button on the remote control box. The frequency step size is determined by the value of Frequency Step For Acceleration Or Deceleration (P493).



Switching between Local, DCS, or Remote box can be performed on the HMI, or using a selector switch mounted on the control panel. When Local/Remote Owner Selection (P478) is set to “1”, the selector switch is used. When Local/Remote Owner Selection is set to “0”, the HMI is used. When Local control method is selected, Owner #1 Selection is active. When DCS control method is selected, Owner #2 Selection is active. When Remote box control method is selected, Owner #3 Selection is active.

HMI Display

This function is used to set the display parameters of some analog output signals such as setting-frequency, actual-frequency, stator-voltage, and stator-current.

Each signal is made up of four display parameters, such as memory address, filter parameter, HMI display integer part, and HMI display decimal part. See the following table for the different display signals and their respective parameters.

Table 2 - Analog Output Signals and Corresponding Parameters

For example, if we want to output the “given frequency” with the settings – memory address is 221, the filter time is 100 ms, the maximum integer part is 60, and the maximum decimal part is 0 – then we can set the following:

• Rated Frequency HMI Display Filter Time (P351) = 100• Rated Frequency HMI Display Integer Part (P352) = 60• Rated Frequency HMI Display Decimal Part (P353) =0• Rated Frequency HMI Display Address (P371) = 221

IMPORTANT Remote box control method is only applicable to manual bypass, one-drive-one-motor, and automatic bypass, one-drive-one-motor.

Analog Output Signals Parameters

Setting frequency display Rated Frequency HMI Display Filter Time (P351)Rated Frequency HMI Display Integer Part (P352)Rated Frequency HMI Display Decimal Part (P353)Rated Frequency HMI Display Address (P371)

Stator voltage display Motor Voltage HMI Display Filter Time (P354)Motor Voltage HMI Display Integer Part (P355)Motor Voltage HMI Display Decimal Part (P356)Motor Voltage HMI Display Address (P372)

Output frequency display Actual Frequency HMI Display Filter Time (P357)Actual Frequency HMI Display Integer Part (P358)Actual Frequency HMI Display Decimal Part (P359)Actual Frequency HMI Display Address (P373)

Stator current display Motor Current HMI Display Filter Time (P360)Motor Current HMI Display Integer Part P(361)Motor Current HMI Display Decimal Part (P362)Motor Current HMI Display Address (P374)



The values of the four parameters Rated Frequency HMI Display Address (P371), Motor Voltage HMI Display Address (P372), Actual Frequency HMI Display Address (P373), and Motor Current HMI Display Address (P374) need not be changed and can be left at their default values. The field support engineer can change them according to the specific case.

Nameplate

This function is used to set the basic parameters of motor, drive, transformer, and HECS. They are rated current, rated power, rated speed, rated power factor, number of motor pole pairs, and so on.

Number of Power Cells Per Phase (P007) is the amount of power cells in one phase.

For example, if the amount of power cells in one phase is five, then Number of Power Cells Per Phase must be set to five. The number of power cell’s fault information and warning information is based on Number of Power Cells Per Phase. If Number of Power Cells Per Phase is set to zero, then all power cell’s fault information and warning information is ignored. This allows the drive to be run in low voltage. This function can be used for checking of low voltage components and the control box.

Power Cell DC Bus Rated Voltage (P011) is the DC bus rated voltage of the power cell. Motor Rated Current (P199) is used for the fault judgment related motor current. The parameters Motor Rated Voltage (P012), Motor Rated Power (P013), Motor Rated Speed (P014), Motor Rated Power Factor (P015), and Number of Motor Pole Pairs (P017) are used for calculating the motor stator's parameters.

Encoder Resolution (P019), Line CT Ratio (P195), and Line CT Burden Resistor (P196). Motor HECS Ratio (P197) and Motor HECS Burden Resistor (P198) are used to calculate the Hall current sensor's rated current, which is used for the sampling of the drive's current (Line CT Ratio, Line CT Burden Resistor, Motor HECS Ratio, and Motor HECS Burden Resistor are set based on the AT board configuration).

IMPORTANT The value of this parameter must be set to the actual amount used in each phase.



Ramp

This function includes the S curve setting, frequency dead zone setting, and frequency amplitude limit.

The S curve setting means integral setting on frequency signal, also known as the ramp setting. In PowerFlex 6000 drives, the curve is used to set the motor’s speed. The ramp curve in S curve can avoid the over current and over voltage faults by reducing the increasing or decreasing speed. Also, the rounded corners in S curve can reduce the impact on mechanical components.

• Deceleration-time “Td” is determined by the formula:

Deceleration Time (P399) * Deceleration Time Unit (P406)

This value should be adjusted according to the actual case. An inappropriate setting will result in an input voltage over-voltage fault in the power cell.

• Deceleration-rounded-corner-time “Trd” is determined by the formula:

Deceleration Ramp Transition Time (P405) * Deceleration Time Unit (P406)

In most cases, the default value need not be changed.• Acceleration-time “Tu” is determined by the formula:

Acceleration Time (P401) * Acceleration Time Unit (P403)

This value should be adjusted according to the actual case. An inappropriate setting will result in an over-current fault.

• Acceleration-rounded-corner-time “Tru” is determined by the formula:

Acceleration Ramp Transition Time (P402) * Acceleration Time Unit (P403)

In most cases, the default value need not be changed.• Amplification Coefficient Of Error Terms (P409) is also used.

See the following diagram for the explanation of the different time settings.

Figure 1 - S Curve Diagram

Frequency

TruTu Td

Tru Trd

Trd



Rated Frequency

This function is used to the set the drive's rated frequency parameters and also the frequency limit. Frequency dead zone setting is used to limit the low frequency starting range, and prevent output fluctuations when the drive is in analog input mode and the frequency is around zero Hz. Frequency amplitude limit is used to limit the amplitude of set frequency, thus it prevents the set frequency from exceeding the drive's maximum output frequency.

Parameter Rated Output Frequency (P460) is the drive’s rated output frequency. The frequency value ranges from 0...75 Hz and should be set equal to the motor’s rated frequency. If Rated Output Frequency is not set correctly it may cause damage to the motor.

Parameter Maximum Output Frequency (P466) is the drive’s maximum output frequency. Rated Output Frequency cannot be set higher than Maximum Output Frequency. Any attempt to do so will fail.

If the original setting-frequency is lower than parameter Frequency Command Deadband Upper Limit (P414), frequency dead zone setting can change the setting- frequency to equal Frequency Command Deadband Upper Limit.

Frequency amplitude limit can limit the setting-frequency between parameters Frequency Command Lower Limit (P413) and Frequency Command Upper Limit (P415). Following the rule:

Frequency Command Upper Limit > Frequency Command Lower Limit > 0

This function is used to limit the amplitude for setting-frequency. This prevents the setting-frequency from becoming bigger than the drive’s maximum output frequency.

Stop Mode

There are two methods in which a PowerFlex 6000 drive can use to stop – ramp down and coast stop.

The stop mode can be selected by setting Stop Method (P024) to “1” for coast stop and “0” for ramp down.

If coast stop was selected, you must wait for a certain time to elapse before restarting the drive. The time is determined by the formula:

Time = Motor Coast Stop Time (P253) * frequency before stop / max frequency

If ramp down was selected, the motor will ramp down.

Parameters Frequency Command-Low Frequency Region Boundary (P251) and Delayed Lockout Time of Stop Operation (P270) are also used in this function.



Motor Direction Control

This function is designed to work with other functions such as command source, motor rotation direction, switch frequency, and frequency command source selection.

The command source function is used to select the command source for starting, stopping, and resetting the drive.

The motor rotation direction function is used to change the motor's rotating direction without any hardware changing. There are two methods available in PowerFlex 6000. The offline method is performed locally and cannot be done when the motor is running. The online method is performed remotely and can be done using the DCS while the motor is running.

When Motor Rotation Direction Command Selection (P009) is set to “0”, it means offline local control, and the user can only change the motor’s rotating direction using the HMI when the drive is stopped. DCS control is disabled. To change the motor’s rotating direction, set parameter Motor Rotation Direction Under Local Control (P008) to “0” for reverse rotating or “1” for forward rotating.

When Motor Rotation Direction Command Selection (P009) is set to “1”, it means online remote control, and the user can change the motor’s rotating direction using the DCS while the drive is running. HMI control is disabled.

Switch Frequency Settings

The switch frequency function is used to set the switch frequency of the power semiconductor. The frequency command source selection function is used the select the given frequency mode.

Set parameter Switch Frequency Setting Enable Code (P087) to “0” to disable or “1” to enable the function.

Set parameter Switch Frequency Setting (P088) to “0” to set the switch frequency at 600 Hz or “1” to set the switch frequency at 1200 Hz.

IMPORTANT Set the Switch Frequency Setting Enable Code parameter back to zero after changing the Switch Frequency Setting parameter. The Switch Frequency Setting parameter can only be changed when offline.



Trends

There are two kinds of dynamic trends available for PowerFlex 6000. The first type of trend cannot be changed but can save history data. It can only show the output voltage, output current and output frequency. The second type of trend can be configured but cannot save the history data. It can show output frequency, output voltage, motor estimated speed, output current, average DC voltage, maximum DC voltage and minimum DC voltage by drawing curves of this status data.

For the first type of trend, no configuration is required. For the second type of trend, you can configure the parameter to display. Trends curves are showed by the percentage value. For more details, see the PowerFlex 6000 Medium Voltage Variable Frequency Drive User Manual(6000-UM002).

VF Curve Setting

This function is designed to calculate the drive's output voltage according to the set frequency. There are six kinds of V/F curves available – linear, curve, straight-curve, parabolic-curve, 5 point VF, and SVC. Compensation voltage can be set to improve the lower frequency start torque.

When a linear, curve, straight-curve, parabolic-curve, or SVC is selected, set the parameters Low Speed Voltage Compensation (P451) and Low Speed Voltage Compensation Frequency Threshold (P452). If the output frequency is lower than the value of Low Speed Voltage Compensation Frequency Threshold, the output voltage will be improved by the percentage value set in Low Speed Voltage Compensation to enhance the output torque. If SVC is selected, the above parameters need to be set based on the field conditions.

When VF curve is selected, the five points are defined based on their load curve. These five points are Point 1 (f1, V1), Point 2 (f2, V2), Point 3 (f3, V3), Point 4 (f4, V4), and Point 5 (f5, V5).

The following parameters are used to define the five points:• f1 = Frequency At First Point For 5 Point VF (P375)• V1 = Amplitude At First Point For 5 Point VF (P376)• f2 = Frequency At Second Point For 5 Point VF (P377)• V2 = Amplitude At Second Point For 5 Point VF (P378)• f3 = Frequency At Third Point For 5 Point VF (P379)• V3 = Amplitude At Third Point For 5 Point VF (P380)• f4 = Frequency At Fourth Point For 5 Point VF (P381)• V4 = Amplitude At Fourth Point For 5 Point VF (P382)• f5 = Frequency At Fifth Point For 5 Point VF (P383)• V5 = Amplitude At Fifth Point For 5 Point VF (P384)


http://literature.rockwellautomation.com/idc/groups/literature/documents/um/6000-um002_-en-p.pdf


The voltage value for each of the five points should be set as follows:V1 < V2 < V3 < V4 < V5

The voltage and frequency values for each of the five points should be set as follows:V1 < f1; V2 < f2; V3 < f3; V4 < f4; V5 < f5.

The relationship between the five points is shown in the diagram below.

Figure 2 - 5 Point VF Diagram

Digital Output This function is used to set the digital output channel parameters. There are eight digital output channels available in PowerFlex 6000 drives. The address, polarity, and output delay time parameters can be adjusted according to the user’s requirements.

For example, a user wants to configure a warning bell that is controlled through the digital channel. This warning bell will go off when the digital channel output voltage reaches a high level. Follow these steps below to configure the settings for this example:

1. Set the address of the “warning bell” with parameter Digital Output #5 Memory Address (P320). The default value is “99”.

2. Enable this function by setting parameter Digital Output #5 Bit Selection (P322) to “5” because this function corresponds to the position of Bit 5 of K99.

3. Set the polarity with parameter Digital Output #5 Logic (P321). If you want a high voltage level, set the value to “0”, else set the value to “1”.

4. If a one second signal delay is needed, set Digital Output #5 Delay (P323) to “1000 ms”.

f1

V1V2

V3

V4

V5

1Voltage

Frequency

f2 f3 f4 f5 1



Table 3 - Digital Output Signal Parameter Setting Group

Analog Output This function is used to set the analog output channel. The analog signal can be output into 0-5V voltage or 4-20 mA current. There are four analog output channels available in PowerFlex 6000 drives – one for actual frequency variant, one for stator current variant, and the rest are reserved.

The selected variant will undergo a Low-Pass Filter, Amplitude-correction, and Amplitude-limitation process before the final result is output as a 0-5V and 4-20 mA analog signal. See the following diagram for the process.

Figure 3 - Analog Output Function Diagram

The actual frequency was filtered through the Low-Pass Filter with the filter time set to one second, amplitude scaling factor to 50%, offset to zero, and the output channel number is one.

Analog Output #1 Memory Address (P332) = 252Analog Output #1 Filter Time (P333) = 1000 msAnalog Output #1 Offset (P334) = 0Analog Output #1 Scaling Factor (P335) = 50.00%

Hardwired I/O Interface Description Related Parameters

I/O0 High voltage can be closed P300, P301, P302, P303

I/O1 System running P304, P305, P306, P307

I/O2 System fault P308, P309, P310, P311

I/O3 System trip P312, P313, P314, P315

I/O4 Warning P316, P317, P318, P319

I/O5 Warning bell P320, P321, P322, P323

I/O6 Customized trip P324, P325, P326, P327

I/O7 Pre-charge complete P328, P329, P330, P331

Low-pass Filter

Y = x / (P333 * s + 1)

Linear Transformation

Y = P335 * (x +P334)

Limit Amplitude

Digital/AnalogTransformation

0-5V

4-20 mA



Table 4 - Analog Output Display Parameter Setting Group

Drive Configuration The drive configuration include the following functions:• Fan Control on page 20• Pre-charge Control on page 23• Customized Trip on page 25• Over Speed on page 26

Fan Control

This function is used to manage heat dissipation in the transformer cabinet, filter cabinet, and power module cabinet when the drive is running. If the additional heat generated is not dissipated in time, the drive will trip, or the transformer, power module, or filter device may be damaged. There are three fan control modes – non-redundant fan, one fan as redundant fan, all fans work in cycle mode. Configuring a redundant fan can help to improve reliability of the drive and reduce downtime.

Table 5 - PLC I/O and K Register Definition

Analog Output Data Storage Parameters Hardwired I/O Interface (current)

Hardwired I/O Interface (voltage)

Actual frequency K252 P332, P333,P334, P335

IoutA equals P11.5Signal ground equals P11.1

UoutA equals P10.5Signal ground equals P10.1

System current K206 P336, P337,P338, P339

IoutB equals P11.6Signal ground equals P11.2

UoutB equals P10.6Signal ground equals P10.2

Channel 3 Reserved P340, P341,P342, P343

IoutC equals P11.7Signal ground equals P11.3

UoutC equals P10.7Signal ground equals P10.3

Channel 4 Reserved P344, P345,P346, P347

IoutD equals P11.8Signal ground equals P11.4

UoutD equals P10.8Signal ground equals P10.4

Fan Control I/O Assign

TX Cabinet Fan Control Power Cabinet Filter Cabinet

PLC Module PLC8 PLC9

Fan CMD I/O O-8 O-9 O-10 O-11 O-12 O-13 O-14 O-15 O-0 O-1 O-2 O-3 O-4 O-5 O-6 O-7 O-8 O-9 O-10 O-11 O-12

Register Mapping K201...K202 K203 K204

PLC Module PLC7

Fan Fdb I/O I-1 I-2 I-3 I-4 I-5 I-6 I-7 I-8 I-9 I-10 I-11 I-12 I-13 I-14 I-15 I-16 I-17 I-18 I-19 I-20 I-21

Register Mapping K66 and K67 K68 K69

Fan Type Definition TX1 Main Cooling Fan I/O TX2 Main Cooling Fan I/O R-Fan I/O

Main Cooling Fan

R-Fan I/O

R-Fan I/O

R-Fan I/O



Figure 4 - Fan Control Schematic

Select the fan control mode using parameter Fan Control Mode (P094).

Define the fan number in the transformer cabinet #1, transformer cabinet #2, power module cabinet, and filter cabinet using parameters Fan Control Group #1 Fan Number (P095), Fan Control Group #2 Fan Number (P096), Fan Control Group #3 Fan Number (P097), and Fan Control Group #4 Fan Number (P098).

Other parameters used are:• Fan Control Main Cooling Fan Cycle Time (P099)• Fan Control Redundant Fan Working Time (P100)• Fan Control Fan Feedback Delay (P101)• Fan Control Fan Stop Delay (P102)• Fan Control Transformer Cabinet Fan Quantity Upper Limit (P106)• Fan Control TX Cabinet Fan Fault Trip Delay (P116)• Fan Control Filter Cabinet Fan Fault Trip Delay (P117)• Drive Start Delay (P186)

To ensure there is sufficient cooling before the drive starts, use Drive Start Delay to make the fans start earlier than drive.



The following diagrams show the work process of the fans in mode 1 and 2.

Figure 5 - Fan Work Process in Mode 1

Figure 6 - Fan Work Process in Mode 2



Pre-charge Control

The PowerFlex 6000 drive offers an optional pre-charge circuit on the primary side of the transformer. The pre-charge circuit is used to magnetize the transformer and to charge the power modules' DC bus capacitors with lower current, thus avoid tripping the primary protection (fuse or circuit breaker) or causing physical damage to the power component. The diagram of the pre-charge circuit is shown below.

Figure 7 - Pre-charge Circuit Diagram

Set parameter Pre-charge Enable (P103) to “0” to disable or “1” to enable this function. Parameter Pre-charge Feedback Delay (P104) is the feedback delay time of the pre-charge contactor status. If there is no feedback from the pre-charge cabinet within the time set in Pre-charge Feedback Delay, then the drive trips.

Parameters Pre-charge DC Bus Threshold (P105) and Pre-charge Primary Voltage Threshold (P120) are used to provide feedback when the pre-charge is completed. If the pre-charge process is not completed within the time set in parameter Pre-charge Max Time (P118), the drive trips.

When the interval between two pre-charge process is less than the time set in parameter Pre-charge Min Repeat Interval (P119), the drive trips.

When the line side voltage is less than parameter Pre-charge Resistor Short Circuit Fault Threshold (P180) for a duration set in parameter Pre-charge Resistor Short Circuit Fault Delay (P181), the drive trips.



Cell Information Control

This function is used to read and write power cell parameters. There are two modes available – Read/write power cell parameters by power cell or read/write power cell parameters by parameter. The first mode reads all parameters from one power cell control board (PCCB). The second mode reads one parameter from all PCCBs and writes one parameter to all PCCBs. The following diagram shows the data flow between the PLC and DSP1. It also shows the frame of MPUC parameters which is recalled by the PLC and shown in the HMI.

Figure 8 - Cell Information Control Diagram

Number of Power Cells Per Phase (P007) is the amount of power cells for each phase.

IMPORTANT The value of this parameter must be set to the actual amount used in each phase.



For each power cell, there are 21 parameters that can be read or written, as shown in the following table.

Table 6 - List of Power Cell Parameters

Customized Trip

This function is used to set the trip signal behavior to suit an application. The user can define the fault protection level based on their application by configuring the trip signal combination. For example, if a trip occurs, the drive displays the signal and stops, or the drive masks the trip signal and simply stops.

The following parameters are used for this function:• Powercell Fault Trip Signal Mask Register (P030)• System Fault Trip Signal Mask Register (P031)• Logic Fault A Trip Signal Mask Register (P032)• Logic Fault B Trip Signal Mask Registaer (P033)

Set the bit to “1” to allow trip and not mask, or “0” to avoid trip and mask trip signal.

Parameter Number Desripciotn Read/Write

1 DC Under Voltage Fault Threshold R/W

2 DC Under/Over Voltage Warning Hysteresis R/W

3 DC Over Voltage1 Trip Threshold R/W

4 DC Over Voltage1 Trip Delay Time R/W

5 DC Over Voltage2 Trip Threshold R/W

6 DC Over Voltage2 Trip Delay Time R/W

7 Transformer Secondary Rated Voltage R/W

8 Transformer Secondary Rated Frequency R/W

9 Input Phase Loss Signal Filter R/W

10 Single Phase Loss Pulse Counts R/W

11 Pulse Width For Single Phase Loss To Two Phase Loss Transition R/W

12 Single Phase Loss Recovery Delay R/W

13 Single Phase Loss Detection Dela R/W

14 Minimum Pulse Width For Two Phase Loss R/W

15 Power Cell PN R

16 Power Cell PN2 R

17 Firmware Rev # R

18 PCCB Hardware Rev # R

19 Power Cell Rated Current R

20 Power Cell Rated Voltage R

21 Power Cell Feature Select 1 R



Over Speed

This function is used to increase the speed above the motor’s rated frequency.

For example, a motor’s rated frequency is 50 Hz and the target frequency is 60 Hz. To accelerate the motor to the desired frequency, do the following:

1. Set the motor’s rated frequency with parameter Rated Output Frequency (P460) to “50”.

2. Set the target frequency with parameter Maximum Output Frequency (P466) to “60”.

3. Enable this function by setting parameter Over Speed Enable (P467) to “1”.

Figure 9 - Over Speed Function Diagram

Line Side The line side settings include the following functions:• Voltage Sag on page 27• Low Voltage Ride Through (LVRT) on page 28• Power Loss Auto Restart on page 28

Voltage

Constant magnetic Weak magnetic

Frequency

P456

U0

0 P460 P466



When these three functions are all enabled, the behavior is shown in following diagram.

Figure 10 - Voltage Dip Withstand Capability

Voltage Sag

This function is used to make sure that the PowerFlex 6000 drive is able to work well when the input voltage drops to less than 30% of the required voltage. It includes the following sub-functions: voltage loop, flux regulation, and derating.

The voltage loop function uses the PI control method and is able to keep the output voltage equal with the given voltage dynamically if the input voltage sag is minor. If the input voltage sag is major, the PI controller will enter saturation mode, and the output frequency will drop down to a new, ideal value determined by the V/F controller. Also, the output frequency will continue to drop to a new, ideal value. This is to avoid overheating of the input transformer.

To enable this function, set Voltage Loop Enable (P290) to “1”. If Flux Control Regulation Control Enable (P273) is set to “1”, the output frequency will drop while the output voltage is kept at a constant value. This is to optimize the flux when the output voltage is smaller than the given voltage. If Flux Control Regulation Control Enable is set to “0”, the output frequency will be kept at the given value, while the output voltage is kept at a constant value. The motor will work in the “weak magnetic” mode during this time.



Low Voltage Ride Through (LVRT)

This function is used to make sure the PowerFlex 6000 drive does not trip when the input voltage drops (below 0.7 pu) or is cut off momentarily. Output current will be limited to keep the power cell’s DC voltage at a high level and the running parameters of the motor will be monitored during this period. When the input voltage is back to normal, the drive will quickly recover to the previous frequency before the low voltage condition occurred.

The parameter Low Voltage Ride Through Enable (P283) must be set to “1” to use this function. Low Voltage Ride Through Max Time Limit (P285) is the upper limit of the LVRT function. The default value is 5 cycles, and can be extended in special cases. However extending the time limit may lead to LVRT failure. The UPS must be open when using this function.

Power Loss Auto Restart

This function is used to restart the drive automatically after a power loss occurs for a long period of time. This function can be used together with the Low Voltage Ride Through function. The drive will enter the PLR stage when the duration of the power loss exceeds the value of Low Voltage Ride Through Max Time Limit (P285).

The parameter Power Loss Restart Enable (P263) must be set to “1” to use this function. Power Loss Allowable Time (P264) is the upper limit of the Power Loss Restart function, and the value should not be set larger than Power Loss Time Max Limit (P265).

If the value of Power Loss Max Time Limit is set to less than the value of Power Loss Allowable Time, then the value of Power Loss Allowable Time will be automatically reduced so that both values are identical. The maximum duration of the PLR stage is limited by both Power Loss Allowable Time and the working time of the UPS. The UPS must be open when using this function.

Figure 11 - Low Voltage Ride Through Diagram

IMPORTANT The running direction must not be changed during the “power loss, waiting recovery...” stage. Otherwise a “fault trip” fault will occur.

Inputvoltage

t=0 t=T

t<P264

Outputvoltage

Fly start



Motor Side The motor side settings include the following function:• Bypass on page 29• Current Limit on page 33• Current Stability Loop on page 34• Flying Start on page 35• Load Loss Control on page 36• Motor Auto-tune on page 36• Restart Feature on page 37• Skip Frequency Settings on page 38• Start and Stop Sequence on page 38

Bypass

The bypass settings includes the following functions:• Cell Bypass on page 29• Bypass Mode Select on page 31• Automatically Switch to Bypass on page 32• Bypass to VFD on page 32• VFD to Bypass on page 33

Cell Bypass

This function is used for the drive cell bypass, which helps to reduce downtime and avoid affecting production. The cell bypass function depends on the SCR or IGBT circuit which is shown as follows.

Figure 12 - SCR and IGBT Circuit Schematic

Class 1: SCR Class 2: IGBT



Only one cell bypass is allowed per phase, and it can be triggered by one of the following conditions:

• IGBT over current• Input over voltage in power cell• One phase loss• Cell overheat

To keep the line voltage balanced, each phase needs to bypass one cell at the same time.

The following parameters are used for this function:• Power Cell Bypass Enable (P041)• Power Cell Bypass Delay After Power Cell Bypassed (P042)• Power Cell Bypass Upper Limit For Bypassed Feedback Time (P043)• Power Cell Bypass Fault Simulation Power Cell Count (P044)• Power Cell Bypass Upper Limit For Over Temperature (P057)• Power Cell Bypass Phase A Cell Number For Simulation (P058)• Power Cell Bypass Phase B Cell Number For Simulation (P059)• Power Cell Bypass Phase C Cell Number For Simulation (P060)• Power Cell Bypass Fault Simulation (P061)• Power Cell Bypass Enable Frequency Range Lower Limit (P065)• Power Cell Bypass Restart Enable After Power Cell Bypassed (P066)• One Phase Lost Filter Time (P068)• Power Cell Reactivation Time Upper Limit (P078)

Parameter Power Cell Bypass Enable must be set to “1” to use this function. The power cell count must not be less than three per phase, and the output frequency must be higher than the value set in Power Cell Bypass Enable Frequency Range Lower Limit. Under the above conditions, when any related fault occurs, the cell bypass will be triggered.

Power Cell Bypass Restart Enable After Power Cell Bypassed is used to set the restart behavior after a cell bypass is triggered. Set the value to “1” to allow the drive to restart after a reset fault. Set the value to “0” to allow the drive to restart only after the power cell is repaired and control power is on again.

When the drive is running and a power cell faults (IGBT over current, input over voltage in power cell, one phase loss, cell overheat), a previously bypassed cell in the same phase that only has the “Bypass In Power Cell” fault can be restarted and bypass the faulty cell.

The cell bypass process is show in the following diagram.



Figure 13 - Cell Bypass Process

For example, if Cell A5 faults, it is bypassed, and cells B5 and C5 are bypassed at the same time. After that, the “Bypass in Power Cell” fault for cell C5 is removed and the cell is restarted when Cell C4 faults and is bypassed.

Bypass Mode Select

This function allows the drive to choose between five different bypass programs – no bypass, manually bypass, automatic one-to-one bypass, manual one-to-two bypass, and automatic one-to-two bypass. The bypass program can be selected by configuring parameter Bypass Mode Selection (P484).

To configure Bypass Mode Selection, the drive must be offline before selecting the desired option using the HMI or through remote communication. The selected bypass mode is displayed on the HMI.

• 0 = No bypass• 1 = Manual bypass• 2 = Automatic one-to-one bypass• 3 = Manual one-to-two bypass• 4 = Automatic one-to-two bypass

WARNING: For safety, the parameter Bypass Mode Selection cannot be changed when any MV switch is in the ON position. This parameter must be configured according to the actual bypass scheme used.



Automatically Switch to Bypass

This function allows the drive to automatically switch to the frequency bypass when a fault occurs.

To enable this function, set Bypass Mode Selection (P484) to “2”, and set Fault-To-Bypass (P471) to “1”. At this time, the drive will force the setting of Motor Rotation Direction Under Local Control (P008) to “1” and Motor Rotation Direction Command Selection (P009) to “0”. This is done to prevent the drive from running in a reverse direction.

The drive will automatically switch to the frequency bypass when a fault occurs and the fault duration exceeds the value set in Fault-To-Bypass Delay (P472).

Bypass to VFD

This function is used to switch the motor running mode from the frequency bypass to the drive.

During automatic bypass, one-drive-one motor, make sure the “Drive - Frequency Bypass” switch is in the “Drive” position. When the Bypass to VFD function is enabled, the motor is automatically switched from the frequency bypass to the drive operation. The controller disconnects the frequency bypass contactor, closes the drive connector, and starts the drive.

When clicking the Bypass to VFD button, the control logic is as follows:

1. The controller saves the current value of Flying Start Mode (P416) and Restart Enable (P461).

2. The controller forces the setting of Motor Rotation Direction Under Local Control (P008) to “1” and Motor Rotation Direction Command Selection (P009) to “0”.

3. The controller disconnects the frequency bypass contactor and closes the drive connector.

4. The controller changes the value of Flying Start Mode to “3” and Restart Enable to “0”.

IMPORTANT The drive will not switch to the frequency bypass in the following conditions:• When a trip signal is issued.• When the drive is stopping.• During an emergency stop.• The frequency is less than the value set in Fault-To-Bypass Minimum

Frequecy, Zero through Rated Frequency (P474).• When the time to start the drive is less than the value set in Fault-To-

Bypass Delay When Starting The Motor (P473).



5. The controller starts the drive.

VFD to Bypass

This function is used switch the motor running mode from the drive to the frequency bypass.

During automatic bypass, one-drive-one-motor, when the VFD to Bypass function is enabled, regardless of whether the drive is in Local or Remote control mode, the drive will automatically set the frequency to the rated frequency and save the current value of Stop Method (P024). Then it will set the value of Stop Method to “1”, Motor Rotation Direction Under Local Control (P008) to “1”, and Motor Rotation Direction Command Selection (P009) to “0”.

When the actual frequency is equal to the rated frequency the controller disconnects the drive contactor, then after the time set in Fault-To-Bypass (P472) has elapsed, closes the bypass contactor so that the motor starts running, and Stop Method is restored to its original value.

Current Limit

This function is used to prevent the motor from being overloaded for a long time, and to protect the motor and drive. When the motor is overloaded, the drive will ramp down until the output current RMS value is lower than the drive setting. This feature can also be used to limit the ramp up current.

For current limit, the over load time, over load extent, and over load period can be defined. This function can suppress current spikes which are caused by changes in transient load.

The following parameters are used for this function:• Current Limitation Enable (P436)• Current Limitation Enable Frequency Range Lower Limit (P438)• Current Limitation Threshold (P441)• Current Limitation Heating Time (P442)• Current Limitation Cooling Time (P443)• Current Limitation Decel Ramp Slope Change (P444)• Current Limitation Cycle Load Control Enable (P445)• Current Limit Loop Kp (P133)

IMPORTANT After clicking the Bypass to VFD button and a delay of 60 seconds has passed, parameters Flying Start Mode and Restart Enable are restored to their original values.After performing the Bypass to VFD function, there is a 60 second delay before you can perform the VFD to Bypass function or Reset operation. This is to prevent errors such as internal parameters not being restored, no response after clicking the VFD to Bypass button, and so on.



• Current Limit Loop Ki (P134)• Current Limit Loop Kd (P135)

When the output current is higher than the value of parameter Current Limitation Threshold, the over load timer is triggered and the current limit is set to the value of parameter Current Limitation Decel Ramp Slope Change. Once the duration reaches the value of parameter Current Limitation Heating Time, the current limit is set to the value of parameter Current Limitation Threshold.

When the output current is lower than the value of parameter Current Limitation Threshold, the cooling timer is triggered. Once the duration reaches the value of parameter Current Limitation Cooling Time, the current limit is set to the value of parameter Current Limitation Threshold.

Figure 14 - Current Limit Diagram

Current Stability Loop

This function is used to solve current oscillation at low speed stator resistance effect and output dead band effect.

The following parameters are used for this function:• Current Stability Loop Filter Time Constant (P034)• Current Stability Loop Output Scaling Factor (P035)• Current Stability Loop Output Upper Limit (P036)• Current Stability Loop Output Lower Limit (P037)• Current Stability Loop Enable (P038)• Current Stability Loop Enable Frequency Range Upper Limit (P039)• Current Stability Loop Enable Frequency Range2 Upper Limit (P069)



• Current Stability Loop Frequency Range2 Output Scaling Factor (P070)• Current Stability Loop Frequency Range3 Output Scaling Factor (P071)• Current Stability Loop Enable Delay (P072)

In most cases, the default parameter values need not be changed.

Flying Start

This function is used to enable a fast motor restart without having to stop the motor. There are three flying start modes available in PowerFlex 6000 – search frequency from setting-frequency, search frequency from last stop frequency plus five Hz, and search frequency from maximum frequency.

The flying start function can identify the motor speed based on the output current.

The following parameters may need to be adjusted based on your application:• Flying Start-Initial Output Voltage Percentage (P113)• Flying Start-Current Comparison Delay For Motor Speed Search (P114)• Flying Start-Current Threshold For Successful Motor Speed Search (P115)• Flying Start Compensation Enable (P393)• Flying Start Compensation Current Threshold (P394)• Flying Start Compensation Frequency Reduce Speed (P395)• Flying Start Compensation Defer Restore Voltage Speed Current Threshold

(P408)• Flying Start Compensation Current Threshold for Fast Compensation

(P410)• Flying Start Mode (P416)• Flying Start Motor Speed Search Timeout (P417)• Flying Start Voltage Recovery Time (Low Speed Region) (P457)• Flying Start Voltage Recovery Time (High Speed Region) (P459)• Flying Start Low/High Speed Regions Boundary (P463)

In most cases, the default parameter values need not be changed.

Here are some tips to use the function more effectively. If the drive is unable to detect the correct speed setting, increase Flying Start Motor Speed Search Timeout to decrease the search steps and improve the accuracy, or increase Flying Start-Initial Output Voltage Percentage and decrease Flying Start-Current Threshold For Successful Motor Speed Search to improve the accuracy. If there was some noise during the restore stage, increase Flying Start Voltage Recovery Time (Low Speed Region) or Flying Start Voltage Recovery Time (High Speed Region). It is not necessary to change Flying Start Low/High Speed Regions Boundary.



The frequency compensation feature should be enabled if static fly start is required to prevent “output short circuit” fault from occurring. The value of Flying Start Compensation Frequency Reduce Speed should not be set too small, especially if there is a large amount of inertia present. The default value is sufficient for general purpose applications.

Use the third flying start mode, “search frequency from maximum frequency” to implement AC mode to VF mode.

Load Loss Control

This function is used to avoid motor regeneration. In normal operation, there will be a quick acceleration of motor speed when there is a sudden loss or heavy reduction of load. At this time, the motor works in regeneration mode and the DC bus of the power cell is charging which will lead to power cell over voltage.

The following parameters are used for this function:• Load Loss Control Enable (P045)• Load Loss Enable Frequency (P046)• Load Loss Control Differential Scaling (P047)• Load Loss Frequency Compensation Upper Limit (P048)• Load Loss Control Scaling Factor (P049)• Load Loss Control Integral Time (P050)• Load Loss Control Filter Time (P051)• Load Loss Enable Current Threshold (P052)• Load Loss Control Exit Delay (P053)

Motor Auto-tune

This function is used to measure the motor parameters and it can calculate the values automatically or by nameplate. The motor parameters can be set manually but it is recommended to set them automatically to ensure system performance. The motor parameters include motor stator, motor rotor, and motor magnetizing current.

The following parameters are used for this function:• Motor Autotune Selection (P121)• Motor Autotune Delay (P122)• Motor Autotune Filter Time (P123)• Motor Autotune Current Id Kp (P124)• Motor Autotune Current Id Ki (P125)• Motor Autotune Current Iq Kp (P126)• Motor Autotune Current Iq Ki (P127)• Motor Autotune Id Feedback Error Valid (P128)



• Motor Autotune Lr/Lm (P129)• Motor Autotune Id Reference (P130)• Motor Autotune Iq Reference (P131)• Motor Autotune Time Limit (P132)• Motor Autotune Rs/Rr (P136)• Motor Rated Current (P137)• Motor Stator Resistance Rs (P138)• Motor Magnetizing Current Id (P139)• Motor Rotor Resistance Rr (P140)• Motor Magnetizing Inductance Lm (P141)• Motor Stator Leakage Inductance LIs (P142)• Motor Rotor Leakage Inductance Llr (P143)• Motor Autotune Rs Upper Limit (P178)• Motor Autotune Maximum Iq For No Load (P179)

Use parameter Motor Autotune Selection to select the motor auto-tune mode. There are four modes – manual configuration, nameplate configuration, static auto-tune and dynamic auto-tune.

Restart Feature

This function is used to automatically restart the drive after a system fault occurs. This helps to improve drive stability and avoids disruption in some applications should the drive stop unexpectedly.

To enable the drive restart function, set Restart Enable (P461) to “1”. If something is wrong with the power cell, the function will wait for the time set in Power Cell Fault Auto Reset Delay (P465) to elapse before restarting. If any fault occurs twice during the time set in Fault Reset Timeout (P462), the drive will trip.

IMPORTANT If the restart feature is enabled, flying start mode must also be enabled and set to “Search frequency from last stop frequency plus five Hz”.



Skip Frequency Settings

This function is used to avoid a trip caused by sudden changes in current due to motor resonance and fan surge.

This function is enabled by parameter Skip Frequency Enable (P089). There are two bands – one is between parameters Skip Frequency 1 Lower Limit (P090) and Skip Frequency 1 Upper Limit (P091), the other is between Skip Frequency 2 Lower Limit (P092) and Skip Frequency 2 Upper Limit (P093). If the setting-frequency is within these two bands, it can skip the resonance range. The following diagram shows that the setting-frequency will be changed automatically into the upper limit of the bands while the speed is increasing, or changed into the lower limit of the band while the speed is decreasing. The recommended width of these intervals is one Hz.

Figure 15 - Skip Frequency Function Diagram

Start and Stop Sequence

The Start sequence function is used to improve starting torque and suppress the current oscillation at low frequency. The Stop sequence function is used to reduce the current oscillation at low frequency during the stop process. These functions mainly include the flux building process control, boost voltage control, and slip control.

The following parameters are used for these functions:• 0...t1 = Flux Time (P454)• t1...t2 = Flux Delay (P271)• t2...t3 = Minimum Start Frequency During Time (P447)• F_start = Minimum Start Frequency (P448)• Low Speed Voltage Compensation During Flux Building Process (P449)

IMPORTANT Make sure there is no overlap between two bands when setting the parameters.

Drive recognize Freq

User set Freq

fB2

fB1

fA2

fA1

P090 P091 P092 P093



• Low Speed Voltage Compensation (P451)• Low Speed Voltage Compensation Threshold (P464)

Figure 16 - Start and Stop Sequence Diagram

Process Control The process control settings include the following functions:• Deceleration and Acceleration Process User Define on page 39• PID Function on page 41• Deceleration Control on page 42

Deceleration and Acceleration Process User Define

This function allows you to define the deceleration and acceleration process into four steps to suit your application.

The drive decelerates from rated frequency to Freq1 during t1, from Freq1 to Freq2 during t2, from Freq2 to Freq3 during t3, and from Freq3 to zero during t4.

The following parameters are used to define the deceleration process:• Freq1 = Deceleration Frequency 1 (P387)• Freq2 = Deceleration Frequency 2 (P389)• Freq3 = Deceleration Frequency 3 (P391)• t1 = Deceleration Time 1 (P386)• t2 = Deceleration Time 2 (P388)

IMPORTANT It is recommended to use these functions when the drive is not in SVC mode.



• t3 = Deceleration Time 3 (P390)• t4 = Deceleration Time 4 (P392)

The following parameters are used to define the acceleration process:• Freq1 = Acceleration Frequency 1 (P419)• Freq2 = Acceleration Frequency 2 (P421)• Freq3 = Acceleration Frequency 3 (P423)• t1 = Acceleration Time 1 (P418)• t2 = Acceleration Time 2 (P420)• t3 = Acceleration Time 3 (P422)• t4 = Acceleration Time 4 (P424)

The following rule must be observed for both deceleration and acceleration:

Freq1 > Freq2 > Freq3

Parameter Deceleration Process Enable (P385) must be set to “1” to use this function. The total deceleration time is equal to:Deceleration Time 1 + Deceleration Time 2 + Deceleration Time 3 + Deceleration Time 4

If Deceleration Process Enable is set to “0”, the deceleration time is equal to the value set in Deceleration Time (P399).

Parameter Acceleration Process Enable (P425) must be set to “1” to use this function. The total acceleration time is equal to:Acceleration Time 1 + Acceleration Time 2 + Acceleration Time 3 + Acceleration Time 4

If Acceleration Process Enable is set to “0”, the acceleration time is equal to the value set in Acceleration Time (P401).

Figure 17 - Deceleration and Acceleration Process Diagram

Deceleration Acceleration



PID Function

This function allows you to control the production process and process feedback signal to the drive to achieve PID process control.

To use the PID function:

1. Set PID Control Enable (P486) to “1”.There is only the negative feedback function, there is no positive feedback function.

2. Select the reference signalIf PID Control Enable is set to “1”, the frequency reference channel is disabled and the PID reference channel is enabled. In the hardware, both frequency reference and PID reference share the same channel.

3. PID reference signalThe drive PID digital and analog reference signals are shown in the following diagram.

a. Digital reference signalWhen the drive is in the Local control method (Owner #1 Selection (P475) = “1”), the signal is provided by the HMI and the data range is from 0...100.0.

When the drive is in the Remote control method (Owner #2 Selection (P476) = “15”), the signal is provided by communications and the data range is from 0...1000 (1000 = upper range limit * 10).

b. Analog reference signalWhen the drive is in the Remote control method (Owner #2 Selection (P476) = “8”), the signal is provided by the 4-20 mA input.

P475=0

P476=15

P476=8

0.0...100.0 PID Function Switch

Negative Feedback0...1000

4-20 mA

HMI

Normalization

Comm

Analog

Local

Remote

P

I

D

Drive

PID Reference

FrequencyReference Frequency

ReferenceControlTarget

Feedback

IMPORTANT Take note of the following:• Failure during frequency-to-power conversion and power-to-

frequency conversion functions.• Fault automatic conversion function is retained.



Deceleration Control

This function is used to avoid motor charging back to DC bus during ramp down, and DC bus over voltage trip.

The following parameters are used for this function:• Deceleration Control Enable (P396)• Deceleration Control Active Power Level for Release Output Frequency

(P397)• Deceleration Control Active Power Level for Hold On Output Frequency

(P398)• Deceleration Control Compensation Threshold Scaling Factor (P434)• Deceleration Control Frequency Range (P435)

During the ramp down process, if active power is lower than Deceleration Control Active Power Level for Hold On Output Frequency plus active power threshold, the drive output frequency will be held. However if active power is higher than Deceleration Control Active Power Level for Release Output Frequency plus active power threshold, the ramp down process will continue.

Protection Protection includes faults and warnings. Faults include system faults, logic faults, and power cell faults. Warnings include system warnings, logic warnings, and power cell warnings. For more information, see Fault Messages on page 201 and Warning Messages on page 209.


Chapter 2

Parameter Descriptions

PowerFlex 6000 Medium Voltage AC DriveDatabase Revision # 6.xxx This document provides detailed description of the parameters used in drive

control. The parameters are arranged into functional groups. Each description begins with the full name of the parameter. The linear number of the parameter is given followed by the default value, then the minimum and maximum values showing the position of the decimal point and the units if applicable. Next is the generic value that is assigned when a parameter initialization is performed. The access level at which the parameter can be first seen is given. The access levels are User, Setup, and R&D. If the parameter is first seen at a certain level and it is a Read/Write type, it can be modified at the same or a higher level. Read only parameters are operational variables that change with different operating conditions. Finally, there is a short functional description of the parameter.

IMPORTANT Please read the following information on overall parameter configuration.


Chapter 2 Parameter Descriptions

Interpreting Bit-Encoded Parameters

Most bit-encoded parameters follow a basic format. A one (1) in an associated bit represents a true or active condition. A zero (0) in an associated bit represents a false or inactive condition.

The methodology is best illustrated using an example:

Power Cell Fault MaskLinear Number: P010Default Value: 32767Minimum Value: 0Maximum Value: 32767Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter allows user to select which faults related to a power cell can be masked.

The description in the manual will always be structured in the same way. The top description (in this case, IGBT set#1 over current in powercell) is always the least-significant bit, or right-most bit. As you move down the list of descriptions, you move to the left on the bit-encoded word. Any unused bits in the middle of a word will be identified, but unused bits in the middle of a word will have no description. This is why a 16-bit word may only have a few descriptions. The rest are reserved for future expansion.

When a bit-encoded parameter is viewed in its associated group, it is actually displayed as a hexadecimal number. The right-most four bits represent the right-most hexadecimal digit. Each subsequent group of 4 represents the next hex digit.

Bit Enum Text Description

0 IGBT set#1 over current in powercell 1 = Over current, 0 = Normal

1 IGBT set#2 over current in powercell 1 = Over current, 0 = Normal

2 Input over voltage in powercell 1 = Over voltage, 0 = Normal

3 DC Bus under voltage in powercell 1 = Low voltage, 0 = Normal

4 Abnormal communication in powercell 1 = Abnormal, 0 = Normal

5 No PWM1 pulse for IGBT set#1 in powercell 1 = Abnormal, 0 = Normal

6 No PWM2 pulse for IGBT set#2 in powercell 1 = Abnormal, 0 = Normal

7 IGBT set#1 failed to turn on in powercell Reserved

8 IGBT set#2 failed to turn on in powercell Reserved

9 Powercell bypass 1 = Abnormal, 0 = Normal

10 Over temperature in powercell 1 = Abnormal, 0 = Normal

11 Powercell failed to bypass 1 = Abnormal, 0 = Normal

12 One phase Lost in powercell 1 = Abnormal, 0 = Normal

13 Two phase Lost in powercell 1 = Abnormal, 0 = Normal

14 Input over voltage warning in powercell 1 = Abnormal, 0 = Normal

15 Reserved


Parameter Descriptions Chapter 2

The following table illustrates the relationship:

When you display a specific bit-encoded parameter, or choose to modify a bit-encoded parameter, it will be displayed in bit format, with an individual description of each bit. When modifying a parameter, highlighting the bit with the cursor keys will automatically pop up the description on screen.

Conversion Table

Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

Value 8 4 2 1 8 4 2 1 8 4 2 1 8 4 2 1

Example 0 1 0 1 1 1 1 0 1 0 1 1 0 0 1 1

0 + 4 + 0 + 1 8 + 4 + 2 + 0 8 + 0 + 2 + 1 0 + 0 + 2 + 1

Sums 5 E B 3

Binary Hex Binary Hex Binary Hex Binary Hex

0000 0 0100 4 1000 8 1100 C

0001 1 0101 5 1001 9 1101 D

0010 2 0110 6 1010 A 1110 E

0011 3 0111 7 1011 B 1111 F



Control Owner Parameters Owner #1 SelectionLinear Number: P475Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to select the Frequency Reference source and Control Command source when the drive control mode is set to Local (mainly refers to the Start command).

Owner #2 SelectionLinear Number: P476Default Value: 8Minimum Value: 2Maximum Value: 23Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to select the Frequency Reference source and Control Command source when the drive control mode is set to DCS (mainly refers to the Start command).

For example, when P476 is set to ‘8’, the analog value of 4-20 mA is set by the DCS as the Frequency Reference of the drive and the hard Start mode is controlled by the DCS. When P476 is set to “6”, the HMI is set as the Frequency Reference of the drive and the hard Start mode is controlled by the DCS through hard wiring.

Value Description

0 Frequency Reference is from the HMI, and Control Command is from the HMI or Control Panel.

1 Frequency Reference is from the drive Potentiometer, and Control Command is from the HMI or Control Panel.

Table 7 - Frequency Reference and Control Command Source Matrix for Parameter P476

Frequency Owner

Control Owner



HMI 0 6 12 18


1 7 13 19

Analog 4-20 mA 2 8 14 20

Comm 3 9 15 21

4-Speed 4 10 16 22

Remote Box 5 11 17 23



Owner #3 SelectionLinear Number: P477Default Value: 23Minimum Value: 18Maximum Value: 23Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to select the Frequency Reference source and Control Command source when the drive control mode is set to Remote Box (mainly refers to the Start command).

Local/Remote Owner SelectionLinear Number: P478Default Value: 0Minimum Value: 0Maximum Value: 3Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to set the location to switch the drive control mode between Local, DCS, and Remote box.

Table 8 - Frequency Reference and Control Command Source Matrix for Parameter P477

Frequency Owner

Control Owner



HMI N/A N/A N/A 18


N/A N/A N/A 19

Analog 4-20 mA N/A N/A N/A 20

Comm N/A N/A N/A 21

4-Speed N/A N/A N/A 22

Remote Box N/A N/A N/A 23

Value Description

0 Selection is done on the HMI.

1 Selection is done using a switch mounted on the control panel.

2 Selection is done on the HMI and a switch mounted on the user site.

3 Selection is done using a switch mounted on the control panel and a switch on the user site.



4-Step Variable Speed – Speed1Linear Number: P480Default Value: 10Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the frequency value of the first step in the 4-step Variable Speed function.


This parameter sets the frequency value of the second step in the 4-step Variable Speed function.


This parameter sets the frequency value of the third step in the 4-step Variable Speed function.


This parameter sets the frequency value of the fourth step in the 4-step Variable Speed function.



When Disconnected Between DCS and PLCLinear Number: P485Default Value: 1Minimum Value: 0Maximum Value: 5Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to determine the drive response to a communication failure when in DCS control mode.

Nameplate Parameters Number of Power Cells Per PhaseLinear Number: P007Default Value: 3 (2.3 kV/2.4 kV/3.0 kV/3.3 kV),

4 (4.0 kV/4.16 kV),5 (6.0 kV),6 (6.3 kV/6.6 kV/6.9 kV),8 (10.0 kV),9 (11.0 kV)

Minimum Value: 0Maximum Value: 9Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Number of Power Cells per Phase. The value of P007 is zero (0) when the control box is tested. The parameter must be set to the actual number of power cells per phase.

Value Description

0 Stop

1 Continue running at current frequency

2 Continue running at frequency set in P480 (4-step Variable Speed – Speed1)






Power Cell DC Bus Rated VoltageLinear Number: P011Default Value: 650V (2.3 kV/2.4 kV),

848V (4.0 kV/4.16 kV),920V (3.0 kV/3.3 kV/6.3 kV/6.6 kV),976V (6.0 kV/6.9 kV/10.0 kV/11.0 kV)

Minimum Value: 50VMaximum Value: 1300VAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is the power cell DC bus rated voltage. The value is equal to the transformer secondary rated line voltage (rms) * 1.414.

Motor Rated VoltageLinear Number: P012Default Value: 10000VMinimum Value: 0VMaximum Value: 32767VAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is the motor rated line voltage RMS value.

Motor Rated PowerLinear Number: P013Default Value: 0 kWMinimum Value: 0 kWMaximum Value: 32767 kWAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is the motor rated power.

Motor Rated SpeedLinear Number: P014Default Value: 1500 RPMMinimum Value: 0 RPMMaximum Value: 5000 RPMAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is the motor rated speed.



Motor Rated Power FactorLinear Number: P015Default Value: 87.99%Minimum Value: 0.00%Maximum Value: 100.00%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is the motor rated power factor.

Number Of Motor Pole PairsLinear Number: P017Default Value: 2Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the number of motor pole pairs.

Encoder ResolutionLinear Number: P019Default Value: 1024Minimum Value: 0Maximum Value: 4096Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the resolution of the encoder.

VFD Rated CurrentLinear Number: P085Default Value: 40Minimum Value: 0Maximum Value: 5000Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the drive rated current.



Line Rated VoltageLinear Number: P146Default Value: 2300V (2.3kV), 2400V (2.4 kV),

3000V (3.0 kV), 3300V (3.3 kV),4000V (4.0 kV), 4160V (4.16 kV),6000V (6.0 kV), 6300V (6.3 kV), 6900V (6.9 kV),10000V (10.0 kV),11000V (11.0 kV)

Minimum Value: 0VMaximum Value: 32767VAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is the input voltage rated value.

Line Rated FrequencyLinear Number: P147Default Value: 50 HzMinimum Value: 0 HzMaximum Value: 32767 HzAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is the input voltage rated frequency.

Transformer Rated PowerLinear Number: P148Default Value: 0 kVAMinimum Value: 0 kVAMaximum Value: 32767 kVAAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is the transformer rated power.

Transformer Short Circuit ImpedanceLinear Number: P149Default Value: 5%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is the input transformer short circuit impedance.



Line CT RatioLinear Number: P195Default Value: 0Minimum Value: 0Maximum Value: 0Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the line CT ratio.

Line CT Burden ResistorLinear Number: P196Default Value: 0Minimum Value: 0Maximum Value: 0Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the line CT burden resistor.

Motor HECS RatioLinear Number: P197Default Value: 1000.00Minimum Value: 0.00Maximum Value: 9999.99Access Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the motor HECS ratio.

Motor HECS Burden ResistorLinear Number: P198Default Value: 15.00Minimum Value: 0.00Maximum Value: 19.99Access Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the motor HECS burden resistor.



Motor Rated CurrentLinear Number: P199Default Value: 40 AMinimum Value: 0 AMaximum Value: 5000 AAccess Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the motor rated current.

DC Link Voltage Sag Scaling At Rated LoadLinear Number: P277Default Value: 5Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is the DC Link Voltage Sag Scaling At Rated Load. It is the difference between no load modulation index and full load index.

Other Parameters Safe Start ConditionLinear Number: P040Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the condition for Safe Start.

Input Contactor/Circuit Breaker Close DelayLinear Number: P250Default Value: 5000 msMinimum Value: 0 msMaximum Value: 10000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Input Contactor/Circuit Breaker Close Delay.

Value Description

0 Zero Frequency Command required

1 Frequency Command allowed



User Analog Set-point SwitchLinear Number: P494Default Value: 0Minimum Value: 0Maximum Value: 3Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the User Analog Set-point Switch.

HMI Display Parameters Rated Frequency HMI Display Filter TimeLinear Number: P351Default Value: 100 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Rated Frequency HMI Display Filter Time.

Rated Frequency HMI Display Integer PartLinear Number: P352Default Value: 50Minimum Value: 0Maximum Value: 75Access Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the integer part for Rated Frequency HMI Display.

Rated Frequency HMI Display Decimal PartLinear Number: P353Default Value: 0Minimum Value: 0Maximum Value: 1000Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the decimal part for Rated Frequency HMI Display.



Motor Voltage HMI Display Filter TimeLinear Number: P354Default Value: 2000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Voltage HMI Display Filter Time.

Motor Voltage HMI Display Integer PartLinear Number: P355Default Value: 2300 (2.3 kV), 2400 (2.4 kV),

3000 (3 kV), 3300 (3.3 kV),4000 (4 kV), 4160 (4.16 kV),6000 (6 kV), 6300 (6.3 kV), 6600 (6.6 kV), 6900 (6.9 kV)10000 (10 kV),11000 (11 kV)

Minimum Value: 0Maximum Value: 16384Access Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the integer part for Motor Voltage HMI Display.

Motor Voltage HMI Display Decimal PartLinear Number: P356Default Value: 0Minimum Value: 0Maximum Value: 1000Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the decimal part for Motor Voltage HMI Display.

Actual Frequency HMI Display Filter TimeLinear Number: P357Default Value: 100 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Actual Frequency HMI Display Filter Time.



Actual Frequency HMI Display Integer PartLinear Number: P358Default Value: 50Minimum Value: 0Maximum Value: 75Access Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the integer part for Actual Frequency HMI Display.

Actual Frequency HMI Display Decimal PartLinear Number: P359Default Value: 0Minimum Value: 0Maximum Value: 1000Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the decimal part for Actual Frequency HMI Display.

Motor Current HMI Display Filter TimeLinear Number: P360Default Value: 2000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Current HMI Display Filter Time.

Motor Current HMI Display Integer PartLinear Number: P361Default Value: 0Minimum Value: 0Maximum Value: 5000Access Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the integer part for Motor Current HMI Display.



Motor Current HMI Display Decimal PartLinear Number: P362Default Value: 0Minimum Value: 0Maximum Value: 1000Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the decimal part for Motor Current HMI Display.

Rated Frequency HMI Display AddressLinear Number: P371Default Value: 221Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the address for Rated Frequency HMI Display.

Motor Voltage HMI Display AddressLinear Number: P372Default Value: 119Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the address for Motor Voltage HMI Display.

Actual Frequency HMI Display AddressLinear Number: P373Default Value: 252Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the address for Actual Frequency HMI Display.



K Number 252Access Level: R&DRead/Write: Read only

This register stores the value of the actual frequency. The unit is PU.

Motor Current HMI Display AddressLinear Number: P374Default Value: 118Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the address for Motor Current HMI Display.

Power Display EnableLinear Number: P479Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the display of output power and energy values on the HMI.

Ramp Parameters Deceleration TimeLinear Number: P399Default Value: 400.0 sMinimum Value: 0.0 sMaximum Value: 3276.7 sAccess Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Deceleration Time.

Value Description

0 Disable

1 Enable



Acceleration TimeLinear Number: P401Default Value: 200.0 sMinimum Value: 0.0 sMaximum Value: 3276.7 sAccess Level: User, Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Acceleration Time. It is used to set the S Curve.

Acceleration Ramp Transition TimeLinear Number: P402Default Value: 0.99%Minimum Value: 0.00%Maximum Value: 100.00%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Acceleration round corner. It is used to set the S Curve. The acceleration round corner equals Acceleration Ramp Transition Time * Acceleration Time.

Acceleration Time UnitLinear Number: P403Default Value: 0.1 sMinimum Value: 0.01 sMaximum Value: 0.1 sAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the unit value for Acceleration Time, either “0.01” or “0.1” second. It is used to set the S Curve.

Deceleration Ramp Transition TimeLinear Number: P405Default Value: 0.99%Minimum Value: 0.00%Maximum Value: 100.00%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Deceleration round corner. It is used to set the S Curve. The deceleration round corner equals Deceleration Ramp Transition Time * Deceleration Time.



Deceleration Time UnitLinear Number: P406Default Value: 0.1 sMinimum Value: 0.01 sMaximum Value: 0.1 sAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the unit value for Deceleration Time, either “0.01” or “0.1” second. It is used to set the S Curve.

Amplification Coefficient Of Error TermsLinear Number: P409Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Amplification Coefficient of Error Terms. It is used to set the S Curve.

Frequency Setting Parameters

Frequency Command Lower LimitLinear Number: P413Default Value: 0Minimum Value: -100Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for Frequency Command.

Frequency Command Deadband Upper LimitLinear Number: P414Default Value: 10 puMinimum Value: 0 puMaximum Value: 100 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Frequency Command Deadband.



Frequency Command Upper LimitLinear Number: P415Default Value: 100Minimum Value: -100Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Frequency Command.

Rated Output FrequencyLinear Number: P460Default Value: 50Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Rated Output Frequency.

Maximum Output FrequencyLinear Number: P466Default Value: 50Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Maximum Output Frequency.

Over Speed EnableLinear Number: P467Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Over Speed function.

Value Description

0 Disable Over Speed

1 Enable Over Speed



Stop Mode Parameters Stop MethodLinear Number: P024Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Stop Method.

Frequency Command-Low Frequency Region BoundaryLinear Number: P251Default Value: 0.5 pu Minimum Value: 0.0 puMaximum Value: 100.0 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Frequency Command-Low Frequency Region Boundary.

Motor In Stopping Condition ThresholdLinear Number: P252Default Value: 1 puMinimum Value: 0 puMaximum Value: 100 puAccess Level: Setup, R&DRead/Write: Read/WriteModify: Online/Offline

This parameter sets the Motor In Stopping Condition Threshold.

Motor Coast Stop TimeLinear Number: P253Default Value: 10 msMinimum Value: 0 msMaximum Value: 10000 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Coast Stop Time.

Value Description

0 Ramp Down

1 Coast Stop



Delayed Lockout Time of Stop OperationLinear Number: P270Default Value: 2000 msMinimum Value: 0 msMaximum Value: 5000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Delayed Lockout Time of Stop Operation.

Motor Direction Control Parameters

Motor Rotation Direction Under Local ControlLinear Number: P008Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Motor Rotation Direction Under Local Control.

Motor Rotation Direction Command SelectionLinear Number: P009Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Motor Rotation Direction Command Selection. Either local control or DCS control can be selected as the command source.

Value Description

0 Reverse Motor rotates in the reverse direction.

1 Forward Motor rotates in the forward direction.

Value Description

0 Local Control Motor direction is determined by P008.

1 DCS Motor direction is determined by register K26.



Switch Frequency Setting Parameters

Switch Frequency Setting Enable CodeLinear Number: P087Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Switch Frequency Setting Code.

Switch Frequency SettingLinear Number: P088Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to select the frequency value for Switch Frequency Setting.

VF Curve Setting Parameters Slip Compensation EnableLinear Number: P111Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable Slip Compensation.

Value Description

0 Disable Switch Frequency Setting Code

1 Enable Switch Frequency Setting Code

Value Description

0 600 Hz

1 1200 Hz

Value Description

0 Disable Slip Compensation

1 Enable Slip Compensation



Flux DelayLinear Number: P271Default Value: 50 msMinimum Value: 0 msMaximum Value: 5000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flux Delay.

SVC Low Frequency Acceleration Time Enable Frequency Range Upper LimitLinear Number: P291Default Value: 10%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for SVC Low Frequency Acceleration Time Enable Frequency Range.

SVC Low Frequency Acceleration TimeLinear Number: P292Default Value: 5.0 sMinimum Value: 1.0 sMaximum Value: 3276.7 sAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the SVC Low Frequency Acceleration Time.

SVC Flux Voltage Boost CoefficientLinear Number: P293Default Value: 300%Minimum Value: 0%Maximum Value: 500%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the SVC Flux Voltage Boost Coefficient.



SVC Flux Voltage Boost Upper FrequencyLinear Number: P294Default Value: 10%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the SVC Flux Voltage Boost Upper Frequency.

Iq Filter Time For Slip EstimationLinear Number: P295Default Value: 100 msMinimum Value: 0 msMaximum Value: 1000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Iq Filter Time For Slip Estimation.

Frequency At First Point for 5 Point VFLinear Number: P375Default Value: 0.99%Minimum Value: 0.00%Maximum Value: 10.00%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Frequency At First Point for 5 Point VF.

Amplitude At First Point for 5 Point VFLinear Number: P376Default Value: 0.99%Minimum Value: 0.00%Maximum Value: 3.00%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Amplitude At First Point for 5 Point VF.



Frequency At Second Point for 5 Point VFLinear Number: P377Default Value: 20%Minimum Value: 10%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Frequency At Second Point for 5 Point VF.

Amplitude At Second Point for 5 Point VFLinear Number: P378Default Value: 10%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Amplitude At Second Point for 5 Point VF.

Frequency At Third Point for 5 Point VFLinear Number: P379Default Value: 40%Minimum Value: 10%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Frequency At Third Point for 5 Point VF.

Amplitude At Third Point for 5 Point VFLinear Number: P380Default Value: 27%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Amplitude At Third Point for 5 Point VF.



Frequency At Fourth Point for 5 Point VFLinear Number: P381Default Value: 60%Minimum Value: 10%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Frequency At Fourth Point for 5 Point VF.

Amplitude At Fourth Point for 5 Point VFLinear Number: P382Default Value: 45%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Amplitude At Fourth Point for 5 Point VF.

Frequency At Fifth Point for 5 Point VFLinear Number: P383Default Value: 80%Minimum Value: 10%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Frequency At Fifth Point for 5 Point VF.

Amplitude At Fifth Point for 5 Point VFLinear Number: P384Default Value: 70%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Amplitude At Fifth Point for 5 Point VF.



Low Speed Voltage CompensationLinear Number: P451Default Value: 1%Minimum Value: 0%Maximum Value: 3%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Low Speed Voltage Compensation.

Low Speed Voltage Compensation Frequency ThresholdLinear Number: P452Default Value: 20 puMinimum Value: 0 puMaximum Value: 100 puAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for Low Frequency Voltage Compensation.

V/F CurveLinear Number: P453Default Value: 5Minimum Value: 0Maximum Value: 5Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline Only

This parameter selects the V/F curve.

Flux TimeLinear Number: P454Default Value: 2 sMinimum Value: 0 sMaximum Value: 10 sAccess Level: R&DRead/Write: Read/WriteModify Level: Offline Only

This parameter sets the Flux Time.

Value Description

0 Linear

1 Parabolic Curve

2 Predefined Curve #1

3 Predefined Curve #2

4 5 Point VF

5 SVC



Modulation IndexLinear Number: P455Default Value: 84.0% (2.3 kV), 87.6% (2.4 kV),

77.3% (3.0 kV), 85.0% (3.3 kV),83.8% (4.0 kV), 87.0% (4.16 kV),87.0% (6.0 kV), 81.0% (6.3 kV),85.0% (6.6 kV), 83.7% (6.9 kV),91% (10.0 kV)89% (11.0 kV)

Minimum Value: 0%Maximum Value: 110%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Modulation Index.

Motor Voltage Upper LimitLinear Number: P456Default Value: 84.0% (2.3 kV), 87.6% (2.4 kV),

77.3% (3.0 kV), 85.0% (3.3 kV),83.8% (4.0 kV), 87.0% (4.16 kV),87.0% (6.0 kV), 81.0% (6.3 kV),85.0% (6.6 kV), 83.7% (6.9 kV),91% (10.0 kV)89% (11.0 kV)

Minimum Value: 0%Maximum Value: 110%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Voltage Upper Limit.

Coefficient ALinear Number: P458Default Value: 40%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Coefficient A.



Analog Input Parameters Line Voltage Uab Scaling FactorLinear Number: P151Default Value: 153.0% (2.3 kV), 146.7% (2.4 kV),

175.9% (3.0 kV), 159.9% (3.3 kV),175.8% (4.0 kV), 169.0% (4.16 kV),146.5% (6.0 kV), 167.4% (6.3 kV),159.8% (6.6 kV), 152.8% (6.9 kV),158.1% (10.0 kV)143.7% (11.0 kV)

Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Line Voltage Uab Scaling Factor.

Line Voltage Ubc Scaling FactorLinear Number: P152Default Value: 153.0% (2.3 kV), 146.7% (2.4 kV),



This parameter sets the Line Voltage Ubc Scaling Factor.

Line Voltage Ung Scaling FactorLinear Number: P153Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Line Voltage Ung Scaling Factor.



Line Current Phase A Scaling FactorLinear Number: P171Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Line Current Phase A Scaling Factor.

Line Current Phase B Scaling FactorLinear Number: P172Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Line Current Phase B Scaling Factor.

Line Current Phase C Scaling FactorLinear Number: P173Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Line Current Phase C Scaling Factor.

Ia Motor Current Memory AddressLinear Number: P200Default Value: 13Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Ia Motor Current Memory Address.



Motor Ia Scaling FactorLinear Number: P201Default Value: 105.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Ia Scaling Factor.

Ic Motor Current Memory AddressLinear Number: P202Default Value: 14Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Ic Motor Current Memory Address.

Motor Ic Scaling FactorLinear Number: P203Default Value: 105.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Leve: Online/Offline

This parameter sets the Motor Ic Scaling Factor.

Motor Uab Voltage AddressLinear Number: P204Default Value: 11Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Uab Voltage Address.



Motor Uab Voltage Scaling FactorLinear Number: P205Default Value: 153.0% (2.3 kV), 146.7% (2.4 kV),



This parameter sets the Motor Uab Voltage Scaling Factor.

Motor Uac Voltage Scaling FactorLinear Number: P206Default Value: 153.0% (2.3 kV), 146.7% (2.4 kV),



This parameter sets the Motor Uac Voltage Scaling Factor.

Digital Output Parameters Digital Output #0 Memory AddressLinear Number: P300Default Value: 99Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the memory address for digital output #0.



Digital Output #0 LogicLinear Number: P301Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the logic for digital output #0.

Digital Output #0 Bit SelectionLinear Number: P302Default Value: 0Minimum Value: 0Maximum Value: 15Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to select the bit (0...15) for digital output #0.

Digital Output #0 DelayLinear Number: P303Default Value: 0 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for digital output #0.

Digital Output #1 Memory AddressLinear Number: P304Default Value: 99Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline


Value Description

0 Non-Inverting

1 Inverting







Digital Output #1 DelayLinear Number: P307Default Value: 0 msMinimum Value: 0 msMaximum Value: 32767Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline




Value Description

0 Non-Inverting

1 Inverting











Value Description

0 Non-Inverting

1 Inverting











Value Description

0 Non-Inverting

1 Inverting











Value Description

0 Non-Inverting

1 Inverting











Value Description

0 Non-Inverting

1 Inverting











Value Description

0 Non-Inverting

1 Inverting









Analog Output Parameters Analog Output #1 Memory AddressLinear Number: P332Default Value: 252Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the memory address for analog output #1.

Value Description

0 Non-Inverting

1 Inverting



K Number 252Access Level: R&DRead/Write: Read only

This register stores the value of the actual frequency. The unit is PU.

Analog Output #1 Filter TimeLinear Number: P333Default Value: 1000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time for analog output #1.

Analog Output #1 OffsetLinear Number: P334Default Value: 0 puMinimum Value: -100 puMaximum Value: 100 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the offset for analog output #1.

Analog Output #1 Scaling FactorLinear Number: P335Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the scaling factor for analog output #1.

Analog Output #2 Memory AddressLinear Number: P336Default Value: 206Minimum Value: 0Maximum Value: 500Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline








Analog Output #2 Scaling FactorLinear Number: P339Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline










Analog Output #3 Scaling FactorLinear Number: P343Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline










Analog Output #4 Scaling FactorLinear Number: P347Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline


Version Control Parameters Version Compatibility EnableLinear Number: P470Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the version control feature. The value will be saved in register K495

Value Description

0 Disable Version Control

1 Enable Version Control



Fan Control Parameters Fan Control ModeLinear Number: P094Default Value: 0Minimum Value: 0Maximum Value: 2Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to select the fan control mode.

Fan Control Group #1 Fan NumberLinear Number: P095Default Value: 0Minimum Value: 0Maximum Value: 10Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the number of fans in transformer cabinet #1.


This parameter sets the number of fans in transformer cabinet #2.


This parameter sets the number of fans in the power cell cabinet.

Value Description

0 Non-redundant fan mode

1 One fan as redundant fan mode

2 All fans in cycle mode




This parameter sets the number of fans in the filter cabinet.

Fan Control Main Cooling Fan Cycle Time Linear Number: P099Default Value: 720 hrMinimum Value: 0 hrMaximum Value: 14400 hrAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the work time of the main cooling fan.

Fan Control Redundant Fan Working TimeLinear Number: P100Default Value: 1 hrMinimum Value: 0 hrMaximum Value: 14400 hrAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the work time of the redundant fan.

Fan Control Fan Feedback DelayLinear Number: P101Default Value: 200Minimum Value: 0Maximum Value: 1000Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the feedback delay of the fan status. The unit is 100 ms.



Fan Control Fan Stop DelayLinear Number: P102Default Value: 1 minMinimum Value: 0 minMaximum Value: 10 minAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the fan stop delay time when the drive is stopping normally.

Fan Control Transformer Cabinet Fan Quantity Upper LimitLinear Number: P106Default Value: 10Minimum Value: 0Maximum Value: 16Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for the Fan Control Transformer Cabinet Fan Quantity.

Fan Control TX Cabinet Fan Fault Trip DelayLinear Number: P116Default Value: 30 minMinimum Value: 1 minMaximum Value: 60 minAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay trip time when the TX cabinet fan has a fault.

Fan Control Filter Cabinet Fan Fault Trip DelayLinear Number: P117Default Value: 30 minMinimum Value: 1 minMaximum Value: 60 minAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay trip time when the filter cabinet fan has a fault.



Drive Start DelayLinear Number: P186Default Value: 10000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay before the drive starts. This is necessary to allow the cooling fans to start before the drive, to ensure there is enough cooling.

Pre-charge Control Parameters

Pre-charge EnableLinear Number: P103Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the pre-charge function.

Pre-charge Feedback DelayLinear Number: P104Default Value: 20Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the pre-charge feedback (100 ms). When the control box sends a command to the pre-charge cabinet, the pre-charge cabinet receives it and returns a feedback signal. If the control box does not receive the feedback signal within a certain time, the system will be locked.

Value Description

0 Disable pre-charge

1 Enable pre-charge



Pre-charge DC Bus Threshold Linear Number: P105Default Value: 80%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the pre-charge DC bus voltage. The duration of the pre-charge is the time taken for the DC bus voltage to reach the set threshold. When DC bus voltage reaches this threshold is one of the conditions to determine that pre-charging is completed.

Pre-charge Max TimeLinear Number: P118Default Value: 6 sMinimum Value: 2 sMaximum Value: 20 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the maximum time for pre-charging. If the pre-charge duration exceeds this time, it is considered pre-charge process overtime.

Pre-charge Min Repeat IntervalLinear Number: P119Default Value: 5 minMinimum Value: 5 minMaximum Value: 60 minAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the minimum repeat interval time for pre-charging. After a pre-charge is complete, the timer starts. If another pre-charge occurs within the set time, it is considered pre-charge overtime.

Pre-charge Primary Voltage ThresholdLinear Number: P120Default Value: 80%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the pre-charge primary voltage. When line side voltage reaches this threshold is one of the conditions to determine that pre-charging is completed.



Pre-charge Resistor Short Circuit Fault ThresholdLinear Number: P180Default Value: 2%Minimum Value: 0%Maximum Value: 10%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for pre-charge resistor short circuit fault. During pre-charging, if the line side voltage does not reach the set threshold within the duration set in Pre-charge Resistor Short Circuit Fault Delay (P181), it is considered that the pre-charge resistor has short circuited.

Pre-charge Resistor Short Circuit Fault DelayLinear Number: P181Default Value: 500 msMinimum Value: 0 msMaximum Value: 10000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for pre-charge resistor short circuit fault. During pre-charging, if the line side voltage does not reach the threshold set in Pre-charge Resistor Short Circuit Fault Threshold (P180) within this time, it is considered that the pre-charge resistor has short circuited.

Customized Trip Parameters Powercell Fault Trip Signal MaskLinear Number: P030Default Value: -1Minimum Value: -32768Maximum Value: 32767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Powercell Fault Trip Signal Mask register.

Bit Description Detail

4 Communicator Error 0 = Not mask, 1 = Mask

5 No PWM Pulse For IGBT 0 = Not mask, 1 = Mask

6 Bypass Hardware Fault 0 = Not mask, 1 = Mask

7 Communication Link Fault 0 = Not mask, 1 = Mask

8 PCCB Version Not Compatible 0 = Not mask, 1 = Mask

10 Over Temperature 0 = Not mask, 1 = Mask

12 One Phase Lost 0 = Not mask, 1 = Mask

13 Two Phases Lost 0 = Not mask, 1 = Mask



System Fault Trip Signal MaskLinear Number: P031Default Value: -1Minimum Value: -32768Maximum Value: 32767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the System Fault Trip Signal Mask register.

System Fault B Trip Signal MaskLinear Number: P145Default Value: -1Minimum Value: -32768Maximum Value: 32767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the System Fault Trip B Signal Mask register.

Over Speed Parameters Rated Output FrequencyLinear Number: P460Default Value: 50Minimum Value: 0Maximum Value: 75pAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Rated Output Frequency.


2 Fan Failure in Fan Group #1 0 = Not mask, 1 = Mask

3 Output Over Voltage 0 = Not mask, 1 = Mask

4 Abnormal Output Voltage 0 = Not mask, 1 = Mask

6 Over Speed Fault 0 = Not mask, 1 = Mask

7 Motor Stalled 0 = Not mask, 1 = Mask

9 Output phase Over Current 0 = Not mask, 1 = Mask

10 VFD Over Current 1 0 = Not mask, 1 = Mask


6 Fan Failure in Fan Group #4 0 = Not mask, 1 = Mask

9 DC Bus Under Voltage Fault 0 = Not mask, 1 = Mask



Maximum Output FrequencyLinear Number: P466Default Value: 50Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Maximum Output Frequency.

Over Speed EnableLinear Number: P467Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Over Speed function.

Voltage Sag Parameters Derating Function EnableLinear Number: P182Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the derating function.

Value Description

0 Disable Over Speed

1 Enable Over Speed

Value Description

0 Disable Derating Function

1 Enable Derating Function



Voltage Lower Threshold For Drive Derating Per Cooling Fan Input Voltage DropLinear Number: P183Default Value: 70Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower voltage threshold for Drive Derating Per Cooling Fan Input Voltage Drop. If the cooling fan input voltage is lower than this setting, the maximum output current is limited to the value set in Drive Output Current Upper Limitation Per Cooling Fan Input Voltage Drop (P185).

Voltage Upper Threshold For Drive Derating Per Cooling Fan Input Voltage DropLinear Number: P184Default Value: 75Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper voltage threshold for Drive Derating Per Cooling Fan Input Voltage Drop. If the cooling fan input voltage is higher than this setting, the drive will exit the de-rate operation. This parameter and Voltage Lower Threshold For Drive Derating Per Cooling Fan Input Voltage Drop (P184) are the upper and lower limits of the hysteresis controller for drive de-rate caused by the cooling fan input voltage drop. The maximum output current is limited to the value set in Drive Output Current Upper Limitation Per Cooling Fan Input Voltage Drop (P185).

Drive Output Current Upper Limitation Per Cooling Fan Input Voltage DropLinear Number: P185Default Value: 76Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for drive output current during de-rating caused by cooling fan input voltage drop.



Flux Control Signal Filter TimeLinear Number: P268Default Value: 999.97 msMinimum Value: 0.00 msMaximum Value: 13663.80 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flux Control Signal Filter Time.

System Derating Control Signal Filter TimeLinear Number: P269Default Value: 999.97 msMinimum Value: 0.00 msMaximum Value: 13499.96 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the System Derating Control Signal Filter Time.

Flux Control Compensation GainLinear Number: P272Default Value: 25%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flux Control Compensation Gain. Assume “Verr” is the difference between the set output voltage and actual output voltage. When the flux control function is trigged, the deceleration time will be extended if this parameter is less than “Verr”.

Flux Control Regulation Control EnableLinear Number: P273Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Flux Control Regulation Control function.

Value Description

0 Disable Flux Control Regulation Control

1 Enable Flux Control Regulation Control



Flux Control-Lag Band WidthLinear Number: P276Default Value: 3Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lag band width for flux control. It is used to trigger the flux control function.

Derating Control Enable ThresholdLinear Number: P278Default Value: 100.00%Minimum Value: 50.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold to enable the Derating Control function.

Derating Control Output Filter TimeLinear Number: P279Default Value: 9.95 msMinimum Value: 9.95 msMaximum Value: 1999.94 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Derating Control Output Filter Time.

Voltage Loop Parameters Voltage Loop EnableLinear Number: P290Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Voltage Loop function.

Value Description

0 Disable Voltage Loop

1 Enable Voltage Loop



Current Feedback Filter TimeLinear Number: P296Default Value: 10Minimum Value: 0Maximum Value: 1000Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Current Feedback Filter Time.

Voltage Feedback Filter TimeLinear Number: P297Default Value: 10Minimum Value: 0Maximum Value: 1000Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Voltage Feedback Filter Time.

Filter Time A For DC Bus Average ValueLinear Number: P298Default Value: 100 msMinimum Value: 0 msMaximum Value: 1000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time “A” for the DC bus average value.

Filter Time B For DC Bus Average ValueLinear Number: P299Default Value: 5 msMinimum Value: 0 msMaximum Value: 100 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time “B” for the DC bus average value.



Low Voltage Ride Through Parameters

Low Voltage Ride Through Recovery Voltage Boost CoefficientLinear Number: P280Default Value: 0%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Low Voltage Ride Through Recovery Voltage Boost Coefficient.

Low Voltage Ride Through Min Time IntervalLinear Number: P281Default Value: 10 sMinimum Value: 0 sMaximum Value: 1000 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the minimum time interval for Low Voltage Ride Through.

Low Voltage Ride Through Min Frequency LimitLinear Number: P282Default Value: 5%Minimum Value: 5%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the minimum frequency limit for Low Voltage Ride Through.

Low Voltage Ride Through EnableLinear Number: P283Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Low Voltage Ride Through function.

Value Description

0 Disable Low Voltage Ride Through

1 Enable Low Voltage Ride Through



Low Voltage Ride Through Min Time LimitLinear Number: P284Default Value: 40 msMinimum Value: 10 msMaximum Value: 16383 msAccess Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the minimum time lime for Low Voltage Ride Through.

Low Voltage Ride Through Max Time LimitLinear Number: P285Default Value: 1000 msMinimum Value: 10 msMaximum Value: 16383 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the maximum time limit for Low Voltage Ride Through.

Low Voltage Ride Through Recovery Frequency Compensation FactorLinear Number: P286Default Value: 0.00%Minimum Value: -200.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Low Voltage Ride Through Recovery Frequency Compensation Factor. 100% = 1 Hz * current frequency / rated frequency

Low Voltage Ride Through Recovery TimeLinear Number: P287Default Value: 1500 msMinimum Value: 10 msMaximum Value: 16383 msAccess Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the recovery time for Low Voltage Ride Through.



Low Voltage Ride Through System Delay Correction FactorLinear Number: P288Default Value: 999.76 μsMinimum Value: -10000.00 μsMaximum Value: 10000.00 μsAccess Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Low Voltage Ride Through System Delay Correction Factor.

Low Voltage Ride Through Motor Speed Estimation Filter TimeLinear Number: P289Default Value: 9.95 msMinimum Value: 0.98 msMaximum Value: 1000.00 msAccess Level: R&DRead/Write: Read/WriteModify Level: Offline Only

This parameter sets the Low Voltage Ride Through Motor Speed Estimation Filter Time.

Power Loss Auto Restart Parameters

Input Voltage Loss Filter TimeLinear Number: P073Default Value: 0 msMinimum Value: 0 msMaximum Value: 1000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Input Voltage Loss Filter Time.

Power Loss Restart EnableLinear Number: P263Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Power Loss Restart function.

Value Description

0 Disable Power Loss Restart

1 Enable Power Loss Restart



Power Loss Allowable TimeLinear Number: P264Default Value: 60 sMinimum Value: 0 sMaximum Value: 3600 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the allowable time for power loss.

Power Loss Time Max LimitLinear Number: P265Default Value: 300 sMinimum Value: 0 sMaximum Value: 3600 sAccess Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the maximum time limit for power loss.

Cell Bypass Parameters Power Cell Bypass EnableLinear Number: P041Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Power Cell Bypass function.

Power Cell Bypass Delay After Power Cell BypassedLinear Number: P042Default Value: 500 msMinimum Value: 20 msMaximum Value: 16000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Bypass Delay After Power Cell Bypassed.

Value Description

0 Disable Power Cell Bypass

1 Enable Power Cell Bypass



Power Cell Bypass Upper Limit For Bypassed Feedback TimeLinear Number: P043Default Value: 100 msMinimum Value: 30 msMaximum Value: 500 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Bypass Upper Limit For Bypassed Feedback Time.

Power Cell Bypass Fault Simulation Power Cell CountLinear Number: P044Default Value: 0Minimum Value: 0Maximum Value: 3Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the power cell count for power cell bypass fault simulation.

Power Cell Bypass Upper Limit Time For Over TemperatureLinear Number: P057Default Value: 10 sMinimum Value: 0 sMaximum Value: 32767 sAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Bypass Upper Limit Time For Over Temperature.

Power Cell Bypass Phase A Cell Number For SimulationLinear Number: P058Default Value: 0Minimum Value: 0Maximum Value: 9Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Bypass Phase A Cell Number For Simulation. Set this parameter greater than zero when simulating a cell fault.



Power Cell Bypass Phase B Cell Number For SimulationLinear Number: P059Default Value: 0Minimum Value: 0Maximum Value: 18Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Bypass Phase B Cell Number For Simulation. Set this parameter greater than zero when simulating a cell fault.

Power Cell Bypass Phase C Cell Number For SimulationLinear Number: P060Default Value: 0Minimum Value: 0Maximum Value: 27Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Bypass Phase C Cell Number For Simulation. Set this parameter greater than zero when simulating a cell fault.

Power Cell Bypass Fault SimulationLinear Number: P061Default Value: 0Minimum Value: -32768Maximum Value: 32767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Bypass Fault Simulation.

Power Cell Bypass Enable Frequency Range Lower LimitLinear Number: P065Default Value: 0.00%Minimum Value: 0.00%Maximum Value: 19.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for Power Cell Bypass Enable Frequency Range.



Power Cell Bypass Restart Enable After Power Cell BypassedLinear Number: P066Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Power Cell Bypass Restart function.

One Phase Lost Filter TimeLinear Number: P068Default Value: 30 msMinimum Value: 5 msMaximum Value: 1000 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the One Phase Lost Filter Time.

Power Cell Reactivation Time Upper Limit Linear Number: P078Default Value: 100 msMinimum Value: 0 msMaximum Value: 200 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for power cell reactivation time.

Value Description

0 Disable Power Cell Bypass Restart

1 Enable Power Cell Bypass Restart



Bypass Mode Switch Parameters

Bypass Mode SelectionLinear Number: P484Default Value: 0Minimum Value: 0Maximum Value: 4Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to select the Bypass Mode.

Fault Automatic Switch to Bypass Parameters

Fault-To-BypassLinear Number: P471Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Fault-To-Bypass function.

Fault-To-Bypass DelayLinear Number: P472Default Value: 3 sMinimum Value: 0 sMaximum Value: 5 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time delay to enable the bypass after the drive faults. This is only used when Fault-To-Bypass (P471) is set to ‘1’ and Bypass Mode Selection (P484) is set to ‘2’.

Value Description

0 No Bypass

1 Manual Bypass, One-drive-one-motor

2 Automatic Bypass, One-drive-one-motor

3 Manual Bypass, One-drive-two-motor

4 Automatic Bypass, One-drive-two-motor

Value Description

0 Disable Fault-To-Bypass

1 Enable Fault-To-Bypass



Fault-To-Bypass Delay When Starting The MotorLinear Number: P473Default Value: 60 sMinimum Value: 0 sMaximum Value: 60 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time delay to enable the bypass after the drive starts but the frequency does not increase. This is only used when Fault-To-Bypass (P471) is set to ‘1’ and Bypass Mode Selection (P484) is set to ‘2’.

Fault-To-Bypass Minimum Frequency, Zero through Rated FrequencyLinear Number: P474Default Value: 5 HzMinimum Value: 0 HzMaximum Value: 75 HzAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the minimum frequency of the drive to enable the bypass when a fault occurs. This is only used when Fault-To-Bypass (P471) is set to ‘1’ and Bypass Mode Selection (P484) is set to ‘2’.

Current Limit Parameters Current Limit Loop KpLinear Number: P133Default Value: 0.3Minimum Value: 0.0Maximum Value: 128.0Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Limit Loop Kp.

Current Limit Loop KiLinear Number: P134Default Value: 1Minimum Value: 0Maximum Value: 128Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Limit Loop Ki.



Current Limit Loop KdLinear Number: P135Default Value: 0Minimum Value: 0Maximum Value: 12800Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Limit Loop Kd (*0.001).

Current Limitation EnableLinear Number: P436Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Current Limitation function.

Current Limitation Enable Frequency Range Lower LimitLinear Number: P438Default Value: 0%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for Current Limitation Enable Frequency Range.

Current Limitation ThresholdLinear Number: P441Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Limitation Threshold.

Value Description

0 Disable Current Limitations

1 Enable Current Limitation



Current Limitation Heating TimeLinear Number: P442Default Value: 60 sMinimum Value: 0 sMaximum Value: 16384 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Limitation maximum overload duration.

Current Limitation Cooling TimeLinear Number: P443Default Value: 540 sMinimum Value: 0 sMaximum Value: 16384 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Limitation minimum cooling time.

Current Limitation Decel Ramp Slope ChangeLinear Number: P444Default Value: 120.00%Minimum Value: 0%Maximum Value: 399.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the drive maximum overload allowed for a short time.

Current Limitation Cycle Load Control EnableLinear Number: P445Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Current Limitation Cycle Load Control function.

Value Description

0 Disable Current Limitations Cycle Load Control

1 Enable Current Limitation Cycle Load Control



Current Stability Loop Parameters

Current Stability Loop Filter TimeLinear Number: P034Default Value: 63Minimum Value: 0Maximum Value: 32767Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time for Current Stability Loop.

Current Stability Loop Frequency Range1 Output Scaling FactorLinear Number: P035Default Value: 15Minimum Value: 0Maximum Value: 100Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the scaling factor for Current Stability Loop Frequency Range1 Output.

Current Stability Loop Output Upper LimitLinear Number: P036Default Value: 10Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Current Stability Loop Output.

Current Stability Loop Output Lower LimitLinear Number: P037Default Value: -10Minimum Value: -100Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for Current Stability Loop Output.



Current Stability Loop EnableLinear Number: P038Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Current Stability Loop function.

Current Stability Loop Enable Frequency Range1 Upper LimitLinear Number: P039Default Value: 30Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Current Stability Loop Enable Frequency Range.

Current Stability Loop Enable Frequency Range2 Upper LimitLinear Number: P069Default Value: 80%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Current Stability Loop Enable Frequency Range2.

Current Stability Loop Frequency Range2 Output Scaling FactorLinear Number: P070Default Value: 0%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline


Value Description

0 Disable Current Stability Loop

1 Enable Current Stability Loop



Current Stability Loop Frequency Range3 Output Scaling FactorLinear Number: P071Default Value: 0%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline


Current Stability Loop Enable DelayLinear Number: P072Default Value: 10Minimum Value: 0Maximum Value: 163Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Stability Loop Enable Delay time. The unit is 100 ms.

Flying Start Parameters Flying Start-Initial Output VoltageLinear Number: P113Default Value: 8%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the initial output voltage for Flying Start.

Flying Start-Current Comparison Delay For Motor Speed SearchLinear Number: P114Default Value: 500 msMinimum Value: 0 msMaximum Value: 5000 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flying Start-Current Comparison Delay for Motor Speed Search.



Flying Start-Current Threshold For Successful Motor Speed SearchLinear Number: P115Default Value: 4.99 puMinimum Value: 0.00 puMaximum Value: 100.00 puAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flying Start-Current Threshold for successful Motor Speed Search.

Flying Start Voltage ThresholdLinear Number: P187Default Value: 3%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flying Start Voltage Threshold.

Flying Start Compensation EnableLinear Number: P393Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable Flying Start Compensation.

Flying Start Compensation Current ThresholdLinear Number: P394Default Value: 50.00Minimum Value: 0.00Maximum Value: 399.99Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Flying Start Compensation Current.

Value Description

0 Disable Flying Start Compensation

1 Enable Flying Start Compensation



Flying Start Compensation Frequency Reduce SpeedLinear Number: P395Default Value: 50Minimum Value: 10Maximum Value: 16384Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flying Start Compensation Frequency Reduce Speed.

Flying Start Compensation Defer Restore Voltage Speed Current ThresholdLinear Number: P408Default Value: 25.00Minimum Value: 20.00Maximum Value: 399.99Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Defer Restore Voltage Speed Current Threshold for Flying Start Compensation.

Flying Start Compensation Current Threshold for Fast CompensationLinear Number: P410Default Value: 60.00Minimum Value: 0.00Maximum Value: 399.99Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Current Threshold for Fast Compensation for Flying Start Compensation.

Flying Start ModeLinear Number: P416Default Value: 0Minimum Value: 0Maximum Value: 3Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the mode for Flying Start.

Value Description

0 Disable

1 Set Frequency

2 Stop Frequency plus 5 Hz

3 Rated Frequency



Flying Start Motor Speed Search TimeoutLinear Number: P417Default Value: 50 sMinimum Value: 0 sMaximum Value: 1000 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Flying Start Motor Speed Search Timeout.

Flying Start Voltage Recovery Time (Low Speed Region)Linear Number: P457Default Value: 10.00 sMinimum Value: 0.00 sMaximum Value: 163.84 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the low speed region for Flying Start Voltage Recovery Time.

Flying Start Voltage Recovery Time (High Speed Region)Linear Number: P459Default Value: 10.00 sMinimum Value: 0.00 sMaximum Value: 163.84 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the high speed region for Flying Start Voltage Recovery Time.

Flying Start Low/High Speed Regions BoundaryLinear Number: P463Default Value: 16%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the boundary for Flying Start-Low/High Speed Regions.



Load Loss Control Parameters Load Loss Control EnableLinear Number: P045Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable Load Loss Control.

Load Loss Enable FrequencyLinear Number: P046Default Value: 20%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Load Loss Enable Frequency.

Load Loss Control Differential ScalingLinear Number: P047Default Value: 8%Minimum Value: 0%Maximum Value: 2000%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Load Loss Control Differential Scaling.

Load Loss Frequency Compensation Upper LimitLinear Number: P048Default Value: 5%Minimum Value: 0%Maximum Value: 5%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Load Loss Frequency Compensation.

Value Description

0 Disable Load Loss Control

1 Enable Load Loss Control



Load Loss Control Scaling FactorLinear Number: P049Default Value: 0%Minimum Value: 0%Maximum Value: 2000%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the scaling factor for Load Loss Control.

Load Loss Control Integral TimeLinear Number: P050Default Value: 0 msMinimum Value: 0 msMaximum Value: 100 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Load Loss Control Integral Time.

Load Loss Control Filter TimeLinear Number: P051Default Value: 100 msMinimum Value: 0 msMaximum Value: 200 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Load Loss Control Filter Time.

Load Loss Enable Current ThresholdLinear Number: P052Default Value: 10%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Load Loss Enable Current Threshold.



Load Loss Control Exit DelayLinear Number: P053Default Value: 5000 msMinimum Value: 0 msMaximum Value: 16000 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Load Loss Control Exit Delay.

Motor Auto-tune Parameters Motor Autotune SelectionLinear Number: P121Default Value: 0Minimum Value: 0Maximum Value: 3Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to select the method of Motor Autotune. When Motor Autotune Selection (P121) is set to “1”, the motor parameters tuning starts, and the parameter is automatically set to “0” when the autotune is completed.

When Motor Autotune Selection (P121) is set to “2” or “3”, press the start button on the drive to initiate the autotune. After the autotune is complete the parameter is automatically set to “0” and the drive is stopped.

Motor Autotune DelayLinear Number: P122Default Value: 2000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Delay.

Value Description

0 Manual Configuration

1 Nameplate Calculation

2 Static Autotune

3 Rotating Autotune



Motor Autotune Filter TimeLinear Number: P123Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Filter Time.

Motor Autotune Current Id KpLinear Number: P124Default Value: 0.01Minimum Value: 0.00Maximum Value: 128.00Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Current Id Kp.

Motor Autotune Current Id KiLinear Number: P125Default Value: 0.1Minimum Value: 0.0Maximum Value: 128.0Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Current Id Ki.

Motor Autotune Current Iq KpLinear Number: P124Default Value: 0.01Minimum Value: 0.00Maximum Value: 128.00Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Current Iq Kp.



Motor Autotune Current Iq KiLinear Number: P124Default Value: 0.1Minimum Value: 0.0Maximum Value: 128.0Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Current Iq Ki.

Motor Autotune Id Feedback Error ValidLinear Number: P128Default Value: 80%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Id Feedback Error Valid.

Motor Autotune Lr/LmLinear Number: P129Default Value: 10526Minimum Value: 0Maximum Value: 32767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Lr/Lm (*0.0001).

Motor Autotune Id ReferenceLinear Number: P130Default Value: 29.99Minimum Value: 0.00Maximum Value: 100.00Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Id Reference.



Motor Autotune Iq ReferenceLinear Number: P131Default Value: 0Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Iq Reference.

Motor Autotune Time LimitLinear Number: P132Default Value: 5000 minMinimum Value: 0 minMaximum Value: 32767 minAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Time Limit.

Motor Autotune Rs/RrLinear Number: P136Default Value: 1.30Minimum Value: 0.00Maximum Value: 327.67Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Rs/Rr.

Motor Rated CurrentLinear Number: P137Default Value: 0 AMinimum Value: 0 AMaximum Value: 32767 AAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the motor rated current.



Motor Stator Resistance RsLinear Number: P138Default Value: 0 ΩMinimum Value: 0 ΩMaximum Value: 10 ΩAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Stator Resistance Rs.

Motor Magnetizing Current IdLinear Number: P139Default Value: 30%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Magnetizing Current Id.

Motor Rotor Resistance RrLinear Number: P140Default Value: 0 ΩMinimum Value: 0 ΩMaximum Value: 10 ΩAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Rotor Resistance Rr.

Motor Magnetizing Inductance LmLinear Number: P141Default Value: 0.0 mHMinimum Value: 0.0 mHMaximum Value: 3276.7 mHAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Magnetizing Inductance Lm.



Motor Stator Leakage Inductance LIsLinear Number: P142Default Value: 0.0 mHMinimum Value: 0.0 mHMaximum Value: 3276.7 mHAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Stator Leakage Inductance LIs.

Motor Rotor Leakage Inductance LIrLinear Number: P143Default Value: 0.0 mHMinimum Value: 0.0 mHMaximum Value: 3276.7 mHAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Rotor Leakage Inductance LIr.

Motor Autotune Rs Upper LimitLinear Number: P178Default Value: 50%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Rs Upper Limit.

Motor Autotune Maximum Iq For No LoadLinear Number: P179Default Value: 30.00%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Autotune Maximum Iq For No Load.



Restart Parameters Restart EnableLinear Number: P461Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Restart function.

Fault Reset TimeoutLinear Number: P462Default Value: 120.00 sMinimum Value: 0.04 sMaximum Value: 120.00 sAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Fault Reset Timeout.

Power Cell Fault Auto Reset DelayLinear Number: P465Default Value: 4 sMinimum Value: 0 sMaximum Value: 10 sAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Power Cell Fault Auto Reset Delay.

Value Description

0 Disable Restart

1 Enable Restart



Skip Frequency Parameters Skip Frequency EnableLinear Number: P089Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the skip frequency function.

Skip Frequency 1 Lower LimitLinear Number: P090Default Value: 0Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for Skip Frequency 1.

Skip Frequency 1 Upper LimitLinear Number: P091Default Value: 0Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Skip Frequency 1.

Skip Frequency 2 Lower LimitLinear Number: P092Default Value: 0Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for Skip Frequency 2.

Value Description

0 Disable Skip Frequency

1 Enable Skip Frequency



Skip Frequency 2 Upper LimitLinear Number: P093Default Value: 0Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Skip Frequency 2.

Start and Stop Sequence Parameters

Minimum Start Frequency During TimeLinear Number: P447Default Value: 0.00 sMinimum Value: 0.00 sMaximum Value: 13.65 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Minimum Start Frequency During Time.

Minimum Start FrequencyLinear Number: P448Default Value: 0%Minimum Value: 0%Maximum Value: 10%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the Minimum Start Frequency.

Low Speed Voltage Compensation During Flux Building ProcessLinear Number: P449Default Value: 2%Minimum Value: 0%Maximum Value: 3%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the flux building voltage.



Deceleration and Acceleration Process Parameters

Deceleration Process EnableLinear Number: P385Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the Deceleration Process function.

Deceleration Time 1Linear Number: P386Default Value: 150.0 sMinimum Value: 1.0 sMaximum Value: 3276.7 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Deceleration Time 1.

Deceleration Frequency 1Linear Number: P387Default Value: 30Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Deceleration Frequency 1.



Value Description

0 Disable Deceleration Process

1 Enable Deceleration Process













Acceleration Time 1Linear Number: P418Default Value: 100.0 sMinimum Value: 1.0 sMaximum Value: 3276.7 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Acceleration Time 1.

Acceleration Frequency 1Linear Number: P419Default Value: 10Minimum Value: 0Maximum Value: 75Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Acceleration Frequency 1.













Acceleration Process EnableLinear Number: P425Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Acceleration Process function.

Value Description

0 Disable Acceleration Process

1 Enable Acceleration Process



PID Parameters PID Control EnableLinear Number: P486Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter is used to enable or disable the PID Control function.

PID Control Proportional GainLinear Number: P487Default Value: 0.001Minimum Value: 0.000Maximum Value: 32.767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the proportional gain when PID control is enabled.

PID Control Integral TimeLinear Number: P488Default Value: 0.001Minimum Value: 0.000Maximum Value: 32.767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the integral time when PID control is enabled.

PID Control Differential GainLinear Number: P489Default Value: 0.001Minimum Value: 0.000Maximum Value: 32.767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the differential gain when PID control is enabled.

Value Description

0 Disable PID Control

1 Enable PID Control



PID Control Differential TimeLinear Number: P490Default Value: 0.001Minimum Value: 0.000Maximum Value: 32.767Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the differential time when PID control is enabled.

PID Control Feedback Lower LimitLinear Number: P491Default Value: 0.00Minimum Value: 0.00Maximum Value: 327.67Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the feedback lower limit when PID control is enabled.

PID Control Feedback Upper LimitLinear Number: P492Default Value: 1.00Minimum Value: 0.00Maximum Value: 327.67Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Offline only

This parameter sets the feedback upper limit when PID control is enabled.

Deceleration Control Parameters

Deceleration Control EnableLinear Number: P396Default Value: 1Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Deceleration Control function.

Value Description

0 Disable Deceleration Control

1 Enable Deceleration Control



DC Bus Lower LimitLinear Number: P397Default Value: 700V (2.3/2.4 kV)

900V(4.0/4.16 kV)950V (3.0/3.3/6.3/6.6 kV)1000V (6.0/6.9/10.0/11.0 kV)


This parameter sets the lower limit for DC bus voltage.

DC Bus Upper LimitLinear Number: P398Default Value: 800V (2.3/2.4 kV)

1000V(4.0/4.16 kV)1050V (3.0/3.3/6.0/6.3/6.6/6.9/10.0/11.0 kV)


This parameter sets the upper limit for DC bus voltage.

Deceleration Iq ThresholdLinear Number: P434Default Value: 25%Minimum Value: 5%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for deceleration Iq.

Deceleration Control Frequency RangeLinear Number: P435Default Value: 20%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the frequency range for deceleration control.



Protection Parameters VFD Minimum Overload CurrentLinear Number: P079Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the minimum overload current for the drive.

VFD Overload CurrentLinear Number: P080Default Value: 120.00%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the overload current threshold for the drive.

VFD Overload TimeLinear Number: P081Default Value: 60 sMinimum Value: 0 sMaximum Value: 32767 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the overload time delay for the drive.

VFD Overload Cycle TimeLinear Number: P082Default Value: 600 sMinimum Value: 0 sMaximum Value: 32767 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the heating and cooling cycles for the drive.



VFD Overload Current OffsetLinear Number: P107Default Value: 4.99%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the overload current offset for the drive.

Motor Overload Current OffsetLinear Number: P108Default Value: 4.99%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the overload current offset for the motor.

Heating Current ThresholdLinear Number: P110Default Value: 110.00%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the drive heating current.

Line Over Voltage Fault ThresholdLinear Number: P154Default Value: 115.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the input over voltage fault.



Line Over Voltage Fault DelayLinear Number: P155Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the input over voltage fault.

Line Under Voltage Warning ThresholdLinear Number: P156Default Value: 80%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the input under voltage warning.

Line Under Voltage Warning DelayLinear Number: P157Default Value: 1000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the input under voltage warning.

Line Neutral Over Voltage Warning ThresholdLinear Number: P158Default Value: 60.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the ground input over voltage warning.



Line Neutral Over Voltage Warning DelayLinear Number: P159Default Value: 1000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the ground input over voltage warning.

Line Neutral Over Voltage Fault ThresholdLinear Number: P160Default Value: 80.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the ground input over voltage fault.

Line Neutral Over Voltage Fault DelayLinear Number: P161Default Value: 1000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the ground input over voltage fault.

Line Voltage Positive Sequence Filter TimeLinear Number: P162Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Line Voltage Positive Sequence Filter.



Line Voltage Negative Sequence Filter TimeLinear Number: P163Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Line Voltage Negative Sequence Filter.

Line Voltage Negative Sequence Fault ThresholdLinear Number: P164Default Value: 20.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Line Voltage Negative Sequence Fault.

Line Voltage Negative Sequence Fault DelayLinear Number: P165Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the Line Voltage Negative Sequence Fault.

Line Voltage Phaser Sequence Reverse EnableLinear Number: P166Default Value: 0Minimum Value: 0Maximum Value: 1Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter is used to enable or disable the Line Voltage Phaser Sequence Reverse function. This changes the phase direction of the input voltage. The phaser sequence is obtained from register K101. The sequence is positive if the value of K101 is positive, and vice versa. If the sequence is negative, set this parameter to “1”.

Value Description

0 Disable Line Voltage Phaser Sequence Reverse

1 Enable Line Voltage Phaser Sequence Reverse



Line Current Filter TimeLinear Number: P168Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Line Current Filter.

Line Short Circuit Fault ThresholdLinear Number: P169Default Value: 180%Minimum Value: 0%Maximum Value: 400%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Line Short Circuit Fault.

Line Short Circuit Fault DelayLinear Number: P170Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the Line Short Circuit Fault.

Line Current Positive Sequence Filter Time Linear Number: P174Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Line Current Positive Sequence Filter.



Line Current Negative Sequence Filter TimeLinear Number: P175Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Line Current Negative Sequence Filter.

Line Current Negative Sequence Fault ThresholdLinear Number: P176Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Line Current Negative Sequence Fault.

Line Current Negative Sequence Fault DelayLinear Number: P177Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the Line Current Negative Sequence Fault.

Phase Over Current Enable Frequency Range Upper LimitLinear Number: P208Default Value: 10Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for the Phase Over Current Enable Frequency Range.



Phase Over Current Filter TimeLinear Number: P209Default Value: 5Minimum Value: 0Maximum Value: 32767Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the time for the Phase Over Current Filter.

Phase Over Current ThresholdLinear Number: P210Default Value: 179.99Minimum Value: 0.00Maximum Value: 399.99Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Phase Over Current.

Filter Time For Abnormal Output VoltageLinear Number: P211Default Value: 1000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time for the Abnormal Output Voltage.

Filter Time For Output Short-CircuitLinear Number: P212Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time for the Output Short-Circuit.



Output Short-Circuit Fault ThresholdLinear Number: P213Default Value: 179.99%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Output Short-Circuit Fault.

Motor Minimum Overload CurrentLinear Number: P214Default Value: 104.99%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the minimum over load current for the motor.

Motor Overload Cycle TimeLinear Number: P215Default Value: 600 sMinimum Value: 0 sMaximum Value: 32767 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Overload Cycle Time.

Motor Overload Trip ThresholdLinear Number: P216Default Value: 120.00%Minimum Value: 0.00%Maximum Value: 399.99%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Motor Overload Trip.



Motor Overload TimeLinear Number: P217Default Value: 60 sMinimum Value: 0 sMaximum Value: 32767 sAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Motor Overload Time.

Filter Time For Output Over VoltageLinear Number: P221Default Value: 100 msMinimum Value: 0 ms Maximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time for the Output Over Voltage.

Output Over Voltage Fault ThresholdLinear Number: P222Default Value: 120.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Output Over Voltage Fault.

Output Voltage Deviation Warning ThresholdLinear Number: P223Default Value: 60.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Output Voltage Deviation Warning.



Output Voltage Deviation Fault ThresholdLinear Number: P224Default Value: 80.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Output Voltage Deviation Fault.

Output Voltage Abnormality Warning Cancellation ThresholdLinear Number: P226Default Value: 50.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Output Voltage Abnormality Warning Cancellation.

Ground Fault Detection Scaling Correction FactorLinear Number: P227Default Value: 100.00%Minimum Value: 0.00%Maximum Value: 199.99%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Ground Fault Detection Scaling Correction Factor.

Filter Time For Ground FaultLinear Number: P228Default Value: 1000 msMinimum Value: 0 msMaximum Value: 32767msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time for the Ground Fault.



Ground Fault Warning ThresholdLinear Number: P229Default Value: 8.00 puMinimum Value: 0.00 puMaximum Value: 199.99Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Ground Fault Warning.

Ground Fault Trip ThresholdLinear Number: P230Default Value: 15.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Ground Fault Trip.

Filter Time For Overspeed Fault (Upper Limit)Linear Number: P231Default Value: 100Minimum Value: 0Maximum Value: 32767Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for Filter Time For Overspeed Fault. Overspeed occurs when speed is greater than Threshold Of Over-Speed Fault At Upper Frequency Limit (P234).

Filter Time For Overspeed Fault (Lower Limit)Linear Number: P232Default Value: 100Minimum Value: 0Maximum Value: 32767Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for Filter Time For Overspeed Fault. Overspeed occurs when speed is greater than Threshold Of Over-Speed Fault At Lower Frequency Limit (P233).



Threshold Of Over-Speed Fault At Lower Frequency LimitLinear Number: P233Default Value: 20.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Threshold Of Over-Speed Fault At Lower Frequency Limit.

Threshold Of Over-Speed Fault At Upper Frequency LimitLinear Number: P234Default Value: 20.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the Threshold of Over-Speed Fault At Upper Frequency Limit.

Frequency Deviation Warning Cancellation ThresholdLinear Number: P235Default Value: 0.99 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Frequency Deviation Warning Cancellation.

Frequency Deviation Warning ThresholdLinear Number: P236Default Value: 6.00 puMinimum Value: 0.00 puMaximum Value: 199.99Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Frequency Deviation Warning.



Frequency Deviation Warning DelayLinear Number: P237Default Value: 8 msMinimum Value: 0 ms Maximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the Frequency Deviation Warning.

Motor Stall Fault ThresholdLinear Number: P238Default Value: 10.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Motor Stall Fault.

Motor Stall Fault DelayLinear Number: P239Default Value: 6000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the Motor Stall Fault.

Transformer Over Temperature Fault DelayLinear Number: P240Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the Transformer Over Temperature Fault.



Transformer Over Temperature Warning DelayLinear Number: P241Default Value: 10 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the Transformer Over Temperature Warning.

DC Bus Under Voltage Fault ThresholdLinear Number: P254Default Value: 63%Minimum Value: 0%Maximum Value: 100 %Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the DC bus under voltage fault.

Ground Fault Warning Cancellation ThresholdLinear Number: P256Default Value: 5.00 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Ground Fault Warning Cancellation.

Motor Stall Warning Cancellation ThresholdLinear Number: P257Default Value: 2.98 puMinimum Value: 0.00 puMaximum Value: 199.99 puAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the Motor Stall Warning Cancellation.



DC Bus Under Voltage Fault DelayLinear Number: P258Default Value: 1000 msMinimum Value: 0 msMaximum Value: 32767 msAccess Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the delay for the DC bus under voltage fault.

DC Bus Voltage Deviation Fault ThresholdLinear Number: P266Default Value: 25%Minimum Value: 0%Maximum Value: 100%Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the DC bus voltage deviation fault.

DC Bus Voltage Deviation Fault Filter TimeLinear Number: P267Default Value: 10 msMinimum Value: 0 msMaximum Value: 1000 msAccess Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the filter time for the DC bus voltage deviation fault.

DC Bus Under Voltage Warning ThresholdLinear Number: P274Default Value: 80%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the threshold for the DC bus under voltage warning.



DC Bus Under Voltage Warning Hysteresis BandLinear Number: P275Default Value: 5%Minimum Value: 0%Maximum Value: 100%Access Level: Setup, R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the hysteresis band width for the DC bus under voltage warning. This parameter and DC Bus Under Voltage Warning Threshold (P274) define the range of the DC bus under voltage warning.

If the DC bus voltage is lower than DC Bus Under Voltage Warning Threshold (P274) - DC Bus Under Voltage Warning Hysteresis Band (P275)/2, the DC bus under voltage alarm appears.

If the DC bus voltage is lower than DC Bus Under Voltage Warning Threshold (P274) + DC Bus Under Voltage Warning Hysteresis Band (P275)/2, the DC bus under voltage alarm disappears.

Over Speed Upper Limit ReferenceLinear Number: P411Default Value: 100Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the upper limit for the over speed reference

Over Speed Lower Limit ReferenceLinear Number: P412Default Value: 0Minimum Value: 0Maximum Value: 100Access Level: R&DRead/Write: Read/WriteModify Level: Online/Offline

This parameter sets the lower limit for the over speed reference.



Para

met

ers L

isted

by G

roup

Cont

rol O

wne

r Par

amet

ers

Nam

epla

te Pa

ram

eter

s

No.

Nam

eM

in.

Max

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faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P475

Owne

r #1 S

electi

on0

10

00

00

00

00

00

0On

/Off

YY

P476

Owne

r #2 S

electi

on2

238

88

88

88

88

88

8On

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YY

P477

Owne

r #3 S

electi

on18

2323

2323

2323

2323

2323

2323

23On

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YY

P478

Loca

l/Rem

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wner

Selec

tion

03

00

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00

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00

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Y

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ep Va

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Spee

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YY

P481

4-St

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Spee

d20

7520

2020

2020

2020

2020

2020

20On

/Off

YY

P482

4-St

ep Va

riabl

e Spe

ed –

Spee

d30

7530

3030

3030

3030

3030

3030

30On

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YY

P483

4-St

ep Va

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e Spe

ed –

Spee

d40

7540

4040

4040

4040

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YY

P485

Whe

n Disc

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CS an

d PL

C0

51

11

11

11

11

11

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YY

No.

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in.

Max

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Units

Mod

ify

Root

Acce

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2300

V24

00V

3000

V33

00V

4000

V41

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6600

V69

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US

R

P007

Num

ber o

f Pow

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93

33

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848

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976

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Mot

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3276

723

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0041

6060

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0V

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Mot

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767

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Mot

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Mot

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87.99

87.99

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87.99

87.99

87.99

87.99

87.99

87.99

87.99

87.99

%Of

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P017

Num

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f Mot

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22

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22

22

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Rate

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4040

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P146

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P147

Line R

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Freq

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3276

750

5050

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On/O

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P148

Trans

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Othe

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HMI D

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P149

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55

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P195

Line C

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00

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P196

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P197

Mot

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P199

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P277

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55

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No.

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Max

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Units

Mod

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Acce

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2300

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No.

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Max

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Mod

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R

P040

Safe

Star

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dition

01

11

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11

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P250

Inpu

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710

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P494

User

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30

00

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YY

No.

Nam

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in.

Max

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t Val

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Units

Mod

ify

Root

Acce

ss

2300

V24

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US

R

P351

Rate

d Fre

quen

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MI D

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r Tim

e0

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710

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sOn

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Y

P352

Rate

d Fre

quen

cy H

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ger

Part

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P354

Mot

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I Disp

lay Fi

lter T

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Mot

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P356

Mot

or Vo

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P358

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Ram

p Pa

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Freq

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P359

Actu

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Part

010

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00

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Y

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Mot

or Cu

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I Disp

lay Fi

lter T

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767

2000

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2000

2000

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2000

2000

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ms

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122

122

122

122

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122

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P372

Mot

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119

119

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119

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119

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119

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119

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225

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225

225

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Y

P374

Mot

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118

118

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118

118

118

118

118

118

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P479

Powe

r Disp

lay En

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01

00

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On/O

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Y

No.

Nam

eM

in.

Max

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faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

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US

R

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

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6600

V69

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US

R

P399

Dece

lerat

ion Ti

me

1.032

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400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

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YY

Y

P401

Acce

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ion Ti

me

1.032

76.7

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

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YY

Y

P402

Acce

lerat

ion Ra

mp T

rans

ition

Tim

e0.0

010

0.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

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0.99

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Y

P403

Acce

lerat

ion Ti

me U

nit0.0

0.10.1

0.10.1

0.10.1

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0.10.1

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Y

P405

Dece

lerat

ion Ra

mp T

rans

ition

Tim

e0.0

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0.00

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0.99

0.99

0.99

0.99

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0.99

0.99

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Y

P406

Dece

lerat

ion Ti

me U

nit0.0

0.10.1

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Y

P409

Ampl

ifica

tion C

oeffi

cient

Of E

rror T

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s0.0

019

9.99

100.0

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0.00

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100.0

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0.00

100.0

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0.00

100.0

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0.00

100.0

010

0.00

On/O

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No.

Nam

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in.

Max

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t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

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US

R

P413

Frequ

ency

Com

man

d Low

er Li

mit

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100

00

00

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00

00

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ency

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man

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d Upp

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Limit

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P415

Frequ

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man

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100

100

100

100

100

100

100

100

100

100

100

100

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P460

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5050

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5050

5050

5050

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Y

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Max

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Out

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075

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P467

Over

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No.

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Max

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t Val

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Units

Mod

ify

Root

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2300

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V33

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4000

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6000

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US

R

No.

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Max

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t Val

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Units

Mod

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Root

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2300

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6000

V63

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US

R

P024

Stop

Met

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01

00

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Frequ

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man

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Stop

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Mot

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Delay

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top O

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0020

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0020

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0020

0020

0020

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0020

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0020

00m

sOn

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Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

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V33

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4000

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6000

V63

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6600

V69

00V

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US

R

P008

Mot

or Ro

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n Dire

ction

Und

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Cont

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01

11

11

11

11

11

11

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Y

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Mot

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n Dire

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Com

man

d Se

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n0

10

00

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00

00

00

0Of

fline

YY

No.

Nam

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in.

Max

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faul

t Val

ues

Units

Mod

ify

Root

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ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P087

Switc

h Fre

quen

cy Se

tting

Enab

le Co

de0

10

00

00

00

00

00

0Of

fline

Y

P088

Switc

h Fre

quen

cy Se

tting

01

00

00

00

00

00

00

Offli

neY



VF Cu

rve S

ettin

g Pa

ram

eter

sNo

.Na

me

Min

.M

ax.

Defa

ult V

alue

sUn

itsM

odify

Ro

otAc

cess

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P111

Slip C

ompe

nsat

ion En

able

01

00

00

00

00

00

00

On/O

ffY

P271

Flux D

elay

050

0050

050

050

050

050

050

050

050

050

050

050

050

0m

sOn

/Off

Y

P291

SVC L

ow Fr

eque

ncy A

ccele

ratio

n Tim

e En

able

Frequ

ency

Rang

e Upp

er Li

mit

010

010

1010

1010

1010

1010

1010

10%

On/O

ffY

P292

SVC L

ow Fr

eque

ncy A

ccele

ratio

n Tim

e1

3276

.75

55

55

55

55

55

5s

On/O

ffY

P293

SVC F

lux Vo

ltage

Boos

t Coe

fficie

nt0

500

300

300

300

300

300

300

300

300

300

300

300

300

%On

/Off

Y

P294

SVC F

lux Vo

ltage

Boos

t Upp

er Fr

eque

ncy

010

010

1010

1010

1010

1010

1010

10%

On/O

ffY

P295

Iq Fi

lter T

ime F

or Sl

ip Es

timat

ion0

1000

100

100

100

100

100

100

100

100

100

100

100

100

On/O

ffY

P375

Frequ

ency

At Fi

rst Po

int fo

r 5 Po

int VF

0.00

10.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

%Of

fline

YY

P376

Ampl

itude

At Fi

rst Po

int fo

r 5 Po

int VF

0.00

3.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

%Of

fline

YY

P377

Frequ

ency

At Se

cond

Point

for 5

Point

VF10

100

2020

2020

2020

2020

2020

2020

%Of

fline

YY

Y

P378

Ampl

itude

At Se

cond

Point

for 5

Point

VF0

100

1010

1010

1010

1010

1010

1010

%Of

fline

YY

Y

P379

Frequ

ency

At Th

ird Po

int fo

r 5 Po

int VF

1010

040

4040

4040

4040

4040

4040

40%

Offli

neY

Y

P380

Ampl

itude

At Th

ird Po

int fo

r 5 Po

int VF

010

027

2727

2727

2727

2727

2727

27%

Offli

neY

Y

P381

Frequ

ency

At Fo

urth

Point

for 5

Point

VF10

100

6060

6060

6060

6060

6060

6060

%Of

fline

YY

P382

Ampl

itude

At Fo

urth

Point

for 5

Point

VF0

100

4545

4545

4545

4545

4545

4545

%Of

fline

YY

P383

Frequ

ency

At Fi

fth Po

int fo

r 5 Po

int VF

1010

080

8080

8080

8080

8080

8080

80%

Offli

neY

P384

Ampl

itude

At Fi

fth Po

int fo

r 5 Po

int VF

010

070

7070

7070

7070

7070

7070

70%

Offli

neY

Y

P451

Low

Spee

d Volt

age C

ompe

nsat

ion0

31

11

11

11

11

11

1%

Offli

neY

Y

P452

Low

Spee

d Volt

age C

ompe

nsat

ion

Frequ

ency

Thre

shold

010

020

2020

2020

2020

2020

2020

20On

/Off

YY

P453

V/F C

urve

05

55

55

55

55

55

55

Offli

neY

Y

P454

Flux T

ime

010

22

22

22

22

22

2s

Offli

neY

P455

Mod

ulat

ion In

dex

0.011

0.084

.087

.677

.385

.083

.887

.087

.081

.085

.083

.791

.089

.0On

/Off

YY

P456

Mot

or Vo

ltage

Upp

er Li

mit

0.00

110.0

84.0

87.6

77.3

85.0

83.8

87.0

87.0

81.0

85.0

83.7

91.0

89.0

On/O

ffY

Y

P458

Coef

ficien

t A0

100

4040

4040

4040

4040

4040

4040

Offli

neY



Anal

og In

put P

aram

eter

s

Digi

tal O

utpu

t Par

amet

ers

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P151

Line V

oltag

e Uab

Scali

ng Fa

ctor

0.00

199.9

915

3.00

146.7

017

5.90

159.9

017

5.80

169.0

014

6.50

167.4

015

9.80

152.8

015

8.10

143.7

0%

On/O

ffY

Y

P152

Line V

oltag

e Ubc

Scali

ng Fa

ctor

0.00

199.9

915

3.00

146.7

017

5.90

159.9

017

5.80

169.0

014

6.50

167.4

015

9.80

152.8

015

8.10

143.7

0%

On/O

ffY

Y

P153

Line V

oltag

e Ung

Scali

ng Fa

ctor

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

0%

On/O

ffY

Y

P171

Line C

urre

nt Ph

ase A

Scali

ng Fa

ctor

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

0%

On/O

ffY

P172

Line C

urre

nt Ph

ase B

Scali

ng Fa

ctor

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

0%

On/O

ffY

P173

Line C

urre

nt Ph

ase C

Scali

ng Fa

ctor

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

0%

On/O

ffY

P200

Ia M

otor

Curre

nt M

emor

y Add

ress

050

013

1313

1313

1313

1313

1313

13On

/Off

Y

P201

Mot

or Ia

Scali

ng Fa

ctor

0.00

199.9

910

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

0On

/Off

Y

P202

Ic M

otor

Curre

nt M

emor

y Add

ress

050

014

1414

1414

1414

1414

1414

14On

/Off

Y

P203

Mot

or Ic

Scali

ng Fa

ctor

0.00

199.9

910

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

0On

/Off

Y

P204

Mot

or U

ab Vo

ltage

Addr

ess

050

011

1111

1111

1111

1111

1111

11On

/Off

Y

P205

Mot

or U

ab Vo

ltage

Scali

ng Fa

ctor

0.00

199.9

915

3.00

146.7

017

5.90

159.9

017

5.80

169.0

014

6.50

167.4

015

9.80

152.8

015

8.10

143.7

0On

/Off

YY

P206

Mot

or U

ac Vo

ltage

Scali

ng Fa

ctor

0.00

199.9

915

3.00

146.7

017

5.90

159.9

017

5.80

169.0

014

6.50

167.4

015

9.80

152.8

015

8.10

143.7

0On

/Off

YY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P300

Digit

al Ou

tput

#0 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P301

Digit

al Ou

tput

#0 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P302

Digit

al Ou

tput

#0 Bi

t Sele

ction

015

00

00

00

00

00

00

On/O

ffY

P303

Digit

al Ou

tput

#0 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P304

Digit

al Ou

tput

#1 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P305

Digit

al Ou

tput

#1 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P306

Digit

al Ou

tput

#1 Bi

t Sele

ction

015

11

11

11

11

11

11

On/O

ffY

P307

Digit

al Ou

tput

#1 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P308

Digit

al Ou

tput

#2 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P309

Digit

al Ou

tput

#2 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P310

Digit

al Ou

tput

#2 Bi

t Sele

ction

015

22

22

22

22

02

22

On/O

ffY



Anal

og O

utpu

t Par

amet

ers

P311

Digit

al Ou

tput

#2 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P312

Digit

al Ou

tput

#3 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P313

Digit

al Ou

tput

#3 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P314

Digit

al Ou

tput

#3 Bi

t Sele

ction

015

33

33

33

33

33

33

On/O

ffY

P315

Digit

al Ou

tput

#3 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P316

Digit

al Ou

tput

#4 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P317

Digit

al Ou

tput

#4 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P318

Digit

al Ou

tput

#4 Bi

t Sele

ction

015

44

44

44

44

44

44

On/O

ffY

P319

Digit

al Ou

tput

#4 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P320

Digit

al Ou

tput

#5 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P321

Digit

al Ou

tput

#5 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P322

Digit

al Ou

tput

#5 Bi

t Sele

ction

015

55

55

55

55

55

55

On/O

ffY

P323

Digit

al Ou

tput

#5 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P324

Digit

al Ou

tput

#6 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P325

Digit

al Ou

tput

#6 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P326

Digit

al Ou

tput

#6 Bi

t Sele

ction

015

66

66

66

66

66

66

On/O

ffY

P327

Digit

al Ou

tput

#6 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P328

Digit

al Ou

tput

#7 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P329

Digit

al Ou

tput

#7 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P330

Digit

al Ou

tput

#7 Bi

t Sele

ction

015

77

77

77

77

77

77

On/O

ffY

P331

Digit

al Ou

tput

#7 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P332

Analo

g Out

put #

1 Mem

ory A

ddre

ss0

500

252

252

252

252

252

252

252

252

252

252

252

252

On/O

ffY

P333

Analo

g Out

put #

1 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P334

Analo

g Out

put #

1 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P335

Analo

g Out

put #

1 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

Y

P336

Analo

g Out

put #

2 Mem

ory A

ddre

ss0

500

206

206

206

206

206

206

206

206

206

206

206

206

On/O

ffY



Vers

ion

Cont

rol P

aram

eter

s

Fan

Cont

rol P

aram

eter

s

P337

Analo

g Out

put #

2 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P338

Analo

g Out

put #

2 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P339

Analo

g Out

put #

2 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

Y

P340

Analo

g Out

put #

3 Mem

ory A

ddre

ss0

500

00

00

00

00

00

00

On/O

ffY

P341

Analo

g Out

put #

3 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P342

Analo

g Out

put #

3 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P343

Analo

g Out

put #

3 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

P344

Analo

g Out

put #

4 Mem

ory A

ddre

ss0

500

00

00

00

00

00

00

On/O

ffY

P345

Analo

g Out

put #

4 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P346

Analo

g Out

put #

4 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P347

Analo

g Out

put #

4 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P470

Versi

on Co

mpa

tibilit

y Ena

ble0

11

11

11

11

11

11

1Of

fline

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P094

Fan C

ontro

l Mod

e0

20

00

00

00

00

00

0Of

fline

YY

P095

Fan C

ontro

l Gro

up #1

Fan N

umbe

r0

100

00

00

00

00

00

0Of

fline

YY

P096

Fan C

ontro

l Gro

up #2

Fan N

umbe

r0

100

00

00

00

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P286

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Powe

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/Off

YY

P442

Curre

nt Li

mita

tion H

eatin

g Tim

e0

1638

460

6060

6060

6060

6060

6060

60s

On/O

ffY

Y

P443

Curre

nt Li

mita

tion C

oolin

g Tim

e0

1638

454

054

054

054

054

054

054

054

054

054

054

054

0s

On/O

ffY

Y

P444

Curre

nt Li

mita

tion D

ecel

Ram

p Slop

e Ch

ange

0.00

399.9

912

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

0On

/Off

YY

P445

Curre

nt Li

mita

tion C

ycle

Load

Cont

rol

Enab

le0

10

00

00

00

00

00

0On

/Off

YY



Curre

nt St

abili

ty Lo

op Pa

ram

eter

s

Flyi

ng St

art P

aram

eter

s

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P034

Curre

nt St

abilit

y Loo

p Filt

er Ti

me

032

767

6363

6363

6363

6363

6363

6363

On/O

ffY

P035

Curre

nt St

abilit

y Loo

p Fre

quen

cy Ra

nge1

Ou

tput

Scali

ng Fa

ctor

010

015

1515

1515

1515

1515

1515

15On

/Off

YY

P036

Curre

nt St

abilit

y Loo

p Out

put U

pper

Lim

it0

100

1010

1010

1010

1010

1010

1010

On/O

ffY

P037

Curre

nt St

abilit

y Loo

p Out

put L

ower

Lim

it-1

0010

0-1

0-1

0-1

0-1

0-1

0-1

0-1

0-1

0-1

0-1

0-1

0-1

0On

/Off

Y

P038

Curre

nt St

abilit

y Loo

p Ena

ble

01

00

00

00

00

00

00

On/O

ffY

P039

Curre

nt St

abilit

y Loo

p Ena

ble F

requ

ency

Ra

nge1

Upp

er lim

it0

100

3030

3030

3030

3030

3030

3030

On/O

ffY

P069

Curre

nt St

abilit

y Loo

p Ena

ble F

requ

ency

Ra

nge2

Upp

er Li

mit

010

080

8080

8080

8080

8080

8080

80On

/Off

Y

P070

Curre

nt St

abilit

y Loo

p Fre

quen

cy Ra

nge2

Ou

tput

Scali

ng Fa

ctor

010

00

00

00

00

00

00

0On

/Off

Y

P071

Curre

nt St

abilit

y Loo

p Fre

quen

cy Ra

nge3

Ou

tput

Scali

ng Fa

ctor

010

00

00

00

00

00

00

0On

/Off

Y

P072

Curre

nt St

abilit

y Loo

p Ena

ble D

elay

016

310

1010

1010

1010

1010

1010

10On

/Off

YY

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P113

Flyin

g Sta

rt-In

itial

Outp

ut Vo

ltage

010

08

88

88

88

88

88

8%

On/O

ffY

Y

P114

Flying

Star

t-Cur

rent

Com

paris

on D

elay

For M

otor

Spee

d Sea

rch0

5000

500

500

500

500

500

500

500

500

500

500

500

500

ms

On/O

ffY

Y

P115

Flying

Star

t-Cur

rent

Thre

shold

For

Succ

essfu

l Mot

or Sp

eed S

earch

0.00

100.0

04.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

9On

/Off

YY

P187

Flyin

g Sta

rt Vo

ltage

Thre

shold

010

03

33

33

33

33

33

3On

/Off

YY

P393

Flyin

g Sta

rt Co

mpe

nsat

ion En

able

01

11

11

11

11

11

11

On/O

ffY

Y

P394

Flying

Star

t Com

pens

ation

Curre

nt

Thre

shold

0.00

399.9

950

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.00On

/Off

YY

P395

Flying

Star

t Com

pens

ation

Freq

uenc

y Re

duce

Spee

d10

1638

450

5050

5050

5050

5050

5050

50On

/Off

YY

P408

Flying

Star

t Com

pens

ation

Def

er Re

store

Vo

ltage

Spee

d Cur

rent

Thre

shold

20.00

399.9

925

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.00On

/Off

Y



Load

Loss

Cont

rol P

aram

eter

s

Mot

or A

uto-

tune

Para

met

ers

P410

Flying

Star

t Com

pens

ation

Curre

nt

Thre

shold

for F

ast C

ompe

nsat

ion

0.00

399.9

960

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.00On

/Off

Y

P416

Flyin

g Sta

rt M

ode

03

00

00

00

00

00

00

On/O

ffY

Y

P417

Flyin

g Sta

rt M

otor

Spee

d Sea

rch Ti

meo

ut0

1000

5050

5050

5050

5050

5050

5050

sOn

/Off

YY

P457

Flying

Star

t Volt

age R

ecov

ery T

ime (

Low

Spee

d Reg

ion)

0.00

163.8

410

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.00s

On/O

ffY

Y

P459

Flying

Star

t Volt

age R

ecov

ery T

ime (

High

Sp

eed R

egion

)0.0

016

3.84

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

sOn

/Off

YY

P463

Flying

Star

t Low

/High

Spee

d Reg

ions

Boun

dary

010

016

1616

1616

1616

1616

1616

16%

On/O

ffY

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P045

Load

Loss

Cont

rol E

nabl

e0

10

00

00

00

00

00

0On

/Off

YY

P046

Load

Loss

Enab

le Fre

quen

cy0

100

2020

2020

2020

2020

2020

2020

%On

/Off

YY

P047

Load

Loss

Cont

rol D

iffer

entia

l Sca

ling

020

008

88

88

88

88

88

8%

On/O

ffY

P048

Load

Loss

Frequ

ency

Com

pens

ation

Up

per L

imit

05

55

55

55

55

55

55

%On

/Off

YY

P049

Load

Loss

Cont

rol S

calin

g Fac

tor

020

000

00

00

00

00

00

0%

On/O

ffY

P050

Load

Loss

Cont

rol In

tegr

al Tim

e0

100

00

00

00

00

00

00

ms

On/O

ffY

P051

Load

Loss

Cont

rol F

ilter

Tim

e0

200

100

100

100

100

100

100

100

100

100

100

100

100

ms

On/O

ffY

P052

Load

Loss

Enab

le Cu

rrent

Thre

shold

010

010

1010

1010

1010

1010

1010

10%

On/O

ffY

P053

Load

Loss

Cont

rol E

xit D

elay

016

000

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

ms

On/O

ffY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P121

Mot

or Au

totu

ne Se

lectio

n0

30

00

00

00

00

00

0Of

fline

YY

P122

Mot

or Au

totu

ne D

elay

032

767

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

ms

On/O

ffY

P123

Mot

or Au

totu

ne Fi

lter T

ime

032

767

1010

1010

1010

1010

1010

1010

ms

On/O

ffY



Rest

art P

aram

eter

s

P124

Mot

or Au

totu

ne Cu

rrent

Id Kp

0.00

128.0

00.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

1On

/Off

Y

P125

Mot

or Au

totu

ne Cu

rrent

Id Ki

0.012

8.00.1

0.10.1

0.10.1

0.10.1

0.10.1

0.10.1

0.1On

/Off

Y

P126

Mot

or Au

totu

ne Cu

rrent

Iq Kp

0.00

128.0

00.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

1On

/Off

Y

P127

Mot

or Au

totu

ne Cu

rrent

Iq Ki

0.012

8.00.1

0.10.1

0.10.1

0.10.1

0.10.1

0.10.1

0.1On

/Off

Y

P128

Mot

or Au

totu

ne Id

Feed

back

Erro

r Vali

d0.0

010

0.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

%On

/Off

Y

P129

Mot

or Au

totu

ne Lr

/Lm

032

767

1052

610

526

1052

610

526

1052

610

526

1052

610

526

1052

610

526

1052

610

526

*0.00

01On

/Off

YY

P130

Mot

or Au

totu

ne Id

Refe

renc

e0.0

010

0.00

29.99

29.99

29.99

29.99

29.99

29.99

29.99

29.99

29.99

29.99

29.99

29.99

On/O

ffY

P131

Mot

or Au

totu

ne Iq

Refe

renc

e0

100

00

00

00

00

00

00

On/O

ffY

P132

Mot

or Au

totu

ne Ti

me L

imit

032

767

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

mOn

/Off

Y

P136

Mot

or Au

totu

ne Rs

/Rr

0.00

327.6

71.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

0On

/Off

Y

P137

Mot

or Ra

ted C

urre

nt0

3276

70

00

00

00

00

00

0A

On/O

ffY

Y

P138

Mot

or St

ator

Resis

tanc

e Rs

010

00

00

00

00

00

00

ΩOn

/Off

YY

P139

Mot

or M

agne

tizing

Curre

nt Id

010

030

3030

3030

3030

3030

3030

30%

On/O

ffy

Y

P140

Mot

or Ro

tor R

esist

ance

Rr0

100

00

00

00

00

00

0Ω

On/O

ffY

Y

P141

Mot

or M

agne

tizing

Indu

ctanc

e Lm

0.032

76.7

0.00.0

0.00.0

0.00.0

0.00.0

0.00.0

0.00.0

mH

On/O

ffY

Y

P142

Mot

or St

ator

Leak

age I

nduc

tanc

e LIs

0.032

76.7

0.00.0

0.00.0

0.00.0

0.00.0

0.00.0

0.00.0

mH

On/O

ffY

Y

P143

Mot

or Ro

tor L

eaka

ge In

ducta

nce L

lr0.0

3276

.70.0

0.00.0

0.00.0

0.00.0

0.00.0

0.00.0

0.0m

HOn

/Off

YY

P178

Mot

or Au

totu

ne Rs

Upp

er Li

mit

010

050

5050

5050

5050

5050

5050

50%

On/O

ffY

P179

Mot

or Au

totu

ne M

axim

um Iq

For N

o Lo

ad0.0

039

9.99

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

%On

/Off

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P461

Resta

rt En

able

01

00

00

00

00

00

00

On/O

ffY

Y

P462

Fault

Rese

t Tim

eout

0.04

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

0s

On/O

ffY

P465

Powe

r Cell

Faul

t Aut

o Res

et D

elay

010

44

44

44

44

44

44

sOn

/Off

Y



Skip

Freq

uenc

y Par

amet

ers

Star

t and

Stop

Sequ

ence

Para

met

ers

Dece

lera

tion

and

Acce

lera

tion

Para

met

ers

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P089

Skip

Frequ

ency

Enab

le0

10

00

00

00

00

00

0On

/Off

YY

P090

Skip

Frequ

ency

1 Lo

wer L

imit

075

00

00

00

00

00

00

On/O

ffY

Y

P091

Skip

Frequ

ency

1 Up

per L

imit

075

00

00

00

00

00

00

On/O

ffY

Y

P092

Skip

Frequ

ency

2 Lo

wer L

imit

075

00

00

00

00

00

00

On/O

ffY

Y

P093

Skip

Frequ

ency

3 Up

per L

imit

075

00

00

00

00

00

00

On/O

ffY

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P447

Min

imum

Star

t Fre

quen

cy D

uring

Tim

e0

13.65

00

00

00

00

000

00

sOf

fline

YY

P448

Min

imum

Star

t Fre

quen

cy0

100

00

00

00

00

00

0%

Offli

neY

Y

P449

Low

Spee

d Volt

age C

ompe

nsat

ion

Durin

g Flux

Build

ing Pr

oces

s0

32

22

22

22

22

22

2%

Offli

neY

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R

P385

Dece

lerat

ion Pr

oces

s Ena

ble

01

00

00

00

00

00

00

Offli

neY

Y

P386

Dece

lerat

ion Ti

me 1

1.032

76.7

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

sOn

/Off

YY

P387

Dece

lerat

ion Fr

eque

ncy 1

075

3030

3030

3030

3030

3030

3030

On/O

ffY

Y

P388

Dece

lerat

ion Ti

me 2

1.032

76.7

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

sOn

/Off

YY

P389

Dece

lerat

ion Fr

eque

ncy 2

075

2020

2020

2020

2020

2020

2020

On/O

ffY

Y

P390

Dece

lerat

ion Ti

me 3

1.032

76.7

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

sOn

/Off

YY

P391

Dece

lerat

ion Fr

eque

ncy 3

075

1010

1010

1010

1010

1010

1010

On/O

ffY

Y

P392

Dece

lerat

ion Ti

me 4

1.032

76.7

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

sOn

/Off

YY

P418

Acce

lerat

ion Ti

me 1

1.032

76.7

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

sOn

/Off

YY

P419

Acce

lerat

ion Fr

eque

ncy 1

075

1010

1010

1010

1010

1010

1010

On/O

ffY

Y



PID

Para

met

ers

Dece

lera

tion

Cont

rol P

aram

eter

s

P420

Acce

lerat

ion Ti

me 2

1.032

76.7

80.0

80.0

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P421

Acce

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Max

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PID

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Offli

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Y

No.

Nam

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Max

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YY

P397

DC Bu

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767

700

700

950

950

900

900

1000

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950

1000

1000

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YY

P398

DC Bu

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032

767

800

800

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1050

1000

1000

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1050

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1050

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VOn

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YY

P434

Dece

lerat

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Prot

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P079

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0.00

100.0

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100.0

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0.00

100.0

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0.00

100.0

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0.00

100.0

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0.00

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YY

P080

VFD

Over

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9.99

120.0

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0.00

120.0

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120.0

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120.0

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YY

P081

VFD

Over

load T

ime

032

767

6060

6060

6060

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6060

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P082

VFD

Over

load C

ycle

Time

032

767

600

600

600

600

600

600

600

600

600

600

600

600

sOn

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YY

P107

VFD

Over

load C

urre

nt O

ffset

0.00

399.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

94.9

9%

On/O

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P108

Mot

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9.99

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4.99

4.99

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4.99

4.99

4.99

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Y

P110

Heat

ing Cu

rrent

Thre

shold

0.00

399.9

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110.0

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0.00

110.0

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0.00

110.0

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0.00

110.0

011

0.00

110.0

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On/O

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P154

Line O

ver V

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019

9.99

115.0

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5.00

115.0

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115.0

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5.00

115.0

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5.00

115.0

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5.00

115.0

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5.00

%On

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YY

P155

Line O

ver V

oltag

e Fau

lt De

lay0

3276

710

1010

1010

1010

1010

1010

10m

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YY

P156

Line U

nder

Volta

ge W

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esho

ld0

100

8080

8080

8080

8080

8080

8080

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YY

P157

Line U

nder

Volta

ge W

arnin

g Dela

y0

3276

710

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

00m

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YY

P158

Line N

eutra

l Ove

r Volt

age W

arni

ng

Thre

shold

0.0

019

9.99

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

%On

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YY

P159

Line N

eutra

l Ove

r Volt

age W

arnin

g Dela

y0

3276

710

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

00m

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YY

P160

Line N

eutra

l Ove

r Volt

age F

ault

Thre

shold

0.00

199.9

980

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On/O

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Y

P161

Line N

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age F

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Delay

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

Y

P162

Line V

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e Pos

itive

Sequ

ence

Filte

r Tim

e0

3276

710

1010

1010

1010

1010

1010

10m

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YY

P163

Line V

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ative

Sequ

ence

Filte

r Tim

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3276

710

1010

1010

1010

1010

1010

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YY

P164

Line V

oltag

e Neg

ative

Sequ

ence

Fault

Th

resh

old0.0

019

9.99

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

%On

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YY

P165

Line V

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e Neg

ative

Sequ

ence

Fault

De

lay0

3276

710

1010

1010

1010

1010

1010

10m

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YY

P166

Line V

oltag

e Pha

ser S

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nce R

ever

se

Enab

le0

10

00

00

00

00

00

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YY

P168

Line C

urre

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032

767

1010

1010

1010

1010

1010

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On/O

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Y

P169

Line S

hort

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it Fa

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400

180

180

180

180

180

180

180

180

180

180

180

180

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YY

P170

Line S

hort

Circu

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032

767

1010

1010

1010

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1010

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On/O

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Y

P174

Line C

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Filte

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1010

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10m

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YY

P175

Line C

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quen

ce Fi

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Time

032

767

1010

1010

1010

1010

1010

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On/O

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Y



P176

Line C

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egat

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quen

ce Fa

ult

Thre

shold

0.00

199.9

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On/O

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Y

P177

Line C

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egat

ive Se

quen

ce Fa

ult

Delay

032

767

1010

1010

1010

1010

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On/O

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Y

P208

Phas

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55

55

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Y

P210

Phas

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399.9

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9.99

179.9

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179.9

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179.9

917

9.99

179.9

917

9.99

179.9

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179.9

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YY

P211

Filte

r Tim

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032

767

1000

1000

1000

1000

1000

1000

1000

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1000

1000

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On/O

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Filte

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YY

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399.9

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179.9

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9.99

179.9

917

9.99

179.9

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9.99

179.9

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YY

P214

Mot

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inim

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0.00

399.9

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On/O

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Y

P215

Mot

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me

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767

600

600

600

600

600

600

600

600

600

600

600

600

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YY

P216

Mot

or O

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9.99

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YY

P217

Mot

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767

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YY

P221

Filte

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put O

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Y

P222

Outp

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Y

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No.

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Mod

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Frequ

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ency

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Y

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767

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1010

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Y

P257

Mot

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Thre

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Y

P258

DC Bu

s Und

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Powe

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Powe

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Mot

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Mot

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Erro

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Y

P129

Mot

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767

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610

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*0.00

01On

/Off

YY

P130

Mot

or Au

totu

ne Id

Refer

ence

0.00

100.0

029

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.9929

.9929

.9929

.9929

.9929

.9929

.9929

.9929

.9929

.9929

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/Off

Y

P131

Mot

or Au

totu

ne Iq

Refer

ence

010

00

00

00

00

00

00

0On

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Y

P132

Mot

or Au

totu

ne Ti

me L

imit

032

767

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

5000

mOn

/Off

Y

P133

Curre

nt Li

mit

Loop

Kp0.0

128.0

0.30.3

0.30.3

0.30.3

0.30.3

0.30.3

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On/O

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P134

Curre

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Loop

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00

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P136

Mot

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01.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

01.3

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Y

P137

Mot

or Ra

ted C

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3276

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00

00

00

00

00

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On/O

ffY

Y

P138

Mot

or St

ator

Resis

tanc

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00

00

00

00

00

00

ΩOn

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YY

P139

Mot

or M

agne

tizin

g Cur

rent

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100

3030

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3030

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yY

P140

Mot

or Ro

tor R

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ance

Rr0

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00

00

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On/O

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P141

Mot

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0.00.0

0.00.0

0.00.0

0.00.0

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HOn

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YY

P142

Mot

or St

ator

Leak

age I

nduc

tanc

e LIs

0.032

76.7

0.00.0

0.00.0

0.00.0

0.00.0

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On/O

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Y

P143

Mot

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tor L

eaka

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ducta

nce L

lr0.0

3276

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0.00.0

0.00.0

0.00.0

0.00.0

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HOn

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YY

P145

Syste

m Fa

ult B

Trip

Signa

l Mas

k-3

2768

3276

7-1

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YY

No.

Nam

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in.

Max

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faul

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Units

Mod

ify

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ss

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V24

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6600

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US

R



P146

Line R

ated

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3276

723

0024

0030

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6060

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0069

0010

000

1100

0V

On/O

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Y

P147

Line R

ated

Freq

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3276

750

5050

5050

5050

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On/O

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Y

P148

Trans

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00

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On/O

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Y

P149

Trans

form

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55

55

55

55

55

55

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YY

P151

Line V

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Scali

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0.00

199.9

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146.7

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5.90

159.9

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5.80

169.0

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6.50

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9.80

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8.10

143.7

0%

On/O

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Y

P152

Line V

oltag

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Scali

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ctor

0.00

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159.9

017

5.80

169.0

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152.8

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143.7

0%

On/O

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Y

P153

Line V

oltag

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Scali

ng Fa

ctor

0.00

199.9

910

0.00

100.0

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0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

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On/O

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Y

P154

Line O

ver V

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old0.0

019

9.99

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5.00

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5.00

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5.00

115.0

011

5.00

%On

/Off

YY

P155

Line O

ver V

oltag

e Fau

lt De

lay0

3276

710

1010

1010

1010

1010

1010

10m

sOn

/Off

YY

P156

Line U

nder

Volta

ge W

arnin

g Thr

esho

ld0

100

8080

8080

8080

8080

8080

8080

%On

/Off

YY

P157

Line U

nder

Volta

ge W

arnin

g Dela

y0

3276

710

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

00m

sOn

/Off

YY

P158

Line N

eutra

l Ove

r Volt

age W

arnin

g Th

resh

old0.0

019

9.99

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

%On

/Off

YY

P159

Line N

eutra

l Ove

r Volt

age W

arnin

g Dela

y0

3276

710

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

00m

sOn

/Off

YY

P160

Line N

eutra

l Ove

r Volt

age F

ault

Thre

shold

0.00

199.9

980

.0080

.0080

.0080

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.0080

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.0080

.0080

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On/O

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Y

P161

Line N

eutra

l Ove

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age F

ault

Delay

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

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Y

P162

Line V

oltag

e Pos

itive

Sequ

ence

Filte

r Tim

e0

3276

710

1010

1010

1010

1010

1010

10m

sOn

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YY

P163

Line V

oltag

e Neg

ative

Sequ

ence

Filte

r Tim

e 0

3276

710

1010

1010

1010

1010

1010

10m

sOn

/Off

YY

P164

Line V

oltag

e Neg

ative

Sequ

ence

Fault

Th

resh

old0.0

019

9.99

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

20.00

%On

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YY

P165

Line V

oltag

e Neg

ative

Sequ

ence

Fault

De

lay0

3276

710

1010

1010

1010

1010

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YY

P166

Line V

oltag

e Pha

ser S

eque

nce R

ever

se

Enab

le0

10

00

00

00

00

00

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YY

P168

Line C

urre

nt Fi

lter T

ime

032

767

1010

1010

1010

1010

1010

1010

ms

On/O

ffY

Y

P169

Line S

hort

Circu

it Fa

ult Th

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old0

400

180

180

180

180

180

180

180

180

180

180

180

180

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YY

P170

Line S

hort

Circu

it Fau

lt De

lay0

3276

710

1010

1010

1010

1010

1010

10m

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YY

P171

Line C

urre

nt Ph

ase A

Scali

ng Fa

ctor

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

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On/O

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P172

Line C

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nt Ph

ase B

Scali

ng Fa

ctor

0.00

199.9

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0.00

100.0

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0.00

100.0

010

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100.0

010

0.00

100.0

010

0.00

100.0

010

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On/O

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P173

Line C

urre

nt Ph

ase C

Scali

ng Fa

ctor

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

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On/O

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P174

Line C

urre

nt Po

sitive

Sequ

ence

Filte

r Tim

e0

3276

710

1010

1010

1010

1010

1010

10m

sOn

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YY

No.

Nam

eM

in.

Max

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faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

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3000

V33

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4000

V41

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6000

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6600

V69

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1000

0V11

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US

R



P175

Line C

urre

nt N

egat

ive Se

quen

ce Fi

lter

Time

032

767

1010

1010

1010

1010

1010

1010

ms

On/O

ffY

Y

P176

Line C

urre

nt N

egat

ive Se

quen

ce Fa

ult

Thre

shold

0.00

199.9

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0.00

100.0

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100.0

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100.0

010

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100.0

010

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100.0

010

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On/O

ffY

Y

P177

Line C

urre

nt N

egat

ive Se

quen

ce Fa

ult

Delay

032

767

1010

1010

1010

1010

1010

1010

ms

On/O

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Y

P178

Mot

or Au

totu

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Upp

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mit

010

050

5050

5050

5050

5050

5050

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On/O

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P179

Mot

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axim

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039

9.99

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

%On

/Off

Y

P180

Pre-

char

ge Re

sisto

r Sho

rt Cir

cuit

Fault

Th

resh

old0

102

22

22

22

22

22

2%

On/O

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P181

Pre-

char

ge Re

sisto

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cuit

Fault

De

lay0

1000

050

050

050

050

050

050

050

050

050

050

050

050

0m

sOn

/Off

Y

P182

Dera

ting F

uncti

on En

able

01

11

11

11

11

11

11

On/O

ff

P183

Volta

ge Lo

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hres

hold

For D

rive

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ting P

er Co

oling

Fan I

nput

Volta

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Drop

010

070

7070

7070

7070

7070

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P184

Volta

ge U

pper

Thre

shold

For D

rive

Dera

ting P

er Co

oling

Fan I

nput

Volta

ge

Drop

010

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P185

Drive

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put C

urre

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Lim

itatio

n Pe

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ling F

an In

put V

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p0

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P186

Drive

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t Dela

y0

3276

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000

1000

010

000

1000

010

000

1000

010

000

1000

010

000

1000

010

000

1000

0m

sOn

/Off

Y

P187

Flying

Star

t Volt

age T

hres

hold

010

03

33

33

33

33

33

3On

/Off

YY

P195

Line C

T Rat

io0

00

00

00

00

00

00

0Of

fline

YY

P196

Line C

T Bur

den R

esist

or0

00

00

00

00

00

00

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fline

YY

P197

Mot

or H

ECS R

atio

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99.99

1000

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1000

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00.00

1000

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00.00

1000

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00.00

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Offli

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P198

Mot

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YY

Y

P199

Mot

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ted C

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4040

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YY

Y

P200

Ia M

otor

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050

013

1313

1313

1313

1313

1313

13On

/Off

Y

P201

Mot

or Ia

Scali

ng Fa

ctor

0.00

199.9

910

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

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/Off

Y

P202

Ic M

otor

Curre

nt M

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y Add

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050

014

1414

1414

1414

1414

1414

14On

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Y

P203

Mot

or Ic

Scali

ng Fa

ctor

0.00

199.9

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105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

010

5.00

105.0

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/Off

Y

P204

Mot

or U

ab Vo

ltage

Addr

ess

050

011

1111

1111

1111

1111

1111

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/Off

Y

P205

Mot

or U

ab Vo

ltage

Scali

ng Fa

ctor

0.00

199.9

915

3.00

146.7

017

5.90

159.9

017

5.80

169.0

014

6.50

167.4

015

9.80

152.8

015

8.10

143.7

0On

/Off

YY

P206

Mot

or U

ac Vo

ltage

Scali

ng Fa

ctor

0.00

199.9

915

3.00

146.7

017

5.90

159.9

017

5.80

169.0

014

6.50

167.4

015

9.80

152.8

015

8.10

143.7

0On

/Off

YY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

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US

R



P208

Phas

e Ove

r Cur

rent

Enab

le Fre

quen

cy

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it0

100

1010

1010

1010

1010

1010

1010

On/O

ffY

P209

Phas

e Ove

r Cur

rent

Filte

r Tim

e0

3276

75

55

55

55

55

55

5On

/Off

Y

P210

Phas

e Ove

r Cur

rent

Thre

shold

0.00

399.9

917

9.99

179.9

917

9.99

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917

9.99

179.9

917

9.99

179.9

917

9.99

179.9

917

9.99

179.9

9On

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YY

P211

Filte

r Tim

e For

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rmal

Outp

ut Vo

ltage

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

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P212

Filte

r Tim

e For

Out

put S

hort-

Circu

it0

3276

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1010

1010

1010

1010

1010

10m

sOn

/Off

YY

P213

Outp

ut Sh

ort-C

ircuit

Faul

t Thr

esho

ld0.0

039

9.99

179.9

917

9.99

179.9

917

9.99

179.9

917

9.99

179.9

917

9.99

179.9

917

9.99

179.9

917

9.99

On/O

ffY

Y

P214

Mot

or M

inim

um O

verlo

ad Cu

rrent

0.00

399.9

910

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104.9

910

4.99

104.9

910

4.99

104.9

910

4.99

104.9

910

4.99

104.9

910

4.99

104.9

9%

On/O

ffY

Y

P215

Mot

or O

verlo

ad Cy

cle Ti

me

032

767

600

600

600

600

600

600

600

600

600

600

600

600

sOn

/Off

YY

P216

Mot

or O

verlo

ad Tr

ip Th

resh

old0.0

039

9.99

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

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YY

P217

Mot

or O

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me

032

767

6060

6060

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6060

6060

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YY

P221

Filte

r Tim

e For

Out

put O

ver V

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e0

3276

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010

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010

010

010

010

010

010

010

010

010

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sOn

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Y

P222

Outp

ut O

ver V

oltag

e Fau

lt Th

resh

old0.0

019

9.99

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

On/O

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Y

P223

Outp

ut Vo

ltage

Dev

iation

War

ning

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resh

old0.0

019

9.99

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

60.00

On/O

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Y

P224

Outp

ut Vo

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Dev

iation

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t Th

resh

old0.0

019

9.99

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80.00

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80.00

80.00

80.00

80.00

80.00

80.00

80.00

80.00

80.00

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Y

P226

Outp

ut Vo

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Abno

rmali

ty W

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ng

Canc

ellat

ion Th

resh

old0.0

019

9.99

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

On/O

ffY

P227

Grou

nd Fa

ult D

etec

tion S

calin

g Co

rrecti

on Fa

ctor

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

0On

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Y

P228

Filte

r Tim

e For

Gro

und F

ault

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P229

Grou

nd Fa

ult W

arnin

g Thr

esho

ld0.0

019

9.99

8.00

8.00

8.00

8.00

8.00

8.00

8.00

8.00

8.00

8.00

8.00

8.00

On/O

ffY

P230

Grou

nd Fa

ult Tr

ip Th

resh

old0.0

019

9.99

15.00

15.00

15.00

15.00

15.00

15.00

15.00

15.00

15.00

15.00

15.00

15.00

On/O

ffY

P231

Filte

r Tim

e For

Ove

rspee

d Fau

lt (U

pper

Lim

it)0

3276

710

010

010

010

010

010

010

010

010

010

010

010

0On

/Off

Y

P232

Filte

r Tim

e For

Ove

rspee

d Fau

lt (Lo

wer

Limit)

032

767

100

100

100

100

100

100

100

100

100

100

100

100

On/O

ffY

P233

Thre

shold

Of O

ver-S

peed

Faul

t At L

ower

Fre

quen

cy Li

mit

0.00

199.9

920

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.00On

/Off

Y

P234

Thre

shold

Of O

ver-S

peed

Fault

At U

pper

Fre

quen

cy Li

mit

0.00

199.9

920

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.0020

.00On

/Off

Y

P235

Frequ

ency

Dev

iation

War

ning

Canc

ellat

ion Th

resh

old0.0

019

9.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

On/O

ffY

P236

Frequ

ency

Dev

iation

War

ning T

hres

hold

0.00

199.9

96.0

06.0

06.0

06.0

06.0

06.0

06.0

06.0

06.0

06.0

06.0

06.0

0On

/Off

Y

P237

Frequ

ency

Dev

iation

War

ning D

elay

032

767

88

88

88

88

88

8m

sOn

/Off

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P238

Mot

or St

all Fa

ult Th

resh

old0.0

019

9.99

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

On/O

ffY

Y

P239

Mot

or St

all Fa

ult D

elay

032

767

6000

6000

6000

6000

6000

6000

6000

6000

6000

6000

6000

6000

ms

On/O

ffY

P240

Trans

form

er O

ver T

empe

ratu

re Fa

ult

Delay

032

767

1010

1010

1010

1010

1010

1010

ms

On/O

ffY

P241

Trans

form

er O

ver T

empe

ratu

re W

arnin

g De

lay0

3276

710

1010

1010

1010

1010

1010

10m

sOn

/Off

Y

P250

Inpu

t Con

tacto

r/Circ

uit Br

eake

r Clos

e De

lay0

3276

710

000

1000

010

000

1000

010

000

1000

010

000

1000

010

000

1000

010

000

1000

0m

sOn

/Off

Y

P251

Frequ

ency

Com

man

d-Lo

w Fre

quen

cy

Regio

n Bou

ndar

y0.0

100.0

0.50.5

0.50.5

0.50.5

0.50.5

0.50.5

0.50.5

On/O

ffY

P252

Mot

or In

Stop

ping C

ondit

ion Th

resh

old0

100

11

11

11

11

11

11

On/O

ffY

Y

P253

Mot

or Co

ast S

top T

ime

010

000

1010

1010

1010

1010

1010

1010

On/O

ffY

Y

P254

DC Bu

s Und

er Vo

ltage

Faul

t Thr

esho

ld0

100

6363

6363

6363

6363

6363

6363

%On

/Off

Y

P256

Grou

nd Fa

ult W

arnin

g Can

cella

tion

Thre

shold

0.00

199.9

95.0

05.0

05.0

05.0

05.0

05.0

05.0

05.0

05.0

05.0

05.0

05.0

0On

/Off

Y

P257

Mot

or St

all W

arnin

g Can

cella

tion

Thre

shold

0.00

199.9

92.9

82.9

82.9

82.9

82.9

82.9

82.9

82.9

82.9

82.9

82.9

82.9

8On

/Off

Y

P258

DC Bu

s Und

er Vo

ltage

Fault

Dela

y0

3276

710

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

00m

sOn

/Off

Y

P263

Powe

r Los

s Res

tart

Enab

le0

10

00

00

00

00

00

0Of

fline

YY

P264

Powe

r Los

s Allo

wabl

e Tim

e0

3600

6060

6060

6060

6060

6060

6060

sOf

fline

YY

P265

Powe

r Los

s Tim

e Max

Lim

it0

3600

300

300

300

300

300

300

300

300

300

300

300

300

sOf

fline

Y

P266

DC Bu

s Volt

age D

eviat

ion Fa

ult T

hres

hold

010

025

2525

2525

2525

2525

2525

25%

On/O

ffY

Y

P267

DC Bu

s Volt

age D

eviat

ion Fa

ult Fi

lter

Time

010

0010

1010

1010

1010

1010

1010

10m

sOn

/Off

YY

P268

Flux C

ontro

l Sign

al Fil

ter T

ime

0.00

1366

3.80

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

ms

On/O

ffY

P269

Syste

m D

erat

ing Co

ntro

l Sign

al Fil

ter

Time

9.60

1366

3.80

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

1000

0.08

ms

On/O

ffY

P270

Delay

ed Lo

ckou

t Tim

e of S

top O

pera

tion

050

0020

0020

0020

0020

0020

0020

0020

0020

0020

0020

0020

0020

00m

sOn

/Off

Y

P271

Flux D

elay

050

0050

050

050

050

050

050

050

050

050

050

050

050

0m

sOn

/Off

Y

P272

Flux C

ontro

l Com

pens

ation

Gain

010

025

2525

2525

2525

2525

2525

25%

On/O

ffY

P273

Flux C

ontro

l Reg

ulatio

n Con

trol E

nabl

e0

11

11

11

11

11

11

1On

/Off

Y

P274

DC Bu

s Und

er Vo

ltage

War

ning

Thre

shold

010

080

8080

8080

8080

8080

8080

80%

On/O

ffY

Y

P275

DC Bu

s Und

er Vo

ltage

War

ning

Hyste

resis

Band

010

05

55

55

55

55

55

5%

On/O

ffY

Y

P276

Flux C

ontro

l-Lag

Band

Widt

h0

100

33

33

33

33

33

13

On/O

ffY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P277

DC Li

nk Vo

ltage

Sag S

calin

g At R

ated

Lo

ad0

100

55

55

55

55

55

55

AOn

/Off

Y

P278

Dera

ting C

ontro

l Ena

ble Th

resh

old50

.0019

9.99

110.0

011

0.00

110.0

011

0.00

110.0

011

0.00

110.0

011

0.00

110.0

011

0.00

110.0

011

0.00

On/O

ffY

Y

P279

Dera

ting C

ontro

l Out

put F

ilter

Tim

e9.9

519

99.94

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

On/O

ffY

P280

Low

Volta

ge Ri

de Th

roug

h Rec

over

y Vo

ltage

Boos

t Coe

fficie

nt0

100

00

00

00

00

00

00

%On

/Off

Y

P281

Low

Volta

ge Ri

de Th

roug

h Min

Time

Inte

rval

010

0010

1010

1010

1010

1010

1010

10s

On/O

ffY

Y

P282

Low

Volta

ge Ri

de Th

roug

h Min

Frequ

ency

Lim

it5

100

55

55

55

55

55

55

Offli

neY

Y

P283

Low

Volta

ge Ri

de Th

roug

h Ena

ble0

11

11

11

11

11

11

1On

/Off

YY

P284

Low

Volta

ge Ri

de Th

roug

h Min

Time

Limit

1016

383

4040

4040

4040

4040

4040

4040

ms

Offli

neY

P285

Low

Volta

ge Ri

de Th

roug

h Max

Tim

e Lim

it10

1638

310

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

0010

00m

sOf

fline

Y

P286

Low

Volta

ge Ri

de Th

roug

h Rec

over

y Fre

quen

cy Co

mpe

nsat

ion Fa

ctor

-200

.0019

9.99

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

0.00

Offli

neY

P287

Low

Volta

ge Ri

de Th

roug

h Rec

over

y Tim

e10

1638

315

0015

0015

0015

0015

0015

0015

0015

0015

0015

0015

0015

00m

sOf

fline

Y

P288

Low

Volta

ge Ri

de Th

roug

h Sys

tem

Dela

y Co

rrecti

on Fa

ctor

-100

00.00

1000

0.00

999.7

699

9.76

999.7

699

9.76

999.7

699

9.76

999.7

699

9.76

999.7

699

9.76

999.7

699

9.76

μsOf

fline

Y

P289

Low

Volta

ge Ri

de Th

roug

h Mot

or Sp

eed

Estim

ation

Filte

r Tim

e0.9

810

00.00

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

9.95

ms

Offli

neY

P290

Volta

ge Lo

op En

able

01

11

11

11

11

11

11

Offli

neY

P291

SVC L

ow Fr

eque

ncy A

ccele

ratio

n Tim

e En

able

Frequ

ency

Rang

e Upp

er Li

mit

010

010

1010

1010

1010

1010

1010

10%

On/O

ffY

P292

SVC L

ow Fr

eque

ncy A

ccele

ratio

n Tim

e1

3276

.75

55

55

55

55

55

5s

On/O

ffY

P293

SVC F

lux Vo

ltage

Boos

t Coe

fficie

nt0

500

300

300

300

300

300

300

300

300

300

300

300

300

%On

/Off

Y

P294

SVC F

lux Vo

ltage

Boos

t Upp

er Fr

eque

ncy

010

010

1010

1010

1010

1010

1010

10%

On/O

ffY

P295

Iq Fi

lter T

ime F

or Sl

ip Es

timat

ion0

1000

100

100

100

100

100

100

100

100

100

100

100

100

On/O

ffY

P296

Curre

nt Fe

edba

ck Fi

lter T

ime

010

0010

1010

1010

1010

1010

1010

10m

sOn

/Off

Y

P297

Volta

ge Fe

edba

ck Fi

lter T

ime

010

0010

1010

1010

1010

1010

1010

10m

sOn

/Off

Y

P298

Filte

r Tim

e A Fo

r DC B

us Av

erag

e Valu

e0

1000

100

100

100

100

100

100

100

100

100

100

100

100

ms

On/O

ffY

P299

Filte

r Tim

e B Fo

r DC B

us Av

erag

e Valu

e0

1000

55

55

55

55

55

55

ms

On/O

ffY

P300

Digit

al Ou

tput

#0 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P301

Digit

al Ou

tput

#0 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P302

Digit

al Ou

tput

#0 Bi

t Sele

ction

015

00

00

00

00

00

00

On/O

ffY

P303

Digit

al Ou

tput

#0 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P304

Digit

al Ou

tput

#1 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P305

Digit

al Ou

tput

#1 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P306

Digit

al Ou

tput

#1 Bi

t Sele

ction

015

11

11

11

11

11

11

On/O

ffY

P307

Digit

al Ou

tput

#1 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P308

Digit

al Ou

tput

#2 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P309

Digit

al Ou

tput

#2 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P310

Digit

al Ou

tput

#2 Bi

t Sele

ction

015

22

22

22

22

02

22

On/O

ffY

P311

Digit

al Ou

tput

#2 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P312

Digit

al Ou

tput

#3 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P313

Digit

al Ou

tput

#3 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P314

Digit

al Ou

tput

#3 Bi

t Sele

ction

015

33

33

33

33

33

33

On/O

ffY

P315

Digit

al Ou

tput

#3 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P316

Digit

al Ou

tput

#4 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P317

Digit

al Ou

tput

#4 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P318

Digit

al Ou

tput

#4 Bi

t Sele

ction

015

44

44

44

44

44

44

On/O

ffY

P319

Digit

al Ou

tput

#4 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P320

Digit

al Ou

tput

#5 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P321

Digit

al Ou

tput

#5 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P322

Digit

al Ou

tput

#5 Bi

t Sele

ction

015

55

55

55

55

55

55

On/O

ffY

P323

Digit

al Ou

tput

#5 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P324

Digit

al Ou

tput

#6 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P325

Digit

al Ou

tput

#6 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P326

Digit

al Ou

tput

#6 Bi

t Sele

ction

015

66

66

66

66

66

66

On/O

ffY

P327

Digit

al Ou

tput

#6 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P328

Digit

al Ou

tput

#7 M

emor

y Add

ress

050

099

9999

9999

9999

9999

9999

99On

/Off

Y

P329

Digit

al Ou

tput

#7 Lo

gic0

10

00

00

00

00

00

0On

/Off

Y

P330

Digit

al Ou

tput

#7 Bi

t Sele

ction

015

77

77

77

77

77

77

On/O

ffY

P331

Digit

al Ou

tput

#7 D

elay

032

767

00

00

00

00

00

00

ms

On/O

ffY

P332

Analo

g Out

put #

1 Mem

ory A

ddre

ss0

500

252

252

252

252

252

252

252

252

252

252

252

252

On/O

ffY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P333

Analo

g Out

put #

1 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P334

Analo

g Out

put #

1 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P335

Analo

g Out

put #

1 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

Y

P336

Analo

g Out

put #

2 Mem

ory A

ddre

ss0

500

206

206

206

206

206

206

206

206

206

206

206

206

On/O

ffY

P337

Analo

g Out

put #

2 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P338

Analo

g Out

put #

2 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P339

Analo

g Out

put #

2 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

Y

P340

Analo

g Out

put #

3 Mem

ory A

ddre

ss0

500

00

00

00

00

00

00

On/O

ffY

P341

Analo

g Out

put #

3 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P342

Analo

g Out

put #

3 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P343

Analo

g Out

put #

3 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

P344

Analo

g Out

put #

4 Mem

ory A

ddre

ss0

500

00

00

00

00

00

00

On/O

ffY

P345

Analo

g Out

put #

4 Filt

er Ti

me

032

767

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

ms

On/O

ffY

P346

Analo

g Out

put #

4 Offs

et-1

0010

00

00

000

00

00

00

0On

/Off

Y

P347

Analo

g Out

put #

4 Sca

ling F

acto

r0.0

019

9.99

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

On/O

ffY

P351

Rate

d Fre

quen

cy H

MI D

isplay

Filte

r Tim

e0

3276

710

010

010

010

010

010

010

010

010

010

010

010

0m

sOn

/Off

Y

P352

Rate

d Fre

quen

cy H

MI D

isplay

Inte

ger

Part

075

5050

5050

5050

5050

5050

5050

On/O

ffY

YY

P353

Rate

d Fre

quen

cy H

MI D

isplay

Dec

imal

Part

010

000

00

00

00

00

00

0On

/Off

Y

P354

Mot

or Vo

ltage

HM

I Disp

lay Fi

lter T

ime

032

767

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

ms

On/O

ffY

P355

Mot

or Vo

ltage

HM

I Disp

lay In

tege

r Par

t0

1638

423

0024

0030

0033

0040

0041

6060

0063

0066

0069

0010

000

1100

0On

/Off

YY

Y

P356

Mot

or Vo

ltage

HM

I Disp

lay D

ecim

al Pa

rt0

1000

00

00

00

00

00

00

On/O

ffY

P357

Actu

al Fre

quen

cy H

MI D

isplay

Filte

r Tim

e0

3276

710

010

010

010

010

010

010

010

010

010

010

010

0m

sOn

/Off

Y

P358

Actu

al Fre

quen

cy H

MI D

isplay

Inte

ger

Part

075

5050

5050

5050

5050

5050

5050

On/O

ffY

YY

P359

Actu

al Fre

quen

cy H

MI D

isplay

Dec

imal

Part

010

000

00

00

00

00

00

0On

/Off

Y

P360

Mot

or Cu

rrent

HM

I Disp

lay Fi

lter T

ime

032

767

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

2000

ms

On/O

ffY

P361

Mot

or Cu

rrent

HM

I Disp

lay In

tege

r Par

t0

5000

00

00

00

00

00

00

On/O

ffY

YY

P362

Mot

or Cu

rrent

HM

I Disp

lay D

ecim

al Pa

rt0

1000

00

00

00

00

00

00

On/O

ffY

P371

Rate

d Fre

quen

cy H

MI D

isplay

Addr

ess

050

022

122

122

122

122

122

122

122

122

122

122

122

1On

/Off

Y

P372

Mot

or Vo

ltage

HM

I Disp

lay Ad

dres

s0

500

119

119

119

119

119

119

119

119

119

119

119

119

On/O

ffY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P373

Actu

al Fre

quen

cy H

MI D

isplay

Addr

ess

050

025

225

225

225

225

225

225

225

225

225

225

225

2On

/Off

Y

P374

Mot

or Cu

rrent

HM

I Disp

lay Ad

dres

s0

500

118

118

118

118

118

118

118

118

118

118

118

118

On/O

ffY

P375

Frequ

ency

At Fi

rst Po

int fo

r 5 Po

int VF

0.00

10.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

%Of

fline

YY

P376

Ampli

tude

At Fi

rst Po

int fo

r 5 Po

int VF

0.00

3.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

%Of

fline

YY

P377

Frequ

ency

At Se

cond

Point

for 5

Point

VF10

100

2020

2020

2020

2020

2020

2020

%Of

fline

YY

Y

P378

Ampli

tude

At Se

cond

Point

for 5

Point

VF0

100

1010

1010

1010

1010

1010

1010

%Of

fline

YY

Y

P379

Frequ

ency

At Th

ird Po

int fo

r 5 Po

int VF

1010

040

4040

4040

4040

4040

4040

40%

Offli

neY

Y

P380

Ampli

tude

At Th

ird Po

int fo

r 5 Po

int VF

010

027

2727

2727

2727

2727

2727

27%

Offli

neY

Y

P381

Frequ

ency

At Fo

urth

Point

for 5

Point

VF10

100

6060

6060

6060

6060

6060

6060

%Of

fline

YY

P382

Ampli

tude

At Fo

urth

Point

for 5

Point

VF0

100

4545

4545

4545

4545

4545

4545

%Of

fline

YY

P383

Frequ

ency

At Fi

fth Po

int fo

r 5 Po

int VF

1010

080

8080

8080

8080

8080

8080

80%

Offli

neY

P384

Ampli

tude

At Fi

fth Po

int fo

r 5 Po

int VF

010

070

7070

7070

7070

7070

7070

70%

Offli

neY

Y

P385

Dece

lerat

ion Pr

oces

s Ena

ble

01

00

00

00

00

00

00

Offli

neY

Y

P386

Dece

lerat

ion Ti

me 1

1.032

76.7

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

sOn

/Off

YY

P387

Dece

lerat

ion Fr

eque

ncy 1

075

3030

3030

3030

3030

3030

3030

On/O

ffY

Y

P388

Dece

lerat

ion Ti

me 2

1.032

76.7

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

sOn

/Off

YY

P389

Dece

lerat

ion Fr

eque

ncy 2

075

2020

2020

2020

2020

2020

2020

On/O

ffY

Y

P390

Dece

lerat

ion Ti

me 3

1.032

76.7

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

sOn

/Off

YY

P391

Dece

lerat

ion Fr

eque

ncy 3

075

1010

1010

1010

1010

1010

1010

On/O

ffY

Y

P392

Dece

lerat

ion Ti

me 4

1.032

76.7

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

sOn

/Off

YY

P393

Flying

Star

t Com

pens

ation

Enab

le0

11

11

11

11

11

11

1On

/Off

YY

P394

Flying

Star

t Com

pens

ation

Curre

nt

Thre

shold

0.00

399.9

950

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.0050

.00On

/Off

YY

P395

Flying

Star

t Com

pens

ation

Freq

uenc

y Re

duce

Spee

d10

1638

450

5050

5050

5050

5050

5050

50On

/Off

YY

P396

Dece

lerat

ion Co

ntro

l Ena

ble

01

11

11

11

11

11

11

On/O

ffY

Y

P397

DC Bu

s Low

er Li

mit

032

767

700

700

950

950

900

900

1000

950

950

1000

1000

1000

VOn

/Off

YY

P398

DC Bu

s Upp

er Li

mit

032

767

800

800

1050

1050

1000

1000

1050

1050

1050

1050

1050

1050

VOn

/Off

YY

P399

Dece

lerat

ion Ti

me

1.032

76.7

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

400.0

sOn

/Off

YY

Y

P401

Acce

lerat

ion Ti

me

1.032

76.7

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

200.0

sOn

/Off

YY

Y

P402

Acce

lerat

ion Ra

mp T

rans

ition

Tim

e0.0

010

0.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

%On

/Off

Y

P403

Acce

lerat

ion Ti

me U

nit0.0

0.10.1

0.10.1

0.10.1

0.10.1

0.10.1

0.10.1

0.1On

/Off

Y

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P405

Dece

lerat

ion Ra

mp T

rans

ition

Tim

e0.0

010

0.00

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

%On

/Off

Y

P406

Dece

lerat

ion Ti

me U

nit0.0

0.10.1

0.10.1

0.10.1

0.10.1

0.10.1

0.10.1

0.1On

/Off

Y

P408

Flying

Star

t Com

pens

ation

Defe

r Res

tore

Vo

ltage

Spee

d Cur

rent

Thre

shold

20.00

399.9

925

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.0025

.00On

/Off

Y

P409

Ampli

ficat

ion Co

effic

ient O

f Erro

r Ter

ms

0.00

199.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

0On

/Off

Y

P410

Flying

Star

t Com

pens

ation

Curre

nt

Thre

shold

for F

ast C

ompe

nsat

ion

0.00

399.9

960

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.0060

.00On

/Off

Y

P411

Over

Spee

d Low

er Li

mit

Refer

ence

010

010

010

010

010

010

010

010

010

010

010

010

010

0On

/Off

Y

P412

Over

Spee

d Low

er Li

mit

Refer

ence

010

00

00

00

00

00

00

0On

/Off

Y

P413

Frequ

ency

Com

man

d Low

er Li

mit

-100

100

00

00

00

00

00

00

On/O

ffY

P414

Frequ

ency

Com

man

d Dea

dban

d Upp

er

Limit

010

010

1010

1010

1010

1010

1010

10Of

fline

Y

P415

Frequ

ency

Com

man

d Upp

er Li

mit

-100

100

100

100

100

100

100

100

100

100

100

100

100

100

On/O

ffY

P416

Flying

Star

t Mod

e0

30

00

00

00

00

00

0On

/Off

YY

P417

Flying

Star

t Mot

or Sp

eed S

earch

Tim

eout

010

0050

5050

5050

5050

5050

5050

50s

On/O

ffY

Y

P418

Acce

lerat

ion Ti

me 1

1.032

76.7

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

100.0

sOn

/Off

YY

P419

Acce

lerat

ion Fr

eque

ncy 1

075

1010

1010

1010

1010

1010

1010

On/O

ffY

Y

P420

Acce

lerat

ion Ti

me 2

1.032

76.7

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

sOn

/Off

YY

P421

Acce

lerat

ion Fr

eque

ncy 2

075

2020

2020

2020

2020

2020

2020

On/O

ffY

Y

P422

Acce

lerat

ion Ti

me 3

1.032

76.7

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

80.0

sOn

/Off

YY

P423

Acce

lerat

ion Fr

eque

ncy 3

075

3030

3030

3030

3030

3030

3030

On/O

ffY

Y

P424

Acce

lerat

ion Ti

me 4

1.032

76.7

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

150.0

sOn

/Off

YY

P425

Acce

lerat

ion Pr

oces

s Ena

ble0

10

00

00

00

00

00

0Of

fline

YY

P434

Dece

lerat

ion Iq

Thre

shold

510

025

2525

2525

2525

2525

2525

25%

On/O

ffY

P435

Dece

lerat

ion Co

ntro

l Fre

quen

cy Ra

nge

010

020

2020

2020

2020

2020

2020

20On

/Off

YY

P436

Curre

nt Li

mita

tion E

nabl

e0

11

11

11

11

11

11

1On

/Off

YY

P438

Curre

nt Li

mita

tion E

nable

Freq

uenc

y Ra

nge L

ower

Lim

it0

100

00

00

00

00

00

00

On/O

ffY

Y

P441

Curre

nt Li

mita

tion T

hres

hold

0.00

399.9

910

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

010

0.00

100.0

0On

/Off

YY

P442

Curre

nt Li

mita

tion H

eatin

g Tim

e0

1638

460

6060

6060

6060

6060

6060

60s

On/O

ffY

Y

P443

Curre

nt Li

mita

tion C

oolin

g Tim

e0

1638

454

054

054

054

054

054

054

054

054

054

054

054

0s

On/O

ffY

Y

P444

Curre

nt Li

mita

tion D

ecel

Ram

p Slop

e Ch

ange

0.00

399.9

912

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

0On

/Off

YY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P445

Curre

nt Li

mita

tion C

ycle

Load

Cont

rol

Enab

le0

10

00

00

00

00

00

0On

/Off

YY

P447

Mini

mum

Star

t Fre

quen

cy D

urin

g Tim

e0

13.65

00

00

00

00

000

00

sOf

fline

YY

P448

Mini

mum

Star

t Fre

quen

cy0

100

00

00

00

00

00

0%

Offli

neY

Y

P449

Low

Spee

d Volt

age C

ompe

nsat

ion

Durin

g Flu

x Buil

ding P

roce

ss0

32

22

22

22

22

22

2%

Offli

neY

Y

P451

Low

Spee

d Volt

age C

ompe

nsat

ion0

31

11

11

11

11

11

1%

Offli

neY

Y

P452

Low

Spee

d Volt

age C

ompe

nsat

ion

Frequ

ency

Thre

shold

010

020

2020

2020

2020

2020

2020

20On

/Off

YY

P453

V/F C

urve

05

55

55

55

55

55

55

Offli

neY

Y

P454

Flux T

ime

010

22

22

22

22

22

2s

Offli

neY

P455

Mod

ulat

ion In

dex

0.011

0.084

.087

.677

.385

.083

.887

.087

.081

.085

.083

.791

.089

.0On

/Off

YY

P456

Mot

or Vo

ltage

Upp

er Li

mit

0.00

110.0

84.0

87.6

77.3

85.0

83.8

87.0

87.0

81.0

85.0

83.7

91.0

89.0

On/O

ffY

Y

P457

Flying

Star

t Volt

age R

ecov

ery T

ime (

Low

Spee

d Reg

ion)

0.00

163.8

410

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.0010

.00s

On/O

ffY

Y

P458

Coef

ficien

t A0

100

4040

4040

4040

4040

4040

4040

Offli

neY

P459

Flying

Star

t Volt

age R

ecov

ery T

ime (

High

Sp

eed R

egion

)0.0

016

3.84

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

10.00

sOn

/Off

YY

P460

Rate

d Out

put F

requ

ency

075

5050

5050

5050

5050

5050

5050

Offli

neY

Y

P461

Resta

rt En

able

01

00

00

00

00

00

00

On/O

ffY

Y

P462

Fault

Rese

t Tim

eout

0.04

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

012

0.00

120.0

0s

On/O

ffY

P463

Flying

Star

t Low

/High

Spee

d Reg

ions

Boun

dary

010

016

1616

1616

1616

1616

1616

16%

On/O

ffY

Y

P465

Powe

r Cell

Faul

t Aut

o Res

et D

elay

010

44

44

44

44

44

44

sOn

/Off

Y

P466

Max

imum

Out

put F

requ

ency

075

5050

5050

5050

5050

5050

5050

Offli

neY

Y

P467

Over

Spee

d Ena

ble0

10

00

00

00

00

00

0Of

fline

YY

P470

Versi

on Co

mpa

tibilit

y Ena

ble

01

11

11

11

11

11

11

Offli

neY

P471

Fault

-To-B

ypas

s0

10

00

00

00

00

00

0Of

fline

YY

P472

Fault

-To-B

ypas

s Dela

y0

53

33

33

33

33

33

3On

/Off

YY

P473

Fault

-To-B

ypas

s Dela

y Whe

n Sta

rting

Th

e Mot

or0

6060

6060

6060

6060

6060

6060

60s

On/O

ffY

Y

P474

Fault

-To-B

ypas

s Mini

mum

Freq

uenc

y0

755

55

55

55

55

55

5Hz

Offli

neY

Y

P475

Owne

r #1 S

electi

on0

10

00

00

00

00

00

0On

/Off

YY

P476

Owne

r #2 S

electi

on2

238

88

88

88

88

88

8On

/Off

YY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



P477

Owne

r #3 S

electi

on18

2323

2323

2323

2323

2323

2323

23On

/Off

YY

P478

Loca

l/Rem

ote O

wner

Selec

tion

03

00

00

00

00

00

00

Offli

neY

Y

P479

Powe

r Disp

lay En

able

01

00

00

00

00

00

00

On/O

ffY

Y

P480

4-St

ep Va

riabl

e Spe

ed –

Spee

d10

7510

1010

1010

1010

1010

1010

10On

/Off

YY

P481

4-St

ep Va

riabl

e Spe

ed –

Spee

d20

7520

2020

2020

2020

2020

2020

20On

/Off

YY

P482

4-St

ep Va

riabl

e Spe

ed –

Spee

d30

7530

3030

3030

3030

3030

3030

30On

/Off

YY

P483

4-St

ep Va

riabl

e Spe

ed –

Spee

d40

7540

4040

4040

4040

4040

4040

40On

/Off

YY

P484

Bypa

ss M

ode S

electi

on0

40

00

00

00

00

00

0Of

fline

YY

P485

Whe

n Disc

onne

cted B

etwe

en D

CS an

d PL

C0

51

11

11

11

11

11

1On

/Off

YY

P486

PID

Cont

rol E

nable

01

00

00

00

00

00

00

Offli

neY

Y

P487

PID

Cont

rol P

ropo

rtion

al Ga

in0.0

0032

.767

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

On/O

ffY

Y

P488

PID

Cont

rol In

tegr

al Tim

e0.0

0032

.767

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

0.001

On/O

ffY

Y

P489

PID

Cont

rol D

iffer

entia

l Gain

0.000

32.76

70.0

010.0

010.0

010.0

010.0

010.0

010.0

010.0

010.0

010.0

010.0

010.0

01On

/Off

YY

P490

PID

Cont

rol D

iffer

entia

l Tim

e0.0

0032

.767

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

On/O

ffY

Y

P491

PID

Cont

rol F

eedb

ack L

ower

Lim

it0.0

0032

.767

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

0.000

Offli

neY

Y

P492

PID

Cont

rol F

eedb

ack U

pper

Lim

it0.0

0032

.767

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

Offli

neY

Y

P494

User

Ana

log Se

t-poin

t Swi

tch0

30

00

00

00

00

00

0On

/Off

YY

No.

Nam

eM

in.

Max

.De

faul

t Val

ues

Units

Mod

ify

Root

Acce

ss

2300

V24

00V

3000

V33

00V

4000

V41

60V

6000

V63

00V

6600

V69

00V

1000

0V11

000V

US

R



Alphabetical Index No. Parameter Name Page

A

P480 4-Step Variable Speed – Speed1 48




P419 Acceleration Frequency 1 130



P425 Acceleration Process Enable 131

P402 Acceleration Ramp Transition Time 60

P401 Acceleration Time 60

P418 Acceleration Time 1 130




P403 Acceleration Time Unit 60

P373 Actual Frequency HMI Display Address 58

P359 Actual Frequency HMI Display Decimal Part

57

P357 Actual Frequency HMI Display Filter Time

56

P358 Actual Frequency HMI Display Integer Part

57

P409 Amplification Coefficient Of Error Terms 61

P384 Amplitude At Fifth Point For 5 Point VF 69

P376 Amplitude At First Point For 5 Point VF 67

P382 Amplitude At Fourth Point For 5 Point VF 69

P378 Amplitude At Second Point For 5 Point VF

68

P380 Amplitude At Third Point For 5 Point VF 68

P333 Analog Output #1 Filter Time 84

P332 Analog Output #1 Memory Address 83

P334 Analog Output #1 Offset 84

P335 Analog Output #1 Scaling Factor 84













B

P484 Bypass Mode Selection 107

C

P458 Coefficient A 71

P296 Current Feedback Filter Time 99

P135 Current Limit Loop Kd 109

P134 Current Limit Loop Ki 108

P133 Current Limit Loop Kp 108

P443 Current Limitation Cooling Time 110

P445 Current Limitation Cycle Lode Control Enable

110

P444 Current Limitation Decel Ramp Slope Change

110

P436 Current Limitation Enable 109

P438 Current Limitation Enable Frequency Range Lower Limit

109

P442 Current Limitation Heating Time 110

P441 Current Limitation Threshold 109

P038 Current Stability Loop Enable 112

P072 Current Stability Loop Enable Delay 113

P039 Current Stability Loop Enable Frequency Range1 Upper limit

112


112

P034 Current Stability Loop Filter Time 111

P035 Current Stability Loop Frequency Range1 Output Scaling Factor

111


112


113

P037 Current Stability Loop Output Lower Limit

111

P036 Current Stability Loop Output Upper Limit

111

D

P397 DC Bus Lower Limit 134

P258 DC Bus Under Voltage Fault Delay 150

P254 DC Bus Under Voltage Fault Threshold 150

P275 DC Bus Under Voltage Warning Hysteresis Band

151

P274 DC Bus Under Voltage Warning Threshold

150

P398 DC Bus Upper Limit 134

No. Parameter Name Page



P267 DC Bus Voltage Deviation Fault Filter Time

150

P266 DC Bus Voltage Deviation Fault Threshold

150

P277 DC Link Voltage Sag Scaling At Rated Load

54

P396 Deceleration Control Enable 133

P435 Deceleration Control Frequency Range 134

P387 Deceleration Frequency 1 128



P434 Deceleration Iq Threshold 134

P385 Deceleration Process Enable 128

P405 Deceleration Ramp Transition Time 60

P399 Deceleration Time 59

P386 Deceleration Time 1 128




P406 Deceleration Time Unit 61

P270 Delayed Lockout Time of Stop Operation 64

P278 Derating Control Enable Threshold 98

P279 Derating Control Output Filter Time 98

P182 Derating Function Enable 95

P302 Digital Output #0 Bit Selection 76

P303 Digital Output #0 Delay 76

P301 Digital Output #0 Logic 76

P300 Digital Output #0 Memory Address 75






























P185 Drive Output Current Upper Limitation Per Cooling Fan Input Voltage Drop

96

P186 Drive Start Delay 91

E

P019 Encoder Resolution 51

F

P101 Fan Control Fan Feedback Delay 89

P102 Fan Control Fan Stop Delay 90

P117 Fan Control Filter Cabinet Fan Fault Trip Delay

90

P095 Fan Control Group #1 Fan Number 88




P099 Fan Control Main Cooling Fan Cycle Time 89

P094 Fan Control Mode 88

P100 Fan Control Redundant Fan Working Time

89

P106 Fan Control Transformer Cabinet Fan Quantity Upper Limit

90

P116 Fan Control TX Cabinet Fan Fault Trip Delay

90

P462 Fault Reset Timeout 125

P473 Fault-To-Bypass Delay When Starting Motor

108

P472 Fault-To-Bypass Delay 107

P474 Fault-To-Bypass Minimum Frequency, Zero through Rated Frequency

108

P471 Fault-To-Bypass 107

P298 Filter Time A For DC Bus Average Value 99

P299 Filter Time B For DC Bus Average Value 99

P211 Filter Time For Abnormal Output Voltage 142




P228 Filter Time For Ground Fault 145

P221 Filter Time For Output Over Voltage 144

P212 Filter Time For Output Short-Circuit 142

P232 Filter Time For Overspeed Fault (Lower Limit)

146

P231 Filter Time For Overspeed Fault (Upper Limit)

146

P272 Flux Control Compensation Gain 97

P273 Flux Control Regulation Control Enable 97

P268 Flux Control Signal Filter Time 97

P276 Flux Control-Lag Band Width 98

P271 Flux Delay 66

P454 Flux Time 70

P394 Flying Start Compensation Current Threshold

114

P410 Flying Start Compensation Current Threshold for Fast Compensation

115

P408 Flying Start Compensation Defer Restore Voltage Speed Current Threshold

115

P393 Flying Start Compensation Enable 114

P395 Flying Start Compensation Frequency Reduce Speed

115

P463 Flying Start Low/High Speed Regions Boundary

116

P416 Flying Start Mode 115

P417 Flying Start Motor Speed Search Timeout

116

P459 Flying Start Voltage Recovery Time (High Speed Region)

116

P457 Flying Start Voltage Recovery Time (Low Speed Region)

116

P187 Flying Start Voltage Threshold 114

P114 Flying Start-Current Comparison Delay For Motor Speed Search

113

P115 Flying Start-Current Threshold For Successful Motor Speed Search

114

P113 Flying Start-Initial Output Voltage 113

P383 Frequency At Fifth Point For 5 Point VF 69

P375 Frequency At First Point For 5 Point VF 67

P381 Frequency At Fourth Point For 5 Point VF 69

P377 Frequency At Second Point For 5 Point VF

68

P379 Frequency At Third Point For 5 Point VF 68

P414 Frequency Command Deadband Upper Limit

61

P413 Frequency Command Lower Limit 61

P415 Frequency Command Upper Limit 62

P251 Frequency Command-Low Frequency Region Boundary

63


P235 Frequency Deviation Warning Cancellation Threshold

147

P237 Frequency Deviation Warning Delay 148

P236 Frequency Deviation Warning Threshold 147

G

P227 Ground Fault Detection Scaling Correction Factor

145

P230 Ground Fault Trip Threshold 146

P256 Ground Fault Warning Cancellation Threshold

149

P229 Ground Fault Warning Threshold 146

H

P110 Heating Current Threshold 136

I

P200 Ia Motor Current Memory Address 73

P202 Ic Motor Current Memory Address 74

P250 Input Contactor/Circuit Breaker Close Delay

54

P073 Input Voltage Loss Filter Time 102

P295 Iq Filter Time For Slip Estimation 67

L

P195 Line CT Ratio 53

P196 Line CT Burden Resistor 53

P168 Line Current Filter Time 140

P177 Line Current Negative Sequence Fault Delay

141

P176 Line Current Negative Sequence Fault Threshold

141

P175 Line Current Negative Sequence Filter Time

141

P171 Line Current Phase A Scaling Factor 73

P172 Line Current Phase B Scaling Factor 73

P173 Line Current Phase C Scaling Factor 73

P174 Line Current Positive Sequence Filter Time

140

P161 Line Neutral Over Voltage Fault Delay 138

P160 Line Neutral Over Voltage Fault Threshold

138

P159 Line Neutral Over Voltage Warning Delay

138

P158 Line Neutral Over Voltage Warning Threshold

137

P155 Line Over Voltage Fault Delay 137

P154 Line Over Voltage Fault Threshold 136




P147 Line Rated Frequency 52

P146 Line Rated Voltage 52

P170 Line Short Circuit Fault Delay 140

P169 Line Short Circuit Fault Threshold 140

P157 Line Under Voltage Warning Delay 137

P156 Line Under Voltage Warning Threshold 137

P165 Line Voltage Negative Sequence Fault Delay

139

P164 Line Voltage Negative Sequence Fault Threshold

139

P163 Line Voltage Negative Sequence Filter Time

139

P166 Line Voltage Phaser Sequence Reverse Enable

139

P162 Line Voltage Positive Sequence Filter Time

138

P151 Line Voltage Uab Scaling Factor 72

P152 Line Voltage Ubc Scaling Factor 72

P153 Line Voltage Ung Scaling Factor 72

P047 Load Loss Control Differential Scaling 117

P045 Load Loss Control Enable 117

P053 Load Loss Control Exit Delay 119

P051 Load Loss Control Filter Time 118

P050 Load Loss Control Integral Time 118

P049 Load Loss Control Scaling Factor 118

P052 Load Loss Enable Current Threshold 118

P046 Load Loss Enable Frequency 117

P048 Load Loss Frequency Compensation Upper Limit

117

P478 Local/Remote Control Owner Selection 47

P451 Low Speed Voltage Compensation 70

P449 Low Speed Voltage Compensation During Flux Building Process

127

P452 Low Speed Voltage Compensation Frequency Threshold

70

P283 Low Voltage Ride Through Enable 100

P285 Low Voltage Ride Through Max Time Limit

101

P281 Low Voltage Ride Through Min Time Interval

100

P284 Low Voltage Ride Through Min Time Limit

101

P282 Low Voltage Ride Through Min Frequency Limit

100

P289 Low Voltage Ride Through Motor Speed Estimation Filter Time

102

P286 Low Voltage Ride Through Recovery Frequency Compensation Factor

101

P287 Low Voltage Ride Through Recovery Time

101


P280 Low Voltage Ride Through Recovery Voltage Boost Coefficient

100

P288 Low Voltage Ride Through System Delay Correction Factor

102

M

P466 Maximum Output Frequency 62

P448 Minimum Start Frequency 127

P447 Minimum Start Frequency During Time 127

P455 Modulation Index 71

P125 Motor Autotune Current Id Ki 120

P124 Motor Autotune Current Id Kp 120

P127 Motor Autotune Current Iq Ki 121

P126 Motor Autotune Current Iq Kp 120

P122 Motor Autotune Delay 119

P123 Motor Autotune Filter Time 120

P128 Motor Autotune Id Feedback Error Valid 121

P130 Motor Autotune Id Reference 121

P131 Motor Autotune Iq Reference 122

P129 Motor Autotune Lr/Lm 121

P179 Motor Autotune Maximum Iq For No Load

124

P178 Motor Autotune Rs Upper Limit 124

P136 Motor Autotune Rs/Rr 122

P121 Motor Autotune Selection 119

P132 Motor Autotune Time Limit 122

P253 Motor Coast Stop Time 63

P374 Motor Current HMI Display Address 59

P362 Motor Current HMI Display Decimal Part 58

P360 Motor Current HMI Display Filter Time 57

P361 Motor Current HMI Display Integer Part 57

P198 Motor HECS Burden Resistor 53

P197 Motor HECS Ratio 53

P201 Motor Ia Scaling Factor 74

P203 Motor Ic Scaling Factor 74

P252 Motor In Stopping Condition Threshold 63

P139 Motor Magnetizing Current Id 123

P141 Motor Magnetizing Inductance Lm 123

P214 Motor Minimum Overload Current 143

P108 Motor Overload Current Offset 136

P215 Motor Overload Cycle Time 143

P217 Motor Overload Time 144

P137 Motor Rated Current 122





P013 Motor Rated Power 50

P015 Motor Rated Power Factor 51

P014 Motor Rated Speed 50

P012 Motor Rated Voltage 50

P009 Motor Rotation Direction Command Selection

64

P008 Motor Rotation Direction Under Local Control

64

P143 Motor Rotor Leakage Inductance Llr 124

P140 Motor Rotor Resistance Rr 123

P239 Motor Stall Fault Delay 148

P238 Motor Stall Fault Threshold 148

P257 Motor Stall Warning Cancellation Threshold

149

P142 Motor Stator Leakage Inductance LIs 124

P138 Motor Stator Resistance Rs 123

P204 Motor Uab Voltage Address 74

P205 Motor Uab Voltage Scaling Factor 75

P206 Motor Uac Voltage Scaling Factor 75

P372 Motor Voltage HMI Display Address 58

P356 Motor Voltage HMI Display Decimal Part 56

P354 Motor Voltage HMI Display Filter Time 56

P355 Motor Voltage HMI Display Integer Part 56

P456 Motor Voltage Upper Limit 71

P216 Motor Overload Trip Threshold 143

N

P017 Number of Motor Pole Pairs 51

P007 Number of Power Cells Per Phase 49

O

P068 One Phase Lost Filter Time 106

P222 Output Over Voltage Fault Threshold 144

P213 Output Short-Circuit Fault Threshold 143

P226 Output Voltage Abnormality Warning Cancellation Threshold

145

P224 Output Voltage Deviation Fault Threshold

145

P223 Output Voltage Deviation Warning Threshold

144

P467 Over Speed Enable 62

P412 Over Speed Lower Limit Reference 151

P411 Over Speed Upper Limit Reference 151

P475 Owner #1 Selection 46




P

P208 Phase Over Current Enable Frequency Range Upper limit

141

P209 Phase Over Current Filter Time 142

P210 Phase Over Current Threshold 142

P489 PID Control Differential Gain 132

P490 PID Control Differential Time 133

P486 PID Control Enable 132

P491 PID Control Feedback Lower Limit 133

P492 PID Control Feedback Upper Limit 133

P488 PID Control Integral Time 132

P487 PID Control Proportional Gain 132

P042 Power Cell Bypass Delay After Power Cell Bypassed

103

P041 Power Cell Bypass Enable 103

P065 Power Cell Bypass Enable Frequency Range Lower limit

105

P061 Power Cell Bypass Fault Simulation 105

P044 Power Cell Bypass Fault Simulation Power Cell Count

104

P058 Power Cell Bypass Phase A Cell Number For Simulation

104

P059 Power Cell Bypass Phase B Cell Number For Simulation

105

P060 Power Cell Bypass Phase C Cell Number For Simulation

105

P066 Power Cell Bypass Restart Enable After Power Cell Bypassed

106

P043 Power Cell Bypass Upper Limit For Bypassed Feedback Time

104

P057 Power Cell Bypass Upper Limit Time For Over Temperature

104

P011 Power Cell DC Bus Rated Voltage 50

P465 Power Cell Fault Auto Reset Delay 125

P078 Power Cell Reactivation Time Upper Limit

106

P479 Power Display Enable 59

P264 Power Loss Allowable Time 103

P263 Power Loss Restart Enable 102

P265 Power Loss Time Max Limit 103

P030 Powercell Fault Trip Signal Mask Register 93

P105 Pre-charge DC Bus Threshold 92

P103 Pre-charge Enable 91

P104 Pre-charge Feedback Delay 91

P118 Pre-charge Max Time 92

P119 Pre-charge Min Repeat Interval 92

P120 Pre-charge Primary Voltage Threshold 92




P181 Pre-charge Resistor Short Circuit Fault Delay

93

P180 Pre-charge Resistor Short Circuit Fault Threshold

93

R

P371 Rated Frequency HMI Display Address 58

P353 Rated Frequency HMI Display Decimal Part

55

P351 Rated Frequency HMI Display Filter Time 55

P352 Rated Frequency HMI Display Integer Part

55

P460 Rated Output Frequency 62

P461 Restart Enable 125

S

P040 Safe Start Condition 54

P090 Skip Frequency 1 Lower Limit 126

P091 Skip Frequency 1 Upper Limit 126



P089 Skip Frequency Enable 126

P111 Slip Compensation Enable 65

P024 Stop Method 63

P293 SVC Flux Voltage Boost Coefficient 66

P294 SVC Flux Voltage Boost Upper Frequency 67

P292 SVC Low Frequency Acceleration Time 66

P291 SVC Low Frequency Acceleration Time Enable Frequency Range Upper Limit

66

P088 Switch Frequency Setting 65

P087 Switch Frequency Setting Enable Code 65

P269 System Derating Control Signal Filter Time

97

P145 System Fault B Trip Signal Mask 94

P031 System Fault Trip Signal Mask 94

T

P233 Threshold Of Over-Speed Fault At Lower Frequency Limit

147

P234 Threshold Of Over-Speed Fault At Upper Frequency Limit

147

P240 Transformer Over Temperature Fault Delay

148

P241 Transformer Over Temperature Warning Delay

149

P148 Transformer Rated Power 52

P149 Transformer Short Circuit Impedance 52


U

P494 User Analog Set-point Switch 55

V

P453 V/F Curve 70

P470 Version Compatibility Enable 87

P079 VFD Minimum Overload Current 135

P107 VFD Overload Current Offset 136

P082 VFD Overload Cycle Time 135

P081 VFD Overload Time 135

P085 VFD Rated Current 51

P080 VFD Overload Current 135

P297 Voltage Feedback Filter Time 99

P290 Voltage Loop Enable 98

P183 Voltage Lower Threshold For Drive Derating Per Cooling Fan Input Voltage Drop

96

P184 Voltage Upper Threshold For Drive Derating Per Cooling Fan Input Voltage Drop

96

W

P485 When Disconnected Between DCS and PLC

49




Linear Number Index No. Parameter Name Page

P007 Number of Power Cells Per Phase 49

P008 Motor Rotation Direction Under Local Control

64

P009 Motor Rotation Direction Command Selection

64

P011 Power Cell DC Bus Rated Voltage 50

P012 Motor Rated Voltage 50

P013 Motor Rated Power 50

P014 Motor Rated Speed 50

P015 Motor Rated Power Factor 51

P017 Number of Motor Pole Pairs 51

P019 Encoder Resolution 51

P024 Stop Method 63

P030 Powercell Fault Trip Signal Mask 93

P031 System Fault Trip Signal Mask 94

P034 Current Stability Loop Filter Time 111


111

P036 Current Stability Loop Output Upper Limit

111

P037 Current Stability Loop Output Lower Limit

111

P038 Current Stability Loop Enable 112


112

P040 Safe Start Condition 54

P041 Power Cell Bypass Enable 103

P042 Power Cell Bypass Delay After Power Cell Bypassed

103

P043 Power Cell Bypass Upper Limit For Bypassed Feedback Time

104

P044 Power Cell Bypass Fault Simulation Power Cell Count

104

P045 Load Loss Control Enable 117

P046 Load Loss Enable Frequency 117

P047 Load Loss Control Differential Scaling 117

P048 Load Loss Frequency Compensation Upper Limit

117

P049 Load Loss Control Scaling Factor 118

P050 Load Loss Control Integral Time 118

P051 Load Loss Control Filter Time 118

P052 Load Loss Enable Current Threshold 118

P053 Load Loss Control Exit Delay 119

P057 Power Cell Bypass Upper Limit Time For Over Temperature

104

P058 Power Cell Bypass Phase A Cell Number For Simulation

104

P059 Power Cell Bypass Phase B Cell Number For Simulation

105

P060 Power Cell Bypass Phase C Cell Number For Simulation

105

P061 Power Cell Bypass Fault Simulation 105

P065 Power Cell Bypass Enable Frequency Range Lower limit

105

P066 Power Cell Bypass Restart Enable After Power Cell Bypassed

106

P068 One Phase Lost Filter Time 106

P069 Current Stability Loop Enable Frequency Range2 Upper Limit

112


112


113

P072 Current Stability Loop Enable Delay 113

P073 Input Voltage Loss Filter Time 102

P078 Power Cell Reactivation Time Upper Limit

106

P079 VFD Minimum Overload Current 135

P080 VFD Overload Current 135

P081 VFD Overload Time 135

P082 VFD Overload Cycle Time 135

P085 VFD Rated Current 51

P087 Switch Frequency Setting Enable Code 65

P088 Switch Frequency Setting 65

P089 Skip Frequency Enable 126





P094 Fan Control Mode 88





P099 Fan Control Main Cooling Fan Cycle Time 89

P100 Fan Control Redundant Fan Working Time

89

P101 Fan Control Fan Feedback Delay 89

P102 Fan Control Fan Stop Delay 90

P103 Pre-charge Enable 91

P104 Pre-charge Feedback Delay 91

P105 Pre-charge DC Bus Threshold 92

P106 Fan Control Transformer Cabinet Fan Quantity Upper Limit

90

P107 VFD Overload Current Offset 136

P108 Motor Overload Current Offset 136




P110 Heating Current Threshold 136

P111 Slip Compensation Enable 65

P113 Flying Start-Initial Output Voltage 113

P114 Flying Start-Current Comparison Delay For Motor Speed Search

113

P115 Flying Start-Current Threshold For Successful Motor Speed Search

114

P116 Fan Control TX Cabinet Fan Fault Trip Delay

90

P117 Fan Control Filter Cabinet Fan Fault Trip Delay

90

P118 Pre-charge Max Time 92

P119 Pre-charge Min Repeat Interval 92

P120 Pre-charge Primary Voltage Threshold 92

P121 Motor Autotune Selection 119

P122 Motor Autotune Delay 119

P123 Motor Autotune Filter Time 120

P124 Motor Autotune Current Id Kp 120

P125 Motor Autotune Current Id Ki 120

P126 Motor Autotune Current Iq Kp 120

P127 Motor Autotune Current Iq Ki 121

P128 Motor Autotune Id Feedback Error Valid 121

P129 Motor Autotune Lr/Lm 121

P130 Motor Autotune Id Reference 121

P131 Motor Autotune Iq Reference 122

P132 Motor Autotune Time Limit 122

P133 Current Limit Loop Kp 108

P134 Current Limit Loop Ki 108

P135 Current Limit Loop Kd 109

P136 Motor Autotune Rs/Rr 122


P138 Motor Stator Resistance Rs 123

P139 Motor Magnetizing Current Id 123

P140 Motor Rotor Resistance Rr 123

P141 Motor Magnetizing Inductance Lm 123

P142 Motor Stator Leakage Inductance LIs 124

P143 Motor Rotor Leakage Inductance Llr 124

P145 System Fault B Trip Signal Mask 94

P146 Line Rated Voltage 52

P147 Line Rated Frequency 52

P148 Transformer Rated Power 52

P149 Transformer Short Circuit Impedance 52

P151 Line Voltage Uab Scaling Factor 72

P152 Line Voltage Ubc Scaling Factor 72

P153 Line Voltage Ung Scaling Factor 72


P154 Line Over Voltage Fault Threshold 136

P155 Line Over Voltage Fault Delay 137

P156 Line Under Voltage Warning Threshold 137

P157 Line Under Voltage Warning Delay 137

P158 Line Neutral Over Voltage Warning Threshold

137

P159 Line Neutral Over Voltage Warning Delay

138

P160 Line Neutral Over Voltage Fault Threshold

138

P161 Line Neutral Over Voltage Fault Delay 138

P162 Line Voltage Positive Sequence Filter Time

138

P163 Line Voltage Negative Sequence Filter Time

139

P164 Line Voltage Negative Sequence Fault Threshold

139

P165 Line Voltage Negative Sequence Fault Delay

139

P166 Line Voltage Phaser Sequence Reverse Enable

139

P168 Line Current Filter Time 140

P169 Line Short Circuit Fault Threshold 140

P170 Line Short Circuit Fault Delay 140

P171 Line Current Phase A Scaling Factor 73

P172 Line Current Phase B Scaling Factor 73

P173 Line Current Phase C Scaling Factor 73

P174 Line Current Positive Sequence Filter Time

140

P175 Line Current Negative Sequence Filter Time

141

P176 Line Current Negative Sequence Fault Threshold

141

P177 Line Current Negative Sequence Fault Delay

141

P178 Motor Autotune Rs Upper Limit 124

P179 Motor Autotune Maximum Iq For No Load

124

P180 Pre-charge Resistor Short Circuit Fault Threshold

93

P181 Pre-charge Resistor Short Circuit Fault Delay

93

P182 Derating Function Enable 95

P183 Voltage Lower Threshold For Drive Derating Per Cooling Fan Input Voltage Drop

96

P184 Voltage Upper Threshold For Drive Derating Per Cooling Fan Input Voltage Drop

96

P185 Drive Output Current Upper Limitation Per Cooling Fan Input Voltage Drop

96

P186 Drive Start Delay 91




P187 Flying Start Voltage Threshold 114

P195 Line CT Ratio 53

P196 Line CT Burden Resistor 53

P197 Motor HECS Ratio 53

P198 Motor HECS Burden Resistor 53


P200 Ia Motor Current Memory Address 73

P201 Motor Ia Scaling Factor 74

P202 Ic Motor Current Memory Address 74

P203 Motor Ic Scaling Factor 74

P204 Motor Uab Voltage Address 74

P205 Motor Uab Voltage Scaling Factor 75

P206 Motor Uac Voltage Scaling Factor 75

P208 Phase Over Current Enable Frequency Range Upper limit

141

P209 Phase Over Current Filter Time 142

P210 Phase Over Current Threshold 142

P211 Filter Time For Abnormal Output Voltage 142

P212 Filter Time For Output Short-Circuit 142

P213 Output Short-Circuit Fault Threshold 143

P214 Motor Minimum Overload Current 143

P215 Motor Overload Cycle Time 143

P216 Motor Overload Trip Threshold 143

P217 Motor Overload Time 144

P221 Filter Time For Output Over Voltage 144

P222 Output Over Voltage Fault Threshold 144

P223 Output Voltage Deviation Warning Threshold

144

P224 Output Voltage Deviation Fault Threshold

145

P226 Output Voltage Abnormality Warning Cancellation Threshold

145

P227 Ground Fault Detection Scaling Correction Factor

145

P228 Filter Time For Ground Fault 145

P229 Ground Fault Warning Threshold 146

P230 Ground Fault Trip Threshold 146

P231 Filter Time For Overspeed Fault (Upper Limit)

146

P232 Filter Time For Overspeed Fault (Lower Limit)

146

P233 Threshold Of Over-Speed Fault At Lower Frequency Limit

147

P234 Threshold Of Over-Speed Fault At Upper Frequency Limit

147

P235 Frequency Deviation Warning Cancellation Threshold

147

P236 Frequency Deviation Warning Threshold 147


P237 Frequency Deviation Warning Delay 148

P238 Motor Stall Fault Threshold 148

P239 Motor Stall Fault Delay 148

P240 Transformer Over Temperature Fault Delay

148

P241 Transformer Over Temperature Warning Delay

149

P250 Input Contactor/Circuit Breaker Close Delay

54

P251 Frequency Command-Low Frequency Region Boundary

63

P252 Motor In Stopping Condition Threshold 63

P253 Motor Coast Stop Time 63

P254 DC Bus Under Voltage Fault Threshold 150

P256 Ground Fault Warning Cancellation Threshold

149

P257 Motor Stall Warning Cancellation Threshold

149

P258 DC Bus Under Voltage Fault Delay 150

P263 Power Loss Restart Enable 102

P264 Power Loss Allowable Time 103

P265 Power Loss Time Max Limit 103

P266 DC Bus Voltage Deviation Fault Threshold

150

P267 DC Bus Voltage Deviation Fault Filter Time

150

P268 Flux Control Signal Filter Time 97

P269 System Derating Control Signal Filter Time

97

P270 Delayed Lockout Time of Stop Operation 64

P271 Flux Delay 66

P272 Flux Control Compensation Gain 97

P273 Flux Control Regulation Control Enable 97

P274 DC Bus Under Voltage Warning Threshold

150

P275 DC Bus Under Voltage Warning Hysteresis Band

151

P276 Flux Control-Lag Band Width 98

P277 DC Link Voltage Sag Scaling At Rated Load

54

P278 Derating Control Enable Threshold 98

P279 Derating Control Output Filter Time 98

P280 Low Voltage Ride Through Recovery Voltage Boost Coefficient

100

P281 Low Voltage Ride Through Min Time Interval

100

P282 Low Voltage Ride Through Min Frequency Limit

100

P283 Low Voltage Ride Through Enable 100




P284 Low Voltage Ride Through Min Time Limit

101

P285 Low Voltage Ride Through Max Time Limit

101

P286 Low Voltage Ride Through Recovery Frequency Compensation Factor

101

P287 Low Voltage Ride Through Recovery Time

101

P288 Low Voltage Ride Through System Delay Correction Factor

102

P289 Low Voltage Ride Through Motor Speed Estimation Filter Time

102

P290 Voltage Loop Enable 98

P291 SVC Low Frequency Acceleration Time Enable Frequency Range Upper Limit

66

P292 SVC Low Frequency Acceleration Time 66

P293 SVC Flux Voltage Boost Coefficient 66

P294 SVC Flux Voltage Boost Upper Frequency 67

P295 Iq Filter Time For Slip Estimation 67

P296 Current Feedback Filter Time 99

P297 Voltage Feedback Filter Time 99

P298 Filter Time A For DC Bus Average Value 99

P299 Filter Time B For DC Bus Average Value 99


















































P351 Rated Frequency HMI Display Filter Time 55

P352 Rated Frequency HMI Display Integer Part

55

P353 Rated Frequency HMI Display Decimal Part

55

P354 Motor Voltage HMI Display Filter Time 56

P355 Motor Voltage HMI Display Integer Part 56

P356 Motor Voltage HMI Display Decimal Part 56

P357 Actual Frequency HMI Display Filter Time

56

P358 Actual Frequency HMI Display Integer Part

57

P359 Actual Frequency HMI Display Decimal Part

57

P360 Motor Current HMI Display Filter Time 57

P361 Motor Current HMI Display Integer Part 57

P362 Motor Current HMI Display Decimal Part 58

P371 Rated Frequency HMI Display Address 58

P372 Motor Voltage HMI Display Address 58

P373 Actual Frequency HMI Display Address 58




P374 Motor Current HMI Display Address 59

P375 Frequency At First Point For 5 Point VF 67

P376 Amplitude At First Point For 5 Point VF 67

P377 Frequency At Second Point For 5 Point VF

68

P378 Amplitude At Second Point For 5 Point VF

68

P379 Frequency At Third Point For 5 Point VF 68

P380 Amplitude At Third Point For 5 Point VF 68

P381 Frequency At Fourth Point For 5 Point VF 69

P382 Amplitude At Fourth Point For 5 Point VF 69

P383 Frequency At Fifth Point For 5 Point VF 69

P384 Amplitude At Fifth Point For 5 Point VF 69

P385 Deceleration Process Enable 128








P393 Flying Start Compensation Enable 114

P394 Flying Start Compensation Current Threshold

114

P395 Flying Start Compensation Frequency Reduce Speed

115

P396 Deceleration Control Enable 133

P397 DC Bus Lower Limit 134

P398 DC Bus Upper Limit 134

P399 Deceleration Time 59

P401 Acceleration Time 60

P402 Acceleration Ramp Transition Time 60

P403 Acceleration Time Unit 60

P405 Deceleration Ramp Transition Time 60

P406 Deceleration Time Unit 61

P408 Flying Start Compensation Defer Restore Voltage Speed Current Threshold

115

P409 Amplification Coefficient Of Error Terms 61

P410 Flying Start Compensation Current Threshold for Fast Compensation

115

P411 Over Speed Upper Limit Reference 151

P412 Over Speed Lower Limit Reference 151

P413 Frequency Command Lower Limit 61

P414 Frequency Command Deadband Upper Limit

61

P415 Frequency Command Upper Limit 62


P416 Flying Start Mode 115

P417 Flying Start Motor Speed Search Timeout

116








P425 Acceleration Process Enable 131

P434 Deceleration Iq Threshold 134

P435 Deceleration Control Frequency Range 134

P436 Current Limitation Enable 109

P438 Current Limitation Enable Frequency Range Lower Limit

109

P441 Current Limitation Threshold 109

P442 Current Limitation Heating Time 110

P443 Current Limitation Cooling Time 110

P444 Current Limitation Decel Ramp Slope Change

110

P445 Current Limitation Cycle Load Control Enable

110

P447 Minimum Start Frequency During Time 127

P448 Minimum Start Frequency 127

P449 Low Speed Voltage Compensation During Flux Building Process

127

P451 Low Speed Voltage Compensation 70

P452 Low Speed Voltage Compensation Frequency Threshold

70

P453 V/F Curve 70

P454 Flux Time 70

P455 Modulation Index 71

P456 Motor Voltage Upper Limit 71

P457 Flying Start Voltage Recovery Time (Low Speed Region)

116

P458 Coefficient A 71

P459 Flying Start Voltage Recovery Time (High Speed Region)

116

P460 Rated Output Frequency 62

P461 Restart Enable 125

P462 Fault Reset Timeout 125

P463 Flying Start Low/High Speed Regions Boundary

116

P465 Power Cell Fault Auto Reset Delay 125

P466 Maximum Output Frequency 62

P467 Over Speed Enable 62




P470 Version Compatibility Enable 87

P471 Fault-To-Bypass 107

P472 Fault-To-Bypass Delay 107

P473 Fault-To-Bypass Delay When Starting Motor

108

P474 Fault-To-Bypass Minimum Frequency, Zero through Rated Frequency

108




P478 Local/Remote Control Owner Selection 47

P479 Power Display Enable 59





P484 Bypass Mode Selection 107

P485 When Disconnected Between DCS and PLC

49

P486 PID Control Enable 132

P487 PID Control Proportional Gain 132

P488 PID Control Integral Time 132

P489 PID Control Differential Gain 132

P490 PID Control Differential Time 133

P491 PID Control Feedback Lower Limit 133

P492 PID Control Feedback Upper Limit 133

P494 User Analog Set-point Switch 55




Notes:


Chapter 3

Fault Messages

Overview All faults, warnings, or messages displayed on the operator interface should be thoroughly documented by the user prior to resetting those messages. This will assist maintenance personnel in correcting problems and ensuring they do not recur. There are three types of faults – system faults, logic faults, and power cell faults.

Fault Messages System Faults

ATTENTION: Investigate all faults before resetting the drive.

Resetting the drive into a fault condition that has been unresolved can propagate the faults and cause an increased level of damage to the equipment.

No. System Fault Message Description Recommended Action(s)

1 Motor Over Current 2 The output current on the motor side, measured through the current sensor in the power cell cabinet, has exceeded the Output Short-Circuit Fault Threshold (P213) for the duration set in Filter Time for Output Short-Circuit (P212).

• Verify the sensor in the cabinet.• Check parameter Output Short-Circuit Fault Threshold

(P213) is set correctly.• Check the hardware on the AT board.• Transient loading, verify the load in the field.• Check parameters Motor HECS Ratio (P197) and Motor

HECS Burden Resistor (P198) are set correctly.• Check internal motor for failure.

2 Motor Over Current 1 A motor over load has been detected. The output over current condition is calculated using the A, C phase stator current and algorithm based on the over current trip (Motor Overload Trip Threshold (P216) and Motor Minimum Overload Current (P214)) and the delay set in Motor Overload Cycle Time (P215).

• Verify the sensor in the cabinet.• Check parameters Motor Minimum Overload Current

(P214) and Motor Overload Trip Threshold (P216) are set correctly.

• Check the hardware on the AT board.• Overloading, verify the load in the field.• Check parameters Motor HECS Ratio (P197) and Motor

HECS Burden Resistor (P198) are set correctly.• Check internal motor for failure.

3 Fan Failure in Fan Group #1 The drive has tripped because the fans in transformer cabinet 1 are in abnormal status for the duration set in Fan Control TX Cabinet Fan Fault Trip Delay (P116). In non-redundant fan mode (Fan Control Mode (P094) = 0), there are one or more fans with abnormal status. In redundant fan mode (Fan Control Mode (P094) = 1 or 2), there are two or more fans with abnormal status.

• Check Fan Control Redundant Fan Working Time (P101) and set a greater value.

• Check Fan Control Group #1 Fan Number (P095) and verify the number of fans.

• Check operation of fans in transformer cabinet 1.• Check the status of the fan feedback relay and

command execution relay. Both status should be identical.

4 Output Over Voltage The voltage on the motor side, measured through the VSB, has exceeded the Output Over Voltage Fault Threshold (P222) for the duration set in Filter Time for Output Over Voltage (P221).

• Check parameters Output Over Voltage Fault Threshold (P222) and Filter Time for Output Over Voltage (P221) are set correctly.

• Verify the VSB, resistor, and wire are not damaged.• Check hardware on the AT board.• Check terminals (P5-1, P5-5, and P5-6) on the control

box.


Chapter 3 Fault Messages

5 Abnormal Output Voltage The voltage on the motor side, measured through the VSB, is different from the rated voltage at some frequency point.If the difference has exceeded the Over Voltage Deviation Fault Threshold (P224) for the duration set in Filter Time for Abnormal Output Voltage (P211), this fault will be reported over 20% rated frequency.

• Check parameters Output Voltage Deviation Fault Threshold (P224) and Filter Time For Output Over Voltage (P221) are set correctly.

• Verify the VSB, resistor, and wire are not damaged.• Check hardware on the AT board.• Check PWM board is working normally.• Check terminals on the control box.

6 Ground Fault The drive has detected a ground fault. The voltage between neutral and ground is measured through the VSB.This fault occurs if the voltage has exceeded the Ground Fault Trip Threshold (P230) for the duration set in Filter Time for Ground Fault (P228). When the voltage is less than the threshold set in Ground Fault Warning Cancellation Threshold (P256), this fault disappears.

• Check parameters Ground Fault Trip Threshold (P230) and Filter Time for Ground Fault (P228) are set correctly.

• Verify the VSB, resistor, and wire are not damaged.• Check hardware on the AT board.• Verify output cable grounding.• Verify motor stator winding grounding.• Perform the ground insulation test.

7 Over Speed Fault This fault is reserved.

8 Motor Stalled The drive cannot detect the motor speed. The fault condition is calculated using frequency.This fault occurs when the absolute deviation between the system output frequency and output absolute frequency has exceeded the Motor Stalled Fault Threshold (P238) for the duration set in Motor Stall Fault Delay (P239).

• Verify if load exceeds motor torque.• Check parameters Motor Stalled Fault Threshold (P238)

and Motor Stall Fault Delay (P239) are set correctly.

9 Output Phase Over Current The output current on the motor side is measured through the current sensor in the power cell cabinet.This fault occurs when the phase current has exceeded Phase Over Current Threshold (P210) for the duration set in Phase Over Current Filter Time (P209) with the frequency lower than Phase Over Current Enable Frequency Range Upper limit (P208).

• Check the motor side (excluding the motor) for issues.• Check parameters Phase Over Current Threshold (P210)

and Phase Over Current Filter Time (P209) are set correctly.

• Check parameter Low Speed Voltage Compensation (P451) is set based on the motor. If it was not, the output current should be higher.

• Check drive for output phase loss.• Check hardware on the AT board.

10 VFD Over Current 1 The drive has detected an over load fault. The VFD over current condition is calculated using the A, C phase stator current, transfer the stator current to VFD current, and the algorithm based on the over current trip (Heating Current Threshold (P110) and VFD Overload Current (P080)) and the delay set in VFD Overload Time (P081).

• Verify the sensor in the cabinet is working.• Check parameters Heating Current Threshold (P110),

VFD Rated Current (P085), Motor Rated Current (P199), and VFD Overload Current (P080) are set correctly.

• Check hardware on the AT board.• Overloading, verify the load in the field.• Check internal motor for failure.

11 Fan Failure in Fan Group #2 The drive has tripped because the fans in transformer cabinet 2 are in abnormal status for the duration set in Fan Control TX Cabinet Fan Fault Trip Delay (P116). In non-redundant fan mode (Fan Control Mode (P094) = 0), there are one or more fans with abnormal status. In redundant fan mode (Fan Control Mode (P094) = 1 or 2), there are two or more fans with abnormal status.

• Check parameter Fan Control Redundant Fan Working Time (P101) and set a greater value.

• Check parameter Fan Control Group #2 Fan Number (P096) and verify the number of fans.

• Check operation of fans in transformer cabinet 2.• Check the status of the fan feedback relay and


12 Pre-charge Contactor Failure This fault occurs if the status of the pre-charge contactor is changed within the duration set in Pre-charge Feedback Delay (P104).

• Check parameter Pre-charge Feedback Delay (P104) is set correctly. There should be sufficient time for the pre-charge contactor to execute the command and the feedback signal to be sent to the control box.

• Check if the pre-charge contactor is available.• Check the status of the pre-charge contactor indicator

light and the light on the DT board. Both status should be identical.

13 Pre-charge Timeout The pre-charge duration has exceeded Pre-charge Max Time (P118). • Check parameter Pre-charge Max Time (P118) is set correctly.

• Check pre-charge resistor and capacitor of power cell.• Check line side voltage feedback.

14 Pre-charge Repeat Interval Low The pre-charge repeat interval is less than Pre-charge Min Repeat Interval (P119).

• Check parameter Pre-charge Min Repeat Interval (P119) is set correctly.

• Check if operator performed the pre-charge interval earlier than Pre-charge Min Repeat Interval (P119).



Fault Messages Chapter 3

15 Line Over Voltage The line voltage has exceeded Line Over Voltage Fault Threshold (P154) for the duration set in Line Over Voltage Fault Delay (P155).

• Check parameters Line Over Voltage Fault Threshold (P154) and Line Over Voltage Fault Delay (P155) are set correctly.

• Check hardware on the VSB board.• Check user side medium voltage input.• Check hardware on the AT board.

16 Line Neutral Over Voltage The line neutral voltage has exceeded Line Neutral Over Voltage Fault Threshold (P160) for the duration set in Line Neutral Over Voltage Fault Delay (P161).This fault means one or more phase connections on the line side are connected to ground.

• Check connection on the line side.• Check parameters Line Neutral Over Voltage Fault

Threshold (P160) and Line Neutral Over Voltage Fault Delay (P161) are set correctly.

• Check hardware on the VSB board.• Check user side medium voltage input.• Check hardware on the AT board.• Perform the ground insulation test.

17 Line Short Circuit The line current has exceeded Line Short Circuit Fault Threshold (P169) for the duration set in Line Short Circuit Fault Delay (P170).This fault means there is a short circuit on the line side.

• Check connection on the line side.• Check parameters Line Short Circuit Fault Threshold

(P169) and Line Short Circuit Fault Delay (P170) are set correctly.

• Check hardware on the VSB board.• Check user side medium voltage input.• Check hardware on the AT board.

18 Line Voltage Unbalance The negative sequence voltage on the line has exceeded Line Voltage Negative Sequence Fault Threshold (P164) for the duration set in Line Voltage Negative Sequence Fault Delay (P165).This fault means there is line voltage unbalance.

• Check hardware on the VSB board.• Check connection on the line side.• Check parameters Line Voltage Negative Sequence

Fault Threshold (P164) and Line Voltage Negative Sequence Fault Delay (P165) are set correctly.

• Check user side medium voltage input.• Check hardware on the AT board.• If the above actions do not resolve the fault, change

Line Voltage Phaser Sequence Reverse Enable (P166).

19 Line Side VSB Feedback Loss The line voltage is less than 5% of rated voltage and the medium voltage switch is already closed.This fault means there is no line VSB feedback voltage.

• Check connection on the line side.• Check hardware on the VSB board.• Check user side medium voltage input.

20 Fan Failure in Fan Group #4 The drive has tripped because the fans in the filter cabinet are in abnormal status for the duration set in Fan Control Filter Cabinet Fan Fault Trip Delay (P117). In non-redundant fan mode (Fan Control Mode (P094) = 0), there are one or more fans with abnormal status. In redundant fan mode (Fan Control Mode (P094) = 1 or 2), there are two or more fans with abnormal status.

• Check parameter Fan Control Redundant Fan Working Time (P101) and set a greater value.

• Check parameter Fan Control Group #4 Fan Number (P098) and verify the number of fans.

• Check operation of fans in the filter cabinet.• Check the status of the fan feedback relay and


21 Pre-charge Resistor Short Circuit The line voltage is less than Pre-charge Resistor Short Circuit Fault Threshold (P180) of rated voltage within the duration set in Input Contactor/Circuit Breaker Close Delay (P250) and the medium voltage switch is already closed.This fault only applies to a drive with SC.

• Check connection on the line side.• Check hardware on the VSB board.• Check user side medium voltage input.• Check if there is phase-to-phase.

22 VFD Over Current 2 This fault occurs when the output current is greater than 150% for the duration or 10 ms or the output current is greater than 165%.

• Verify the sensor in the cabinet is working.• Check hardware on the AT board.• Overloading, verify the load in the field.• Check parameters VFD Rated Current (P085) and Motor

Rated Current (P199) are set correctly.• Check internal motor for failure.

23 DC Bus Under Voltage Fault This fault occurs when the DC bus voltage is less than DC Bus Under Voltage Fault Threshold (P254) for the duration set in DC Bus Under Voltage Fault Delay (P258).

• Check the fiber cable at both the PCCB and the control box.

• Check the hardware of the PCCB.• Check parameters DC Bus Under Voltage Fault

Threshold (P254) and DC Bus Under Voltage Fault Delay (P258) are set correctly.

• Check line side voltage.• Verify that Power Cell DC Bus Rated Voltage (P011) and

actual VDC are identical.




Logic FaultsNo. Logic Fault Message Description Recommended Action(s)

24 Cabinet Door Opened While Drive Energized

The cabinet door has been opened while the drive input contactor is closed.

• Check cabinet door.• Check feedback signal of contactor.

25 E-Stop Trip The emergency stop button was pressed. Check the emergency stop button.

26 Input Circuit Breaker Opened(Not Initiated by the Drive)

This fault occurs if the input circuit breaker is opened while the drive is running.

• Verify if the contactor is open.• Check feedback signal of contactor.

27 Non-Zero Frequency Command Exists Upon Start

This is a safety start option and not an actual fault.If Safe Start Condition (P040) is set to “0” (Zero Frequency Command Required), then the frequency must be set to zero before starting the drive.

Check parameter Safe Start Condition (P040) is set correctly.

28 Flying Start Failed This fault occurs if the Flying Start function is enabled and the drive is unable to detect the motor speed until the scan frequency is zero.

• Check the parameters are set correctly.• Adjust the parameters as described in Flying Start on

page 35.

29 System Locked If any other fault has occurred, this fault appears as a message flag. Verify the fault on the HMI.

30 CPU Board in Wrong Position The CPU board address does not match the CPU board address set on the DB board.

Verify the position of the CPU board and make sure it is plugged in firmly.

31 AT Board in Wrong Position The AT board address does not match the AT board address set on the DB board.

Verify the position of the AT board and make sure it is plugged in firmly.

32 5V Power Supply Fault The voltage between 5V to M1 of Phoenix terminal P1 is out of range (4.31...5.52V).

Check the voltage between 5V to M1 on Phoenix terminal P1.

33 15V Power Supply Fault The voltage between +15V TEST point to M5 of Phoenix terminal P1 is out of range (12.95...16.56V).

Check the voltage between +15V to M5 on Phoenix terminal P1.

34 24V DCS Power Supply Fault The voltage between 24V1 to M4 of Phoenix terminal P2 in the control box is out of range (21.22...26.50V).

Check the voltage between 24V1 to M4 on Phoenix terminal P2.

35 24V PLC Power Supply Fault The voltage between 24V3 to M2 of Phoenix terminal P2 in the control box is out of range (21.22...26.50V).

Check the voltage between 24V3 to M2 on Phoenix terminal P2.

36...38

PWMx Board in Wrong Position(x = A, B or C)

The PWMx board address does not match the PWMx (A, B, or C) board address set on the DB board.

Verify the position of the PWMx (A, B, or C) board and make sure it is plugged in firmly.

39 DT Board in Wrong Position The DB board address does not match the DB board address set on the DB board.

Verify the position of the DB board and make sure it is plugged in firmly.

40 Low Voltage Ride Through Over Max Time Limit

The low voltage duration is longer than the maximum value of Low Voltage Ride Through Max Time Limit (P285).

• Check parameter Low Voltage Ride Through Max Time Limit (P285) is set correctly.

• Verify the duration of input voltage sag.

41 Low Voltage Ride Through Short Interval (Between Two Ride Through)

The LVRT function has been triggered twice and the time interval between these two events is shorter than the minimum value of Low Voltage Ride Through Min Frequency Limit (P281).

• Check parameter Low Voltage Ride Through Min Frequency Limit (P281) is set correctly.


42 Low Voltage Ride Through Failure The LVRT function did not receive enough information to ride through the low voltage state.


43 Input Voltage Loss While Stop Voltage is lost while the drive is stopping. Check the input voltage record.

44 Input Voltage Loss Over Time Limit The duration of input voltage loss is longer than the maximum value set in Power Loss Allowable Time (P264). Power Loss Allowable Time-User Defined cannot be higher than Power Loss Time Max Limit (P265).

• Check parameters Power Loss Allowable Time (P264) and Power Loss Time Max Limit (P265) are set correctly.

• Verify the duration of input voltage loss.

45 Input Voltage Loss Line side voltage loss is present and the power loss function is disabled.

Check if input voltage (before user breaker) has been lost. If not, verify the power loss relay state.

46 Cell Bypass Timeout After a cell bypass is triggered, the drive failed to start within the duration set in Low Voltage Ride Through Max Time Limit (P285).

• Check hardware of the power cell.• Check parameter Low Voltage Ride Through Max Time

Limit (P285) is set correctly.



47 Cell Bypass Start Fault The power cell bypass was triggered and successfully executed, but the drive failed to automatically restart.This fault has two scenarios:1. Power cell bypass and low voltage ride through interval too short.2. Power cell bypass was triggered while drive was stopping normally.

• Check parameter Low Voltage Ride Through Min Time Interval (P281) is set correctly.

• Check hardware of the power cell.• Check if the power cell bypass and low voltage ride

through interval is too short.• Check if the power cell bypass was triggered while

drive was stopping normally.

48 Cell Bypass Logic Fault This fault has six scenarios:1. The power cell was bypassed but the drive did not send the bypass

command.2. When the bypass was triggered, a fault other than a bypass fault

occurred.3. There were two or more bypass faults in one phase.4. Power cell temperature timeout after bypass.5. Power cell was bypassed but the bypass cell number does not exist

in the control box.6. Drive bypassed but there is no bypass power cell.

• Check parameter Power Cell Bypass Upper Limit Time For Over Temperature (P057) is set correctly.

• Check configuration of power cells.• Check medium voltage status.

49...57

PWMA Board Not Compatible with PCCBAx Board(x = 1...9)

The firmware version of the PWM board for the phase A leg of PowerFlex 6000 is not compatible with the firmware version of the control board of the nth power unit for the phase A leg.Where nth corresponds to the PCCBAx (1...9) fault.

1. Read the firmware version of the PWMA board and PCCBAx (1...9) board from the “Version Information” page on the HMI.

2. Check the major numbers of the above firmware version. If they are not the same, replace the wrong board with the correct one.

58...66

PWMA Board Not Compatible with PCCBBx Board(x = 1...9)

The firmware version of the PWM board for the phase B leg of PowerFlex 6000 is not compatible with the firmware version of the control board of the nth power unit for the phase B leg.Where nth corresponds to the PCCBBx (1...9) fault.

1. Read the firmware version of the PWMB board and PCCBBx (1...9) board from the “Version Information” page on the HMI.


67...75

PWMA Board Not Compatible with PCCBCx Board(x = 1...9)

The firmware version of the PWM board for the phase C leg of PowerFlex 6000 is not compatible with the firmware version of the control board of the nth power unit for the phase C leg.Where nth corresponds to the PCCBCx (1...9) fault.

1. Read the firmware version of the PWMC board and PCCBCx (1...9) board from the “Version Information” page on the HMI.


76...78

Primary FPGA Not Compatible with PWMx Board(x = A, B, or C)

The firmware version of the primary FPGA in the CPU board is not compatible with the firmware version of the PWM board for the phase x leg of PowerFlex 6000.Where x corresponds to the PWMx (A, B, or C) fault.

1. Read the firmware version of the primary FPGA and PWMx (A, B, or C) board from the “Version Information” page on the HMI.


79 Primary FPGA Not Compatible with DT Board

The firmware version of the primary FPGA in the CPU board is not compatible with the firmware version of the DT board.

1. Read the firmware version of the primary FPGA and DT board from the “Version Information” page on the HMI.


80 Primary DSP Not Compatible with Primary FPGA

The firmware version of the primary DSP is not compatible with the firmware version of the primary FPGA in the CPU board.

1. Read the firmware version of the DSP1 and primary FPGA from the “Version Information” page on the HMI.


81 Primary DSP Not Compatible with Secondary DSP

The firmware version of the primary DSP is not compatible with the firmware version of the secondary DSP in the CPU board.

1. Read the firmware version of the DSP1 and DSP2 from the “Version Information” page on the HMI.


No. Logic Fault Message Description Recommended Action(s)



82 Primary DSP Not Compatible with PLC The firmware version of the DSP is not compatible with the software version of the PLC.

1. Read the firmware version of the DSP and software version of the PLC from the “Version Information” page on the HMI.

2. Check the major numbers of the above versions. If the software version is wrong, flash the device with the correct software version. If the firmware version is wrong, replace the board with a correct one.

83 Versions of System Not Compatible This fault occurs if one or more of the incompatible version faults has occurred.

• Verify the other incompatible version faults. If no such faults exist, contact the service engineer.

84 DIP Configuration Fault in PWMA The DIP configuration in PWMA board is not the same as P7. • Check P7 and DIP configuration in the PWMA board in the control box.

85 Bypass Cell Reactivation Fault The bypass command was sent but the DSP did not receive the feedback signal within the time set in Power Cell Reactivation Time Upper Limit (P078).

• Check parameter Power Cell Reactivation Time Upper Limit (P078) is set correctly.

• Check hardware of the power cell.• Check configuration of the power cell.• Check the fiber optic cable.

86 PCCB Parameters R/W Timeout After medium voltage energized, the read or write of PCCB parameters was not completed within the time defined in the code.

• Check the fiber optic cable in the control box and PCCB board.

• Check the hardware of the PCCB board.

87 Power Cells Parameters Mismatch For each power cell there are 21 parameters.This fault occurs if the value of parameters 1...14,19, or 20 is not the same in all the power cell.


• Check the hardware of the PCCB board.• Check the power cell parameter settings interface to

locate the mismatched parameters.

88 DC Bus Voltage Deviation Fault The deviation between the DC bus voltage in one PCCB and the average value of DC bus voltage in this phase is more than the value of DC Bus Voltage Deviation Fault Threshold (P266) for the duration set in DC Bus Voltage Deviation Fault Filter Time(P267).


• Check parameter DC Bus Voltage Deviation Fault Threshold (P266) is set correctly.

• Check the hardware of the PCCB board.

89 DIP Configuration Fault in PWMB The DIP configuration in PWMB board is not the same as P7. • Check P7 and DIP configuration in the PWMB board in the control box.

90 DIP Configuration Fault in PWMC The DIP configuration in PWMC board is not the same as P7. • Check P7 and DIP configuration in the PWMC board in the control box.

91 Transformer Cabinet Fan Configuration Error

The total amount of transformer cabinet fans (Fan Control Group #1 Fan Number (P095) + Fan Control Group #2 Fan Number (P096)) has exceeded the maximum amount set in Fan Control Transformer Cabinet Fan Quantity Upper Limit (P106).

• Check the parameters are set correctly. The sum of Fan Control Group #1 Fan Number (P095) and Fan Control Group #2 Fan Number (P096) should not be more than Fan Control Transformer Cabinet Fan Quantity Upper Limit (P106).

92 Input Circuit Breaker Tripped If one or more faults have occurred and the input circuit breaker is open, this message is sent to the HMI.This is not an actual fault.

–

93 Transformer Over Temperature Trip The TX temperature is monitored by a detector on the TX cabinet door. If the temperature has exceeded the setting, a fault signal will be sent.

• Verify the TX temperature.• Verify temperature monitor is over temperature

threshold setting for the TX cabinet.• Check hardware of the temperature monitor in the TX

cabinet.• Check input voltage or current harmonic distortion.

94 Power Cell Cabinet Fan Fault The motor protector trips while the drive is running, which is caused by a power cell cabinet fan fault.Fault includes short circuit, over temperature, phase loss, and so on.

• For AC fan, check fan status to determine which fan in the power cell cabinet has faulted.

• For EC fan, check the status of the faulted fan and the related relay (PLC2 I-06).

95 Transformer Cabinet Fan Fault The motor protector trips while the drive is running, which is caused by a transformer cabinet fan fault.Fault includes short circuit, over temperature, phase loss, and so on.

• For AC fan, check fan status to determine which fan in the transformer cabinet has faulted.

• For EC fan, check the status of the faulted fan and the related relay (PLC2 I-05).

96 Auxiliary Power Off The auxiliary power is off. Check CB1 and CB3.

97 Cabinet Door Open The cabinet door is open. Check the cabinet door and limit switch.




98 Cooling Fan Contactor Open The cooling fan contactor is opened while the drive is running.This fault only applies to the UL version of the PowerFlex 6000 drive.

Check fan contactor.

99 DCS Communication Error There is a DCS communication error. Check the communication cable between the DCS and drive.

100 Motor Over Temperature The motor is over temperature.This fault only applies to a motor with the NT538 temperature monitor. If the temperature monitor is not present, check the related terminal on the PLC if connected to power.

Check the motor temperature.

101 Filter Cabinet Over Temperature The filter cabinet is over temperature. • Verify the temperature of the filter cabinet.• Verify temperature monitor is over temperature

threshold setting for the filter cabinet.• Check hardware of the temperature monitor in the

filter cabinet.

102 Motor Side HECS Power Supply Fault There is a short circuit in the motor side HECS power supply. • Check the power supply of the motor side HECS.• Check the relay status.• Check the connection between the relay and PLC.• Check the HECS.




Power Cell FaultsNo. Power Cell Fault Message Description Recommended Action(s)

103 IGBT Over Current In Power Cell #N The working current of the IGBT has exceeded the preset threshold for a certain duration (depending on hardware value).This fault means the working current of power cell #N is too high.

• Check if output over current or short circuit on the motor side is present.

• Check the connection between the IGBT gate and PCCB.

• Check if IGBT or PCCB is damaged.

104 Capacitor Abnormal in Power Cell #N The deviation between the actual voltage and the rated voltage on the detected capacitor is larger than the hardware level in DC-link.

• Check if capacitor is short circuited or damaged.• Check if connection between MVB board and

capacitors in DC-link is disconnected.

105 Input Over Voltage in Power Cell #N The sampled voltage of DC-link has exceeded the over voltage threshold.

• Check parameters Acceleration Time (P401) and Deceleration Time (P399) are set correctly.

• Check if voltage on line side is over threshold or fluctuation is present.

• Check if PCCB is damaged.

106 DC Bus Undervoltage in Power Cell #N The sampled voltage of DC-link is lower than the under voltage threshold.

• Check if voltage on line side is under threshold or fluctuation is present.


107 Communication Error in Power Cell #N The signal sent from the power cell control board is lost. • Check if fiber optic cable in power cell #N is connected properly, disconnected, or damaged.


108 No PWM Pulse for IGBT in Power Cell #N A certain duration has passed with no pulse signal sent from the control box.

• Check if fiber optic cable in power cell #N is connected properly, disconnected, or damaged.

• Check if power cell control board is damaged.• Check PWM board.

109 Bypass Hardware Fault in Power Cell #N The feedback signal from the bypass circuit is wrong after a power cell bypass command is received in power cell #N.

• Check the bypass circuit in power cell #N.• Check the IGBT in power cell #N.

110 Communication Link Fault In Power Cell #N

There is no communication link between the PCCB board and control box in power cell #N

• Check if fiber optic cable in power cell #N is connected properly, disconnected, or damaged.

• Check the power cell control board.

111 PCCB Version Not Compatible in Power Cell #N

The hardware and software version of the PCCB board in power cell #N are incompatible.

Check the PCCB board in power cell #N.

112 Over Temperature in Power Cell #N The temperature switch is changed from open to close if the temperature of the heat sink exceeds the threshold.

• Check if the ambient temperature is greater than the threshold.

• Check if there is power supply to the fans.• Check if the temperature relay and cable is damaged.• Check if one of these parts is blocked: air tunnel, inlet

filter, outlet, and so on.• Check if there is over current in the power cell.

113 Power Cell #N Failed To Bypass The power cell bypass feedback signal delay has exceeded the duration set in Power Cell Bypass Upper Limit For Bypass Feedback Time (P043).

• Check hardware of the bypass power cell.• Check parameter Power Cell Bypass Upper Limit For

Bypass Feedback Time (P043) is set correctly and if the power cell can perform the bypass and receive the feedback signal within the duration.

114 One Phase Lost in Power Cell #N The signal of phase loss detection circuit is abnormal when any phase is lost.

• Check the voltage on the line side for fluctuations.• Check if fuse in the power cell is damaged.

115 Two Phase Lost in Power Cell #N The signal of phase loss detection circuit is abnormal when two or more phases are lost.

• Check the voltage on the line side for fluctuations.• Check if fuse in the power cell is damaged.

116 Bypass Failure (OV) in Power Cell #N The power cell bypass was triggered but the bypass hardware failed and no feedback signal was sent to the control board. The drive continued to run and caused a DC bus over voltage trip to occur.

• Check if the power cell has a bypass circuit and for damage.

• Check hardware of the power cell bypass circuit.

117 Over Temperature Time Out in Power Cell #N

The over temperature fault has exceeded the duration set in Power Cell Bypass Upper Limit For Bypass Feedback Time (P057) after being trigged by the power cell bypass due to power cell over temperature.

• Check if there is power supply to the fans.• Check if temperature sensor on heat sink is working.• Check if one of these parts is blocked: air tunnel, inlet

filter, outlet, and so on.• Check if there is over current in the power cell.


Chapter 4

Warning Messages

Overview All faults, warnings, or messages displayed on the Operator Interface should be thoroughly documented by the user prior to resetting those messages. This will assist maintenance personnel in correcting problems and ensuring they do not recur. There are three types of warning messages – system warnings, logic warnings, and power cell warnings.

Warning Messages System Warning

ATTENTION: Investigate all faults before resetting the drive.

Resetting the drive into a fault condition that has been unresolved can propagate the faults and cause an increased level of damage to the equipment.

No. System Warning Message Description Recommended Action(s)

1 Fan Failure Warning in Fan Group #1 There is an abnormal status in the transformer cabinet1 fans. • Check parameter Fan Control Fan Feedback Delay (P101) and set the value larger.

• Check parameter Fan Control Group #1 Fan Number (P095) and verify the actual number of fans.

• Check the fan operation in transformer cabinet1.• Check the status of the fan feedback relay and

command execution relay, both should be identical.

2 Abnormal Output Voltage Warning The voltage which is measured on the motor side through the VSB was different from the rated voltage at some frequency point.This warning appears if the difference has exceeded Output Voltage Deviation Warning Threshold (P223) for the duration set in Filter Time For Abnormal Output Voltage (P211). If the difference is less than Output Voltage Abnormality Warning Cancellation Threshold (P226), the warning disappears.

• Check parameters Output Voltage Deviation Warning Threshold (P223), Filter Time For Abnormal Output Voltage (P211), and Output Voltage Abnormality Warning Cancellation Threshold (P226) are set correctly.

• Check if the VSB, resistor, and wire are damaged.• Check hardware on the AT board.

3 Ground Fault Warning The drive detects the voltage between neutral and ground through the VSB.This warning appears if the voltage has exceeded Ground Fault Warning Threshold (P229) for the duration set in Filter Time For Ground Fault (P228). If the voltage is lower than Ground Fault Warning Cancellation Threshold (P256), the warning disappears.

• Check parameters Ground Fault Warning Threshold (P229), Filter Time For Ground Fault (P228), and Ground Fault Warning Cancellation Threshold (P256) are set correctly.

• Check if the VSB, resistor, and wire are damaged.• Check hardware on the AT board.• Check the output cable grounding.• Check the motor stator winding grounding.• Perform the ground insulation test.

4 Output Frequency Deviation Warning – –

5 Input Power Loss, Waiting Recovery This warning appears when input power is lost while the drive is running and the “Power Loss Restart” function is enabled.

Verify the line side voltage state.


Chapter 4 Warning Messages

6 Input Voltage Sag, Derating Operating This warning appears when an input voltage sag condition occurs while the drive is running.


7 Low Voltage Ride Through Operating This warning appears when input voltage is in LVRT state. Verify the line side voltage state.

8 Input Voltage Sag, Flux Controlling This warning appears when an input voltage sag condition occurs while the drive is running and output frequency is reduced.


9 Fan Failure Warning in Fan Group #2 There is an abnormal status in the transformer cabinet2 fans. • Check parameter Fan Control Fan Feedback Delay (P101) and set the value larger.


• Check the fan operation in transformer cabinet2.• Check the status of the fan feedback relay and


10 Bypass Operating This warning appears when performing the power cell bypass. Check if the power cell has one of these four faults: one phase loss, IGBT over current, over temperature, or input voltage over voltage.

11 DC Bus Under Voltage Warning This warning appears when DC bus voltage is less than DC Bus Under Voltage Warning Threshold (P274) and DC Bus Under Voltage Warning Hysteresis Band (P275). When DC bus voltage is greater than DC Bus Under Voltage Warning Threshold (P274) and DC Bus Under Voltage Warning Hysteresis Band (P275), the warning disappears.

• Check the fiber optic cable on both the PCCB board and control box.

• Check hardware of the PCCB board.• Check parameters DC Bus Under Voltage Warning

Threshold (P274) and DC Bus Under Voltage Warning Hysteresis Band (P275) are set correctly.

• Check line side voltage.• Check parameter Power Cell DC Bus Rated Voltage

(P011) and actual VDC are matched.

12 Fan Failure Warning in Fan Group #3 There is an abnormal status in the power cell cabinet fans. • Check parameter Fan Control Fan Feedback Delay (P101) and set the value larger.


• Check the fan operation in power cell cabinet.• Check the status of the fan feedback relay and


13 Line Neutral Over Voltage Warning The line neutral voltage has exceeded Line Neutral Over Voltage Warning Threshold (P158) for the duration set in Line Neutral Over Voltage Warning Delay (P159).This warning means one or more phase connections on the line side are connected to ground.

• Check connection on the line side.• Check parameters Line Neutral Over Voltage Warning

Threshold (P158) and Line Neutral Over Voltage Warning Delay (P159) are set correctly.

• Check hardware on the VSB board.• Check user side medium voltage input.

14 Line Under Voltage Warning The line voltage is less than Line Under Voltage Warning Threshold (P156) for the duration set in Line Under Voltage Warning Delay (P157).

• Check connection on the line side.• Check parameters Line Under Voltage Warning

Threshold (P156) and Line Under Voltage Warning Delay (P157) are set correctly.

• Check hardware on the VSB board.• Check user side medium voltage input.

15 Fan Failure Warning in Fan Group #4 There is an abnormal status in the filter cabinet fans. • Check parameter Fan Control Fan Feedback Delay (P101) and set the value larger.


• Check the fan operation in filter cabinet.• Check the status of the fan feedback relay and


No. System Warning Message Description Recommended Action(s)


Warning Messages Chapter 4

Logic WarningNo. Logic Warning Message Description Recommended Action(s)

16 DSP Communication Error There is a communication error between the PLC and DSP. • Check connection between the drive and PLC.• Check receive and transmit LED status on CPU board.

17 PLC Communication Error There is a communication error between the PLC and HMI. Check connection between the HMI and PLC.

18 HMI Version Incompatible The versions of the HMI and PLC are not compatible. Check the versions of the HMI and PLC.

19 Transformer Over Temperature Warning The transformer is over temperature. • Check the transformer and transformer cabinet fan.• Check configuration of the transformer monitor.

20 Power Cell Cabinet Fan Circuit Breaker Open

This warning appears when the MV is energized while the power cell cabinet fan circuit breaker is open.

Check the power cell cabinet fan circuit breaker. It should be closed before the MV is energized.

21 Transformer Cabinet Fan Circuit Breaker Open

This warning appears when the MV is energized while the transformer cabinet fan circuit breaker is open.

Check the transformer cabinet fan circuit breaker. It should be closed before the MV is energized.

22 External Control Power Loss Warning Control power usually comes from the user side and the transformer acts as a backup.This warning appears when the user side does not supply control power and the transformer is used.

• Check user side control power.• Check status of UPS.

23 Analog Channel #1 Loss Warning There is signal loss in analog channel #1 (4-20 mA). • Check wiring of analog channel #1.• Check if 4-20 mA signal from user side is present.

24 DCS Communication Error Warning This warning appears if the control mode is set to DCS (Owner #2 Selection (P476) = 15) and DCS communication is interrupted.

Check communication cable between the user side and drive.

25 Analog Feedback Loss Warning This warning appears when the PID function is enabled and there is no analog feedback.

• Check wiring between the user side and drive.• Check if 4-20 mA signal from user side is present.

26 Analog Channel #2 Loss Warning There is signal loss in analog channel #2 (4-20 mA).Analog channel #2 is the analog signal input backup.When User Analog Set-point Switch (P494) = 1, this analog channel is used as the 4-20 mA input.

• Check wiring of analog channel #2.• Check if 4-20 mA signal from user side is present.


Chapter 4 Warning Messages

Power Cell WarningNo. Warning Message Description Recommended Action(s)

27 Power Cell #N Bypassed This warning appears when power cell #N has been bypassed. Check if power cell #N has one of these four faults: one phase loss, IGBT over current, over temperature, or input voltage over voltage.


Publication 6000-TD004D-EN-P - November 2017 Supersedes Publication 6000-TD004C-EN-P - January 2017 Copyright © 2017 Rockwell Automation, Inc. All rights reserved. Printed in Canada.

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