OMRON CX-Drive software Operation Manual

CX-Drive software is a software application that enables setting, downloading, uploading, and comparing parameters; performing test runs and adjustment; and performing monitoring and data tracing for OMRON Inverters and Servos.

PDF

Document

Cat. No. W453-E1-19

SYSMAC

CXONE-@@@@C-V@/CXONE-@@@@D-V@

CX-Drive

OPERATION MANUAL

CXONE-@@@@C-V@/

CXONE-@@@@D-V@

CX-Drive

Operation Manual

Revised November 2011

iv

Notice:

OMRON products are manufactured for use according to proper procedures by a qualified operator and only for the purposes described in this manual.

The following conventions are used to indicate and classify precautions in this manual. Always heed the information provided with them. Failure to heed precautions can result in injury to people or damage to property.

DANGER

WARNING

Caution

Indicates an imminently hazardous situation which, if not avoided, will result in death or serious injury. Additionally, there may be severe property damage.

Indicates a potentially hazardous situation which, if not avoided, could result in death or serious injury. Additionally, there may be severe property damage.

Indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury, or property damage.

OMRON Product References

All OMRON products are capitalized in this manual. The word “Unit” is also capitalized when it refers to an OMRON product, regardless of whether or not it appears in the proper name of the product.

The abbreviation “Ch,” which appears in some displays and on some OMRON products, often means

“word” and is abbreviated “Wd” in documentation in this sense.

The abbreviation “PLC” means Programmable Controller. “PC” is used, however, in some Programming Device displays to mean Programmable Controller.

Visual Aids

The following headings appear in the left column of the manual to help you locate different types of information.

Note Indicates information of particular interest for efficient and convenient operation of the product.

1,2,3...

1. Indicates lists of one sort or another, such as procedures, checklists, etc.

© OMRON, 2005

All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form, or by any means, mechanical, electronic, photocopying, recording, or otherwise, without the prior written permission of

OMRON.

No patent liability is assumed with respect to the use of the information contained herein. Moreover, because OMRON is constantly striving to improve its high-quality products, the information contained in this manual is subject to change without notice. Every precaution has been taken in the preparation of this manual. Nevertheless, OMRON assumes no responsibility for errors or omissions. Neither is any liability assumed for damages resulting from the use of the information contained in this publication.

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PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1 Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

xvi

General Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Application Precautions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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SECTION 1

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

What Is the CX-Drive? .....................................................................................................

Features ............................................................................................................................

Applicable Drives and Communications ..........................................................................

Files Created by CX-Drive ...............................................................................................

Computer System Requirements ......................................................................................

Confirming Product Contents ...........................................................................................

1-2 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Required Software ............................................................................................................

1-3 System Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Inverter Connection ..........................................................................................................

Servo Connection .............................................................................................................

SECTION 2

Basic Operations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-1 Overall Operating Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Inverters ............................................................................................................................

Servo .................................................................................................................................

2-2 Starting the CX-Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-3 Creating New Drive Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Method 1: Automatically Detecting the Connected Drives .............................................

Method 2: Creating a New Data File without a Connected Drive ...................................

2-4 User Interface. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Window Structure .............................................................................................................

Functions ..........................................................................................................................

Menu Commands .............................................................................................................

2-5 Editing Drive Files. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Editing Parameters ...........................................................................................................

Graphs ..............................................................................................................................

Diagrams ..........................................................................................................................

Status Displays .................................................................................................................

Monitoring ........................................................................................................................

Data Trace ........................................................................................................................

Auto Tune .........................................................................................................................

Test Run ...........................................................................................................................

FFT ...................................................................................................................................

Damping Control ..............................................................................................................

Quick Parameter Setup .....................................................................................................

Settings .............................................................................................................................

Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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About this Manual:

This manual provides information required to use the CX-Drive Inverter/Servo Support Software, including specifications and operating methods. The CX-Drive runs on Windows XP, Vista, or Windows

7 and is used to set, transfer, and compare parameters; perform test runs and adjustment; and performing monitoring and data tracing for OMRON Inverters and Servos.

Please read this manual carefully and be sure you understand the information provided before attempting to use the CX-Drive. Be sure to read the precautions provided in the following section.

Please read the relevant Inverter or Servo manuals carefully and be sure you understand the information provided before setting up or using an application for a drive.

Drive type

Inverters

Servomotors/

Servo Drives

Manual Name

SYSDRIVE JX Series Models 3G3JX Compact Simplified Inverters User's

Manual

SYSDRIVE MX Series Models 3G3MX Multi-function Compact Inverters

User's Manual

SYSDRIVE RX Series Models 3G3RX High-function General-purpose

Inverters User's Manual

SYSDRIVE MX2 Series Models 3G3MX2 Multi-Function Compact Inverters

User’s Manual

SYSDRIVE 3G3JV Compact Simplified Inverters User's Manual

SYSDRIVE 3G3MV Multi-function Compact Inverters User's Manual

SYSDRIVE RV Series Models 3G3RV High-function General-purpose

Inverters User's Manual

SYSDRIVE RV Series Models 3G3RV-V1 High-function General-purpose

Inverters Setup Manual

DeviceNet Communications Unit/Card 3G3MV-PDRT2, 3G3RV-PDRT2

User's Manual

EtherCAT Communication Unit 3G3AX-MX2-ECT User’s Manual

DeviceNet Communications Unit 3G3AX-MX2-DRT-E, 3G3AX-RX-DRT-E

User's Manual for SYSDRIVE MX2/RX Series

CompoNet Communications Unit 3G3AX-MX2-CRT-E, 3G3AX-RX-CRT-E

User's Manual for SYSDRIVE MX2/RX Series

SMARTSTEP2 Series Servomotors/Servo Drives Models R88M-G@

(Servo-motors)/R7D-BP@ (Servo Drives) User’s Manual

OMNUC G5 Series Models R88M-K@ (AC Servomotors)/Models R88D-

KT@ (AC Servo Drives) AC Servomotors/Servo Drives User's Manual

OMNUC G5 Series AC Servomotors/Servo Drives with Built-in MECHA-

TROLINK-II Communications Models R88M-K@ (AC Servomotors)/R88D-

KN@-ML2 (AC Servo Drives) User's Manual

OMNUC G Series Models R88M-G@ (AC Servomotors)/Models R88D-GT@

(AC Servo Drives) AC Servomotors/Servo Drives User's Manual

OMNUC G Series AC Servomotors/Servo Drives with Built-in MECHA-

TROLINK-II Communications Models R88M-G@ (AC Servomotors)/R88D-

GN@-ML2 (AC Servo Drives) User's Manual

SMARTSTEP A Series Servomotors/Servo Drives Models R7M-A@ (Servomotors)/R7D-AP@ (Servo Drives) User's Manual

OMNUC W Series Models R88M-W@ (AC Servomotors)/Models R88D-

WT@ (AC Servo Drives) AC Servomotors/Servo Drives User's Manual

OMNUC W Series AC Servomotors/Servo Drives with Built-in MECHA-

TROLINK-II Communications Models R88M-W@ (AC Servomotors)/R88D-

WN@-ML2 (AC Servo Drives) User's Manual

Cat. No.

(suffixes omitted)

I558-E1

I559-E1

I560-E1

I570-E1

I528-E1

I527-E1

I532-E1

I549-E1

I539-E1

I574-E1

I581-E1

I582-E1

I561-E1

I571-E1

I572-E1

I562-E1

I566-E1

I533-E1

I531-E1

I544-E1

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x

For installing procedures of CX-Drive standalone product WS02-DRVC1, refer to the Product Guide in the package.

For details on procedures for installing the CX-Drive from the CX-One FA Integrated Tool Package, refer to the CX-One Setup Manual (W463) provided with CX-One.

Cat. No.

W463

Model

CXONE-@@@@C-

V@/@@@@D-V@

Name

CX-One FA Integrated

Tool Package Setup

Manual

Contents

Installation and overview of CX-One FA

Integrated Tool Package.

Precautions provides general precautions for using the CX-Drive, Programmable Controller, and related devices.

Section 1 provides an overview of the CX-Drive, and describes the functions and system requirements required to operate the CX-Drive. It also provided installation methods and the overall procedure for using the CX-Drive.

provides basic operating procedures for using the CX-Drive, including descriptions of CX-Drive windows and parameter setting procedures.

Also refer to the CX-Drive Online Help for operating procedures and functions.

Select Help from the Help Menu or click the Button to display context help, which displays help about the currently displayed window.

Version Improvements

Addition of Supported Drives

Support for the following Inverters has been added for version 1.12 of the CX-Drive:

3G3RV Inverters, Version 1 (-V1)

To specify the 3G3RV-V1 offline with CX-Drive version 1.3, select "3G3RV" in the Drive Type dialog

box (see page 30) and then specify "V1" in the specification field.

Ver.1.61 supports

OMNUC G series R88D-GT servo drives and SMARTSTEP2 series servo drives.

Data Trace function improvements.

Ver.1.62 supports

OMNUC G series R88D-GN servo drives.

Ver.1.70 supports

3G3JX/MX/RX Inverters.

Ver.1.80 supports

OMNUC G5 Series R88D-KT servo drives.

FFT Analysis function

Ver.1.90 supports

3G3MX2 Inverters.

Ver.1.91 supports

OMNUC G5 Series R88D-KN Servo Drives with Built-in MECHATROLINK-II Communications

Ver.1.92 supports

OMNUC G5 Series R88D-KN with Built-in EtherCAT Communications

Ver.2.10 supports

3G3AX-MX2-ECT EtherCAT Communications Unit for 3G3MX2 inverters.

Ver.2.20 supports

3G3AX-MX2-DRT DeviceNet Communications Unit for 3G3MX2 inverters.

Ver.2.60 supports

3G3RX-V1 inverters, 3G3AX-MX2-CRT-E CompoNet communications option board for 3G3MX2 inverters, 3G3AX-RX-DRT-E DeviceNet communications option board for 3G3RX inverters, and

3G3AX-RX-CRT-E CompoNet communications option board for 3G3RX inverters.

Change to Relative Path Information for Workspace Files (Extension .sdw)

Item

Workspace files

(file name extension .sdw)

Ver. 1.12

Link information is held using absolute paths for all drive data files (.sdd).

This prevents moving files.

Ver. 1.3

Link information is held using relative paths for all drive data files (.sdd).

This enables moving files as long as the relative position of all drive data files is the same.

Support for Windows Vista

CX-Drive version 1.4 or higher will run on Windows Vista.

Support for Windows 7

CX-Drive version 1.91 or higher will run on Windows 7.

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Registered Trademark

• MECHATROLINK is a registered trademark of the MECHATROLINK Members Association.

• EtherCAT® is registered trademark and patented technology, licensed by Beckhoff Automation

Gmbh, Germany.

xii

Read and Understand this Manual

Please read and understand this manual before using the product. Please consult your OMRON representative if you have any questions or comments.

1. WARRANTY

(1) The warranty period for the Software is one year from either the date of purchase or the date on which the Software is delivered to the specified location.

(2) If the User discovers a defect in the Software (i.e., substantial non-conformity with the manual), and returns it to OMRON within the above warranty period, OMRON will replace the Software without charge by offering media or downloading services from the Internet. And if the User discovers a defect in the media which is attributable to OMRON and returns the Software to OMRON within the above warranty period, OMRON will replace the defective media without charge. If OMRON is unable to replace the defective media or correct the Software, the liability of OMRON and the User's remedy shall be limited to a refund of the license fee paid to OMRON for the Software.

2. LIMITATION OF LIABILITY

(1) THE ABOVE WARRANTY SHALL CONSTITUTE THE USER’S SOLE AND EXCLUSIVE REMEDIES

AGAINST OMRON AND THERE ARE NO OTHER WARRANTIES, EXPRESSED OR IMPLIED,

INCLUDING BUT NOT LIMITED TO, WARRANTY OF MERCHANTABILITY OR FITNESS FOR A

PARTICULAR PURPOSE. IN NO EVENT WILL OMRON BE LIABLE FOR ANY LOST PROFITS OR

OTHER INDIRECT, INCIDENTAL, SPECIAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF

USE OF THE SOFTWARE.

(2) OMRON SHALL ASSUME NO LIABILITY FOR DEFECTS IN THE SOFTWARE BASED ON

MODIFICATION OR ALTERATION OF THE SOFTWARE BY THE USER OR ANY THIRD PARTY.

(3) OMRON SHALL ASSUME NO LIABILITY FOR SOFTWARE DEVELOPED BY THE USER OR ANY

THIRD PARTY BASED ON THE SOFTWARE OR ANY CONSEQUENCE THEREOF.

3. APPLICABLE CONDITIONS

THE USER SHALL NOT USE THE SOFTWARE FOR A PURPOSE THAT IS NOT DESCRIBED IN

THE ATTACHED USER MANUAL.

4. CHANGE IN SPECIFICATIONS

The software specifications and accessories may be changed at any time based on improvements or for other reasons.

5. EXTENT OF SERVICE

The license fee of the Software does not include service costs, such as dispatching technical staff.

6. ERRORS AND OMISSIONS

The information in this manual has been carefully checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical, or proofreading errors, or omissions.

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xiv

PRECAUTIONS

This section provides general precautions for using the CX-Drive.

The information contained in this section is important for the safe and reliable application of the CX-Drive. You must read this section and understand the information contained before attempting to install or use the CX-Drive.

Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

General Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Safety Precautions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Application Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

xvi xvi xvi

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Intended Audience

1 Intended Audience

1

This manual is intended for the following personnel, who must also have knowledge of electrical systems (an electrical engineer or the equivalent).

• Personnel in charge of installing FA systems.

• Personnel in charge of designing FA systems.

• Personnel in charge of managing FA systems and facilities.

2 General Precautions

The user must operate the product according to the performance specifications described in the operation manuals.

Before using the product under conditions which are not described in the manual or applying the product to nuclear control systems, railroad systems, aviation systems, vehicles, combustion systems, medical equipment, amusement machines, safety equipment, and other systems, machines, and equipment that may have a serious influence on lives and property if used improperly, consult your OMRON representative.

Make sure that the ratings and performance characteristics of the product are sufficient for the systems, machines, and equipment, and be sure to provide the systems, machines, and equipment with double safety mechanisms.

This manual provides information for programming and operating the Unit. Be sure to read this manual before attempting to use the Unit and keep this manual close at hand for reference during operation.

WARNING

It is extremely important that the CX-Drive and related devices be used for the specified purpose and under the specified conditions, especially in applications that can directly or indirectly affect human life. You must consult with your OMRON representative before applying CX-Drive and related devices to the above-mentioned applications.

Safety Precautions

Caution

It may become impossible to stop motor rotation if serial communications fail during test runs. Always provide an external hardware means of stopping the motor.

Confirm safety at the destination node before transferring parameters or other data to another node from the CX-Drive. Doing either of these without confirming safety may result in injury.

Always confirm the axis number carefully before starting operation from the

CX-Drive.

Stop the inverter "RUN" when connecting CX-Drive to X-Series inverters during Frequency Reference Selection(A001) is Operator. The motor speed is affected.

The CS1W-CIF31 Serial Conversion Cable cannot be used to connect a computer running the CX-Drive to the 3G3MV. (See the following note.).

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Application Precautions

4

Note USB-Serial Conversion Cables That Can Be Used

For 3G3JV- and 3G3RV-series Inverters: CS1W-CIF31 USB-Serial Conversion Cable.

(The commercially available products listed below can also be used.)

For 3G3MV-series Inverters: The CS1W-CIF31 cannot be used. Use the commercially available products listed below.

Commercially Available USB-Serial Conversion Cables

BHS-US01/GP manufactured by Buffalo

USB-CVRS9 manufactured by Sanwa

The commercially available USB-serial converters have been successfully tested for OMRON Inverters but operation may be unstable in some operating environments (mainly depending on the ambient temperature, humidity, and noise). The functions, performance, and reliability of these converters may not be as specified under all possible conditions. Check the warranty information from the manufacturer.

Application Precautions

Observe the following precautions when using the CX-Drive.

• Confirm that set parameters operate properly before using them in actual applications.

• Do not turn OFF the power to the Servo Drive while writing to flash memory. In the worst case, doing so may damage the flash memory.

• After replacing an Inverter or Servo Drive, restart operation only after saving the required parameters in the new Inverter or Servo Drive.

• Confirm that no adverse effect will occur in the system before attempting any of the following. Not doing so may result in an unexpected operation.

• Changing the operating mode of the PLC (including changing the Startup Mode)

• Changing parameter settings

• Automatically downloading parameters (This function is enable by selecting the Autodownload when a parameter is updated Option on the

Online Options Tab Page in the window that appears when Tools -

Options is selected from the menu bar.)

• Do not turn OFF the power to the computer while installing or uninstalling the CX-Drive. Doing so may result in corrupted data in the computer.

• The multi-turn counter and alarms will be reset in the absolute serial encoder if the absolute encoder setting function is performed. If the absolute encoder’s multi-turn counter is reset to zero, the coordinate system of the mechanical system will change from what it was previously. Be sure that the encoder is set correctly before resetting the mechanical system to the zero point.

• The load will move back and forward during auto tune operation. Please consider what are the conditions you can stop this operation at anytime.

• The motor speed will have extreme variations during FFT analysis operation. Please consider what are the conditions you can stop this operation at anytime.

• The motor responsive will change during damping control operation.

Please consider what are the conditions you can stop this operation anytime.

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Application Precautions

4

• Confirm that converted parameters operate properly before using them in actual applications.

xviii

SECTION 1 Overview

This section provides an overview of the CX-Drive, and describes the functions and system requirements required to operate the CX-Drive. It also provided installation methods and the overall procedure for using the CX-Drive.

1-1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-2 Installation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-3 System Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1

Introduction

Section 1-1

1-1 Introduction

1-1-1 What Is the CX-Drive?

The CX-Drive is a software application that enables 1) setting, downloading, uploading, and comparing parameters, 2) test runs and tuning, and 3) monitoring and data tracing for Inverters and Servos.

Setting parameters, test runs, and tuning

Monitoring/Tracing

POWER ALM

CN3

Drive

CN1

CN2

CNB

CNA

1-1-2 Features

Supports Most

OMRON Inverters and

Servos

The CX-Drive can be used with OMRON's 3G3JX, 3G3MX, 3G3MX2,

3G3RX, 3G3JV, 3G3MV, and 3G3RV Inverters, as well as OMRON's

SMARTSTEP2, SMARTSTEP, OMNUC G5-series, OMNUC G-series,

OMNUC W-series Servo Drives.

Wide Range of

Parameter Editing

Functions

Easy and Dependable

Parameter Editing for

Inverters and Servos

Easily Check Drive

Parameters and Upload/

Download Only Selected

Parameters

Edit Parameters in

Graphic Form

Display Parameters in

Diagrams

Automatically Detect

Drives

Inverter and Servo parameters can be edited using parameter numbers or by category. Parameter editing tables show parameter ID numbers, descriptions, units, default values, and ranges in the same way as in the Servo manuals.

Parameters can be set using pull-down menus or by typing in settings.

Parameter settings can be easily reviewed because setting status (e.g., modified, warning, default, or disabled) is shown for each parameter to avoid setting mistakes.

When connected online, you can easily display drive parameters by using a comparison function. Also, the selected parameters can be downloaded to or uploaded from the drive as required.

Inverter parameters, such as V/F profiles and jump frequencies, can be displayed in graphic charts.

Drive parameters can be displayed in diagrams, such as PID diagrams or position/speed/torque block diagrams.

The connected drives can be detected automatically and displayed in a list without setting model numbers or connection types. Just select a drive to add it to the Workspace.

2

Introduction

Inverter Tuning and

Test Runs

Auto-tuning for the 3G3RV

Section 1-1

Inverter Test Runs

Just enter the specified motor parameters and let the Servo automatically tune itself to match the characteristics of the motor.

The test run options enable the acceleration, deceleration, and frequency references of the motor to be determined for testing purposes. Additional options allow the motor to be run continuously or cycled for 'n' number of cycles. Forward or reverse operation and stopping are also possible, and the feedback input can be displayed.

The parameters can be set either by entering them directly into the appropriate fields or graphically by dragging handles in the Test Run Setup Diagram.

Servo Tuning and

Test Runs

Auto-tuning

Servo Test Runs

Adjust Offsets for the

R7D-AP and R88D-WT

The auto-tuning function calculates the load moment of inertia during operation of the Servo and sets parameters to achieve Servo gains that are consistent with the machine rigidity settings. These parameters can be saved in the

Servo and used the next time power is turned ON.

The test run options enable the jog speed, acceleration, and deceleration of the motor to be determined for testing purposes. Continuous operation, cyclic operation, origin searches, turning the Servo ON/OFF, forward/reverse direction selection, stopping, and speed display are also possible.

The parameters can be set either by entering them directly into the appropriate fields or graphically by dragging handles in the Test Run Setup Diagram.

The speed/torque offset can be adjusted automatically or manually, the offset and gain of the analog monitor output can be adjusted, and the current detection offset can be adjusted automatically or manually.

An absolute encoder and multi-turn limit can be set for the R88D-WT.

Absolute Encoder Setting for the R88D-WT

Damping Control for the

R88D-KT and R88D-KN

Realtime Tracing

The low-frequency vibration when the motor starts/ stops can be reduced.

Note

The Real Time Monitor Window enables monitoring a specific set of parameters. The parameter values are displayed simultaneously in graphic and digital forms.

The graphic display shows the parameter values per unit time.

Online functions are supported for only one axis at a time.

3

Introduction

Section 1-1

1-1-3 Applicable Drives and Communications

The CX-Drive supports the following drives and communications.

Drive type

Inverters 3G3JX

3G3MX

3G3RX

3G3MX2

3G3JV

3G3MV

Series

3G3RV

(including version-1 models)

Servos SMARTSTEP2

Series

(R7D-BP)

OMNUC G5 Series

(R88D-KT)

OMNUC G5 Series with MECHATROLINK-II

(R88D-KN)

OMNUC G5 Series with EtherCAT

(R88D-KN)

OMNUC G Series

(R88D-GT)

OMNUC G Series with

MECHATROLINK-II

(R88D-GN)

SMARTSTEP A Series

(R7D-AP)

OMNUC W Series

(R88D-WT)

OMNUC W Series with

MECHATROLINK-II

(R88D-WN)

Serial communications

Supported.

*11

Supported.

*12

Supported.

*12

Supported.

*12

Supported.

*11

Supported.

*11

Supported.

*11

Supported.

*11

---

DeviceNet

Communications

MECHA-

TROLINK-II

Supported.

---

Supported.

---

Supported.

*10

---

Supported.

*13

---

Supported.

---

Supported.

---

EtherCAT

---

CompoNet

---

Supported.

---

*1.DeviceNet Communications Unit (3G3AX-RX-DRT-E) required.

*2.CompoNet Communications Unit (3G3AX-RX-CRT-E) required.

*3.USB: Modbus-RTU protocol.

*4.DeviceNet Communications Unit (3G3AX-MX2-DRT) required.

*5.EtherCAT Communications Unit (3G3AX-MX2-ECT) required.

*6.CompoNet Communications Unit (3G3AX-MX2-CRT-E) required.

*7.RS-232C Communications Unit (3G3JV-PSI232JC) or RS-422/485 Communications Unit (3G3JV-PSI485J) required. Uses Modbus-RTU protocol.

*8.RS-422A/485: Modbus-RTU protocol.

*9.DeviceNet Communications Unit (3G3MV-PDRT2) required. Work online when motor operation is stopped.

*10.DeviceNet Communications Unit (3G3RV-PDRT2) required.

*11.RS-232C: Special protocol.

*12.USB: Special protocol.

*13.MECHATROLINK-II Interface Unit (JUSP-NS115/FNY-NS115) required.

Refer to 1-3 System Configuration for the system configuration.

4

Introduction

Section 1-1

1-1-4 Files Created by CX-Drive

The CX-Drive creates the following files.

File type File name extension

Workspace file

.sdw

Drive file .sdd

Monitor review file

.sdm

Contents

Contains the tree for all related drive files. This file contains the relative path name for each data file.

Note Relative path information is held, so files can be moved as long as the relative position of all drive data files is the same

(CX-Drive Ver. 1.3 or higher).

Each drive file

Data of the Real Time Trace or Data Trace.

Text file for drive file

.csv or

.txt

Each drive file

Saving method

File - Save Workspace or

Save as Workspace...

File - Save or Save As...

Select the Save to File

Option on the Review Set-up

Tab Page in the Real Time

Trace or Data Trace Window.

File - Export

Note

Consecutive parameters can be exported to Microsoft Excel via the clipboard by selecting the required parameters with the mouse or from the keyboard

(Shift + Cursor Keys) and then selecting Edit - Copy from the menu.

The CX-Drive can import the following data files.

File type

Text file

File name extension

.txt

WMON data file .usr

Contents

Drive file

Saving method

File - Import

1-1-5 Computer System Requirements

Refer to the CX-One Setup Manual (W463) for the computer system requirements for the CX-Drive.

1-1-6 Confirming Product Contents

Refer to the following manual for the product configuration of the CX-One, which contains the CX-Drive.

Cat. No.

W463

Model number

CXONE-@@@@C-

V@/@@@@D-V@

Manual name

CX-One FA Integrated

Tool Package Setup

Manual

Contents

Provides an overview of the

CX-One FA Integrated Tool and installation procedures.

For Computer System Requirements and Product Contents of CX-Drive standalone product WS02-DRVC1, refer to the Product Guide in the package.

5

Installation

Section 1-2

1-2 Installation

1-2-1 Required Software

To use the CX-Drive, the software applications listed below must be installed on the same computer.

• CX-Drive

• Communications driver: CX-Server (including CX-Server Driver Management Tool)

CX-Drive Availability

Refer to the following manual for installation procedures for the CX-One Package.

Cat. No.

W463

Model number

CXONE-@@@@C-

V@/@@@@D-V@

Manual name

CX-One FA Integrated

Tool Package Setup

Manual

Contents

Provides an overview of the CX-One FA Integrated

Tool and installation procedures.

For installing procedures of CX-Drive standalone product WS02-DRVC1, refer to the Product Guide in the package.

6

System Configuration

1-3 System Configuration

1-3-1 Inverter Connection

USB direct connection

CX-Drive

Inverter

USB

USB Cable

(A - miniB)

USB

Connector

Section 1-3

Note

Please use a 2m or shorter USB cable.

7

System Configuration

Direct serial connection

Configuration for 3G3JX/MX/RX

CX-Drive

USB

USB-RS422

Convert Cable

(3G3AX-PCACN2)

Detach Digital

Operator.

FREF FOUT

F/R

IOUT MNTR

LO/RE PRGM

RUN

STOP

RESET

Inverter

SYSDRIVE

RUN

ALARM

Digital Operator connector

Section 1-3

Note

3G3JX/MX/RX

3G3JX : Set parameter C070=02(OPE).

3G3MX/RX : Remove front digital operator panel to connect communication cable.

3G3JX/MX :Turn the RS485/OPE switch to OPE side.

USB-RS422 convert cable for PC-3G3JX/MX/RX connection is 3G3AX-

PCACN2.

Refer to following figure to connect general purpose USB-RS422 convert cable in the market to 3G3JX/MX/RX connector.

USB RS422

General purpose USB-RS422 convert cable

Signal

TX+

TX-

RX+

RX-

GND

3G3JX/MX/RX

RJ45 connector

Pin No.

Signal

RX+ Receive +

RX-

TX+

TX-

GND

Receive -

Send +

Send -

8

System Configuration

Configuration for 3G3JV/MV/RV

CX-Drive

RS-232C

Modbus-RTU

Detach Digital

Operator.

FREF

F/R

FOUT IOUT MNTR

LO/RE PRGM

RUN

STOP

RESET

Inverter

Computer-Inverter

Connecting Cable

SYSDRIVE

RUN

ALARM

Digital Operator connector

Section 1-3

Required devices

Caution

3G3JX

3G3MX

3G3RX

3G3JV

Model Required Devices

USB - RS422 Convert Cable (3G3AX-PCACN2)

3G3IV-PWV103 Computer-Inverter Connecting Cable and

3G3JV-PSI232JC RS-232C Communications Unit

3G3IV-PWV103 Computer-Inverter Connecting Cable

3G3MV

3G3RV (-V1)

*1.Remove the Digital Operator from the Inverter and connect the cable to the

Digital Operator connector.

The CS1W-CIF31 Serial Conversion Cable cannot be used to connect a computer running the CX-

Drive to the 3G3MV. (See the following note.).

9

System Configuration

Note

Section 1-3

USB-Serial Conversion Cables That Can Be Used

For 3G3JV- and 3G3RV-series Inverters: CS1W-CIF31 USB-Serial Conversion Cable.

(The commercially available products listed below can also be used.)

For 3G3MV-series Inverters: The CS1W-CIF31 cannot be used. Use the commercially available products listed below.

Commercially Available USB-Serial Conversion Cables

BHS-US01/GP manufactured by Buffalo

USB-CVRS9 manufactured by Sanwa

10

System Configuration

PLC Serial

Communications Unit

/ Board connection

Configuration

Section 1-3

CX-Drive

For Peripheral Port :

CS1W-CN226 or

CS1W-CN626

For RS-232C Port:

XW2Z-200S-CV or

XW2Z-500S-CV

Or via network

RS-232C

Peripheral port

Or RS-232C port

PA205R

POWER

L2/N

SYSMAC

CJ1G-CPU44

PROGRAMMABLE

CONTROLLER

RUN

ERR/ALM

INH

COMM

OPEN

MCPWR

BUSY

PERIPHERAL

RUN

OUTPUT

AC240V

DC24V

PORT

CS/CJ-series Serial

Communications Unit / Board

(*1)

CS/CJ-series

PLC

RS-422A/485

Modbus-RTU

FREF

F/R

FOUT IOUT MNTR

LO/RE PRGM

RUN

STOP

RESET

SYSDRIVE

RUN

ALARM

Inverter

Required devices

*1.

CS/CJ-series Serial Communications Board/Unit Ver. 1.2 or later.

Note

3G3JV

3G3MV

Model

3G3RV (-V1)

Required Devices

3G3JV-PSI485J RS-422/485 Communications Unit

RS-422/485 communications are built into the Inverter.

The Serial Gateway Mode is used as the serial communications mode for the

RS-422A/485 port.

USB-Serial Conversion Cables That Can Be Used

For 3G3JV- and 3G3RV-series Inverters: CS1W-CIF31 USB-Serial Conversion Cable.

11

System Configuration

PLC DeviceNet connection

Configuration

Section 1-3

CX-Drive

For Peripheral Port :

CS1W-CN226 or

CS1W-CN626

For RS-232C Port :

XW2Z-200S-CV or

XW2Z-500S-CV

Or via network

RS-232C

Peripheral port

Or RS-232C port

PA205R

POWER

SYSMAC

CJ1G-CPU44

PROGRAMMABLE

CONTROLLER

ERR/ALM

INH

PRPHL

OPEN

MCPWR

BUSY

AC100-240V

INPUT

L2/N

PERIPHERAL

RUN

AC240V

PORT

CS/CJ-series

DeviceNet Unit

CS/CJ-series

PLC

DeviceNet

FREF FOUT

F/R

IOUT MNTR

LO/RE PRGM

RUN

STOP

RESET

SYSDRIVE

RUN

ALARM

Inverter

Required devices

3G3JV

3G3MV

Model

3G3RV (-V1)

3G3RX

3G3MX2

Required Devices

---

3G3MV-PDRT2 DeviceNet Communications Unit

3G3RV-PDRT2 DeviceNet Communications Card

3G3AX-RX-DRT-E DeviceNet Communications Unit

3G3AX-MX2-DRT DeviceNet Communications Card

*1.DeviceNet connection is not available.

*2.Work online when motor operation is stopped.

12

System Configuration

PLC CompoNet connection

Configuration

Section 1-3

CX-Drive

For Peripheral Port :

CS1W-CN226 or

CS1W-CN626

For RS-232C Port :

XW2Z-200S-CV or

XW2Z-500S-CV

Or via network

RS-232C

Peripheral port

Or RS-232C port

PA205R

POWER

SYSMAC

CJ1G-CPU44

RUN

ERR/ALM

INH

OPEN

MCPWR

BUSY

L2/N

PERIPHERAL

RUN

AC240V

PORT

CS/CJ-series

CompoNet Unit

CS/CJ-series

PLC

CompoNet

FREF

F/R

FOUT IOUT MNTR

LO/RE PRGM

RUN

STOP

RESET

SYSDRIVE

RUN

ALARM

Inverter

Required devices

3G3RX

Model

3G3MX2

Required Devices

3G3AX-RX-CRT-E CompoNet Communications Unit

3G3AX-MX2-CRT-E CompoNet Communications Card

13

System Configuration

1-3-2 Servo Connection

USB direct connection

USB

CX-Drive

Servo Drive

USB Cable

(A Connector - mini B Connector)

USB

Connector

Section 1-3

Required devices

Model

R88D-KT

R88D-KN

Required Devices

USB cable (A Connector - mini B Connector)

Note

Please use a 2m or shorter USB cable.

14

System Configuration

Direct serial connection

Configuration

Required devices

Section 1-3

CX-Drive

RS-232C

Computer Monitor Cable

POWER ALM

CN3

Servo

CN1

CN2

CNB

CNA

Model

SMARTSTEP2

Series

(R7D-BP)

OMNUC G Series

(R88D-GT)

OMNUC G Series

(R88D-GN)

SMARTSTEP A

Series

(R7D-AP)

OMNUC W Series

(R88D-WT)

OMNUC W Series

(R88D-WN)

Required Devices

R88A-CCG002P2 Computer Monitor Cable

R7A-CCA002P2 Computer Monitor Cable

R88A-CCW002P2 Computer Monitor Cable

---

*1.R88D-GT Serial port for Computer is CN3B.

Multiple R88D-GT can be connected with R88A-CCG001P4 or R88A-

CCG0R5P4 (first drive No. 0’s CN3A to next drive No. n’s CN3B, and so on) and one Computer can be online to another R88D-GT through these connections.

*2.Direct serial connection is not available.

15

System Configuration

PLC Serial

Communications Unit

/ Board connection

With Servo Relay Unit to

Control Servo

• Configuration

CX-Drive

Section 1-3

For Peripheral Port :

CS1W-CN226

CS1W-CN626

For RS-232C Port :

XW2Z-200S-CV

XW2Z-500S-CV

RS-232C

Peripheral Port

Or RS-232C Port

PA205R

POWER

SYSMAC

CJ1G-CPU44

RUN

ERR/ALM

INH

OPEN

MCPWR

BUSY

L2/N

PERIPHERAL

RUN

AC240V

PORT

CS/CJ-series Serial Communications

Unit / Board (*1)

RS-422A/485

Serial Communications Unit / Board

Connecting Cable

NC Y

OFF

TERM

CS/CJ-series

PLC

Servo Relay Unit

Servo

*1. CS/CJ-series Serial Communications Unit / Board Ver. 1.2 or later

16

System Configuration

Section 1-3

• Required devices

Note

Model

SMARTSTEP2

Series

(R7D-BP)

OMNUC G Series

(R88D-GT)

OMNUC G Series

(R88D-GN)

SMARTSTEP A

Series

(R7D-AP)

OMNUC W Series

(R88D-WT)

---

Required Devices

XW2Z-@@@J-CJ Serial Communications Unit / Board Connecting Cable + XW2B-40J6-4A Servo Relay Unit + XW2Z-

@@@J-B7 SMARTSTEP A-series Connecting Cable.

XW2Z-@@@J-CJ Serial Communications Unit / Board Connecting Cable + XW2B-40J6-4A Servo Relay Unit + XW2Z-

@@@J-B8 OMNUC W-series Connecting Cable.

---

OMNUC W Series

(R88D-WN)

*1.Serial communication via PLC is not available.

*2.Serial communication is not available.

The Serial Gateway Mode is used as the serial communications mode for the

RS-232C port.

17

System Configuration

Without Servo Relay Unit

• Configuration

CX-Drive

Section 1-3

For Peripheral Port :

CS1W-CN226

CS1W-CN626

For RS-232C Port :

XW2Z-200S-CV

XW2Z-500S-CV

RS-232C

Peripheral Port

Or RS-232C Port

PA205R

POWER

SYSMAC

CJ1G-CPU44

PROGRAMMABLE

CONTROLLER

RUN

ERR/ALM

INH

PRPHL

COMM

OPEN

MCPWR

BUSY

AC100-240V

INPUT

L2/N

PERIPHERAL

RUN

OUTPUT

AC240V

DC24V

PORT

CS/CJ-series Serial Communications

Unit / Board (*1)

RS-232C

RS-232C adaptor

(Commercially available)

Computer Monitor Cable

CS/CJ-series

PLC

Servo

*1. CS/CJ-series Serial Communications Unit / Board Ver. 1.2 or later

• Required devices

Note

Model

SMARTSTEP2

Series

(R7D-BP)

OMNUC G Series

(R88D-GT)

OMNUC G Series

(R88D-GN)

SMARTSTEP A

Series

(R7D-AP)

OMNUC W Series

(R88D-WT)

OMNUC W Series

(R88D-WN)

---

Required Devices

R7A-CCA002P2 (2 m) + RS-232C 9-pin adaptor

R88A-CCW002P2 (2 m) + RS-232C 9-pin adaptor

*1.Serial communication via PLC is not available.

*2.Serial communication is not available.

The Serial Gateway Mode is used as the serial communications mode for the

RS-232C port.

18

System Configuration

PLC (MCH / NCF Unit)

MECHATROLINK-II connection

Configuration

Section 1-3

CX-Drive

For Peripheral Port :

CS1W-CN226

CS1W-CN626

For RS-232C Port :

XW2Z-200S-CV

XW2Z-500S-CV

RS-232C

Peripheral Port

Or RS-232C Port

PA205R

POWER

SYSMAC

CJ1G-CPU44

RUN

ERR/ALM

INH

OPEN

MCPWR

BUSY

L2/N

PERIPHERAL

RUN

AC240V

PORT

NCF71

MLK

BCDEF

ERC

ERM

UNIT

No.

CS/CJ-series

MECHATROLINK-II

Position Control Unit

Or Motion Control Unit

CS/CJ-series

PLC

MLK

MECHATROLINK-II

L1C

L2C

B1/○

○

R88D-WN01H-ML2

AC SERVO DRIVER

POWER

COM

SW1

2 5 6

200V

Servo

100W

A/B

CHARGE

L1C

L2C

B1/○

○

R88D-WN01H-ML2

AC SERVO DRIVER

POWER

COM

SW1

2 5 6

CHARGE

200V

100W

Servo

A/B

Required devices

Model

SMARTSTEP2

Series

(R7D-BP)

OMNUC G Series

(R88D-GT)

OMNUC G Series

(R88D-GN)

SMARTSTEP A

Series

(R7D-AP)

OMNUC W Series

(R88D-WT)

OMNUC W Series

(R88D-WN)

---

Required Devices

MECHATROLINK-II Cable

MECHATROLINK-II Interface Unit (FNY-NS115)

MECHATROLINK-II Cable

*1.MECHATROLINK-II communication via PLC is not available.

*2.CX-Drive does not support R88D-GN MECHATROLINK-II connection.

Controller support tool (CX-Motion-NCF) can be used.

19

System Configuration

PLC EtherCAT connection

Configuration

CX-Drive

Peripheral Port

Or RS-232C Port

Or USB port (CJ2 only)

RS-232C

PA205R

POWER

SYSMAC

CJ1G-CPU44

PROGRAMMABLE

CONTROLLER

RUN

ERR/ALM

INH

COMM

OPEN

MCPWR

BUSY

L2/N

PERIPHERAL

RUN

OUTPUT

AC240V

DC24V

For Peripheral Port:

CS1W-CN226

CS1W-CN626

For RS-232 Port:

XW2Z-200S-CV

XW2Z-500S-CV

For USB Port:

Commercially available USB cable (CJ2 only)

PORT

* USB 2.0 or 1.1 cable (A connector - B connector):

5.0 m max.

CJ-series EtherCATcompatible Position

Control Unit Or

Motion Control Unit

EtherCAT

L1C

L2C

B1/○

○

R88D-WN01H-ML2

AC SERVO DRIVER

POWER

COM

SW1

5 6

200V

100W

CHARGE

A/B

Servo

CJ-series

PLC

Section 1-3

Inverter

Required devices

Model

OMNUC G5 Series

(R88D-KN@@@-ECT)

3G3MX2

Required Devices

Ethernet cable

EtherCAT Communications Unit

(3G3AX-MX2-ECT)

20

SECTION 2 Basic Operations

This section provides basic operating procedures for using the CX-Drive, including descriptions of CX-Drive windows and parameter setting procedures.

2-1 Overall Operating Procedure. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-2 Starting the CX-Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-3 Creating New Drive Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-4 User Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-5 Editing Drive Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

21

Overall Operating Procedure

2-1 Overall Operating Procedure

Section 2-1

2-1-1 Inverters

1,2,3...

1. Install the software.

• Install the CX-Server and CX-Drive from the CX-One.

• Refer to the CX-One Setup Manual (Cat. No. W463).

• Follow the setup display about CX-One Autoupdate or CX-Drive standalone install.

2. Connect the drive to the computer.

• Connect the CX-Drive (computer) to the drive (Inverter or Servo) using one of the system configurations.

• Refer to 1-3 System Configuration

3. Start the CX-Drive.

• Select Program - OMRON - CX-One - CX-Drive - CX-Drive from the

Windows Start Menu.

4. Create a new drive file.

• Detect the drives connected online automatically and create drive file for the desired drive.

Select File - Autodetect from the menu bar.

• Create a new drive file on the computer without a drive.

a. Select File - New from the menu bar and then select the drive type in the New Drive Dialog Box.

Select Inverter as the drive type and then select one of the following series.

• 3G3JX

• 3G3MX

• 3G3RX (For version 1 of the 3G3RX, click the Settings Button and select -V1 for the Specification.)

• 3G3MX2

• 3G3JV

• 3G3MV

• 3G3RV (For version 1 of the 3G3RV, click the Settings Button and select -V1 for the Specification.) b. Select the connection type in the New Drive Dialog Box.

Connection Types Connection

Via PLC (DeviceNet)

Via PLC (SCU/SCB)

PLC DeviceNet connection

PLC Serial Communications Unit / Board connection

Via PLC (NC@8@/ EtherCAT) PLC EtherCAT connection

Direct Direct USB/ serial connection

22

Overall Operating Procedure

Section 2-1

5. Edit the parameters.

• Edit the parameters for the Inverter.

• In the Workspace, double-click Parameter edit and then the required categories in the drive file.

• Edit parameters in numeric order or by functional category.

6. Connect online to the drive.

• Select Drive - Work Online from the menu bar.

7. Transfer and verify the parameters.

• Select Drive - Transfer - To drive from the menu bar.

8. Tune and test operation.

• Test Run

Double-click Test Run in the Workspace.

Perform the following:

Forward / Reverse operation, stopping, frequency references, acceleration / deceleration, S-curve display, and dwelling.

• Auto Tune (3G3RV only)

Double-click Auto Tune in the Workspace.

Enter the motor parameters, perform auto-tuning, and then save the new parameters.

9. Monitor operation.

• Perform a Real Time Trace.

Double-click Real Time Trace in the Workspace.

• Check the status.

Double-click Status in the Workspace.

10. Save the data.

• Save the Workspace and/or the drive file.

• Select File - Save Workspace, or select File - Save as Workspace...

23

Overall Operating Procedure

2-1-2 Servo

1,2,3...

Section 2-1

1. Install the software.

• Install the CX-Server and CX-Drive from the CX-One.

• Refer to the CX-One Setup Manual (Cat. No. W463).

• Follow the setup display about CX-One Autoupdate or CX-Drive standalone install.

2. Connect the drive to the computer.

• Connect the CX-Drive (computer) to the drive (Inverter or Servo) using one of the system configurations.

• Refer to 1-3 System Configuration

3. Start the CX-Drive.

• Select Program - OMRON - CX-One - CX-Drive - CX-Drive from the

Windows Start Menu.

4. Create a new drive file.

• Detect the drives connected online automatically and create drive file for the desired drive.

Select File - Autodetect from the menu bar.

• Create a new drive file on the computer without a drive.

c. Select File - New from the menu bar and then select the drive type in the New Drive Dialog Box.

Select Servo as the drive type and then select one of the following series.

Model

R7D-BP

Series Name

SMARTSTEP 2 Series

R88D-GT OMNUC G Series

R88D-GN OMNUC G Series with MECHATROLINK-II

R88D-KT OMNUC G5 Series

R88D-KN OMNUC G5 Series with MECHATROLINK-II

R7D-AP

R7D-ZN

OMNUC G5 Series with EtherCAT

SMARTSTEP A Series

SMARTSTEP Junior with MECHATROLINK-II

R88D-WT OMNUC W Series

R88D-WN OMNUC W Series with MECHATROLINK-II d. Select the connection type in the New Drive Dialog Box.

Connection Types

Via PLC (MCH /

MECHATROLINK-II)

Via PLC (NCF /

MECHATROLINK-II)

Connection

MECHATROLINK-II connection Motion

Control Unit

MECHATROLINK-II connection Position

Control Unit

Via PLC (SCU/SCB) PLC Serial Communications Unit / Board connection

Via PLC (NC@8@/ EtherCAT) PLC EtherCAT connection

Direct Direct USB/ serial connection

24

Overall Operating Procedure

Section 2-1

5. Edit the parameters.

• Edit the parameters for the Servo.

• In the Workspace, double-click Parameter edit and then the required categories in the drive file.

• Edit parameters in numeric order or by functional category.

6. Connect online to the drive.

• Select Drive - Work Online from the menu bar.

7. Transfer and verify the parameters.

• Select Drive - Transfer - To drive from the menu bar.

8. Tune and test operation.

• Test Run (R88D-KT, R88D-KN, R88D-GT, R88D-GN, R7D-AP, R88D-WT)

Double-click Test Run in the Workspace.

Perform the following: Jogging, origin searches, forward/reverse operation, stopping, and speed control.

• Auto Tune (R7D-BP, R88D-KT, R88D-KN, R88D-GT, R88D-GN, R7D-AP,

R88D-WT)

Double-click Auto Tune in the Workspace.

The auto-tuning function calculates the load moment of inertia during

Servo operation and sets parameters to achieve Servo gains that are consistent with the machine rigidity settings.

• Offset (R7D-AP, R88D-WT)

Double-click Offset in the Workspace.

• Absolute Encoder Setting (R88D-GT, R88D-WT)

Double-click Absolute Encoder in the Workspace.

An absolute encoder and multi-turn limit can be set.

• FFT (R7D-BP, R88D-KT, R88D-KN, R88D-GT, R88D-GN)

Double-click FFT in the Workspace.

The FFT analysis can be performed.

9. Monitor operation.

• Perform a Real Time Trace. (R7D-AP or R88D-WT only)

Double-click Real Time Trace in the Workspace.

• Check the status.

Double-click Status in the Workspace.

10. Save the data.

• Save the Workspace and/or the drive file.

• Select File - Save Workspace, or select File - Save as Workspace...

25

Starting the CX-Drive

Section 2-2

2-2 Starting the CX-Drive

Select Program - OMRON - CX-One - CX-Drive - CX-Drive from the Windows Start Menu to start the CX-Drive. (The path depends on where the CX-

Drive was installed.)

Note

When using the 3G3MV or 3G3RV as a DeviceNet slave, right-click the

Inverter on the CX-Integrator network configuration, and select Start special

application - Start with Settings Inherited from the pop-up menu.

The following window will be displayed when the CX-Drive starts.

26

Creating New Drive Files

Section 2-3

2-3 Creating New Drive Files

There are two methods to create a new drive file in the Workspace.

Method 1: Go online and automatically detect the connected drives to create the drive file.

Method 2: Create a new data file without using a connected drive.

2-3-1 Method 1: Automatically Detecting the Connected Drives

Serial Direct

Connection

1,2,3...

1. Select Drive - Autodetect Options.

2. Select the target within known scope.

This dialogue is the same with Tool Option menu, Autodetect tab.

27

Creating New Drive Files

Section 2-3

3. Push Advanced Options button, and select further settings.

4. Select Drive-Autodetect menu.

CX-Drive searches selected targets in option settings, and creates the drive data for detected target.

28

Creating New Drive Files

Other Connections

1,2,3...

Section 2-3

1. Select Drive- Autodetect Option.

“via PLC” can be selected besides the Serial Direct Connections.

For Inverters:

• Via PLC (DeviceNet)

• Via PLC (SCU/SCB)

• Via PLC (

NC@8@/ EtherCAT)

For Servos:

• Via PLC (MCH/MECHATROLINK II)

• Via PLC (NC

71/MECHATROLINK II)

• Via PLC (SCU/ SCB)

• Via PLC (

NC@8@/ EtherCAT)

2. Push Advanced Options and select settings.

3. Select Drive - Autodetect.

4. The rest of the procedure is the same as Serial Direct Connection.

29

Creating New Drive Files

Section 2-3

2-3-2 Method 2: Creating a New Data File without a Connected Drive

Select File - New. The following New Drive Dialog Box will be displayed.

Drive Name

Drive Type

Any name may be input for the drive name. The default name is “Drive” plus a sequential number.

Drive Type Selection

Select Inverter or Servo.

Drive Type Name

For an Inverter, select one of the following series from the pull-down list.

• 3G3JX

• 3G3MX

• 3G3RX

• 3G3MX2

• 3G3JV

• 3G3MV

• 3G3RV (See note.)

Note For version 1 of the 3G3RV, select 3G3RV, click the Settings Button and select -V1 from the Specification pull-down list.

For a Servo, select one of the following series from the pull-down list.

• R7D-BP: SMARTSTEP2 Series

• R88D-GT: OMNUC G Series

• R88D-GN: MECHATROLINK-II OMNUC G Series

• R88D-KT: OMNUC G5 Series

• R88D-KN: MECHATROLINK-II OMNUC G5 Series

EtherCAT OMNUC G5 Series

• R7D-AP: SMARTSTEP A Series

• R88D-WT: OMNUC W Series

• R88D-WN: MECHATROLINK-II OMNUC W Series

30

Creating New Drive Files

Inverter Series

Dialog box

Section 2-3

Detailed Drive Settings

Click the Settings… Button to open the Detail Setting Dialog Box.

Inverters

3G3JX 3G3MX 3G3RX

Drive Type Installation

Type/Option

Voltage

Class

Options

Maximum

Motor

Capacity

Specifications

Option

Board

2/E

002, 004, 007, 015, 022, 037 002, 004, 007, 015, 022, 037,

055, 075

---

2/E, 4

---

2, 4

004, 007, 015, 022, 037, 055,

075, 110, 150, 185, 220, 300,

370, 550

None or V1

3G3AX-RX-CRT

3G3AX-RX-DRT

Inverter Series

Dialog box

3G3MX2

Drive Type Installation

Type/Option

Voltage

Class

Maximum

Motor

Capacity

Specifications

Options Option

Board

2/B, 4

001, 002, 004, 007, 015,

022,030, 037, 040, 055, 075,

110,150

---

3G3AX-MX2-ECT

3G3AX-MX2-CRT

3G3AX-MX2-DRT

31

Creating New Drive Files

Inverter Series

Dialog box

3G3JV 3G3MV

Section 2-3

3G3RV

Drive Type Installation

Type/Option

Voltage

Class

Options

Maximum

Motor

Capacity

Specifications

Option

Board

1, 2, 4, B

001, 002, 004, 007, 015, 022,

037

---

A, X

2, 4, B

001, 002, 004, 007, 015, 022,

037, 040, 055, 075

---

3G3MV-PDRT2

A, B, X

2, 4

004, 007, 015, 022, 037, 055,

075, 110, 150, 185

None or V1

3G3RV-PDRT2

32

Creating New Drive Files

Servo Series

Dialog box

Servos

R7D-BP R88D-GT

Section 2-3

R88D-GN

Drive Type Maximum

Motor

Capacity

Voltage

Class

Specifications

A5 (50 W) to 04 (400 W)

H (200 V), HH(200V),

L (100 V)

---

Servo Series

Dialog box

R88D-KT

01 (100 W) to 75 (7.5 kW) 01 (100 W) to 75 (7.5 kW)

H (200 V), L (100 V)

---

H (200 V), L (100 V)

MECHATROLINK-II (ML2)

R88D-KN

Drive Type Maximum

Motor

Capacity

Voltage

Class

Specifications

A5(50W) to 50(5kW)

H(200V), L(100V), F(400V)

---

A5(50W) to 50(5kW)

H(200V), L(100V), F(400V)

MECHATROLINK-II (ML2)

EtherCAT (ECT)

33

Creating New Drive Files

Servo Series

Dialog box

R7D-AP R88D-WT

Section 2-3

R88D-WN

Drive Type Maximum

Motor

Capacity

Voltage

Class

Specifications

A3 (30 W) to 08 (750 W)

H (200 V), L (100 V)

---

A3 (30 W) to 150 (15 kW) A5 (50 W) to 30 (3 kW)

H (200 V), HF (400 V),

HH (200 V), HL (150 V)

---

H (200 V), L (100 V)

MECHATROLINK-II (ML2)

34

Creating New Drive Files

Connection Type

Section 2-3

Connection Type Selection

Select one of the following connection types for the Connection Type.

Selection

Direct

Via PLC

(SCU/ SCB)

Via PLC

(DeviceNet)

Via PLC

(CompoNet)

Via PLC

(NC@8@/

EtherCAT)

Inverters

Connection type

Direct USB Connection

Direct Serial Connection

3G3JX

Inverter Series

3G3MX 3G3RX 3G3MX2

Not supported.

Supported.

Not supported.

PLC Serial Communications

Unit / Board Connection

Not supported.

PLC DeviceNet Connection Not supported.

Not supported.

Supported.

PLC CompoNet Connection Not supported.

Not supported.

Supported.

PLC EtherCAT Connection Not supported.

Not supported.

Supported.

Selection

Direct

Via PLC

(SCU/SCB)

Via PLC

(DeviceNet)

Via PLC

(CompoNet)

Via PLC

(NC@8@/

EtherCAT)

Connection type

Direct USB Connection

Direct Serial Connection

PLC Serial Communications

Unit / Board Connection

3G3JV

Inverter Series

3G3MV 3G3RV

Not supported.

Supported.

PLC DeviceNet Connection Not supported.

Supported.

PLC CompoNet Connection Not supported.

Not supported.

PLC EtherCAT Connection Not supported.

Not supported.

Servos

Selection Connection type

R7D-BP

Servo Series

R88D-KT R88D-KN R88D-GT R88D-GN

Direct Direct USB Connection

Direct Serial Connection

Not supported.

Supported.

Not supported.

Supported.

Not supported.

Via PLC (SCU/SCB) PLC Serial Communications Unit / Board Connection

Via PLC (MCH/

MECHATROLINK-II)

PLC (MCH Unit)

MECHATROLINK-II

Connection

Via PLC (NC@71/

MECHATROLINK-II)

Via PLC (NC@8@/

EtherCAT)

PLC (NC@71 Unit)

MECHATROLINK-II

Connection

Not supported.

PLC EtherCAT Connection Not supported.

Not supported.

Supported.

Not supported.

*1. Only models with built-in EtherCAT communications.

35

Creating New Drive Files

Selection Connection type

Direct Direct USB Connection

Direct Serial Connection

R7D-AP

Not supported.

Supported.

Via PLC

(SCU/ SCB)

Via PLC

(MCH/MECHATROLINK-II)

Via PLC (NC@71/

MECHATROLINK-II)

PLC Serial communications

Unit / Board Connection

PLC (MCH Unit)

MECHATROLINK-II

Connection

PLC (NC@71 Unit)

MECHATROLINK-II

Connection

Supported.

Not supported.

Servo Series

Not

R88D-WT

supported.

Supported.

Supported with FNY-NS115.

R88D-WN

Not supported.

Supported.

Supported with FNY-NS115.

Supported.

Section 2-3

Network Settings

Click the Settings... Button to the right of the Connection Type Field.

The following dialog box will be displayed.

Detailed Settings for Direct Connections

Network Tab Page Drive Tab Page Item

Dialog box

36

Inverter • Slave Unit Address: 1 to 32 (Modbus-RTU slave address) (See note 1.)

• Communications Timeout: 500 to 5,000 ms

• Number of retries: 1 to 6

Servo

• Slave Unit Address: 0 to F (Servo Drive communications Unit No.) (See note 2.)

• Communications Timeout: 500 to 5,000 ms

• Number of retries: 1 to 6

• Port Selection: COM1, COM2, etc.

• Baud Rate: 2400, 9600, 19200, or 38400 bits/s

• Parity: None, Odd, or Even

• Data bits: 7 or 8

• Stop bits: 1 or 2

• Port Selection: COM1, COM2, etc.

• Baud Rate: 9600 or 19200 bits/s

• Parity: None, Odd, or Even

• Data bits: 7 or 8

• Stop bits: 1 or 2

Note

(1) Modbus-RTU Slave Address Setting:

The Modbus-RTU slave address (01 to 32) is set in the following parameter using the Digital Operator on front of the Inverter before connecting the CX-Drive.

Inverter Series

Parameter No.

n70

3G3JV n153

3G3MV

H5-01

3G3RV

Creating New Drive Files

Section 2-3

(2) The Servo Communications Unit No. (0 to F) is set using the following method before connecting the CX-Drive.

Servo Series

Method

R7D-AP

Unit number rotary switch on the Servo

R88D-WT

Change to the Setting Mode using the Servo front panel settings and set the unit number in digit 2 of Pn000.

Via PLC (SCU/SCB) Connections (Except R88D-WN)

Network Tab Page Gateway PLC Tab Page Item

Dialog box

Inverter • Slave Unit Address: 1 to 32 (Modbus-RTU slave address) (See note 1.)

• Master Unit Address: 0 to 15 (Unit address for

Serial Communications Unit).

Or select CS-Series Inner Board Option (Serial

Communications Board).

• Port Selection: Port 1 or Port 2

Servo

• Slave Unit Address: 0 to F (Servo Communications Unit No.) (See note 2.)

• Master Unit Address: 0 to 15 (Unit Address for

Serial Communications Unit).

Or select CS-Series Inner Board Option (Serial

Communications Board).

• Port Selection: Port 1 or Port 2

Click the Properties Button to set the PLC (with a

Serial Communications Unit/Board) to use as the gateway.

Note

(1) Modbus-RTU Slave Address Setting:

The Modbus-RTU slave address (01 to 32) is set in the following parameter using the Digital Operator on front of the Inverter before connecting the CX-Drive.

Inverter Series

Parameter No.

n70

3G3JV n153

3G3MV

H5-01

3G3RV

(2) The Servo Communications Unit No. (0 to F) is set using the following method before connecting the CX-Drive.

Servo Series

Method

R7D-AP

Unit number rotary switch on the Servo

R88D-WT

Change to the Setting Mode using the Servo front panel settings and set the unit number in digit 2 of Pn000.

37

Creating New Drive Files

Section 2-3

Via PLC (DeviceNet) Connections or Via PLC (CompoNet) Connections

(3G3MV, 3G3RV)

Network Tab Page Gateway PLC Tab Page Item

Dialog box

Inverter • Slave Unit Address: 0 to 63 (DeviceNet or CompoNet slave address)

• Master Unit Address: 0 to 15 (DeviceNet or

CompoNet unit number)

Click the Properties Button to set the PLC (with a

DeviceNet or CompoNet Unit) to use as the gateway.

Via PLC (MCH/MECHATROLINK-II) or

Via PLC (NC@71/MECHATROLINK-II) (R88D-WN) or

Via PLC (NC@8@/EtherCAT)(R88D-KN)

Network Tab Page Gateway PLC Tab Page Item

Dialog box

Inverter • Slave Unit Address: 1 to 80 (See Note).

• Master Unit Address: 0 to 15

Servp

• Axis Number: 1 to 32 for MCH or

1 to 16 for NC @71

• Master Unit Address: 0 to 15 (MCH or NC unit number)

Note

Click the Properties Button to set the PLC (with a

MCH or NC Unit) to use as the gateway.

Depending on the model of the NC Unit to be mounted, some numbers are not available.

Refer to the manuals of the NC Unit for details.

38

User Interface

2-4 User Interface

2-4-1 Window Structure

Workspace

Windows

Section 2-4

Toolbar

Output Window

Status bar

2-4-2 Functions

Functions Table

Folder Contents

Parameter Editor Edits the parameters of Inverters or Servos.

Graphs Displays parameters graphically.

Diagrams

Status

Displays parameters in block diagrams.

Displays online drive status.

Monitor

Tuning

Settings

Enables realtime traces and other monitoring of online drives.

Enables test runs and auto-tuning of online drives.

Enables initializing online drives.

39

User Interface

Section 2-4

Functions

Folder

Parameter

Editor

3G3JX

Graphs ---

Diagrams ---

Status OK

Monitor

Tuning

Settings

---

3G3MX

Inverters

3G3RX 3G3MX2 3G3JV

OK OK OK

---

3G3MV

3G3RV

Folder

Parameter

Editor

Graphs ---

Diagrams OK

R7D-BP R88D-KT R88D-

OK OK

---

Status OK OK OK

Monitor

Tuning

Settings

Note

Servos

R88D-GT R88D-

OK OK

---

R7D-AP

---

R88D-WT

---

OK (See note.)

---

R88D-

---

OK OK OK OK OK ---

These functions are not supported when communicating via MECHA-

TROLINK II.

40

User Interface

Section 2-4

Inverters

Folder

Parameter

Editor

Status

Monitor

Tuning

Settings

3G3JX

• Basic Settings

• Analog Input

• Multi-Step Speed, Jogging

• Characteristics, Torque Boost

• DC Injection Braking

• Upper/Lower Limit, Jump

• PID Control

• AVR

• RUN Mode, Accel/Decel Functions

• External Frequency Adjustment

• Operation Frequency

• Frequency Addition

• VR Adjustment

• Restart During Momentary

Power Interruption

• Electronic Thermal

• Overload Limit

• Frequency Pull-In

• Lock

• Non-Stop Function at Momentary Power Interruption

• Initialization

• Multi-Function Input Terminals

• Multi-Function Output Setting

• Level Output Status Setting

• Communication Function Adjustment

• Various Adjustment

• Control Parameters

• Monitor Constants(Fault History/

Trace)

3G3MX

• Basic Settings

• Analog Input

• Multi-Step Speed, Jogging

• Characteristics, Torque Boost

• DC Injection Braking

• Upper/Lower Limit, Jump

• PID Control

• AVR

• RUN Mode, Accel/Decel Functions

• External Frequency Adjustment

• Operation Frequency

• Frequency Addition

• VR Adjustment

• Restart During Momentary

Power Interruption

• Electronic Thermal

• Overload Limit

• Lock

• Initialization

• Multi-Function Input Terminals

• Multi-Function Output Setting

• Level Output Status Setting

• Communication Function Adjustment

• Various Adjustment

• Control Parameters

• Monitor Constants(Fault History/

Trace)

• Digital Inputs

• Digital Outputs

• Inverter Status

• Alarms

• Real Time Trace

---

• Initialize

• Digital Inputs

• Digital Outputs

• Inverter Status

• Alarms

• Real Time Trace

• Test Run

• Initialize

3G3RX

• Basic Settings

• Analog Input

• Multi-Step Speed, Jogging

• Characteristics, Torque Boost

• DC Injection Braking

• Upper/Lower Limit, Jump

• PID Control

• AVR

• RUN Mode, Accel/Decel Functions

• External Frequency Adjustment

• Acceleration/Deceleration

• Operation Frequency

• Restart During Momentary

Power Interruption

• Electronic Thermal

• Overload Limit

• Lock

• Non-Stop Function at Momentary Power Interruption

• Torque Limit

• Vf Free Setting

• Multi-Function Input Terminals

• Multi-Function Output Setting

• Analog Monitor

• Level Output Status Setting

• Communication Function Adjustment

• Various Adjustment

• Meter Adjustment

• Output Terminal Operation Function

• Input Terminal Response

• Control Parameters

• Absolute Position Control

• User Parameter

• Monitor Constants(Fault History/

Trace)

• Digital Inputs

• Digital Outputs

• Inverter Status

• Alarms

• Real Time Trace

---

• Initialize

41

User Interface

Folder

Parameter

Editor

Graphs

Status

Monitor

Tuning

Settings

3G3MX2

• Fault History

• Set-up

• Basic Settings

• Analog Input

• Multi-Step Speed, Jogging

• V/f Profile

• DC Injection Braking

• Limit, Jump

• PID Control

• AVR

• RUN Mode, Accel/Decel Functions

• External Frequency Adjustment

• Acceleration/Deceleration

• Operation Frequency

• Restart After Momentary Power

Interruption

• Electronic Thermal

• Overload Limit

• Lock

• Torque Limit

• Controlled Stop Operation at

Power Loss

• Window Comparator

• Vf Free Setting

• Password

• Multi-Function Input Terminals

• Multi-Function Output Terminals

• Analog Monitor

• Level Output Status Setting

• Communication Function

• Adjustment

• Input/Output Terminals Function

• Control Constants

• Simple Position Control

• Simple Torque Control

• Pulse Input

• Communication Between Inverters

• User Parameter

• Others

• V/f Profile

• Digital Inputs

• Digital Outputs

• Drive Status

• Alarms

• Real Time Trace

• Test Run

• Initialize

42 Section 2-4

User Interface

Folder

Parameter

Editor

3G3JV

• Initialize

• Application

• Tuning

• Reference

• Motor

• Terminal

• Protection

• Operator

• Monitor Constants

Graphs

• Analogue Input 1

• Analogue Output 1

• Jump Frequencies

• V/F Profile

Diagrams ---

Status

Monitor

Tuning

Settings

• Digital Inputs

• Digital Outputs

• Inverter Status 1

• Status Signal

• Alarms

• Real Time Trace

• Test Run

• Initialize

Section 2-4

• Initialize

• Application

• Tuning

• Reference

• Motor

• Options

• Terminal

• Protection

3G3MV

• Operator

• Up 2/Down 2

• Monitor Constants

• Analogue Output 1

• Frequency Reference Input

• Jump Frequencies

• Multifunction Analogue Current

Input

• Multifunction Analogue Voltage

Input

• V/F Profile

• PID Control Loop

• PID Target Value

• PID Feedback Value

• Digital Inputs

• Digital Outputs

• Inverter Status 1

• Status Signal

• Alarms

• Real Time Trace

• Test Run

• Initialize

3G3RV

• Initialize

• Application

• Tuning

• Reference

• Motor

• Options

• Terminal

• Protection

• Special Adjustment

• Operator

• Motor Auto-tuning

• Monitor Constants

• Analogue Input 1

• Analogue Input 2

• Analogue Output 1

• Analogue Output 2

• Jump Frequencies

• V/F Profile

• V/F Profile Motor 2

• PID Control Loop

• Digital Inputs

• Digital Outputs

• Inverter Status 1

• Status Signal

• Alarms

• Real Time Trace

• Test Run

• Auto-tune

• Initialize

• Password Authorization

43

User Interface

Servos

Folder

Parameter

Editor

Diagrams

R7D-BP

• Function Selection Parameters

• Gain Related Parameters

• Position Control Related Parameters

• Internal Speed Control Related Parameters

• Sequence Related Parameters

• Internal Speed Control Mode

• Position Control Mode

Status

Monitor

Tuning

Settings

• CN1 Input Signal Monitor

• CN1 Output Signal Monitor

• Drive Status

• Load Status

• Pulse Status

• Alarms

• Real Time Trace

• Data Trace

• Auto Tune

• Initialize

• Product Information

Section 2-4

R88D-GT R88D-GN

• Function Selection Parameters

• Gain Related Parameters

• Position Control Related Parameters

• Speed Control and Torque Control Related Parameters

• Sequence Related Parameters

• Position Control Mode

• Speed Control Mode

• Torque Control Mode

• CN1 Input Signal Monitor

• CN1 Output Signal Monitor

• Drive Status

• Load Status

• Pulse Status

• Alarms

• Real Time Trace

• Data Trace

• Test Run

• Auto Tune

• Absolute Encoder

• Initialize

• Product Information

Folder

Parameter

Editor

Status

Monitor

Tuning

Settings

R88D-KT

• Basic Parameters

• Gain Parameters

• Vibration Suppression Parameters

• Analog Control Parameters

• I/F Monitor Setting Parameters

• Extended Parameters

• Special Parameters

• CN1 Input Signal Monitor

• CN1 Output Signal Monitor

• Drive Status

• Extended Input Signal

• Extended Output Signal

• Physical Input Signal

• Physical Output Signal

• Pulse Status

• Rotation Hindering

• Status

• Warning Data

• Alarms

• Real Time Trace

• Data Trace

• Test Run

• Auto Tune

• Offset

• Absolute Encoder

• FFT

• Damping Control

• Initialize

R88D-KN

• Basic Parameters

• Gain Parameters

• Vibration Suppression Parameters

• Analog Control Parameters

• I/F Monitor Setting Parameters

• Extended Parameters

• Special Parameters1 to 3

• CN1 Input Signal Monitor

• CN1 Output Signal Monitor

• Drive Status

• Extended Input Signal

• Extended Output Signal

• Physical Input Signal

• Physical Output Signal

• Pulse Status

• Rotation Hindering

• Status

• Warning Data

• Alarms

• Real Time Trace

• Data Trace

• Test Run

• Auto Tune

• Absolute Encoder

• FFT

• Damping Control

• Initialize

44

User Interface

Section 2-4

Folder

Parameter

Editor

R7D-AP

• Function Selection Constants

• Gain Related Constants

• Position Related Constants

• Speed Related Constants

• Torque Related Constants

• Sequence Related Constants

• Other Constants

Diagrams

Status

Monitor

Tuning

Settings

---

• Input signals

• Output signals

• Motion Status

• Alarms

• Real Time Trace

• Data Trace

• Test Run

• Auto Tune

• Offset

• Initialize

• Password Authorization

• Product Information

R88D-WT

• Function Selection Constants

• Gain Related Constants

• Position Related Constants

• Speed Related Constants

• Torque Related Constants

• Sequence Related Constant

• Other Constants

R88D-WN

• Function Selection Constants

• Gain Related Constants

• Position Related Constants

• Speed Related Constants

• Torque Related Constants

• Sequence Related Constants

• Regenerative Resistor Capacity

• Motion Parameters

• MECHATROLINK-II Constants

---

• Position Block Diagram

• Speed Block Diagram

• Torque Block Diagram

• Input signals

• Output signals

• Motion Status

• Alarms

• Real Time Trace

• Data Trace

• Test Run

• Auto Tune

• Offset

• Absolute Encoder

• Initialize

• Module Detection Clear

• Password Authorization

• Product Information

---

45

User Interface

Section 2-4

2-4-3 Menu Commands

File

Menu Submenu/Command

New

Edit

View

Autodetect

Open

Open Workspace

Close Workspace

Save Workspace

Save as Workspace

Save

Save As

Save All

Print Preview

Page Setup

Import

Export

Recent file

Recent Workspace

Exit

Undo

Cut

Copy

Paste

Delete

Select All

Find

Tool Bars

Status Bar

Workbook Mode

Full Screen

Output

Contents

Creates a new drive file.

Detect drives automatically.

Opens an existing drive file (.sdd), or monitor review file (.sdm).

Closes an open drive file (.sdd).

Opens an existing Workspace (.sdw).

Closes the active Workspace (.sdw).

Saves the active Workspace (.sdw).

Saves the active Workspace with a new name (.sdw).

Saves an open drive file using its existing file name (.sdd).

Saves an open drive file using a specified file name and directory (.sdd).

Saves all currently open drive files (.sdd). OK

Prints the current drive file.

Displays a print preview of the drive file in the active window.

Changes printing options, such as margins, include drive information, drive type page heading, etc.

Imports a file from the specified directory. OK

Exports the current drive file to a file in the specified directory as a CSV or text file.

Opens a recent drive file.

Opens a recent Workspace.

Exits the CX-Drive.

Undoes the previous editing operation.

Deletes data from the drive file and places it on the clipboard.

Copies data from the drive file and places it on the clipboard.

Pastes data from the clipboard into the drive file.

Deletes selected data from the drive file.

Selects all the data in the drive file.

OK Searches for a specific item in the drive file.

Shows or hides the toolbars (Standard,

Modes, Drive, View, and Tools).

Shows or hides the status bar for the drive type name and other information.

Shows the selected windows with tabs.

OK Displays the active view in full screen mode.

Shows or hides the output window.

Inverter Servo

OK OK

---

Icon

---

46

User Interface

Section 2-4

Menu

View

Drive

Submenu/Command

Workspace

Motor Management

Zoom

Pan Mode

Cursor Mode

Show Parameter Labels

Show Parameter Value

Show Changes Only

Show Differences Only

Show Invalids Only

Display Format

Contents Inverter

Shows or hides the Workspace window.

Servo

Shows or hides the motor operation window.

OK OK

Zooms in and out using a rectangle, initial setting, etc.

Actives the full scroll mode.

Actives the cursor mode.

Shows or hides parameter labels.

Shows or hides parameter values.

Displays only parameters with modified values.

Displays only parameters with values different from the drive.

Displays only parameters with invalid values.

Changes to one of the following display formats: Normal, High Low Text, Orange

LED, Red LED, Green LED, or Blue LED.

Edits the active drive properties.

Connects to the drive.

---

Icon

---

Change

Work Online

Initialize

Password Protection

Parameter Editor

Select Parameter Graph

Initializes the parameters of the drive to the default values.

Sets the password for the drive.

Opens the parameter editor view for the current drive.

Opens the graphical editor containing the selected parameter.

Resets the currently selected parameters. OK

Resets all parameters.

Reset Selection

Reset All

Save To FROM

(for Servo via MCH only)

Transfer To Drive

From Drive

Saves the parameters to the flash memory in the Servo via MCH.

Downloads the complete parameter set to the drive.

Uploads the complete parameter set from the drive.

Compare with

Drive

Selection To

Drive

Selection From

Drive

Uploads the parameters of the drive in the

Drive Value Column to enabling comparing the parameter set.

Downloads the selected parameters to the drive.

Uploads the selected parameters from the drive.

Alarms Opens the drive alarm window showing the current alarms and alarm trace.

No Module Detection Clear Clears the A.E7 (No module detection) error.

Data Trace Configures and activates the Servo data trace function.

---

47

User Interface

Section 2-4

Menu

Drive

Tools

Window

Help

Submenu/Command

Real Time Trace

FFT

Test

Auto-Tune

Set Absolute Encoder

Damping Control

Adjust Offsets

Product Information

Database Upgrade

Options

Calculator

Compare Drives

Close All

Cascade

Tile Horizontally

Tile Vertically

Arrange Icons

Help Topics

Help

Online Registration

Omron on the web

About CX-Drive

Contents

Displays the current values of the selected parameters.

Performs the FFT analysis.

Performs a test run.

Executes the auto-tuning function built into the drive.

Configures a Servomotor absolute encoder.

Configures Servo damping control.

Configures Servo offsets.

Displays product information.

Upgrades the database to the latest version.

Sets CX-Drive options.

Displays the Microsoft calculator.

---

Displays the parameter differences between 2 drive files.

Closes all open windows.

Arranges windows as overlapping files.

Arranges windows as horizontal, nonoverlapping tiles.

Arranges windows as vertical, non-overlapping tiles.

Arranges the icons at the bottom of the window.

Displays an index to topics on which help is available.

Provides contextual help to provide help relating to the active window.

Registers your application on the

OMRON website.

Opens the OMRON Corporate website.

Displays the version number of the application.

---

Inverter Servo

OK OK

--OK

---

Icon

48

Editing Drive Files

Section 2-5

2-5 Editing Drive Files

1. Use the New Drive Dialog Box to set the drive name, drive type, connection type, and other information, or 2. Use Autodetect to select the target drive.

The following window will be displayed.

: Inverter : Servo

"Offline" or "online" displayed after the drive name.

Click to display lower folder.

Click at the left of the drive name to display the following tree.

49

Editing Drive Files

Section 2-5

2-5-1 Editing Parameters

The parameters for each drive (an Inverter or Servo) can be edited under the parameter numbers.

Parameter Editor:

Numeric Order

Double-click Parameter Editor to open the Parameter Editor Window in numeric order. Select and set each parameter.

Double-click.

Select or input each parameter value.

Parameter Editor in

Functional Categories

All parameters displayed in numeric order.

Double-click the category folder to open the Categorized Parameter Editor

Window. Select and set each parameter.

Double-click.

Select or input each parameter value.

Comparing Drive and

Parameter Data

The comparison operation uploads drive parameters without changing parameter values in the file data. The Parameter Editor Window shows both the drive file and the file data at the same time, and indicates the differences.

: Default, : Default but different from the drive, : Not default,

: Not default and different from the drive.

: Invalid, : Invalid and different from the drive.

50

Editing Drive Files

2-5-2 Graphs

Section 2-5

Parameters can be displayed in graphic form for review (for Inverters only).

Graphic displayed for specified parameter.

Double-click.

2-5-3 Diagrams

Parameters can be displayed in block diagrams for relevant parameters.

Inverters support PID block diagrams, and Servos support position, speed and torque block diagrams.

Double-click.

Block diagram displayed for specified parameter.

51

Editing Drive Files

2-5-4 Status Displays

The status of the online drive can be displayed.

Double-click.

Section 2-5

Performs status monitor for the connected drive.

2-5-5 Monitoring

Realtime traces can be displayed for the selected parameters of the online drive. Data traces are also possible for the R7D-AP and R88D-WT Servos.

Performs realtime trace of the specified parameter.

Double-click.

52

Editing Drive Files

2-5-6 Data Trace

Section 2-5

There is the Data Trace function to get Servo Drive Trace data in detail and show it and save it into the file. At the CX-Drive Version 1.6, there are some operation improvements such as graph area expanding, showing Vertical and

Horizontal line cursors to measure the difference of two points of data ( before

V1.6, there are cross cursors ), zoom in/out, both side vertical ( Y axis ) scale on the graph and saving the setting data with graphical data.

53

Editing Drive Files

2-5-7 Auto Tune

Section 2-5

With this function, you can automatically make gain adjustments so that the responsive to servo commands can satisfy the required performance of the machine.

Especially with the G5 Series (R88D-KT/R88D-KN), gain adjustments can be made automatically by simple operations according to the wizard.

When you select a mechanical system, make operation settings, and set completion conditions according to the wizard, the motor runs according to the settings and the optimum gain parameter values are automatically calculated.

54

Note

Enable the Test Run Mode to send a JOG command from CX-Drive during the execution of auto tune on the EtherCAT communications. Select Drive - Drive

Mode from the main menu to enable the Test Run Mode.

When sending a JOG command from CX-Drive during the execution of auto tune on the USB communications, execute it when an EtherCAT or MECHA-

TROLINK-II connection is not established.

Editing Drive Files

2-5-8 Test Run

Section 2-5

Test runs can be performed for the online drive. The frequency reference, jog speed, acceleration time, and deceleration time on the graph can be changed by entering values directly or by dragging handles.

Drag handles to change parameters.

Double-click.

Performs test run for the online drive.

2-5-9 FFT

Note

For Servos, auto-tuning, motor current detect offset adjustments, and absolute multi-turn limit settings are also supported.

Please execute this function when an EtherCAT or MECHATROLINK-II connection is not established.

Enable the Test Run Mode to execute this function on the EtherCAT communications. Select Drive

−

Drive Mode from the main menu to enable the Test

Run Mode.

FFT analysis can be performed for the online drive.

The resonant frequency of the device can be specified by checking the gain of frequency response. This is effective when manually making the notch filter settings.

The response of the device can be verified by checking the phase of frequency response.

This is effective when adjusting the response of the device such as the integration time constant of velocity loop and velocity feedforward amount.

55

Editing Drive Files

Section 2-5

Note

Please execute this function when an EtherCAT or MECHATROLINK-II connection is not established.

Enable the Test Run Mode to execute this function on the EtherCAT communications. Select Drive

−

Drive Mode from the main menu to enable the Test

Run Mode.

2-5-10 Damping Control

When an end of the equipment vibrates or the entire device shakes, antivibration control can be used to remove the vibration frequency component from a position command.

56

Note

Enable the Test Run Mode to send a JOG command from CX-Drive during the execution of damping control on the EtherCAT communications. Select Drive

−

Drive Mode from the main menu to enable the Test Run Mode.

When sending a JOG command from CX-Drive during the execution of damping control on the USB communications, execute it when an EtherCAT or

MECHATROLINK-II connection is not established.

Editing Drive Files

Section 2-5

2-5-11 Quick Parameter Setup

With the G5-series Servo Drive (R88D-KT/R88D-KN), you can set necessary parameters at startup by simple operations according to the wizard.

Just after making a setting for installation environment, I/O signals, and other necessary items according to the wizard, you can start the Servo Drive adjustment.

Note

The Servo Drive must be free from errors to send a JOG command from CX-

Drive in the quick parameter setup function. Therefore, I/O signals and other wiring may be required in advance.

57

Editing Drive Files

2-5-12 Settings

Section 2-5

The parameters of the online drive can be initialized, and password authorization can be set for some drive models.

The parameters in the online drive can be initialized.

Double-click.

Also refer to the CX-Drive Online Help for operating procedures and functions.

Select Help from the Help Menu or click the Button to display context help, which displays help about the currently displayed window.

58 Revision History

A manual revision code appears as a suffix to the catalog number on the front cover of the manual.

Cat. No. W453-E1-19

Revision code

The following table outlines the changes made to the manual during each revision. Page numbers refer to the previous version.

Revision code

Date

November 2005 Original production

Revised content

January 2006 Pages xvi and 9: Caution on the use of the USB serial converter added.

April 2006 Caution on the use of the USB serial converter revised and revisions for product version 1 accompanying upgrade to CX-Drive version 1.12 added.

July 2006

June 2007

Corrections accompanying upgrade from CX-Drive version 1.12 to 1.3.

(Specifications changed from absolute path information for all drive data files in the workspace (file name extension .sdw) to relative path information.)

Corrections accompanying upgrade from CX-Drive version 1.3 to 1.4 (Windows

Vista).

May 2008 Adding the support of OMNUC G series and SMARTSTEP2 series Direct serial connections.

Changing the Data Trace function operation and GUI improvement.

July 2008 Adding the support of OMNUC G series R88D-GN Direct serial communications.

October 2008 Adding the support of 3G3JX/MX/RX.

March 2009 Adding the cable name for 3G3JX/MX/RX.

June 2009 Adding the support of OMNUC G5-series R88D-KT Direct USB connections.

Adding the support of the FFT analysis function.

October 2009 Adding the support of 3G3MX2.

Adding the support of R88D-KN (with Built-in MECHATROLINK-II Communications)

Direct USB connections.

December 2009 Additions related to Windows 7.

February 2010 Adding the support of OMNUC G5-series R88D-KN (with Built-in EtherCAT Communications).

May 2010

July 2010

Adding the support of the wizard function for auto tune.

Adding the support of 3G3AX-MX2-ECT EtherCAT communications option board for 3G3MX2.

October 2010 Adding the support of 3G3AX-MX2-DRT DeviceNet communications option board for 3G3MX2.

January 2011 Adding the support of damping control.

May 2011 Adding the support of test run for 3G3MX2.

November 2011 Adding the support of 3G3RX-V1, 3G3AX-MX2-CRT-E CompoNet communications option board for 3G3MX2, 3G3AX-RX-DRT-E DeviceNet communications option board for 3G3RX, and 3G3AX-RX-CRT-E CompoNet communications option board for 3G3RX.

Adding the support of quick parameter setup function for R88D-KT and R88D-KN.

59

60

Revision History

OMRON Corporation

Industrial Automation Company

Tokyo, JAPAN

Contact: www.ia.omron.com

Regional Headquarters

OMRON EUROPE B.V.

Wegalaan 67-69-2132 JD Hoofddorp

The Netherlands

Tel: (31)2356-81-300/Fax: (31)2356-81-388

OMRON ELECTRONICS LLC

One Commerce Drive Schaumburg,

IL 60173-5302 U.S.A.

Tel: (1) 847-843-7900/Fax: (1) 847-843-7787

Authorized Distributor:

OMRON ASIA PACIFIC PTE. LTD.

No. 438A Alexandra Road # 05-05/08 (Lobby 2),

Alexandra Technopark,

Singapore 119967

Tel: (65) 6835-3011/Fax: (65) 6835-2711

OMRON (CHINA) CO., LTD.

Room 2211, Bank of China Tower,

200 Yin Cheng Zhong Road,

PuDong New Area, Shanghai, 200120, China

Tel: (86) 21-5037-2222/Fax: (86) 21-5037-2200

In the interest of product improvement, specifications are subject to change without notice.

Cat. No. W453-E1-19

1111

Key features

Supports Most OMRON Inverters and Servos
Wide Range of Parameter Editing Functions
Easy and Dependable Parameter Editing for Inverters and Servos
Easily Check Drive Parameters and Upload/Download Only Selected Parameters
Edit Parameters in Graphic Form
Display Parameters in Diagrams
Automatically Detect Drives
Inverter Tuning and Test Runs
Servo Tuning and Test Runs

Frequently asked questions

CX-Drive can be used with OMRON's 3G3JX, 3G3MX, 3G3MX2, 3G3RX, 3G3JV, 3G3MV, and 3G3RV Inverters, as well as OMRON's SMARTSTEP2, SMARTSTEP, OMNUC G5-series, OMNUC G-series, OMNUC W-series Servo Drives.

CX-Drive software enables setting, downloading, uploading, and comparing parameters; performing test runs and adjustment; and performing monitoring and data tracing for OMRON Inverters and Servos.

CX-Drive requires the software applications CX-Drive and Communications driver: CX-Server (including CX-Server Driver Management Tool) to be installed on the same computer.

SYSMAC

CXONE-@@@@C-V@/CXONE-@@@@D-V@

CX-Drive

OPERATION MANUAL

CXONE-@@@@C-V@/

CXONE-@@@@D-V@

CX-Drive

Operation Manual

iv

Notice:

DANGER

WARNING

OMRON Product References

Visual Aids

© OMRON, 2005

v

vi

TABLE OF CONTENTS

vii

viii

TABLE OF CONTENTS

About this Manual:

ix

x

Version Improvements

xi

Registered Trademark

xii

Read and Understand this Manual

1. WARRANTY

2. LIMITATION OF LIABILITY

3. APPLICABLE CONDITIONS

4. CHANGE IN SPECIFICATIONS

5. EXTENT OF SERVICE

6. ERRORS AND OMISSIONS

xiii

xiv

PRECAUTIONS

xv

1

WARNING

xvi

4

xvii

4

xviii

SECTION 1

Overview

1

Section 1-1

1-1-1 What Is the CX-Drive?

1-1-2 Features

Supports Most

OMRON Inverters and

Servos

Wide Range of

Parameter Editing

Functions

Automatically Detect

Drives

2

Inverter Tuning and

Test Runs

Section 1-1

Servo Tuning and

Test Runs

Realtime Tracing

3

Section 1-1

1-1-3 Applicable Drives and Communications

4

Section 1-1

1-1-4 Files Created by CX-Drive

1-1-5 Computer System Requirements

1-1-6 Confirming Product Contents

5

Section 1-2

1-2-1 Required Software

6

1-3-1 Inverter Connection