Omron R88D-1SN20F-ECT, R88D-1SN06F-ECT, R88D-1SN01L-ECT, R88D-1SN02L-ECT, R88D-1SN01H-ECT User Manual
...
AC Servomotors/Servo Drives
1S-series with Built-in
EtherCAT® Communications
User’s Manual
R88M-1L/-1M (AC Servomotors)
R88D-1SN-ECT (AC Servo Drives)
I586-E1-04
NOTE
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.
Trademarks
• Sysmac and SYSMAC are trademarks or registered trademarks of OMRON Corporation in Japan and other
countries for OMRON factory automation products.
• EtherCAT® is registered trademark and patented technology, licensed by Beckhoff Automation GmbH, Germany.
• Safety over EtherCAT® is registered trademark and patented technology, licensed by Beckhoff Automation GmbH,
Germany.
• ODVA, CIP, CompoNet, DeviceNet, and EtherNet/IP are trademarks of ODVA.
Other company names and product names in this document are the trademarks or registered trademarks of their
respective companies.
Introduction
Thank you for purchasing a 1S-series Servo Drive. This User’s Manual describes the installation and
wiring methods of the 1S-series Servo Drives and parameter setting method which is required for the
operation, as well as troubleshooting and inspection methods.
Intended Audience
This User’s Manual is intended for the following personnel, who must also have electrical knowledge
(certified electricians or individuals who have equivalent knowledge).
• Personnel in charge of introducing the FA equipment
• Personnel in charge of designing the FA systems
• Personnel in charge of installing and connecting the FA equipment
• Personnel in charge of managing the FA systems and facilities
Introduction
Notice
This User’s Manual contains information you need to know to correctly use the 1S-series Servo Drives
and peripheral equipment.
Before using the Servo Drive, read this User’s Manual and gain a full understanding of the information
provided herein.
After you finished reading this User’s Manual, keep it in a convenient place so that it can be referenced
at any time.
Make sure this User’s Manual is delivered to the end user.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1
Manual Structure
7 Applied Functions
7 - 30
1S-series AC Servomotors and Servo Drives User’s Manual (with Built-in EtherCAT Communications)
7-9 Soft Start Function
This function sets the acceleration and deceleration against the velocity command input inside the
Servo Drive and uses these values for speed control.
With this function, soft starts are possible when the step rotation velocity commands are input. To
reduce any impacts made by acceleration changes, you can also use the velocity command filter
(first-order lag).
For a step velocity command input, set the time until the velocity command reaches 1,000 r/min in
Acceleration Time.
Similarly, set the time until the velocity command slows from 1,000 r/min down to 0 r/min in Deceleration Time.
Acceleration Time (ms) = Vc/1,000 r/min × Acceleration Time × 0.1 ms
Deceleration Time (ms) = Vc/1,000 r/min × Deceleration Time × 0.1 ms
7-9-1 Objects Requiring Settings
Index
(hex)
Subindex
(hex)
Name Description
Refer-
ence
3021
–
Velocity Command Filter
–
P. 9 -1 9
01 Acceleration Time Sets the acceleration time during accelera-
tion.
P. 9 -1 9
02 Deceleration Time Sets the deceleration time during decelera-
tion.
P. 9 -1 9
03 IIR Filter Enable Selects whether to enable or disable the
IIR filter in the velocity command filter.
0: Disabled
1: Enabled
P. 9 -2 0
04 Filter Cutoff Frequency Sets the cutoff frequency for the IIR filter. P. 9-20
7-9-2 Soft Start Acceleration/Deceleration Time
Time
Velocity command [r/min]
Acceleration Time × 0.1 ms Deceleration Time × 0.1 ms
1,000 [r/min]
Velocity command before
acceleration control
(step type command)
Velocity command after
acceleration control
(trapezoidal type command)
Level 1
heading
Level 2
heading
Level 3
heading
Manual name
Manual Structure
This section explains the page structure and symbol icons.
Page Structure
The following page structure is used in this manual.
Note The above page is only a sample for illustrative purposes. It is not the actual content of this User’s Manual.
2
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Precautions for Safe Use
Precautions for Correct Use
Additional Information
Version Information
7 - 31
7 Applied Functions
1S-series AC Servomotors and Servo Drives User’s Manual (with Built-in EtherCAT Communications)
7-9 Soft Start Function
7
7-9-3 Velocity Command Filter (First-order Lag)
Precautions for Correct Use
Do not set the Acceleration Time and the Deceleration Time when the position loop structure
with a host controller is used.
The velocity command filter (first-order lag) is an IIR filter used for speed commands.
7-9-3 Velocity Command Filter (First-order Lag)
Vc × 0.632
(s)
Vc × 0.368
Time
Velocity command [r/min]
Target velocity
Target velocity
Target velocity
Velocity command
before filter process
Velocity command
after filter process
1/(2π × Filter Cutoff Frequency)
Icons indicate precautions,
additional information, or
reference information.
Special information
Level 2 heading
Gives the current heading.
Page tab
Gives the number of
the main section.
Level 3 heading
Gives the current heading.
Manual Structure
Note This illustration is provided only as a sample. It may not literally appear in this manual.
Special Information
Special information in this manual is classified as follows:
Precautions on what to do and what not to do to ensure safe usage of the product.
Precautions on what to do and what not to do to ensure proper operation and performance.
Additional information to read as required.
This information is provided to increase understanding or make operation easier.
Information on differences in specifications and functionality for Servo Drives with different unit
versions and for different versions of the Sysmac Studio is given.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
3
Manual Configuration
Manual Configuration
This User’s Manual consists of the following sections.
Read the necessary section or sections by reference to the following table.
Section Outline
Section 1
Section 2
Section 3 Specifications
Section 4
Section 5
Section 6
Section 7 Applied Functions
Section 8 Safety Function
Section 9
Section 10 Operation
Section 11
Section 12 Troubleshooting
Section 13
Appendices
Features and System Configuration
Models and External Dimensions
Configuration and
Wiring
EtherCAT Communications
Basic Control
Functions
Details on Servo
Parameters
Adjustment Functions
Maintenance and
Inspection
This section explains the features of the Servo Drive and name of each part.
This section explains the models of Servo Drives, Servomotors, Decelerators, and peripheral devices, and provides the external dimensions and
mounting dimensions.
This section provides the general specifications, characteristics, connector
specifications, and I/O circuits of the Servo Drives as well as the general
specifications, characteristics, encoder specifications of the Servomotors
and other peripheral devices.
This section explains the conditions for installing Servo Drives, Servomotors,
and Decelerators, the wiring methods including wiring conforming to EMC
Directives, the regenerative energy calculation methods, as well as the performance of External Regeneration Resistors.
This section explains EtherCAT communications under the assumption that
the Servo Drive is connected to a Machine Automation Controller
NJ/NX-series CPU Unit or Position Control Unit (Model: CJ1W-NC8)
This section explains the outline and settings of basic control functions.
This section provides the outline and settings of the applied functions such
as electronic gear and gain switching.
This function stops the motor based on a signal from a safety controller.
This section provides the outline of the function and examples of operation
and connection.
This section explains the details on each servo parameter, including the set
values, settings, and the display.
This section provides the operational procedure and explains how to operate
in each mode.
This section explains the functions, setting methods, and items to note
regarding adjustments.
This section explains the items to check when problems occur, and troubleshooting by the use of error displays or operation state.
This section explains maintenance and inspection of the Servomotors and
Servo Drives.
The appendices provide explanation for the profile that is used to control the
Servo Drive, lists of objects, and Sysmac error status codes.
4
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1
10
2
11
3
4
13
5
6
7
8
9
1
10
2
11
12
3
4
13
5A
6 I
7
8
9
A
I
Features and System
Configuration
Models and External
Dimensions
Operation
Specifications
Adjustment Functions
12
Troubleshooting
Configuration and
Wiring
Maintenance and
Inspection
EtherCAT
Communications
Appendices
Applied Functions
Basic Control
Functions
Index
Safety Function
Details on Servo Parameters
Sections in this Manual
Sections in this Manual
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
5
CONTENTS
CONTENTS
Introduction ..............................................................................................................1
Manual Structure ......................................................................................................2
Manual Configuration ..............................................................................................4
Sections in this Manual ...........................................................................................5
Terms and Conditions Agreement........................................................................16
Safety Precautions .................................................................................................18
Items to Check After Unpacking ...........................................................................29
Related Manuals .....................................................................................................38
Terminology ............................................................................................................40
Revision History .....................................................................................................42
Section 1 Features and System Configuration
1-1 Outline .................................................................................................................................. 1-2
1-1-1 Features of 1S-series Servo Drives..........................................................................................1-2
1-1-2 EtherCAT ..................................................................................................................................1-3
1-1-3 Object Dictionary ......................................................................................................................1-4
1-2 System Configuration .........................................................................................................1-5
1-3 Names and Functions ......................................................................................................... 1-6
1-3-1 Servo Drive Part Names...........................................................................................................1-6
1-3-2 Servo Drive Functions ............................................................................................................1-10
1-3-3 Servomotor Part Names .........................................................................................................1-12
1-3-4 Servomotor Functions.............................................................................................................1-13
1-4 System Block Diagram...................................................................................................... 1-14
1-5 Applicable Standards........................................................................................................ 1-18
1-5-1 EU Directives ..........................................................................................................................1-18
1-5-2 UL and cUL Standards............................................................................................................1-19
1-5-3 Korean Radio Regulations (KC) .............................................................................................1-20
1-5-4 SEMI F47................................................................................................................................1-20
1-5-5 Australian EMC Labeling Requirements (RCM) .....................................................................1-20
1-6 Unit Versions...................................................................................................................... 1-21
1-6-1 Confirmation Method ..............................................................................................................1-21
1-6-2 Unit Versions and Sysmac Studio Versions............................................................................1-21
1-7 Procedures to Start Operation ......................................................................................... 1-22
1-7-1 Overall Procedure...................................................................................................................1-22
1-7-2 Procedure Details ...................................................................................................................1-24
6
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Section 2 Models and External Dimensions
2-1 Servo System Configuration .............................................................................................. 2-2
2-2 How to Read Model Numbers............................................................................................. 2-4
2-2-1 Servo Drive............................................................................................................................... 2-4
2-2-2 Servomotor............................................................................................................................... 2-5
2-2-3 Decelerator (Backlash: 3 Arcminutes Max.) ............................................................................. 2-6
2-2-4 Decelerator (Backlash: 15 Arcminutes Max.) ........................................................................... 2-7
2-3 Model Tables........................................................................................................................ 2-8
2-3-1 Servo Drive Model Table .......................................................................................................... 2-8
2-3-2 Servomotor Model Tables......................................................................................................... 2-9
2-3-3 Servo Drive and Servomotor Combination Tables ................................................................. 2-13
2-3-4 Decelerator Model Tables....................................................................................................... 2-14
2-3-5 Servomotor and Decelerator Combination Tables.................................................................. 2-17
2-3-6 Cable and Connector Model Tables ....................................................................................... 2-18
2-3-7 External Regeneration Resistor and External Regeneration
Resistance Unit Model Tables ................................................................................................ 2-23
2-3-8 Reactor Model Table .............................................................................................................. 2-24
2-3-9 Noise Filter Model Table......................................................................................................... 2-24
2-4 External and Mounting Dimensions ................................................................................ 2-25
2-4-1 Servo Drive Dimensions......................................................................................................... 2-25
2-4-2 Servomotor Dimensions ......................................................................................................... 2-29
2-4-3 Decelerator Dimensions ......................................................................................................... 2-65
2-4-4 Dimensions of External Regeneration Resistors and External Regeneration
Resistance Units..................................................................................................................... 2-79
2-4-5 Reactor Dimensions ............................................................................................................... 2-80
2-4-6 Noise Filter Dimensions ......................................................................................................... 2-89
CONTENTS
Section 3 Specifications
3-1 Servo Drive Specifications ................................................................................................. 3-3
3-1-1 General Specifications.............................................................................................................. 3-3
3-1-2 Characteristics.......................................................................................................................... 3-4
3-1-3 EtherCAT Communications Specifications ............................................................................... 3-8
3-1-4 Main Circuit and Motor Connections ........................................................................................ 3-9
3-1-5 Control I/O Connector (CN1) Specifications........................................................................... 3-14
3-1-6 Control Input Circuits.............................................................................................................. 3-17
3-1-7 Control Input Details............................................................................................................... 3-18
3-1-8 Control Output Circuits ........................................................................................................... 3-18
3-1-9 Control Output Details ............................................................................................................ 3-18
3-1-10 Encoder Pulse Output Specifications ..................................................................................... 3-19
3-1-11 Safety I/O Specifications ........................................................................................................ 3-20
3-1-12 Brake Interlock Connector (CN12) Specifications .................................................................. 3-21
3-1-13 Encoder Connector (CN2) Specifications............................................................................... 3-22
3-1-14 EtherCAT Communications Connector (RJ45) Specifications................................................ 3-22
3-1-15 USB Connector (CN7) Specifications..................................................................................... 3-23
3-1-16 Power ON Sequence.............................................................................................................. 3-23
3-1-17 Overload Characteristics (Electronic Thermal Function) ........................................................ 3-24
3-2 Servomotor Specifications ............................................................................................... 3-28
3-2-1 General Specifications............................................................................................................ 3-28
3-2-2 Encoder Specifications........................................................................................................... 3-29
3-2-3 Characteristics........................................................................................................................ 3-30
3-3 Decelerator Specifications ............................................................................................... 3-48
3-4 Cable and Connector Specifications ............................................................................... 3-53
3-4-1 Encoder Cable Specifications................................................................................................. 3-53
3-4-2 Motor Power Cable Specifications.......................................................................................... 3-58
3-4-3 Resistance to Bending of Flexible Cable................................................................................ 3-84
3-4-4 Connector Specifications........................................................................................................ 3-86
3-4-5 EtherCAT Communications Cable Specifications................................................................... 3-90
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
7
CONTENTS
3-5 Specifications of External Regeneration Resistors and External Regeneration
Resistance Units................................................................................................................3-93
3-5-1 General Specifications............................................................................................................3-93
3-5-2 Characteristics........................................................................................................................3-94
3-5-3 External Regeneration Resistance Unit Specifications...........................................................3-96
3-6 Reactor Specifications...................................................................................................... 3-97
3-6-1 General Specifications............................................................................................................3-97
3-6-2 Characteristics........................................................................................................................3-97
3-6-3 Terminal Block Specifications .................................................................................................3-98
3-7 Noise Filter Specifications................................................................................................ 3-99
3-7-1 General Specifications............................................................................................................3-99
3-7-2 Characteristics......................................................................................................................3-100
3-7-3 Terminal Block Specifications ............................................................................................... 3-101
Section 4 Configuration and Wiring
4-1 Installation Conditions........................................................................................................ 4-2
4-1-1 Servo Drive Installation Conditions........................................................................................... 4-2
4-1-2 Servomotor Installation Conditions ...........................................................................................4-5
4-1-3 Decelerator Installation Conditions ...........................................................................................4-9
4-1-4 External Regeneration Resistance Unit Installation Conditions.............................................. 4-11
4-1-5 Footprint-type Noise Filter Installation Conditions ..................................................................4-12
4-2 Wiring ................................................................................................................................. 4-13
4-2-1 Peripheral Equipment Connection Examples .........................................................................4-14
4-2-2 Terminal Block Wiring Procedure............................................................................................4-24
4-2-3 Connector Attachment Procedure...........................................................................................4-26
4-2-4 Power/Brake Connector Attachment Procedure.....................................................................4-27
4-2-5 Terminal Block Wiring Procedure for Footprint-type Noise Filter ............................................4-28
4-3 Wiring Conforming to EMC Directives ............................................................................ 4-29
4-3-1 Peripheral Equipment Connection Examples .........................................................................4-30
4-3-2 Selecting Connection Component ..........................................................................................4-39
4-4 Regenerative Energy Absorption..................................................................................... 4-45
4-4-1 Calculating the Regenerative Energy .....................................................................................4-45
4-4-2 Servo Drive Regeneration Absorption Capacity .....................................................................4-48
4-4-3 Regenerative Energy Absorption by an External Regeneration Resistance Device............... 4-49
4-4-4 Connecting an External Regeneration Resistor......................................................................4-50
4-5 Adjustment for Large Load Inertia................................................................................... 4-51
Section 5 EtherCAT Communications
5-1 Display Area and Settings .................................................................................................. 5-2
5-1-1 Node Address Setting...............................................................................................................5-2
5-1-2 Status Indicators .......................................................................................................................5-3
5-2 Structure of the CAN Application Protocol over EtherCAT............................................. 5-5
5-3 EtherCAT State Machine ..................................................................................................... 5-6
5-4 Process Data Objects (PDOs)............................................................................................. 5-7
5-4-1 PDO Mapping Settings .............................................................................................................5-7
5-4-2 Sync Manager PDO Assignment Settings ................................................................................5-8
5-4-3 Fixed PDO Mapping .................................................................................................................5-8
5-4-4 Variable PDO Mapping ........................................................................................................... 5-11
5-4-5 Sync Manager PDO Mapping Assignment Settings ...............................................................5-12
5-5 Service Data Objects (SDOs)............................................................................................ 5-13
5-6 Synchronization Mode and Communications Cycle ...................................................... 5-14
5-6-1 Distributed Clock (DC) Mode ..................................................................................................5-14
5-6-2 Free-Run Mode.......................................................................................................................5-14
8
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
5-7 Emergency Messages ....................................................................................................... 5-15
5-8 Sysmac Device Features .................................................................................................. 5-16
Section 6 Basic Control Functions
6-1 Outline of Control Functions.............................................................................................. 6-2
6-1-1 Basic Control and Control Methods..........................................................................................6-2
6-1-2 Control Method......................................................................................................................... 6-3
6-2 Control Blocks ..................................................................................................................... 6-5
6-2-1 Block Diagram for Position Control .......................................................................................... 6-5
6-2-2 Block Diagram for Velocity Control........................................................................................... 6-7
6-2-3 Block Diagram for Torque Control ............................................................................................ 6-9
6-3 Cyclic Synchronous Position Mode ................................................................................ 6-10
6-4 Cyclic Synchronous Velocity Mode................................................................................. 6-12
6-5 Cyclic Synchronous Torque Mode................................................................................... 6-14
6-6 Profile Position Mode........................................................................................................6-16
6-7 Profile Velocity Mode ........................................................................................................6-21
6-8 Homing Mode..................................................................................................................... 6-24
CONTENTS
6-9 Connecting with OMRON Controllers.............................................................................. 6-25
Section 7 Applied Functions
7-1 General-purpose Input Signals .......................................................................................... 7-3
7-1-1 Objects Requiring Settings....................................................................................................... 7-4
7-1-2 Default Setting.......................................................................................................................... 7-6
7-1-3 Function Input Details............................................................................................................... 7-7
7-2 General-purpose Output Signals ....................................................................................... 7-8
7-2-1 Objects Requiring Settings....................................................................................................... 7-8
7-2-2 Default Setting........................................................................................................................ 7-10
7-2-3 Function Output Details...........................................................................................................7-11
7-3 Drive Prohibition Functions ............................................................................................. 7-15
7-3-1 Objects Requiring Settings..................................................................................................... 7-15
7-3-2 Description of Operation......................................................................................................... 7-16
7-4 Software Position Limit Functions .................................................................................. 7-17
7-4-1 Operating Conditions.............................................................................................................. 7-17
7-4-2 Objects Requiring Settings..................................................................................................... 7-17
7-4-3 Description of Operation......................................................................................................... 7-18
7-5 Backlash Compensation................................................................................................... 7-20
7-5-1 Operating Conditions.............................................................................................................. 7-20
7-5-2 Objects Requiring Settings..................................................................................................... 7-20
7-5-3 Description of Operation......................................................................................................... 7-21
7-6 Brake Interlock................................................................................................................... 7-22
7-6-1 Objects Requiring Settings..................................................................................................... 7-22
7-6-2 Operation Timing.................................................................................................................... 7-24
7-7 Electronic Gear Function.................................................................................................. 7-28
7-7-1 Objects Requiring Settings..................................................................................................... 7-28
7-7-2 Operation Example................................................................................................................. 7-29
7-8 Torque Limit Switching ..................................................................................................... 7-30
7-8-1 Operating Conditions.............................................................................................................. 7-30
7-8-2 Objects Requiring Settings..................................................................................................... 7-30
7-8-3 Torque Limit Switching Method ..............................................................................................7-31
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
9
CONTENTS
7-9 Soft Start............................................................................................................................. 7-32
7-10 Gain Switching Function .................................................................................................. 7-34
7-11 Touch Probe Function (Latch Function).......................................................................... 7-38
7-12 Encoder Dividing Pulse Output Function ....................................................................... 7-42
7-13 Dynamic Brake................................................................................................................... 7-45
7-9-1 Objects Requiring Settings .....................................................................................................7-32
7-9-2 Soft Start Acceleration/Deceleration Time ..............................................................................7-32
7-9-3 Velocity Command First-order Lag Filter ................................................................................7-33
7-10-1 Objects Requiring Settings .....................................................................................................7-34
7-10-2 Mode Selection .......................................................................................................................7-36
7-10-3 Gain Switching in Position Control..........................................................................................7-37
7-11-1 Related Objects ......................................................................................................................7-38
7-11-2 Trigger Signal Settings............................................................................................................7-40
7-11-3 Operation Sequence ...............................................................................................................7-41
7-12-1 Objects Requiring Settings .....................................................................................................7-43
7-12-2 Dividing Ratio..........................................................................................................................7-43
7-12-3 Output Reverse Selection .......................................................................................................7-44
7-12-4 Z-phase Output .......................................................................................................................7-44
7-13-1 Operating Conditions ..............................................................................................................7-45
7-13-2 Objects Requiring Settings .....................................................................................................7-45
7-13-3 Description of Operation.........................................................................................................7-46
Section 8 Safety Function
8-1 Safe Torque OFF Function.................................................................................................. 8-2
8-2 STO Function via Safety Input Signals.............................................................................. 8-4
8-2-1 I/O Signal Specifications ...........................................................................................................8-4
8-2-2 Operation Example ...................................................................................................................8-6
8-2-3 Connection Example.................................................................................................................8-7
8-3 STO Function via EtherCAT Communications................................................................ 8-10
8-3-1 Connection and Setting ..........................................................................................................8-10
8-3-2 Operation Example .................................................................................................................8-12
8-3-3 Connection Example...............................................................................................................8-14
Section 9 Details on Servo Parameters
9-1 Object Description Format ................................................................................................. 9-4
9-2 Common Control Objects ................................................................................................... 9-6
9-2-1 3000 hex: Basic Functions........................................................................................................9-6
9-2-2 3001 hex: Machine .................................................................................................................9-12
9-2-3 3002 hex: Optimized Parameters ...........................................................................................9-13
9-2-4 3010 hex: Position Command.................................................................................................9-15
9-2-5 3011 hex: Position Command Filter........................................................................................9-17
9-2-6 3012 hex: Damping Control ....................................................................................................9-18
9-2-7 3013 hex: Damping Filter 1.....................................................................................................9-19
9-2-8 3014 hex: Damping Filter 2.....................................................................................................9-20
9-2-9 3020 hex: Velocity Command.................................................................................................9-22
9-2-10 3021 hex: Velocity Command Filter........................................................................................9-23
9-2-11 3030 hex: Torque Command ..................................................................................................9-24
9-2-12 3031 hex: Velocity Limit in Torque Control..............................................................................9-24
9-2-13 3040 hex: Profile Command ...................................................................................................9-25
9-2-14 3041 hex: Command Dividing Function..................................................................................9-26
9-3 Control Method Objects.................................................................................................... 9-27
9-3-1 3112 hex: ODF Velocity Feed-forward....................................................................................9-27
9-3-2 3113 hex: ODF Torque Feed-forward .....................................................................................9-28
9-3-3 3120 hex: TDF Position Control..............................................................................................9-29
9-3-4 3121 hex: TDF Velocity Control..............................................................................................9-30
10
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
CONTENTS
9-4 Control Loop Objects........................................................................................................ 9-32
9-4-1 3210 hex: Internal Position Command ................................................................................... 9-32
9-4-2 3211 hex: Position Detection.................................................................................................. 9-33
9-4-3 3212 hex: Gain Switching in Position Control ........................................................................ 9-33
9-4-4 3213 hex: 1st Position Control Gain....................................................................................... 9-34
9-4-5 3214 hex: 2nd Position Control Gain...................................................................................... 9-35
9-4-6 3220 hex: Internal Velocity Command.................................................................................... 9-35
9-4-7 3221 hex: Velocity Detection.................................................................................................. 9-36
9-4-8 3222 hex: Gain Switching in Velocity Control......................................................................... 9-37
9-4-9 3223 hex: 1st Velocity Control Gain ....................................................................................... 9-37
9-4-10 3224 hex: 2nd Velocity Control Gain...................................................................................... 9-38
9-4-11 3230 hex: Internal Torque Command ..................................................................................... 9-39
9-4-12 3231 hex: Torque Detection ................................................................................................... 9-39
9-4-13 3232 hex: Filter Switching in Torque Control.......................................................................... 9-39
hex: 1st Torque Command Filter ................................................................................... 9-40
9-4-14
9-4-15 3234 hex: 2nd Torque Command Filter .................................................................................. 9-41
9-5 Torque Output Setting Objects......................................................................................... 9-42
9-5-1 3310 hex: Torque Compensation ........................................................................................... 9-42
9-5-2 3320 hex: Adaptive Notch Filter ............................................................................................. 9-44
9-5-3 3321 hex: 1st Notch Filter ...................................................................................................... 9-45
9-5-4 3322 hex: 2nd Notch Filter ..................................................................................................... 9-47
9-5-5 3323 hex: 3rd Notch Filter ...................................................................................................... 9-49
9-5-6 3324 hex: 4th Notch Filter ...................................................................................................... 9-51
9-5-7 3330 hex: Torque Limit........................................................................................................... 9-53
9-6 Homing Objects ................................................................................................................. 9-55
9-7 Applied Function Objects ................................................................................................. 9-59
9-7-1 3B10 hex: Drive Prohibition.................................................................................................... 9-59
9-7-2 3B11 hex: Software Position Limit..........................................................................................9-60
9-7-3 3B20 hex: Stop Selection....................................................................................................... 9-62
9-7-4 3B21 hex: Deceleration Stop.................................................................................................. 9-66
9-7-5 3B30 hex: Touch Probe 1....................................................................................................... 9-66
9-7-6 3B31 hex: Touch Probe 2....................................................................................................... 9-69
9-7-7 3B40 hex: Zone Notification 1 ................................................................................................ 9-70
9-7-8 3B41 hex: Zone Notification 2 ................................................................................................ 9-71
9-7-9 3B50 hex: Position Detection Function .................................................................................. 9-72
9-7-10 3B51 hex: Positioning Completion Notification....................................................................... 9-72
9-7-11 3B52 hex: Positioning Completion Notification 2.................................................................... 9-73
9-7-12 3B60 hex: Speed Detection Function..................................................................................... 9-74
9-7-13 3B70 hex: Vibration Detection................................................................................................ 9-75
9-7-14 3B71 hex: Runaway Detection ...............................................................................................9-76
9-7-15 3B80 hex: Load Characteristic Estimation ............................................................................. 9-77
9-8 Error- and Warning-related Objects................................................................................. 9-80
9-8-1 4000 hex: Error Full Code ...................................................................................................... 9-80
9-8-2 4020 hex: Warning Customization.......................................................................................... 9-81
9-8-3 4021 hex: Warning Output 1 Setting ...................................................................................... 9-84
9-8-4 4022 hex: Warning Output 2 Setting ...................................................................................... 9-85
9-8-5 4030 hex: Information Customization..................................................................................... 9-86
9-9 Monitoring-related Objects............................................................................................... 9-87
9-9-1 4110 hex: Monitor Data via PDO............................................................................................ 9-87
9-9-2 4120 hex: EtherCAT Communications Error Count................................................................ 9-88
9-9-3 4130 hex: Safety Status Monitor ............................................................................................9-88
9-9-4 4131 hex: Safety Command Monitor 1................................................................................... 9-90
9-9-5 4132 hex: Safety Command Monitor 2................................................................................... 9-91
9-9-6 4140 hex: Lifetime Information ............................................................................................... 9-92
9-9-7 4150 hex: Overload ................................................................................................................ 9-94
9-10 Display-related Objects.....................................................................................................9-96
3233
9-11 Power Device-related Objects .......................................................................................... 9-97
9-11-1 4310 hex: Regeneration ......................................................................................................... 9-97
9-11-2 4320 hex: Main Circuit Power Supply .................................................................................... 9-98
9-12 External Device-related Objects..................................................................................... 9-100
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
11
CONTENTS
9-13 Encoder-related Objects ................................................................................................. 9-102
9-14 I/O-related Objects........................................................................................................... 9-105
9-15 General-purpose Input Setting Objects......................................................................... 9-114
9-16 General-purpose Output Setting Objects...................................................................... 9-121
9-14-1 4600 hex: I/O Monitor ...........................................................................................................9-105
9-14-2 4601 hex: Function Input ......................................................................................................9-106
9-14-3 4602 hex: Function Output ...................................................................................................9-108
9-14-4 4604 hex: Control Input Change Count ................................................................................9-109
9-14-5 4605 hex: Control Output Change Count ............................................................................. 9-110
9-14-6 4610 hex: Brake Interlock Output ..........................................................................................9-111
9-14-7 4620 hex: Encoder Dividing Pulse Output ............................................................................ 9-112
9-15-1 Setting................................................................................................................................... 9-114
9-15-2 4630 hex: Positive Drive Prohibition Input ............................................................................ 9-115
9-15-3 4631 hex: Negative Drive Prohibition Input .......................................................................... 9-115
9-15-4 4632 hex: External Latch Input 1 ..........................................................................................9-115
9-15-5 4633 hex: External Latch Input 2 ..........................................................................................9-116
9-15-6 4634 hex: Home Proximity Input........................................................................................... 9-116
9-15-7 4635 hex: Positive Torque Limit Input................................................................................... 9-116
9-15-8 4636 hex: Negative Torque Limit Input ................................................................................. 9-117
9-15-9 4637 hex: Error Stop Input.................................................................................................... 9-117
9-15-10 4638 hex: Monitor Input 1 ..................................................................................................... 9-117
9-15-11 4639 hex: Monitor Input 2 ..................................................................................................... 9-118
9-15-12 463A hex: Monitor Input 3..................................................................................................... 9-118
9-15-13 463B hex: Monitor Input 4..................................................................................................... 9-118
9-15-14 463C hex: Monitor Input 5 .................................................................................................... 9-119
9-15-15 463D hex: Monitor Input 6 .................................................................................................... 9-119
9-15-16 463E hex: Monitor Input 7..................................................................................................... 9-119
9-15-17 463F hex: Monitor Input 8.....................................................................................................9-120
9-16-1 Setting...................................................................................................................................9-121
9-16-2 4650 hex: Error Output .........................................................................................................9-122
9-16-3 4651 hex: Servo Ready Output ............................................................................................9-122
9-16-4 4652 hex: Positioning Completion Output 1 .........................................................................9-122
9-16-5 4653 hex: Positioning Completion Output 2 .........................................................................9-123
9-16-6 4654 hex: Velocity Attainment Detection Output...................................................................9-123
9-16-7 4655 hex: Torque Limit Output..............................................................................................9-123
9-16-8 4656 hex: Zero Speed Detection Output ..............................................................................9-124
9-16-9 4657 hex: Velocity Conformity Output ..................................................................................9-124
9-16-10 4658 hex: Warning Output 1.................................................................................................9-124
9-16-11 4659 hex: Warning Output 2.................................................................................................9-125
9-16-12 465A hex: Velocity Limiting Output.......................................................................................9-125
9-16-13 465B hex: Error Clear Attribute Output .................................................................................9-125
9-16-14 465C hex: Remote Output 1 .................................................................................................9-126
9-16-15 465D hex: Remote Output 2 .................................................................................................9-126
9-16-16 465E hex: Remote Output 3 .................................................................................................9-126
9-16-17 465F hex: Zone Notification Output 1 ...................................................................................9-127
9-16-18 4660 hex: Zone Notification Output 2 ...................................................................................9-127
9-16-19 4661 hex: Position Command Status Output........................................................................9-127
9-16-20 4662 hex: Distribution Completed Output.............................................................................9-128
Section 10 Operation
10-1 Operational Procedure...................................................................................................... 10-2
10-2 Preparing for Operation .................................................................................................... 10-3
10-2-1 Items to Check Before Turning ON the Power Supply............................................................ 10-3
10-2-2 Turning ON the Power Supply................................................................................................10-4
10-2-3 Checking the Displays ............................................................................................................10-5
10-2-4 Absolute Encoder Setup .........................................................................................................10-7
10-2-5 Setting Up an Absolute Encoder from the Sysmac Studio......................................................10-7
12
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
10-3 Test Run ............................................................................................................................. 10-8
10-3-1 Preparations for Test Run....................................................................................................... 10-8
10-3-2 Test Run via USB Communications from the Sysmac Studio ................................................ 10-9
Section 11 Adjustment Functions
11-1 Outline of Adjustment Functions ..................................................................................... 11-3
11-1-1 Adjustment Methods................................................................................................................11-3
11-1-2 Adjustment Procedure .............................................................................................................11-4
11-2 Easy Tuning ....................................................................................................................... 11-6
11-2-1 Objects That Are Set ...............................................................................................................11-6
11-2-2 Executing Easy Tuning............................................................................................................11-8
11-3 Advanced Tuning............................................................................................................... 11-9
11-3-1 Objects That Are Set ...............................................................................................................11-9
11-3-2 Executing Advanced Tuning..................................................................................................11-10
11-4 Manual Tuning ..................................................................................................................11-11
11-4-1 Objects That Are Set .............................................................................................................11-11
11-4-2 Executing Manual Tuning......................................................................................................11-11
11-5 Data Trace ........................................................................................................................ 11-12
11-6 FFT .................................................................................................................................... 11-13
11-7 Damping Control ............................................................................................................. 11-14
11-7-1 Objects Requiring Settings....................................................................................................11-14
11-7-2 Operating Procedure .............................................................................................................11-16
11-7-3 Setting Frequency with Sysmac Studio.................................................................................11-17
11-8 Load Characteristic Estimation...................................................................................... 11-18
11-8-1 Objects Requiring Settings....................................................................................................11-19
11-8-2 Setting Load Characteristic Estimation Function...................................................................11-20
11-9 Adaptive Notch Filter ...................................................................................................... 11-2 1
11-9-1 Objects Requiring Settings....................................................................................................11-21
11-9-2 Operating Procedure .............................................................................................................11-22
11-10 Notch Filters..................................................................................................................... 11-23
11-10-1 Objects Requiring Settings....................................................................................................11-24
11-10-2 Notch Filter Width and Depth ................................................................................................11-25
11-11 Friction Torque Compensation Function ...................................................................... 11-26
11-11-1 Operating Conditions.............................................................................................................11-26
11-11-2 Objects Requiring Settings ....................................................................................................11-26
11-11-3 Operation Example................................................................................................................11-27
11-12 Feed-forward Function.................................................................................................... 11-29
11-12-1 Feed-forward Control in TDF Control ....................................................................................11-29
11-12-2 Feed-forward Control in ODF Control ...................................................................................11-31
CONTENTS
Section 12 Troubleshooting
12-1 Actions for Problems ........................................................................................................12-2
12-1-1 Preliminary Checks When a Problem Occurs ........................................................................ 12-2
12-1-2 Precautions When a Problem Occurs .................................................................................... 12-3
12-1-3 Replacing the Servomotor or Servo Drive.............................................................................. 12-4
12-2 Warnings ............................................................................................................................ 12-6
12-2-1 Related Objects...................................................................................................................... 12-6
12-2-2 Warning List............................................................................................................................ 12-8
12-3 Errors................................................................................................................................ 12-10
12-3-1 Error List............................................................................................................................... 12-10
12-3-2 Deceleration Stop Operation at Errors ................................................................................. 12-12
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
13
CONTENTS
12-4 Information....................................................................................................................... 12-13
12-4-1 Related Objects ....................................................................................................................12-13
12-4-2 Information List .....................................................................................................................12-13
12-5 Troubleshooting .............................................................................................................. 12-14
12-5-1 Troubleshooting Using Error Displays ..................................................................................12-14
12-5-2 Troubleshooting Using AL Status Codes ..............................................................................12-34
12-5-3 Troubleshooting Using the Operation State..........................................................................12-38
Section 13 Maintenance and Inspection
13-1 Periodic Maintenance........................................................................................................ 13-2
13-2 Servo Drive Lifetime.......................................................................................................... 13-3
13-3 Servomotor Lifetime.......................................................................................................... 13-4
Appendices
A-1 CiA 402 Drive Profile ...........................................................................................................A-2
A-1-1 Controlling the State Machine of the Servo Drive .....................................................................A-2
A-1-2 Modes of Operation ..................................................................................................................A-4
A-1-3 Modes of Operation and Applied/Adjustment Functions...........................................................A-5
A-1-4 Changing the Mode of Operation..............................................................................................A-5
A-1-5 Homing Mode Specifications ....................................................................................................A-7
A-2 CoE Objects .......................................................................................................................A-12
A-2-1 Object Dictionary Area............................................................................................................A-12
A-2-2 Data Type ...............................................................................................................................A-12
A-2-3 Object Description Format ......................................................................................................A-13
A-2-4 Communication Objects..........................................................................................................A-14
A-2-5 PDO Mapping Objects............................................................................................................A-20
A-2-6 Sync Manager Communication Objects..................................................................................A-35
A-2-7 Manufacturer Specific Objects................................................................................................A-38
A-2-8 Servo Drive Profile Object ......................................................................................................A-41
A-2-9 Safety Function Objects..........................................................................................................A-63
A-3 Object List ..........................................................................................................................A-67
A-4 Sysmac Error Status Codes .............................................................................................A-98
A-4-1 Error List .................................................................................................................................A-98
A-4-2 Error Descriptions.................................................................................................................A-109
A-5 Response Time in EtherCAT Process Data Communications.....................................A-171
A-5-1 Input Response Time............................................................................................................A-171
A-5-2 Output Response Time.........................................................................................................A-171
A-6 Version Information.........................................................................................................A-172
A-6-1 Relationship between Unit Versions and Sysmac Studio Versions.......................................A-172
A-6-2 Functions That Were Added or Changed for Each Unit Version...........................................A-173
Index
14
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
CONTENTS
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
15
Terms and Conditions Agreement
Terms and Conditions Agreement
Warranty, Limitations of Liability
Warranties
z Exclusive Warranty
Omron’s exclusive warranty is that the Products will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Omron (or such other period expressed in
writing by Omron). Omron disclaims all other warranties, express or implied.
z Limitations
OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT
NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF
THE PRODUCTS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE
PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE.
Omron further disclaims all warranties and responsibility of any type for claims or expenses based
on infringement by the Products or otherwise of any intellectual property right.
z Buyer Remedy
Omron’s sole obligation hereunder shall be, at Omron’s election, to (i) replace (in the form originally
shipped with Buyer responsible for labor charges for removal or replacement thereof) the non-complying Product, (ii) repair the non-complying Product, or (iii) repay or credit Buyer an amount equal
to the purchase price of the non-complying Product; provided that in no event shall Omron be
responsible for warranty, repair, indemnity or any other claims or expenses regarding the Products
unless Omron’s analysis confirms that the Products were properly handled, stored, installed and
maintained and not subject to contamination, abuse, misuse or inappropriate modification. Return of
any Products by Buyer must be approved in writing by Omron before shipment. Omron Companies
shall not be liable for the suitability or unsuitability or the results from the use of Products in combination with any electrical or electronic components, circuits, system assemblies or any other materials or substances or environments. Any advice, recommendations or information given orally or in
writing, are not to be construed as an amendment or addition to the above warranty.
See http://www.omron.com/global/ or contact your Omron representative for published information.
Limitation on Liability; Etc
OMRON COMPANIES SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY
WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED IN CONTRACT,
WARRANTY, NEGLIGENCE OR STRICT LIABILITY.
Further, in no event shall liability of Omron Companies exceed the individual price of the Product on
which liability is asserted.
16
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Application Considerations
Suitability of Use
Omron Companies shall not be responsible for conformity with any standards, codes or regulations
which apply to the combination of the Product in the Buyer’s application or use of the Product. At
Buyer’s request, Omron will provide applicable third party certification documents identifying ratings
and limitations of use which apply to the Product. This information by itself is not sufficient for a complete determination of the suitability of the Product in combination with the end product, machine, system, or other application or use. Buyer shall be solely responsible for determining appropriateness of
the particular Product with respect to Buyer’s application, product or system. Buyer shall take application responsibility in all cases.
NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR
PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO
ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS PROPERLY RATED AND
INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.
Terms and Conditions Agreement
Programmable Products
Omron Companies shall not be responsible for the user’s programming of a programmable Product, or
any consequence thereof.
Disclaimers
Performance Data
Data presented in Omron Company websites, catalogs and other materials is provided as a guide for
the user in determining suitability and does not constitute a warranty. It may represent the result of
Omron’s test conditions, and the user must correlate it to actual application requirements. Actual performance is subject to the Omron’s Warranty and Limitations of Liability.
Change in Specifications
Product specifications and accessories may be changed at any time based on improvements and other
reasons. It is our practice to change part numbers when published ratings or features are changed, or
when significant construction changes are made. However, some specifications of the Product may be
changed without any notice. When in doubt, special part numbers may be assigned to fix or establish
key specifications for your application. Please consult with your Omron’s representative at any time to
confirm actual specifications of purchased Product.
Errors and Omissions
Information presented by Omron Companies has been checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical or proofreading errors or omissions.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
17
Safety Precautions
Indicates an imminently hazardous situation which, if
not avoided, is likely to result in serious injury or may
result in death. Additionally there may be severe
property damage.
Indicates a potentially hazardous situation which, if not
avoided, will result in minor or moderate injury, or may
result in serious injury or death. Additionally there may
be significant property damage.
DANGER
WARNING
Indicates a potentially hazardous situation which,
if not avoided, may result in minor or moderate
injury or in property damage.
Caution
Safety Precautions
• To ensure that the 1S-series Servomotor/Servo Drive as well as peripheral equipment are used
safely and correctly, be sure to read this Safety Precautions section and the main text before using
the product. Learn all items you should know before use, regarding the equipment as well as the
required safety information and precautions.
• Make an arrangement so that this User’s Manual also gets to the end user of this product.
• After reading this User’s Manual, keep it in a convenient place so that it can be referenced at any
time.
Explanation of Displays
• The precautions indicated here provide important information for safety. Be sure to heed the information provided with the precautions.
• The following signal words are used to indicate and classify precautions in this User’s Manual.
Even those items denoted by the caution symbol may lead to a serious outcome depending on the situation. Accordingly, be sure to observe all safety precautions.
Explanation of Symbols
18
This User’s Manual uses the following symbols.
The circle and slash symbol indicates operations that you must not do.
The specific operation is shown in the circle and explained in text.
This example indicates prohibiting disassembly.
The triangle symbol indicates precautions and warnings.
The specific operation is shown in the triangle and explained in text.
This example indicates a precaution for electric shock.
The triangle symbol indicates precautions and warnings.
The specific operation is shown in the triangle and explained in text.
This example indicates a general precaution.
The filled circle symbol indicates operations that you must do.
The specific operation is shown in the circle and explained in text.
This example indicates a requirement for the ground.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Precautionary Information
WARNING
• Illustrations contained in this manual sometimes depict conditions without covers and safety shields
for the purpose of showing the details. When you use this product, be sure to install the covers and
shields as specified and use the product according to this manual.
• If the product has been stored for an extended period of time, contact your OMRON sales representative.
Handling of Safety Products
If the functions of safety products cannot attain their full potential, it will result in minor or moderate
injury, or may result in serious injury or death. When building the system, observe the following warnings and optimize safety product selection for your equipment and devices to ensure the integrity of the
safety-related components.
Safety Precautions
z Setting Up a Risk Assessment System
The process of selecting these products should include the development and execution of a risk
assessment system early in the design development stage to help identify potential dangers in your
equipment and optimize safety product selection.
The following is an example of related international standards.
• ISO12100 General Principles for Design - Risk Assessment and Risk Reduction
z Protective Measure
When developing a safety system for the equipment and devices that use safety products, make
every effort to understand and conform to the entire series of international and industry standards
available, such as the examples given below.
The following are examples of related international standards.
• ISO12100 General Principles for Design - Risk Assessment and Risk Reduction
• IEC60204-1 Electrical Equipment of Machines - Part 1: General Requirements
• ISO13849-1, -2 Safety-related Parts of Control Systems
• ISO14119 Interlocking Devices Associated with Guards - Principles for Design and Selection
• IEC/TS 62046 Application of Protective Equipment to Detect the Presence of Persons
z Role of Safety Products
Safety products incorporate standardized safety functions and mechanisms, but the benefits of
these functions and mechanisms are designed to attain their full potential only within properly
designed safety-related systems. Make sure you fully understand all functions and mechanisms,
and use that understanding to develop systems that will ensure optimal usage.
The following are examples of related international standards.
• ISO14119 Interlocking Devices Associated with Guards - Principles for Design and Selection
• ISO13857 Safety Distances to Prevent Hazard Zones being Reached by Upper and Lower Limbs
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
19
Safety Precautions
WARNING
z Installing Safety Products
Qualified engineers must develop your safety-related system and install safety products in devices
and equipment. Prior to machine commissioning, verify through testing that the safety products work
as expected.
The following are examples of related international standards.
• ISO12100 General Principles for Design - Risk Assessment and Risk Reduction
• IEC60204-1 Electrical Equipment of Machines - Part 1: General Requirements
• ISO13849-1, -2 Safety-related Parts of Control Systems
• ISO14119 Interlocking Devices Associated with Guards - Principles for Design and Selection
z Observing Laws and Regulations
Safety products must conform to pertinent laws, regulations, and standards. Make sure that they are
installed and used in accordance with the laws, regulations, and standards of the country where the
devices and equipment incorporating these products are distributed.
z Observing Usage Precautions
Carefully read the specifications and precautions as well as all items in the Instruction Manual for
your safety product to learn appropriate usage procedures. Any deviation from instructions will lead
to unexpected device or equipment failure not anticipated by the safety-related system.
z Transferring Devices and Equipment
When you transfer devices and equipment, be sure to retain one copy of the Instruction Manual for
safety devices and the User’s Manual, and supply another copy with the device or equipment so the
person receiving it will have no problems with operation and maintenance.
The following are examples of related international standards.
• ISO12100 General Principles for Design - Risk Assessment and Risk Reduction
• IEC60204-1 Electrical Equipment of Machines - Part 1: General Requirements
• ISO13849-1, -2 Safety-related Parts of Control Systems
• IEC62061 Functional Safety of Safety-related Electrical, Electronic and Programmable Electronic
Control Systems
• IEC61508 Functional Safety of Electrical/Electronic/Programmable Electronic Safety-related Systems
Transporting and Unpacking
20
Do not damage, pull, or put excessive stress or heavy objects on the cables.
Doing so may cause electric shock, malfunction, or burning.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Safety Precautions
WARNING
WARNING
Installation, Wiring and Maintenance
Install the Servo Drive, Servomotor, and peripheral equipment before wiring.
Not doing so may cause electric shock.
Be sure to ground the 100-VAC or 200-VAC input model Servo Drive and Servomotor to
100 Ω or less, and the 400-VAC input model to 10 Ω or less.
Not doing so may cause electric shock.
Do not remove the front cover, terminal covers, cables, or peripheral equipment while the
power is supplied.
Doing so may cause electric shock.
Before carrying out wiring or inspection, turn OFF the main circuit power and wait for at
least the following specific time.
Not doing so may cause electric shock or burning.
10 minutes: R88D-1SN06F-ECT, R88D-1SN10F-ECT, R88D-1SN15F-ECT,
R88D-1SN20F-ECT, R88D-1SN30F-ECT
15 minutes: R88D-1SN01L-ECT, R88D-1SN02L-ECT, R88D-1SN01H-ECT,
R88D-1SN02H-ECT, R88D-1SN04H-ECT
20 minutes: R88D-1SN04L-ECT, R88D-1SN08H-ECT, R88D-1SN10H-ECT,
R88D-1SN15H-ECT, R88D-1SN20H-ECT, R88D-1SN30H-ECT
Do not damage, pull, or put excessive stress or heavy objects on the cables.
Doing so may cause electric shock, malfunction, or burning.
Use appropriate tools to wire terminals and connectors. Check that there is no short-circuit
before use.
Not doing so may cause electric shock.
Connect the frame ground wire in the motor cable securely to the or FG of the Servo
Drive.
Not doing so may cause electric shock.
Operation Check
Use the Servomotor and Servo Drive in a specified combination.
Not doing so may cause fire or equipment damage.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
21
Safety Precautions
WARNING
Usage
Do not enter the operating area during operation.
Doing so may cause injury.
Do not touch the Servo Drive radiator, Regeneration Resistor, or Servomotor while the
power is supplied or for a while after the power is turned OFF because they get hot.
Doing so may cause fire or a burn injury.
Take appropriate measures to ensure that the specified power with the rated voltage is sup-
plied. Be particularly careful in locations where the power supply is unstable.
Not doing so may cause failure.
When the power is restored after a momentary power interruption, the machine may restart
suddenly. Do not come close to the machine when restoring power.
Implement measures to ensure safety of people nearby even when the machine is
restarted.
Doing so may cause injury.
Use appropriate tools to wire terminals and connectors. Check that there is no short-circuit
before use.
Not doing so may cause electric shock.
Be sure to observe the radiator plate installation conditions that are specified in the manual.
Not doing so may cause the Servo Drive or Servomotor to burn.
If the load that exceeds the allowable range is installed, it may cause the dynamic brake to
be damaged. Be sure to use the appropriate load. For the selection of the appropriate load,
refer to 4-5 Adjustment for Large Load Inertia on page 4-51.
Not doing so may cause the Servo Drive to be damaged.
The dynamic brake is intended for the stop at the time of an error and therefore it has a
short-time rating.
If the dynamic brake is activated, provide an interval of 3 minutes or more before the next
activation to prevent a circuit failure and burning of the Dynamic Brake Resistor.
22
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Safety Precautions
Caution
Caution
Transporting and Unpacking
When transporting the Servo Drive, do not hold it by the cables or motor shaft.
Injury or failure may result.
Do not step on the Servo Drive or place heavy articles on it.
Injury may result.
Do not overload the product. (Follow the instructions on the product label.)
Injury or failure may result.
Be sure to observe the specified amount when piling up products.
Injury or failure may result.
The allowable number of piled-up products Servo Drive, Servomotor, Reactor:
Follow the instructions on the individual package.
External Regeneration Resistor: 12
External Regeneration Resistance Unit: 4
Noise Filter: 15
Wiring
Be careful about sharp parts such as the corner of the equipment when handling the Servo
Drive and Servomotor.
Injury may result.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
23
Safety Precautions
Precautions for Safe Use
General Precaution
• Do not store or install the Servo Drive in the following locations. Doing so may result in electric shock,
fire, equipment damage, or malfunction.
Locations subject to direct sunlight
Locations subject to temperatures outside the range specified in the specifications
Locations subject to humidity outside the range specified in the specifications
Locations subject to condensation as the result of severe changes in temperature
Locations subject to corrosive or flammable gases
Locations subject to dust (especially iron dust) or salts
Locations subject to exposure to water, oil, or chemicals
Locations subject to shock or vibration
• Medical electronics such as cardiac pacemakers may malfunction or injury may result.
• Provide safety measures, such as a fuse, to protect against short circuiting of external wiring and failure of the Servo Drive. Fire may result.
• If an error occurs, remove the cause of the error and ensure safety, and then perform the error reset
and restart the operation. Injury, equipment damage, or burning may result.
Wiring
• Use a robot cable for the wiring to separately install the Servo Drive and Servomotor to moving and
fixed parts of the equipment. Equipment damage may result.
• Connect the Servo Drive to the Servomotor without a contactor, etc. Malfunction or equipment damage may result.
Precautions for Correct Use
General Precaution
• Take appropriate and sufficient countermeasures to provide shielding when installing systems in the
following locations. Not doing so may result in failure.
Locations subject to static electricity or other forms of noise
Locations subject to strong electromagnetic fields
Locations subject to possible exposure to radioactivity
Locations close to power lines
• When lifting a 20-kg or more Servo Drive during moving or installation, always have two people lift
the product by grasping a metal part other than the shaft.
Do not grasp a plastic part. Injury or failure may result.
Relevant model: R88M-1M2K010T0-B, R88M-1M3K010T-, R88M-1M2K010C-B,and
R88M-1M3K010C-
24
Transporting and Unpacking
• Check that the eye bolts are not loose after replacing them.
If they are loose, the screws can come off and the Servomotor may fall during the transportation by
the use of eye bolts.
Do not put the human body under the Servomotor during the transportation.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Safety Precautions
Installation
• Be sure to observe the mounting direction. Failure may result.
• Provide the specified clearance between the Servo Drive and the inner surface of the control panel or
other equipment. Fire or failure may result.
• Install the Servomotor, Servo Drive, and Regeneration Resistor on non-flammable materials such as
metals. Fire may result.
• Do not apply strong impact on the motor shaft or Servo Drive. Failure may result.
• Do not touch the key grooves with bare hands if the Servomotor with shaft-end key grooves is used.
Injury may result.
• Use non-magnetic mounting screws. Note also that the depth of any mounted screw does not reach
the effective thread length. Equipment damage may result.
• Be sure to observe the allowable axial load for the Servomotor. Equipment damage may result.
• Install equipment to prevent crash and reduce shock.
Do not run the Servomotor outside the operable range by the use of the drive prohibition function
such as overtravel.
Crash against the stroke edge may occur depending on stopping distance and equipment damage
may result.
• Do not block the intake or exhaust openings. Do not allow foreign objects to enter the Servo Drive.
Fire may result.
• Use the attached exclusive screws when you mount the Servo Drive to the Footprint-type Noise Filter. Electric shock or failure may result.
Wiring
• Wire the cables correctly and securely. Runaway motor, injury, or failure may result.
• Tighten the mounting screws, terminal block screws, and cable screws for the Servo Drive, Servomotor, and peripheral equipment to the specified torque. Failure may result.
• Use crimp terminals to wire screw type terminal blocks. Do not connect bare stranded wires directly
to terminals blocks. Fire may result.
• Always use the power supply voltage specified in this document. Burning may result.
• Do not apply a commercial power supply directly to the Servomotor. Fire or failure may result.
• When constructing a system that includes safety functions, be sure you understand the relevant
safety standards and all related information in user documentation, and design the system to comply
with the standards. Injury or equipment damage may result.
• Disconnect all connections to the Servo Drive and Servomotor before attempting a megger test (insulation resistance measurement) on the Servo Drive or Servomotor. Not doing so may result in Servo
Drive or Servomotor failure. Do not perform a dielectric strength test on the Servo Drive or Servomotor. Doing so may result in damage of the internal elements.
• Keep conductive or flammable foreign objects such as screws, metal pieces, and oil out of the Servo
Drive and connectors. Pay particular attention to the connector on the top part of Servo Drive. Fire or
electric shock may result.
• Carefully perform the wiring and assembling. Injury may result.
• Wear the protective equipment when installing or removing the main circuit connector, main circuit
connector A, main circuit connector B, control power supply connector, or motor connector. Do not
apply a force after the protrusion of the connector opener reaches the bottom dead center. (As a
guide, do not apply a force of 100 N or more.)
• Design the configuration to cut off the main circuit power supply when the ERR signal (normally close
contact) of the control output function is output (open).
• Do not block the intake or exhaust openings. Do not allow foreign objects to enter the Servo Drive.
Fire may result.
• Do not apply excessive force to wire terminals and connectors. Injury or failure may result.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
25
Safety Precautions
Adjustment
• Install an immediate stop device externally to the machine so that the operation can be stopped and
the power supply is cut off immediately. Injury may result.
• Do not adjust or set parameters to extreme values, because it will make the operation unstable. Injury
may result.
• Ensure that the Servomotor has a sufficient rigidity. Equipment damage or malfunction may result.
• If a problem occurs in serial communications or the computer during a test operation, you have no
means to stop the Servomotor.
Connect an externally installed emergency stop switch, etc. to the Error Stop Input of the general-purpose input so that the Servomotor can be stopped without fail.
• When using the Servomotor with key, run the Servomotor in a state in which the key cannot jump out
of the shaft.
Not doing so may result in hurting people around the equipment due to the jumping key.
Operation Check
• Before operating the Servo Drive in an actual environment, check if it operates correctly based on the
newly set parameters. Equipment damage may result.
• Do not adjust or set parameters to extreme values, because it will make the operation unstable. Injury
may result.
• Do not drive the Servomotor by the use of an external drive source. Fire may result.
• Check the newly set parameters for proper execution before actually using them.
Usage
• Tighten the mounting screws, terminal block screws, and cable screws for the Servo Drive, Servomotor, and peripheral equipment to the specified torque. Failure may result.
• Install a stopping device on the machine to ensure safety.
The holding brake is not a stopping device to ensure safety. Injury may result.
• Install an immediate stop device externally to the machine so that the operation can be stopped and
the power supply is cut off immediately. Injury may result.
• Conduct a test operation after confirming that the equipment is not affected. Equipment damage may
result.
• Do not use the built-in brake of the Servomotor for normal braking operation. Failure may result.
• After an earthquake, be sure to conduct safety checks. Electric shock, injury, or fire may result.
• Do not place flammable materials near the Servomotor, Servo Drive, or peripheral equipment. Fire
may result.
• Connect an emergency stop (immediate stop) relay in series with the brake interlock output. Injury or
failure may result.
• Do not use the cable when it is laying in oil or water. Electric shock, injury, or fire may result.
• Install safety devices to prevent idling or locking of the electromagnetic brake or the gear head, or
leakage of grease from the gear head. Injury, damage, or taint damage result.
• If the Servo Drive fails, cut off the power supply to the Servo Drive at the power supply. Fire may
result.
• Be sure to turn OFF the power supply when not using the Servo Drive for a prolonged period of time.
Not doing so may result in injury or malfunction.
• When constructing a system that includes safety functions, be sure you understand the relevant
safety standards and all related information in user documentation, and design the system to comply
with the standards. Injury or equipment damage may result.
• If the Servomotor is not controlled, it may not be possible to maintain the stop. To ensure safety,
install a stop device. Equipment damage or injury may result.
26
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Safety Precautions
Ether
CAT
RUN
FS
ERR
ERR
PWR
ECAT
IN
OUT
L/A
L/A
Location of warning
• Periodically run the Servomotor approximately one rotation when the oscillation operation continues
at a small angle of 45° or smaller. Servomotor failure may result.
• Immediately stop the operation and cut off the power supply when unusual smell, noise, smoking,
abnormal heat generation, or vibration occurs. Not doing so may result in Servo Drive or Servomotor
damage or burning.
• Use an appropriate External Regeneration Resistor. Install an external protective device such as
temperature sensor to ensure safety when using the External Regeneration Resistor.
Maintenance
• After replacing the Servo Drive, transfer to the new Servo Drive all data needed to resume operation,
before restarting operation. Equipment damage may result.
• Do not repair the Servo Drive by disassembling it. Electric shock or injury may result.
Location of Warning Display
The Servo Drive bears a warning label at the following location to provide handling warnings.
When you handle the Servo Drive, be sure to observe the instructions provided on this label.
Instructions on Warning Display
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Note The above is an example of warning display.
27
Safety Precautions
Disposal
Dispose of the Servo Drive as industrial waste.
28
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Items to Check After Unpacking
RUN
ERR
IN
L/A
R88D-1SN
L/A
FS
OUT
Ether
CAT
Nameplate display location
Name plate example: 100 VAC 100 W Servo Drive
Servo Drive model
Servo Drive rating
Lot number and serial number
*1
Items to Check After Unpacking
After you unpack the product, check the following items.
• Is this the model you ordered?
• Was there any damage sustained during shipment?
Servo Drive
Nameplate of Servo Drive
The model, rating and lot number of the 1S-series Servo Drive are given on the product nameplate.
*1. The notifications and their meanings are explained below.
Notation: Lot No. DDMYY xxxx
DDMYY: Lot number, : For use by OMRON, xxxx: Serial number
“M” gives the month (1 to 9: January to September, X: October, Y: November, Z: December)
Accessories of Servo Drive
This product comes with the following accessories.
• INSTRUCTION MANUAL × 1 copy
• Warning label × 1 sheet
• General Compliance Information and instructions for EU × 1 copy
• Attached connectors (Depends on the model. Refer to the following table.)
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
When UL/CSA certification is required, attach the warning label to a place around the Servo Drive.
29
Items to Check After Unpacking
Connectors, mounting screws, mounting brackets, and other accessories other than those in the table
below are not supplied. They must be prepared by the customer.
If any item is missing or a problem is found such as Servo Drive damage, contact the OMRON dealer or
sales office where you purchased your product.
Specifications
Single-
phase 100
VAC
100 W
200 W
400 W
100 W
Single-
phase/3-ph
ase 200
VAC
200 W
400 W
750 W
1.5 kW
1 kW
3-phase
200 VAC
2 kW
3 kW
600 W
1 kW
3-phase
400 VAC
1.5 kW
2 kW
3 kW
*1. Four short-circuit wires are connected to the connector.
*2. The connector with 11 terminals is included. Two short-circuit wires are connected.
*3. The connector with 6 terminals is included. One short-circuit wire is connected.
*4. One opener is included.
Specifications
Single-
phase 100
VAC
100 W
200 W
400 W
100 W
Single-
phase/3-ph
ase 200
VAC
200 W
400 W
750 W
1.5 kW
1 kW
3-phase
200 VAC
2 kW
3 kW
600 W
1 kW
3-phase
400 VAC
1.5 kW
2 kW
3 kW
*1. One short-circuit wire is connected to the connector.
*2. The connector with 3 terminals is included.
*3. The connector with 4 terminals is included.
*4. One opener is included.
Control I/O connector
Included
Main circuit connector B
---
Included
---
Included
*1
(CNB)
*1
*1
(CN1)
Brake interlock connector
(CN12)
Included
Motor connector
(CNC)
Included
Included
Included
Included
*2
*3
*2
*3
Main circuit connector
and main circuit
connector A
(CNA)
Included
Included
Included
Included
*2 *4
*3 *4
*2 *4
*3 *4
Control power supply
connector (CND)
---
Included
*4
---
Included
*4
30
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Servomotor
The model, rating and serial number of the 1S-series Servomotor are given on the product nameplate.
Motor model
R88M-1M2K020T-BOS2
200VAC 13.3 A
From the left,
Rated rotation speed
(Example: 2,000 r/min)
Rated frequency (Example: 250 Hz)
Motor weight (Example: 10 kg)
Serial number
*1. The weight is not given for the Servomotor with a flange size of
80 x 80 or less.
*1
2,000
250 Hz
10150700003
10kg
Items to Check After Unpacking
From the left,
Number of phases (Example: 3)
Rated voltage
2.0 kW
(Example: 200 VAC)
Rated current
(Example: 13.3 A)
Rated output
(Example: 2.0 kW)
From the left,
Insulation class (Example: F)
Totally enclosed protection
type motor (Example: TE)
Operating ambient
temperature (Example: 40°C)
Protective structure
(Example: IP67)
Nameplate display location
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
31
Items to Check After Unpacking
HPG-14A-05-J2AXT
ΧΧ-ΧΧΧΧΧΧΧ-ΧΧΧ
Upper row: Model on nameplate
Lower row: Serial No. (the OMRON logo at the end)
The model on nameplate HPG-14A-05-J2AXT
corresponds to the decelerator model HPG14A05200B.
Decelerator (Backlash: 3 Arcminutes Max.)
For Decelerators (backlash: 3 arcminutes max.), the model number given on the nameplate does not
match the model number of the Decelerator. Therefore, refer to the following table for correspondence
between the model numbers on nameplates and Decelerators.
Example of nameplate: 200-W Decelerator (backlash: 3 arcminutes max., reduction ratio: 1/5) for
3,000-r/min Servomotors
32
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Items to Check After Unpacking
z Decelerator (backlash: 3 arcminutes max.) for 3,000-r/min Servomotors
Specifications Without key With key and tap
Servo-
motor
rated
output
100 W
200 W
400 W
750 W
(200 V)
750 W
(400 V)
Reduc-
tion
ratio
1/5
1/11
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/45
1/5
1/1
1
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/45
Decelerator model Model on nameplate Decelerator model Model on nameplate
R88GHPG11B05100B
R88GHPG14A11100B
R88GHPG14A21100B
R88GHPG20A33100B
R88GHPG20A45100B
R88GHPG14A05200B
R88GHPG14A11200B
R88GHPG20A21200B
R88GHPG20A33200B
R88GHPG20A45200B
R88GHPG14A05400B
R88GHPG20A11400B
R88GHPG20A21400B
R88GHPG32A33400B
R88GHPG32A45400B
R88GHPG20A05750B
R88GHPG20
A11750B
R88GHPG32A21750B
R88GHPG32A33750B
R88GHPG32A45750B
R88GHPG32A052K0B
R88GHPG32A112K0B
R88GHPG32A211K5B
R88GHPG32A33600SB
R88GHPG50A451K5B
HPG-11B-05-J2ADG R88G-
HPG11B05100BJ
HPG-14A-11-J2ABK R88G-
HPG14A11100BJ
HPG-14A-21-J2ABK R88G-
HPG14A21100BJ
HPG-20A-33-J2JBLA R88G-
HPG20A33100BJ
HPG-20A-45-J2JBLA R88G-
HPG20A45100BJ
HPG-14A-05-J2AXT R88G-
HPG14A05200BJ
HPG-14A-11-J2AXU R88G-
HPG14A11200BJ
HPG-20A-21-J2GDH R88G-
HPG20A21200BJ
HPG-20A-33-J2GDI R88G-
HPG20A33200BJ
HPG-20A-45-J2GDI R88G-
HPG20A45200BJ
HPG-14A-05-J2AXW R88G-
HPG14A05400BJ
HPG-20A-11-J2GDK R88G-
HPG20A11400BJ
HPG-20A-21-J2GDK R88G-
HPG20A21400BJ
HPG-32A-33-J2NELA R88G-
HPG32A33400BJ
HPG-32A-45-J2NELA R88G-
HPG32A45400BJ
HPG-20A-05-J2FFO R88G-
HPG20A05750BJ
HPG-20A-11-J2FFP R88G-
HPG20A11750BJ
HPG-32A-21-J2NAI R88G-
HPG32A21750BJ
HPG-32A-33-J2NAJ R88G-
HPG32A33750BJ
HPG-32A-45-J2NAJ R88G-
HPG32A45750BJ
HPG-32A-05-J2NFG R88G-
HPG32A052K0BJ
HPG-32A-11-J2NFH R88G-
HPG32A112K0BJ
HPG-32A-21-J2NFI R88G-
HPG32A211K5BJ
HPG-32A-33-J2NFJ R88G-
HPG32A33600SBJ
HPG-50A-45-J2ADBA R88G-
HPG50A451K5BJ
HPG-11B-05-J6ADG
HPG-14A-11-J6ABK
HPG-14A-21-J6ABK
HPG-20A-33-J6JBLA
HPG-20A-45-J6JBLA
HPG-14A-05-J6AXT
HPG-14A-11-J6AXU
HPG-20A-21-J6GDH
HPG-20A-33-J6GDI
HPG-20A-45-J6GDI
HPG-14A-05-J6AXW
HPG-20A-11-J6GDK
HPG-20A-21-J6GDK
HPG-32A-33-J6NELA
HPG-32A-45-J6NELA
HPG-20A-05-J6FFO
HPG-20A-11-J6FFP
HPG-32A-21-J6NAI
HPG-32A-33-J6NAJ
HPG-32A-45-J6NAJ
HPG-32A-05-J6NFG
HPG-32A-11-J6NFH
HPG-32A-21-J6NFI
HPG-32A-33-J6NFJ
HPG-50A-45-J6ADBA
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
33
Items to Check After Unpacking
Specifications Without key With key and tap
Servo-
motor
rated
output
1 kW
1.5 kW
2 kW
3 kW
Reduc-
tion
ratio
1/5
1/11
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/5
1/11
1/21
Decelerator model Model on nameplate Decelerator model Model on nameplate
R88GHPG32A052K0B
R88GHPG32A112K0B
R88GHPG32A211K5B
R88GHPG50A332K0B
R88GHPG50A451K5B
R88GHPG32A052K0B
R88GHPG32A112K0B
R88GHPG32A211K5B
R88GHPG50A332K0B
R88GHPG50A451K5B
R88GHPG32A052K0B
R88GHPG32A112K0B
R88GHPG50A212K0B
R88GHPG50A332K0B
R88GHPG32A053K0B
R88GHPG50A113K0B
?R88GHPG5
0A21
3K0B
HPG-32A-05-J2NFG R88G-
HPG32A052K0BJ
HPG-32A-11-J2NFH R88G-
HPG32A112K0BJ
HPG-32A-21-J2NFI R88G-
HPG32A211K5BJ
HPG-50A-33-J2ADBA R88G-
HPG50A332K0BJ
HPG-50A-45-J2ADBA R88G-
HPG50A451K5BJ
HPG-32A-05-J2NFG R88G-
HPG32A052K0BJ
HPG-32A-11-J2NFH R88G-
HPG32A112K0BJ
HPG-32A-21-J2NFI R88G-
HPG32A211K5BJ
HPG-50A-33-J2ADBA R88G-
HPG50A332K0BJ
HPG-50A-45-J2ADBA R88G-
HPG50A451K5BJ
HPG-32A-05-J2NFG R88G-
HPG32A052K0BJ
HPG-32A-11-J2NFH R88G-
HPG32A112K0BJ
HPG-50A-21-J2ADBA R88G-
HPG50A212K0BJ
HPG-50A-33-J2ADBA R88G-
HPG50A332K0BJ
HPG-32A-05-J2MCK R88G-
HPG32A053K0BJ
HPG-50A-11-J2AABB R88G-
HPG50A113K0BJ
HPG-50A-21-J2AABB R88G-
HPG50A213K0BJ
HPG-32A-05-J6NFG
HPG-32A-11-J6NFH
HPG-32A-21-J6NFI
HPG-50A-33-J6ADBA
HPG-50A-45-J6ADBA
HPG-32A-05-J6NFG
HPG-32A-11-J6NFH
HPG-32A-21-J6NFI
HPG-50A-33-J6ADBA
HPG-50A-45-J6ADBA
HPG-32A-05-J6NFG
HPG-32A-11-J6NFH
HPG-50A-21-J6ADBA
HPG-50A-33-J6ADBA
HPG-32A-05-J6MCK
HPG-50A-11-J6AABB
HPG-50A-21-J6AABB
34
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Items to Check After Unpacking
z Decelerator (backlash: 3 arcminutes max.) for 2,000-r/min Servomotors
Specifications Without key With key and tap
Servo-
motor
rated
output
400 W
600 W
1 kW
1.5 kW
2 kW
Reduc-
tion
ratio
1/5
1/11
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/45
1/5
1/11
1/21
1/33
1/5
1/11
1/21
1/33
Decelerator model Model on nameplate Decelerator model Model on nameplate
R88GHPG32A052K0B
R88GHPG32A112K0B
R88GHPG32A211K5B
R88GHPG32A33600SB
R88GHPG32A45400SB
R88GHPG32A052K0B
R88GHPG32A112K0B
R88GHPG32A211K5B
R88GHPG32A33600SB
R88GHPG50A451K5B
R88GHPG32A053K0B
R88GHPG32A112K0SB
R88GHPG32A211K0SB
R88GHPG50A332K0SB
R88GHPG50A451K0SB
R88GHPG32A053K0B
R88GH
G32A112K0SB
P
R88GHPG50A213K0B
R88GHPG50A332K0SB
R88GHPG32A053K0B
R88GHPG32A112K0SB
R88GHPG50A213K0B
R88GHPG50A332K0SB
HPG-32A-05-J2NFG R88G-
HPG32A052K0BJ
HPG-32A-11-J2NFH R88G-
HPG32A112K0BJ
HPG-32A-21-J2NFI R88G-
HPG32A211K5BJ
HPG-32A-33-J2NFJ R88G-
HPG32A33600SBJ
HPG-32A-45-J2NFJ R88G-
HPG32A45400SBJ
HPG-32A-05-J2NFG R88G-
HPG32A052K0BJ
HPG-32A-11-J2NFH R88G-
HPG32A112K0BJ
HPG-32A-21-J2NFI R88G-
HPG32A211K5BJ
HPG-32A-33-J2NFJ R88G-
HPG32A33600SBJ
HPG-50A-45-J2ADBA R88G-
HPG50A451K5BJ
HPG-32A-05-J2MCK R88G-
HPG32A053K0BJ
HPG-32A-11-J2MCL R88G-
HPG32A112K0SBJ
HPG-32A-21-J2MCM R88G-
HPG32A211K0SBJ
HPG-50A-33-J2AABB R88G-
HPG50A332K0SBJ
HPG-50A-45-J2AABB R88G-
HPG50A451K0SBJ
HPG-32A-05-J2MCK R88G-
HPG32A053K0BJ
HPG-32A-11-J2MCL R88G-
HPG32A112K0SBJ
HPG-50A-21-J2AABB R88G-
HPG50A213K0BJ
HPG-50A-33-J2AABB R88G-
HPG50A332K0SBJ
HPG-32A-05-J2MCK R88G-
HPG32A053K0BJ
HPG-32A-11-J2MCL R88G-
HPG32A112K0SBJ
HPG-50A-21-J2AABB R88G-
HPG50A213K0BJ
HPG-50A-33-J2AABB R88G-
HPG50A332K0SBJ
HPG-32A-05-J6NFG
HPG-32A-11-J6NFH
HPG-32A-21-J6NFI
HPG-32A-33-J6NFJ
HPG-32A-45-J6NFJ
HPG-32A-05-J6NFG
HPG-32A-11-J6NFH
HPG-32A-21-J6NFI
HPG-32A-33-J6NFJ
HPG-50A-45-J6ADBA
HPG-32A-05-J6MCK
HPG-32A-11-J6MCL
HPG-32A-21-J6MCM
HPG-50A-33-J6AABB
HPG-50A-45-J6AABB
HPG-32A-05-J6MCK
HPG-32A-11-J6MCL
HPG-50A-21-J6AABB
HPG-50A-33-J6AABB
HPG-32A-05-J6MCK
HPG-32A-11-J6MCL
HPG-50A-21-J6AABB
HPG-50A-33-J6AABB
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
35
Items to Check After Unpacking
Specifications Without key With key and tap
Servo-
motor
rated
output
3 kW
Reduc-
tion
ratio
1/5
1/11
1/21
1/25
Decelerator model Model on nameplate Decelerator model Model on nameplate
R88GHPG32A054K0B
R88GHPG50A115K0B
R88GHPG50A213K0SB
R88GHPG65A253K0SB
z Decelerator (backlash: 3 arcminutes max.) for 1,000-r/min Servomotors
Specifications Without key With key and tap
Servo-
motor
rated
output
900 W
2 kW
3 kW
Reduc-
tion
ratio
1/5
1/11
1/21
1/33
1/5
1/11
1/21
1/25
1/5
1/11
1/20
1/25
Decelerator model Model on nameplate Decelerator model Model on nameplate
R88GHPG32A05900TB
R88GHPG32A11900TB
R88GHPG50A21900TB
R88GHPG50A33900TB
R88GHPG32A052K0TB
R88GHPG50A112K0TB
R88GHPG50A212K0TB
R88GHPG65A255K0SB
R88GHPG50A055K0SB
R88GHPG50A115K0SB
R88GHPG65A205K0SB
R88GHPG65A255K0SB
HPG-32A-05-J2PAO R88G-
HPG32A054K0BJ
HPG-50A-11-J2BADC R88G-
HPG50A115K0BJ
HPG-50A-21-J2BADC R88G-
HPG50A213K0SBJ
HPG-65A-25-J2BACC R88G-
HPG65A253K0SBJ
HPG-32A-05-J2PAK R88G-
HPG32A05900TBJ
HPG-32A-11-J2PAL R88G-
HPG32A11900TBJ
HPG-50A-21-J2BADB R88G-
HPG50A21900TBJ
HPG-50A-33-J2BADB R88G-
HPG50A33900TBJ
HPG-32A-05-J2PBS R88G-
HPG32A052K0TBJ
HPG-50A-11-J2BBDH R88G-
HPG50A112K0TBJ
HPG-50A-21-J2BBDH R88G-
HPG50A212K0TBJ
HPG-65A-25-J2EBCH R88G-
HPG65A255K0SBJ
HPG-50A-05-J2EBCH R88G-
HPG50A055K0SBJ
HPG-50A-11-J2EBDH R88G-
HPG50A115K0SBJ
HPG-65A-20-J2EBCH R88G-
HPG65A205K0SBJ
HPG-65A-25-J2EBCH R88G-
HPG65A255K0SBJ
HPG-32A-05-J6PAO
HPG-50A-11-J6BADC
HPG-50A-21-J6BADC
HPG-65A-25-J6BACC
HPG-32A-05-J6PAK
HPG-32A-11-J6PAL
HPG-50A-21-J6BADB
HPG-50A-33-J6BADB
HPG-32A-05-J6PBS
HPG-50A-11-J6BBDH
HPG-50A-21-J6BBDH
HPG-65A-25-J6EBCH
HPG-50A-05-J6EBCH
HPG-50A-11-J6EBDH
HPG-65A-20-J6EBCH
HPG-65A-25-J6EBCH
36
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Decelerator (Backlash: 15 Arcminutes Max.)
MADE IN CHINA
GEAR
R88G-
100
W
XXXXXXXXX
XXXX.XX
RATIO
1:5
VRXF05B100CJ
POWER
LOT NO.
DATE
OMRON Corporation
Reduction ratio
(Example: 1/5)
Rated output
(Example: 100 W)
Decelerator model number
Serial number
Ship date
Nameplate display location
(Rubber cap side)
(Rubber cap)
For Decelerators (backlash: 15 arcminutes max.), the product nameplate indicates the model number,
rated output, reduction ratio, serial number, and ship date.
Items to Check After Unpacking
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
37
Related Manuals
Related Manuals
The following are the manuals related to this manual. Use these manuals for reference.
Manual name Cat. No. Model numbers Application Description
NX-series CPU
Unit Hardware
User’s Manual
NJ-series CPU
Unit Hardware
User’s Manual
W535 NX701- Learning the basic speci-
fications of the NX-series
CPU Units, including
introductory information,
designing, installation,
and maintenance.
Mainly hardware information is provided.
W500 NJ501-
NJ301-
NJ101-
Learning the basic specifications of the NJ-series
CPU Units, including
introductory information,
designing, installation,
and maintenance.
Mainly hardware information is provided.
An introduction to the entire
NX-series system is provided along with the following information on the CPU
Unit.
• Features and system configuration
• Introduction
• Part names and functions
• General specifications
• Installation and wiring
• Maintenance and inspection
Use this manual together
with the NJ-series CPU Unit
Software User’s Manual
(Cat. No. W501).
An introduction to the entire
NJ-series system is provided
along with the following information on the CPU Unit.
• Features and system configuration
• Introduction
• Part names and functions
• General specifications
• Installation and wiring
• Maintenance and inspection
Use this manual together
with the NJ-series CPU Unit
Software User’s Manual
(Cat. No. W501).
38
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Related Manuals
Manual name Cat. No. Model numbers Application Description
NJ/NX-series CPU
Unit Software
User’s Manual
NJ/NX-series CPU
Unit Motion Control User’s Manual
NX-series Safety
Control Units
User's Manual
Sysmac Studio
Version 1 Operation Manual
Sysmac Studio
Drive Functions
Operation Manual
SYSMAC
CJ-series Position
Control Unit Operation Manual
G9SP-series
Safety Controller
Operation Manual
W501 NX701-
NX1P2-
NJ501-
NJ301-
NJ101-
W507 NX701-
NX1P2-
NJ501-
NJ301-
NJ101-
Z930 NX-SL
NX-SI
NX-SO
W504 SYSMAC-SE2
I589 SYSMAC-SE2
W487 CJ1W-NC281
CJ1W-NC481
CJ1W-NC881
CJ1W-NCF81
CJ1W-NC482
CJ1W-NC882
CJ1W-NCF82
Z922 G9SP-N10S
G9SP-N10D
G9SP-N20S
Learning how to program
and set up an
NJ/NX-series CPU Unit.
Mainly software information is provided.
Learning about motion
control settings and programming concepts.
Learning how to use the
NX-series Safety Control Units.
Learning about the operating procedures and
functions of the Sysmac
Studio.
Learning how to set up
and adjust the Servo
Drives.
Learning about the NC
Units (CJ1W-NC281/
481/ 881/ F81/ 482/ 882/
F82).
Learning how to use the
G9SP-series safety Controllers.
The following information is
provided on a Controller built
with an NJ/NX-series CPU
Unit.
• CPU Unit operation
• CPU Unit features
• Initial settings
• Programming based on
IEC 61131-3 language
specifications
Use this manual together
with the NX-series CPU Unit
Hardware User's Manual
(Cat. No. W535) or NJ-series
CPU Unit Hardware User's
Manual (Cat. No. W500).
The settings and operation of
the CPU Unit and programming concepts for motion
control are described.
When programming, use this
manual together with the
NX-series CPU Unit Hardware User's Manual (Cat.
No. W535) or NJ-series CPU
Unit Hardware User's Manual (Cat. No. W500) and with
the NJ/NX-series CPU Unit
Software User's Manual
(Cat. No. W501).
Describes the hardware,
setup methods and functions
of the NX-series Safety Control Units.
Describes the operating procedures of the Sysmac Studio.
Describes the operating procedures of the Sysmac Studio.
Describes the setup methods and operating procedures of the NC Units.
Describ
setup methods and functions
of the G9SP-series safety
Controllers.
es the
hardware,
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
39
Terminology
Terminology
Ter m
CAN application protocol over EtherCAT CoE A CAN application protocol service implemented on
CAN in Automation CiA CiA is the international users’ and manufacturers’
Device Profile --- Collection of device dependent information and func-
Distributed Clocks DC Method to synchronize slaves and maintain a global
EtherCAT Slave Controller ESC A controller for EtherCAT slave communication.
EtherCAT Slave Information ESI An XML file that contains setting information for an
EtherCAT State Machine ESM An EtherCAT communication state machine.
EtherCAT Technology Group ETG The ETG is a global organization in which OEM, End
Fieldbus Memory Management Unit FMMU Single element of the fieldbus memory management
Index --- Address of an object within an application process.
Object --- Abstract representation of a particular component
Object Dictionary OD Data structure addressed by Index and Subindex
Physical Device Internal Interface PDI A series of elements to access data link services
Power Drive System PDS A power drive system consisting of a Servo Drive, an
Process Data --- Collection of application objects designated to be
Process Data Object PDO Structure described by mapping parameters that
Receive PDO RxPDO A process data object received by an EtherCAT
safe state --- The status of a device or piece of equipment when
safety control --- A type of control that uses devices, functions, and
Safety over EtherCAT FSoE A system to communicate for the functional safety
safety process data communications --- A type of I/O data communications that is used for
Abbrevi-
ation
Description
EtherCAT.
group that develops and supports higher-layer protocols.
tionality providing consistency between similar
devices of the same device type.
time base.
EtherCAT slave.
Users and Technology Providers join forces to support and promote the further technology development.
unit: one correspondence between a coherent logical address space and a coherent physical memory
location.
within a device, which consists of data, parameters,
and methods.
that contains description of data type objects, communication objects and application objects.
from the application layer.
inverter, and other components.
transferred cyclically or acyclically for the purpose of
measurement and control.
contain one or several process data entities.
slave.
the risk of danger to humans has been reduced to an
acceptable level.
data that are designed with special safety measures.
over EtherCAT.
safety control purposes.
40
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Terminology
Ter m
Abbrevi-
ation
Description
safety reaction time --- The time required for the system to enter a safe state
in a worst-case scenario after the occurrence of a
safety-related input (press of an emergency stop
pushbutton switch, interruption of a light curtain,
opening of a safety door, etc.) or device failure.
The reaction time of the system includes the reaction
times of sensors and actuators, just like the reaction
time for a Controller or network.
Service Data Object SDO CoE asynchronous mailbox communications where
all objects in the object dictionary can be read and
written.
Slave Information Interface SII Slave information stored in the nonvolatile memory
of each slave.
standard control --- A type of control that use devices, functions, and
data that are designed for general control purposes.
This term is used to differentiate from a safety con-
trol.
Subindex --- Sub-address of an object within the object dictionary.
Sync Manager SM Collection of control elements to coordinate access
to concurrently used objects.
Transmit PDO TxPDO A process data object sent from an EtherCAT slave.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
41
Revision History
Revision History
The manual revision code is a number appended to the end of the catalog number found in the front
and back cover.
Example
Cat. No.
Revision
code
01 June 2016 Original production
02 August 2016 • Made changes accompanying release of R88M-1L
03 March 2017 • Revised for the upgrade to the unit version 1.1.
04 October 2017 • Added Decelerators.
Date Revised content
I586-E1-04
Revision code
• Corrected mistakes.
• Corrected mistakes.
• Corrected mistakes.
42
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Features and System Configuration
This section explains the features of the Servo Drive and name of each part.
1-1 Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
1-1-1 Features of 1S-series Servo Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
1-1-2 EtherCAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
1-1-3 Object Dictionary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
1-2 System Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1-3 Names and Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
1-3-1 Servo Drive Part Names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
1-3-2 Servo Drive Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
1-3-3 Servomotor Part Names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-12
1-3-4 Servomotor Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-13
1-4 System Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-14
1-5 Applicable Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-18
1-5-1 EU Directives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-18
1-5-2 UL and cUL Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-19
1-5-3 Korean Radio Regulations (KC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-20
1-5-4 SEMI F47 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-20
1-5-5 Australian EMC Labeling Requirements (RCM) . . . . . . . . . . . . . . . . . . . . . . 1-20
1-6 Unit Versions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-21
1-6-1 Confirmation Method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-21
1-6-2 Unit Versions and Sysmac Studio Versions . . . . . . . . . . . . . . . . . . . . . . . . . 1-21
1-7 Procedures to Start Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-22
1-7-1 Overall Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-22
1-7-2 Procedure Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-24
1
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 1
1 Features and System Configuration
1-1 Outline
The 1S-series Servo Drives with Built-in EtherCAT communications support 100-Mbps EtherCAT.
When you use the 1S-series Servo Drive with a Machine Automation Controller NJ/NX-series CPU Unit
or Position Control Unit with EtherCAT (Model: CJ1W-NC8), you can construct a high-speed and
sophisticated positioning control system.
You need only one communications cable to connect the Servo Drive and the Controller. Therefore, you
can realize a position control system easily with reduced wiring effort.
With adjustment functions, adaptive notch filter, notch filter, and damping control, you can set up a system that provides stable operation by suppressing vibration in low-rigidity machines.
Moreover, with the two-degree-of-freedom (TDF) control structure, you can easily adjust high-precision
positioning.
1-1-1 Features of 1S-series Servo Drives
The 1S-series Servo Drives have the following features.
Optimal Functionality and Operability by Standardizing Specifications
As a Sysmac Device, 1S-series Servo Drives with built-in EtherCAT communications is designed to
achieve optimum functionality and ease of operation when it is used together with the NJ/NX-series
Machine Automation Controller and the Sysmac Studio Automation Software.
Sysmac Device is a generic term for OMRON control devices such as an EtherCAT Slave, designed
with unified communications specifications and user interface specifications.
Data Transmission Using EtherCAT Communications
Combining the 1S-series Servo Drive with a Machine Automation Controller NJ/NX-series CPU Unit or
Position Control Unit with EtherCAT (Model: CJ1W-NC8) enables you to exchange all position
information with the controller in high-speed data communications.
Since the various control commands are transmitted via data communications, Servomotor’s operational performance is maximized without being limited by interface specifications such as the response
frequency of the encoder feedback pulses.
You can use the Servo Drive’s various control parameters and monitor data on a host controller, and
unify the system data for management.
1 - 2
EtherCAT Communications Cycle of 125 µs
Combination with an NX7 Machine Automation Controller enables high-speed and high-precision
motion control at the communications cycle of 125 µs.
High Equipment Utilization Efficiency with 400-V Models
The 400-V models are provided for use with large equipment, at overseas facilities and in wide-ranging
applications and environment. Since the utilization ratio of facility equipment also increases, the TCO
(Total Cost of Ownership) will come down.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
Safe Torque OFF (STO) Function to Ensure Safety
You can cut off the motor current to stop the motor based on a signal from an emergency stop button or
other safety equipment. This can be used for an emergency stop circuit that is compliant with safety
standards without using an external contactor. Even during the torque OFF status, the present position
of the motor is monitored by the control circuits to eliminate the need to perform the homing at the time
of restart.
1-1 Outline
Achievement of Safety on EtherCAT Network
You can use NX-series Safety Control Units to integrate safety controls in a sequence and motion control system.
The 1S-series Servo Drive supports the FSoE (Safety over EtherCAT) protocol as the safety communincations. You can build the safety system that uses the STO function from the safety controller on
the EtherCAT network.
Suppressing Vibration of Low-rigidity Machines During Acceleration/Deceleration
The damping control function suppresses vibration of low-rigidity machines or devices whose tips tend
to vibrate. The function can also be used for damping control for larger constructions as it supports
vibration ranging from 0.5 to 300 Hz. You can maximize the performance of the Servomotor by
adjusting the trade-off between the damping time and the amount of peak control.
Easy Adjustment with TDF Control Structure
The TDF control structure allows you to separately adjust the amount of overshooting and the
resistance against disturbance. With this feature, you can easily achieve high-precision positioning,
which is difficult to achieve with the one-degree-of-freedom (ODF) control.
1
1-1-2 EtherCAT
1-1-2 EtherCAT
EtherCAT is an open high-speed industrial network system that conforms to Ethernet (IEEE 802.3).
Each node achieves a short communications cycle time by transmitting Ethernet frames at high speed.
A mechanism that allows sharing clock information enables high-precision synchronization control with
low communications jitter.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 3
1 Features and System Configuration
1-1-3 Object Dictionary
1S-series Servo Drives with Built-in EtherCAT Communications use the object dictionary for CAN application protocol over EtherCAT (CoE) as a base for communications.
An object is an abstract representation of a particular component within a device, which consists of
data, parameters, and methods.
An object dictionary is a data structure that contains description of data type objects, communication
objects and application objects.
All objects are assigned four-digit hexadecimal indexes in the areas shown in the following table.
Index (hex) Area Description
0000 to 0FFF Data Type Area Definitions of data types.
1000 to 1FFF CoE Communications Area Definitions of objects that can be used by all serv-
2000 to 2FFF Manufacturer Specific Area 1 Objects with common definitions for all OMRON
3000 to 5FFF Manufacturer Specific Area 2 Objects with common definitions for all 1S-series
6000 to DFFF Device Profile Area Variables defined in the Servo Drive’s CiA402 drive
E000 to EFFF Device Profile Area 2 Objects defined in the Servo Drive’s FSoE CiA402
F000 to FFFF Device Area Objects defined in a device.
*1. For details on servo parameters, refer to Section 9 Details on Servo Parameters.
ers for designated communications.
products.
Servo Drives (servo parameters).
profile.
slave connection.
*1
1 - 4
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
ID211
0
1
3
2
4
5
7
6
8
9
11
10
12
13
14
15
24 VDC
7 mA
COM
MACH
No
.
AD042
RUN
ERC
ERH
B1 A1
x10
1
x10
0
0
9
8
7
6
5
4
3
2
1
0
9
8
7
6
5
4
3
2
1
01234567
8
9
10 11 12 13 14 15
RUN
ERR
IN
L/A
R88D-1SN
L/A
FS
OUT
Ether
CAT
EtherCAT
CJ-series
Controller (EtherCAT type)Controller (EtherCAT type)
Programmable Controller
Position Control Unit
CJ1W-NC
8
1S-series
Servo Drive
R88D-1SN-ECT
Machine Automation Controller
NJ/NX-series
1S-series
Servomotor
R88M-1L/-1M
1-2 System Configuration
The system configuration for a 1S-series Servo Drive with Built-in EtherCAT Communications is shown
below.
1-2 System Configuration
1
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 5
1 Features and System Configuration
CN7
ID
x1
x16
0
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
9
A
B
C
0
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
9
A
B
C
Main circuit connector (CNA)
terminal
7-segment LED display
ID switches
Status indicators
Charge lamp
Control I/O connector
(CN1)
terminal
Status indicators
USB connector (CN7)
EtherCAT communications
connector (ECAT IN CN10)
EtherCAT communications
connector (ECAT OUT CN11)
1-3 Names and Functions
This section describes the names and functions of Servo Drive parts.
1-3-1 Servo Drive Part Names
The Servo Drive part names are given below.
R88D-1SN01L-ECT/-1SN02L-ECT/-1SN04L-ECT/-1SN01H-ECT/
-1SN02H-ECT/-1SN04H-ECT/-1SN08H-ECT/-1SN10H-ECT
1 - 6
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
Motor connector
(CNC)
terminal
Encoder connector (CN2)
Brake interlock connector
(CN12)
1-3 Names and Functions
1
1-3-1 Servo Drive Part Names
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 7
1 Features and System Configuration
ECAT OUT
CN11
CN1
ECAT IN
CN10
CHARGE
CN7
ID
x1
x16
0
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
9
A
B
C
0
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
9
A
B
C
Main circuit
connector A (CNA)
Control power
supply connector
(CND)
Main circuit
connector B (CNB)
7-segment
LED display
ID switches
Status indicators
Charge lamp
Control I/O connector
(CN1)
terminal
Status indicators
USB connector
EtherCAT
communications
connector
(ECAT IN CN10)
EtherCAT
communications
connector
(ECAT OUT CN11)
Top view
terminal
R88D-1SN15H-ECT/-1SN20H-ECT/-1SN30H-ECT/-1SN06F-ECT/
-1SN10F-ECT/-1SN15F-ECT/-1SN20F-ECT/-1SN30F-ECT
1 - 8
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
1-3 Names and Functions
1
1-3-1 Servo Drive Part Names
Motor connector
(CNC)
Encoder connector (CN2)
Brake interlock connector
(CN12)
terminal
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 9
1 Features and System Configuration
1-3-2 Servo Drive Functions
The functions of each part of the Servo Drive are described below.
Status Indicators
The following seven indicators are mounted.
Name Color Description
PWR Green Displays the status of control power supply.
ERR Red Gives the Servo Drive error status.
ECAT-RUN Green Displays the EtherCAT communications status.
ECAT-ERR Red
ECAT-L/A IN,
ECAT-L/A OUT
FS Red/green Displays the safety communications status.
For details on display, refer to 5-1-2 Status Indicators on page 5-3.
Green Lights or flashes according to the status of a link in the EtherCAT physical
layer.
7-segment LED Display
A 2-digit 7-segment LED display shows error numbers, the Servo Drive status, and other information.
Refer to 10-2-3 Checking the Displays on page 10-5 for details.
ID Switches
Two rotary switches (0 to F hex) are used to set the EtherCAT node address.
1 - 10
Charge Lamp
Lights when the main circuit power supply carries electric charge.
Control I/O Connector (CN1)
Used for command input signals, I/O signals, and as the safety device connector. The short-circuit wire
is installed on the safety signals before shipment.
Encoder Connector (CN2)
Connector for the encoder installed in the Servomotor.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
EtherCAT Communications Connectors (ECAT IN CN10, ECAT OUT
CN11)
These connectors are for EtherCAT communications.
USB Connector (CN7)
1-3 Names and Functions
USB-Micro B Communications connector for the computer. This connector enables USB 2.0 Full Speed
(12 Mbps) communications.
Brake Interlock Connector (CN12)
Used for brake interlock signals.
Main Circuit Connector (CNA)
Connector for the main circuit power supply input, control power supply input, external regeneration
resistor, and DC reactor.
Applicable models: R88D-1SN01L-ECT/-1SN02L-ECT/-1SN04L-ECT/-1SN01H-ECT/
-1SN02H-ECT/-1SN04H-ECT/-1SN08H-ECT/-1SN10H-ECT
Main Circuit Connector A (CNA)
Connector for the main circuit power supply input and external regeneration resistor.
Applicable models: R88D-1SN15H-ECT/-1SN20H-ECT/-1SN30H-ECT/-1SN06F-ECT/
-1SN10F-ECT/-1SN15F-ECT/-1SN20F-ECT/-1SN30F-ECT
1
1-3-2 Servo Drive Functions
Main Circuit Connector B (CNB)
Connector for a DC reactor.
Applicable models: R88D-1SN15H-ECT/-1SN20H-ECT/-1SN30H-ECT/-1SN06F-ECT/
-1SN10F-ECT/-1SN15F-ECT/-1SN20F-ECT/-1SN30F-ECT
Control Power Supply Connector (CND)
Connector for control power supply input.
Applicable models: R88D-1SN15H-ECT/-1SN20H-ECT/-1SN30H-ECT/-1SN06F-ECT/
-1SN10F-ECT/-1SN15F-ECT/-1SN20F-ECT/-1SN30F-ECT
Motor Connector (CNC)
Connector for the power line to the phase U, V, and W of the Servomotor.
The connector differs depending on the model.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 11
1 Features and System Configuration
Flange
Mating part
Encoder
Connector
Power
Connector
Shaft
100 VAC 100 W Servomotors (without Brake)
Term inal
The number of terminals of the Servo Drives and their connection targets are as follows.
Servo Drive model
R88D-1SN01L-ECT/
-1SN02L-ECT/-1SN04L-ECT/
-1SN01H-ECT/-1SN02H-ECT/
-1SN04H-ECT/-1SN08H-ECT/
-1SN10H-ECT
R88D-1SN15H-ECT/
-1SN20H-ECT/-1SN30H-ECT/
-1SN06F-ECT/-1SN10F-ECT/
-1SN15F-ECT/-1SN20F-ECT/
-1SN30F-ECT
1-3-3 Servomotor Part Names
The Servomotor part names are given below.
Flange Size of 80 x 80 or less
Number of
terminals
1 on top PE wire of the main circuit power supply cable.
2 on front
1 on bottom
1 on top PE wire of the main circuit power supply cable.
2 on front
1 on bottom
FG wire inside the control panel, and FG wire for
the motor cable and shielded wire.
FG wire inside the control panel and the motor
cable shielded wire.
Connection to
1 - 12
Brake connector
Power connector
Shaft
200 VAC 200 W Servomotors (with Brake)
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Encoder
connector
Flange
Mating part
Flange Size of 100 x 100 or more
Power/brake connector
1 Features and System Configuration
1-3 Names and Functions
Encoder
connector
1
1-3-4 Servomotor Functions
Shaft
200 VAC 1.5 kW Servomotors (with Brake)
1-3-4 Servomotor Functions
The functions of each part of the Servomotor are described below.
Shaft
The load is mounted on this shaft.
The direction which is in parallel with the shaft is called the thrust direction, and the direction which is
perpendicular to the shaft is called the radial direction.
Flange
Used for mounting the Servomotor on the equipment.
Flange
Mating part
Fit the mating part into the equipment and use the mounting holes to screw the Servomotor.
Power Connector
Used for supplying power to the phase U, V, and W of the Servomotor.
For Servomotors with a brake and flange size of 100 x 100 or more, the pins for power and brake are
set on the same connector.
Encoder Connector
Used for supplying power to the encoder of the Servomotor and communicating with the Servo Drive.
Brake Connector
Used for supplying power to the brake coil of the Servomotor.
This part is attached only to the Servomotors with a brake and flange size of 80 x 80 or less.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 13
1 Features and System Configuration
L1
N2
P/B1
B2
B3
U
V
W
N1
ECAT IN
CN10
ECAT OUT
CN11
CN1 CN1CN2 CN12 CN7
L2
L3
24 V
DC/DC
0
N3
CNA
CNA
Fuse
CNA
CNC
USB
Power
supply
Brake
interlock
SafetyEncoderControl
interface
EtherCAT
communications
connector
EtherCAT
communications
connector
MPU, FPGA
Control circuit
Display area
rotary switch
Input voltage monitoring
Relay
drive
Voltage detection
Regeneration
control
error detection
Overcurrent detection
(IPM error)
HS temperature
monitoring
Gate drive
Current detection
1-4 System Block Diagram
The block diagram of a 1S-series Servo Drive with Built-in EtherCAT Communications is shown below.
z R88D-1SN01L-ECT/-1SN02L-ECT/-1SN01H-ECT/-1SN02H-ECT/
-1SN04H-ECT
1 - 14
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
Fuse
ECAT IN
CN10
ECAT OUT
CN11
L1
N2
P/B1
B2
B3
U
V
W
N1
DC
FAN
CN1 CN1CN2 CN12 CN7
L2
L3
24 V
DC/DC
0
N3
CNA
CNA
CNA
CNC
Power
supply
Display area
rotary switch
USB
Brake
interlock
SafetyEncoderControl
interface
EtherCAT
communications
connector
EtherCAT
communications
connector
Gate drive
Input voltage monitoring
Voltage detection
Relay
drive
Regeneration
control
error detection
Overcurrent
detection
(IPM error)
Current detection
HS temperature
monitoring
MPU, FPGA
Control circuit
z R88D-1SN04L-ECT/-1SN08H-ECT/-1SN10H-ECT
1-4 System Block Diagram
1
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 15
1 Features and System Configuration
ECAT IN
CN10
ECAT OUT
CN11
L1
N3
B1
B2
B3
U
V
W
N1
DC
FAN
CN1 CN1CN2 CN12 CN7
L2
L3
P
+24
V
DC/DC
0V
CND
CNA
N2
CNB
Fuse
CNA
FG
CNC
EtherCAT
communications
connector
EtherCAT
communications
connector
Encoder Brake
interlock
Safety
USB
Power
supply
Control
interface
Display area
rotary switch
Input voltage monitoring
Relay
drive
Voltage detection
MPU, FPGA
Control circuit
Gate drive
Current detection
HS temperature
monitoring
Overcurrent
detection
(IPM error)
Regeneration control
z R88D-1SN15H-ECT/-1SN20H-ECT/-1SN30H-ECT
1 - 16
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
z R88D-1SN06F-ECT/-1SN10F-ECT/-1SN15F-ECT/-1SN20F-ECT/
-1SN30F-ECT
1-4 System Block Diagram
CND
CNA
CNB
+24
0V
N3
N2
N1
L1
L2
L3
DC/DC
V
P
Fuse
Input voltage monitoring
power
supply
Relay
drive
Regeneration control
Voltage detection
DC
FAN
Overcurrent
detection
(IPM error)
Gate drive
Current detection
HS temperature
monitoring
B1
B2
B3
U
V
W
FG
CNA
CNC
1
Display area
rotary switch
ECAT IN
CN10
EtherCAT
communications
connector
ECAT OUT
communications
CN11
EtherCAT
connector
MPU, FPGA
Control circuit
CN1 CN1CN2 CN12 CN7
Control
interface
Encoder Brake
interlock
USB
Safety
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 17
1 Features and System Configuration
1-5 Applicable Standards
This section describes applicable standards.
1-5-1 EU Directives
The 1S-series Servomotors, Servo Drives, and Footprint-type Noise Filters conform to the following
standards.
EU Directives Product Applicable standards
EMC Directive Servo Drives EN61800-3 second environment,
C3 Category
(EN 61326-3-1 Functional Safety)
Low Voltage Directive Servo Drives EN 61800-5-1
Servomotors EN 60034-1/-5
Footprint-type Noise
Filters
Machinery Directive Servo Drives EN ISO 13849-1 (Cat.3)
EN 60939-2
EN 61508
EN 62061
EN 61800-5-2
Note To conform to EMC Directives, install the Servo Drive and Servomotor under the conditions described in 4-3
Wiring Conforming to EMC Directives on page 4-29.
The Servo Drives and Servomotors comply with EN 61800-5-1 as long as the following installation
conditions (a) and (b) are met.
(a) Use the Servo Drive in pollution degree 2 or 1 environment as specified in IEC 60664-1.
Example: Installation inside an IP54 control panel.
(b) Be sure to connect a fuse, which complies with IEC 60269-1 CLASS gG, between the power supply
and noise filter.
Select a fuse from the following table.
Servo Drive model Fuse
R88D-1SN01L-ECT CLASS gG 16A
R88D-1SN02L-ECT CLASS gG 16A
R88D-1SN04L-ECT CLASS gG 16A
R88D-1SN01H-ECT CLASS gG 16A
R88D-1SN02H-ECT CLASS gG 16A
R88D-1SN04H-ECT CLASS gG 16A
R88D-1SN08H-ECT CLASS gG 16A
R88D-1SN10H-ECT CLASS gG 16A
R88D-1SN15H-ECT CLASS gG 40A
R88D-1SN20H-ECT CLASS gG 40A
R88D-1SN30H-ECT CLASS gG 40A
R88D-1SN06F-ECT CLASS gG 20A
R88D-1SN10F-ECT CLASS gG 20A
R88D-1SN15F-ECT CLASS gG 20A
R88D-1SN20F-ECT CLASS gG 20A
R88D-1SN30F-ECT CLASS gG 20A
1 - 18
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1-5-2 UL and cUL Standards
The 1S-series Servomotors, Servo Drives, and Footprint-type Noise Filters conform to the following
standards.
Standard Product Applicable standards File number
UL standards Servo Drives UL 61800-5-1 E179149
Servomotors UL 1004-1, UL 1004-6 E331224
Footprint-type Noise Filters UL1283 E191135
*1
CSA standards
Servo Drives CSA C22.2 No. 274 E179149
Servomotors CSA C22.2 No. 100 E331224
*1. IN CANADA, TRANSIENT SURGE SUPPRESSION SHALL BE INSTALLED ON THE LINE SIDE OF THIS
EQUIPMENT AND SHALL BE RATED 277 V (PHASE TO GROUND), SUITABLE FOR OVERVOLTAGE
CATEGORY III, AND SHALL PROVIDE PROTECTION FOR A RATED IMPULSE WITHSTAND VOLTAGE
PEAK OF 6 KV
The Servo Drives and Servomotors comply with UL 61800-5-1 as long as the following installation conditions (a) and (b) are met.
(a) Use the Servo Drive in pollution degree 2 or 1 environment as specified in IEC 60664-1.
Example: Installation inside an IP54 control panel.
(b) Be sure to connect a fuse, which is a UL-listed product with LISTED and mark, between the
power supply and noise filter.
Select the fuse from the following table.
Use copper wiring with a temperature rating of 75°C or higher.
Servo Drive model Fuse
R88D-1SN01L-ECT UL CLASS RK5 15 A
R88D-1SN02L-ECT UL CLASS RK5 15 A
R88D-1SN04L-ECT UL CLASS RK5 15 A
R88D-1SN01H-ECT UL CLASS RK5 15 A
R88D-1SN02H-ECT UL CLASS RK5 15 A
R88D-1SN04H-ECT UL CLASS RK5 15 A
R88D-1SN08H-ECT UL CLASS RK5 15 A
R88D-1SN10H-ECT UL CLASS RK5 15 A
R88D-1SN15H-ECT UL CLASS RK5 40 A
R88D-1SN20H-ECT UL CLASS RK5 40 A
R88D-1SN30H-ECT UL CLASS RK5 40 A
R88D-1SN06F-ECT UL CLASS RK5 20 A
R88D-1SN10F-ECT UL CLASS RK5 20 A
R88D-1SN15F-ECT UL CLASS RK5 20 A
R88D-1SN20F-ECT UL CLASS RK5 20 A
R88D-1SN30F-ECT UL CLASS RK5 20 A
1 Features and System Configuration
1-5 Applicable Standards
1
1-5-2 UL and cUL Standards
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 19
1 Features and System Configuration
Precautions for Correct Use
1-5-3 Korean Radio Regulations (KC)
• Observe the following precaution if you use this product in Korea.
Class A Device (Broadcasting Communications Device for Office Use)
This device obtained EMC registration for office use (Class A), and it is intended to be used in places
other than homes. Sellers and/or users need to take note of this.
• The 1S-series Servo Drives comply with the Korean Radio Regulations (KC).
• The 1S-series Servomotors are exempt from the Korean Radio Regulations (KC).
1-5-4 SEMI F47
• The main power supply inputs can conform to the SEMI F47 standard for momentary power interruptions (voltage sag immunity) for no-load operation.
• This standard applies to semiconductor manufacturing equipment.
• This standard does not apply to the 24-VDC control power input. Use the power supply.
• This standard does not apply to single-phase 100-V Servo Drives.
• Be sure to perform evaluation tests for SEMI F47 compliance in the entire machine and system.
1-5-5 Australian EMC Labeling Requirements (RCM)
• The 1S-series Servo Drives comply with the Australian EMC Labeling Requirements (RCM).
• The 1S-series Servomotors comply with the Australian EMC Labeling Requirements (RCM).
1 - 20
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
RUN
ERR
IN
L/A
R88D-1SN
L/A
FS
OUT
Ether
CAT
Unit version
Display location
Display on the product
1-6 Unit Versions
The 1S-series Servo Drive uses unit versions.
Unit versions are used to manage differences in supported functions due to product upgrades, etc.
1-6-1 Confirmation Method
The unit version of 1S-series is displayed at the location shown below.
1-6 Unit Versions
1
1-6-1 Confirmation Method
1-6-2 Unit Versions and Sysmac Studio Versions
The supported functions depend on the unit version of the 1S-series. When you use the functions that
were added for an upgrade, you must use the version of Sysmac Studio that supports those functions.
Refer to A-6 Version Information on page A-172 for the relationship between the unit versions and the
Sysmac Studio versions, and for the functions that are supported by each unit version.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 21
1 Features and System Configuration
STEP 1 System Design
STEP 1-1 Determining safety measures based on risk assessment
STEP 1-2 Selecting standard devices, Servo Drive, Servomotor, and safety devices
STEP 1-3 Designing interface between standard control and safety control
STEP 2 Software and hardware design for
standard control
STEP 2-1 Designing I/O and processing
STEP 2-2 Designing tasks
STEP 2-3 Designing user programs
STEP 4 Calculation and verification of safety
control responsivity
STEP 4-1 Calculating safety reaction time
and safety distance
STEP 3 Software and hardware design for
safety control
STEP 3-1 Determining wiring for communications,
power supply, and connection with external I/O devices
STEP 3-2 Designing I/O and processing
STEP 3-3 Designing safety programs
STEP 4-2 Verifying specification requirement satisfaction
STEP 5 Software setting and programming for
standard control
STEP 5-1 Creating project
STEP 5-2 Creating slave and unit configuration
STEP 6 Software setting and programming for
safety control
STEP 5-3 Controller settings
STEP 5-4 Programming
STEP 5-5 Offline debugging
STEP 6-1 Creating safety control system
configuration
STEP 6-4 Assigning device variables to I/O ports
STEP 6-5 Programming
STEP 6-6 Offline debugging
STEP 6-2 Checking/setting safety process
data communications
STEP 6-3 Assigning devices to safety
I/O terminal
STEP 7 Servo Drive setting, adjustment, and operation check
STEP 7-1 Installation and mounting
STEP 7-2 Wiring and connections
STEP 7-3 Device setting
STEP 7-4 Test run
STEP 7-5 Adjustment
1-7 Procedures to Start Operation
This section explains the procedures to operate a system that incorporates 1S-series Servo Drives.
1-7-1 Overall Procedure
Use the following procedures to build a system that incorporates 1S-series Servo Drives.
To use the Servo Drive safety function, you must build the standard control and safety control together.
1 - 22
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
STEP 8 Mounting and wiring
STEP 8-1 Mounting
STEP 8-2 Wiring
STEP 9 Standard control operation check
STEP 9-1 Placing Sysmac Studio online
and downloading project
STEP 9-2 Online Debugging
STEP 10 Safety control operation check
STEP 10-1 Transferring configuration information
STEP 10-2 Checking operation with actual machine
STEP 10-3 Conducting safety validation test
STEP 10-4 Setting security of unit
STEP 10-5 Executing safety validation
from Sysmac Studio
STEP 11 Operation and maintenance
STEP 11-1 Operation
STEP 11-2 Troubleshooting
STEP 11-3 Inspection and replacement
1-7 Procedures to Start Opera-
tion
1
1-7-1 Overall Procedure
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 23
1 Features and System Configuration
1-7-2 Procedure Details
As described previously, the procedures for the standard control and safety control are performed in
parallel.
This section explains the procedure details for using the Servo Drive safety function.
If you use an NJ/NX-series CPU Unit to perform the standard control, refer to NJ/NX-series CPU Unit
Software User's Manual (Cat. No. W501) together with this manual.
If you use an NX-series Safety Control Unit to perform the safety control, refer to NX-series Safety Con-
trol Unit User’s Manual (Cat. No. Z930) together with this manual.
STEP 1 System Design
Procedure Description Reference
STEP 1-1
Determining safety measures based on risk
assessment
• Identify the source of danger and perform the risk
assessment (estimation and evaluation).
• Consider and determine the measures for risk minimization.
STEP 1-2
Selecting standard
device, Servo Drive, Servomotor, and safety
device
STEP 1-3
Designing interface
between standard control and safety control
STEP 2 Software and Hardware Design for Standard Control
Procedure Description Reference
STEP 2-1
Designing I/O and processing
STEP 2-2
Designing tasks
• Select the device that configures inputs, logics, and
outputs for standard control.
• Select the Servo Drive and Servomotor.
• Select the safety device used to configure inputs,
logics, and outputs for safety control.
Design the interface between the standard control and
safety control.
Design I/O and processing.
• External I/O devices and unit configuration
• Refresh periods for external devices
• Program contents
Design the tasks.
• Task configuration
• Relationship between tasks and programs
• Task periods
• Slave and Unit refresh times
• Exclusive control methods for variables between
tasks
Manuals for each unit
Safety Control Unit User's
Manual
NJ/NX-series CPU Unit
User’s Manuals
NJ/NX-series CPU Unit
User’s Manuals
1 - 24
STEP 2-3
Designing user programs
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
• Design POUs (Program Organization Unit).
• Design variables.
NJ/NX-series CPU Unit
User’s Manuals
1 Features and System Configuration
1-7 Procedures to Start Opera-
STEP 3 Software and Hardware Design for Safety Control
Procedure Description Reference
STEP 3-1
Determining wiring for
communications, power
Determine wiring used for the communication network,
power supply, and safety I/O devices.
Safety Control Unit User's
Manual
tion
supply, and connection
with external I/O devices
1
STEP 3-2
Designing I/O and processing
Design the configuration of the safety I/O devices and
Safety I/O Unit.
• Safety I/O devices
• Program contents
Safety Control Unit User's
Manual
1-7-2 Procedure Details
STEP 3-3
Designing safety programs
Design POUs (Program Organization Unit).
•Programs
• Function blocks
Safety Control Unit User's
Manual
STEP 4 Calculation and Verification of Safety Control Responsivity
Procedure Description Reference
STEP 4-1
Calculating safety reac-
Calculate the safety reaction time and then determine
the safety distance.
Safety Control Unit User's
Manual
tion time and safety distance
STEP 4-2
Verifying specification
Verify whether the specification requirements are satisfied. If not, reconsider the system design.
Safety Control Unit User's
Manual
requirement satisfaction
STEP 5 Software Design and Programming for Standard Control
Procedure Description Reference
STEP 5-1
Creating project
• Create a new project in the Sysmac Studio.
• Insert a Controller.
NJ/NX-series CPU Unit
User’s Manuals
• Create the slave configuration and Unit configuration
either offline or online.
STEP 5-2
Creating slave and unit
configuration
• Include the safety PDOs (1710 hex and 1B10 hex) in
PDO mapping for the Servo Drive.
• Register the device variables in the variable table.
• Create the axes and set them as real axes or virtual
axes. Create axes groups to perform interpolated
axes control.
STEP 5-3
Controller settings
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Set PLC Function Modules, Motion Control Function
Modules, etc. in the Sysmac Studio.
NJ/NX-series CPU Unit
User’s Manuals
NJ/NX-series CPU Unit
User’s Manuals
1 - 25
1 Features and System Configuration
STEP 5 Software Design and Programming for Standard Control
Procedure Description Reference
• Register variables in the Sysmac Studio.
STEP 5-4
Programming
• Write the algorithms for the POUs (programs, function blocks, and functions) in the required languages.
• Make task settings.
NJ/NX-series CPU Unit
User’s Manuals
STEP 5-5
Offline Debugging
Check the algorithms and task execution times on the
Simulator (virtual controller).
NJ/NX-series CPU Unit
User’s Manuals
STEP 6 Software Design and Programming for Safety Control
Procedure Description Reference
STEP 6-1
Creating safety control
Arrange the Communications Coupler Unit, Safety
CPU Unit, and Safety I/O Unit in the Sysmac Studio.
Safety Control Unit User's
Manual
system configuration
Safety Control Unit User's
Manual
STEP 6-2
Checking/setting Safety
Process Data Communications
• Select Safety Controller from the Controller Selection
Box in the Sysmac Studio.
• Check or change the settings of Safety Process Data
Communications.
• Make sure that the Servo Drive is displayed, and
then select the Active check box.
STEP 6-3
Assigning devices to
safety I/O terminal
In the parameter setting view for the Safety I/O Unit,
select the safety I/O devices connected to the safety
I/O terminal.
Safety Control Unit User's
Manual
STEP 6-4
Assigning device variables to I/O ports
Register the device variables in the variable table.
(Variable names are user defined or automatically created.)
• Register the variables used by more than one POU
in the global variable table with the Sysmac Studio.
Safety Control Unit User's
Manual
Safety Control Unit User's
Manual
• Register the variables in the local variable table for
STEP 6-5
Programming
each program.
• Register the variables in the local variable table for
each function block.
• Write the algorithms for the POUs (programs and
function blocks) in FBD language.
STEP 6-6
Offline Debugging
Execute program debugging with the Simulator. Safety Control Unit User's
Manual
STEP 7 Servo Drive Setting, Adjustment, and Operation Check
Procedure Description Reference
STEP 7-1
Installation and mounting
Install the Servomotor and Servo Drive according to the
installation conditions. Do not connect the Servomotor
to mechanical systems before checking the operation
without any load.
Section 4, 4-1
1 - 26
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 Features and System Configuration
STEP 7 Servo Drive Setting, Adjustment, and Operation Check
Procedure Description Reference
1-7 Procedures to Start Opera-
Connect the Servomotor and Servo Drive to the power
STEP 7-2
Wiring and connections
supply and peripheral equipment.
Satisfy specified installation and wiring conditions, par-
Section 4, 4-2
tion
ticularly for models that conforms to the EU Directives.
1
STEP 7-3
Device setting
STEP 7-4
Test run
STEP 7-5
Adjustment
STEP 8 Mounting and Wiring
Procedure Description Reference
STEP 8-1
Mounting
Set the objects related to the functions required for
application conditions.
Section 9
• First, check motor operation without any load. Then
turn the power supply OFF and connect the Servomotor to mechanical systems.
• Use the STO function via safety input signals if you
Section 10, 10-3
need the function while you perform the test run or
adjustment using the Servo Drive with no load.
Manually adjust the gain if necessary.
Section 11
Install each unit according to the installation conditions. Manuals for each unit
1-7-2 Procedure Details
STEP 8-2
Connect the network cables and wire the I/O. Manuals for each unit
Wiring
STEP 9 Standard Control Operation Check
Procedure Description Reference
STEP 9-1
Placing Sysmac Studio
online and downloading
• Turn ON the power supply to the Controller and place
the Sysmac Studio online.
• Download the project.
NJ/NX-series CPU Unit
User’s Manuals
project
• Check the wiring by using forced refreshing of real
I/O from the I/O Map or Watch Tab Page.
NJ/NX-series CPU Unit
User’s Manuals
• For motion control, use the MC Test Run operations
STEP 9-2
Online Debugging
in PROGRAM mode to check the wiring. Then check
the motor rotation directions for jogging, travel distances for relative positioning (e.g., for electronic
gear settings), and homing operation.
• Change the Controller to RUN mode and check the
operation of the user program.
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
1 - 27
1 Features and System Configuration
STEP 10 Safety Control Operation Check
Procedure Description Reference
• Connect the computer (Sysmac Studio) to the
NJ/NX-series CPU Unit.
STEP 10-1
Transferring configuration information
• Download the project data to the CPU Unit.
• In the Safety CPU Unit Setup and Programming
View, change the mode of the Safety CPU Unit to
DEBUG mode. By doing this, the safety application
data is transferred to the Safety CPU Unit and the
test run for debugging is enabled.
• NJ/NX-series CPU Unit
User’s Manuals
• Safety Control Unit
User's Manual
STEP 10-2
Checking operation with
actual machine
STEP 10-3
Conducting safety vali-
Perform the wiring check and program operation check
to confirm that the Safety Control Unit operates as
intended.
Conduct the test to check whether all safety functions
operate as designed.
Safety Control Unit User's
Manual
Safety Control Unit User's
Manual
dation test
STEP 10-4
Setting security of unit
STEP 10-5
Executing safety validation from Sysmac Studio
Set the safety password. Safety Control Unit User's
Manual
If the safety validation test is completed successfully,
then execute the safety validation command from Sys-
Safety Control Unit User's
Manual
mac Studio.
By doing this, the safety application data is transferred
to the non-volatile memory in the Safety CPU Unit, and
the operation-ready status is established.
STEP 11 Operation and Maintenance
Procedure Description Reference
STEP 11-1
Operation
Start actual operation.
---
1 - 28
STEP 11-2
Troubleshooting
STEP11-3
Inspection and replacement
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
In case of an error, use the troubleshooting function of
the Sysmac Studio to check the error and identify its
cause, and then remove the cause of the error.
Perform periodic maintenance.
If any defect is found during inspection, replace the
device.
• Section 9
• Manuals for each unit
• Section 10
• Manuals for each unit
Models and External Dimensions
This section explains the models of Servo Drives, Servomotors, Decelerators, and
peripheral devices, and provides the external dimensions and mounting dimensions.
2-1 Servo System Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2-2 How to Read Model Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
2-2-1 Servo Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
2-2-2 Servomotor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
2-2-3 Decelerator (Backlash: 3 Arcminutes Max.) . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
2-2-4 Decelerator (Backlash: 15 Arcminutes Max.) . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
2-3 Model Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
2-3-1 Servo Drive Model Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
2-3-2 Servomotor Model Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9
2-3-3 Servo Drive and Servomotor Combination Tables . . . . . . . . . . . . . . . . . . . . 2-13
2-3-4 Decelerator Model Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14
2-3-5 Servomotor and Decelerator Combination Tables . . . . . . . . . . . . . . . . . . . . 2-17
2-3-6 Cable and Connector Model Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
2-3-7 External Regeneration Resistor and External Regeneration Resistance Unit
Model Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-23
2-3-8 Reactor Model Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-24
2-3-9 Noise Filter Model Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-24
2-4 External and Mounting Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-25
2-4-1 Servo Drive Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-25
2-4-2 Servomotor Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-29
2-4-3 Decelerator Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-65
2-4-4 Dimensions of External Regeneration Resistors and External Regeneration
Resistance Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-79
2-4-5 Reactor Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-80
2-4-6 Noise Filter Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-89
2
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 1
2 Models and External Dimensions
ID211
0
1
3
2
4
5
7
6
8
9
11
10
12
13
14
15
24 VDC
7 mA
COM
MACH
No
.
AD042
RUN
ERC
ERH
B1 A1
×10
1
×10
0
0
9
8
7
6
5
4
3
2
1
0
9
8
7
6
5
4
3
2
1
01234567
8
9
10 11 12 13 14 15
● FA Integrated Tool Package
CX-One
*1
(CX-Programmer
included)
NJ/NX-series CPU Unit
(with EtherCAT port)
Controller
Machine Automation Controller
NJ/NX-series
CJ-series CPU Unit
+ Position Control Unit (with EtherCAT Interface)
Programmable Controller
CJ-CPU
Position Control Unit (NC)
CJ1W-NC8
Support Software
● Automation Software
Sysmac Studio
Support Software
2-1 Servo System Configuration
This section shows the Servo system configuration that consists of Controllers, Servo Drives, Servomotors, Decelerators, and other devices.
*1. You cannot use the CX-One to make the settings of 1S-series Servo Drives. Obtain the Sysmac Studio.
2 - 2
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
RUN
ERR
IN
L/A
R88D-1SN
L
/A
FS
OUT
Ether
CAT
Servo Drive
Power cable
Brake cable for 750 W max.
Encoder cable
USB
communications
EtherCAT
communications
● 1S-series Servo Drive
R88D-1SN-ECT
100 VAC
200 VAC
400 VAC
Feedback signal
● 1S-series Servomotor
R88M-1L/-1M
3,000 r/min
2,000 r/min
1,000 r/min
● Backlash: 3 Arcminutes max.
R88G-HPG
●
Backlash: 15 Arcminutes max.
R88G-VRXF
Decelerator
Servomotor
Power signal
● Standard cable
· Without brake wire
R88A-CA1S
· With brake wire
R88A-CA1B
● Flexible cable
· Without brake wire
R88A-CA1SF
· With brake wire
R88A-CA1BF
● Standard cable
R88A-CA1AB
● Flexible cable
R88A-CA1ABF
● Standard cable
R88A-CR1AC
R88A-CR1BN
● Flexible cable
R88A-CR1ACF
R88A-CR1BNF
2-1 Servo System Configuration
2
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 3
2 Models and External Dimensions
01
02
04
06
08
10
15
20
30
R88D-1SN01H-ECT
100 W
200 W
400 W
600 W
750 W
1 kW
1.5 kW
2 kW
3 kW
N
L
H
F
100 VAC
200 VAC
400 VAC
ECT
Communications type
Applicable Servomotor rated output
Power supply voltage
Servo Drive type
1S-series
Servo Drive
Communications type
EtherCAT communications
2-2 How to Read Model Numbers
This section describes how to read and understand the model numbers of Servo Drives, Servomotors,
and Decelerators.
2-2-1 Servo Drive
The Servo Drive model number tells the Servo Drive type, applicable Servomotor, power supply voltage, etc.
2 - 4
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2-2-2 Servomotor
100
200
400
600
750
900
1K0
1K5
2K0
3K0
10
20
30
S
T
C
R88M-1M10030S-BOS2
100 W
200 W
400 W
600 W
750 W
900 W
1 kW
1.5 kW
2 kW
3 kW
1,000 r/min
2,000 r/min
3,000 r/min
L
M
Low inertia
Middle inertia
100 VAC absolute encoder
200 VAC absolute encoder
400 VAC absolute encoder
Brake
None
B
Oil seal
None
O
Key and tap
None
S2
Options
Servo Drive main power supply voltage and encoder type
Rated output
Rated rotation speed
Servomotor type
1S-series Servomotor
Without brake
With 24-VDC brake
Without oil seal
With oil seal
Straight shaft
With key and tap
The Servomotor model number tells the Servomotor type, rated output, rated rotation speed, voltage,
etc.
2 Models and External Dimensions
2-2 How to Read Model Numbers
2
2-2-2 Servomotor
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Combinations of Options
Straight shaft With key and tap Straight shaft With key and tap
Without
brake
With brake -B -BS2 -BO -BOS2
None -S2 -O -OS2
Without oil seal With oil seal
2 - 5
2 Models and External Dimensions
R88G-HPG14A05100SBJ
100
200
400
600
750
900
1K0
1K5
2K0
3K0
4K0
5K0
05
11
20
21
25
33
45
11B
14A
20A
32A
50A
65A
B
1/5
1/11
1/20
1/21
1/25
1/33
1/45
100 W
200 W
400 W
600 W
750 W
900 W
1 kW
1.5 kW
2 kW
3 kW
4 kW
5 kW
J
40 x 40
60 x 60
90 x 90
120 x 120
170 x 170
230 x 230
Decelerator
for Servomotor
Applicable Servomotor rated output
*1
Backlash: 3 Arcminutes max.
Reduction ratio
Flange size number
Motor type
None
Backlash
Options
None
S
T
3,000-r/min Servomotors
2,000-r/min Servomotors
1,000-r/min Servomotors
Backlash: 3 Arcminutes max.
Straight shaft
With key and tap
*1 This is based on the rated output of a typical applicable Servomotor.
For the selection, check the Servomotor and Decelerator Combination Tables.
2-2-3 Decelerator (Backlash: 3 Arcminutes Max.)
The Decelerator model number tells the Decelerator series, flange size number, reduction ratio, applicable Servomotor, backlash, etc.
2 - 6
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
100
200
400
750
: 100 W
: 200 W
: 400 W
: 750 W
05
09
15
25
: 1/5
: 1/9
: 1/15
: 1/25
B
C
D
: 52
: 78
: 98
C
J
R88G-VRXF09B100CJ
Options
Decelerator
for Servomotor
Backlash: 15 Arcminutes max.
Reduction ratio
Flange size number
Backlash
: Backlash: 15 Arcminutes max.
: With key and tap
*1 This is based on the rated output of a typical applicable Servomotor.
For the selection, check the Servomotor and Decelerator Combination Tables.
Applicable Servomotor rated output
*1
2-2-4 Decelerator (Backlash: 15 Arcminutes Max.)
The Decelerator model number tells the Decelerator series, flange size number, reduction ratio, applicable Servomotor, backlash, etc.
2-2 How to Read Model Numbers
2
2-2-4 Decelerator (Backlash: 15 Arcminutes Max.)
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 7
2 Models and External Dimensions
2-3 Model Tables
This section lists the models of Servo Drives, Servomotors, Decelerators, cables, connectors, peripheral devices, etc. in the tables.
2-3-1 Servo Drive Model Table
The following table lists the Servo Drive models.
Specifications Model Reference
Single-phase 100 VAC 100 W R88D-1SN01L-ECT P. 2-25
200 W R88D-1SN02L-ECT P. 2-26
400 W R88D-1SN04L-ECT P. 2-27
Single-phase/3-phase
200 VAC
3-phase 200 VAC 1 kW R88D-1SN10H-ECT P. 2-27
3-phase 400 VAC 600 W R88D-1SN06F-ECT
100 W R88D-1SN01H-ECT P. 2-25
200 W R88D-1SN02H-ECT
400 W R88D-1SN04H-ECT P. 2-26
750 W R88D-1SN08H-ECT P. 2-27
1.5 kW R88D-1SN15H-ECT P. 2-28
2 kW R88D-1SN20H-ECT P. 2-28
3 kW R88D-1SN30H-ECT
1 kW R88D-1SN10F-ECT
1.5 kW R88D-1SN15F-ECT
2 kW R88D-1SN20F-ECT
3 kW R88D-1SN30F-ECT
2 - 8
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2-3-2 Servomotor Model Tables
2 Models and External Dimensions
3,000-r/min Servomotors
Specifications
Without brake
100 VAC 100 W R88M-
200 W R88M-
400 W R88M-
200 VAC 100 W R88M-
200 W R88M-
400 W R88M-
750 W R88M-
1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
400 VAC 750 W R88M-
1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
The following tables list the Servomotor models by the rated motor speed.
Model
Without oil seal With oil seal
Straight shaft With key and tap Straight shaft With key and tap
1M10030S
1M20030S
1M40030S
1M10030T
1M20030T
1M40030T
1M75030T
1L1K030T
1L1K530T
1L2K030T
1L3K030T
1L75030C
1L1K030C
1L1K530C
1L2K030C
1L3K030C
R88M1M10030S-S2
R88M1M20030S-S2
R88M1M40030S-S2
R88M1M10030T-S2
R88M1M20030T-S2
R88M1M40030T-S2
R88M1M75030T-S2
R88M1L1K030T-S2
R88M1L1K530T-S2
R88M1L2K030T-S2
R88M1L3K030T-S2
R88M-
30C-S2
750
1L
R88M1L1K030C-S2
R88M1L1K530C-S2
R88M1L2K030C-S2
R88M1L3K030C-S2
R88M1M10030S-O
R88M1M20030S-O
R88M1M40030S-O
R88M1M10030T-O
R88M1M20030T-O
R88M1M40030T-O
R88M1M75030T-O
R88M1L1K030T-O
R88M1L1K530T-O
R88M1L2K030T-O
R88M1L3K030T-O
R88M1L75030C-O
R88M1L1K030C-O
R88M1L1K530C-O
R88M1L2K030C-O
R88M1L3K030C-O
R88M1M10030S-OS2
R88M1M20030S-OS2
R88M1M40030S-OS2
R88M1M10030T-OS2
R88M1M20030T-OS2
R88M1M40030T-OS2
R88M1M75030T-OS2
R88M1L1K030T-OS2
R88M1L1K530T-OS2
R88M1L2K030T-OS2
R88M1L3K030T-OS2
R88M1L75030C-OS2
R88M1L1K030C-OS2
R88M1L1K530C-OS2
R88M1L2K030C-OS2
R88M1L3K030C-OS2
2-3 Model Tables
Refer-
ence
P. 2 -2 9
2
P. 2 -3 1
2-3-2 Servomotor Model Tables
P. 2 -3 1
P. 2 -2 9
P. 2 -3 1
P. 2 -3 1
P. 2 -3 3
P. 2 -3 5
P. 2 -3 5
P. 2 -3 5
P. 2 -3 7
P. 2 -3 9
P. 2 -3 9
P. 2 -3 9
P. 2 -3 9
P. 2 -4 1
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 9
2 Models and External Dimensions
Specifications
With brake
100 VAC 100 W R88M-
200 W R88M-
400 W R88M-
200 VAC 100 W R88M-
200 W R88M-
400 W R88M-
750 W R88M-
1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
400 VAC 750 W R88M-
1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
Model
Without oil seal With oil seal
Straight shaft With key and tap Straight shaft With key and tap
1M10030S-B
1M20030S-B
1M40030S-B
1M10030T-B
1M20030T-B
1M40030T-B
1M75030T-B
1L1K030T-B
1L1K530T-B
1L2K030T-B
1L3K030T-B
1L75030C-B
1L1K030C-B
1L1K530C-B
1L2K030C-B
1L3K030C-B
R88M1M10030S-BS2
R88M1M20030S-BS2
R88M1M40030S-BS2
R88M1M10030T-BS2
R88M1M20030T-BS2
R88M1M40030T-BS2
R88M1M75030T-BS2
R88M1L1K030T-BS2
R88M1L1K530T-BS2
R88M1L2K030T-BS2
R88M1L3K030T-BS2
R88M-
030C-BS2
L75
1
R88M1L1K030C-BS2
R88M1L1K530C-BS2
R88M1L2K030C-BS2
R88M1L3K030C-BS2
R88M1M10030S-BO
R88M1M20030S-BO
R88M1M40030S-BO
R88M1M10030T-BO
R88M1M20030T-BO
R88M1M40030T-BO
R88M1M75030T-BO
R88M1L1K030T-BO
R88M1L1K530T-BO
R88M1L2K030T-BO
R88M1L3K030T-BO
R88M1L75030C-BO
R88M1L1K030C-BO
R88M1L1K530C-BO
R88M1L2K030C-BO
R88M1L3K030C-BO
R88M1M10030S-BOS2
R88M1M20030S-BOS2
R88M1M40030S-BOS2
R88M1M10030T-BOS2
R88M1M20030T-BOS2
R88M1M40030T-BOS2
R88M1M75030T-BOS2
R88M1L1K030T-BOS2
R88M1L1K530T-BOS2
R88M1L2K030T-BOS2
R88M1L3K030T-BOS2
R88M1L75030C-BOS2
R88M1L1K030C-BOS2
R88M1L1K530C-BOS2
R88M1L2K030C-BOS2
R88M1L3K030C-BOS2
Refer-
ence
P. 2 -3 0
P. 2 -3 2
P. 2 -3 2
P. 2 -3 0
P. 2 -3 2
P. 2 -3 2
P. 2 -3 4
P. 2 -3 6
P. 2 -3 6
P. 2 -3 6
P. 2 -3 8
P. 2 -4 0
P. 2 -4 0
P. 2 -4 0
P. 2 -4 0
P. 2 -4 2
2 - 10
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
2,000-r/min Servomotors
Specifications
Without brake
200 VAC 1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
400 VAC 400 W R88M-
600 W R88M-
1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
With brake
200 VAC 1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
400 VAC 400 W R88M-
600 W R88M-
1 kW R88M-
1.5 kW R88M-
2 kW R88M-
3 kW R88M-
Model
Without oil seal With oil seal
Straight shaft With key and tap Straight shaft With key and tap
1M1K020T
1M1K520T
1M2K020T
1M3K020T
1M40020C
1M60020C
1M1K020C
1M1K520C
1M2K020C
1M3K020C
1M1K020T-B
1M1K520T-B
1M2K020T-B
1M3K020T-B
1M40020C-B
1M60020C-B
1M1K020C-B
1M1K520C-B
1M2K020C-B
1M3K020C-B
R88M1M1K020T-S2
R88M1M1K520T-S2
R88M1M2K020T-S2
R88M1M3K020T-S2
R88M1M40020C-S2
R88M1M60020C-S2
R88M1M1K020C-S2
R88M1M1K520C-S2
R88M1M2K020C-S2
R88M1M3K020C-S2
R88M1M1K020T-BS2
R88M1M1K520T-BS2
R88M1M2K020T-BS2
R88M1M3K020T-BS2
R88M1M40020C-BS2
R88M1M60020C-BS2
R88M1M1K020C-BS2
R88M1M1K520C-BS2
R88M1M2K020C-BS2
R88M1M3K020C-BS2
R88M1M1K020T-O
R88M1M1K520T-O
R88M1M2K020T-O
R88M1M3K020T-O
R88M1M40020C-O
R88M1M60020C-O
R88M1M1K020C-O
R88M1M1K520C-O
R88M1M2K020C-O
R88M1M3K020C-O
R88M1M1K020T-BO
R88M1M1K520T-BO
R88M1M2K020T-BO
R88M1M3K020T-BO
R88M1M40020C-BO
R88M1M60020C-BO
R88M1M1K020C-BO
R88M1M1K520C-BO
R88M1M2K020C-BO
R88M1M3K020C-BO
R88M1M1K020T-OS2
R88M1M1K520T-OS2
R88M1M2K020T-OS2
R88M1M3K020T-OS2
R88M1M40020C-OS2
R88M1M60020C-OS2
R88M1M1K020C-OS2
R88M1M1K520C-OS2
R88M1M2K020C-OS2
R88M1M3K020C-OS2
R88M1M1K020T-BOS2
R88M1M1K520T-BOS2
R88M1M2K020T-BOS2
R88M1M3K020T-BOS2
R88M1M40020C-BOS2
R88M1M60020C-BOS2
R88M1M1K020C-BOS2
R88M1M1K520C-BOS2
R88M1M2K020C-BOS2
R88M1M3K020C-BOS2
Refer-
ence
P. 2 -4 3
P. 2 -4 3
P. 2 -4 3
P. 2 -4 5
P. 2 -4 7
P. 2 -4 7
P. 2 -4 9
P. 2 -4 9
P. 2 -4 9
P. 2 -5 1
P. 2 -4 4
P. 2 -4 4
P. 2 -4 4
P. 2 -4 6
P. 2 -4 8
P. 2 -4 8
P. 2 -5 0
P. 2 -5 0
P. 2 -5 0
P. 2 -5 2
2-3 Model Tables
2
2-3-2 Servomotor Model Tables
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 11
2 Models and External Dimensions
1,000-r/min Servomotors
Specifications
Without brake
200 VAC 900 W R88M-
2 kW R88M-
3 kW R88M-
400 VAC 900 W R88M-
2 kW R88M-
3 kW R88M-
With brake
200 VAC 900 W R88M-
2 kW R88M-
3 kW R88M-
400 VAC 900 W R88M-
2 kW R88M-
3 kW R88M-
Model
Without oil seal With oil seal
Straight shaft With key and tap Straight shaft With key and tap
1M90010T
1M2K010T
1M3K010T
1M90010C
1M2K010C
1M3K010C
1M90010T-B
1M2K010T-B
1M3K010T-B
1M90010C-B
1M2K010C-B
1M3K010C-B
R88M1M90010T-S2
R88M1M2K010T-S2
R88M1M3K010T-S2
R88M1M90010C-S2
R88M1M2K010C-S2
R88M1M3K010C-S2
R88M1M90010T-BS2
R88M1M2K010T-BS2
R88M1M3K010T-BS2
R88M1M90010C-BS2
R88M1M2K010C-BS2
R88M1M3K010C-BS2
R88M1M90010T-O
R88M1M2K010T-O
R88M1M3K010T-O
R88M1M90010C-O
R88M1M2K010C-O
R88M1M3K010C-O
R88M1M90010T-BO
R88M1M2K010T-BO
R88M1M3K010T-BO
R88M1M90010C-BO
R88M1M2K010C-BO
R88M1M3K010C-BO
R88M1M90010T-OS2
R88M1M2K010T-OS2
R88M1M3K010T-OS2
R88M1M90010C-OS2
R88M1M2K010C-OS2
R88M1M3K010C-OS2
R88M1M90010T-BOS2
R88M1M2K010T-BOS2
R88M1M3K010T-BOS2
R88M1M90010C-BOS2
R88M1M2K010C-BOS2
R88M1M3K010C-BOS2
Refer-
ence
P. 2-53
P. 2-55
P. 2-57
P. 2-59
P. 2-61
P. 2-63
P. 2-54
P. 2-56
P. 2-58
P. 2-60
P. 2-62
P. 2-64
2 - 12
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
2-3-3 Servo Drive and Servomotor Combination Tables
The following tables show the possible combinations of 1S-series Servo Drives and Servomotors. The
Servomotors and Servo Drives can only be used in the listed combinations. “” at the end of the motor
model number is for options, such as the shaft type and brake.
3,000-r/min Servomotors and Servo Drives
Main circuit power
supply voltage
Single-phase 100 VAC 100 W R88M-1M10030S- R88D-1SN01L-ECT
Single-phase/3-phase
200 VAC
3-phase 200 VAC 1 kW
3-phase 400 VAC 750 W
Servomotor
rated output
200 W R88M-1M20030S- R88D-1SN02L-ECT
400 W R88M-1M40030S- R88D-1SN04L-ECT
100 W R88M-1M10030T- R88D-1SN01H-ECT
200 W R88M-1M20030T- R88D-1SN02H-ECT
400 W R88M-1M40030T- R88D-1SN04H-ECT
750 W R88M-1M75030T- R88D-1SN08H-ECT
1.5 kW
2 kW
3 kW
1 kW
1.5 kW
2 kW
3 kW
R88M-1L1K530T-
R88M-1L1K030T-
R88M-1L2K030T-
R88M-1L3K030T-
R88M-1L75030C-
R88M-1L1K030C-
R88M-1L1K530C-
R88M-1L2K030C-
R88M-1L3K030C-
Servomotor Servo Drive
2-3 Model Tables
2
2-3-3 Servo Drive and Servomotor Combination Tables
R88D-1SN15H-ECT
R88D-1SN10H-ECT
R88D-1SN20H-ECT
R88D-1SN30H-ECT
R88D-1SN10F-ECT
R88D-1SN10F-ECT
R88D-1SN15F-ECT
R88D-1SN20F-ECT
R88D-1SN30F-ECT
2,000-r/min Servomotors and Servo Drives
Main circuit power
supply voltage
Single-phase/3-phase
200 VAC
3-phase 200 VAC 1 kW R88M-1M1K020T- R88D-1SN10H-ECT
3-phase 400 VAC 400 W R88M-1M40020C- R88D-1SN06F-ECT
Servomotor
rated output
1.5 kW R88M-1M1K520T- R88D-1SN15H-ECT
2 kW R88M-1M2K020T- R88D-1SN20H-ECT
3 kW R88M-1M3K020T- R88D-1SN30H-ECT
600 W R88M-1M60020C- R88D-1SN06F-ECT
1 kW R88M-1M1K020C- R88D-1SN10F-ECT
1.5 kW R88M-1M1K520C- R88D-1SN15F-ECT
2 kW R88M-1M2K020C- R88D-1SN20F-ECT
3 kW R88M-1M3K020C- R88D-1SN30F-ECT
Servomotor Servo Drive
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 13
2 Models and External Dimensions
1,000-r/min Servomotors and Servo Drives
Main circuit power
supply voltage
3-phase 200 VAC 900 W R88M-1M90010T- R88D-1SN10H-ECT
3-phase 400 VAC 900 W R88M-1M90010C- R88D-1SN10F-ECT
Servomotor
rated output
2 kW R88M-1M2K010T- R88D-1SN20H-ECT
3 kW R88M-1M3K010T- R88D-1SN30H-ECT
2 kW R88M-1M2K010C- R88D-1SN20F-ECT
3 kW R88M-1M3K010C- R88D-1SN30F-ECT
2-3-4 Decelerator Model Tables
The following tables list the Decelerator models for 1S-series Servomotors.
The standard shaft type is a straight shaft. A model with a key and tap is indicated with “J” at of the
Decelerator model number in the following table. Select an appropriate model based on the Servomotor
rated output.
Servomotor Servo Drive
Backlash: 3 Arcminutes Max.
z For 3,000-r/min Servomotors
Specifications
Servomotor
rated output
100 W 1/5 R88G-HPG11B05100B P. 2-65
200 W 1/5 R88G-HPG14A05200B
400 W 1/5 R88G-HPG14A05400B P. 2-67
750 W (200 V) 1/5 R88G-HPG20A05750B
750 W (400 V) 1/5 R88G-HPG32A052K0B
Reduction
ratio
1/11 R88G-HPG14A11100B
1/21 R88G-HPG14A21100B
1/33 R88G-HPG20A33100B
1/45 R88G-HPG20A45100B
1/11 R88G-HPG14A11200B
1/21 R88G-HPG20A21200B
1/33 R88G-HPG20A33200B
1/45 R88G-HPG20A45200B
1/11 R88G-HPG20A11400B
1/21 R88G-HPG20A21400B
1/33 R88G-HPG32A33400B
1/45 R88G-HPG32A45400B
1/11 R88G-HPG20A11750B
1/21 R88G-HPG32A21750B
1/33 R88G-HPG32A33750B
1/45 R88G-HPG32A45750B
1/11 R88G-HPG32A112K0B
1/21 R88G-HPG32A211K5B
1/33 R88G-HPG32A33600SB
1/45 R88G-HPG50A451K5B
Model Reference
2 - 14
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
Specifications
Servomotor
rated output
1 kW 1/5 R88G-HPG32A052K0B P. 2- 6 9
1.5 kW 1/5 R88G-HPG32A052K0B
2 kW 1/5 R88G-HPG32A052K0B P. 2- 6 9
3 kW 1/5 R88G-HPG32A053K0B
Reduction
ratio
1/11 R88G-HPG32A112K0B
1/21 R88G-HPG32A211K5B
1/33 R88G-HPG50A332K0B
1/45 R88G-HPG50A451K5B
1/11 R88G-HPG32A112K0B
1/21 R88G-HPG32A211K5B
1/33 R88G-HPG50A332K0B
1/45 R88G-HPG50A451K5B
1/11 R88G-HPG32A112K0B
1/21 R88G-HPG50A212K0B
1/33 R88G-HPG50A332K0B
1/11 R88G-HPG50A113K0B
1/21 R88G-HPG50A213K0B
Model Reference
2-3 Model Tables
2
2-3-4 Decelerator Model Tables
z For 2,000-r/min Servomotors
Specifications
Servomotor
rated output
400 W 1/5 R88G-HPG32A052K0B P. 2 -7 1
600 W 1/5 R88G-HPG32A052K0B
1 kW 1/5 R88G-HPG32A053K0B
1.5 kW 1/5 R88G-HPG32A053K0B P. 2- 7 3
2 kW 1/5 R88G-HPG32A053K0B
3 kW 1/5 R88G-HPG32A054K0B
Reduction
ratio
1/11 R88G-HPG32A112K0B
1/21 R88G-HPG32A211K5B
1/33 R88G-HPG32A33600SB
1/45 R88G-HPG32A45400SB
1/11 R88G-HPG32A112K0B
1/21 R88G-HPG32A211K5B
1/33 R88G-HPG32A33600SB
1/45 R88G-HPG50A451K5B
1/11 R88G-HPG32A112K0SB
1/21 R88G-HPG32A211K0SB
1/33 R88G-HPG50A332K0SB
1/45 R88G-HPG50A451K0SB
1/11 R88G-HPG32A112K0SB
1/21 R88G-HPG50A213K0B
1/33 R88G-HPG50A332K0SB
1/11 R88G-HPG32A112K0SB
1/21 R88G-HPG50A213K0B
1/33 R88G-HPG50A332K0SB
1/11 R88G-HPG50A115K0B
1/21 R88G-HPG50A213K0SB
1/25 R88G-HPG65A253K0SB
Model Reference
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 15
2 Models and External Dimensions
z For 1,000-r/min Servomotors
Specifications
Servomotor
rated output
900 W 1/5 R88G-HPG32A05900TB P. 2-75
2 kW 1/5 R88G-HPG32A052K0TB
3 kW 1/5 R88G-HPG50A055K0SB
Reduction
ratio
1/11 R88G-HPG32A11900TB
1/21 R88G-HPG50A21900TB
1/33 R88G-HPG50A33900TB
1/11 R88G-HPG50A112K0TB
1/21 R88G-HPG50A212K0TB
1/25 R88G-HPG65A255K0SB
1/11 R88G-HPG50A115K0SB
1/20 R88G-HPG65A205K0SB
1/25 R88G-HPG65A255K0SB
Model Reference
Backlash: 15 Arcminutes Max.
z For 3,000-r/min Servomotors
Specifications
Servomotor
rated output
Reduction
ratio
100 W 1/5 R88G-VRXF05B100CJ P. 2-77
1/9 R88G-VRXF09B100CJ
1/15 R88G-VRXF15B100CJ
1/25 R88G-VRXF25B100CJ
200 W 1/5 R88G-VRXF05B200CJ
1/9 R88G-VRXF09C200CJ
1/15 R88G-VRXF15C200CJ
1/25 R88G-VRXF25C200CJ
400 W 1/5 R88G-VRXF05C400CJ
1/9 R88G-VRXF09C400CJ
1/15 R88G-VRXF15C400CJ
1/25 R88G-VRXF25C400CJ
750 W (200 V) 1/5 R88G-VRXF05C750CJ
1/9 R88G-VRXF09D750CJ
1/15 R88G-VRXF15D750CJ
1/25 R88G-VRXF25D750CJ
Model Reference
2 - 16
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
2-3-5 Servomotor and Decelerator Combination Tables
The following tables show the possible combinations of 1S-series Servomotors and Decelerators. You
cannot use a Servomotor with a key and tap (model numbers with -S2 at the end) in combination with a
Decelerator.
3,000-r/min Servomotors and Decelerators (Backlash: 3 Arcminutes
Max.)
Servomotor
models
R88M1M10030
R88M1M20030
R88M1M40030
R88M1M75030
(200 VAC)
R88M1L75030
(400 VAC)
R88M1L1K030
R88M1L1K530
R88M1L2K030
R88M1L3K030
1/5 1/11 1/21 1/33 1/45
R88G-HPG
11B05100B
R88G-HPG
14A05200B
R88G-HPG
14A05400B
R88G-HPG
20A05750B
R88G-HPG
32A052K0B
R88G-HPG
32A053K0B
R88G-HPG
14A11100B
R88G-HPG
14A11200B
R88G-HPG
20A11400B
R88G-HPG
20A11750B
R88G-HPG
32A112K0B
R88
G-HPG
50A113K0B
Reduction ratio
R88G-HPG
14A21100B
R88G-HPG
20A21200B
R88G-HPG
20A21400B
R88G-HPG
32A21750B
R88G-HPG
32A211K5B
R88G-HPG
50A212K0B
R88G-HPG
50A213K0B
R88G-HPG
20A33100B
R88G-HPG
20A33200B
R88G-HPG
32A33400B
R88G-HPG
32A33750B
R88G-HPG
32A33600SB
R88G-HPG
50A332K0B
R88G-HPG
20A45100B
R88G-HPG
20A45200B
R88G-HPG
32A45400B
R88G-HPG
32A45750B
R88G-HPG
50A451K5B
--- ---
2-3 Model Tables
2
2-3-5 Servomotor and Decelerator Combination Tables
-
--
2,000-r/min Servomotors and Decelerators (Backlash: 3 Arcminutes
Max.)
Servomotor
models
R88M1M40020
(400 VAC)
R88M1M60020
(400 VAC)
R88M1M1K020
R88M1M1K520
R88M1M2K020
R88M1M3K020
1/5 1/11 1/21 1/25 1/33 1/45
R88G-HPG
32A052K0B
R88G-HPG
32A053K0B
R88G-HPG
32A054K0B
R88G-HPG
32A112K0B
R88G-HPG
32A112K0SB
R88G-HPG
50A115K0B
R88G-HPG
32A211K5B
R88G-HPG
32A211K0SB
R88G-HPG
50A213K0B
R88G-HPG
50A213K0SB
Reduction ratio
R88G-HPG
65A253K0SB
--R88G-HPG
32A33600SB
---
---
--- ---
--- ---
R88G-HPG
50A332K0SB
--- ---
R88G-HPG
32A45400SB
R88G-HPG
50A451K5B
R88G-HPG
50A451K0SB
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 17
2 Models and External Dimensions
1,000-r/min Servomotors and Decelerators (Backlash: 3 Arcminutes
Max.)
Servomotor
models
R88M1M90010
R88M1M2K010
R88M1M3K010
1/5 1/11 1/20 1/21 1/25 1/33
R88G-HPG
32A05900TB
R88G-HPG
32A052K0TB
R88G-HPG
50A055K0SB
R88G-HPG
32A11900TB
R88G-HPG
50A112K0TB
R88G-HPG
50A115K0SB
3,000-r/min Servomotors and Decelerators (Backlash: 15 Arcminutes Max.)
Servomotor
models
R88M-1M10030 R88G-VRXF05B100CJ R88G-VRXF09B100CJ R88G-VRXF15B100CJ R88G-VRXF25B100CJ
R88M-1M20030 R88G-VRXF05B200CJ R88G-VRXF09C200CJ R88G-VRXF15C200CJ R88G-VRXF25C200CJ
R88M-1M40030 R88G-VRXF05C400CJ R88G-VRXF09C400CJ R88G-VRXF15C400CJ R88G-VRXF25C400CJ
R88M-1M75030
(AC200V)
R88G-VRXF05C750CJ R88G-VRXF09D750CJ R88G-VRXF15D750CJ R88G-VRXF25D750CJ
1/5 1/9 1/15 1/25
Reduction ratio
---
---
R88G-HPG
65A205K0SB
Reduction ratio
R88G-HPG
50A21900TB
R88G-HPG
50A212K0TB
--- ---
---
R88G-HPG
65A255K0SB
R88G-HPG
50A33900TB
---
2-3-6 Cable and Connector Model Tables
The following tables list the models of cables and connectors. The cables include encoder cables,
motor power cables, and brake cables.
Encoder Cables (Standard Cable)
Applicable Servomotor Model
100 V
200 V
200V
400V
3,000-r/min Servomotors
of 100 W, 200 W, 400 W, and 750 W
200V
3,000-r/min Servomotors of 1kW or more
2,000-r/min Servomotors
1,000-r/min Servomotors
400V
3,000-r/min Servomotors
2,000-r/min Servomotors
1,000-r/min Servomotors
3 m R88A-CR1A003C
5 m R88A-CR1A005C
10 m R88A-CR1A010C
15 m R88A-CR1A015C
20 m R88A-CR1A020C
30 m R88A-CR1A030C
40 m R88A-CR1A040C
50 m R88A-CR1A050C
3 m R88A-CR1B003N
5 m R88A-CR1B005N
10 m R88A-CR1B010N
15 m R88A-CR1B015N
20 m R88A-CR1B020N
30 m R88A-CR1B030N
40 m R88A-CR1B040N
50 m R88A-CR1B050N
2 - 18
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
Motor Power Cables (Standard Cable)
Applicable Servomotor
100 V
200 V
200 V 3,000-r/min Servomotors of 1 kW
200 V 3,000-r/min Servomotors of 1.5 kW
400 V 3,000-r/min Servomotors
200 V
400 V
200 V 1,000-r/min Servomotors of 3 kW 3 m R88A-CA1F003S R88A-CA1F003B
3,000-r/min Servomotors
of 100 W, 200 W, 400 W, and 750 W
2,000-r/min Servomotors of 1 kW
1,000-r/min Servomotors of 900 W
2,000-r/min Servomotors of 1.5 kW
of 750 W, 1 kW, 1.5 kW, and 2 kW
2,000-r/min Servomotors
of 400 W, 600 W, 1 kW, 1.5 kW, and
2kW
1,000-r/min Servomotors of 900 W
3,000-r/min Servomotors
of 2 kW (200 V) and 3 kW (200 V/400
V)
2,000-r/min Servomotors
of 2 kW (200 V) and 3 kW (200 V/400
V)
1,000-r/min Servomotors of 2 kW (200
V/400 V) and 3 kW (400 V)
3 m R88A-CA1A003S ---
5 m R88A-CA1A005S --10 m R88A-CA1A010S --15 m R88A-CA1A015S --20 m R88A-CA1A020S --30 m R88A-CA1A030S --40 m R88A-CA1A040S --50 m R88A-CA1A050S ---
3 m R88A-CA1B003S R88A-CA1B003B
5 m R88A-CA1B005S R88A-CA1B005B
10 m R88A-CA1B010S R88A-CA1B010B
15 m R88A-CA1B015S R88A-CA1B015B
20 m R88A-CA1B020S R88A-CA1B020B
30 m R88A-CA1B030S R88A-CA1B030B
40 m R88A-CA1B040S R88A-CA1B040B
50 m R88A-CA1B050S R88A-CA1B050B
3 m R88A-CA1C003S R88A-CA1C003B
5 m R88A-CA1C005S R88A-CA1C005B
10 m R88A-CA1C010S R88A-CA1C010B
15 m R88A-CA1C015S R88A-CA1C015B
20 m R88A-CA1C020S R88A-CA1C020B
30 m R88A-CA1C030S R88A-CA1C030B
40 m R88A-CA1C040S R88A-CA1C040B
50 m R88A-CA1C050S R88A-CA1C050B
3 m R88A-CA1C003S R88A-CA1D003B
5 m R88A-CA1C005S R88A-CA1D005B
10 m R88A-CA1C010S R88A-CA1D010B
15 m R88A-CA1C015S R88A-CA1D015B
20 m R88A-CA1C020S R88A-CA1D020B
30 m R88A-CA1C030S R88A-CA1D030B
40 m R88A-CA1C040S R88A-CA1D040B
50 m R88A-CA1C050S R88A-CA1D050B
3 m R88A-CA1E003S R88A-CA1E003B
5 m R88A-CA1E005S R88A-CA1E005B
10 m R88A-CA1E010S R88A-CA1E010B
15 m R88A-CA1E015S R88A-CA1E015B
20 m R88A-CA1E020S R88A-CA1E020B
30 m R88A-CA1E030S R88A-CA1E030B
40 m R88A-CA1E040S R88A-CA1E040B
50 m R88A-CA1E050S R88A-CA1E050B
5 m R88A-CA1F005S R88A-CA1F005B
10 m R88A-CA1F010S R88A-CA1F010B
15 m R88A-CA1F015S R88A-CA1F015B
20 m R88A-CA1F020S R88A-CA1F020B
30 m R88A-CA1F030S R88A-CA1F030B
40 m R88A-CA1F040S R88A-CA1F040B
50 m R88A-CA1F050S R88A-CA1F050B
Without brake wire With brake wire
Model
2-3 Model Tables
2
2-3-6 Cable and Connector Model Tables
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 19
2 Models and External Dimensions
Brake Cables (Standard Cable)
Applicable Servomotor Model
100 V
200 V
3,000-r/min Servomotors
of 100 W, 200 W, 400 W, and 750 W
Encoder Cables (Flexible Cable)
Applicable Servomotor Model
100 V
200 V
200 V
400 V
3,000-r/min Servomotors
of 100 W, 200 W, 400 W, and 750 W
200V
3,000-r/min Servomotors of 1kW or more
2,000-r/min Servomotors
1,000-r/min Servomotors
400V
3,000-r/min Servomotors
2,000-r/min Servomotors
1,000-r/min Servomotors
3 m R88A-CA1A003B
5 m R88A-CA1A005B
10 m R88A-CA1A010B
15 m R88A-CA1A015B
20 m R88A-CA1A020B
30 m R88A-CA1A030B
40 m R88A-CA1A040B
50 m R88A-CA1A050B
3 m R88A-CR1A003CF
5 m R88A-CR1A005CF
10 m R88A-CR1A010CF
15 m R88A-CR1A015CF
20 m R88A-CR1A020CF
30 m R88A-CR1A030CF
40 m R88A-CR1A040CF
50 m R88A-CR1A050CF
3 m R88A-CR1B003NF
5 m R88A-CR1B005NF
10 m R88A-CR1B010NF
15 m R88A-CR1B015NF
20 m R88A-CR1B020NF
30 m R88A-CR1B030NF
40 m R88A-CR1B040NF
50 m R88A-CR1B050NF
2 - 20
Motor Power Cables (Flexible Cable)
Applicable Servomotor
100 V
200 V
3,000-r/min Servomotors
of 100 W, 200 W, 400 W, and 750 W
3 m R88A-CA1A003SF ---
5 m R88A-CA1A005SF --10 m R88A-CA1A010SF --15 m R88A-CA1A015SF --20 m R88A-CA1A020SF --30 m R88A-CA1A030SF --40 m R88A-CA1A040SF --50 m R88A-CA1A050SF ---
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Model
Without brake wire With brake wire
2 Models and External Dimensions
Applicable Servomotor
200 V 3,000-r/min Servomotors of 1 kW
2,000-r/min Servomotors of 1 kW
1,000-r/min Servomotors of 900 W
200 V 3,000-r/min Servomotors of 1.5 kW
2,000-r/min Servomotors of 1.5 kW
400 V 3,000-r/min Servomotors
of 750 W, 1 kW, 1.5 kW, and 2 kW
2,000-r/min Servomotors
of 400 W, 600 W, 1 kW, 1.5 kW, and 2kW
1,000-r/min Servomotors of 900 W
200 V
400 V
200 V 1,000-r/min Servomotors of 3 kW 3 m R88A-CA1F003SF R88A-CA1F003BF
3,000-r/min Servomotors
of 2 kW (200 V) and 3 kW (200 V/400 V)
2,000-r/min Servomotors
of 2 kW (200 V) and 3 kW (200 V/400 V)
1,000-r/min Servomotors
of 2 kW (200 V/400 V) and 3 kW (400 V)
3 m R88A-CA1B003SF R88A-CA1B003BF
5 m R88A-CA1B005SF R88A-CA1B005BF
10 m R88A-CA1B010SF R88A-CA1B010BF
15 m R88A-CA1B015SF R88A-CA1B015BF
20 m R88A-CA1B020SF R88A-CA1B020BF
30 m R88A-CA1B030SF R88A-CA1B030BF
40 m R88A-CA1B040SF R88A-CA1B040BF
50 m R88A-CA1B050SF R88A-CA1B050BF
3 m R88A-CA1C003SF R88A-CA1C003BF
5 m R88A-CA1C005SF R88A-CA1C005BF
10 m R88A-CA1C010SF R88A-CA1C010BF
15 m R88A-CA1C015SF R88A-CA1C015BF
20 m R88A-CA1C020SF R88A-CA1C020BF
30 m R88A-CA1C030SF R88A-CA1C030BF
40 m R88A-CA1C040SF R88A-CA1C040BF
50 m R88A-CA1C050SF R88A-CA1C050BF
3 m R88A-CA1C003SF R88A-CA1D003BF
5 m R88A-CA1C005SF R88A-CA1D005BF
10 m R88A-CA1C010SF R88A-CA1D010BF
15 m R88A-CA1C015SF R88A-CA1D015BF
20 m R88A-CA1C020SF R88A-CA1D020BF
30 m R88A-CA1C030SF R88A-CA1D030BF
40 m R88A-CA1C040SF R88A-CA1D040BF
50 m R88A-CA1C050SF R88A-CA1D050BF
3 m R88A-CA1E003SF R88A-CA1E003BF
5 m R88A-CA1E005SF R88A-CA1E005BF
10 m R88A-CA1E010SF R88A-CA1E010BF
15 m R88A-CA1E015SF R88A-CA1E015BF
20 m R88A-CA1E020SF R88A-CA1E020BF
30 m R88A-CA1E030SF R88A-CA1E030BF
40 m R88A-CA1E040SF R88A-CA1E040BF
50 m R88A-CA1E050SF R88A-CA1E050BF
5 m R88A-CA1F005SF R88A-CA1F005BF
10 m R88A-CA1F010SF R88A-CA1F010BF
15 m R88A-CA1F015SF R88A-CA1F015BF
20 m R88A-CA1F020SF R88A-CA1F020BF
30 m R88A-CA1F030SF R88A-CA1F030BF
40 m R88A-CA1F040SF R88A-CA1F040BF
50 m R88A-CA1F050SF R88A-CA1F050BF
Without brake wire With brake wire
Model
2-3 Model Tables
2
2-3-6 Cable and Connector Model Tables
Brake Cables (Flexible Cable)
Applicable Servomotor Model
100 V
200 V
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
3,000-r/min Servomotors
of 100 W, 200 W, 400 W, and 750 W
3 m R88A-CA1A003BF
5 m R88A-CA1A005BF
10 m R88A-CA1A010BF
15 m R88A-CA1A015BF
20 m R88A-CA1A020BF
30 m R88A-CA1A030BF
40 m R88A-CA1A040BF
50 m R88A-CA1A050BF
2 - 21
2 Models and External Dimensions
Peripheral Connector
z Servo Drive side connector
Name and application Model
Main circuit connector (CNA)
For R88D-1SN01L-ECT/ -1SN02L-ECT/ -1SN04L-ECT/ -1SN01H-ECT/
-1SN02H-ECT/ -1SN04H-ECT/ -1SN08H-ECT/ -1SN10H-ECT
Main circuit connector A (CNA)
For R88D-1SN15H-ECT/ -1SN20H-ECT/ -1SN30H-ECT/ -1SN06F-ECT/
-1SN10F-ECT/ -1SN15F-ECT/ -1SN20F-ECT/ -1SN30F-ECT
Main circuit connector B (CNB)
For R88D-1SN15H-ECT/ -1SN20H-ECT/ -1SN30H-ECT/ -1SN06F-ECT/
-1SN10F-ECT/ -1SN15F-ECT/ -1SN20F-ECT/ -1SN30F-ECT
Motor connector (CNC)
For R88D-1SN01L-ECT/ -1SN02L-ECT/ -1SN04L-ECT/
-1SN01H-ECT/-1SN02H-ECT/ -1SN04H-ECT/ -1SN08H-ECT/ -1SN10H-ECT
Motor connector (CNC)
R88D-1SN15H-ECT/ -1SN20H-ECT/ -1SN30H-ECT/ -1SN06F-ECT/
-1SN10F-ECT/ -1SN15F-ECT/ -1SN20F-ECT/ -1SN30F-ECT
Control power supply connector (CND)
For R88D-1SN15H-ECT/ -1SN20H-ECT/ -1SN30H-ECT/ -1SN06F-ECT/
-1SN10F-ECT/ -1SN15F-ECT/ -1SN20F-ECT/ -1SN30F-ECT
Control I/O connector (CN1)
Encoder connector (CN2) R88A-CN101R
Brake interlock connector (CN12) R88A-CN101B
*1. Two short-circuit wires are connected to the connector.
*2. One short-circuit wire is connected to the connector.
*3. Four short-circuit wires are connected to the connector.
*4. One opener is included.
*1
*2
*2
*3
R88A-CN102P
R88A-CN103P
R88A-CN104P
R88A-CN101A
R88A-CN102A
R88A-CN101P
R88A-CN101C
*4
*4
*4
*4
*4
*4
2 - 22
z Servomotor side connector
Name and application Model
Encoder connector 100 V, 200 V For 3,000 r/min (100 to 750 W) R88A-CNK02R
100 V, 200 V For 3,000 r/min (1 to 3 kW)
For 2,000 r/min and 1,000
r/min
400 V For 3,000 r/min, 2,000 r/min
and 1,000 r/min
Power connector (for 750 W max.) R88A-CN111A
Brake connector (for 750 W max.) R88A-CN111B
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
R88A-CN104R
2 Models and External Dimensions
2-3-7 External Regeneration Resistor and External Regeneration
Resistance Unit Model Tables
The following tables list the models of External Regeneration Resistors and External Regeneration
2-3 Model Tables
Resistance Units.
External Regeneration Resistors
Applicable Servo Drive Model Specifications
R88D-1SN01L-ECT/ -1SN02L-ECT R88A-RR12015 Regeneration process
capacity: 24 W, 15 Ω
R88D-1SN01H-ECT/ -1SN02H-ECT R88A-RR12025 Regeneration process
capacity: 24 W, 25 Ω
R88D-1SN20H-ECT/ -1SN30H-ECT R88A-RR30010 Regeneration process
capacity: 60 W, 10 Ω
R88D-1SN04L-ECT R88A-RR30012 Regeneration process
capacity: 60 W, 12 Ω
R88D-1SN01L-ECT/ -1SN02L-ECT R88A-RR30015 Regeneration process
capacity: 60 W, 15 Ω
R88D-1SN15H-ECT R88A-RR30017 Regeneration process
capacity: 60 W, 17 Ω
R88D-1SN08H-ECT/ -1SN10H-ECT/ -1SN20F-ECT*1/
-1SN30F-ECT
R88D-1SN01H-ECT/ -1SN02H-ECT/
-1SN04H-ECT
R88D-1SN06F-ECT
-1SN15F-ECT
*1. Use two series-connected External Regeneration Resistors for this model.
*1
*1
/ -1SN10F-ECT*1/
*1
R88A-RR30020 Regeneration process
capacity: 60 W, 20 Ω
R88A-RR30025 Regeneration process
capacity: 60 W, 25 Ω
R88A-RR30033 Regeneration process
capacity: 60 W, 33 Ω
2
2-3-7 External Regeneration Resistor and External Regeneration Resistance Unit Model Tables
External Regeneration Resistance Units
Applicable Servo Drive Model Specifications
R88D-1SN20H-ECT/ -1SN30H-ECT R88A-RR1K610 Regeneration process
capacity: 640 W, 10 Ω
R88D-1SN15H-ECT R88A-RR1K617 Regeneration process
capacity: 640 W, 17 Ω
R88D-1SN08H-ECT/ -1SN10H-ECT/
-1SN20F-ECT
R88D-1SN20F-ECT/ -1SN30F-ECT R88A-RR1K640 Regeneration process
R88D-1SN06F-ECT/ -1SN10F-ECT/
-1SN15F-ECT
*1. Use two series-connected External Regeneration Resistance Units for this model.
*1
/ -1SN30F-ECT
*1
R88A-RR1K620 Regeneration process
capacity: 640 W, 20 Ω
capacity: 640 W, 40 Ω
R88A-RR1K666 Regeneration process
capacity: 640 W, 66 Ω
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 23
2 Models and External Dimensions
2-3-8 Reactor Model Table
The following table lists the Reactor models.
Applicable Servo Drive Model Type of Reactor
R88D-1SN01L-ECT/-1SN01H-ECT/
-1SN02H-ECT
R88D-1SN02L-ECT/-1SN04H-ECT R88A-PD2004
R88D-1SN04L-ECT/-1SN08H-ECT R88A-PD2007
R88D-1SN10H-ECT/-1SN15H-ECT R88A-PD2015
R88D-1SN20H-ECT R88A-PD2022
R88D-1SN30H-ECT R88A-PD2037
R88D-1SN06F-ECT R88A-PD4007
R88D-1SN10F-ECT/-1SN15F-ECT R88A-PD4015
R88D-1SN20F-ECT R88A-PD4022
R88D-1SN30F-ECT R88A-PD4037
2-3-9 Noise Filter Model Table
The following table lists the Footprint-type Noise Filter models.
Applicable Servo Drive Model
R88D-1SN01L-ECT/-1SN01H-ECT/
-1SN02H-ECT (Single-phase input)
R88D-1SN02L-ECT/-1SN04H-ECT
(Single-phase input)
R88D-1SN04L-ECT/-1SN08H-ECT
(Single-phase input)
R88D-1SN15H-ECT (Single-phase input) R88A-FI1S116
R88D-1SN01H-ECT/-1SN02H-ECT
(3-phase input)
R88D-1SN04H-ECT (3-phase input) R88A-FI1S203
R88D-1SN08H-ECT (3-phase input) /
-1SN10H-ECT
R88D-1SN15H-ECT (3-phase input)
/-1SN20H-ECT/-1SN30H-ECT
R88D-1SN06F-ECT/-1SN10F-ECT/
-1SN15F-ECT/-1SN20F-ECT/-1SN30F-ECT
R88A-PD2002 DC reactor
R88A-FI1S103
R88A-FI1S105
R88A-FI1S109
R88A-FI1S202 or
R88A-FI1S203
R88A-FI1S208
R88A-FI1S216
R88A-FI1S309
2 - 24
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
3.2
170±0.5
40
50 185
4570
5
180
4
2-M4
40
28±0.5
6
180
External
dimensions
Mounting dimensions
M4
2-M4
M4
2-4 External and Mounting Dimensions
This section provides the external dimensions and mounting dimensions of Servo Drives, Servomotors,
Decelerators, and peripheral devices.
2-4-1 Servo Drive Dimensions
The Servo Drives are described in order of increasing rated output of the applicable Servomotors.
Single-phase 100 VAC: R88D-1SN01L-ECT (100 W)
Single-phase/3-phase 200 VAC: R88D-1SN01H-ECT/-1SN02H-ECT
(100 to 200 W)
2-4 External and Mounting Dimensions
2
2-4-1 Servo Drive Dimensions
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 25
2 Models and External Dimensions
External
dimensions
Mounting dimensions
4
4518070
50
185
3.2
55
2-M4
55
43±0.56
170±0.55
180
M4
M4
2-M4
Single-phase 100 VAC: R88D-1SN02L-ECT (200 W)
Single-phase/3-phase 200 VAC: R88D-1SN04H-ECT (400 W)
2 - 26
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 Models and External Dimensions
7.5
External
dimensions
Mounting dimensions
4
4518070
50 215
4.3
Air
outlet
Air
intake
180
170±0.5
5
2-M4
65
50±0.5
65
M4
M4
2-M4
Single-phase 100 VAC: R88D-1SN04L-ECT (400 W)
Single-phase/3-phase 200 VAC: R88D-1SN08H-ECT (750 W)
3-phase 200 VAC: R88D-1SN10H-ECT (1 kW)
2-4 External and Mounting Dimensions
2
2-4-1 Servo Drive Dimensions
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
2 - 27
2 Models and External Dimensions
External
dimensions
Mounting dimensions
90
50
225
60
18070
Air outlet
6
Air
intake
3-M4
180
170±0.5
5
6
90
78±0.5
39±0.5
5.5
M4
M4
2-M4
Air
outlet
Single-phase/3-phase 200 VAC: R88D-1SN15H-ECT (1.5 kW)
3-phase 200 VAC: R88D-1SN20H-ECT/-1SN30H-ECT (2 to 3 kW)
3-phase 400 VAC: R88D-1SN06F-ECT/-1SN10F-ECT/
-1SN15F-ECT/-1SN20F-ECT/-1SN30F-ECT (600 W to 3 kW)
2 - 28
AC Servomotors/Servo Drives 1S-series with Built-in EtherCAT® Communications User’s Manual (I586)
Loading...