AC Servomotors/Servodrivers
-series
Series now includes 1,500-r/min Servomotors.
Servodrivers now available with capacities of up to 15 kW.
Cat. No. I805-E1-06
Printed in Japan
0407-0.2M
Authorized Distributor:
Note: Specifications subject to change without notice.
Note: Do not use this document to operate the Unit.
Printed on 100%
Recycled Paper
OMRON Corporation
Industrial Automation Company
Control Devices Division H.Q.
Shiokoji Horikawa, Shimogyo-ku,
Kyoto, 600-8530
Japan
Tel:(81)75-344-7109
Fax:(81)75-344-7149
Regional Headquarters
OMRON EUROPE B.V.
Wegalaan 67-69, NL-2132 JD Hoofddorp
The Netherlands
Tel:(31)2356-81-300/
Fax:(31)2356-81-388
OMRON ELECTRONICS LLC
1 East Commerce Drive, Schaumburg,
IL 60173 U.S.A.
Tel:(1)847-843-7900/Fax: (1)847-843-8568
OMRON ASIA PACIFIC PTE. LTD.
83 Clemenceau Avenue,
#11-01, UE Square,
Singapore 239920
Tel:(65)6835-3011/Fax : (65)6835-2711
OMRON (CHINA) CO., LTD.
Room 2211, Bank of China Tower,
200 Yin Cheng Zhong Road,
PuDong New Area, Shanghai, 200120 China
Tel:(86)21-5037-2222/Fax:(86)21-5037-2200
Read and Understand this Catalog
Please read and understand this catalog before purchasing the product. Please consult your OMRON representative if you have any
questions or comments.
Warranty and Limitations of Liability
WARRANTY
OMRON's exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year (or
other period if specified) from date of sale by OMRON.
OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NON-INFRINGEMENT,
MERCHANTABILITY, OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT
THE BUYER OR USER ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR
INTENDED USE. OMRON DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED.
LIMITATIONS OF LIABILITY
OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR
COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED ON CONTRACT,
WARRANTY, NEGLIGENCE, OR STRICT LIABILITY.
In no event shall the responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted.
IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS 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 OR REPAIR.
Application Considerations
SUITABILITY FOR USE
OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of the
product in the customer's application or use of the product.
Take all necessary steps to determine the suitability of the product for the systems, machines, and equipment with which it will be
used.
Know and observe all prohibitions of use applicable to this product.
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 IS PROPERLY
RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.
PROGRAMMABLE PRODUCTS
OMRON shall not be responsible for the user's programming of a programmable product, or any consequence thereof.
Disclaimers
CHANGE IN SPECIFICATIONS
Product specifications and accessories may be changed at any time based on improvements and other reasons. Consult with your
OMRON representative at any time to confirm actual specifications of purchased product.
DIMENSIONS AND WEIGHTS
Dimensions and weights are nominal and are not to be used for manufacturing purposes, even when tolerances are shown.
PERFORMANCE DATA
Performance data given in this catalog 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 users must correlate it to actual application requirements.
Actual performance is subject to the OMRON Warranty and Limitations of Liability.
The advanced W Series of Servomotores and Servodrivers are loaded
with functions. They can also be connected to DeviceNet networks,
allowing easier distributed control and information management.
23
To realize the productivity improvements demanded
of equipment today, you have to maximize the equip-
ment's performance with the best possible control.
The OMNUC W-series CPU operation time has been
cut in half and the settling time has been slashed to
one-third compared to the OMNUC U Series. These
improvements and others, such as upgraded control
algorithms, have helped to dramatically improve ba-
sic performance.
Even more advanced control and system con-
figurations can be achieved by connecting to
an OMRON Position Control Unit (such as a
CS1W-NC ) or Motion Control Unit (such
as a CS1-MC ) mounted to an OMRON
PLC. Debugging can be performed using con-
venient Windows-based tools. For smaller
scale systems, it is possible to connect to a
compact or micro OMRON PLC.
A DeviceNet Option Unit is also available. As
a Position Control Unit, it can be connected di-
rectly to an OMNUC W-series Servodriver,
and is equipped with communications func-
tions for DeviceNet. This means that parame-
ters can be set, the operating status can be
monitored, and faults can be predicted from a
PLC up to 500 m away.
The OMNUC W Series has a wide range of variations
to help build the ideal system. Space-saving flat Ser-
vomotors, water-resistant IP67-compatible Servomo-
tors, and Servomotors with gears are all available
even with capacities over 1 kW, which could not be
handled with earlier models. Of course, absolute en-
coder compatibility and braking are still available
and the Servomotors conform to safety standards,
such as CE and UL/cUL. The built-in online autotun-
ing function is effective in applications with machi-
nery that has variable loads. The autotuning function
makes it easy to adjust parameters, even for users
operating a Servomotor for the first time.
60 to 70 % of U Series.
The OMNUC W Series provides the per formance demanded in
today’s workplace.
Their fast response, high speed, and pr ecise control will dramatically
improve machine performance and pro ductivity.
Dramatically improved
basic performance.
More variety to suit
different applications.
This catalog provides information and
specifications needed to select Servomo-
tors and Servodrivers. It does not provide
precautions for operating these products.
Always refer to the OMNUC W-series AC
Servomotors/Servodriver User's Manual
for precautions and other information be-
fore operating these products.
Improve productivity even
more by connecting to a PLC.
Compatible with the open
field network DeviceNet.
Contents
Features
Servomotor/Servodriver
Combinations
Servomotor and Reduction
Gear Combinations
System Configuration
Controllers
Servomotor Specifications
Servodriver Specifications
External Dimensions
Cable Specifications
Operation and Display
User Parameters
Connection Diagrams
Terminal Blocks and
Connectors
Ordering Information
DeviceNet Option Unit
2
6
10
12
14
16
26
29
46
50
53
62
64
67
76
45
The OMNUC W Series provides high performanc e and a multitude of functions.
They are easy-to-use and the full line-up of
variations can be used in a wide range of applica tions.
New Additions
The Series has been expanded to include 1,500-r/min Servo-
motors (for both incremental and absolute encoders) with ca-
pacities ranging from 450 W to 15 kW and Servodrivers with
capacities of 7.5 kW and 15 kW.
Reduced Settling Time
Vibration-suppression has been improved with upgraded con-
trol algorithms. Even with low-rigidity machinery, the upgraded
vibration-suppression can slash the settling time to 1/3 the
time required in the U Series.
High-speed, High-precision Drive
A maximum speed of 5,000 r/min has been achieved in most
models. Positioning precision can be improved by using a
high-resolution serial encoder (16,384 pulses/revolution or
32,768 pulses/revolution). Torque control precision (reproduci-
bility) has also been improved to –2%.
Smooth Operation
Motor speed ripple has been reduced substantially. Operation
is smooth at low speeds.
Online Autotuning
Automatically measures machine characteristics and sets re-
quired servo gains. Settings can be made quickly even by
first-time users.
Automatic Motor Discrimination Function
The Servodriver automatically determines the Servomotor’s ca-
pacity and model and sets the motor parameters accordingly.
Personal Computer Monitoring Software
Windows-based monitoring software is available. The software
can be used to easily perform tasks such as setting up the sys-
tem, monitoring operation, and editing parameters. Of course
the U-series models (including the UE models) can be connec-
ted, too.
Comprehensive Motor Line
A full line of variations is available, including motors with
brakes, motors with gears, and flat-profile motors. Also, three
different rated motor speeds are available: 3,000 r/min, 1,500
r/min, and 1,000 r/min. The wide variety allows you to choose
the best model for your application.
Conformance to International Standards
The W-series Servomotors and
Servodrivers can be exported and
used overseas because they con-
form to UL/cUL standards.
Environmentally Resistant Models
Enclosures can conform to IP67 standards (possible for flat-
profile motors, 3,000-r/min motors with capacities of 1 kW or
more, 1,000-r/min motors, and 1,500-r/min motors). These
motors are ideal for applications where waterproofing is re-
quired.
Countermeasures Against
Power Supply Harmonics
A DC reactor connection terminal is provided.
Compatible with Long Cables
Unlike conventional models, long power cables and encoder
cables (up to 70 m) can be used.
All-in-one Control
Torque, position, and speed control can be achieved just by
switching parameters.
Regenerative Resistance
Terminals Standard
External regenerative resistance terminals are standard
equipment, so regenerative resistance can be connected very
easily.
Built-in Parameter Setting Device
Parameters can be input directly from the Servodriver.
Reduced Wiring
When a serial encoder is used, the number of encoder signal
wires is 1/2 of earlier models.
Absolute encoder: Wires reduced from 15 to just 7.
Incremental encoder: Wires reduced from 9 to just 5.
Separate Main and Control Power Supplies
The main and control power supplies have been separated
completely. If an alarm occurs, the alarm code can be read
and the appropriate countermeasures can be taken even with
the main power supply turned OFF for safety.
Simple Replacement of OMRON Servomotors
OMRON S-, R-, H-, V-, and M-series Servomotors can now
be replaced with W-series Servomotors.
Trace Function
When trigger conditions are satisfied, up to two analog ele-
ments and two ON/OFF elements can be recorded in the De-
viceNet Option Unit and read from the PLC.
Monitor Item Reading Function
The contents of AC Servodriver monitor display can be read
from the PLC.
Parameter Reading/Writing Function
Parameters can be checked from the PLC using DeviceNet
communications, and reading/writing performed according to
the operating status.
Note: If the DeviceNet Option Unit is mounted to an AC Servodriver, the AC Servodriver will
automatically be set to operate in position control mode. No other operating mode can
be used.
6
Servomotor/Servodriver Combinations
Servomotor/Servodriver Combinations
Choose the Servomotor/Servodriver for Each Application to Maximize Performance
Note: When using a 200-V single-phase Servomotor, it is necessary to change part of the power supply wiring. Refer to the relevant connection
diagram for details. The power supply specification is 220 to 230 VAC (+10%/−15%).
R88M Servomotors R88D Servodrivers Application
Style Rated speed Capacity International
standards
CE, UL/cUL
Shaft end
(without reduction
gear)
Enclosure
rating
100 V 200 V
Single
phase
200 V
Three
phase
Cylinder
style
3,000 r/min.
(5,000 r/min.)
30 W Approved Straight
With key
With key and tap
Straight with tap
IP55
(excluding
shaft opening)
WTA3HL WTA3H --- Low-inertia ma-
chines
Machines with fast
tact times
(Robots, Assembly
machines, Convey-
ance machines)
50 W WTA5HL WTA5H ---
100 W WT01HL WT01H ---
200 W WT02HL WT02H ---
400 W --- WT04H ---
750 W --- WT08H
(See
note.)
WT08H
1 kW With key and tap
Straight
IP67
(excluding
shaft opening)
--- --- WT10H
1.5 kW --- --- WT15H
2 kW --- --- WT20H
3 kW --- --- WT30H
4 kW --- --- WT50H
5 kW --- --- WT50H
1,500 r/min.
(3,000 r/min.)
450 W Approved With key and tap
Straight
IP67
(excluding
shaft opening)
--- --- WT05H Machines requiring
high torque
(Simple processing
machines, Assem-
bly machines,
Transfer machines)
850 W --- --- WT10H
1.3 kW --- --- WT15H
1.8 kW --- --- WT20H
2.9 kW --- --- WT30H
4.4 kW --- --- WT50H
5.5 kW --- --- WT60H
7.5 kW --- --- WT75H
1,500 r/min.
(2,000 r/min.)
11 kW --- --- WT150H
15 kW --- --- WT150H
1,000 r/min.
(2,000 r/min.)
300 W Approved With key and tap
Straight
IP67
(excluding
shaft opening)
--- --- WT05H Machines requiring
high torque
(Simple processing
machines, Assem-
bly machines,
Transfer machines)
600 W --- --- WT08H
900 W --- --- WT10H
1.2 kW --- --- WT15H
2 kW --- --- WT20H
3 kW --- --- WT30H
4 kW --- --- WT50H
5.5 kW --- --- WT60H
Flat style 3,000 r/min.
(5,000 r/min.)
100 W Approved Straight
With key
With key and tap
Straight with tap
IP55
(excluding
shaft opening)
IP67
(including
shaft opening)
WT01HL WT01H --- Machines allowing
little motor depth
Machines requiring
waterproof motor
(Semiconductor-
manufacturing ma-
chines, Food-pro-
cessing machines,
AGVs)
200 W WT02HL WT02H ---
400 W --- WT04H ---
750 W --- WT08H
(See
note.)
WT08H
1.5 kW --- --- WT15H
7
Servomotor/Servodriver Combinations
■Available Models
AC Servodrivers
Part Item Code Specification
1 R88D indicates the product is a Servodriver.
2 Series W W-series
3 Input signal T Analog or pulse-train input
4 Max. output ca-
pacity
A3 30 W
A5 50 W
01 100 W
02 200 W
04 400 W
05 500 W
08 750 W
10 1 kW
15 1.5 kW
20 2 kW
30 3 kW
50 5 kW
60 6 kW
75 7.5 kW
150 15 kW
5 --- H ---
6 Power supply Blank 200 VAC
L 100 VAC
R88D-WT@@H@
1 2 3 4 5 6
8
Servomotor/Servodriver Combinations
AC Servomotors (Without Reduction Gear)
Note: Waterproof specifications are available for only flat-style mo-
tors.
AC Servomotors (With Reduction Gear)
Note: Not all motors can be combined with a reduction gear. See
“Servomotor and Reduction Gear Combinations” on page 10
for more details.
Part Item Code Specification
1 R88M indicates the product is a Servomotor.
2 Series W W-series
3 Style Blank Cylinder style
P Flat style
4 Motor ca-
pacity
030 30 W
100 100 W
1K0 1 kW
5 Speed 10 1000 r/min.
15 1500 r/min.
30 3000 r/min.
6 Motor pow-
er supply
specifica-
tions
H 200 VAC, incremental encoder
L 100 VAC, incremental encoder
T 200 VAC, absolute encoder
S 100 VAC, absolute encoder
7 Brake Blank No brake
B 24-VDC brake
8 Waterproof/
oil seal
specifica-
tions
Blank No additional specifications
O With oil seal
W Waterproof
9 Shaft end Blank Straight
S1 With key
S2 With key and tap
S3 Straight with tap
R88M-W@@@@@@@-@@@@
1 2 3 4 5 6 7 8 9
Part Item Code Specification
1 R88M indicates the product is a Servomotor.
2 Series W W-series
3 Style Blank Cylinder style
P Flat style
4 Motor capacity 030 30 W
100 100 W
1K0 1 kW
5 Speed 10 1000 r/min.
15 1500 r/min.
30 3000 r/min.
6 Motor power
supply specifi-
cations
H 200 VAC, incremental encoder
L 100 VAC, incremental encoder
T 200 VAC, absolute encoder
S 100 VAC, absolute encoder
7 Brake Blank No brake
B 24-VDC brake
8 Gear ratio (See
note.)
G05 to
G45
G05: 1/5, G09: 1/9, G11: 1/11,
G15: 1/15, G20: 1/20, G21: 1/21,
G25: 1/25, G29: 1/29, G33: 1/33,
G45: 1/45
9 Backlash B 3 minutes max.
C About 45 minutes
10 Brake shaft end Blank Straight
JWith key
R88M-W@@@@@@@-@G@@@@
1 2 3 4 5 6 7 8 9 10
9
Servomotor/Servodriver Combinations
Servomotor Combinations (Models without Reduction Gears)
Note: 1,500-r/min motors are equipped with absolute encoders only. (These encoders can, however, be used as incremental encoders.)
R88M-W@@@@@@@-@@@@
3 4 5 6 7 8 9
345Basic model 6 7 8 9
Type Ca-
pacity
Rota-
tion
speed
Motor power supply
specification
With/without
brake
Wateproof/oil seal
specifications
Shaft shape
H L T S Blank B Blank O W Blank S1 S2 S3
Cylin-
der
30 W 3,000
r/min
R88M-W03030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
50 W R88M-W05030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
100 W R88M-W10030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
200 W R88M-W20030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
400 W R88M-W40030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
750 W R88M-W75030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
1 kW R88M-W1K030 Yes Yes Yes Yes Yes Yes Yes Yes
1.5 kW R88M-W1K530 Yes Yes Yes Yes Yes Yes Yes Yes
2 kW R88M-W2K030 Yes Yes Yes Yes Yes Yes Yes Yes
3 kW R88M-W3K030 Yes Yes Yes Yes Yes Yes Yes Yes
4 kW R88M-W4K030 Yes Yes Yes Yes Yes Yes Yes Yes
5 kW R88M-W5K030 Yes Yes Yes Yes Yes Yes Yes Yes
450 W 1,500
r/min
R88M-W45015 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
850 W R88M-W85015 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
1.3 kW R88M-W1K315 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
1.8 kW R88M-W1K815 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
2.9 kW R88M-W2K915 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
4.4 kW R88M-W4K415 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
5.5 kW R88M-W5K515 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
7.5 kW R88M-W7K515 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
11 kW R88M-W11K015 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
15 kW R88M-W15K015 Ye s Ye s Ye s Ye s Ye s Ye s Ye s
300 W 1,000
r/min
R88M-W30010 Yes Yes Yes Yes Yes Yes Yes Yes
600 W R88M-W60010 Yes Yes Yes Yes Yes Yes Yes Yes
900 W R88M-W90010 Yes Yes Yes Yes Yes Yes Yes Yes
1.2 kW R88M-W1K210 Yes Yes Yes Yes Yes Yes Yes Yes
2 kW R88M-W2K010 Yes Yes Yes Yes Yes Yes Yes Yes
3 kW R88M-W3K010 Yes Yes Yes Yes Yes Yes Yes Yes
4 kW R88M-W4K010 Yes Yes Yes Yes Yes Yes Yes Yes
5.5 kW R88M-W5K510 Yes Yes Yes Yes Yes Yes Yes Yes
Flat 100 W 3,000
r/min
R88M-WP10030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
200 W R88M-WP20030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
400 W R88M-WP40030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
750 W R88M-WP75030 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
1.5 kW R88M-WP1K530 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
10
Servomotor and Reduction Gear Combinations
Servomotor and Reduction Gear Combinations
■How to Use the Servomotor Combination Tables
Use the table on the right, Motor and Reduction Gear Combinations, to check whether or not the desired combination is possible. Next, check the
configuration details using the table for the corresponding Servomotor category.
•The model numbers are basically configured with the motor capacity (1) and the gear ratio option specification (2).
•The meanings of the symbols used in the tables are as follows:
@Blank: Without brake
B: With brake
▲Blank: Straight shaft
J: With key
✽H: 200 VAC with incremental encoder
L: 100 VAC with incremental encoder
T: 200 VAC with absolute encoder
S: 100 VAC with absolute encoder
✩H: 200 VAC with incremental encoder
T: 200 VAC with absolute encoder
Motor and Reduction Gear Combinations
Note: 1. The SMARTSTEP Reduction Gear (backlash: 3 min max.)
can be combined with the 3,000-r/min, 50- to 750-W motor.
The actual installation work to combine the Reduction Gear
and Servomotor should be done by the customer.
2. “Yes” represents compatible combinations. Any combina-
tions without “Yes” cannot be used.
■30-W to 750-W Cylinder-style Motors
(3,000 r/min)
Note: “Yes” represents compatible combinations. Any combinations
without “Yes” cannot be used.
Economy Reduction Gears
(Backlash: Approx. 45’)
Note: 1. “Yes” represents compatible combinations. Any combina-
tions without “Yes” cannot be used.
2. These reduction gears can be attached to only shafts with
key.
■1-kW to 5-kW Cylinder-style Motors
(3,000 r/min)
Note: 1. “Yes” represents compatible combinations. Any combina-
tions without “Yes” cannot be used.
2. These reduction gears can be attached to only shafts with
key.
R88M-W@-@
1 2 Motor type Capacity Reduction gear type Standalone
Reduction
Gear (See note
1.)
Standard
(Backlash: 30’
max.)
Economy
(Backlash:
Approx. 45’)
Standard
(Backlash: 30’
max.)
Cylinder-style mo-
tor
(3,000 r/min)
30 W to
750 W
Ye s Ye s Ye s
1 kW to
5 kW
Ye s
Cylinder-style mo-
tor
(1,500 r/min)
450 W to
15 kW
Ye s
Cylinder-style mo-
tor
(1,000 r/min)
300 W to
5.5 kW
Ye s
Flat-style motor 100 W to
750 W
Ye s Ye s Ye s
1.5 kW Yes
Motor
capacity
Basic model Reduction gear ratio
1/5 1/9 1/11 1/21 1/33
-@G05B▲-@G09B▲-@G11B▲-@G21B▲-@G33B▲
30 W R88M-
W03030✽-@
Ye s Ye s Ye s Ye s
50 W R88M-
W05030✽-@
Ye s Ye s Ye s Ye s
100 W R88M-
W10030✽-@
Ye s Ye s Ye s Ye s
200 W R88M-
W20030✽-@
Ye s Ye s Ye s Ye s
400 W R88M-
W40030✩-@
Ye s Ye s Ye s Ye s
750 W R88M-
W75030✩-@
Ye s Ye s Ye s Ye s
Motor
capacity
Basic model Reduction gear ratio
1/5 1/9 1/15 1/25
-@G05CJ -@G09CJ -@G15CJ -@G25CJ
30 W R88M-W03030✽-@
50 W R88M-W05030✽-@
100 W R88M-W10030✽-@YesYesYesYes
200 W R88M-W20030✽-@YesYesYesYes
400 W R88M-W40030✩-@YesYesYesYes
750 W R88M-W75030✩-@YesYesYesYes
Motor
capacity
Basic model Reduction gear ratio
1/5 1/9 1/20 1/29 1/45
-@G05BJ -@G09BJ -@G20BJ -@G29BJ -@G45BJ
1 kW R88M-
W1K030✩-@
Ye s Ye s Ye s Ye s Ye s
1.5 kW R88M-
W1K030✩-@
Ye s Ye s Ye s Ye s Ye s
2 kW R88M-
W2K030✩-@
Ye s Ye s Ye s Ye s Ye s
3 kW R88M-
W3K030✩-@
Ye s Ye s Ye s Ye s Ye s
4 kW R88M-
W4K030✩-@
Ye s Ye s Ye s Ye s
5 kW R88M-
W5K030✩-@
Ye s Ye s Ye s
11
Servomotor and Reduction Gear Combinations
■100-W to 1.5-kW Flat-style Motors
(3,000 r/min)
Standard Reduction Gears
(Backlash: 3’ max.)
Note: “Yes” represents compatible combinations.
Economy Reduction Gears
(Backlash: Approx. 45’)
Note: 1. “Yes” represents compatible combinations. Any combina-
tions without “Yes” cannot be used.
2. These reduction gears can be attached to only shafts with
key.
■450-W to 15-kW Cylinder-style Motors
(1,500 r/min)
Note: 1. “Yes” represents compatible combinations. Any combina-
tions without “Yes” cannot be used.
2. These reduction gears can be attached to only shafts with
key.
3. The motors are equipped with absolute encoders only.
(These encoders can, however, be used as incremental en-
coders.)
■ 300-W to 5.5-kW Cylinder-style Motors
(1,000 r/min)
Note: 1. “Yes” represents compatible combinations. Any combina-
tions without “Yes” cannot be used.
2. These reduction gears can be attached to only shafts with
key.
Motor
capacity
Basic model Reduction gear ratio
1/5 1/11 1/21 1/33
-@G05B▲-@G11B▲-@G21B▲-@G33B▲
100 W R88M-WP10030✽-@Ye s Ye s Ye s Ye s
200 W R88M-WP20030✽-@Ye s Ye s Ye s Ye s
400 W R88M-WP40030✩-@Ye s Ye s Ye s Ye s
750 W R88M-WP75030✩-@Ye s Ye s Ye s Ye s
1.5 kW R88M-WP1K530✩-@Ye s Ye s Ye s Ye s
Motor
capacity
Basic model Reduction gear ratio
1/5 1/9 1/15 1/25
-@G05CJ -@G09CJ -@G15CJ -@G25CJ
100 W R88M-WP10030✽-@Ye s Ye s Ye s Ye s
200 W R88M-WP20030✽-@Ye s Ye s Ye s Ye s
400 W R88M-WP40030✩-@Ye s Ye s Ye s Ye s
750 W R88M-WP75030✩-@Ye s Ye s Ye s Ye s
1.5 kW R88M-WP1K530✩-@
Motor
capacity
Basic model Reduction gear ratio
1/5 1/9 1/20 1/29 1/45
-@G05BJ -@G09BJ -@G20BJ -@G29BJ -@G45BJ
450 W R88M-
W45015✩-@
Ye s Ye s Ye s Ye s Ye s
850 W R88M-
W85015✩-@
Ye s Ye s Ye s Ye s Ye s
1.3 kW R88M-
W1K315✩-@
Ye s Ye s Ye s Ye s Ye s
1.8 kW R88M-
W1K815✩-@
Ye s Ye s Ye s Ye s
2.9 kW R88M-
W2K915✩-@
Ye s Ye s Ye s
4.4 kW R88M-
W4K415✩-@
Ye s Ye s
5.5 kW R88M-
W5K515✩-@
7.5 kW R88M-
W7K515✩-@
11 kW R88M-
W11K015✩-@
15 kW R88M-
W15K015✩-@
Motor
capacity
Basic model Reduction gear ratio
1/5 1/9 1/20 1/29 1/45
-@G05BJ -@G09BJ -@G20BJ -@G29BJ -@G45BJ
300 W R88M-W30010✩-@YesYesYesYesYes
600 W R88M-W60010✩-@YesYesYesYesYes
900 W R88M-W90010✩-@YesYesYesYesYes
1.2 kW R88M-W1K210✩-@Ye s Ye s Ye s
2 kW R88M-W2K010✩-@Ye s Ye s Ye s
3 kW R88M-W3K010✩-@Ye s Ye s
4 kW R88M-W4K010✩-@
5.5 kW R88M-W5K510✩-@
12
System Configuration
System Configuration
Flexible System Configuration That Can Be Matched to the Application
Controllers
Position Control Unit Cable
Motion Control (MC) Unit
Position Control
(NC) Unit
XW2Z-@@@J-A@
(See note.)
Servodriver Cable
XW2Z-@@@J-B4 (See note.)
MC Unit Cable
R88A-CPW@@@M@
(See note.)
Servo Relay Unit
XW2B-@@J6-@B (See note.)
Feedback Signals
Analog Commands
DeviceNet
MECHATROLINK-II (See note.)
Pulse-train Commands
3F88M-DRT141
Single-axis Positioner
SYSMAC CPM2A SYSMAC CPM2C
SYSMAC CJ1M CS1W-HCP22-V1
Customizable Counter Unit
DeviceNet Unit
CJ1W-DRM21
CS1W-DRM21-V1
Note: Refer to page 48 for details on available models.
CJ1W-NC113/213/413
CJ1W-NC133/233/433
CS1W-NC113/213/413
CS1W-NC133/233/433
CS1W-MCH71CJ1W-MCH71
CJ1W-NCF71
CS1W-MC221-V1/
421-V1
CJ-series PLC
A1
B1
A2
B2
1
CN2
12
CN1
120
B
AAB
00906
PERIPHERAL
TOOL ON OFF
RUN OPN
ERC ERH
COMM
HCP22
IN
OUT
01234567
8 9 10 11
01234567
MACH
No.
X10
1
9
8
7
6
5
4
3
2
1
0
X10
0
9
8
7
6
5
4
3
2
1
0
CS-series PLC
Note: Refer to page 48 for details
on available models.
13
System Configuration
AC Servodrivers AC Servomotors
Power Cables (See note.)
For motors without brake:
R88A-CAW@@@@S
For motors with brake:
R88A-CAW@@@@B
Power Signals
Feedback Signals
Encoder Cables
(See note.)
Note:
Use the OMRON ordering
model number (FNY-NS115)
when ordering. The product is
marked only with the Yaskawa
model number (JUSP-NS115).
Note: The illustrations shown here are
examples only.
NCW152
X
10
X
1
D
R
C
N
11
M
S
N
S
C
N
6
C
N
4
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
R88D-WTA3HL R88D-WT08H
R88D-WT30H R88D-WT60H
R88M-W03030L
R88M-WP75030H
R88M-W3K030H
R88M-W75030T-B
R88A-CRWA@@@C
For cylinder-style motors
(3,000 r/min): 30 W to 75 W
R88A-CRWB@@@N
For cylinder-style motors
(3,000 r/min): 1 kW to 5 kW
For cylinder-style motors
(1,000 r/min): 300 W to 5.5 kW
For cylinder-style motors
(1,500 r/min): 450 W to 15 kW
R88A-NCW152-DRT
Yaskawa model number
JUSP-NS115
(OMRON ordering
model number
FNY-NS115)
(See note.)
DeviceNet Option
Unit
MECHATROLINK-II
Interface Unit
Note: Refer to page 48 for details
on available models.
Note: Refer to page 48 for details
on available models.
Note: The illustrations shown here are examples only.
14
Controllers
Controllers
Combining the Servodriver with a Controller from Simple Positioning Can Improve Machine
Productivity to Advanced Positioning
■Position Control (NC) Units
Perform simple positioning just by writing position data from the CPU Unit.
Open Loop Method, Pulse Output
•Simple positioning can be performed with the direct operation func-
tion.
•The Position Control Unit can respond to commands from the CPU
Unit and produce a pulse output at high speed (2 ms when using
the CS1W-NC or CJ1W-NC.)
•To suppress machine vibration, an S-shape curve can be specified
for the acceleration/deceleration curve instead of a trapezoidal
curve.
•When the CS1W-NC or CJ1W-NC is being used, the Unit’s data
and parameters can be created and stored easily using the Win-
dows-based WS02-NCTC1-E Support Software.
•Position data can be stored in the Position Control Unit’s flash
memory, which eliminates the need to periodically replace the
backup battery.
■ Motion Control (MC) Units
These high-speed, highly accurate, 2-axis/4-axis Motion Controllers are equipped with the multi-
tasking G language and are compatible with absolute and incremental encoders.
•The multi-tasking G language allows 4 axes to be controlled simul-
taneously and it is also possible to control each axis independently.
The G language can simplify the PLC’s ladder program by reducing
position-control-related ladder programming.
•Winding operations can be simplified and speeded up. (Instructions
providing a 2-axis traverse function are available.)
•The encoder response frequency is 2 Mpps for x4 operation, which
is compatible with applications requiring high-speed and high-accu-
racy.
•A D code (interrupt code) can be output to the CPU Unit when posi-
tioning is completed or an important position is passed.
•Programming is easy with the WIndows-based CX-Motion Support
Software.
•A manual pulse generator can be used.
CS1W-NC113/213/413
CS1W-NC133/233/433
C200HW-NC113/213/413
CJ1W-NC113/213/413
CJ1W-NC133/233/433
Input
Position
Control Unit
Servo Relay
Unit
OMNUC
W-series
Servodriver
OMNUC
W-series
Servomotor
CS1W-MC221/421
C200H-MC221
CPU
Unit
CX-Motion
Software
Motion
Control
Unit
Teaching
Box
OMNUC
W-series
Servodriver
OMNUC
W-series
Servomotor
Terminal-block
Conversion Unit
15
Controllers
■ SYSMAC CJ1M
The CJ1M is a high-performance, compact PLC for distributed control.
Built-in I/O boards and special instructions support simple positioning and pulse I/O.
Simple Positioning
The Pulse I/O board is equipped with two ports each for input and
output, supporting high-speed input at up to 100 kHz and output at
up to 100 kHz. Connection with a Servodriver enables simple posi-
tioning.
Special Instructions for Simple Positioning
Equipped with special pulse I/O instructions, the CJ1M can be oper-
ated by writing easy ladder programs.
Instruction example: Search for origin (ORG), speed instruction
(ACC), pulse output (PLS2)
■ SYSMAC CPM2A/CPM2C
The CPM2A/CPM2C PLCs are equipped with synchronized pulse control and position control
functions. Meets the needs for higher line speed and multiple-product small-lot production.
Synchronized Pulse Control
The output pulse frequency can be set to be a specified multiple of
the input pulse frequency and that multiple can be changed from the
ladder program. This function can be used to adjust the feed rate of
packaging film so that the brand name or other printing remains in
the correct location during packaging.
Position Control Function
This function supports 1-axis pulse outputs with trapezoidal acceler-
ation/deceleration (10 kHz) and 2-axis simple pulse outputs. A Ser-
vomotor can be used for operations such as adjusting the feed rate of
workpieces (constant feed) and the amount of fillings (constant
amount) such as jam or custard.
SYSMAC CJ1M
SYSMAC CJ1M
Pulse
input 2 Pulse output 2 Pulse output 1 Pulse
input 1
Incremental
Encoder Incremental
Encoder
OMNUC
W-series
Servodriver
OMNUC
W-series
Servodriver
OMNUC
W-series
Servomotor
OMNUC
W-series
Servomotor
SYSMAC CPM2A
SYSMAC CPM2C
SYSMAC CPM2A PLC
Main motor
Encoder
SYSDRIVE Inverter
OMNUC W-series
Servomotor/Servodriver
16
Servomotor Specifications
Servomotor Specifications
■Performance Specifications
Cylinder-style Motors (3,000 r/min)
Note: The encoder resolution for the Z phase is 1 pulse/rev.
Item 200 VAC
Servomotor (R88M-) W03030@W05030@W10030@W20030@W40030@W75030@W1K030@W1K530@W2K030@W3K030@W4K030@W5K030@
Servodriver (R88D-) WTA3H WTA5H WT01H WT02H WT04H WT08H WT10H WT15H WT20H WT30H WT50H WT50H
Rated output W 30 50 100 200 400 750 1 k 1.5 k 2 k 3 k 4 k 5 k
Rated torque N·m 0.0955 0.159 0.318 0.637 1.27 2.39 3.18 4.90 6.36 9.80 12.6 15.8
Max. momentary
torque
N·m 0.286 0.477 0.955 1.91 3.82 7.16 9.54 14.7 19.1 29.4 37.8 47.6
Rated speed r/min 3,000
Max. momentary
speed
r/min 5,000
Rated current A(rms) 0.44 0.64 0.91 2.1 2.8 4.4 5.7 9.7 12.7 18.8 25.4 28.6
Rotor inertia
(without brake)
kg·m2 ×
10–4
0.0166 0.022 0.0364 0.106 0.173 0.672 1.74 2.47 3.19 7.0 9.6 12.3
Power rate kW/s 5.49 11.5 27.8 38.2 93.7 84.8 57.9 97.2 127 137 166 202
Applicable load
inertia
Multiple 100 (Restricted, however, by the regenerative process-
ing capacity.)
10
Allowable radial
load on shaft
N 68 78 245 392 686 980 1176
Allowable thrust
load on shaft
N 54 74 147 196 392
Approx. weight
(without brake)
kg 0.3 0.4 0.5 1.1 1.7 3.4 4.6 5.8 7.0 11.0 14.0 17.0
Approx. weight
(with brake)
kg 0.6 0.7 0.8 1.6 2.2 4.3 6.0 7.5 8.5 14.0 17.0 20.0
Encoder resolu-
tion
(See note.)
INC A, B phase: 2,048 pulses/rev. A, B phase: 32,768 pulses/rev.
ABS A, B phase: 16,384 pulses/rev. A, B phase: 32,768 pulses/rev.
Brake specifications
Inertia kg·m2 ×
10–4
0.0085 0.058 0.14 0.325 2.1
Excitation volt-
age
V 24 VDC ±10% 24 VDC ±10%
Power con-
sumption
W 6 6.9 7.7 7 9.85
Current con-
sumption
A 0.25 0.29 0.32 0.29 0.41
Static friction
torque
N•m 0.2min. 0.34
min.
1.47 min. 2.45
min.
7.84 min. 20 min.
Absorption
time
ms 30 max. 60 max. 80 max. 180 max.
Release time ms 60 max. 20 max. 20 max. 100 max.
Backlash --- 1° (reference value)
Rating --- Continuous
Insulation --- Type F
17
Servomotor Specifications
Cylinder-style Motors (3,000 r/min)
■ General Motor Specifications
Cylinder-style Motors (3,000 r/min)
Note: Enclosure ratings do not include the shaft opening.
Item 100 VAC
Servomotor (R88M-) W03030@W05030@W10030@W20030@
Servodriver (R88D-) WTA3HL WTA5HL WT01HL WT02HL
Rated output W 30 50 100 200
Rated torque N·m 0.0955 0.159 0.318 0.637
Max. momentary torque N·m 0.286 0.477 0.955 1.91
Rated speed r/min 3,000
Max. momentary speed r/min 5,000
Rated current A(rms) 0.66 0.95 2.4 3.0
Rotor inertia (without brake) kg·m2 × 10–4 0.0166 0.022 0.0364 0.106
Power rate kW/s 5.49 11.5 27.8 38.2
Applicable load inertia Multiple 100 (Restricted, however, by the regenerative processing capacity.)
Allowable radial load on shaft N 68 78 245
Allowable thrust load on shaft N 54 74
Approx. weight (without brake) kg 0.3 0.4 0.5 1.1
Approx. weight (with brake) kg 0.6 0.7 0.8 16
Encoder resolution INC A, B phase: 2,048 pulses/rev.; Z phase: 1 pulse/rev.
ABS A, B phase: 16,384 pulses/rev.; Z phase: 1 pulse/rev.
Brake specifications
Inertia kg·m2 × 10–4 0.0085 0.058
Excitation voltage V 24 VDC ±10%
Power consumption W 6 6.5
Current consumption A 0.25 0.27
Static friction torque N·m 0.2 min. 0.34 min. 1.5 min.
Absorption time ms 30 max. 60 max.
Release time ms 60 max. 20 max.
Backlash --- 1° (reference value)
Rating --- Continuous
Insulation --- Type F
Item 30 to 750 W 1 to 5 kW
Ambient temperature Operating: 0 to +40°C
Storage: –20 to +60°C
Ambient humidity (with no condensation) Operating: 20% to 80%
Storage: 20% to 80%
Atmosphere No corrosive gases
Vibration resistance 49 m/s224.5 m/s2
Shock resistance 490 m/s2 (twice in vertical direction)
Insulation resistance 10 MΩ min. at 500 VDC
Dielectric strength 1,500 VAC for 1 min
Operating position Any direction
Insulation class Type B Type F
Construction Totally-enclosed self-cooling
Enclosure rating IP55 (See note.) IP67 (See note.)
Vibration class V-15
EC directives EMC directive EN55011 class A group1
EN61000-6-2
Low-voltage directive IEC60034-1, 5, 8, 9
EN60034-1, 9
UL standards UL1004
cUL standards cUL C22.2 No.100
18
Servomotor Specifications
■ Torque and Rotation Speed Characteristics
Cylinder-style Motors with 200-VAC Power Supply (3,000 r/min)
The following graphs show characteristics with a standard 3-m cable and 200-VAC input.
■Cylinder-style Motors with 100-VAC Power Supply (3,000 r/min)
The following graphs show characteristics with a standard 3-m cable and 100-VAC input.
R88M-W03030H (30 W)
R88M-W03030T (30 W)
R88M-W05030H (50 W)
R88M-W05030T (50 W)
R88M-W10030H (100 W)
R88M-W10030T (100 W) R88M-W20030H (200 W)
R88M-W20030T (200 W)
R88M-W40030H (400 W)
R88M-W40030T (400 W)
R88M-W75030H (750 W)
R88M-W75030T (750 W)
R88M-W1K030H (1 kW)
R88M-W1K030T (1 kW)
R88M-W1K530H (1.5 kW)
R88M-W1K530T (1.5 kW)
R88M-W2K030H (2 kW)
R88M-W2K030T (2 kW) R88M-W3K030H (3 kW)
R88M-W3K030T (3 kW)
R88M-W4K030H (4 kW)
R88M-W4K030T (4 kW)
R88M-W5K030H (5 kW)
R88M-W5K030T (5 kW)
5,0001,000 2,000 3,000 4,000
0.0955
0.286
0.06
0
0.1
0.2
0.3 0.286
0.0955
(N·m)
5,0001,000 2,000 3,000 4,000
0.159
0.477
0.09
0
0.1
0.3
0.5 0.477
0.159
(N·m)
0.4
0.2
5,0001,000 2,000 3,000 4,000
0.318
0.955
0.19
0
0.2
0.6
1.0 0.955
0.318
(N·m)
0.8
0.4
5,0001,000 2,000 3,000 4,000
0.637
1.91
0.39
0
1.0
2.0 1.91
0.637
(N·m)
1.5
0.5
5,0001,000 2,000 3,000 4,000
1.27 1.5
0.76
0
2.0
4.0 3.82
1.27
(N·m)
3.0
1.0
3.82
(3,525)
5,0001,000 2,000 3,000 4,000
2.39
1.46
0
4.0
8.0 7.16
2.39
(N·m)
6.0
2.0
7.16
(3,650)
5,0001,000 2,000 3,000 4,000
3.18
1.7
0
0.2
6
10 9.54
3.18
(N·m)
8
4
5,0001,000 2,000 3,000 4,000
4.9
2.4
0
5
10
15
4.9
(N·m)
8.67
(3,000)
4.53
14.7 13.9
(3,000)
7.0
5,0001,000 2,000 3,000 4,000
6.36
9.3
3.25
0
10
20 19.1
6.36
(N·m)
15
5
18.3
(3,250)
5,0001,000 2,000 3,000 4,000
9.8
2.4
0
10
20
30
9.8
(N·m)
29.4 27.6
(3,000)
13.5
5,0001,000 2,000 3,000 4,000
12.6
6.3
0
20
40 37.8
12.6
(N·m)
30
10
37.3
(2,900)
14.2
5,0001,000 2,000 3,000 4,000
15.8
7.8
0
10
30
50
15.8
(N·m)
40
20
13.5
47.8 46.8
(3,000)
Repetitive usage
Continuous usage
(r/min) (r/min) (r/min) (r/min)
(r/min) (r/min) (r/min) (r/min)
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
(r/min) (r/min) (r/min) (r/min)
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
R88M-W03030L (30 W)
R88M-W03030S (30 W)
R88M-W20030L (200 W)
R88M-W20030S (200 W)
R88M-W10030L (100 W)
R88M-W10030S (100 W)
R88M-W05030L (50 W)
R88M-W05030S (50 W)
5,0001,000 2,000 3,000 4,000
0.0955
0.06
0
0.1
0.2
0.3
0.0955
(N·m)
0.286 0.286
(4,450)
0.25
5,0001,000 2,000 3,000 4,000
0.159
0.09
0
0.1
0.3
0.5
0.159
(N·m)
0.4
0.2
0.38
0.477 0.477
(4,500)
5,0001,000 2,000 3,000 4,000
0.318
0.955
0.19
0
0.2
0.6
1.0 0.955
0.318
(N·m)
0.8
0.4
5,0001,000 2,000 3,000 4,000
0.637
0.39
0
1.0
2.0 1.91
0.637
(N·m)
1.5
0.5
1.91
(3,000)
0.5
Repetitive usage
Continuous usage
(r/min) (r/min) (r/min) (r/min)
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
19
Servomotor Specifications
Cylinder-style Motors (1,500 r/min)
Item 200 VAC
Servomotor (R88M-) W45015T W85015T W1K315T W1K815T W2K915T W4K415T W5K515T W7K515T W11K015T W15K015T
Servodriver (R88D-) WT05H WT10H WT15H WT20H WT30H WT50H WT60H WT75H WT150H WT150H
Rated output W 450 850 1,300 1,800 2,900 4,400 5,500 7,500 11,000 15,000
Rated torque N·m 2.84 5.39 8.34 11.5 18.6 28.4 35.0 48.0 70.0 95.4
Max. momentary
torque
N·m 8.92 13.8 23.3 28.7 45.1 71.1 87.6 119 175 224
Rated speed r/min 1,500
Max. momentary
speed
r/min 3,000 2,000
Rated current A(rms) 3.8 7.1 10.7 16.7 23.8 32.8 42.1 54.7 58.6 78.0
Rotor inertia
(without brake)
kg·m2 ×
10–4
7.24 13.9 20.5 31.7 46.0 67.5 89.0 125 281 315
Power rate kW/s 11.2 20.9 33.8 41.5 75.3 120 137 184 174 289
Applicable load
inertia
Multiple 5
Allowable radial
load on shaft
N 490 686 1,176 1,470 1,764 4,998
Allowable thrust
load on shaft
N 98 343 490 588 2,156
Approx. weight
(without brake)
kg Approx.
5.5
Approx.
7.6
Approx.
9.6
Approx.
14
Approx.
18
Approx.
23
Approx.
30
Approx.
40
Approx.
57.5
Approx. 86
Approx. weight
(with brake)
kg Approx.
7.5
Approx.
9.6
Approx.
12
Approx.
19
Approx.
23.5
Approx.
28.5
Approx.
35
Approx.
45.5
Approx. 65 Approx.
100
Encoder resolu-
tion
INC ---
ABS A, B phase: 32,768 pulses/rev.
Z phase: 1 pulse/rev.
Brake specifications
Inertia kg·m2 ×
10–4
2.1 8.5 18.8 37.5
Excitation volt-
age
V 24 VDC ±10% (nonpolar)
Power con-
sumption
W 9.85 18.5 23.5 32 35
Current con-
sumption
A 0.41 0.77 0.98 1.33 1.46
Static friction
torque
N·m 4.41 12.7 43.1 72.6 84.3 114.6
Absorption
time
ms 180 max. 170 max. 250 max.
Release time ms 100 max. 80 max.
Backlash --- 1° max.
Rating --- Continuous
Insulation --- Type F
20
Servomotor Specifications
■ General Motor Specifications
Cylinder-style Motors (1,500 r/min)
Note: Enclosure ratings do not include the shaft opening.
Item 450 W to 15 kW
(standard type: 1,500 r/min)
Ambient temperature Operating: 0 to +40°C
Storage: –20 to +60°C
Ambient humidity (with no condensation) Operating: 20% to 80%
Storage: 20% to 80%
Atmosphere No corrosive gases
Vibration resistance 24.5 m/s2
Shock resistance 490 m/s2 (twice in vertical direction)
Insulation resistance 10 MΩ min. at 500 VDC
Dielectric strength 1,500 VAC for 1 min
Operating position Any direction
Insulation class Type F
Construction Totally-enclosed self-cooling
Enclosure rating IP67 (See note.)
Vibration class V-15
EC directives EMC directive EN55011 class A group1
EN61000-6-2
Low-voltage directive IEC60034-1, 5, 8, 9
EN60034-1, 9
UL standards UL1004
cUL standards cUL C22.2 No.100
21
Servomotor Specifications
■ Torque and Rotation Speed Characteristics
Cylinder-style Motors with 200-VAC Power Supply (1,500 r/min)
The following graphs show characteristics with a standard 3-m cable and 200-VAC input.
R88M-W45015T (450 W)
(N·m)
R88M-W85015T (850 W) R88M-W1K315T (1.3 kW) R88M-W1K815T (1.8 kW)
R88M-W2K915T (2.9 kW)
(N·m)
R88M-W4K415T(4.4 kW)
(N·m)
R88M-W5K515T (5.5 kW)
(N·m)
R88M-W7K515T(7.5 kW)
(N·m)
R88M-W11K015T (11 kW)
(N·m)
R88M-W15K015T(15 kW)
(N·m)
0
2
4
6
8
10
300020001000
2.94 2.84
1.42
8.92
8.40
(2190)
4.80
300020001000
0
5
10
15
20
5.88 5.39
2.70
11.5
13.8
12.7
(2870)
(N·m) (N·m) (N·m)
300020001000
8.83 8.34
4.17
23.3 22.3
(2770)
17.1
0
10
20
30
300020001000
0
10
20
30
40
11.8 11.5
5.80
24.6
28.7
26.4
(2870)
0
10
20
30
40
50
300020001000
22.3
18.6
9.30
45.1 44.2
(2490)
32.2
300020001000
0
20
40
60
80
34.1
28.4
14.2
42.5
71.1
66.5
(2410)
0
20
40
60
80
100
300020001000
38.5 35.0
17.5
87.6 86.5
(2540)
53.8
300020001000
52.8 48.0
24.0
119 115
(2540)
54.8
0
50
100
150
300020001000
0
50
100
150
200
77.0 70.0
52.5
125
175 171
(1760)
0
50
100
150
200
250
300020001000
105 95.4
71.6
224 212
(1670)
188
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
(r/min) (r/min) (r/min) (r/min)
(r/min) (r/min) (r/min) (r/min)
(r/min) (r/min)
22
Servomotor Specifications
■Performance Specifications
Cylinder-style Motors (1,000 r/min)
Item 200 VAC
Servomotor (R88M-) W30010@W60010@W90010@W1K210@W2K010@W3K010@W4K010@W5K510@
Servodriver (R88D-) WT05H WT08H WT10H WT15H WT20H WT30H WT50H WT60H
Rated output W 300 600 900 1.2k 2k 3k 4k 5.5k
Rated torque N·m 2.84 5.68 8.62 11.5 19.1 28.4 38.2 52.6
Max. momentary
torque
N·m 7.17 14.1 19.3 28.0 44.0 63.7 107 137
Rated speed r/min 1,000
Max. momentary
speed
r/min 2,000
Rated current A(rms) 3 5.7 7.6 11.6 18.5 24.8 30 43.2
Rotor inertia
(without brake)
kg·m2 × 10–4 7.24 13.9 20.5 31.7 46.0 67.5 89.0 125
Power rate kW/s 11.2 23.2 36.3 41.5 79.4 120 164 221
Applicable load iner-
tia
Multiple 10
Allowable radial load
on shaft
N 490 686 1176 1470 1764
Allowable thrust
load on shaft
N 98 343 490 588
Approx. weight
(without brake)
kg5.57.69.61418233040
Approx. weight
(with brake)
kg 7.5 9.6 12 19 23.5 28.5 35 45.5
Encoder resolution INC A, B phase: 32,768 pulses/rev.; Z phase: 1 pulse/rev.
ABS
Brake specifications
Inertia kg·m2 × 10–4 2.1 8.5
Excitation volt-
age
V 24 VDC±10%
Power consump-
tion
W 9.85 18.5 23.5
Current con-
sumption
A 0.41 0.77 0.98
Static friction
torque
N·m 4.41 12.7 43.1 72.6
Absorption time ms 180 ms max.
Release time ms 100 ms max.
Backlash --- 1° max.
Rating --- Continuous
Insulation --- Type F
23
Servomotor Specifications
■ General Motor Specifications
Cylinder-style Motors (1,000 r/min)
Note: Enclosure ratings do not include the shaft opening.
■Torque and Rotation Speed Characteristics
Cylinder-style Motors with 200-VAC Power Supply (1,000 r/min)
The following graphs show characteristics with a standard 3-m cable and 200-VAC input.
Item 300 to 5.5 kW
Ambient temperature Operating: 0 to +40°C
Storage: –20 to +60°C
Ambient humidity
(with no condensation)
Operating: 20% to 80%
Storage: 20% to 80%
Atmosphere No corrosive gases
Vibration resistance 24.5 m/s2
Shock resistance 490 m/s2 (twice in vertical direction)
Insulation resistance 10 MΩ min. at 500 VDC
Dielectric strength 1,500 VAC for 1 min
Operating position Any direction
Insulation class Type F
Construction Totally-enclosed self-cooling
Enclosure rating IP67 (See note.)
Vibration class V-15
EC directives EMC directive EN55011 class A group1
EN61000-6-2
Low-voltage directive IEC60034-1, 5, 8, 9
EN60034-1, 9
UL standards UL1004
cUL standards cUL C22.2 No.100
R88M-W30010H (300 W)
R88M-W30010T (300 W) R88M-W60010H (600 W)
R88M-W60010T (600 W)
R88M-W90010H (900 W)
R88M-W90010T (900 W)
R88M-W1K210H (1.2 kW)
R88M-W1K210T (1.2 kW)
R88M-W2K010H (2 kW)
R88M-W2K010T (2 kW) R88M-W3K010H (3 kW)
R88M-W3K010T (3 kW) R88M-W4K010H (4 kW)
R88M-W4K010T (4 kW)
R88M-W5K510H (5.5 kW)
R88M-W5K510T (5.5 kW)
2,000500 1,000 1,500
2.95
6.2
1.4
0
4
87.17
2.84
(N·m)
6
2
7.0
(1,875)
5.8
12.7
2.8
0
5
10
15 14.1
5.68
(N·m)
2,000
500 1,000 1,500
13.8
(1,925)
2,000500 1,000 1,500
8.8
12.5
4.3
0
10
20 19.3
8.62
(N·m)
(r/min)
15
5
18.8
(1,800)
11.8
21.8
5.5
0
10
20
30 28.0
11.5
(N·m)
2,000
500 1,000 1,500
27.1
(1,800)
21.6
35.8
9.7
0
10
30
50
44.0
19.1
(N·m)
40
20
2,000500 1,000 1,500
43.0
(1,825)
2,000500 1,000 1,500
31.7
40.0
14.2
0
40
80
63.7
28.4
(N·m)
60
20
62.5
(1,700)
46.1 56.6
18.4
0
25
75
125
107
38.2
(N·m)
100
50
2,000500 1,000 1,500
107
(1,500)
63.1 71.9
25.0
0
50
100
150 137.0
52.6
(N·m)
2,000
500 1,000 1,500
134.4
(1,600)
Repetitive usage
Continuous usage
(r/min) (r/min) (r/min)
(r/min) (r/min)
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
(r/min) (r/min)
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
24
Servomotor Specifications
■Performance Specifications
Flat-style Motors
■General Motor Specifications
Flat-style Motors (3,000 r/min)
Note: Enclosure ratings do not include the shaft opening.
Item 200 VAC 100 VAC
Servomotor (R88M-) WP10030@WP20030@WP40030@WP75030@WP1K530@WP10030@WP20030@
Servodriver (R88D-) WT01H WT02H WT04H WT08H WT15H WT01HL WT02HL
Rated output W 100 200 400 750 1.5k 100 200
Rated torque N·m 0.318 0.637 1.27 2.39 4.77 0.318 0.637
Max. momentary torque N·m 0.955 1.91 3.82 7.16 14.3 0.955 1.91
Rated speed r/min 3,000 3,000
Max. momentary speed r/min 5,000 5,000
Rated current A (rms) 0.89 2.0 2.6 4.1 7.5 2.2 2.7
Rotor inertia
(without brake) kg·m2 × 10–4 0.0491 0.193 0.331 2.1 4.02 0.0491 0.193
Power rate kW/s 20.6 21.0 49.0 27.1 56.7 20.6 21.0
Applicable load inertia Multiple 100 (Restricted, however, by the regenerative processing capacity.)
Allowable radial load on shaft N 78 245 392 490 78 245
Allowable thrust load on shaft N 49 68 147 49 68
Approx. weight
(without brake)
kg 0.7 1.4 2.1 4.2 6.6 0.7 1.4
Approx. weight
(with brake)
kg 0.9 1.9 2.6 5.7 8.1 0.9 1.9
Encoder resolution INC A, B phase: 2,048 pulses/rev., Z phase: 1 pulse/rev.
ABS A, B phase: 16,384 pulses/rev., Z phase: 1 pulse/rev.
Brake specifications
Inertia kg·m2 × 10–4 0.029 0.109 0.875 0.029 0.109
Excitation voltage V 24 VDC±10% 24 VDC±10%
Power consumption W 8.2 7.6 8.2 7.5 10 8.2 7.6
Current consumption A 0.34 0.32 0.34 0.31 0.42 0.34 0.32
Static friction torque N·m 0.4 min. 0.9 min. 1.9 min. 3.5 min. 7.1 min. 0.4 min. 0.9 min.
Absorption time ms 20 ms max. 60 ms max. 20 ms max. 20 ms max.
Release time ms 40 ms max. 20 ms max. 20 ms max. 40 ms max.
Backlash --- 1° max. 1° max.
Rating --- Continuous Continuous
Insulation --- Type F Type F
Item 100 W to 1.5 kW
Ambient temperature Operating: 0 to +40°C, Storage: –20 to +60°C
Ambient humidity (with no condensation) Operating: 20% to 80%, Storage: 20% to 80%
Atmosphere No corrosive gases
Vibration resistance 49 m/s2
Shock resistance 490 m/s2 (twice in vertical direction)
Insulation resistance 10 MΩ min. at 500 VDC
Dielectric strength 1,500 VAC for 1 min
Operating position Any direction
Insulation class Type B
Construction Totally-enclosed self-cooling
Enclosure rating IP55 (See note.) or IP67
Vibration class V-15
EC directives EMC directive EN55011 class A group1
EN61000-6-2
Low-voltage directive IEC60034-1, 5, 8, 9; EN60034-1, 9
UL standards UL1004
cUL standards cUL C22.2 No.100
25
Servomotor Specifications
■Torque and Rotation Speed Characteristics
Flat-style Motors with 200-VAC Power Supply
The following graphs show characteristics with a standard 3-m cable and 200-VAC input.
Flat-style Motors with 100-VAC Power Supply
The following graphs show characteristics with a standard 3-m cable and 100-VAC input.
R88M-WP10030H (100 W)
R88M-WP10030T (100 W)
R88M-WP20030H (200 W)
R88M-WP20030T (200 W)
R88M-WP40030H (400 W)
R88M-WP40030T (400 W)
R88M-WP75030H (750 W)
R88M-WP75030T (750 W) R88M-WP1K530H (1.5 kW)
R88M-WP1K530T (1.5 kW)
5,0001,000 2,000 3,000 4,000
0.318
0.19
0
0.2
0.6
1.0 0.955
0.318
(N·m)
0.8
0.4
0.955
(4,500)
0.81
5,0001,000 2,000 3,000 4,000
0.637
1.91
0.39
0
1.0
2.0 1.91
0.637
(N·m)
1.5
0.5
5,0001,000 2,000 3,000 4,000
1.27
1.82
0.76
0
2.0
4.0 3.82
1.27
(N·m)
3.0
1.0
3.82
(3,300)
5,0001,000 2,000 3,000 4,000
2.39
1.2
0
4.0
8.0 7.16
2.39
(N·m)
6.0
2.0
7.16
(3,350)
1.6
(4,890) 4.77
2.4
0
5
10
15 14.3
4.77
(N·m)
14.3
(3,400)
5,0001,000 2,000 3,000 4,000
3.0
(4,900)
Repetitive usage
Continuous usage
(r/min) (r/min) (r/min)
(r/min) (r/min)
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
Repetitive usage
Continuous usage
R88M-WP10030L (100 W)
R88M-WP10030S (100 W) R88M-WP20030L (200 W)
R88M-WP20030S (200 W)
5,0001,000 2,000 3,000 4,000
0.318
0.19
0
0.2
0.6
1.0 0.955
0.318
(N·m)
0.8
0.4
0.955
(4,500)
0.81
5,0001,000 2,000 3,000 4,000
0.637
0.39
0
1.0
2.0 1.91
0.637
(N·m)
1.5
0.5
1.91
(3,000)
0.83
Repetitive usage
Continuous usage
(r/min) (r/min)
Repetitive usage
Continuous usage
26
Servodriver Specifications
Servodriver Specifications
■Performance Specifications
Servodrivers
Note: 1. Applicable rotor inertia differs according to the motor. Refer to the motor specifications.
2. Input power supply specification when using the R88D-WT08H at single-phase 200 V: single-phase 200 to 230 VAC, +10% to –15%, 50/
60 Hz.
Item 200 VAC
Servomotor
(R88M-)
WTA3H WTA5H WT01H WT02H WT04H WT05H WT08H WT10H WT15H WT20H WT30H WT50H WT60H WT75H WT150H
Maximum servomotor output 30 W 50 W 100 W 200 W 400 W 500 W 750 W 1 kW 1.5 kW 2 kW 3 kW 5 kW 5.5 kW 7.5 kW 15 kW
Continuous output current (rms) 0.44 A 0.64 A 0.91 A 2.1 A 2.8 A 3.8 A 5.7 A 7.6 A 11.6 A 18.5 A 24.8 A 32.9 A 46.9 A 54.7 A 78 A
Momentary maximum output current
(rms)
1.3 A 2.0 A 2.8 A 6.5 A 8.5 A 11.0 A 13.9 A 17 A 28 A 42 A 56 A 84 A 110 A 130 A 170 A
Weight 0.8 kg 1.1 kg 1.7 kg 2.8 kg 3.8 kg 5.5 kg 15 kg 26 kg
Input power supply Main circuits Single-phase 200 to 230 VAC,
+10% to –15%, 50/60 Hz
Three-phase 200 to 230 VAC,
+10% to –15%, 50/60 Hz (See
note 2.)
Three-phase 200 to 230 VAC, +10% to –15%, 50/60 Hz
Control
circuits
Single-phase 200 to 230 VAC, +10% to –15%, 50/60 Hz
Control method All-digital servo
Seed feedback Serial encoder, 13/16/17 bits (incremental and absolute encoders)
Capacity Ana-
log in-
puts
Speed control range 1:5,000
Load fluctuation rate ±0.01% max. at 0% to 100% (at rated rotation speed)
Voltage fluctuation
rate
0% at rated voltage ±10% (at rated rotation speed)
Temperature fluctua-
tion rate
±0.1% max. at 25 ± 25°C (at rated rotation speed)
Frequency character-
istics
400 Hz (at the same load as the rotor inertia)
Torque control repeat-
ability
±2%
Acceleration time set-
ting
0 to 10 s (acceleration and deceleration set separately)
Pulse
train
inputs
Maximum response
pulse frequency
Line driver input: 500 Kpps
Open collector input: 200 Kpps
Positioning range 0 to 250 (command unit)
Feed-forward compen-
sation
0% to 100%
Bias setting 0 to 450 r/min
Input signals Position command
pulse
Feed pulse, forward/reverse signal, forward pulse, reverse pulse, 90° phase difference (phases A/B) signal
Speed command volt-
age
±2 to 10 VDC / rated rotation speed (motor forward rotation by +voltage)
Mechanical impedance: Approx. 14 kΩ; circuit time constant: Approx. 47 µs
Torque command volt-
age
±1 to 10 VDC / rated torque (motor forward torque by +voltage)
Mechanical impedance: Approx. 14 kΩ; circuit time constant: Approx. 47 µs
Sequence input Run command, gain deceleration, position lock command, control mode switch, gain switch, direction command, pulse pro-
hibit, forward/reverse current limit, speed selection command, forward/reverse drive prohibit, alarm reset
Output signals Position feedback out-
put
Phase A, phase B, phase Z, absolute phase (for absolute encoders only): Line driver output
Speed monitor output 1 V/1,000 r/min
Current monitor output 1 V/rated torque
Sequence output Servo alarm, alarm code (3-bit output): CN1 output terminal fixed, speed conformity, positioning completion 1, motor rotation
detection, servo ready, current limit detection, brake interlock, warning, positioning completion 2, speed limit detection
Dynamic brake stopping Operates when the power supply turns off, a servo alarm is generated, an overrun occurs, or the servo turns off.
Other protective functions Parameter destruction, main circuit detector error, parameter setting error, motor mismatch, overcurrent, regenerative error,
regenerative overload, overvoltage, undervoltage, overspeeding, overload, dynamic brake overload, inrush resistance over-
load, heating plate overheating, backup error (absolute), checksum error (absolute), battery error (absolute), absolute error
(absolute), overspeed error (absolute), encoder overheating, speed command input read error, torque command input read
error, system error, overrun detection, excessive rotation data error (absolute), encoder communications error, encoder pa-
rameter error, encoder data error, multiple rotation limit mismatch (absolute), error counter count-up, phase-failure detec-
tion, Parameter Unit transmission error
27
Servodriver Specifications
Servodrivers
Note: Applicable rotor inertia differs according to the motor. Refer to the motor specifications.
Item 100 VAC
Servomotor
(R88M-)
WTA3HL WTA5HL WT01HL WT02HL
Maximum servomotor output 30 W 50 W 100 W 200 W
Continuous output current (rms) 0.66 A 0.95 A 2.4 A 3.0 A
Momentary maximum output current (rms) 2.0 A 2.9 A 7.2 A 9.0 A
Weight 0.8 kg 1.1 kg
Input power supply Main circuits Single-phase 100 to 115 VAC, +10% to –15%, 50/60 Hz
Control circuits Single-phase 100 to 115 VAC, +10% to –15%, 50/60 Hz
Control method All-digital servo
Seed feedback Serial encoder, 13/16/17 bits (incremental and absolute encoders)
Capacity Analog
inputs
Speed control range 1:5000
Load fluctuation rate ±0.01% max. at 0% to 100% (at rated rotation speed)
Voltage fluctuation rate 0% at rated voltage ±10% (at rated rotation speed)
Temperature fluctuation rate ±0.1% max. at 25 ± 25°C (at rated rotation speed)
Frequency characteristics 400 Hz (at the same load as the rotor inertia)
Torque control repeatability ±2%
Acceleration time setting 0 to 10 s (acceleration and deceleration set separately)
Pulse
train in-
puts
Maximum response pulse fre-
quency
Line driver input: 500 Kpps
Open collector input: 200 Kpps
Positioning range 0 to 250 (command unit)
Feed-forward compensation 0% to 100%
Bias setting 0 to 450 r/min
Input signals Position command pulse Feed pulse, forward/reverse signal, forward pulse, reverse pulse, 90° phase difference
(phases A/B) signal
Speed command voltage ±2 to 10 VDC / rated rotation speed (motor forward rotation by +voltage)
Mechanical impedance: Approx. 14 kΩ; circuit time constant: Approx. 47 µs
Torque command voltage ±1 to 10 VDC / rated torque (motor forward torque by +voltage)
Mechanical impedance: Approx. 14 kΩ; circuit time constant: Approx. 47 µs
Sequence input Run command, gain deceleration, position lock command, control mode switch, gain
switch, direction command, pulse prohibit, forward/reverse current limit, speed selection
command, forward/reverse drive prohibit, alarm reset
Output signals Position feedback output Phase A, phase B, phase Z, absolute phase (for absolute encoders only): Line driver out-
put
Speed monitor output 1 V/1000 r/min
Current monitor output 1 V/rated torque
Sequence output Servo alarm, alarm code (3-bit output): CN1 output terminal fixed, speed conformity, posi-
tioning completion 1, motor rotation detection, servo ready, current limit detection, brake
interlock, warning, positioning completion 2, speed limit detection
Dynamic brake stopping Operates when the power supply turns OFF, a servo alarm is generated, an overrun oc-
curs, or the servo turns OFF.
Other protective functions Parameter destruction, main circuit detector error, parameter setting error, motor mis-
match, overcurrent, regenerative error, regenerative overload, overvoltage, undervoltage,
overspeeding, overload, dynamic brake overload, inrush resistance overload, heating
plate overheating, backup error (absolute), checksum error (absolute), battery error (ab-
solute), absolute error (absolute), overspeed error (absolute), encoder overheating, speed
command input read error, torque command input read error, system error, overrun detec-
tion, excessive rotation data error (absolute), encoder communications error, encoder pa-
rameter error, encoder data error, multiple rotation limit mismatch (absolute), error counter
count-up, phase-failure detection, Parameter Unit transmission error
28
Servodriver Specifications
■General Specifications
Item Specifications
Ambient temperature Operating: 0 to +55°C
Storage: –20 to +85°C
Ambient humidity (with no condensation) Operating: 20 to 90% max.
Storage: 20 to 90% max.
Atmosphere No corrosive gases
Vibration resistance 4.9 m/s2
Shock resistance 19.6 m/s2
(3 times each in X, Y, and Z directions)
Insulation resistance 1 MΩ min. at 500 VDC
Dielectric strength 1,500 VAC for 1 min
Protective structure Built into control panel (IP10)
Vibration class V-15
EC directives EMC directive EN55011
EN61000-6-2
Low-voltage directive EN50178
UL standards UL508C
cUL standards cUL C22.2 No. 14
29
External Dimensions
External Dimensions
■AC Servomotors
Cylinder-style Motors without Brakes (3,000 r/min)
200 VAC: 30 W/50 W/100 W
R88M-W03030H (-S1)/W05030H (-S1)/W10030H (-S1)
R88M-W03030T (-S1)/W05030T (-S1)/W10030T (-S1)
100 VAC: 30 W/50 W/100 W
R88M-W03030L (-S1)/W05030L (-S1)/W10030L (-S1)
R88M-W03030S (-S1)/W05030S (-S1)/W10030S (-S1)
* These dimensions are applicable to R88M-W@-S1 with key.
Dimensions (mm) LL LR Flange surface Shaft end
Model C D1 D2 F G Z S QK* b* h* t1*
R88M-W03030@ (-S1) 69.5 25 40 46 30h7 2.5 5 Two,
4.3 dia.
6h6 14221.2
R88M-W05030@ (-S1) 77
R88M-W10030@ (-S1) 94.5 8h6 331.8
Z
LL LR
CGF
300±30
300±30
C
QK*
h*
t1*
b*
6 dia. 7 dia.
9.5
19.5 20
11
21.5 5
*Shaft end
D1 dia.
S dia.
D2 dia.
30
External Dimensions
Cylinder-style Motors with Brakes (3,000 r/min)
200 VAC: 30 W/50 W/100 W
R88M-W03030H-B (S1)/W05030H-B (S1)/W10030H-B (S1)
R88M-W03030T-B (S1)/W05030T-B (S1)/W10030T-B (S1)
100 VAC: 30 W/50 W/100 W
R88M-W03030L-B (S1)/W05030L-B (S1)/W10030L-B (S1)
R88M-W03030S-B (S1)/W05030S-B (S1)/W10030S-B (S1)
* These dimensions are applicable to R88M-W@-BS1 with key.
Dimensions (mm) LL LR Flange surface Shaft end
Model C D1 D2 F G Z S QK* b* h* t1*
R88M-W03030@-B (S1) 101 25 40 46 30h7 2.5 5 Two,
4.3 dia.
6h6 14221.2
R88M-W05030@-B (S1) 108.5
R88M-W10030@-B (S1) 135 8h6 331.8
QK*
h*
t1*
b*
Z
LL LR
CGF
300±30
300±30
C
9.5
19.5 27
11
21.5 5
*Shaft end
D1 dia.
S dia.
D2 dia.
6 dia. 7 dia.
31
External Dimensions
Cylinder-style Motors without Brakes (3,000 r/min)
200 VAC: 200 W/400 W/750 W
R88M-W20030H (-S1)/W40030H (-S1)/W75030H (-S1)
R88M-W20030T (-S1)/W40030T (-S1)/W75030T (-S1)
100 VAC: 200 W
R88M-W20030L (-S1)
R88M-W20030S (-S1)
* These dimensions are applicable to R88M-W@-S1 with key.
Dimensions (mm) LL LR Flange surface Shaft end
Model C D1 D2 F G Z S QK* b* h* t1*
R88M-W20030@ (-S1) 96.5 30 60 70 50h7 36Four,
5.5 dia.
14h6 20553
R88M-W40030@ (-S1) 124.5
R88M-W75030@ (-S1) 145 40 80 90 70h7 38Four,
7dia.
16h6 30
6 dia.
7 dia.
300±30
300±30
LL LR
G3
C
C
20
11
13
9
21.5
QK*
2
5
5
3
20
*Shaft end
D1 dia.
S dia.
D2 dia.
Output section
dimensions for
750-W Servomotors
Four, Z dia.
32
External Dimensions
Cylinder-style Motors with Brakes (3,000 r/min)
200 VAC: 200 W/400 W/750 W
R88M-W20030H-B (S1)/W40030H-B (S1)/W75030H-B (S1)
R88M-W20030T-B (S1)/W40030T-B (S1)/W75030T-B(S1)
100 VAC: 200 W
R88M-W20030L-B (S1)
R88M-W20030S-B (S1)
* These dimensions are applicable to R88M-W@-BS1 with key.
Dimensions (mm) LL LR Flange surface Shaft end
Model C D1 D2 F G Z S QK* b* h* t1*
R88M-W20030@-B (S1) 136 30 60 70 50h7 36Four,
5.5 dia.
14h6 20553
R88M-W40030@-B (S1) 164
R88M-W75030@-B (S1) 189.5 40 80 90 70h7 38Four,
7dia.
16h6 30
6 dia. 7 dia.
300±30
300±30
LL LR
G3
C
C
21.5
9
13 27
11
QK*
2
5
5
3
20
*Shaft end
D1 dia.
S dia.
D2 dia.
Output section
dimensions for
750-W Servomotors
Four, Z dia.
33
External Dimensions
Cylinder-style Motors without Brakes (3,000 r/min)
200 VAC: 1 kW/1.5 kW/2 kW/3 kW/4 kW/5 kW
R88M-W1K030H (-S2)/W1K530H (-S2)/W2K030H (-S2)/W3K030H (-S2)/W4K030H (-S2)/W5K030H (-S2)
R88M-W1K030T (-S2)/W1K530T (-S2)/W2K030T (-S2)/W3K030T (-S2)/W4K030T (-S2)/W5K030T (-S2)
* These dimensions are applicable to R88M-W@-S2 with key and tap.
Cylinder-style Motors with Brakes (3,000 r/min)
200 VAC: 1 kW/1.5 kW/2 kW/3 kW/4 kW/5 kW
R88M-W1K030H-B (S2)/W1K530H-B (S2)/W2K030H-B (S2)/W3K030H-B (S2)/W4K030H-B (S2)/W5K030H-B (S2)
R88M-W1K030T-B (S2)/W1K530T-B (S2)/W2K030T-B (S2)/W3K030T-B (S2)/W4K030T-B (S2)/W5K030T-B (S2)
* These dimensions are applicable to R88M-W@-BS2 with key and tap.
Dimensions (mm) LL LR KB1 KB2 KL1 KL2 Flange surface Shaft end
Model C D1 D2 D3 F G Z S QK*
R88M-W1K030@ (-S2) 149 45 76 128 96 88 100 115 95h7 130 3 10 7 24h6 32
R88M-W1K530@ (-S2) 175 102 154
R88M-W2K030@ (-S2) 198 125 177
R88M-W3K030@ (-S2) 199 63 124 178 114 88 130 145 110h7 165 6 12 9 28h6 50
R88M-W4K030@ (-S2) 236 161 215
R88M-W5K030@ (-S2) 276 201 255
KL1
KL2
KB1
KB2
LL LR
G F
30
C
C
2
QK*
8
7
4
*Shaft end
Four, Z dia.
Mounting hole
M8 effective depth 16
D1 dia.
D3 dia.
S dia.
D2 dia.
Dimensions (mm) LL LR KB1 KB2 KL1 KL2 Flange surface Shaft end
Model C D1 D2 D3 F G Z S QK*
R88M-W1K030@-B (S2) 193 45 67 171 102 88 100 115 95h7 130 3 10 7 24h6 32
R88M-W1K530@-B (S2) 219 93 197
R88M-W2K030@-B (S2) 242 116 220
R88M-W3K030@-B (S2) 237 63 114 216 119 88 130 145 110h7 165 6 12 9 28h6 50
R88M-W4K030@-B (S2) 274 151 253
R88M-W5K030@-B (S2) 314 191 293
KL1
KL2
KB1
KB2
LL LR
GF
30
C
C
2
QK*
8
7
4
*Shaft end
M8 effective depth 16
Four, Z dia.
Mounting hole
D1 dia.
S dia.
D2 dia.
D3 dia.
34
External Dimensions
Cylinder-style Motors without Brakes (1,500 r/min)
200 VAC: 450 W/850 W/1.3 kW/1.8 kW/2.9 kW/4.4 kW
R88M-W45015T (-S2)/W85015T (-S2)/W1K315T (-S2)/W1K815T (-S2)/W2K915T (-S2)/W4K415T (-S2)
* These dimensions are applicable to R88M-W@-S2 with key and tap.
Cylinder-style Motors with Brakes (1,500 r/min)
200 VAC: 450 W/850 W/1.3 kW/1.8 kW/2.9 kW/4.4 kW
R88M-W45015T-B (S2)/W85015T-B (S2)/W1K315T-B (S2)/W1K815T-B (S2)/W2K915T-B (S2)/W4K415T-B (S2)
* These dimensions are applicable to R88M-W@-BS2 with key and tap.
Dimensions (mm) LL LR KB1 KB2 KL1 KL2 Flange surface Shaft end
Model C D1 D2 D3 F G Z S QK* b* h* t1* M l
R88M-W45015T (-S2) 138 58 65 117 109 88 130 145 110h7 165 6 12 9 19h6 25553M512
R88M-W85015T (-S2) 161 88 140
R88M-W1K315T (-S2) 185 112 164 22h6 663.5
R88M-W1K815T (-S2) 166 79 89 144 140 88 180 200 230 3.2 18 13.5 60 10 8 5 M12 25
R88M-W2K915T (-S2) 192 115 170
R88M-W4K415T (-S2) 226 149 204
KL1
KL2
KB1
KB2
LL LR
G F
C
C
QK*
b*
h*
t1*
12
*Shaft end
Four, Z dia.
Mounting hole
M effective depth
l
D3 dia.
S dia.
D2 dia.
D1 dia.
30 dia.
Output section
dimensions for
450-W to 1.3-kW
Servomotors
114.3
0
−0.025 35 +0.01
0
Dimensions (mm) LL LR KB1 KB2 KL1 KL2 Flange surface Shaft end
Model C D1 D2 D3 F G Z S QK* b* h* t1* M l
R88M-W45015T-B (-S2) 176 58 56 154 120 88 130 145 110h7 165 6 12 9 19h6 25 5 5 3 M5 12
R88M-W85015T-B (-S2) 199 79 177
R88M-W1K315T-B (-S2) 223 103 201 22h6 663.5
R88M-W1K815T-B (-S2) 217 79 79 195 146 88 180 200 230 3.2 18 13.5 60 10 8 5 M12 25
R88M-W2K915T-B (-S2) 243 105 221
R88M-W4K415T-B (-S2) 277 139 255
KL1
KL2
KB1
KB2
LL LR
GF
C
C
12
QK*
b*
h*
t1*
Four, Z dia.
Mounting hole
M effective depth l
D3 dia.
S dia.
D2 dia.
D1 dia.
30 dia.
*Shaft end
Output section
dimensions for
450-W to 1.3-kW
Servomotors
114.3
0
−0.025 35 +0.01
0
35
External Dimensions
Cylinder-style Motors without Brakes (1,500 r/min)
200 VAC: 5.5 kW/7.5 kW/11 kW/15 kW
R88M-W5K515T (-S2)/W7K515T (-S2)/W11K015T (-S2)/W15K015T (-S2)
* These dimensions are applicable to R88M-W@-S2 with key and tap.
Dimensions (mm) LL LR KB1 KB2 KL1 IE Flange surface Shaft end
Model C D1 D2 D3 F G Z S S1 QK* b* h* t1* M l
R88M-W5K515T (-S2) 260 113 174 238 150 123 180 200 230 3.2 18 13.5 42h6 --- 90 12 8 5 M16 32
R88M-W7K515T (-S2) 334 248 312
R88M-W11K015T (-S2) 338 116 251 317 168 142 220 235 200h7 270 4 45
R88M-W15K015T (-S2) 457 343 435 150 20 65 16 10 6 M20 40
LL LR
GF
KB1
KB2
2
KL1
88
C
C
IE
Output section dimensions for
11-kW and 15-kW Servomotors
QK*
b*
h*
t1*
Four, Z dia.
Mounting hole
M* effective depth
l
D3 dia.
S dia.
D2 dia.
D1 dia.
S1 dia.
*Shaft end
114.3
0
−0.025
55
+0.030
+0.011
36
External Dimensions
Cylinder-style Motors with Brakes (1,500 r/min)
200 VAC: 5.5 kW/7.5 kW/11 kW/15 kW
R88M-W5K515T-B (-S2)/W7K515T-B (-S2)/W11K015T-B (-S2)/W15K015T-B (-S2)
* These dimensions are applicable to R88M-W@-BS2 with key and tap.
Dimensions (mm) LL LR KB1 KB2 KB3 KL1 KL3 IE Flange surface Shaft end
Model C D1 D2 D3 F G Z S S1 QK* b* h* t1* M l
R88M-W5K515T-B (-S2) 311 113 174 289 231 150 123 123 180 200 230 3.2 18 13.5 42h6 --- 90 12 8 5 M16 32
R88M-W7K515T-B (-S2) 385 248 363 305
R88M-W11K015T-B (-S2) 383 116 258 362 315 168 142 142 220 235 200h7 270 4 45
R88M-W15K015T-B (-S2) 519 343 497 415 150 20 65 16 10 6 M20 40
C
C
LL LR
GF
KL1
88
KL3
KB1
KB3
KB2
IE
2
Output section dimensions for
11-kW and 15-kW Servomotors
QK*
b*
h*
t1*
Four, Z dia.
Mounting hole
M* effective depth
l
D3 dia.
S dia.
D2 dia.
D1 dia.
S1 dia.
*Shaft end
114.3
0
−0.025
55
+0.030
+0.011
37
External Dimensions
Cylinder-style Motors without Brakes (1,000 r/min)
200 VAC: 300 W/600 W/900 W/1.2 kW/2 kW/3 kW
R88M-W30010H (-S2)/W60010H (-S2)/W90010H (-S2)/W1K210H (-S2)/W2K010H (-S2)/W3K010H (-S2)
R88M-W30010T (-S2)/W60010T (-S2)/W90010T (-S2)/W1K210T (-S2)/W2K010T (-S2)/W3K010T (-S2)
* These dimensions are applicable to R88M-W@-S2 with key and tap.
Cylinder-style Motors with Brakes (1,000 r/min)
200 VAC: 300 W/600 W/900 W/1.2 kW/2 kW/3 kW
R88M-W30010H-B (S2)/W60010H-B (S2)/W90010H-B (S2)/W1K210H-B (S2)/W2K010H-B (S2)/W3K010H-B (S2)
R88M-W30010T-B (S2)/W60010T-B (S2)/W90010T-B (S2)/W1K210T-B (S2)/W2K010T-B (S2)/W3K010T-B (S2)
* These dimensions are applicable to R88M-W@-BS2 with key and tap.
Dimensions (mm) LL LR KB1 KB2 KL1 KL2 Flange surface Shaft end
Model C D1 D2 D3 F G Z S QK* b* h* t1* M l
R88M-W30010@ (-S2) 138 58 65 117 109 88 130 145 110h7 165 6 12 9 19h6 25553M512
R88M-W60010@ (-S2) 161 88 140
R88M-W90010@ (-S2) 185 112 164 22h6 663.5
R88M-W1K210@ (-S2) 166 79 89 144 140 88 180 200 230 3.2 18 13.5 60 10 8 5 M12 25
R88M-W2K010@ (-S2) 192 115 170
R88M-W3K010@ (-S2) 226 149 204
KL1
KL2
KB1
KB2
LL LR
G F
C
C
QK*
b*
h*
t1*
12
30 dia.
*Shaft end
M effective depth l
Four, Z dia.
Mounting hole
D3 dia.
S dia.
D1 dia.
Output section
dimensions for
300-W to 900-W
Servomotors
D2 dia.
114.3 −0.025
035+0.01
0
Dimensions (mm) LL LR KB1 KB2 KL1 KL2 Flange surface Shaft end
Model C D1 D2 D3 F G Z S QK* b* h* t1* M l
R88M-W30010@-B (S2) 176 58 56 154 120 88 130 145 110h7 165 6 12 9 19h6 25553M512
R88M-W60010@-B (S2) 199 79 177
R88M-W90010@-B (S2) 223 103 201 22h6 663.5
R88M-W1K210@-B (S2) 217 79 79 195 146 88 180 200 230 3.2 18 13.5 60 10 8 5 M12 25
R88M-W2K010@-B (S2) 243 105 221
R88M-W3K010@-B (S2) 277 139 255
KL1
KL2
KB1
KB2
LL LR
GF
C
C
QK*
b*
h*
t1*
12
30 dia.
*Shaft end
M effective depth l
Four, Z dia.
Mounting hole
D3 dia.
S dia.
D1 dia.
Output section
dimensions for
300-W to 900-W
Servomotors
D2 dia.
114.3 −0.025
035 +0.01
0
38
External Dimensions
Cylinder-style Motors without Brakes (1,000 r/min)
200 VAC: 4 kW/5.5 kW
R88M-W4K010H (-S2)/W5K510H (-S2)
R88M-W4K010T (-S2)/W5K510T (-S2)
Dimensions (mm) LL KB1 KB2
Model
R88M-W4K010@ (-S2) 260 174 238
R88M-W5K010@ (-S2) 334 248 312
LL 113
18 3.2
42h6 dia.
114.3 dia.
KB1
KB2
150
88
0
−0.025
180
180
230 dia.
200 dia.
90
12
8
5
123
M16 effective depth 32
*Shaft end
Four, 13.5 dia.
39
External Dimensions
Cylinder-style Motors with Brakes (1,000 r/min)
200 VAC: 4 kW/5.5 kW
R88M-W4K010H-B (S2)/W5K510H-B (S2)
R88M-W4K010T-B (S2)/W5K510T-B (S2)
Dimensions (mm) LL KB1 KB2 KB3
Model
R88M-W4K010@-B (S2) 311 174 289 231
R88M-W5K510@-B (S2) 385 248 363 305
90
12
8
5
180
180
230 dia.
200 dia.
42h6 dia.
0
−0.025
LL 113
18 3.2
150
88
123
KB1
KB3
KB2
123
*Shaft end M16 effective depth 32
114.3 dia.
Four, 13.5 dia.
40
External Dimensions
Flat-style Motors without Brakes
200 VAC: 100 W/200 W/400 W/750 W/1.5 kW
R88M-WP10030H (-S1)/WP20030H (-S1)/WP40030H (-S1)/WP75030H (-S1)/WP1K530H (-S1)
R88M-WP10030T (-S1)/WP20030T (-S1)/WP40030T (-S1)/WP75030T (-S1)/WP1K530T (-S1)
100 VAC: 100 W/200 W
R88M-WP10030L (-S1)/WP20030L (-S1)
R88M-WP10030S (-S1)/WP20030S (-S1)
* These dimensions are applicable to R88M-W@-S1 with key.
Dimensions
(mm)
LL LR Flange surface Shaft end Cable pull-out section
Model C D1 D2 F G Z S QK* b* h* t1* A1 A2 A3 A4 A5
R88M-WP10030@ (-S1) 62 25 60 70 50h7 365.5
8h6 14 3 3 1.89 18252114
R88M-WP20030@ (-S1) 67 30 80 90 70h7 38714h6 16553
R88M-WP40030@ (-S1) 87
R88M-WP75030@ (-S1) 86.5 40 120 145 110h7 3.5 10 10 16h6 22 28 38 19
R88M-WP1K530@ (-S1) 114.5 19h6 663.5
G F
LL LR
C
C
300±30
300±30
QK*
h*
t1*
b*
7 dia.
A1
A2
13
A5
A3
A4
6 dia.
*Shaft end
Four, Z dia.
D1 dia.
S dia.
D2 dia.
41
External Dimensions
Flat-style Motors with Brakes
200 VAC: 100 W/200 W/400 W/750 W/1.5 kW
R88M-WP10030H-B (S1)/WP20030H-B (S1)/WP40030H-B (S1)/WP75030H-B (S1)/WP1K530H-B (S1)
R88M-WP10030T-B (S1)/WP20030T-B (S1)/WP40030T-B (S1)/WP75030T-B (S1)/WP1K530T-B (S1)
100 VAC: 100 W/200 W
R88M-WP10030L-B (S1)/WP20030L-B (S1)
R88M-WP10030S-B (S1)/WP20030S-B (S1)
* These dimensions are applicable to R88M-W@-BS1 with key.
Dimensions
(mm)
LL LR Flange surface Shaft end Cable pull-out section
Model C D1 D2 F G Z S QK* b* h* t1* A1 A2 A3 A4 A5
R88M-WP10030@-B (S1) 91 25 60 70 50h7 365.5
8h6 143 3 1.89 18252123
R88M-WP20030@-B (S1) 98.5 30 80 90 70h7 38714h6 16553
R88M-WP40030@-B (S1) 118.5
R88M-WP75030@-B (S1) 120 40 120 145 110h7 3.5 10 10 16h6 22 28 38 26
R88M-WP1K530@-B (S1) 148 19h6 663.5
G F
LL LR
300±30
300±30
C
C
QK*
h*
t1*
b*
6 dia.
7 dia.
A3
A4
A1
13
A2
A5
*Shaft end
Four, Z dia.
D1 dia.
S dia.
D2 dia.
42
External Dimensions
■AC Servodrivers
200 VAC: 30 W/50 W/100 W/200 W
R88D-WTA3H/WTA5H/WT01H/WT02H
100 VAC: 30 W/50 W/100 W
R88D-WTA3HL/WTA5HL/WT01HL
200 VAC: 400 W
R88D-WT04H
100 VAC: 200 W
R88D-WT02HL
200 VAC: 500 W/750 W/1 kW
R88D-WT05H/WT08H/WT10H
106
39
55 8
(75) 130
160 149.5±
0.5
160
(5) 5
55
5.5
Mounting hole dimensions
Two, M 4
75
8
5
(75) 130
(5)
149.5160
5.5
12 (63)
106
39
149.5±
0.5
160
(5) 12
75
5.5
Mounting hole dimensions
5 dia. hole Two, M 4
149.5±
0.5
160
(5) 27
90
5.5
106
39
160
35 (55)
90
8
180(75)
Mounting hole dimensions
5 dia. hole Tw o, M 4
43
External Dimensions
200 VAC: 1.5 kW
R88D-WT15H
200 VAC: 2 kW/3 kW
R88D-WT20H/WT30H
200 VAC: 5 kW
R88D-WT50H
39
160 160
5.5
(5)
(5)
106
110
58
180
4
(75)
149.5±
0.5
100±
0.5
110
(5)
Mounting hole dimensions
Two, 5 dia. holes Four, M4
250 238.5
(5.5) 6
100
110
(5)(5)
6
39
196
8
250
238.5±0.5
(5.5)
100±0.5
110
(5)(5)
180(75)
4
6
Mounting hole dimensions
Two, 6 dia. holes Four, M5
8
39
196
250 238.5
(5.5)
125(5)
5.7
135
6
1.6 (5.5) (5)
(5)
125±0.5
135
238.5±0.5
250
6
230(75)
Mounting hole dimensions
Two, 5.7 dia. holes Four, M5
44
External Dimensions
200 VAC: 6 kW/7.5 kW
R88D-WT60H/WT75H
180
25 (25)
180±0.5
25
7.5 (25)
335±0.5
350
7.5
8
282.6
25 9
100.5
110 7.5
335
125
7.5
123.4 (65.6)41
7
10
21
196.7
211
106.887.7
27
39
Mounting hole dimensions
Four, M6
230 max.
235 max.
350 max.
Two, 7 dia. holes
230 max.
45
External Dimensions
200 VAC: 15 kW
R88D-WT150H
(30)(30)
285
433
142103
30
7
(30)200
320
260
248
39
435
140
8
450
(7.5)
10
7245
(7.5)
7.5
435±0.5
450
200±0.5
260
7.5 26
12.5
151.5
293.5
142
Mounting hole dimensions
Four, M6
Two, 7 dia. holes
46
Cable Specifications
Cable Specifications
■Power Cables
1
2
3
4
5
6
7
88
9
10
11
12
OMNUC
W-series
Servodriver
Battery for absolute
encoder
Analog Monitor
Parameter Unit Computer with Windows
monitoring software
Motion Control
Unit
Servo
Relay Unit
Position
Control Unit
Relay
Terminal Block
OMNUC W-series
Servomotor
Symbol Description Connect to: Model Remarks
1 Power Cables for Ser-
vomotors without
Brakes
Cylinder-style Servomotors
(3,000 r/min): 30 to 750 W
Flat-style Servomotors
(3,000 r/min):
100 to 750 W
R88A-CAWA@@@S
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by AMP Ja-
pan, Ltd.)
Connector cap: 350780-1
Connector socket: 350689-3
Flat-style Servomotors
(3,000 r/min): 1.5 kW
R88A-CAWB@@@S
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by AMP Ja-
pan, Ltd.)
Connector cap: 350780-1
Connector socket: 350551-6 (pins 1 to 3)
350551-3 (pin 4)
Cylinder-style Servomotors
(3,000 r/min):
1 to 2 kW
Cylinder-style Servomotors
(1,500 r/min):
450 W to 1.3 kW
Cylinder-style Servomotors
(1,000 r/min): 300 to 900 W
R88A-CAWC@@@S
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by
Daiichi Denshi Kogyo Co., Ltd.)
Connector cap: MS3106B18-10S
Cable clamp: MS3057-10A
Cylinder-style Servomotors
(3,000 r/min):
3 to 5 kW
Cylinder-style Servomotors
(1,500 r/min):
1.8 to 4.4 kW
Cylinder-style Servomotors
(1,000 r/min): 1.2 to 3 kW
R88A-CAWD@@@S
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by
Daiichi Denshi Kogyo Co., Ltd.)
Connector cap: MS3106B22-22S
Cable clamp: MS3057-12A
47
Cable Specifications
Note: Power connectors and brake connectors are separate for Servomotors with a capacity of 4 kW min. (1,000 r/min) and 5.5 kW min.
(1,500 r/min). This means that two cables are necessary when using Servomotors with Brakes: an R88A-CAWE@@@S or R88A-
CAWF@@@S Power Connector and an R88A-CAWF@@@B Brake Connector. The R88A-CAWF@@@B Brake Connector is wired (2 con-
ductors) only for braking.
1Power Ca-
bles for
Servomo-
tors without
Brakes,
and Servo-
motors with
Brakes
(See note.)
Power
connec-
tors
(See
note.)
Cylinder-style Servomotors
(1,000 r/min): 4 kW
R88A-CAWE@@@S
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by
Daiichi Denshi Kogyo Co., Ltd.)
Connector cap: MS3106B32-17S
Cable clamp: MS3057-20A
Cylinder-style Servomotors
(1,500 r/min): 5.5 to 11 kW
Cylinder-style Servomotors
(1,000 r/min): 5.5 kW
R88A-CAWF@@@S
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by
Daiichi Denshi Kogyo Co., Ltd.)
Connector cap: MS3106B32-17S
Cable clamp: MS3057-20A
Brake con-
nectors
(See
note.)
Cylinder-style Servomotors
(1,500 r/min): 5.5 to 11 kW
Cylinder-style Servomotors
(1,000 r/min): 4 to 5.5 kW
Note: Must be used in
combination with an
R88A-CAWE@@@S
or R88A-
CAWF@@@S Power
Cable.
R88A-CAWE@@@B
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by
Daiichi Denshi Kogyo Co., Ltd.)
Connector cap: MS3106A10SL-3S
Cable clamp: MS3057-4A
Power Cables for Ser-
vomotors with Brakes
Cylinder-style Servomotors
(3,000 r/min): 30 to 750 W
Flat-style Servomotors
(3,000 r/min):
100 to 750 W
R88A-CAWA@@@B
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by AMP Ja-
pan, Ltd.)
Connector cap: 350781-1
Connector socket: 350689-3
Flat-style Servomotors
(3,000 r/min):
1.5 kW
R88A-CAWB@@@B
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by AMP Ja-
pan, Ltd.)
Connector cap: 350781-1
Connector socket: 350551-6 (pins 1 to 3)
350551-3 (pin 4)
Cylinder-style Servomotors
(3,000 r/min):
1 to 2 kW
Cylinder-style Servomotors
(1,500 r/min):
450 W to 1.3 kW
Cylinder-style Servomotors
(1,000 r/min): 300 to 900 W
R88A-CAWC@@@B
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by
Daiichi Denshi Kogyo Co., Ltd.)
Connector cap: MS3106B20-15S
Cable clamp: MS3057-12A
Cylinder-style Servomotors
(3,000 r/min):
3 to 5 kW
Cylinder-style Servomotors
(1,500 r/min):
1.8 to 4.4 kW
Cylinder-style Servomotors
(1,000 r/min): 1.2 to 3 kW
R88A-CAWD@@@B
@ represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end (manufactured by
Daiichi Denshi Kogyo Co., Ltd.)
Connector cap: MS3106B24-10S
Cable clamp: MS3057-16A
Symbol Description Connect to: Model Remarks
48
Cable Specifications
■Encoder Cables (for CN2)
■Control Cables (for CN1)
Symbol Description Connect to: Model Remarks
2 Encoder Cable Cylinder-style Servomo-
tors (3,000 r/min): 30 to
750 W
Flat-style Servomotors
(3,000 r/min):
100 W to 1.5 kW
R88A-CRWA@@@C
@represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end
(manufactured by MOLEX
JAPAN CO., Ltd.)
Connector socket: 54280-
0600
Connector on driver end
(manufactured by MOLEX
JAPAN CO., Ltd.)
Crimp terminal:
50639-8091
Connector plug: 55101-0600
Cylinder-style Servomo-
tors (3,000 r/min):
1 to 5 kW
Cylinder-style Servomo-
tors (1,500 r/min):
450 W to 15 kW
Cylinder-style Servomo-
tors (1,000 r/min): 300 W
to 5.5 kW
R88A-CRWB@@@N
@represents one of the fol-
lowing cable lengths:
3 m, 5 m, 10 m, 15 m, 20 m,
30 m, 40 m, 50 m
Connector on motor end
(manufactured by Daiichi
Denshi Kogyo Co., Ltd.)
Connector socket:
MS3106B20-29S
Cable clamp: MS3057-12A
Connector on driver end
(manufactured by MOLEX
JAPAN CO., Ltd.)
Crimp terminal:
50639-8091
Connector plug: 55101-0600
Symbol Description Connect to Model Remarks
3 Control Cable Motion Control Units (for all
SYSMAC CS1, C200H, and
CV PCs)
R88A-CPW@@@M◊
@represents one of the following
cable lengths:
1 m, 2 m, 3 m, 5 m
◊ represents the number of axes:
1: 1 axis
2: 2 axes
4 Servo Relay Unit 1-axis Position Control Unit XW2B-20J6-1B ---
2-axis Position Control Unit XW2B-40J6-2B
1-axis CJ1M XW2B-20J6-8A
2-axis CJ1M XW2B-40J6-9A
5 Servodriver Con-
necting Cable
XW2B-20J6-1B, XW2B-
40J6-2B, XW2B-20J6-3B,
XW2B-20J6-8A, or XW2B-
40J6-9A Servo Relay Unit
XW2Z-@@@J-B4
@ represents either of the follow-
ing cable lengths:
1 m, 2 m
XW2B-40J6-4A Servo Re-
lay Unit
XW2Z-@@@J-B8
@ represents either of the follow-
ing cable lengths:
1 m, 2 m
6 Position Control
Unit Connecting
Cable
CS1W-NC113 or C200HW-
NC113 Position Control Unit
XW2Z-@@@J-A6
@ represents either of the follow-
ing cable lengths:
50 cm, 1 m
CS1W-NC213/413 or
C200HW-NC213/413 Posi-
tion Control Unit
XW2Z-@@@J-A7
@ represents either of the follow-
ing cable lengths:
50 cm, 1 m
CJ1W-NC113 Position Con-
trol Unit
XW2Z-@@@J-A14
@ represents either of the follow-
ing cable lengths:
50 cm, 1m
CJ1W-NC213/413 Position
Control Unit
XW2Z-@@@J-A15
@ represents either of the follow-
ing cable lengths:
50 cm, 1m
CJ1M (CJ1M-CPU22/23) XW2Z-100J-A27
7 Control Cable General-purpose Controller R88A-CPW@@@S
@ represents either of the follow-
ing cable lengths:
1 m, 2 m
---
49
Cable Specifications
■CN3 Options
■Other Options
Note: For details, refer to Ordering Information on page 67.
8 Relay Terminal
Block Cable
General-purpose Controller R88A-CTW@@@N
@ represents either of the follow-
ing cable lengths:
1 m, 2 m
---
Relay Terminal
Block
XW2B-50G5
--- Control I/O Con-
nector CN1
--- R88A-CNU11C
Symbol Description Connect to Model Remarks
Symbol Description Connect to: Model
11 Parameter Unit with Ca-
ble (1 m)
--- R88A-PR02W
Parameter Unit Con-
necting Cable (2 m)
R88A-
PR02U/
PR02W
R88A-CCW002C
12 Computer Connecting
Cable (2 m)
IBM PC/AT or
compatibles
R88A-
CCW002P2
Symbol Description Connect to: Model
9 Backup Battery R88D-WT@H
(@: 50 or less)
R88A-BAT01W
R88D-WT60H/
75H/150H
R88A-BAT02W
10 Analog Monitor Cable
(1 m)
--- R88A-
CMW001S
--- Encoder Cable Con-
nector
Servodriver side R88A-CNW01R
Servomotor side R88A-CNW02R
50
Operation and Display
Operation and Display
■Operating Functions
■Changing Modes
To change modes, press the MODE/SET Key.
■Status Display Mode
■Unit Keys
■Mode Details
Symbol Status
bb Baseblock (motor OFF)
rUn Operating
p%t Forward rotation prohibited (forward overtravel)
n%t Reverse rotation prohibited (reverse overtravel)
a.02 Alarm display (refer to Alarm List on page 51)
Display Panel
Parameter Unit
R88A-PR02W Servodriver
R88D-WT@
Displays motor speed,
speed commands, torque
command motor values,
user parameter settings,
and Servodriver status.
Power ON
Status display mode
System check mode
Setting mode
Monitor mode
Baseblock
Alarm history display mode
Function selection switch
Speed feedback
(Display example)
Control-circuit power supply ON
Baseblock
Motor rotation detection
Main-circuit power supply ON
Bit display Symbol display
Speed conformity (during
speed control)
Positioning complete 1
(during position control)
Speed command being input
(during speed control)
Command pulses being input
(during position control)
Torque command being input
(during torque control)
Error counter reset signal being
input (during position control)
R88A-PR02W R88D-WT@Function
Resets an alarm.
Switches between status display
mode, system check mode, set-
ting mode, and monitor mode.
Used as a data setting key while in
setting mode.
Turns ON or OFF the Servo while
jog operations are being per-
formed.
Switches between parameter dis-
play and data display, and records
data.
Increments parameter settings.
Used as a forward rotation start
key during jog operation.
Decrements parameter settings.
Used as a reverse rotation start
key during jog operation.
Selects the digit whose setting is
to be changed. When selected,
the digit flashes.
Power ON
Bit Display
Symbol Display
Monitor mode
Setting mode User Parameters
Pn000 to Pn600
Status display
mode Main-circuit power supply ON, control-cir-
cuit power supply ON, baseblock (motor
OFF), speed conformity, positioning com-
plete 1, torque command being input, error
counter reset signal being input, speed
command being input, command pulses
being input, motor rotation detection
Baseblock, operating, forward rotation pro-
hibited, reverse rotation prohibited, alarm
display
System check
mode Alarm history display, robustness setting
during online auto-tuning, jog operations,
motor origin search, user parameter initiali-
zation, alarm history data clear, online auto-
tuning results saving, command offset auto-
matic adjustment, command offset manual
adjustment, password setting
Speed feedback, speed commands, torque
commands, number of pulses from origin,
electrical angle, input signal monitoring,
output signal monitoring, command pulse
speed display, position error, input pulse
counter/feedback pulse counter
51
Monitor Item and Alarm List
Monitor Item and Alarm List
■Monitor Mode
■Alam Displays
In addition to the displays listed below, error codes for the Option Unit are also output.
Monitor No. Monitor item Unit Explanation
Un000 Speed Feedback r/min Displays the actual motor speed.
Un001 Speed Command r/min Displays the speed command value or internally set speed value during speed con-
trol. 0 is displayed during pulse-train input control.
Un002 Torque Command % Displays the command value for a current loop that is expressed by treating the rat-
ed torque as 100%.
Un003 Number of Pulses from Z-Phase Pulses Displays the number of pulses from Z-Phase in encoder resolution units (times 4).
Un004 Electrical Angle degrees Displays the motor electrical angle.
Un005 Input Signal Monitor --- Displays driver I/O signal status by turning ON or OFF each signal bit.
Un006 Output Signal Monitor ---
Un007 Command Pulse Speed Display r/min Displays command pulse frequency converted in r/min.
Un008 Position Deviation (Error
Counter)
Reference
units
Displays the number of pulses accumulated in the error counter (Position Deviation)
that are converted in reference units (input pulse references).
Un009 Motor Load Rate % Displays effective torque at intervals of 10 s that is expressed by treating the rated
torque as 100%.
Un00A Regeneration Load Rate % Displays the amount of regeneration energy absorbed at intervals of 10 s that is ex-
pressed by treating the Pn600 setting (Regenerative Resistor Capacity) as 100%.
Un00B Dynamic Brake Resistance Load
Rate
% Displays the resistance load factor at intervals of 10 s that is expressed by treating
the rated load factor as 100%.
Un00C Input Pulse Counter Reference
units
Displays the number of counted input pulses in hexadecimal notation.
Un00D Feedback Pulse Counter Pulses Displays the number of counted encoder feedback pulses in hexadecimal notation
(multiplied by 4).
Display Alarm code Alarm details
AL01 AL02 AL03
a.02 OFF OFF OFF Parameter destruction, Servodriver EEP-ROM data error
a.03 Main circuit detector error
a.04 Parameter setting error
a.05 Motor mismatch, Servomotor and Servodriver capacity mismatch
a.10 ON OFF OFF Overcurrent or heat sink overheating (1.5 kW min.)
a.30 ON ON OFF Regeneration error (broken resistor wiring, transistor short-circuit )
a.32 Regeneration overload
a.33 Main-circuit power supply setting error
a.40 OFF OFF ON Overvoltage
a.41 Undervoltage
a.51 ON OFF ON Overspeed
a.71 ON ON ON Overload (maximum momentary load)
a.72 Overload (maximum continuous load)
a.73 Dynamic brake overload
a.74 Inrush resistance overload
a.7a Radiation shield overheating (Displayed for 30 W to 1.0 kW models only)
a.81 OFF OFF OFF Backup error
a.82 Checksum error
a.83 Parity error
a.84 Absolute error
a.85 Overspeed error
a.8b Encoder overheating
a.b1 Speed command input read error
a.b2 Torque command input read error
a.bf System error
52
Monitor Item and Alarm List
Note: Alarm codes are output to pin 37 (AL01), pin 38 (AL02), and pin 39 (AL03) of the CN1 connector on the Servodriver.
a.c1 ON OFF ON Overrun detection
a.c8 Excessive rotation data error
a.c9 Encoder communications error
a.ca Encoder parameter error
a.cb Encoder data error
a.cc ON OFF ON Multiple rotation limit mismatch
a.d0 ON ON OFF Error counter count-up
a.d1 Motor-load deviation over
a.e7 OFF ON ON Option detection error
a.f1 OFF ON OFF Phase-failure detected
a.f5 OFF ON OFF Motor current error
a.f6 OFF ON OFF Motor conduction error
Display Alarm code Alarm details
AL01 AL02 AL03
53
User Parameters
User Parameters
Function Selection Parameters
Note: 1. Do not change the factory settings of any “Not Used” parameters.
2. When changing the Pn000, Pn001, or Pn002 parameter, always turn OFF and then ON the main circuit and control circuit power supplies
to make the settings valid.
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn000 Function Selection
Basic Switches
0 Reverse Rotation
Mode
0 Defines forward rotation as counter-
clockwise (CCW) rotation.
0010 --- ---
1 Defines forward rotation as clockwise
(CW) rotation.
1 Control Mode Selec-
tion
0 Speed control (analog command)
1 Position control (pulse-train command)
2 Torque control (analog command)
3 Internally set speed control
4 Internally set speed control ↔ Speed
control (analog command)
5 Internally set speed control ↔ Position
control (pulse-train command)
6 Internally set speed control ↔ Torque
control (analog command)
7 Position control (pulse-train command)
↔ Speed control (analog command)
8 Position control (pulse-train command)
↔ Torque control (analog command)
9 Torque control (analog command) ↔
Speed control (analog command)
A Speed control with position lock function
(analog command)
B Position control with pulse prohibit func-
tion (pulse-train command)
2 Unit No. Setting 0 to F Sets the unit No. of the device commu-
nicating with Servodriver.
3 Not Used
Pn001 Function Selection
Application Switches
1
0 Servo OFF or Alarm
Stop Mode
0 Uses the dynamic brake to stop the Ser-
vomotor.
1002 --- ---
1 Uses the dynamic brake to stop the Ser-
vomotor, and releases the dynamic
brake after the Servomotor stops.
2 Coasts the Servomotor to a stop.
1 Run Prohibit Input
Stop Mode
0 Stops the Servomotor according to the
Pn001.0 setting.
1 Decelerates the Servomotor to a stop at
the torque specified in Pn406 and then
locks the Servomotor.
2 Decelerates the Servomotor to a stop at
the torque specified in Pn406 and then
turns OFF the Servomotor.
2 Main Circuit Power
Supply AC/DC Input
Selection
0 Supplies AC power from L1, L2, and
(L3) terminals.
1 Supplies DC power from (+) 1 and (–)
terminals.
3 Warning Code Output
Selection
0 Outputs only alarm codes from AL01,
AL02, and AL03.
1 Outputs both alarm codes and warning
codes from AL01, AL02, and AL03.
54
User Parameters
Note: 1. Do not change the factory settings of any “Not Used” parameters.
2. When changing the Pn000, Pn001, or Pn002 parameter, always turn OFF and then ON the main circuit and control circuit power supplies
to make the settings valid.
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn002 Function Selection
Application Switches 2
0 Torque Command In-
put Switch during Po-
sition/Speed Control
0 None. 0000 --- ---
1 Uses TREF for analog torque limit input.
2 Uses TREF for torque feed-forward input.
3 Uses TREF for analog torque limit input
when PCL and NCL are ON.
1 Speed Command In-
put Switch during
Torque Control
0 None.
1 Uses REF for analog torque limit input.
2 Absolute Encoder Us-
age
0 Uses the absolute encoder as an abso-
lute encoder.
1 Uses the absolute encoder as an incre-
mental encoder.
3 Fully Closed Encoder
Usage
0 Fully closed encoder is not used.
1 Fully closed encoder is used without
phase Z.
2 Fully closed encoder is used with phase
Z.
3 Fully closed encoder is used in Reverse
Rotation Mode without phase Z.
4 Fully closed encoder is used in Reverse
Rotation Mode with phase Z.
Pn003 Function Selection
Application Switches 3
0 Analog Monitor 1 0 Motor speed: 1 V/1,000 r/min 0002 --- ---
1 Speed command:
1 V/1,000 r/min
2 Torque command:
0.05 V/rated torque
3 Position error:
0.05 V/1 command unit
4 Position error:
0.05 V/100 command units
5 Reference pulse frequency:
1 V/1,000 r/min
6 Motor speed: 1 V/250 r/min
7 Motor speed: 1 V/125 r/min
8 to F Reserved
1 Analog Monitor 2 0 to F Same as Analog Monitor 1
2 to 3 Not Used
Pn004
and
Pn005
Not Used 0000 --- ---
55
User Parameters
Gain-related Parameters
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn100 Speed Loop Gain Adjusts speed loop response. 80 Hz 1 to 2000
Pn101 Speed Loop Integral Time
Constant
Speed loop integral time constant 2000 0.01 ms 15 to
51200
Pn102 Position Loop Gain Adjusts speed loop response. 40 1/s 1 to 2000
Pn103 Inertia Ratio Sets the ratio for the mechanical inertia relative to the Servomotor ro-
tor inertia.
300 % 0 to 20000
Pn104 Speed Loop Gain 2 Adjusts speed loop response (enabled by gain selector input). 80 Hz 1 to 2000
Pn105 Speed Loop Integral Time
Constant 2
Speed loop integral time constant (enabled by gain selector input). 2000 0.01 ms 15 to
51200
Pn106 Position Loop Gain 2 Adjusts speed loop response (enabled by gain selector input). 40 1/s 1 to 2000
Pn107 Bias Rotational Speed Position control bias setting 0 r/min 0 to 450
Pn108 Bias Addition Baud Uses the deviation counter pulse width to set the operation start for
the position control bias function.
7Com-
mand
units
0 to 250
Pn109 Feed-forward Amount Position control feed-forward compensating gain value 0 % 0 to 100
Pn10A Feed-forward Command
Filter
Sets the command filter for position control feed-forward. 0 0.01 ms 0 to 6400
Pn10B Speed Control Settings 0 P Control Switching
Condition
0 Uses an internal torque
command value as the
switching condition (level
setting: Pn10C).
0004 --- ---
1 Uses a speed command
value as the switching con-
dition (level setting:
Pn10D).
2 Uses an acceleration com-
mand value as the switching
condition (level setting:
Pn10E).
3 Uses the number of error
pulses as the switching con-
dition (level setting: Pn10F).
4 Does not use the P control
switching function.
1 Speed Control Loop
Switch
0 PI control
1 IP control
2 Automatic Gain
Switching Selection
0 Automatic gain switching
disabled
1 Gain switching using posi-
tion commands
2 Gain switching using posi-
tion deviation
3 Gain switching using posi-
tion commands and posi-
tion deviation
3 Not Used
Pn10C P Control Switching
(Torque Command)
Sets the torque command level for switching from PI control to P con-
trol.
200 % 0 to 800
Pn10D P Control Switching
(Speed Command)
Sets the speed command level for switching from PI control to P con-
trol.
0 r/min 0 to 10000
Pn10E P Control Switching
(Acceleration Command)
Sets the acceleration command level for switching from PI control to
P control.
0 10r/ min/s 0 to 3000
Pn10F P Control Switching
(Deviation Pulse)
Sets the deviation pulse level for switching from PI control to P con-
trol.
10 Com-
mand
units
0 to 10000
56
User Parameters
Note: Do not change the factory settings of any “Not Used” parameters.
Pn110 Online Autotuning Setting 0 Online Autotuning
Selection
0 Performs autotuning only
when the system runs for
the first time after the power
is turned ON.
0012 --- ---
1 Performs autotuning contin-
uously.
2 Does not perform autotun-
ing.
1 Speed Feedback
Compensation Se-
lection
0 Enabled
1 Disabled
2 Friction Compensa-
tion Selection
0 Friction compensation: Dis-
abled
1 Friction compensation:
Small rated torque ratio
2 Friction compensation:
Large rated torque ratio
3 Not Used
Pn111 Speed Feedback Compen-
sating Gain
Adjusts the speed loop feedback gain. 100 % 0 to 500
Pn124 Automatic Gain Switching
Timer
Sets the switching delay following the completion of the condition
when using the automatic gain switching function (Pn10B.2 = 1 to 3).
100 ms 1 to 10000
Pn125 Automatic Gain Switching
Width (Position Deviation
Amount)
Sets the position deviation amount for the switching condition when
using the automatic gain switching function based on position devia-
tion (Pn10B.2 = 2, 3).
7Com-
mand
units
1 to 250
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
57
User Parameters
Position Control-related Parameters
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn200 Position Control
Setting 1
0 Command Pulse Mode 0 Feed pulse/forward-reverse signal:
Positive logic
1011 --- ---
1 Forward rotation pulse/reverse rota-
tion pulse: Positive logic
2 Phase-A/B signal with 90° phase dif-
ferential (×1): Positive logic
3 Phase-A/B signal with 90° phase dif-
ferential (×2): Positive logic
4 Phase-A/B signal with 90° phase dif-
ferential (×4): Positive logic
5 Feed pulse/forward-reverse signal:
Negative logic
6 Forward rotation pulse/reverse rota-
tion pulse: Negative logic
7 Phase-A/B signal with 90° phase dif-
ferential (×1): Negative logic
8 Phase-A/B signal with 90° phase dif-
ferential (×2):
Negative logic
9 Phase-A/B signal with 90° phase dif-
ferential (×4):
Negative logic
1 Error Counter Clear
Signal Form
0 Clears the error counter when the
clear signal goes high.
1 Clears the error counter on the rising
edge of the clear signal.
2 Clears the error counter when the
clear signal goes low.
3 Clears the error counter on the falling
edge of the clear signal.
2 Error Counter Clear
during Servo OFF or
Alarm
0 Clears the error counter when the Ser-
vo is turned OFF or when an alarm is
generated.
1 Does not clear the error counter when
the Servo is turned OFF or when an
alarm is generated.
2 Clears the error counter only when an
alarm is generated.
3 Pulse Command Filter
Selection
0 Uses command filter for line driver sig-
nal input (500 Kpps).
1 Uses command filter for open collector
signal input (200 Kpps).
Pn201 Encoder Divider Rate Sets the number of output pulses from the driver. 1000 Pulses/
revolu-
tion
16 to
16384
Pn202 Electronic Gear Ratio
G1 (Numerator)
Sets the pulse rate for the command pulse and amount of Servomotor movement.
0.01≤G1/G2≤100
4---1 to
65535
Pn203 Electronic Gear Ratio
G2 (Denominator)
1---1 to
65535
Pn204 Position Command
Filter Time Constant
1
Soft start setting for command pulse (soft start characteristic: primary filter) 0 0.01 ms 0 to 6400
Pn205 Absolute Encoder
Multi-turn Limit Set-
ting
Sets the multi-turn limit when using a Servomotor with an absolute encoder. 65535 Num-
ber of
revolu-
tions
0 to
65535
Pn206 Number of Fully
Closed Encoder
Pulses
Sets the number of fully closed encoder pulses per Servomotor revolution. 16384 P/R 25 to
65535
58
User Parameters
Speed-related Parameters
Note: 1. Do not change the factory settings of any “Not Used” parameters.
2. When changing any position control-related parameters (Pn200 to Pn208), always turn OFF and then ON the main circuit and control
circuit power supplies to make the settings valid.
3. For 13-bit encoders, dividing will not occur if a value of 2048 or greater is specified in Pn201.
Torque-related Parameters
Pn207 Position Control Set-
ting 2
0 Position Command Fil-
ter Selection
0 Primary filter 0000 --- ---
1 Linear acceleration/deceleration
1 Speed Command Input
Switch (during Position
Control)
0 None
1 Uses REF for speed feed-forward in-
put.
2 to 3 Not Used
Pn208 Position Command
Filter Time Constant
2 (Linear Accelera-
tion and Decelera-
tion)
Soft start setting for command pulse (soft start characteristic: linear acceleration
and deceleration)
0 0.01 ms 0 to 6400
Pn217 Command Pulse
Factor
Sets the factor for command pulse input. 1 Factor 1 to 99
Pn218 Position Control Set-
ting 3
0 Command Pulse Factor
Switching Selection
0 Disables function. 0000 --- ---
1 Uses command pulse factor switching
selection.
1 to 3 Not Used
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn300 Speed Command Scale Sets the speed command voltage (REF) to rotate at the rated
r/min.
1000 0.01 V/rat-
ed speed
150 to
3000
Pn301 No.1 Internal Speed Setting r/min for No. 1 internal speed setting 100 r/min 0 to 10000
Pn302 No. 2 Internal Speed Setting r/min for No. 2 internal speed setting 200 r/min 0 to 10000
Pn303 No. 3 Internal Speed Setting r/min for No. 3 internal speed setting 300 r/min 0 to 10000
Pn304 Jog Speed Sets the r/min for jog operation. 500 r/min 0 to 10000
Pn305 Soft Start Acceleration Time Sets the acceleration time for speed-controlling soft start. 0 ms 0 to 10000
Pn306 Soft Start Deceleration Time Sets the deceleration time for speed-controlling soft start. 0 ms 0 to 10000
Pn307 Speed Command Filter Time
Constant
Sets the filter time constant for speed command voltage input
(REF).
40 0.01 ms 0 to 65535
Pn308 Speed Feedback Filter Time
Constant
Sets the filter time constant for speed feedback. 0 0.01 ms 0 to 65535
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn400 Torque Command Scale Sets the torque command voltage (TREF) to output the rated torque. 30 0.1 V/rated
torque
10 to 100
Pn401 Torque Command Filter
Time Constant
Sets the filter time constant for internal torque command. 40 0.01 ms 0 to 65535
Pn402 Forward Torque Limit Output torque limit (percentage of rated torque) for forward direction 350 % 0 to 800
Pn403 Reverse Torque Limit Output torque limit (percentage of rated torque) for reverse direction 350 % 0 to 800
Pn404 Forward Rotation External
Current Limit
Output torque limit (percentage of rated torque) for forward rotation
external current limit input
100 % 0 to 800
Pn405 Reverse Rotation External
Current Limit
Output torque limit (percentage of rated torque) for reverse rotation
external current limit input
100 % 0 to 800
Pn406 Emergency Stop Torque Deceleration torque (percentage of rated torque) for emergency
stops
350 % 0 to 800
Pn407 Speed Limit Sets the speed limit for the torque control mode 3000 r/min 0 to 10000
59
User Parameters
Sequence-related Parameters
Note: 1. Do not change the factory settings of any “Not Used” parameters.
2. When changing any Input Signal Selection parameters (Pn50A to Pn50D), always turn OFF and then ON the main circuit and control
circuit power supplies to make the settings valid.
Pn408 Torque Command Setting 0 Selects Notch Filter
1 Function.
0 None 0000 --- ---
1 Notch filter 1 used for
torque commands.
1 Not Used
2 Selects Notch Filter
2 Function.
0 None
1 Notch filter 2 used for
torque commands.
3 Not Used
Pn409 Notch Filter 1 Frequency Sets the notch filter 1 frequency for the torque command. 2000 Hz 50 to 2000
Pn40A Notch Filter 1 Q Value Sets the notch filter 1 Q value. 70 0.01 50 to 400
Pn40B Notch Filter 2 Frequency Sets the notch filter 2 frequency for the torque command. 2000 Hz 50 to 2000
Pn40C Notch Filter 2 Q Value Sets the notch filter 2 Q value. 70 0.01 50 to 400
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn500 Positioning Completed
Width 1
Sets the width for positioning completed output 1 (INP1). 3 Command
units
0 to 250
Pn501 Position Lock Rotation
Speed
Sets the r/min for position lock during speed control. 10 r/min 0 to
10000
Pn502 Rotation Speed For Motor
Rotation Detection
Sets the r/min for the motor rotation detection output (TGON). 20 r/min 0 to
10000
Pn503 Speed Conformity Signal
Output Width
Sets the allowable variation width (r/min) for the speed conformity
output signal (VCMP).
10 r/min 0 to 100
Pn504 Positioning Completion
Range 2
Sets the width for positioning completed output 1 (INP2). 3 Command
units
1 to 250
Pn505 Deviation Counter Over-
flow Level
Sets the detection level for the deviation counter overflow alarm. 1024 Command
units × 256
1 to
32767
Pn506 Brake Timing 1 Sets the amount of delay time from the brake command to the time
the servomotor turns OFF.
0 10 ms 0 to 50
Pn507 Brake Command Speed Sets the r/min for outputting the brake command. 100 r/min 0 to
10000
Pn508 Brake Timing 2 Sets the amount of wait time from the time the servomotor turns OFF
until the brake command is output.
50 10 ms 10 to 100
Pn509 Momentary Hold Time Sets the alarm detection disable time for generating a momentary
hold.
20 ms 20 to
1000
Pn50A Input Signal Selections 1 0 Input Signal Allocation
Mode
0 Uses the same sequence in-
put signal allocation setting
as the R88D-UT. For details,
refer to the OMNUC W-se-
ries AC SERVOMOTORS/
SERVO DRIVERS User’s
Manual) (I531-E1-@).
8100 --- ---
1 Enables any sequence input
signal allocation settings.
60
User Parameters
Note: 1. Do not change the factory settings of any “Not Used” parameters.
2. When changing any Input Signal Selection parameters (Pn50A to Pn50D), always turn OFF and then ON the main circuit and control
circuit power supplies to make the settings valid.
3. When installing an external regenerative resistor, set the resistor capacity (W).
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn50A Input Signal Selections
1
1 RUN Signal Input Terminal Al-
location
0 Allocates the signal to CN1-40 pin:
Enabled when low.
8100 --- ---
1 Allocates the signal to CN1-41 pin:
Enabled when low.
2 Allocates the signal to CN1-42 pin:
Enabled when low.
3 Allocates the signal to CN1-43 pin:
Enabled when low.
4 Allocates the signal to CN1-44 pin:
Enabled when low.
5 Allocates the signal to CN1-45 pin:
Enabled when low.
6 Allocates the signal to CN1-46 pin:
Enabled when low.
7 Always enabled.
8 Always disabled.
9 Allocates the signal to CN1-40 pin:
Enabled when high.
A Allocates the signal to CN1-41 pin:
Enabled when high.
B Allocates the signal to CN1-42 pin:
Enabled when high.
C Allocates the signal to CN1-43 pin:
Enabled when high.
D Allocates the signal to CN1-44 pin:
Enabled when high.
E Allocates the signal to CN1-45 pin:
Enabled when high.
F Allocates the signal to CN1-46 pin:
Enabled when high.
2 MING (Gain Reduction) Signal
Input Terminal Allocation
0 to F Same as Pn50A.1
3 POT (Forward Run Prohibit)
Signal Input Terminal Alloca-
tion
0 to F Same as Pn50A.1
Pn50B Input Signal Selection 2 0 NOT (Reverse Run Prohibit)
Signal Input Terminal Alloca-
tion
0 to F Same as Pn50A.1 6548 --- ---
1 RESET (Alarm Reset) Signal
Input Terminal Allocation
0 to F Same as Pn50A.1
2 PCL (Forward Torque Limit)
Signal Input Terminal Alloca-
tion
0 to F Same as Pn50A.1
3 NCL (Reverse Torque Limit)
Signal Input Terminal Alloca-
tion
0 to F Same as Pn50A.1
Pn50C Input Signal Selections
3
0 RDIR (Rotation Direction Com-
mand) Signal Input Terminal
Allocation
0 to F Same as Pn50A.1 8888 --- ---
1 SPD1 (Speed Selection Com-
mand 1) Signal Input Terminal
Allocation
0 to F Same as Pn50A.1
2 SPD2 (Speed Selection Com-
mand 2) Signal Input Terminal
Allocation
0 to F Same as Pn50A.1
3 CSEL (Control Mode Selec-
tion) Signal Input Terminal Allo-
cation
0 to F Same as Pn50A.1
61
User Parameters
Note: Do not change the factory settings of any “Not Used” parameters.
Other Parameters
Note: 1. Do not change the factory settings of any “Not Used” parameters.
2. When installing an external regenerative resistor, set the resistor capacity (W).
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting
range
Pn50D Input Signal Selections 4 0 PLOCK (Position Lock Command) Signal
Input Terminal Allocation
0 to F Same as Pn50A.1 8888 --- ---
1 IPG (Pulse Prohibit) Signal Input Terminal
Allocation
0 to F Same as Pn50A.1
2 GSEL (Gain Selection) Signal Input Ter-
minal Allocation
0 to F Same as Pn50A.1
3 Not Used
Pn50E Output Signal Selections 1 0 INP1 (Positioning Completed 1) Signal
Output Terminal Allocation
0 Disabled (Not used for the output
signal) 3211 --- ---
1 Allocates the signal to CN1-25 and
CN1-26 pins.
2 Allocates the signal to CN1-27 and
CN1-28 pins.
3 Allocates the signal to CN1-29 and
CN1-30 pins.
1 VCMP (Speed Coincidence) Signal Out-
put Terminal Allocation
0 to 3 Same as Pn50E.0.
2 TGON (Motor Rotation Detection) Signal
Output Terminal Allocation
0 to 3 Same as Pn50E.0.
3 READY (Servo Ready) Signal Output Ter-
minal Allocation
0 to 3 Same as Pn50E.0.
Pn50F Output Signal Selections 2 0 CLMT (Torque Limit Detection) Signal
Output Terminal Allocation
0 to 3 Same as Pn50E.0. 0000 --- ---
1 VLMT (Speed Limit Detection) Signal
Output Terminal Allocation
0 to 3 Same as Pn50E.0.
2 BKIR (Brake Interlock) Signal Output Ter-
minal Allocation
0 to 3 Same as Pn50E.0.
3 WRN (Warning) Signal Output Terminal
Allocation
0 to 3 Same as Pn50E.0.
Pn510 Output Signal Selections 3 0 INP2 (Positioning Completed 2) Signal
Output Terminal Allocation
0 to 3 Same as Pn50E.0. 0000 --- ---
1 Not Used
2 PSON (Command Pulse Factor Enable)
Signal Output Terminal Allocation
0 to 3 Same as Pn50E.0.
1 to 3 Not Used
Pn511 Not Used 8888 --- ---
Pn512 Output Signal Reversal 0 CN1-25/26 Pin Output Signal Reversal 0 Does not reverse output signal. 0000 --- ---
1 Reverses output signal.
1 CN1-27/28 Pin Output Signal Reversal 0, 1 Same as Pn512.0.
2 CN1-29/30 Pin Output Signal Reversal 0, 1 Same as Pn512.0.
3 Not Used
Pn513 Input Signal Selection 5 0 PSEL (Command Pulse Factor Switch-
ing) Signal Input Terminal Allocation
0 to F Same as Pn50A.1. 0088 --- ---
Pn51A Motor-load Deviation Over
Level
Sets the allowable deviation level for fully closed and semi-closed encoders. 0 Pulse 0 to
32767
Pn51E Deviation Counter Overflow
Warning Level
Sets the detection level for the deviation counter overflow warning (set as a percentage of the De-
viation Counter Overflow Level (Pn505)).
0 % 0 to 100
PRM.
No.
Parameter name Digit Function name Setting Explanation Factory
setting
Unit Setting range
Pn600 Regenerative Resistor
Capacity
Sets the monitor calculation for the regenerative resistor load
rate.
0 10 W 0 to maximum (de-
pending on each
model)
Pn601 Not Used 0
62
Connection Diagrams
Connection Diagrams
■Single-phase
*1. represents a twisted-pair cable.
*2. Primary filter
*3. Connect when using an absolute encoder.
*4. Used only with an absolute encoder.
*5. A regenerative resistor can be connected between B1 and B2.
AGND
AGND
3.3 k
3.3 k
3.3 k
3.3 k
3.3 k
3.3 k
3.3 k
Noise filter
Main circuit power
supply Main circuit contactor
Surge killer
Servomotor
Encoder
Be sure to prepare the end of the
shield wire properly.
Maximum operating
voltage: 30 VDC
Maximum output cur
rent: 50 mA DC
Frame ground (FG)
Connector shell
Alarm Output
Positioning Completed
Motor Rotation Detection
Servo Ready
GND
common
Phase B
Phase Z
Phase A
OMNUC W-series
Servodriver
Be sure to ground.
Speed command
(+2 to +10 V/rated motor speed)
Torque command
(+1 to +10 V/rated torque)
Reverse rotation
pulse
Forward rotation
pulse
Error counter
reset
Position command
Backup battery (2.8 to 4.5 V) *3
SEN signal input *3
Run command
Gain Reduction
Forward Run Prohibit
Reverse Run Prohibit
Alarm Reset
Forward Current Limit
Reverse Current Limit
Connect the shield wire to the connector shell.
Open-collector
command power
supply
1MCCB
24 VDC
(50/60 Hz) (50/60 Hz)
Connect a DC reactor for suppressing
power supply harmonic waves
between (+)1 and (+)2 terminals
Absolute Encoder Signal Output
Serial Data Output
SN75175 or MC3486 manufactured
by TI or the equivalent
PG Dividing Ratio Output
Applicable Line Receiver
SN75175 or MC3486 manufactured
by TI or the equivalent
Alarm Code Output
Maximum operating voltage: 30 VDC
Maximum output current: 20 mA DC
Single-phase 200 to 230 VAC +10%
−15% or single-phase 100 to 115 VAC +10%
−15%
63
Connection Diagrams
■Three-phase
*1. represents a twisted-pair cable.
*2. Primary filter
*3. Connect when using an absolute encoder.
*4. Used only with an absolute encoder.
*5. When using an external regenerative resistor, connect it between B1 and B2.
(When the capacity is 6 kW, connect a Regenerative Resistor Unit.)
*6. When using the R88D-WT08H at single-phase 200 V, connect single-phase 200 V to L1 and L3, and short-circuit L1 to L2.
AGND
AGND
3.3 k
3.3 k
3.3 k
3.3 k
3.3 k
3.3 k
3.3 k
24 VDC
(50/60 Hz)
Noise filter
Main circuit power
supply Main circuit contactor
Surge killer
Servomotor
Encoder
OMNUC W-series
Servodriver
Be sure to prepare the end of the
shield wire properly.
GND
common
Phase B
Phase Z
Phase A
Be sure to ground.
Speed command
(+2 to +10 V/rated motor speed)
Torque command
(+1 to +10 V/rated torque)
Reverse rotation
pulse
Forward rotation
pulse
Error counter
reset
Position command
Backup battery (2.8 to 4.5 V) *3
SEN signal input *3
Open-collector
command power
supply
Maximum operating
voltage: 30 VDC
Maximum output cur
rent: 50 mA DC
Frame ground (FG)
Connector shell
Alarm Output
Positioning Completed
Motor Rotation Detection
Servo Ready
Run command
Gain Reduction
Forward Run Prohibit
Reverse Run Prohibit
Alarm Reset
Forward Current Limit
Reverse Current Limit
Connect the shield wire to the connector shell.
Connect a DC reactor for suppressing
power supply harmonic waves between (+)1
and (+)2 terminals (No connecting terminal
is provided for a capacity of 6 kW or more.)
Alarm Code Output
Maximum operating voltage: 30 VDC
Maximum output current: 20 mA DC
PG Dividing Ratio Output
Applicable Line Receiver
SN75175 or MC3486 manufactured
by TI or the equivalent
Absolute Encoder Signal Output
Serial Data Output
SN75175 or MC3486 manufactured by
TI or the equivalent
Three-phase 200 to 230 VAC +10%
−15%
*6
64
Terminal Blocks and Connectors
Terminal Blocks and Connectors
■Terminal Blocks ■ CN2 Encoder Inputs
■CN1 Control Inputs
For Speed and Torque Control
Symbol Name Function
L1, L2 or
L1, L2, L3
Main circuit AC
input terminal
AC power input terminals for the
main circuit.
R88D-WT@@ H (200 VAC):
200/230 VAC (170 to 253 V),
50/60 Hz
R88D-WT@@ HL (100 VAC):
100/115 VAC (85 to 127 V),
50/60 = Hz
U Servomotor
connection ter-
minal
Red Terminals for outputs to the
Servomotor.
VWhite
WBlue
L1C, L2C Control power
input terminal
AC power input terminals for the
control circuit.
R88D-WT@@ H (200 VAC):
200/230 VAC (170 to 253 V),
50/60 Hz
R88D-WT@@ HL (100 VAC):
100/115 VAC (85 to 127 V),
50/60 Hz
Frame ground Ground terminal.
Ground to a maximum of 100 Ω.
(class 3).
B1, B2 or
B1, B2, B3
Main circuit DC
output terminal
5 kW or less: Connect an external
regenerative resistor if regenerative
energy is high.
5.5 kW: There is no internal regen-
erative resistor. Be sure to connect
an external Regenerative Resistor
Unit.
⊕1, ⊕2 DC reactor
connection ter-
minal for sup-
pressing power
supply har-
monic waves
Normally, short ⊕1 and ⊕2.
If a countermeasure against power
supply harmonic waves is needed,
connect a DC reactor between ⊕1
and ⊕2.
Note: These terminals do not exist
on the R88D-WT60H/75H/150H.
⊕Main circuit DC
output terminal
(positive)
Normally, not connected.
This terminal exists on the R88D-
WT60H only.
Main circuit DC
output terminal
(negative)
Normally, not connected.
Pin No. Symbol Signal name
1 E5V Encoder power supply + 5V
2 E0V Encoder power supply ground
3 BAT+ Battery + (used only with absolute encoder)
4 BAT– Battery – (used only with absolute encoder)
5 S+ Encoder + serial signal input
6 S– Encoder – serial signal input
Charge
lamp
Terminal
block
Power lamp
CN3
(Parameter
Unit)
CN1
(Control I/O)
CN2
(Encoder in-
put)
Pin No. Symbol Signal name Function/interface
5 REF Speed command input ±2 to ±10 V/rated speed
Can be changed using the Pn300 user parameter (Speed Command Scale).
6 AGND Speed command input ground
9 TRFF Torque command input ±1 to ±10 V/rated torque
Can be changed using the Pn400 user parameter (Torque Command Scale).
10 AGND Torque command input ground
65
Terminal Blocks and Connectors
For Position Control
Shared Terminals
Pins 41 to 44 can be reassigned using the Pn50A to Pn50D user parameters.
Note: These input signals are used with absolute encoder only.
Pin No. Symbol Signal name Function/interface
3 PCOM Open collector command pow-
er supply
Used to input CW, CCW, and ECRST signals as open-collector outputs. Con-
nect + inputs to these terminals and connect – inputs to open-collector output
terminals.
13
18
7 +PULS/CW/A Feed pulse, reverse pulse, 90°
phase difference pulse (phase
A)
Line-driver input: 10 mA at 3 V; maximum response frequency:
500 kpps
Open-collector input: 25 mA at 5 V; maximum response frequency: 200 kpps
Switches between feed pulse and forward/reverse signal, between reverse
pulse and forward pulse, or between phases A and B 90° phase difference puls-
es (×1, 2, 4) according to the Pn200 setting (Position Control Switches 1).
8–PULS/CW/A
11 +SIGN/CCW/B Forward/reverse signal, for-
ward pulse, 90° phase differ-
ence pulse (phase B)
12 –SIGN/CCW/B
14 –ECRST Error counter reset Line-driver input: 10 mA at 3 V
Open-collector input: 25 mA at 5 V
ON: Disables the command and resets the error counter.
15 +ECRST
Pin No. Symbol Signal name Function/interface
40 RUN Speed command input ON: Servo ON
41 to 46 MING Gain deceleration input ON: Switches speed loop to P control to decrease speed loop gain.
TVSEL Control mode switch input ON: Switches each control mode.
PLOCK Position lock command input ON: Enables position lock when the motor speed drops below the position
lock rotation speed set in Pn501.
IPG Pulse disable input ON: Prohibits input command pulses.
RDIR Rotation direction command input Rotation direction command for internal speed settings 1 to 3. (OFF: For-
ward rotation, ON: Reverse rotation)
POT Forward drive prohibit input Forward rotation overtravel input (OFF when prohibited)
NOT Reverse drive prohibit input Reverse rotation overtravel input (OFF when prohibited)
RESET Alarm reset input ON: Resets Servo alarm status.
PCL Forward rotation current limit input ON: Limits current according to the value specified in Pn404 (Forward Ex-
ternal Torque Limit)
NCL Reverse rotation current limit input ON: Limits current according to the value specified in Pn405 (Reverse Ex-
ternal Torque Limit)
SPD1 Speed selection command 1 input Switches the internal speed settings (Pn301, Pn302, Pn303).
SPD2 Speed selection command 2 input
GSEL Gain selection input ON: Switches to the second speed loop gain (Pn104, Pn105, Pn106).
47 +24VIN +24 VDC control power supply input +24 V input power supply for pins 40, 41, 42, 43, 44, 45, and 46
4 SEN Sensor ON input (See note.) ON: Supplies 5 V power to absolute encoder.
2 SENGND Sensor ON input ground (See note.)
21 BAT Backup battery + input (See note.) Backup battery connection terminals for absolute encoder in case of power
interruption
22 BATGND Backup battery – input (See note.)
66
Terminal Blocks and Connectors
■CN1 Control Outputs
Pins 16 and 17 can be reassigned using the Pn003 user parameter. Pins 25 to 30 can be reassigned using the Pn50E to Pn510 user parameters.
Note: These input signals are used with absolute encoder only.
Pin No. Symbol Signal name Function/interface
1 GND Ground common Ground for encoder outputs and alarm codes.
19 +Z Encoder Z-phase + output Encoder Z-phase output (1 pulse/revolution).
Line-driver output: Conforms to RS-422A
20 –Z Encoder Z-phase – output
25 INP1, INP2 Positioning completion output
1, 2
ON when the position error is within the positioning completed width specified
in Pn500 while in position control mode.
Always OFF while in other modes.
26 to 30 VCMP Speed conformity output ON when the speed error is within the speed coincidence signal output width
specified in Pn503 while in speed control mode.
Always OFF while in other modes.
TGON Servomotor rotation detection
output
ON when the motor speed exceeds the motor rotation detection level specified
in Pn502.
READY Servo ready output ON if no errors are detected after the main circuit power supply is turned ON.
CLIMT Current limit detection output If PCL (forward rotation current limit input) or NCL (reverse rotation current limit
input) is ON, the CLIMT signal will turn ON when the output torque reaches the
external torque limit specified in Pn404/405 or the torque limit specified in
Pn402/403, whichever is lower.
If PCL (forward rotation current limit input) or NCL (reverse rotation current limit
input) is OFF, the CLIMT signal will turn ON when the output torque reaches the
torque limit specified in Pn402/403.
VLIMT Speed limit detection output ON when the motor speed is controlled by Pn407 in torque control mode.
Always OFF while in other modes.
BKIR Brake interlock output Outputs holding brake timing signals according to the Pn506, Pn507, and
Pn508 user parameter settings.
WARN Warning output OFF when an overload warning or a regeneration overload warning is detected.
31 ALM Alarm output Turns OFF the output when the Servodriver generates an alarm.
Open-collector output: 30 VDC, 50 mA max.
32 ALMCOM Alarm output ground
33 +A Encoder A-phase + output Outputs encoder pulses divided according to the Pn201 setting (PG ratio).
Line-driver output: Conforms to RS-422A
34 –A Encoder A-phase – output
35 –B Encoder B-phase – output Outputs encoder pulses divided according to the Pn201 setting (PG ratio).
Line-driver output: Conforms to RS-422A
36 +B Encoder B-phase + output
37 AL01 Alarm code output 1 Outputs an alarm code when the Servodriver generates an alarm.
Open-collector output: 30 VDC, 20 mA max.
38 AL02 Alarm code output 2
39 AL03 Alarm code output 3
48 +ABS Absolute encoder signal + out-
put (See note.)
Outputs absolute encoder data.
Line-driver output: Conforms to RS-422A
49 –ABS Absolute encoder signal – out-
put (See note.)
Shell FG Frame ground Ground terminal for shield wire of cable and FG line
67
Ordering Information
Ordering Information
■AC Servomotors
Cylinder-style Motors (3,000 r/min) with Incremental Encoders
Note: “S1” at the end of a model name represents models with key
and without tap. “S2” at the end of a model name represents
models with key and tap. Motors with a capacity of 1 kW or
more do not have the S1 or S3 type.
Specifications Model
Straight
shafts
without
key
Without
brake
200 VAC 30 W R88M-W03030H
50 W R88M-W05030H
100 W R88M-W10030H
200 W R88M-W20030H
400 W R88M-W40030H
750 W R88M-W75030H
100 VAC 30 W R88M-W03030L
50 W R88M-W05030L
100 W R88M-W10030L
200 W R88M-W20030L
With brake 200 VAC 30 W R88M-W03030H-B
50 W R88M-W05030H-B
100 W R88M-W10030H-B
200 W R88M-W20030H-B
400 W R88M-W40030H-B
750 W R88M-W75030H-B
100 VAC 30 W R88M-W03030L-B
50 W R88M-W05030L-B
100 W R88M-W10030L-B
200 W R88M-W20030L-B
Straight
shafts
with key
Without
brake
200 VAC 30 W R88M-W03030H-S1
50 W R88M-W05030H-S1
100 W R88M-W10030H-S1
200 W R88M-W20030H-S1
400 W R88M-W40030H-S1
750 W R88M-W75030H-S1
1 kW R88M-W1K030H-S2
1.5 kW R88M-W1K530H-S2
2 kW R88M-W2K030H-S2
3 kW R88M-W3K030H-S2
4 kW R88M-W4K030H-S2
5 kW R88M-W5K030H-S2
100 VAC 30 W R88M-W03030L-S1
50 W R88M-W05030L-S1
100 W R88M-W10030L-S1
200 W R88M-W20030L-S1
With brake 200 VAC 30 W R88M-W03030H-BS1
50 W R88M-W05030H-BS1
100 W R88M-W10030H-BS1
200 W R88M-W20030H-BS1
400 W R88M-W40030H-BS1
750 W R88M-W75030H-BS1
1 kW R88M-W1K030H-BS2
1.5 kW R88M-W1K530H-BS2
2 kW R88M-W2K030H-BS2
3 kW R88M-W3K030H-BS2
4 kW R88M-W4K030H-BS2
5 kW R88M-W5K030H-BS2
100 VAC 30 W R88M-W03030L-BS1
50 W R88M-W05030L-BS1
100 W R88M-W10030L-BS1
200 W R88M-W20030L-BS1
Specifications Model
68
Ordering Information
Cylinder-style Motors (3,000 r/min) with Absolute Encoders
Note: “S1” at the end of a model name represents models with key
and without tap. “S2” at the end of a model name represents
models with key and tap. Motors with a capacity of 1 kW or
more do not have the S1 or S3 type.
Specifications Model
Straight
shafts
without
key
Without
brake
200 VAC 30 W R88M-W03030T
50 W R88M-W05030T
100 W R88M-W10030T
200 W R88M-W20030T
400 W R88M-W40030T
750 W R88M-W75030T
100 VAC 30 W R88M-W03030S
50 W R88M-W05030S
100 W R88M-W10030S
200 W R88M-W20030S
With brake 200 VAC 30 W R88M-W03030T-B
50 W R88M-W05030T-B
100 W R88M-W10030T-B
200 W R88M-W20030T-B
400 W R88M-W40030T-B
750 W R88M-W75030T-B
100 VAC 30 W R88M-W03030S-B
50 W R88M-W05030S-B
100 W R88M-W10030S-B
200 W R88M-W20030S-B
Specifications Model
Straight
shafts with
key
Without
brake
200 VAC 30 W R88M-W03030T-S1
50 W R88M-W05030T-S1
100 W R88M-W10030T-S1
200 W R88M-W20030T-S1
400 W R88M-W40030T-S1
750 W R88M-W75030T-S1
1 kW R88M-W1K030T-S2
1.5 kW R88M-W1K530T-S2
2 kW R88M-W2K030T-S2
3 kW R88M-W3K030T-S2
4 kW R88M-W4K030T-S2
5 kW R88M-W5K030T-S2
100 VAC 30 W R88M-W03030S-S1
50 W R88M-W05030S-S1
100 W R88M-W10030S-S1
200 W R88M-W20030S-S1
With
brake
200 VAC 30 W R88M-W03030T-BS1
50 W R88M-W05030T-BS1
100 W R88M-W10030T-BS1
200 W R88M-W20030T-BS1
400 W R88M-W40030T-BS1
750 W R88M-W75030T-BS1
1 kW R88M-W1K030T-BS2
1.5 kW R88M-W1K530T-BS2
2 kW R88M-W2K030T-BS2
3 kW R88M-W3K030T-BS2
4 kW R88M-W4K030T-BS2
5 kW R88M-W5K030T-BS2
100 VAC 30 W R88M-W03030S-BS1
50 W R88M-W05030S-BS1
100 W R88M-W10030S-BS1
200 W R88M-W20030S-BS1
69
Ordering Information
Cylinder-style Motors (1,500 r/min) with
Incremental or Absolute Encoders
Note: “S2” at the end of a model name represents models with key
and tap. Motors with a speed of 1,500 r/min do not have the S1
or S3 type.
Cylinder-style Motors (1,000 r/min) with
Incremental Encoders
Note: “S2” at the end of a model name represents models with key
and tap. Motors with a speed of 1,000 r/min do not have the S1
or S3 type.
Cylinder-style Motors (1,000 r/min) with Absolute
Encoders
Note: “S2” at the end of a model name represents models with key
and tap. Motors with a speed of 1,000 r/min do not have the S1
or S3 type.
Flat-style Motors with Incremental Encoders
Specifications Model
Straight
shafts with
key
Without
brake
200 VAC 450 W R88M-W45015T-S2
850 W R88M-W85015T-S2
1.3 kW R88M-W1K315T-S2
1.8 kW R88M-W1K815T-S2
2.9 kW R88M-W2K915T-S2
4.4 kW R88M-W4K415T-S2
5.5 kW R88M-W5K515T-S2
7.5 kW R88M-W7K515T-S2
11 kW R88M-W11K015T-S2
15 kW R88M-W15K015T-S2
With
brake
450 W R88M-W45015T-BS2
850 W R88M-W85015T-BS2
1.3 kW R88M-W1K315T-BS2
1.8 kW R88M-W1K815T-BS2
2.9 kW R88M-W2K915T-BS2
4.4 kW R88M-W4K415T-BS2
5.5 kW R88M-W5K515T-BS2
7.5 kW R88M-W7K515T-BS2
11 kW R88M-W11K015T-BS2
15 kW R88M-W15K015T-BS2
Specifications Model
Straight
shafts with
key
Without
brake
200 VAC 300 W R88M-W30010H-S2
600 W R88M-W60010H-S2
900 W R88M-W90010H-S2
1.2 kW R88M-W1K210H-S2
2 kW R88M-W2K010H-S2
3 kW R88M-W3K010H-S2
4 kW R88M-W4K010H-S2
5.5 kW R88M-W5K510H-S2
With
brake
300 W R88M-W30010H-BS2
600 W R88M-W60010H-BS2
900 W R88M-W90010H-BS2
1.2 kW R88M-W1K210H-BS2
2 kW R88M-W2K010H-BS2
3 kW R88M-W3K010H-BS2
4 kW R88M-W4K010H-BS2
5.5 kW R88M-W5K510H-BS2
Specifications Model
Straight
shafts
with key
Without
brake
200 VAC 300 W R88M-W30010T-S2
600 W R88M-W60010T-S2
900 W R88M-W90010T-S2
1.2 kW R88M-W1K210T-S2
2 kW R88M-W2K010T-S2
3 kW R88M-W3K010T-S2
4 kW R88M-W4K010T-S2
5.5 kW R88M-W5K510T-S2
With
brake
300 W R88M-W30010T-BS2
600 W R88M-W60010T-BS2
900 W R88M-W90010T-BS2
1.2 kW R88M-W1K210T-BS2
2 kW R88M-W2K010T-BS2
3 kW R88M-W3K010T-BS2
4 kW R88M-W4K010T-BS2
5.5 kW R88M-W5K510T-BS2
Specifications Model
Straight
shafts
without
key
Without
brake
200 VAC 100 W R88M-WP10030H
200 W R88M-WP20030H
400 W R88M-WP40030H
750 W R88M-WP75030H
1.5 kW R88M-WP1K530H
100 VAC 100 W R88M-WP10030L
200 W R88M-WP20030L
With
brake
200 VAC 100 W R88M-WP10030H-B
200 W R88M-WP20030H-B
400 W R88M-WP40030H-B
750 W R88M-WP75030H-B
1.5 kW R88M-WP1K530H-B
100 VAC 100 W R88M-WP10030L-B
200 W R88M-WP20030L-B
Straight
shafts
with key
Without
brake
200 VAC 100 W R88M-WP10030H-S1
200 W R88M-WP20030H-S1
400 W R88M-WP40030H-S1
750 W R88M-WP75030H-S1
1.5 kW R88M-WP1K530H-S1
100 VAC 100 W R88M-WP10030L-S1
200 W R88M-WP20030L-S1
With
brake
200 VAC 100 W R88M-WP10030H-BS1
200 W R88M-WP20030H-BS1
400 W R88M-WP40030H-BS1
750 W R88M-WP75030H-BS1
1.5 kW R88M-WP1K530H-BS1
100 VAC 100 W R88M-WP10030L-BS1
200 W R88M-WP20030L-BS1
70
Ordering Information
Flat-style Motors with Absolute Encoders Flat-style Motors (Waterproof Type) with
Incremental Encoders
Note: Precautions When Selecting Products
1. The standard cable (R88A-CAW@) can be connected, but it is not
water resistant. Use a water-resistant cable in locations subject to
water.
2. The cable attached to the Motor is water resistant, but the con-
nector is not. Do not allow water to come into contact with the
connector to protect the terminals.
Specifications Model
Straight
shafts
without
key
Without
brake
200 VAC 100 W R88M-WP10030T
200 W R88M-WP20030T
400 W R88M-WP40030T
750 W R88M-WP75030T
1.5 kW R88M-WP1K530T
100 VAC 100 W R88M-WP10030S
200 W R88M-WP20030S
With
brake
200 VAC 100 W R88M-WP10030T-B
200 W R88M-WP20030T-B
400 W R88M-WP40030T-B
750 W R88M-WP75030T-B
1.5 kW R88M-WP1K530T-B
100 VAC 100 W R88M-WP10030S-B
200 W R88M-WP20030S-B
Straight
shafts
with key
Without
brake
200 VAC 100 W R88M-WP10030T-S1
200 W R88M-WP20030T-S1
400 W R88M-WP40030T-S1
750 W R88M-WP75030T-S1
1.5 kW R88M-WP1K530T-S1
100 VAC 100 W R88M-WP10030S-S1
200 W R88M-WP20030S-S1
With
brake
200 VAC 100 W R88M-WP10030T-BS1
200 W R88M-WP20030T-BS1
400 W R88M-WP40030T-BS1
750 W R88M-WP75030T-BS1
1.5 kW R88M-WP1K530T-BS1
100 VAC 100 W R88M-WP10030S-BS1
200 W R88M-WP20030S-BS1
Specifications Model
Straight
shafts
without
key
Without
brake
200 VAC 100 W R88M-WP10030H-W
200 W R88M-WP20030H-W
400 W R88M-WP40030H-W
750 W R88M-WP75030H-W
1.5 kW R88M-WP1K530H-W
100 VAC 100 W R88M-WP10030L-W
200 W R88M-WP20030L-W
With
brake
200 VAC 100 W R88M-WP10030H-BW
200 W R88M-WP20030H-BW
400 W R88M-WP40030H-BW
750 W R88M-WP75030H-BW
1.5 kW R88M-WP1K530H-BW
100 VAC 100 W R88M-WP10030L-BW
200 W R88M-WP20030L-BW
Straight
shafts with
key
Without
brake
200 VAC 100 W R88M-WP10030H-WS1
200 W R88M-WP20030H-WS1
400 W R88M-WP40030H-WS1
750 W R88M-WP75030H-WS1
1.5 kW R88M-WP1K530H-WS1
100 VAC 100 W R88M-WP10030L-WS1
200 W R88M-WP20030L-WS1
With
brake
200 VAC 100 W R88M-WP10030H-
BWS1
200 W R88M-WP20030H-
BWS1
400 W R88M-WP40030H-
BWS1
750 W R88M-WP75030H-
BWS1
1.5 kW R88M-WP1K530H-
BWS1
100 VAC 100 W R88M-WP10030L-BWS1
200 W R88M-WP20030L-BWS1
71
Ordering Information
Flat-style Motors (Waterproof Type) with Absolute
Encoders
Note: Precautions When Selecting Products
1. The standard cable (R88A-CAW@) can be connected, but it is not
water resistant. Use a water-resistant cable in locations subject to
water.
2. The cable attached to the Motor is water resistant, but the con-
nector is not. Do not allow water to come into contact with the
connector to protect the terminals.
■ AC Servodrivers
Note: When ordering the R88D-WT60H/75H/150H, a regenerative resis-
tor must also be ordered.
Specifications Model
Straight
shafts
without
key
Without
brake
200 VAC 100 W R88M-WP10030T-W
200 W R88M-WP20030T-W
400 W R88M-WP40030T-W
750 W R88M-WP75030T-W
1.5 kW R88M-WP1K530T-W
100 VAC 100 W R88M-WP10030S-W
200 W R88M-WP20030S-W
With
brake
200 VAC 100 W R88M-WP10030T-BW
200 W R88M-WP20030T-BW
400 W R88M-WP40030T-BW
750 W R88M-WP75030T-BW
1.5 kW R88M-WP1K530T-BW
100 VAC 100 W R88M-WP10030S-BW
200 W R88M-WP20030S-BW
Straight
shafts
with key
Without
brake
200 VAC 100 W R88M-WP10030T-WS1
200 W R88M-WP20030T-WS1
400 W R88M-WP40030T-WS1
750 W R88M-WP75030T-WS1
1.5 kW R88M-WP1K530T-WS1
100 VAC 100 W R88M-WP10030S-WS1
200 W R88M-WP20030S-WS1
With
brake
200 VAC 100 W R88M-WP10030T-BWS1
200 W R88M-WP20030T-BWS1
400 W R88M-WP40030T-BWS1
750 W R88M-WP75030T-BWS1
1.5 kW R88M-WP1K530T-BWS1
100 VAC 100 W R88M-WP10030S-BWS1
200 W R88M-WP20030S-BWS1
Specifications Model
Common to analog
and pulse train inputs
Common to incre-
mental and absolute
encoders
200 VAC 30 W R88D-WTA3H
50 W R88D-WTA5H
100 W R88D-WT01H
200 W R88D-WT02H
400 W R88D-WT04H
500 W R88D-WT05H
750 W R88D-WT08H
1 kW R88D-WT10H
1.5 kW R88D-WT15H
2 kW R88D-WT20H
3 kW R88D-WT30H
5 kW R88D-WT50H
6 kW
R88D-WT60H (See note.)
7.5 kW
R88D-WT75H (See note.)
15 kW
R88D-WT150H (See note.)
100 VAC 30 W R88D-WTA3HL
50 W R88D-WTA5HL
100 W R88D-WT01HL
200 W R88D-WT02HL
72
Ordering Information
■Power Cables
Specification Model
For motors
without
brakes
30-W to 750-W
cylinder-style mo-
tors (3,000 r/min)
100-W to 750-W
flat-style motors
3 m R88A-CAWA003S
5 m R88A-CAWA005S
10 m R88A-CAWA010S
15 m R88A-CAWA015S
20 m R88A-CAWA020S
30 m R88A-CAWA030S
40 m R88A-CAWA040S
50 m R88A-CAWA050S
1.5-kW flat-style
motors
3 m R88A-CAWB003S
5 m R88A-CAWB005S
10 m R88A-CAWB010S
15 m R88A-CAWB015S
20 m R88A-CAWB020S
30 m R88A-CAWB030S
40 m R88A-CAWB040S
50 m R88A-CAWB050S
300-W to 900-W
cylinder-style mo-
tors (1,000 r/min)
450-W to 1.3-kW
cylinder-style mo-
tors (1,500 r/min)
1-kW to 2-kW
cylinder-style mo-
tors (3,000 r/min)
3 m R88A-CAWC003S
5 m R88A-CAWC005S
10 m R88A-CAWC010S
15 m R88A-CAWC015S
20 m R88A-CAWC020S
30 m R88A-CAWC030S
40 m R88A-CAWC040S
50 m R88A-CAWC050S
1.2-kW to 3-kW
cylinder-style mo-
tors (1,000 r/min)
1.8-kW to 4.4-kW
cylinder-style mo-
tors (1,500 r/min)
3-kW to 5-kW
cylinder-style mo-
tors (3,000 r/min)
3 m R88A-CAWD003S
5 m R88A-CAWD005S
10 m R88A-CAWD010S
15 m R88A-CAWD015S
20 m R88A-CAWD020S
30 m R88A-CAWD030S
40 m R88A-CAWD040S
50 m R88A-CAWD050S
Specification Model
Motors with
brakes
30-W to 750-W
cylinder-style mo-
tors (3,000 r/min)
100-W to 750-W
flat-style motors
3 m R88A-CAWA003B
5 m R88A-CAWA005B
10 m R88A-CAWA010B
15 m R88A-CAWA015B
20 m R88A-CAWA020B
30 m R88A-CAWA030B
40 m R88A-CAWA040B
50 m R88A-CAWA050B
1.5-kW flat-style
motors
3 m R88A-CAWB003B
5 m R88A-CAWB005B
10 m R88A-CAWB010B
15 m R88A-CAWB015B
20 m R88A-CAWB020B
30 m R88A-CAWB030B
40 m R88A-CAWB040B
50 m R88A-CAWB050B
300-W to 900-W
cylinder-style mo-
tors (1,000 r/min)
450-W to 1.3-kW
cylinder-style mo-
tors (1,500 r/min)
1-kW to 2-kW
cylinder-style mo-
tors (3,000 r/min)
3 m R88A-CAWC003B
5 m R88A-CAWC005B
10 m R88A-CAWC010B
15 m R88A-CAWC015B
20 m R88A-CAWC020B
30 m R88A-CAWC030B
40 m R88A-CAWC040B
50 m R88A-CAWC050B
1.2-kW to 3-kW
cylinder-style mo-
tors (1,000 r/min)
1.8-kW to 4.4-kW
cylinder-style mo-
tors (1,500 r/min)
3-kW to 5-kW
cylinder-style mo-
tors (3,000 r/min)
3 m R88A-CAWD003B
5 m R88A-CAWD005B
10 m R88A-CAWD010B
15 m R88A-CAWD015B
20 m R88A-CAWD020B
30 m R88A-CAWD030B
40 m R88A-CAWD040B
50 m R88A-CAWD050B
73
Ordering Information
Note: 1. When using a motor with brake, a cable for the power con-
nector is required in addition to the cable for the brake con-
nector.
2. The boxes (@@@) indicate cable length.
■ Encoder Cables
Note: All these cables are common to incremental and absolute en-
coders.
■ Control Cables and Relay Units
Specification Model
4-kW cylinder-style mo-
tors (1,000 r/min)
Power con-
nector for
the motor
3 m R88A-CAWE003S
5 m R88A-CAWE005S
10 m R88A-CAWE010S
15 m R88A-CAWE015S
20 m R88A-CAWE020S
30 m R88A-CAWE030S
40 m R88A-CAWE040S
50 m R88A-CAWE050S
Brake con-
nector for
the motor
3 m R88A-CAWE003B
(See note 1.)
5 m R88A-CAWE005B
(See note 1.)
10 m R88A-CAWE010B
(See note 1.)
15 m R88A-CAWE015B
(See note 1.)
20 m R88A-CAWE020B
(See note 1.)
30 m R88A-CAWE030B
(See note 1.)
40 m R88A-CAWE040B
(See note 1.)
50 m R88A-CAWE050B
(See note 1.)
5.5-kW cylinder-style
motors (1,000 r/min)
5.5-kW/11-kW cylinder-
style motors
(1,500 r/min)
Power con-
nector for
the motor
3 m R88A-CAWF003S
5 m R88A-CAWF005S
10 m R88A-CAWF010S
15 m R88A-CAWF015S
20 m R88A-CAWF020S
30 m R88A-CAWF030S
40 m R88A-CAWF040S
50 m R88A-CAWF050S
Brake con-
nector for
the motor
--- R88A-CAWE@@@B
(See notes 1 and 2.)
Specification Model
30-W to 750-W cylinder-style
motors (3,000 r/min)
100-W to 1.5-kW flat-style mo-
tors
3 m R88A-CRWA003C
5 m R88A-CRWA005C
10 m R88A-CRWA010C
15 m R88A-CRWA015C
20 m R88A-CRWA020C
30 m R88A-CRWA030C
40 m R88A-CRWA040C
50 m R88A-CRWA050C
1-kW to 5-kW cylinder-style mo-
tors (3,000 r/min)
450-W to 15-kW cylinder-style
motors (1,500 r/min)
300-W to 5.5-kW cylinder-style
motors (1,000 r/min)
3 m R88A-CRWB003N
5 m R88A-CRWB005N
10 m R88A-CRWB010N
15 m R88A-CRWB015N
20 m R88A-CRWB020N
30 m R88A-CRWB030N
40 m R88A-CRWB040N
50 m R88A-CRWB050N
Encoder Cable for 70-m connec-
tion (cable line material only)
1 m R88A-CRW001
Specification Model
For Mo-
tion Con-
trol Units
Control cables for 1 axis
(common to SYSMAC CS1,
C200H, and CV-series
PCs)
1 m R88A-CPW001M1
2 m R88A-CPW002M1
3 m R88A-CPW003M1
5 m R88A-CPW005M1
Control cables for 2 axes
(common to SYSMAC CS1,
C200H, and CV-series
PCs)
1 m R88A-CPW001M2
2 m R88A-CPW002M2
3 m R88A-CPW003M2
5 m R88A-CPW005M2
For Posi-
tion Con-
trol Units
and SYS-
MAC
CQM1
Servo Relay
Units
For CS1W-NC113/
133, CJ1W-NC113/
133, C200HW-
NC113, and 3F88M-
DRT141
XW2B-20J6-1B
For CS1W-NC213/
413/233/433, CJ1W-
NC213/413/233/433,
and C200HW-
NC213/413
XW2B-40J6-2B
For CQM1-CPU43,
CQM1H-PLB21
XW2B-20J6-3B
For CJ1M-CPU22/23
(1 axis)
XW2B-20J6-8A
For CJ1M-CPU22/23
(2 axes)
XW2B-40J6-9A
For CJ1W-NC213/
413/223/423 (with
communications sup-
port)
XW2B-40J6-4A
For CS1W-HCPP22-
V1
XW2B-80J7-1A
Servodriver
cable
Relay Units
other than
those listed
below
1 m XW2Z-100J-B4
2 m XW2Z-200J-B4
74
Ordering Information
Note: When using the CS1W-HCP22-V1, cables for both 24-pin con-
nectors and 40-pin connectors are required.
■Parameter Units
Note: This cable can be used to connect the R88A-PR02U Parameter
Unit for U-series to the W-series Servodriver.
■Backup Battery Unit for Absolute
Encoder
■External Regenerative Resistors
■DC Reactors
■Front Panel Mounting Brackets
■Other Peripheral Cables and Connectors
For Posi-
tion Con-
trol Units
and SYS-
MAC
CQM1
Servodriver
cable
XW2B-40J6-
4A
Communica-
tions support
type
1 m XW2Z-100J-B8
2 m XW2Z-200J-B8
XW2B-80J7-
1A
For customiz-
able counters
1 m XW2Z-100J-B11
2 m XW2Z-200J-B11
Cables on
Position
Control Unit
end
For C200HW-
NC113 and
CS1W-
NC113
0.5 m XW2Z-050J-A6
1 m XW2Z-100J-A6
For C200HW-
NC213/413
and CS1W-
NC213/413
0.5 m XW2Z-050J-A7
1 m XW2Z-100J-A7
For CS1W-
NC133
0.5 m XW2Z-050J-A10
1 m XW2Z-100J-A10
For CS1W-
NC233/433
0.5 m XW2Z-050J-A11
1 m XW2Z-100J-A11
For CJ1W-
NC113
0.5 m XW2Z-050J-A14
1 m XW2Z-100J-A14
For CJ1W-
NC213/413
0.5 m XW2Z-050J-A15
1 m XW2Z-100J-A15
For CJ1W-
NC133
0.5 m XW2Z-050J-A18
1 m XW2Z-100J-A18
For CJ1W-
NC233/433
0.5 m XW2Z-050J-A19
1 m XW2Z-100J-A19
For CQM1-
CPU43-V1
and CQM1H-
PLB21
0.5 m XW2Z-050J-A3
1 m XW2Z-100J-A3
For 3F88M-
DRT141
0.5 m XW2Z-050J-A24
1 m XW2Z-100J-A24
For CS1W-
HCP22-V1
(For 24-pin
connectors)
(See note.)
0.5 m XW2Z-050J-A29
1 m XW2Z-100J-A29
For CS1W-
HCP22-V1
(For 40-pin
connectors)
(See note.)
0.5 m XW2Z-050J-A32
1 m XW2Z-100J-A32
For CJ1M-CPU22/23 XW2Z-100J-A27
For gen-
eral-pur-
pose
control-
lers
Control cables with connec-
tor at one end
1 m R88A-CPW001S
2 m R88A-CPW002S
Cables for relay terminal
block
1 m R88A-CTW001N
2 m R88A-CTW002N
Relay terminal block XW2B-50G5
Specification Model
Handy type for OMNUC W-series
(with 1-m cable)
R88A-PR02W
Cable for U-series (2 m) (See note.) R88A-CCW002C
Specification Model
Specification Model
R88D-WT@H (@: 50 or less) R88A-BAT01W
R88D-WT60H/75H/150H R88A-BAT02W
Specification Model
220 W, 47 ΩR88A-RR22047S
880 W, 6.25 ΩR88A-RR88006
Specification Model
For R88D-WT30H R88A-PX5059
For R88D-WT15H/WT20H R88A-PX5060
For R88D-WT05H/WT08H/WT10H R88A-PX5061
For R88D-WT02HL R88A-PX5062
For R88D-WTA3HL/WTA5HL/WT01HL R88A-PX5063
For R88D-WT50H R88A-PX5068
For R88D-WT04H R88A-PX5069
For R88D-WT02H R88A-PX5070
For R88D-WTA3H/WTA5H/WT01H R88A-PX5071
Specification Model
For R88D-WTA3@ to WT10H R88A-TK01W
For R88D-WT15H R88A-TK02W
For R88D-WT20H/WT30H/WT50H R88A-TK03W
Specification Model
Analog monitoring cable (1 m) R88A-CMW001S
Personal computer monitoring cable
(2 m)
R88A-CCW002P2
Control I/O connector CN1 R88A-CNU11C
Encoder connector CN2 R88A-CNW01R
Encoder connector (for R88A-CRWA
motor side)
R88A-CNW02R
75
Ordering Information
■Equipment for Replacing S/R/H/M-series
Products
Mounting Brackets
Power Cables
Encoder Cables
Control Cables
Note: Refer to Replacement Set for S, R, and H Series (I806-E1-@)
for detailed specifications.
Specifications Model
R Series, 60 W/110 W R88A-MF01W
S Series, 50 W/100 W; R Series, 100 W;
H Series, 50 W/100 W
R88A-MF02W
S Series, 500 W/750 W; R Series, 450 W
min., H Series, 500 W/750 W/1,100 W
R88A-MF03W
Specifications Model
S Series, 50 W/100 W/200 W/300 W, without
brake;
R Series, 60 W/100 W/110 W/200 W/300 W/
450 W, without brake
R88A-CAWR0R5S1
S Series, 500 W/750 W, without brake;
R Series, 500 W/600 W/750 W/820 W, with-
out brake
R88A-CAWR0R5S2
R Series, 820 W/1,100 W, with brake R88A-CAWR0R5S3
S Series, 50 W/100 W/200 W/300 W, with
brake;
R Series, 60 W/100 W/110 W/200 W/300 W/
450 W, with brake
R88A-CAWR0R5B1
S Series, 500 W/750 W, with brake;
R Series, 500 W/600 W/750 W/820 W, with
brake
R88A-CAWR0R5B2
R Series, 820 W/1,100 W, with brake R88A-CAWR0R5B3
H Series, 50 W/100 W/200 W/300 W/500W/
750 W, without brake
R88A-CAWH0R5S1
H Series, 1,100 W, without brake R88A-CAWH0R5S2
H Series, 50 W/100 W/200 W/300 W/500 W/
750 W, with brake
R88A-CAWH0R5B1
H Series, 1,100 W, with brake R88A-CAWH0R5B2
Specifications Model
S Series, Servodriver side R88A-CRWS0R3D
S Series, 50 W/100 W/200 W/300 W, Servo-
motor side;
R Series, 100 W/200 W/300 W/450 W, Ser-
vomotor side
R88A-CRWR0R5M1
S Series, 500 W/750 W, Servomotor side R88A-CRWS0R5M
R Series, Servodriver side R88A-CRWR0R3D
R Series, 60 W/110 W, Servomotor side;
H Series, Servomotor side
R88A-CRWH0R5M
R Series, 500 W/600 W/750 W/820 W/
1,100 W, Servomotor side
R88A-CRWR0R5M2
H Series, Servodriver side R88A-CRWH0R3D
Specifications Model
S/R Series, analog input R88A-CPWR0R3A
S/R Series, pulse train input R88A-CPWR0R3P
H Series, analog/pulse train input R88A-CPWH0R3C
M Series, analog/pulse train input R88A-CPWM0R3C
76
Unit Descriptions DeviceNet Option Unit for OMNUC W-series AC Servo Drivers
R88A-NCW152-DRT
DeviceNet Option Unit for OMNUC W-series AC Servo Drivers
R88A-NCW152-DRT
Distributed control with a built-in Single-axis
Position Control Unit, information
management via DeviceNet, and a failure
prediction function for servo systems, can
all be added to OMNUC W-series AC Servo
Drivers with just one Unit.
• Two Roles Performed by One Unit
The Option Unit has both DeviceNet communications functions
and the positioning functions of a Position Control Unit. These
functions can be added to a W-series AC Servo Driver simply by
mounting the Option Unit directly to it.
• Distributed Control of up to 63 Units
Using Option Units allows up to 63 W-series AC Servo Drivers
to be connected as DeviceNet slaves to an open field network
with a total network length of 500 m.
• Batch Handling of Operating Information for Servo Systems
Information that can be displayed at W-series AC Servo Drivers
using monitor functions (e.g., speed commands and speed
feedback) can be read by a PLC using remote I/O functions.
• Failure Prediction and Diagnosis
Up to 1,000 samples of sequential data, such as speed feed-
back and torque commands, can be recorded in units as small
as 250 µs to approx. 8 seconds. Comparison with data recorded
during normal operation allows failure prediction and effective
cause analysis for incorrect operation.
Ordering Information
■List of Models
Product name Model number
DeviceNet Option Unit R88A-NCW152-DRT
External I/O Connector R88A-CNU01R
Cable for Setup Tool
(IBM PC/AT or compatible: 2 m)
R88A-CCW002P4
77
Unit Descriptions DeviceNet Option Unit for OMNUC W-series AC Servo Drivers
R88A-NCW152-DRT
Specifications
Position Control Function Specifications
Item Specifications
Number of control axes 1 axis per slave
Control system Semi-closed loop/full closed-loop control
Controlled driver R88D-WT Servo Drivers
Positioning unit User-specified position units (set freely). The amount moved per step can be set as an electronic gear ratio (set-
ting range: 10,000,000 to 0.0000001)
Operating
specifications
Memory opera-
tion
Step operation and point table operation
Direct operation Direct operation, interrupt feeding, notch signal output positioning, and multi-speed positioning
Move com-
mand specifi-
cations
Type Incremental (positioning according to relative coordinates) or absolute (positioning according to absolute coor-
dinates)
Position com-
mands
Signed, 32-bit data (setting range: −99,999,999 to 99,999,999 steps)
Speed com-
mands
Unsigned, 32-bit data (units: step/min; setting range: 1 to 240,000 steps)
Acceleration/
deceleration
method
Fixed acceleration/
deceleration
Single-step linear acceleration/deceleration, 2-step linear acceleration/deceleration, asym-
metric linear acceleration/deceleration, S-curve acceleration/deceleration, asymmetric S-
curve acceleration/deceleration
Fixed acceleration/
deceleration time
Exponential acceleration/deceleration, exponential acceleration/deceleration with bias, sin-
gle-step linear acceleration/deceleration
Acceleration/
deceleration time
1 to 10,000 ms (time taken to reach maximum speed)
Coordinate sys-
tem settings
Set whether to use the AC Servomotor as a linear axis or a rotary axis.
Speed changes The speed can be switched between 16 settings while positioning during multi-speed operation.
Operation
management/
compensa-
tion functions
Origin search op-
eration
Without lim-
it reversal
Use the ON/OFF signal of any of the following: Origin proximity signal + origin signal, origin signal,
origin proximity signal + phase Z, or phase Z
With limit
reversal
Use the ON/OFF signal of any of the following: Origin proximity signal + origin signal, origin signal,
or origin proximity signal + Phase Z
Backlash com-
pensation
0 to 32,767 steps
Jog operation Based on the origin position when power is turned ON and after origin search
Indexing opera-
tion
Positioning performed with 1 motor revolution divided equally by a specified number (range: 1 to 32,767).
Software limits Decelerates to a stop at a specified position. (The direction can be specified as either positive or negative in the
range −99,999,999 to 99,999,999.)
Emergency stop/
deceleration stop
Possible via remote I/O communications or using input signal.
Present position
preset
Possible via remote I/O communications.
Trace function Analog trace
data (Select up
to 2 elements.)
Command pulse speed (r/min), position deviation (command units), speed feedback (r/min), or
torque commands (%)
ON/OFF trace
data (Select up
to 2 elements.)
Sensor-ON input, alarm output, positioning completed output 1, speed coincidence output,
motor revolution detection output, servo ready output, current limit detection output, speed
control detection output, brake interlock output, warning output, positioning completed output
2, alarm code output 1, alarm code output 2, alarm code output 3
Trigger data Analog trace data (rising edge, falling edge, or rising/falling edge)
ON/OFF trace data (rising edge, falling edge, or rising/falling edge)
Data sampling Sampling cycle: Set in 250-µs units (range: 250 to 8,191,750 µs)
Number of samples: 1,000 samples (fixed)
Reading monitor
items
Moni-
tor
items
Speed feedback (r/min), torque commands (%), number of pulses from phase Z (pulses), electrical an-
gle (°), input signal monitor (no units), output signal monitor (no units), command pulse speed display
(r/min), position deviation (command units), cumulative load rate (%), regenerative load rate (%), dy-
namic brake resistance load rate (%), input pulse counter (rightmost 16 bits; command units), feed-
back pulse counter (rightmost 16 bits; pulses)
78
Unit Descriptions DeviceNet Option Unit for OMNUC W-series AC Servo Drivers
R88A-NCW152-DRT
DeviceNet Communications Specifications
General Specifications
Dimensions (Unit: mm)
R88A-NCW152-DRT
Item Details
DeviceNet
Communications
Unit classification Slave Unit
Baud rate 125, 250, or 500 kbps (selected with rotary switch)
Communications
functions
Remote I/O communications (operates as slave) and explicit message communications (sends
explicit messages)
Communications
contents
Remote I/O
communications
•Move commands for positioning
•Origin compensation (when absolute encoder is used)
•Reading and writing Servo Driver and DeviceNet Option Unit parameters
•Reading monitor items
•Present position compensation
•Alarm reset
Explicit message
communications
•Setting trace function
•Reading trace data
•Reading and writing Servo Driver and DeviceNet Option Unit parameters
Connection format Combinations of multi-drop method and T-branch method
Maximum number of
connectable nodes
64 (This figure includes the Master Unit, Slave Units, and Configurator (if connected).)
Node address setting 0 to 63 (selected with rotary switch)
Item Details
Applicable Servo Drivers R88D-WT@ (software version 14 or later)
Mounting method Mounted to the side of R88D-WT@ Servo Drivers
Basic
specifications
Power supply voltage Unit: Supplied from the Servo Driver
DeviceNet: 11 to 25-VDC Isolated Power Supply Unit
Power consumption 1.3 W (current consumption: 250 mA)
Ambient operating temperature and humidity 0 to 55°C, 90% max. (with no condensation or corrosive gases)
Ambient storage temperature and humidity −20 to 85°C, 90% max. (with no corrosive gases)
Vibration resistance 4.9 m/s2
External dimensions 20 × 142 × 128 mm (W × H × D)
Approximate weight 0.2 kg
24
20
130
142
128
79
Unit Descriptions DeviceNet Option Unit for OMNUC W-series AC Servo Drivers
R88A-NCW152-DRT
Connection Diagram (for Mounting to OMNUC W-series Products)
Three-phase (See *6.)
*1. represents a twisted-pair cable.
*2. Primary filter
*3. Connect when using an absolute encoder.
*4. Used only with an absolute encoder.
*5. When using an external regenerative resistor, connect it between B1 and B2.
(When the capacity is 6 kW, connect a Regenerative Resistor Unit.)
*6. For single-phase connection, refer to page 62. The wiring is different only around L1, L2, L3, L1C, L2C, the main circuit power supply, and the
main circuit contactor.
Noise filter
M
RE
ServomotorA (1)
B (2)
C (3)
D (4)
U
V
W
Encoder
ALMCOM
46
Not used
ZERO
EXTP
NOT
POT
ORG
Not used
+24VIN
BATGND
BAT
P
+*1
−
Origin Proximity
Forward Run Prohibit
Reverse Run Prohibit
Interrupt
Origin
45
44
43
42
41
40
47
22
21
CN1
CN2
3.3k
3.3k
3.3k
3.3k
3.3k
3.3k
3.3k
ALM
AL01
AL02
AL03
GND
Alarm Output
32
31
30
29
28
27
26
25
39
1
38
37
1MC
L1
*5
1MC X
1MC
Main circuit power supply
ONOFF
L2
L3
B2B1
L1C
L2C
+
OMNUC W-series
Servodriver
Backup battery *3
2.8 to 4.5 V
24 VDC
READYCOM
READY
Servo Ready
BKIRCOM
BKIR
Brake Interlock
INP1
Positioning Completed
INP1COM
DeviceNet
Option Unit
Main circuit contactor
Surge killer
*6
Be sure to ground.
Frame ground (FG)
Connector shell
Connect the shield wire to the connector shell.
Maximum operating
voltage: 30 VDC
Maximum output
current: 50 mA DC
Alarm Code Output
(Maximum operating voltage: 30 VDC)
(Maximum output current: 20 mA DC)
Be sure to prepare the end of the
shield wire properly.
Connect a DC reactor for suppressing
power supply harmonic waves between
and terminals (No connecting terminal
is provided for a capacity of 6 kW or more.)
(50/60 Hz)
Three-phase 200 to 230 VAC +10%
−15%
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Complete “Terms and Conditions of Sale” for product purchase and use are on Omron’s website
at www.omron247.com – under the “About Us” tab, in the Legal Matters section.
ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.
To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527.
OMRON ELECTRONICS LLC
1 Commerce Drive
Schaumburg, IL 60173
Tel: 847.843.7900
For U.S. technical support or other
inquiries: 800.556.6766
OMRON CANADA, INC.
885 Milner Avenue
Toronto, Ontario M1B 5V8
Tel: 416.286.6465
MEXICO SALES OFFICES
Mexico, D.F. 555.660.3144
Ciudad Juárez 656.623.7083
Monterrey, N.L. 818.377.4281
Querétaro 442.135.4510
BRAZIL SALES OFFICE
Sao Paulo 55.11.2101.6310
ARGENTINA SALES OFFICE
Cono Sur 54.114.787.1129
CHILE SALES OFFICE
Santiago 562.206.4592
OTHER LATIN AMERICAN SALES
mela@omron.com
OMRON ON-LINE
Global -
www.omron.com
USA -
www.omron247.com
Canada -
www.omron.ca
Brazil -
www.omron.com.br
Latin America -
www.espanol.omron.com
Cat. No. I805-E1-06............................5/07............Specifications subject to change without notice..............Printed in USA
Mouser Electronics
Authorized Distributor
Click to View Pricing, Inventory, Delivery & Lifecycle Information:
Omron:
R88A-CAWE015B R88A-CAWF003S R88A-CCW002C R88A-CPW003M2 R88A-CPW002M1 R88A-PX5068
R88A-CAWE040B R88D-WT02HL R88A-RR88006 R88A-CAWE020S R88D-WT01HL R88A-CAWE030B R88A-
PX5071 R88D-WT60H R88A-CTW002N R88A-CAWF050S R88A-PX5070 R88A-CAWE015S R88A-CPW005M1
R88A-CAWE050B R88A-CAWE010B R88A-CPW002S R88A-TK03W R88D-WT05H R88A-CAWE003B R88A-
TK02W R88A-CAWE005S R88A-CAWE050S R88A-CAWE020B R88A-CPW005M2 R88D-WTA5H R88A-CPW001S
R88D-WTA3H R88D-WTA3HL R88A-CAWF015S R88A-CAWF040S R88A-CAWE005B R88A-CAWF020S R88A-
CPW002M2 R88A-CAWE003S R88D-WTA5HL R88A-CTW001N R88A-PX5069 R88A-CAWE040S R88A-
CAWE030S R88A-CAWF030S R88A-CAWF005S R88A-CPW003M1 R88A-CAWE010S R88A-CAWF010S R88A-
BAT02W R88D-WT75H
