R7M-A75030 Omron, R7M-A75030 Datasheet

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R7M-A75030

Manufacturer Part Number
R7M-A75030
Description
MOTORSERVO CYLINDER 750W W/O KEY
Manufacturer
Omron
Datasheet

Specifications of R7M-A75030

Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
R7MA75030

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Part Number
Manufacturer
Quantity
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Part Number:
R7M-A75030-S1
Manufacturer:
CINCH
Quantity:
200
Cat. No. I533-E1-03
USER’S MANUAL
SMARTSTEP A
SERIES
MODELS R7M-A@ (Servomotors)
R7D-AP@ (Servo Drivers)
Servomotors/Servo Drivers

Related parts for R7M-A75030

R7M-A75030 Summary of contents

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... Cat. No. I533-E1-03 SMARTSTEP A USER’S MANUAL MODELS R7M-A@ (Servomotors) R7D-AP@ (Servo Drivers) Servomotors/Servo Drivers SERIES ...

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... Please read this manual thoroughly and handle and operate the product with care. Please keep this manual handy for reference after reading it ensure safe and proper use of the OMRON Inverters, please read this USER'S MANUAL (Cat. No. I533-E1) to gain sufficient knowledge of the devices, safety information, and precautions before actual use ...

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... USER’S MANUAL SMARTSTEP A Servomotors/Servo Drivers MODELS R7M-A@ (Servomotors) R7D-AP@ (Servo Drivers) SERIES ...

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... OMRON. No patent liability is assumed with respect to the use of the information contained herein. Moreover, because OMRON is con- stantly striving to improve its high-quality products, the information contained in this manual is subject to change without notice ...

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... Make sure that these protective covers are on the product before use. Consult your OMRON representative when using the product after a long period of storage. !WARNING Always connect the frame ground terminals of the Servo Driver and the Servomo- tor to a class-3 ground (to 100 Ω ...

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Do not store or install the product in the following places. Doing so may result in fire, electric shock, or damage to the product. • Locations subject to direct sunlight. • Locations subject to temperatures or humidity outside the ...

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Be sure that all the mounting screws, terminal screws, and cable connector screws are tightened to the torque specified in the relevant manuals. Incorrect tightening torque may result in malfunction. !Caution Use crimp terminals for wiring. Do not connect ...

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Maintenance and Inspection Precautions !WARNING Do not attempt to disassemble, repair, or modify any Units. Any attempt may result in malfunction, fire, or electric shock. !Caution Resume operation only after transferring to the new Unit the contents ...

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Warning Labels Warning labels are pasted on the product as shown in the following illustration. Be sure to follow the instructions given there. Warning label Example from R7D-AP01L Example from R7D-AP01L ...

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... 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 event shall the responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS ...

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... Application Considerations OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of products in the customer's application or use of the products. At the customer's request, OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the products. This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product, machine, system, or other application or use ...

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... Performance data given in this manual 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 information in this manual has been carefully checked and is believed to be accurate ...

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Chapter 1. Introduction 1-1 Features. ...

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Introduction 1-1 Features 1-2 System Configuration 1-3 Servo Driver Nomenclature 1-4 Applicable Standards 1-5 System Block Diagrams Chapter 1 ...

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Introduction 1-1 Features The SMARTSTEP A-series Servomotors and Servo Drivers have been developed as pulse string input-type Position Controllers to replace stepping motors in simple positioning systems. The SMARTSTEP A-series Servomotors and Servo Drivers combine the stepping motor’s ease of ...

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Introduction Note Using a Parameter Unit or personal computer enables operation with parameter settings. Cylinder-style and Flat-style Servomotors ■ The SMARTSTEP A Series offers Flanged Cylinder-style Servomotors, with a smaller mounting area, and Flat-style Servomotors, with a shorter overall length. ...

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... REF POWER POWER VCMP VCMP R7A–PR02A PARAMETER UNIT SCROLL SCROLL MODE/SET MODE/SET RESET JOG JOG DATA DATA RUN RUN READ READ WRITE WRITE DRIVER DRIVER DRIVER DRIVER R7A-PR02A Parameter Unit (Hand-held) SMARTSTEP A-series R7D-AP@ Servo Driver SMARTSTEP A-series R7M-A@ Servomotor ...

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Introduction 1-3 Servo Driver Nomenclature Main-circuit power supply indicator Main-circuit power supply input terminals DC reactor connection terminals Control-circuit power supply input terminals External regeneration resistance terminals Servomotor power terminals FG terminals for power supply and servomotor power Chapter 1 ...

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Introduction 1-4 Applicable Standards EC Directives ■ EC Directives Product Low Voltage AC Servo Drivers Directive AC Servomotors EMC Directives AC Servo Drivers and AC Servomotors Note Installation under the conditions stipulated in 3-2-5 EMC-compatible Wiring must be met to ...

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Introduction 1-5 System Block Diagrams 100 V AC: R7D-APA3L/-APA5L/-AP01L/-AP02L/-AP04L ■ AC Servo Driver 1 2 Fuse Relay drive Voltage detection L1C ∼ − DC/DC − ∼ conversion L2C Alarm code display CN4 Analog monitor ...

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Introduction 200 V AC: R7D-APA3H/-APA5H/-AP01H/-AP02H/-AP04H ■ AC Servo Driver Fuse − Relay drive Voltage detection L1C ∼ DC/DC − − ∼ conversion L2C Alarm code display CN4 Analog monitor ...

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Standard Models and Specifications 2-1 Standard Models 2-2 External and Mounted Dimensions 2-3 Servo Driver Specifications 2-4 Servomotor Specifications 2-5 Reduction Gear Specifications 2-6 Cable and Connector Specifications 2-7 Servo Relay Units and Cable Specifications 2-8 Parameter Unit Specifications 2-9 ...

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... V AC R7M-A40030 R7M-A75030 R7M-A03030-S1 R7M-A05030-S1 R7M-A10030-S1 R7M-A20030-S1 R7M-A40030-S1 R7M-A75030-S1 R7M-A03030-B R7M-A05030-B R7M-A10030-B R7M-A20030-B R7M-A40030-B R7M-A75030-B R7M-A03030-BS1 R7M-A05030-BS1 R7M-A10030-BS1 R7M-A20030-BS1 R7M-A40030-BS1 R7M-A75030-BS1 Model R7M-AP10030 R7M-AP20030 R7M-AP40030 R7M-AP75030 R7M-AP10030-S1 R7M-AP20030-S1 R7M-AP40030-S1 R7M-AP75030-S1 R7M-AP10030-B R7M-AP20030-B R7M-AP40030-B R7M-AP75030-B R7M-AP10030-BS1 R7M-AP20030-BS1 R7M-AP40030-BS1 R7M-AP75030-BS1 Chapter 2 Model ...

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Standard Models and Specifications Reduction Gears (Straight Shaft with Key) ■ ● For Cylinder-style Servomotors (Backlash = 3′ Max.) Specifications Servomotor Reduction gears capacity (deceleration ratio 1/5 R7G-VRSFPB05B50 1/9 R7G-VRSFPB09B50 1/15 R7G-VRSFPB15B50 1/25 R7G-VRSFPB25B50 100 W 1/5 R7G-VRSFPB05B100 ...

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Standard Models and Specifications Servo Relay Units for CN1 ■ Specifications Servo For CS1W-NC113/133 Relay Unit CJ1W-NC113/133 C200HW-NC113 C200H-NC112 3F88M-DRT141 (No communications supported.) For CS1W-NC213/233/413/433 CJ1W-NC213/233/413/433 C200HW-NC213/413 C500-NC113/211 C200H-NC211 (No communications supported.) For CS1W-HCP22 CQM1H-PLB21 CQM1-CPU43-V1 (No communications supported.) For ...

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Standard Models and Specifications Peripheral Cable Connectors ■ Specifications Analog Monitor Cable (CN4 R88A-CMW001S Computer Monitor Cable (CN3) DOS 2 m R7A-CCA002P2 PC98 2 m R7A-CCA002P3 Control I/O Connector (CN1) Encoder Connector (CN2) Encoder Connector (Servomotor end) Communications ...

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Standard Models and Specifications 2-2 External and Mounted Dimensions 2-2-1 Servo Drivers ■ Single-phase 100 V AC: R7D-APA3L/-APA5L/-AP01L/-AP02L ( 200 W) Single-phase 200 V AC: R7D-APA3H/-APA5H/-AP01H/-AP02H ( 200 W) ● Wall Mounting External dimensions 55 (75) ...

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Standard Models and Specifications Single-phase 100 V AC: R7D-AP04L (400 W) ■ Single-phase 200 V AC: R7D-AP04H (400 W) ● Wall Mounting External dimensions 5 dia ● Front Panel Mounting (Using Mounting Brackets) External dimensions 5 dia. ...

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Standard Models and Specifications Single-phase/Three-phase 200 V AC: R7D-AP08H (750 W) ■ ● Wall Mounting External dimensions 5 dia. 90 ● Front Panel Mounting (Using Mounting Brackets) External dimensions 5 dia. 52 12.5 5 43.5 42 22.5 2-8 (75) 180 ...

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Standard Models and Specifications 2-2-2 Parameter Unit R7A-PR02A Hand-held Parameter Unit ■ 70 B.B B.B INP INP TGON TGON REF REF VCMP VCMP R7A–PR02A PARAMETER UNIT SCROLL MODE/SET RESET DATA RU N READ WRITE WRITE DRIVER DRIVER ...

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... LL 25 Model LL R7M-A03030-@ 69.5 R7M-A05030-@ 77 R7M-A10030-@ 94.5 Cylinder-style Servomotors with a Brake ■ ● 30 W/50 W/100 W R7M-A03030-B(S1)/-A05030-B(S1)/-A10030-B(S1) 300±30 6 dia. 7 dia. 300±30 19 Model LL R7M-A03030-B@ 101 R7M-A05030-B@ 108.5 R7M-A10030-B@ 135 2-10 21.5 5 Two, 4.3 dia. ...

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... R7M-A40030-@ 124.5 R7M-A75030-@ 145 Cylinder-style Servomotors with a Brake ■ ● 200 W/400 W/750 W R7M-A20030-B(S1)/-A40030-B(S1)/-A75030-B(S1) 300±30 6 dia. 7 dia. 300± Model LL R7M-A20030-B@ 136 R7M-A40030-B@ 164 R7M-A75030-B@ 189.5 Dimensions of output section of 750-W Servomotors 21.5 Four, Z dia Dimensions (mm 50h7 50h7 40 ...

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... Standard Models and Specifications Flat-style Servomotors without a Brake ■ ● 100 W/200 W/400 W/750 W R7M-AP10030(-S1)/-AP20030(-S1)/-AP40030(-S1)/AP75030(-S1) 300±30 13 300± Model Basic servomotor dimensions R7M-AP10030 R7M-AP20030 R7M-AP40030-@ 87 R7M-AP75030-@ 86.5 40 120 145 110h7 3.5 10 Flat-style Servomotors with a Brake ■ ● ...

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Standard Models and Specifications 2-2-4 Reduction Gears For Cylinder-style Servomotors (Backlash = 3 ■ Model 1/5 R7G-VRSFPB05B50 67.5 32 1/9 R7G-VRSFPB09B50 67.5 32 1/15 R7G-VRSFPB15B50 78 32 1/25 R7G-VRSFPB25B50 78 32 100 W 1/5 R7G-VRSFPB05B100 67.5 ...

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Standard Models and Specifications For Cylinder-style Servomotors (Backlash = 45 ■ Model 1/5 R7G-RGSF05B50 67.5 32 1/9 R7G-RGSF09B50 67.5 32 1/15 R7G-RGSF15B50 78 32 1/25 R7G-RGSF25B50 78 32 100 W 1/5 R7G-RGSF05B100 67.5 32 1/9 R7G-RGSF09B100 ...

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Standard Models and Specifications For Flat-style Servomotors (Backlash = 3 ■ Model LM 100 W 1/5 R7G-VRSFPB05B100P 72.5 32 1/9 R7G-VRSFPB09B100P 72.5 32 1/15 R7G-VRSFPB15B100P 83 1/25 R7G-VRSFPB25C100P 92 200 W 1/5 R7G-VRSFPB05B200P 72.5 32 1/9 R7G-VRSFPB09C400P 93.5 50 1/15 ...

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Standard Models and Specifications For Flat-style Servomotors (Backlash = 45 ■ Model LM LR 100 W 1/5 R7G-RGSF05B100P 72.5 32 1/9 R7G-RGSF09B100P 72.5 32 1/15 R7G-RGSF15B100P 78 32 1/25 R7G-RGSF25B100P 78 32 200 W 1/5 R7G-RGSF05B200P 72.5 32 1/9 R7G-RGSF09C400P ...

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Standard Models and Specifications 2-3 Servo Driver Specifications SMARTSTEP A-series R7D-AP@ Servo Drivers ■ 2-3-1 General Specifications Item Ambient operating temperature Ambient operating humidity Ambient storage temperature Ambient storage humidity Storage and operating atmo- sphere Vibration resistance Impact resistance Insulation ...

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... Weight Approx. 0.8 kg Approx. 0.8 kg Approx. 0.8 kg Approx. 0.8 kg Approx. 1.1 kg Applicable Servomotor 30 W wattage Applicable Cylinder- A03030 Servomotor style (R7M-) Flat-style – 200-V AC Input Type (Single-phase Input) ● Item R7D- APA3H Continuous output cur- 0.42 A rent (rms) Momentary maximum 1 ...

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... Approx. 0.8 kg Applicable Servomotor 30 W wattage Applicable Cylinder- A03030 Servomotor type (R7M-) Flat-type – 2-3-3 Terminal Block Specifications Signal Function L1 Main circuits power R7D–AP@H: Single-phase 200/230 V AC (170 to 253 V AC) 50/60 Hz supply input R7D–AP@L: Single-phase 100/115 V AC (85 to 127 V AC) 50/ Note: Only the R7D– ...

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Standard Models and Specifications 2-3-4 Control I/O Specifications (CN1) Control I/O and External Signals for Position Control ■ 200 Ω +CW 1 Reverse pulse −CW 2 200 Ω +CCW 3 Forward pulse −CCW 4 Deviation 200 Ω +ECRST 5 counter ...

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Standard Models and Specifications Control I/O Signals ■ ● CN1 Control Inputs Pin Signal name Function No. 1 +PULS/CW/A Feed pulses, reverse pulses ° phase 2 –PULS/CW/A difference pulses (phase A) 3 +SIGN/CCW/B Direction signal, for- ward pulses, ...

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Standard Models and Specifications Interface for RS-422 ● Pin Signal name No. 20 RXD+ Reception data 21 RXD– 22 TXD+ Transmission data 23 TXD– Terminating resistance terminal 19 GND RS-422A ground CN1: Pin Arrangement ■ 1 /+CW/+A − ...

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Standard Models and Specifications Control Input Circuits ■ ● Position Command Pulse Inputs and Deviation Counter Reset Inputs Line Driver Input Controller + − Applicable line driver: AM26LS31A or equivalent Open Collector Input Using External Power Supply Controller Vcc R ...

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Standard Models and Specifications Control Output Circuits ■ ● Sequence and Alarm Outputs Servo Driver To other output circuits + − (See note.) Note Automatic-reset fuses are used for output protection. If overcurrent causes the fuse to operate, current will ...

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Standard Models and Specifications Control Input Details ■ ● Feed Pulse/Direction Signal, Reverse Pulse/Forward Pulse, +90° Phase Difference Signals (Phase A/Phase B) CN1 Pin Numbers CN1 pin 1: +Feed Pulse (+PULS), +Reverse Pulse (+CW), +90 ° Phase Difference Signals (Phase ...

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Standard Models and Specifications Logic Pn200.0 Command pulse setting mode 5 Feed pulse and direction signal 6 Reverse pulse and forward pulse 90 ° phase differ- 7 ence signals ( × ° phase differ- 8 ence signals ( ...

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Standard Models and Specifications Command Pulse Timing The following wave forms are for positive logic. Conditions are the same for negative logic. Command pulse mode Feed pulse and direc- tion signal Maximum input fre- quency: 250 kpps Direction signals Feed ...

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Standard Models and Specifications ● + Deviation Counter Reset (5: +ECRST) – Deviation Counter Reset (6: –ECRST) The content of the deviation counter will be reset when the deviation counter reset signal turns ON and the position loop will be ...

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Standard Models and Specifications ● Positioning Completed Output (8: INP) The INP signal turns ON when the number of accumulated pulses in the deviation counter is less than Pn500 (positioning completed range). Brake Interlock Output (7: BKIR) ● External brake ...

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Standard Models and Specifications 2-3-7 Monitor Output Connector Specifications (CN4) Pin No. Symbol Signal name 1 NM Speed monitor 2 AM Current monitor 3 GND Monitor ground 4 GND Monitor ground ● CN4 Connectors Used (4P) Servo Driver receptacle: DF11-4DP-2DSA ...

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... Standard Models and Specifications 2-4 Servomotor Specifications SMARTSTEP A-series Servomotors (R7M-A@) ■ 2-4-1 General Specifications Item Ambient operating temperature ° C Ambient operating humidity Storage ambient temperature Ambient storage temperature Storage and operating atmo- sphere Vibration resistance (See note 1.) Impact resistance Insulation resistance ...

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... APA5L AP01L APA5H AP01H Chapter 2 R7M- R7M- R7M- A20030 A40030 A75030 200 400 750 0.637 1.27 2.39 1.91 3.82 7.1 2.0 2.6 4.4 6.0 8.0 13.9 1.19 × 10 –5 1.87 × 10 – ...

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... A10030 –7 8.5 × 10 –7 8.5 × 10 – 0.25 0.25 0.2 min. 0.34 min. 30 max. 30 max. 60 max. 60 max. Chapter 2 R7M- R7M- R7M- A20030 A40030 A75030 6.4 × 10 –6 6.4 × 10 –6 1.71 × 7.7 0.29 0.29 0.32 1.47 min. 1.47 min. ...

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... R7M-A20030 (200 W) (N·m) 2.0 1.91 0.91 1.5 Repeated usage 1.0 0.637 0.5 0.222 Continuous usage (r/min) 0 5000 1000 2000 R7M-A75030 (750 W) (N·m) 8.0 7.1 (2225) 6.0 Repeated usage 4.0 1.45 2.39 1.24 2.0 0.89 Continuous usage (r/min) 0 5000 1000 ...

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... V DC ± 10 0.25 0.21 0.4 min. 0.9 min. 40 max. 40 max. 20 max. 20 max. 1 ° (reference value) Continuous Type F Chapter 2 R7M- R7M- AP40030 AP75030 400 750 1.27 2.39 3.82 7.1 2.6 4.1 8.0 13.9 –5 –4 3.47 × 10 2.11 × 10 0.535 ...

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Standard Models and Specifications Note 1. *The values for items marked by asterisks are the values at an armature winding tempera- ture of 100 ° C, combined with the Servo Driver. Other values are at normal conditions (20 ° C, ...

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... R7M-AP20030 (200 W) (N·m) 2.0 1.91 0.800 1.5 Repeated usage 1.0 0.637 0.5 0.222 Continuous usage (r/min) 0 5000 1000 2000 R7M-AP75030 (750 W) (N·m) 8.0 7.1 (2500) Single-phase 6.0 200-V AC input Repeated usage 4.0 1.77 2.39 1.22 2.0 0.87 Continuous usage (r/min) ...

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Standard Models and Specifications ● Servomotor and Mechanical System Temperature Characteristics • SMARTSTEP A-series Servomotors use rare earth magnets (neodymium-iron magnets). The tem- perature coefficient for these magnets is approximately –0.13%/ ° the temperature drops, the Servomotor’s momentary ...

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Standard Models and Specifications 2-5 Reduction Gear Specifications Reduction Gears for SMARTSTEP A-series Servomotors (R7G-@) ■ There are two kinds of reduction gears for SMARTSTEP A-series Servomotors: • Reduction gears for 3,000-r/min Cylinder-style Servomotors ′ (Backlash 3 max. and backlash ...

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Standard Models and Specifications ● Backlash = 45′ Max. Model Rated rotation speed r/min 50 W 1/5 R7G-RGSF05B50 600 1/9 R7G-RGSF09B50 333 1/15 R7G-RGSF15B50 200 1/25 R7G-RGSF25B50 120 100 W 1/5 R7G-RGSF05B100 600 1/9 R7G-RGSF09B100 333 1/15 R7G-RGSF15B100 200 1/25 ...

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Standard Models and Specifications Reduction Gears for Flat-style Servomotors ■ ● Backlash = 3′ Max. Model Rated rotation speed r/min 100 W 1/5 R7G-VRSFPB05B100P 600 1/9 R7G-VRSFPB09B100P 333 1/15 R7G-VRSFPB15B100P 200 1/25 R7G-VRSFPB25C100P 120 200 W 1/5 R7G-VRSFPB05B200P 600 1/9 ...

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Standard Models and Specifications Backlash = 45′ Max. ● Model Rated rotation speed r/min 100 W 1/5 R7G-RGSF05B100P 600 1/9 R7G-RGSF09B100P 333 1/15 R7G-RGSF15B100P 200 1/25 R7G-RGSF25B100P 120 200 W 1/5 R7G-RGSF05B200P 600 1/9 R7G-RGSF09C400P 333 1/15 R7G-RGSF15C400P 200 1/25 ...

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Standard Models and Specifications 2-6 Cable and Connector Specifications 2-6-1 Control Cables General Control Cables (R88A-CPU@@@S) ■ A General Control Cable is connected to the Servo Driver’s Control I/O Connector (CN1). There is no connector on the Controller end. When ...

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Standard Models and Specifications Wiring ● No. Wire/Mark color Symbol 1 Orange/Black (−) +CW −CW 2 Orange/Red (−) 3 Gray/Black (−) +CCW −CCW 4 Gray/Red (−) 5 White/Black (−) +ECRST −ECRST 6 White/Red (−) 7 Yellow/Black (−) BKIR 8 Yellow/Red ...

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Standard Models and Specifications ● Wiring Terminal Block Connector No. No ...

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... Note 3. Mechanical failure, ground faults, or other problems may occur due to damaged insulation if the Cable is used with a radius smaller than the minimum bending radius. Contact your OMRON representative if the Cable will be used with a radius smaller than the minimum bending radius. ● ...

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... R7A-CEA020S 20 m Connection Configuration and External Dimensions ● Servo Driver R7D-AP@ 39 t=12.7 80 Stroke 320 mm 100 times/minute Length (L) Outer diameter of sheath 12.4 dia Chapter 2 Weight Approx. 0.8 kg Approx. 1.2 kg Approx. 2.1 kg Approx. 3.1 kg Approx. 4.0 kg Servomotor R7M-A@ 50 43.7 t=12 27.4 t=15.7 2-47 ...

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Standard Models and Specifications ● Wiring Servo Driver Symbol No. E0V 1 E0V 2 E0V 3 E5V 4 E5V 5 E5V 6 − S− A− B− 13 − Shell ...

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... AWG24 Yellow 3 AWG24 Yellow/White 4 Shell No. AWG20 Red 1 AWG20 White 2 AWG20 Blue 3 AWG20 Green/Yellow 4 AWG20 Black 5 AWG20 Brown 6 Chapter 2 Servomotor R7M-A@ 50 43.7 t=12 27.4 t=28.4 Symbol E0V Connector kit: E5V 54280-0800 (Molex Japan) S+ S− A+ A− B+ B− FG Symbol U phase Connector cap: ...

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... Connector plug: 350779-1 (Tyco Electronics AMP Contact pin: 350690-3: Pin No (Tyco Electronics AMP) 770210-1: Pin No. 4 (Tyco Electronics AMP) Chapter 2 Length Outer Weight (L) diameter of sheath 3 m 7.4 dia. Approx. 0 Approx. 0 Approx. 0 Approx. 1 Approx. 1.7 kg 27.4 Servomotor R7M-A@ t=15.7 27.4 Servomotor R7M-A@ t=28.4 ...

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... CAWA005BR Approx. R88A- 0.7 kg CAWA010BR Approx. R88A- 1.0 kg CAWA015BR Approx. R88A- 1.3 kg CAWA020BR Chapter 2 (Tyco Electronics AMP) Length Outer Weight (L) diameter of sheath 3 m 7.0 dia. Approx. 0 Approx. 0 Approx. 0 Approx. 1 Approx. 1.7 kg 27.4 Servomotor R7M-A@ t=15.7 27.4 Servomotor R7M-A@ t=28.4 2-51 ...

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Standard Models and Specifications ● Wiring Power Cables for Servomotors without Brakes Servo Driver Red White Blue Green/Yellow Cable: AWG21 x 4C, UL2464 M4 crimp terminal Power Cables for Servomotors with Brakes Servo Driver Red White Blue Green/Yellow Black Brown ...

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... Servomotor No. Symbol AWG22 Black 7 E0V Connector kit: AWG22 Red 8 E5V 54280-0800 (Molex Japan) AWG24 Green 5 S+ AWG24 Green/White 6 S− AWG24 Blue 1 A+ AWG24 Blue/White 2 A− AWG24 Yellow 3 B+ AWG24 Yellow/White 4 B− Shell FG Chapter 2 Servomotor R7M-A@ t=12 2-53 ...

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Standard Models and Specifications 2-6-5 Peripheral Cables and Connector Specifications Analog Monitor Cable (R88A-CMW001S) ■ This is cable for connecting to the Servo Driver’s Monitor Output Connector (CN4 required for connecting monitor outputs to external devices such as ...

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Standard Models and Specifications Computer Monitor Cables (R7A-CCA002P@) ■ Computer Monitor Cable and Computer Monitoring Software (run on Windows, Cat. No. SBCE-011) for Servo Drivers are required to use a personal computer for monitoring and setting parameters for a Servo ...

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Standard Models and Specifications ● Wiring For DOS Personal Computers: Computer Symbol No. Orange/Black RXD 2 Orange/Red TXD 3 RTS 7 CTS 8 Gray/Black GND 5 FG Shell Cable: AWG28 × 3C UL2464 Connector: 17JE-13090-02 (D8A) (DDK Ltd.) For NEC ...

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Standard Models and Specifications Encoder Connector (R7A-CNA0@R) ■ This is the connector for the Encoder Cable. This connector is used when the cable is prepared by the user soldered-type connector, and the applicable cable is as follows. ...

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... Servo Relay Units and Cable Specifications This section provides the specifications for the Servo Relay Units and cables used for connecting to OMRON Position Control Units. Select the models that match the Position Control Unit being used. For details, refer to 3-2-1 Connecting Cable. ...

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... The following crimp terminal is applicable: R1.25-3 (round with open end). This Servo Relay Unit connects to the following OMRON Position Control Units. Communications are not supported. • CS1W-NC213/-NC233/-NC413/-NC433 • CJ1W-NC213/-NC233/-NC413/-NC433 • C200HW-NC213/-NC413 • ...

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... X-axis Com- Com- mon mon RESET mon (See note 1 This Servo Relay Unit connects to the following OMRON Pro- grammable Controllers. Communications are not supported. • CQM1-CPU43-V1 • CQM1H-PLB21 (Pulse I/O Board for CQM1H-CPU51/-CPU61) • CS1W-HCP22 Servo Driver connector 135 3 Chapter 2 ...

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Standard Models and Specifications ● Wiring 10 + CCW RUN INP CCW Com- Com ECRST mon mon X1 (See (See note 1.) note 1.) (See note 2 Note 1. If these ...

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... Standard Models and Specifications XW2B-40J6-4A ■ This Servo Relay Unit connects to the following OMRON Position Control Units. Communications are supported. • CS1W-NC213/-NC233/-NC413/-NC433 • CJ1W-NC213/-NC233/-NC413/-NC433 ● External Dimensions Position Control Unit connector 3 Two, 3.5 dia. Note Terminal Block pitch: 7.62 mm. ...

Page 89

... X1 CW limit CCW limit (See note 1.) (See note 1.) (CIO: 2960.06) (CIO: 2960.07 This Servo Relay Unit connects to the following OMRON Programmable Controllers. Communications are not sup- ported. • CJ1M-CPU21/-CPU22/-CPU23 Servo Driver connector 135 3.5 Two, 3.5 dia. Note Terminal pitch: 7.62 mm Note1 ...

Page 90

... XW2B-40J6-9A ■ External Dimensions ● CJ1M-CPU connector 3.5 7 2-64 This Servo Relay Unit connects to the following OMRON Programmable Controllers. Communications are not sup- ported. • CJ1M-CPU21/-CPU22/-CPU23 X-axis Servo Driver connector Y-axis Servo Driver connector 180 Note Terminal pitch: 7.62 mm Chapter 2 3 ...

Page 91

... (See note 2.) 24 Y-axis Y-axis V DC CCW limit CW limit (See note 1.) (See note 1.) (CIO 2960.08) (CIO 2960.09) This Servo Relay Unit connects to the following OMRON Programmable Controllers. • CS1W-HCP22-V1 • FQM1-MMP21 Chapter 2 Y-axis Y-axis 39 ALM BKIR Com- Y-axis Y-axis FG 19 ...

Page 92

Standard Models and Specifications ● External Dimensions Signal selectors Communications support connectors Controller general-purpose I/O Controller special I/O 2-66 Terminating resistance selector 160 Y-axis Servo Driver X-axis Servo Driver Chapter 2 4.5 dia. Servo B phase selectors ...

Page 93

Standard Models and Specifications ● Terminal Block Connection 1. RS-422 Connector Connect to an RS-422 line. 2. Screwless Clamp Terminal Blocks Use the screwless clamp terminal blocks to wire controller general-purpose I/O and Servo Driver control signals ...

Page 94

Standard Models and Specifications Lower Terminal Block Pin Arrangement No No Note 1. Used for the pulse output power supply for the FQM1-MMP21. Note ...

Page 95

Standard Models and Specifications 5. Servo Phase-B Selectors (Not Used) Leave these selectors set to INC mode. Servo #2 phase-B Servo #1 phase-B selector servo2 selector servo1 ABS_CW- ABS_CW- INC INC Wiring to Screwless Clamp Terminal Blocks ■ Screwless clamp ...

Page 96

Standard Models and Specifications The following screwdriver can be used to release wires. Recommended Screwdriver Model Manufacturer SZF1 Phoenix Contact Side view Front view 0.6 mm 3.5 mm Servo Relay Unit Wiring Example ■ I/O power is supplied from terminals ...

Page 97

Standard Models and Specifications Lower Terminal Block Pin Arrangement ...

Page 98

Standard Models and Specifications 2-7-2 Cables for Servo Relay Units Servo Driver Cables (XW2Z-@J-B5) ■ These Servo Driver Cables connect a Servo Driver and a Servo Relay Unit. These Cables are used when connecting a Servo Relay Unit that does ...

Page 99

Standard Models and Specifications Servo Driver Cables (XW2Z-@J-B7) ■ These Servo Driver Cables connect a Servo Driver and a Servo Relay Unit. These Cables are used when connecting a Servo Relay Unit that supports communications (XW2B-40J6-4A). Cable Models ● Model ...

Page 100

Standard Models and Specifications Servo Driver Cables (XW2Z-@@@J-B12) ■ These Servo Driver Cables connect a Servo Driver and a Servo Relay Unit. Use these cables to con- nect to a Customizable Counter Unit (CSW-HCP22-V1) or Servo Relay Unit (XW2B-80J7-1A). ● ...

Page 101

Standard Models and Specifications ● Wiring Servo Relay Unit No ...

Page 102

Standard Models and Specifications ● Cable Models Model XW2Z-100J-B10 1 m XW2Z-200J-B10 2 m ● Connection Configuration and External Dimensions 6 Servo Relay Unit XW2B-80J7-1A ● Wiring Servo Relay Unit No ...

Page 103

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A3) ■ These Position Control Unit Cables connect a CQM1-CPU43-V1 or CQM1H-PLB21 Programma- ble Controller and an XW2B-20J6-3B Servo Relay Unit. ● Cable Models Model XW2Z-050J- XW2Z-100J- ● ...

Page 104

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A4) ■ These Position Control Unit Cables connect a C200H-NC112 Position Control Unit and an XW2B- 20J6-1B Servo Relay Unit. ● Cable Models Model XW2Z-050J- XW2Z-100J- ● Connection ...

Page 105

Standard Models and Specifications Position Control Unit Cable (XW2Z-@J-A5) ■ These Position Control Unit Cables connect a C200H-NC211, C500-NC113, or C500-NC211 Posi- tion Control Unit and an XW2B-40J6-2B Servo Relay Unit. Cable Models ● Model XW2Z-050J- XW2Z-100J-A5 1 ...

Page 106

Standard Models and Specifications ● Wiring Position Control Unit No Cable: ...

Page 107

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A8) ■ These Position Control Unit Cables connect a CS1W-NC113 or C200HW-NC113 Position Control Unit and an XW2B-20J6-1B Servo Relay Unit. Cable Models ● Model XW2Z-050J- XW2Z-100J- ● ...

Page 108

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A9) ■ These Position Control Unit Cables connect a CS1W-NC213, CS1W-NC413, C200HW-NC213 or C200HW-NC413 Position Control Unit and an XW2B-40J6-2B or XW2B-40J6-4A Servo Relay Unit. ● Cable Models Model XW2Z-050J- ...

Page 109

Standard Models and Specifications ● Wiring Position Control Unit No. A1/B1 A2/ A10 A14 A24/B24 A19 A21 A12 A23 A22 A20/B20 B8 B6 B10 B14 B23 B22 B21 B19 B12 A15/B15 Cable: AWG28 × AWG28 ×17C ...

Page 110

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A12) ■ These Position Control Unit Cables connect a CS1W-NC133 Position Control Unit and an XW2B- 20J6-1B Servo Relay Unit. ● Cable Models Model XW2Z-050J-A12 50 cm XW2Z-100J-A12 1 m ● Connection ...

Page 111

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A13) ■ These Position Control Unit Cables connect a CS1W-NC233 or CS1W-NC433 Position Control Unit and an XW2B-40J6-2B or XW2B-40J6-4A Servo Relay Unit. Cable Models ● Model XW2Z-050J-A13 50 cm XW2Z-100J-A13 1 ...

Page 112

Standard Models and Specifications ● Wiring Position Control Unit No. AWG20 Black A3/B3 AWG20 Red A4/B4 A1/B1 A2/ A10 A14 A24/B24 A19 A21 A12 A23 A22 A20/B20 B10 B14 B23 B22 B21 ...

Page 113

Standard Models and Specifications Position Control Unit Cables (XW2Z@J-A16) ■ These Position Control Unit Cables connect a CJ1W-NC113 Position Control Unit and an XW2B- 20J6-1B Servo Relay Unit. Cable Models ● Model XW2Z-050J-A16 50 cm XW2Z-100J-A16 1 m ● Connection ...

Page 114

Standard Models and Specifications ● Wiring Position Control Unit No A20 A11 A17 A19 A18 A15 A16 A13 A12 Cable: AWG28 × AWG28 × 9C Crimp terminal 2-88 Chapter 2 Servo Relay Unit ...

Page 115

Standard Models and Specifications Position Control Unit Cables (XW2Z@J-A17) ■ These Position Control Unit Cables connect a CJ1W-NC213 or CJ1W-NC413 Position Control Unit and an XW2B-40J6-2B or XW2B-40J6-4A Servo Relay Unit. Cable Models ● Model XW2Z-050J-A17 50 cm XW2Z-100J-A17 1 ...

Page 116

Standard Models and Specifications ● Wiring Position Control Unit No. A1/B1 A2/ A12 A20/B20 A15 A17 A11 A19 A18 A16/B16 B12 B19 B18 B17 B15 B11 A13/B13 Cable: AWG28 × AWG28 × ...

Page 117

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A20) ■ These Position Control Unit Cables connect a CJ1W-NC133 Position Control Unit and an XW2B- 20J6-1B Servo Relay Unit. Cable Models ● Model XW2Z-050J-A20 50 cm XW2Z-100J-A20 1 m ● Connection ...

Page 118

Standard Models and Specifications ● Wiring Position Control Unit No. AWG20 Black A3 AWG20 Red A20 A11 A17 A19 A18 A15 A16 A13 A12 Cable: AWG28 × AWG28 × 9C ...

Page 119

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A21) ■ These Position Control Unit Cables connect a CJ1W-NC233 or CJ1W-NC433 Position Control Unit and an XW2B-40J6-2B or XW2B-40J6-4A Servo Relay Unit. Cable Models ● Model XW2Z-050J-A21 50 cm XW2Z-100J-A21 1 ...

Page 120

Standard Models and Specifications ● Wiring Position Control Unit No. AWG20 Black A3/B3 AWG20 Red A4/B4 A1/B1 A2/ A12 A20/B20 A15 A17 A11 A19 A18 A16 B12 B19 B18 B17 ...

Page 121

Standard Models and Specifications Position Control Unit Cable (XW2Z-@J-A22) ■ These Position Control Unit Cables connect a CS1W-HCP22 Position Control Unit and an XW2B- 20J6-3B Servo Relay Unit. Cable Models ● Model XW2Z-050J-A22 50 cm XW2Z-100J-A22 1 m ● Connection ...

Page 122

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A23) ■ These Position Control Unit Cables connect a CS1W-HCP22 Position Control Unit and an XW2B- 20J6-3B Servo Relay Unit. ● Cable Models Model XW2Z-050J-A23 50 cm XW2Z-100J-A23 1 m ● Connection ...

Page 123

Standard Models and Specifications ● Wiring Position Control Unit No. A19 A20 A18 A16 A17 A15 Cable: AWG28 × AWG28 × 4C B19 B20 B18 B16 B8 A7 B10 A9 B17 B15 Cable: AWG28 ...

Page 124

Standard Models and Specifications Position Control Unit Cables (XW2Z-@J-A25) ■ These Position Control Unit Cables connect a 3F88M-DRT141 Single-shaft Positioner (for DeviceNet) and an XW2B-20J6-1B Servo Relay Unit. ● Cable Models Model XW2Z-050J-A25 50 cm XW2Z-100J-A25 1 m ● Connection ...

Page 125

Standard Models and Specifications ● Wiring Position Control Unit No. A24 B24 B21 B22 A21 A22 A20 B20 A1 B10 A16/B16 A10 A11 B11 B19 Cable: AWG28 × AWG28 ×16C Crimp terminal (Round) Chapter ...

Page 126

Standard Models and Specifications CJ1M-CPU Unit Cables (XW2Z-100J-A26) ■ These CJ1M-CPU Unit Cables connect a CJ1M Unit with built-in pulse I/O (CJ1M-CPU21/-CPU22/- CPU23) and a Servo Relay Unit (XW2B-20J6-8A and XW2B-40J6-9A). ● Cable Models Model XW2Z-100J-A26 1 m ● Connection ...

Page 127

Standard Models and Specifications ● Wiring CJ1M-CPU Unit No Cable: AWG28 ...

Page 128

Standard Models and Specifications Customizable Counter Unit Cables for Special I/O ■ These Customizable Counter Unit Cables connect a Customizable Counter Unit (CS1W-HCP22-V1) and a Servo Relay Unit (XW2B-80J7-1A). ● Cable Models Model XW2Z-050J-A32 50 cm XW2Z-100J-A32 1 m ● ...

Page 129

Standard Models and Specifications ● Wiring Customizable Counter Unit No A19 A13 B6 A16 A18 A20 B11 A11 B19 B12 B14 B13 B16 B18 B20 Cable: AWG28 × ...

Page 130

Standard Models and Specifications Customizable Counter Unit Cables for General-purpose I/O ■ These Customizable Counter Unit Cables a Customizable Counter Unit (CS1W-HCP22-V1) and the general-purpose I Servo Relay Unit (XW2B-80J7-1A). ● Cable Models Model XW2Z-050J-A29 50 cm XW2Z-100J-A29 ...

Page 131

Standard Models and Specifications ● Wiring Customizable Counter Unit No B10 B8 B9 A11 A12 B11 B12 A10 Crimp terminals Cable: AWG28 × ...

Page 132

Standard Models and Specifications Motion Controller Cables for Special I/O ■ These Motion Controller Cables connect a Motion Control Module (FQM1-MMP21) and the special Servo Relay Unit (XW2B-80J7-1A). ● Cable Models Model XW2Z-050J-A30 50 cm XW2Z-100J-A30 ...

Page 133

Standard Models and Specifications ● Wiring Motion Control Module No ...

Page 134

Standard Models and Specifications Motion Controller Cable for General-purpose I/O ■ These Motion Controller Cables connect a Motion Control Module (FQM1-MMP21) and the general- purpose I Servo Relay Unit (XW2B-80J7-1A). ● Cable Models Model XW2Z-050J-A28 50 cm XW2Z-100J-A28 ...

Page 135

Standard Models and Specifications ● Wiring Motion Control Module No Crimp terminals Chapter 2 Servo ...

Page 136

... RDA 6 FG Shell Cable: AWG28×2P UL2464 Connector: XM2A-0901 (OMRON) Connector Hood: XM2S-0911 (OMRON) 2-110 Length (L) Outer diameter of sheath 10.0 dia t=15 No. Symbol 2 SDB 1 SDA 8 RDB 6 RDA Shell FG Connector: XM2A-0901 (OMRON) Connector Hood XM2S-0911 (OMRON) Chapter 2 Weight Approx. 0.1 kg Approx. 0.2 kg ...

Page 137

Standard Models and Specifications 2-8 Parameter Unit Specifications R7A-PR02A Hand-held Parameter Unit ■ A Parameter Unit is required for setting parameters to operate and control the Servo Driver, for copying Servo Driver parameters, and for other func- B.B B.B INP ...

Page 138

Standard Models and Specifications Function Specifications ■ Model Parameter setting Monitor display Function Mode Alarm displays Parameter copying 2-112 Standards Displaying and changing parameter settings Displaying all monitor data Executing functions Displaying alarms Reading and saving parameters from the Servo ...

Page 139

Standard Models and Specifications 2-9 External Regeneration Resistor Specifications If the Servomotor’s regenerative energy is excessive, connect an External Regeneration Resistor. Note 1. External Regeneration Resistors cannot be connected to Servo Drivers of between 30 to 200 W. Connection to ...

Page 140

Standard Models and Specifications 2-10 DC Reactors Connect a DC Reactor to the Servo Driver’s DC Reactor connection terminal as a harmonic current control measure. Select a model to match the Servo Driver being used. R88A-PX@ DC Reactors ■ Specifications ...

Page 141

System Design and Installation 3-1 Installation Conditions 3-2 Wiring 3-3 Regenerative Energy Absorption Chapter 3 ...

Page 142

System Design and Installation Installation and Wiring Precautions !Caution Do not step on or place a heavy object on the product. Doing so may result in injury. !Caution Do not cover the inlet or outlet ports and prevent any foreign ...

Page 143

System Design and Installation 3-1 Installation Conditions 3-1-1 Servo Drivers Space around Drivers ■ • Install Servo Drivers according to the dimensions shown in the following illustration to ensure proper heat dispersion and convection inside the panel. Also install a ...

Page 144

System Design and Installation • The service life of a Servo Driver is largely determined by the temperature around the internal elec- trolytic capacitors. The service life of an electrolytic capacitor is affected by a drop in electrolytic vol- ume ...

Page 145

System Design and Installation Connecting to Mechanical Systems ■ • The axial loads for Servomotors are specified in 2- 4-2 Performance Specifications axial load greater than that specified is applied to a Servo- motor, it will reduce the ...

Page 146

System Design and Installation Other Precautions ■ • Do not apply commercial power directly to the Servomotor. The Servomotors run on synchronous AC and use permanent magnets. Applying commercial power directly will burn out the motor coils. • Take measures ...

Page 147

System Design and Installation Using Reduction Gears from Other Companies (Reference Information) ■ If the system configuration requires that a SMARTSTEP A-series Motor be used in combination with a reduction gear from another company, select the reduction gear so that ...

Page 148

... CN1 (Control I/O Connector) Servomotor Power Terminal Integrated Cables Note Use a robot cable if flexibility is required when using separate cables. (Refer to pages 2-51 and 2-52.) Chapter 3 CN4 Servo Driver R7D-AP@ CN2 (Encoder Input Connector) 4 Servomotor Cables Separate Cables Power Encoder cable cable Servomotor R7M-A@ ...

Page 149

System Design and Installation Selecting Connecting Cables ■ 1. Servo Relay Unit Cables Select a Servo Relay Unit and Cable to match the Position Control Unit that used. ● Selecting Connecting Cables without Communications Support Position Control ...

Page 150

System Design and Installation ● Selecting Connecting Cables with Communications Support Position Control Unit Position Control Unit Cable CS1W-NC213 XW2Z-@@@J-A9 CS1W-NC413 CS1W-NC233 XW2Z-@@@J-A13 CS1W-NC433 CJ1W-NC213 XW2Z-@@@J-A17 CJ1W-NC413 CJ1W-NC233 XW2Z-@@@J-A21 CJ1W-NC433 C200HW-NC213 XW2Z-@@@J-A9 C200HW-NC413 CS1W-HCP22-V1 XW2Z-@@@J-A32 XW2Z-@@@J-A29 FQM1-MMP21 XW2Z-@@@J-A30 XW2Z-@@@J-A28 Note ...

Page 151

System Design and Installation 3. General Control Cables and Control I/O Connector These cables and connector are used for connecting to Controllers for which no special cable is pro- vided, and when the cable for the Servo Driver’s control I/O ...

Page 152

System Design and Installation Encoder Cables Specifications Cable for Servomotors with R7A-CRA@@@C or without brakes (both Cylin- der-style and Flat-style) Robot Cable for Servomotors R7A-CRA@@@CR with or without brakes (both Cylinder-style and Flat-style) 5. Computer Monitor Cable A Computer Monitor ...

Page 153

... ALM 35 ALMCOM Note 1. Recommended product in 3-2-4 Wiring for Noise Resistance. 7 BKIR 2. Recommended relay: MY Relay (24 V), by OMRON. 3. For 400-W and 750-W Servo Drivers, an R88A-RR22047S 10 OGND External Regeneration Resistor may be connected. Connect if the regenerative energy exceeds the individual Servo Driver's regenerative capacity. Also, connect a thermal switch output so that the power supply will be turned OFF when open ...

Page 154

... ALM ALMCOM Note 1. Recommended product in 3-2-4 Wiring for Noise Resistance. BKIR 2. Recommended relay: MY Relay (24 V), by OMRON R88A-RR22047S External Regeneration Resistor may be connected. OGND Connect if the regenerative energy exceeds the individual Servo Driver's regenerative capacity. Also, connect the thermal switch output so that the power supply will be turned OFF when open. ...

Page 155

System Design and Installation 3-2-3 Terminal Block Wiring When wiring a Terminal Block, pay attention to wire sizes, grounding systems, and anti- noise measures. Terminal Block Names and Functions ■ Terminal Name label L1 Main circuit R7D-AP@H: power supply Single-phase ...

Page 156

... Screw – size N ⋅ m Torque No-fuse breaker or fuse A (rms) capacity Note 1. Use the same wire sizes for Note 2. Connect an OMRON Servomotor Cable to the Servomotor connection terminals. 3-16 R7D-APA3L R7D-APA5L R7D-AP01L R7D-AP02L R7D-AP04L 0.2 0.25 0.4 1.64 2.2 4.0 1.25 1.25 1 ...

Page 157

... No-fuse breaker or fuse A (rms) capacity Note 1. Use the same wire sizes and tightening torques for Note 2. Connect an OMRON Servomotor Cable to the Servomotor connection terminals. Wire Sizes and Allowable Current ■ The following table shows the allowable current for when there are three wires. ...

Page 158

System Design and Installation Terminal Block Wiring Procedure ■ Connector-type Terminal Blocks are used for SMARTSTEP A-series Servo Drivers. The procedure for wiring these Terminal Blocks is explained below. Connector-type Terminal Block 1. Remove the Terminal Block from the Servo ...

Page 159

... Single-phase Power Supply Input AC power Surge absorber NFB supply Fuse 2 3.5 mm Class D ground (Class 3 ground: 100 Ω or less) Ground plate Controller power supply Ground control box R7D-AP@ Contactor Noise filter L1C L2C CN2 Chapter 3 R7M-A@ Metal duct M E Thick power line (3 Machine ground 3-19 ...

Page 160

... Use twisted-pair cables for the power supply cables whenever possible, or bind the cables. 3-20 R7D-AP@ Contactor Noise filter L1C L2C CN2 and arrange the wiring so that the ground Wrong: Noise not filtered effectively AC input AC output Ground AC output Chapter 3 R7M-A@ Metal duct Thick power line (3 Machine ground ...

Page 161

System Design and Installation Correct: Properly twisted • Separate power supply cables and signal cables when wiring. Selecting Components ■ This section explains the criteria for selecting the connection components required for improving noise resistance. These criteria include capacity performance, ...

Page 162

System Design and Installation Smart Power Servo Servo supply Driver Driver voltage model V (R7D-) Single- 200 APA3H phase 200 APA5H 200 AP01H 200 AP02H 200 AP04H 200 AP08H ● Surge Absorbers Use surge absorbers to absorb surges from power ...

Page 163

System Design and Installation Type Three-phase LF-315K LF-325K LF-335K ZCW2210-01 ZCW2220-01 ZCW2230-01 ZCW2240-01 Note 1. To attenuate noise at frequencies of 200 kHz or less, use an insulated transformer and a noise filter. Note 2. For high frequencies of 30 ...

Page 164

... When selecting contactors, take into consideration the circuit’s inrush current and the maximum momentary current. The Servo Driver inrush current is covered in the preceding explanation of no- fuse-breaker selection, and the maximum momentary current is approximately twice the rated cur- rent. The following table shows the recommended contactors. Maker Model OMRON LC1-D093A60 LC1D25106 LC1D40116 LC1D50116 LC1-D093A60 ...

Page 165

System Design and Installation ● Harmonic Current Countermeasures (DC Reactor) The DC Reactor is used for suppressing harmonic currents. It suppresses sudden and quick changes in electric currents. In September 1994, the Ministry of International Trade and Industry established guidelines ...

Page 166

System Design and Installation Improving Control I/O Signal Noise Resistance ■ Positioning can be affected and I/O signals can error if control I/O is influenced by noise. Follow the methods outlined below for the power supply and wiring. • Use ...

Page 167

... Note 2. Remove the sheath from the cable and ground it directly to the metal plate at the clamps. Brake Noise power filter supply R7D-A@ Contactor Noise W filter L1C L2C Ferrite CN2 core Clamp CN1 Ferrite core Clamp Ferrite core Controller Chapter 3 Installation incorporating Servo Motor R7M-A@ Metal duct or B Ferrite Ferrite conduit core core M Ferrite core E 3-27 ...

Page 168

... CN2 CN1 Ferrite core Clamp Ferrite core Controller 2 , and arrange the wiring so that the ground Wrong: Noise not filtered effectively AC input AC output Ground AC output Chapter 3 Installation incorporating Servo Motor R7M-A@ Metal duct or B Ferrite Ferrite conduit core core M Ferrite core E Clamp ...

Page 169

System Design and Installation • Use twisted-pair cables for the power supply cables whenever possible, or bind the cables. Correct: Properly twisted • Separate power supply cables and signal cables when wiring. ■ Control Panel Structure Any gaps in the ...

Page 170

System Design and Installation • Be sure that no gaps are created when installing the cover, as gaps can be caused by distortion when tightening screws. Case Cover A B Control Panel Case (Inside) ■ Selecting Components This section explains ...

Page 171

System Design and Installation Servo Driver inrush current: With low-speed no-fuse breakers, an inrush current 10 times the rated current flows for 0.02 sec- onds. For a simultaneous inrush for multiple Servo Drivers, select a no-fuse-breaker with a 20-ms allowable ...

Page 172

System Design and Installation Dimensions (The dimensions given below are for noise filters with lead-wire terminals. For the dimensions of noise filters with different types of terminals, contact the manufacturer.) For single-phase input (FN2070-6/07, FN2070-10/07) 45.4 0.9 8.4 Model A ...

Page 173

System Design and Installation For three-phase input (FN258L-16/07) M5 ● Noise filter for brake power supply Use the following noise filter for the brake power supply. Model Rated current Rated voltage SUP-P5H-EPR 5 A Dimensions Noise filter for brake power ...

Page 174

... When selecting contactors, take into consideration the circuit’s inrush current and the maximum momentary current. The Servo Driver inrush current is covered in the preceding explanation of no- fuse-breaker selection, and the maximum momentary current is approximately twice the rated cur- rent. The following table shows the recommended contactors. Maker Model OMRON LC1-D093A60 LC1D25106 LC1D40116 LC1D50116 LC1-D093A60 ...

Page 175

System Design and Installation The following table shows the Servomotor leakage current for each Servo Driver model. Driver R7D-APA3L to -AP04L 29 mA R7D-APA3H to -AP04H 14 mA R7D-AP08H 16 mA Note 1. The above leakage current is for cases ...

Page 176

System Design and Installation • If Servomotors with brakes are used, do not share the 24-V DC power supply for brakes with the 24-V DC power supply for control I/O. Additionally, do not connect ground wires. Connecting ground wires may ...

Page 177

System Design and Installation 3-3 Regenerative Energy Absorption The Servo Drivers have internal regenerative energy absorption circuitry for absorbing the regenerative energy produced during time such as Servomotor deceleration, and thus preventing the DC voltage from increasing. An overvoltage error ...

Page 178

System Design and Installation Note There is some loss due to winding resistance, so the actual regenerative energy will be approx- imately 90% of the values derived from these equations. • For Servo Driver models with internal capacitors for absorbing ...

Page 179

System Design and Installation 1 2π • E • • N • T • 2π • E • N • T • 2π • ...

Page 180

System Design and Installation Note External Regeneration Resistors cannot be connected to 30- to 200-W Servo Drivers. Servo Driver Regenerative energy (J) that can be absorbed by internal capacitor (See R7D-APA3L 57.1 R7D-APA5L 57.1 R7D-AP01L 57.1 R7D-AP02L 57.1 R7D-AP04L 57.1 ...

Page 181

System Design and Installation External Regeneration Resistors ■ ● Specifications Model Resistance 47 Ω ± 5% R88D-RR22047S External Regen- eration Resistor Note The following external regeneration resistors are recommended products from another manu- facturer, Iwaki Musen Kenkyujo. For details, refer ...

Page 182

System Design and Installation Wiring External Regeneration Resistance ■ ● R7D-AP04L and R7D-AP04H Connect an External Regeneration Resistor between the B1 and B2 terminals. External Regeneration Resistor B1 Servo Driver B2 ● R7D-AP08H Remove the short-circuit wiring between B2 and ...

Page 183

Operation 4-1 Operational Procedure 4-2 Switch Settings 4-3 Preparing for Operation 4-4 Trial Operation 4-5 Gain Adjustments 4-6 User Parameters 4-7 Operating Functions Chapter 4 ...

Page 184

Operation Precautions !Caution Confirm that there will be no effect on the equipment, and then perform a test operation. Not doing so may result in equipment damage. !Caution Check the newly set parameters and switches with their switches for proper ...

Page 185

Operation 4-1 Operational Procedure After mounting, wiring, and connecting a power supply, check the operation of the Servomotor and Servo Driver. This section describes operating methods using the Servo Driver’s front panel switches only. Note For operating and adjustment methods ...

Page 186

Operation 4-2 Switch Settings With SMARTSTEP A-series Servo Drivers, operation settings can be performed simply by using the front panel switches. Set the switches appropriately according to the system configuration. 4-2-1 Switch Nomenclature and Functions Unit No. Rotary Switch: UNIT ...

Page 187

Operation Turning Function Switches ON and OFF ■ The default setting for all function switches is OFF. Use a thin-blade non-conductive ceramic screw- driver or equivalent to turn the switches ON and OFF. In the following diagrams, the left diagram ...

Page 188

Operation Dynamic Brake Setting (Switch 2) ■ Switch 2 sets dynamic brake operation. When dynamic braking is enabled, the Servomotor is stopped rapidly when the RUN command is turned OFF or when an alarm occurs. Switch 2 OFF Dynamic braking ...

Page 189

Operation 4-3 Preparing for Operation This section explains the procedure following installation, wiring, and switch setting of the Servomotor and Servo Driver, to prepare the mechanical system for trial operation. It explains what you need to check both before and ...

Page 190

Operation Turning ON Power ■ • First carry out the preliminary checks, and then turn ON the control-circuit power supply. It makes no difference whether or not the main-circuit power supply is also turned ON. • The ALM output will ...

Page 191

Operation 4-4 Trial Operation Once mounting, wiring, switch setting, and connecting a power supply have been finished and normal status has been confirmed, perform trial operation. The main purpose of trial operation is to confirm that the servo system is ...

Page 192

Operation 3. Loaded Low-speed Operation • Send a low-speed command from the Host Controller to rotate the Servomotor. (The definition of low speed varies depending on the mechanical system, but a rough estimate is 1/10 to 1/5 of the normal ...

Page 193

Operation 4-5 Gain Adjustments The SMARTSTEP A-series Servo Driver is equipped with an online autotuning function. Use this function to easily adjust the gain even if using a servo system for the first time. 4-5-1 Online Autotuning What Is Online ...

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Operation Online Autotuning Procedure ■ Start Turn OFF the power. Set the gain adjustment rotary switch. (Refer to the next page for setting the gain adjustment rotary switch.) Turn ON the online autotuning switch. Turn ON the power. Run the ...

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Operation Setting the Gain Adjustment Rotary Switch during Online Autotuning ■ • Setting the gain adjustment rotary switch during online autotuning sets the servo system’s target speed loop gain and position loop gain. • Select a switch setting from the ...

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Operation Manual Tuning Procedure ■ Start Turn OFF the power. Set the gain adjustment rotary switch. (Refer to the previous page for setting the gain adjustment rotary switch.) Turn OFF the online autotuning switch. Turn ON the power. Run the ...

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Operation 4-6 User Parameters This section describes the Servo Driver internal user parameters. Even if operating using the Servo Driver’s front panel switch settings, be sure to understand the kinds of functions that are set with the parameters. Note R7A-PR02A ...

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Operation Parameter Parameter name Description for parameters set with 5 digits No. Digit No. Pn110 Online autotuning 0 Online autotun- setting ing selection 1 Not used. 2 Adhesive friction compensation selection 3 Not used. Pn200 Position control 0 Command pulse ...

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Operation Parameter Parameter name Description for parameters set with 5 digits No. Digit No. Pn402 Forward torque Forward rotation output torque limit (rated torque ratio) limit Pn403 Reverse torque Reverse rotation output torque limit (rated torque ratio) limit Pn500 Positioning ...

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Operation Pn100 Speed loop gain Settings 1 to 2000 Unit • This gain adjusts the speed loop response. • Increase the setting (i.e., increase the gain) to increase servo rigidity. Generally, the greater the inertia ratio, the higher the setting. ...

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