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5.1 Turning Power ON/OFF

5 -3

5.1 Turning Power ON/OFF

The figure below shows a typical example of the power ON/OFF sequence.

R S T

1MCCB

FIL

5Ry

1PL

1MC 5Ry

1MC

U
V

W

FG

A
B
C

D

M

r

t

PG

1MC

S
T

1CN

ALM

ALM

−

SG

FG

3

4

5Ry

1D

++

24 VDC

−−

1SUP

R

Three-phase 200 to 230 VAC

%

50/60

Hz

SERVOPACK

SGDB-

jj

AN

(For servo alarm display)

Main circuit
power supply

OFF

Main circuit power
supply

ON

1MCCB: Circuit breaker (for the inverter)

FIL:

Noise filter

1MG:

Contactor

5Ry:

Relay

1PL:

Patrol lighter

1SUP:

Surge suppressor CR505008A (Okaya Electric Industries Co., Ltd.)

1D:

Flywheel diode (To prevent spikes in 5Ry)

+10

-15

Figure 5.1

Example of Power ON/OFF Sequence

1.

Construct a power ON sequence so the power is turned OFF if a servo alarm signal is output. See

5.4.4

“Handling Protective Circuit Operation”

for more details on handling the alarm signal output.

2.

During the power ON and OFF sequence shown in

Figure 5.1

, it takes up to approx. two seconds until

the normal signal is valid once power is turned ON assuming that the CONNECT command has been
received.

3.

It takes up to approx. two seconds to initialize settings in the SERVOPACK when the control power is

turned ON. The servo alarm signal will be output (ON) until the communication connection is completed
for the CONNECT command.

4.

The SERVOPACK has a capacitor in the power supply. A high charging current will thus flow for 0.6

seconds when the power is turned ON. Frequently turning the power ON and OFF will cause the main
power devices (such as capacitors and fuses) to deteriorate and can result in unexpected problems. Start
and stop the Servomotor by SV_ON/SV_OFF commands rather than turning the power supply ON and
OFF.

5.

After turning the power OFF, do not touch the power terminals for at least five minutes because high volt-

age may remain in the SERVOPACK. Residual voltage still remains in the SERVOPACK even after pow-
er is turned OFF. Make sure the charge lamp is unlit first before starting an inspection.

5

IMPORTANT

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Summary of Contents for SGDB Series

Page 1: ...YASKAWA YASKAWA MANUAL NO SIE S800 26 4B...

Page 2: ...rights reserved No part of this publication may be reproduced stored in a retrieval system or transmitted in any form or by any means mechanical electronic photocopying recording or otherwise without...

Page 3: ...eristics 3 1 Overload Characteristics 3 2 3 2 Starting and Stopping Time 3 3 3 3 Allowable Repeatability 3 4 3 4 Large amplitude Frequency Characteristics 3 6 3 5 Mechanical Characteristics 3 7 4 Conf...

Page 4: ...its to User Constant Changes 7 22 7 5 Procedure for Transferring User Constants 7 23 8 Installation and Wiring 8 1 Checking on Delivery 8 2 8 2 Installation 8 3 8 3 Wiring Specifications 8 7 9 Servodr...

Page 5: ...2 3 SGMS Servomotor Ratings and Specifications 2 10 2 3 1 Ratings and Specifications 2 10 2 4 SGMD Servomotor Ratings and Specifications with Holding Brake 2 13 2 4 1 Ratings and Specifications 2 13...

Page 6: ...1 1CN Connector for I O Signals 4 7 4 3 2 2CN Connector for Encoder 4 7 4 3 3 4CN Connector for MECHATROLINK Communication 4 8 4 4 Connecting an Incremental Encoder 4 9 4 4 1 Typical Example 4 9 4 4 2...

Page 7: ...ions 5 10 5 6 1 Overhanging Load 5 10 5 6 2 Load Inertia JL 5 10 5 6 3 Regenerative Resistor Unit 5 10 5 6 4 High Voltage Lines 5 12 5 7 Application Precautions 5 13 5 7 1 Noise Control 5 13 5 7 2 Pow...

Page 8: ...unications Sequence 6 15 6 6 List of Alarm and Warning Codes 6 18 7 User Constants 7 1 Setting User Constants 7 2 7 1 1 Basic User Constants 7 2 7 1 2 Gain related Constants 7 2 7 1 3 Torque related C...

Page 9: ...9 58 9 2 7 SGDB 20ANj P to 30ANj P SERVOPACKS 9 59 9 2 8 SGDB 50ANj P SERVOPACK 9 60 9 2 9 SGDB 60ANj to 75ANj P SERVOPACKS 9 61 9 2 10 SGDB 1AAN P 1EAN P SERVOPACKS 9 62 9 3 Cables 9 64 9 3 1 Encode...

Page 10: ...Settings 11 1 Characteristics when Shipped 11 2 11 2 Resetting 11 2 11 3 Adjusting Servo Performance 11 2 11 3 1 Setting User Constants 11 2 11 3 2 Setting Optimum Position and Speed Loop Gain 11 3 12...

Page 11: ...h either incremen tal encoders or absolute encoders D Positioning via the MECHATROLINK High speed Field Network D Electronic gear function provided D For incremental encoders there are now only 9 line...

Page 12: ...oducts in or near environments exposed to moisture corrosive gases flammable gases or other flammable materials Electric shock or fire may result J Wiring WARNING D Be sure to ground the SERVOPACK gro...

Page 13: ...th the Servomotor connected to the equipment Injury may result if an emergency stop is not readily available D Do not touch the heat sink area during operation Severe burns due to high temperatures ma...

Page 14: ...cation and manual improvement When this manual is revised the manual code is updated and the new manual is published as a next edition The edition number appears on the front and back covers S If the...

Page 15: ...guration and Models This chapter describes the configuration and model numbers for Servo drives 1 1 Configuration 1 2 1 2 Model Numbers 1 2 1 2 1 Servomotor Model Numbers 1 2 1 2 2 SERVOPACK Model Num...

Page 16: ...mbers J SGMP Servomotors Servomotor Capacity 04 400 W 08 750 W 15 1 5 kW SGMP 15 A 3 1 2 j Series SGMP SGMP Servomotor Supply Voltage A 200 V Options B With brake D With brake and shaft seal P Drip pr...

Page 17: ...Specification Blank Standard Straight without key A Standard Straight without key with an optional lead specification B Straight with key with axis end tap 1 C Taper 1 10 with parallel key D Taper1 10...

Page 18: ...SERVOPACK Model Numbers Rated Output 05 0 5 kW 10 1 0 kW 15 1 5 kW 20 2 0 kW 30 3 0 kW 50 5 0 kW 60 6 0 kW 75 7 5 kW 1A 11 0 kW 1E 15 0 kW SGDB 10 A N j Series SGDB SERVOPACK Supply Voltage A 200 V Co...

Page 19: ...fications of SGMG Servomotors for Rated Speed 1000 r min 2 6 2 2 1 Ratings and Specifications 2 6 2 3 SGMS Servomotor Ratings and Specifications 2 10 2 3 1 Ratings and Specifications 2 10 2 4 SGMD Ser...

Page 20: ...P 0 45 0 6 0 85 1 1 1 3 1 7 1 8 2 4 2 9 3 9 4 4 5 9 5 5 7 4 7 5 10 11 15 15 20 Rated N m 2 84 5 39 8 34 11 5 18 6 28 4 35 0 48 0 70 0 95 4 Torque 1 2 lb in 25 48 74 102 165 252 310 425 620 845 Instant...

Page 21: ...jA to 13AjA Servomotor 400 400 20 mm 15 75 15 75 0 79 in W H D 20AjA to 75AjA Servomotor 550 550 30 mm 21 65 21 65 1 18 in W H D 1AAjA Servomotor 650 650 35 mm 25 59 25 59 1 38 in W H D The ratings an...

Page 22: ...r min Motor speed r min Motor speed r min Motor speed r min Torque lb in Torque N m Torque lb in Torque N m Torque lb in Torque N m Torque lb in Torque N m 20 40 60 0 80 50 100 150 0 100 200 0 100 200...

Page 23: ...ontinuous Duty Zone B Intermittent Duty Zone SGMG 75AjA SGMG 1AAjA Motor speed r min Motor speed r min Motor speed r min Torque lb in Torque N m Torque lb in Torque N m Torque lb in Torque N m 200 400...

Page 24: ...0 63 7 107 129 Peak Torque 1 lb in 63 125 171 248 390 564 947 1140 Rated Current 1 A rms 3 0 5 7 7 6 11 6 18 5 24 8 32 9 46 9 Instantaneous Max Current 1 A rms 7 3 13 9 16 6 28 42 56 84 110 Rated Spee...

Page 25: ...ng brakes add the values in the following table to the moment of inertia values in the above table Other characteristics may also change Servomotor Model SGMG 03AjB 06AjB 09AjB 12AjB 20AjB 30AjB 44AjB...

Page 26: ...tent Duty Zone SGMG 06AjB Motor speed r min Motor speed r min Torque lb in Torque N m Torque lb in Torque N m 20 40 60 0 50 100 0 150 Motor speed r min Motor speed r min Torque lb in Torque N m Torque...

Page 27: ...of SGMG Servomotors for Rated Speed 1000 r min 2 9 SGMG 44AjB A Continuous Duty Zone B Intermittent Duty Zone Motor speed r min Motor speed r min Torque lb in Torque N m Torque lb in Torque N m SGMG...

Page 28: ...37 8 47 6 Torque 1 lb in 84 4 130 169 260 336 422 Rated Current 1 A rms 5 7 9 5 12 4 18 8 24 3 28 2 Instantaneous Max Current 1 A rms 17 28 42 56 77 84 Rated Speed 1 r min 3000 Instantaneous Max Speed...

Page 29: ...holding brakes add the values in the following table to the moment of inertia values in the above table Other characteristics may also change Servomotor Model SGMG 10AjA 15AjA 20AjA 30AjA 40AjA 50AjA...

Page 30: ...Motor speed r min Motor speed r min Motor speed r min Motor speed r min Motor speed r min Motor speed r min Torque lb in Torque N m Torque lb in Torque N m Torque lb in Torque N m Torque lb in Torque...

Page 31: ...t 1 kW HP 2 2 2 9 3 2 4 3 4 0 5 4 Rated Torque 1 2 N m 10 5 15 3 19 1 q lb in 93 135 169 Instantaneous Peak N m 36 7 53 5 66 9 Torque 1 lb in 326 474 592 Rated Current 1 A rms 15 7 20 9 22 8 Instantan...

Page 32: ...ue Motor Speed Characteristics SGMD 22AjAAB A Continuous Duty Zone B Intermittent Duty Zone SGMD 32AjAAB SGMD 40AjAAB Motor speed r min Motor speed r min Motor speed r min Torque lb in Torque N m Torq...

Page 33: ...m 14 3 q lb in 126 6 Rated Current A rms 7 5 Instantaneous Max Current A rms 28 0 Rated Speed r min 3000 Instantaneous Max Speed r min 4500 Torque Constant N m A rms 0 687 q lb in A rms 6 08 Moment o...

Page 34: ...Moment kg m2 10 4 0 875 Holding Brake 90 VDC Moment of Inertia oz in s2 10 3 12 4 90 VDC Static Friction Torque N m oz in 7 45 1055 J SGMP Servomotor 1 5 kW Torque Motor Speed Characteristics SGMP 15...

Page 35: ...IGBT PWM sine wave driven Feedback Incremental encoder absolute encoder Condi tions Operating Temp 2 Storage Temp 2 0 to 55_C 20 to 85_C Ambient Storage Hu midity 90 RH or less with no condensation Vi...

Page 36: ...vo alarm ALM Built in Func Dynamic Brake DB Incorporating DB that is activated for maim power OFF Servo alarms and overtra vel tions Regenerative Processing Built in For 60 to 1A models an external re...

Page 37: ...3 1459 159 2252 230 3257 338 4786 445 6302 625 8851 Continuous Output Current A rms 3 0 5 7 7 6 11 6 18 5 24 8 32 9 46 9 Maximum Output Current A rms 7 3 13 9 16 6 28 42 56 84 110 SGMG Series SERVOPAC...

Page 38: ...y kW 2 2 3 2 4 0 motor Rated Max Motor Speed 2000 3000 r min Applicable Encoder Standard Absolute encoder at 1024 P R Allowable Load Inertia JL kg m2 10 4 oz in s2 10 3 255 3611 343 4857 431 6103 Cont...

Page 39: ...176 16 0 227 35 0 496 48 0 680 62 0 878 Continuous Output Current A rms 5 7 9 5 12 4 18 8 24 3 28 2 Maximum Output Current A rms 17 28 42 56 77 84 SERVOPACK Model SGDB 15AN Appli Model SGMP 15Aj cable...

Page 40: ...AN SGMG 13AjA 2 5 10 SGMG 12AjB SGMS 15AjA SGMP 15A SGDB 20AN SGMG 20AjA 4 0 12 Not applicable LF 320 20 A HI 18E 35 A SGMG 20AjB pp SGMS 20AjA SGDB 30AN SGMG 30AjA 5 0 18 LF 330 30 A SGMG 30AjB SGMS...

Page 41: ...tability 3 4 3 3 1 Allowable Repeatability as Limited by the Servomotor 3 4 3 4 Large amplitude Frequency Characteristics 3 6 3 5 Mechanical Characteristics 3 7 3 5 1 Mechanical Strength 3 7 3 5 2 All...

Page 42: ...d Allowable power for the SERVOPACK is therefore limited by the overload protective function as shown in Fig 3 1 The overload detection level quoted under hot start conditions at a motor ambient tempe...

Page 43: ...7 NR JM JL Kt IR ms NR Rated motor speed r min JM Motor moment of inertia kg m2 GD2 M 4 JL Load converted to shaft moment of inertia kg m2 GD2 L 4 TPM Maximum instantaneous motor torque obtained in c...

Page 44: ...he range for T will satisfy the following equation T s IP 2 tr tf IL 2ts IR 2 IR Motor rated current A IP IR Acceleration deceleration current coefficient IP Acceleration decelerationcurrent accelerat...

Page 45: ...on Idling and Deceleration without Stopping The timing chart for motor armature current and motor speed is shown in Fig 3 5 If we assume that allowable repeatability is n times per minute then n can b...

Page 46: ...with a SERVOPACK and Motor combination the motor speed amplitude is limited by the peak current through the SERVOPACK The relationship between motor speed N and frequency f is expressed using the equa...

Page 47: ...R mm in Reference Diagram SGMG 05AjA 490 110 98 22 58 2 28 09AjA 490 110 98 22 13AjA 686 154 343 77 20AjA 1176 265 490 110 79 3 11 30AjA 1470 331 490 110 44AjA 1470 331 490 110 55AjA 1764 397 588 132...

Page 48: ...ty of flange O D B 0 04 mm 0 0016 in Run out at the end of the shaft C 0 02 mm 0 0008 in 0 04 mm 0 0016 in Note T I R Total Indicator Reading 3 5 4 Direction of Motor Rotation ACServomotor rotation wh...

Page 49: ...s2 2 5G inthevertical trans verse andlongitudinaldirections SeeFig 3 9 whentheaxisoftheServomotorismountedhor izontally Longitudinal Transverse Vertical Horizontal shaft Figure 3 9 Vibration Resistanc...

Page 50: ...les 4 7 4 3 1 1CN Connector for I O Signals 4 7 4 3 2 2CN Connector for Encoder 4 7 4 3 3 4CN Connector for MECHATROLINK Communication 4 8 4 4 Connecting an Incremental Encoder 4 9 4 4 1 Typical Examp...

Page 51: ...oder Connector Terminals 4 22 4 8 1 2CN Terminal Layout 4 22 4 8 2 Applicable Cables 4 23 4 8 3 2CN Connection Method 4 24 4 9 4CN Connectors for MECHATROLINK Communications 4 26 4 9 1 4CN Terminal La...

Page 52: ...ve Base driver and overcurrent protection isolator DC DC conversion Voltage regulation Current detection OFF ON Surge suppressor Open circuit with Servo alarm Analog voltage Optional circuit board unm...

Page 53: ...uit board unmounted Station address selection MECHATROLINK communication Voltage regulation DC DC conversion Voltage detection isolator Relay drive Base driver and overcurrent protection isolator Serv...

Page 54: ...solator Relay drive DC DC conversion Voltage regulation Station address selection Analog voltage Optional circuit board unmounted Open circuit with Servo alarm Surge suppressor OFF ON Voltage detectio...

Page 55: ...Relay drive DC DC conversion Voltage regulation Station address selection Analog voltage Analog monitor output Optional circuit board unmounted Open circuit with Servo alarm Surge suppressor ON OFF V...

Page 56: ...ive terminal External connection is usually not needed Note SERVOPACKS with 5 kW or less capacity do not have a P1 terminal 4 3 Applicable Receptacles 4 3 1 1CN Connector for I O Signals Table 4 2 Spe...

Page 57: ...N Connector for MECHATROLINK Communication Table 4 4 Applicable Receptacle Specifications for SERVOPACK C Applicable Receptacle Model p SERVOPACK Connector Solder Case Manufacturer MR 8RMD2 Product of...

Page 58: ...n N LS is open Forward drive prohibited when P LS is open 1Ry turns OFF with Servo alarm 2Ry turns OFF with Servo ready Servomotor Must be grounded Less than 100 Incremental encoder Correctly terminat...

Page 59: ...BK SG ALM 24 V IN N OT EXT 15 17 19 21 23 25 Signal ground for brake out Signal ground for servo alarm External latch signal input Brake interlock signal output Servo alarm output Forward drive prohi...

Page 60: ...ted Forward overtravel OFF at overtravel Zero point return deceleration LS ON when above LS Alarm output OFF with alarm Brake interlock output ON with servo ready SERVOPACK SGDB jjjN Zero point return...

Page 61: ...gnal input for external signal External signal will be latched when this signal is CLOSED J Input Circuits There are four types of input signals Forward reverse drive overtravel prohibited zero point...

Page 62: ...he interval is too short reduce the feed speed 4 ms min DEC High Low External Latch Signal EXT The external latch signal is used as alatch input signal for latch command or external positioning comman...

Page 63: ...t return deceleration LS External latch signal 30 VDC 50 mA max 2Ry turns OFF with servo ready 1Ry turns OFF with Servo alarm 3 3 to 4 5 V backup battery Output capacity Note 1 Maximum operating volta...

Page 64: ...23 25 BAT 0 Battery input Signal ground for brake out Signal ground for servo alarm External latch signal input Brake interlock signal output Servo alarm output Forward drive prohibited input Zero poi...

Page 65: ...ertravel Forward drive prohibited Forward overtravel OFF at overtravel Alarm output OFF with alarm Brake interlock output ON with Servo ready Approx 7 mA SERVOPACK SGDB jjjN Zero point return decelera...

Page 66: ...he zero point The signal is CLOSED on the LS The polarity can be reversed with user constant CN 0014 bit 12 In this case the signal will be OPEN on the LS EXT 10 External latch input This signal is th...

Page 67: ...tions for these signals are as follows Applied Voltage V max 30 V Conduction Current Ip 50 mA Output circuits require 24 V power supply by the user We recommend the same 24 V power supply as that used...

Page 68: ...N 3CN SERVOPACK jAN SGDB POWER ALARM 5CN 1SW 2CN 1CN YASKAWA SGDB jjjN SERVOPACK Connector Terminal Block Converter Unit JUSP TA26P Cable M3 5 screws Connects to 1CN Note There is no connector termina...

Page 69: ...28 29 30 31 32 33 34 35 36 37 38 39 40 A1 B1 A2 B2 A3 B3 A4 B4 A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 A10 B10 A11 B11 A12 B12 A13 B13 A14 B14 A15 B15 A16 B16 A17 B17 A18 B18 A19 B19 A20 B20 BK N OT BAT BAT0 P...

Page 70: ...Converter Unit for 1CN 4 21 4 7 3 Cable Specifications Accessory for Connector Terminal Block Converter Unit SERVOPACK side 26 pin connector 10126 6000EL Terminal Block Converter Unit side 40 pin con...

Page 71: ...for absolute encoder only PG power supply 5 V PG power supply 0 V Frame ground PG input phase B PG input phase A PG input phase C Battery for abso lute encod er only Battery for abso lute encod er onl...

Page 72: ...and Lead Colors DP8409123 standard A1 Red A2 Black A3 Green yellow F1 Blue White blue Twisted pair F2 Yellow White yellow Twisted pair F3 Green White green Twisted pair F4 Orange White orange Twisted...

Page 73: ...Method J Incremental Encoder Incremental encoder B9400064 cable White blue Blue Yellow White yellow White green Green Green Yellow Red Black 0 12 mm2 0 0002 in2 0 3 mm2 0 0005 in2 SERVOPACK P represen...

Page 74: ...ite blue Yellow Green White yellow White green Purple Red Black White purple White grey Orange White orange Green yellow Battery 1 14 1 15 0 12 mm2 0 0002 in2 0 3 mm2 0 0005 in2 SERVOPACK 0 3 mm2 0 00...

Page 75: ...ection 3 8 5 1 2 6 4 MECHATROLINK I F SERVOPACK 120 120 6 7 1 4 8 3 5 S S S R S SH SH FG Pulse transormer Pulse transformer Host controller MECHATROLINK I F P SH FG S SH S S R S 7 Note P represents tw...

Page 76: ...ulse transformer I F MECHATROLINK 120 S SH SH FG Pulse transformer S S R S S S S R No 2 SERVOPACK Second axis SERVOPACK Last axis Host controller MECHATROLINK I F P P P 7 8 3 2 4 7 1 6 5 8 3 2 4 7 1 6...

Page 77: ...rocedure 5 6 5 4 Protection Functions 5 8 5 4 1 Dynamic Brake Function 5 8 5 4 2 Error Detection Function 5 8 5 4 3 Servo Alarm Output ALM ALM SG 5 9 5 4 4 Handling Protection Circuit Operation 5 9 5...

Page 78: ...ations 5 18 5 8 1 Holding Brake Interlock Signal 5 18 5 9 Adjustments 5 19 5 9 1 Servo System Adjustments 5 19 5 9 2 User Constants 5 20 5 9 3 Functions that Improve Response 5 23 5 9 4 Guidelines for...

Page 79: ...Figure 5 1 it takes up to approx two seconds until the normal signal is valid once power is turned ON assuming that the CONNECT command has been received 3 It takes up to approx two seconds to initial...

Page 80: ...01 mm 0 1 or 0 01 inches Example Reference Unit 0 1 m If a move reference of 50000 reference units is input the load moves 5 mm 50000 0 1 5000 m 5 mm Determine thereference unit based on factors like...

Page 81: ...Motor shaft speed m revolutions Load shaft speed l revolutions Fig 5 2 shows a block diagram of the electronic gear function MECHATROLINK POSING Command Accel decel Differ entiation Feed forward gain...

Page 82: ...needstobesetuptoclearthecumulativerotationnumbertozerotosetupthemotor or when the absolute encoder has been left disconnected from a battery for more than two days J Setup Procedure Follow the setup p...

Page 83: ...less To measure the voltage between the terminals use a tester with input impedance 1 M or more 3 Restore the normal wiring 4 Turn ON power The setup is complete if there are no errors after the SERV...

Page 84: ...nes are grounded 30 OFF Regenerative error A regenerative resistor circuit malfunctioned 4j OFF Overvoltage Undervoltage detection DC voltage is abnormal in the main circuit 51 OFF Overspeed detection...

Page 85: ...ignal output indicates some kind of error Determine the cause take appropriate ac tion and then resume operation J Error Troubleshooting Check the error data for past occurrences using the error trace...

Page 86: ...Load Inertia JL The allowable load inertia JL calculated for the motor shaft is limited to less than five times of themotor inertia JM If theload inertiaexceeds thisvalue anovervoltage alarmmay occurd...

Page 87: ...refore important to cool the unit use heat resistant inflammable wire and ensure that wiring does not come in contact with the unit The following are resistor specifications for the regenerative resis...

Page 88: ...tageoftheSGDBSERVOPACKisthree phase200Vclass andusersmust provide one of the following power transformers three phase if they are using a three phase 400 VAC class 400 V 440 V power supply Primary sid...

Page 89: ...iagram below shows an example of wiring for noise control J Grounding Noise filter Servomotor SGDB SERVOPACK Casing Operation relay sequence Signal generator circuit provided by user 3 5 mm2 0 005 in2...

Page 90: ...l equipment if needed Always observe the installation and wiring instructions shown in Figs 5 5 to 5 8 Incorrect use of a noise filter reduces its benefits Table 5 3 Noise Filters SERVOPACK Model Nois...

Page 91: ...filter Separate circuits Incorrect Noise filter Noise filter Noise filter Correct Figure 5 5 D Separate ground wires from noise filter output lines Do not run ground wires output lines and other sign...

Page 92: ...late of the unit first and then ground these wires Noise filter Ground Figure 5 8 5 7 2 Power Supply Line Protection The SERVOPACK is connected directly to a commercial power supply 200 V To protect t...

Page 93: ...VA 1 Current Capacity per MCCB or Fuse A 2 SGDB 05AN 1 1 5 SGDB 10AN 2 0 8 SGDB 15AN 2 5 10 SGDB 20AN 4 0 12 SGDB 30AN 5 0 18 SGDB 50AN 7 5 28 SGDB 60AN 12 5 32 SGDB 75AN 15 0 41 SGDB 1AAN 19 0 60 SGD...

Page 94: ...t Power Supply Timing Motor Stopped Servo ON Command Timing Main Circuit Power Supply Timing 0 to 35 ms Servo ON Servo OFF BK signal Drive ON OFF ON SV_ON SV_OFF command Brake OFF Brake ON tB 55 to 75...

Page 95: ...5 9 Servo System Block Diagram J Basic Rules for Gain Adjustment The servo system is equipped with the following feedback systems D Position loop D Speed loop D Current loop The inner loops require b...

Page 96: ...Loop Gain setsthespeed loop response Theresponse isimproved bysettingthisuser constant to the maximum value in a range that does not cause vibrations in the mechanical sys tem J Cn 0005 Speed Loop In...

Page 97: ...make adjustment 1 Calculate and set the motor axis converted load inertia 2 Set the loop gain to a low value and increase speed loop gain within a range that does not cause noise or vibration to occur...

Page 98: ...ector and an external force applied to it may cause it to disconnect Do not connect meters or other devices to the cable in applications D Connecting Monitoring Cables to an SGDB jjjN SERVOPACK Use a...

Page 99: ...e the SERVOPACK from PI proportional integral to P proportional control above a certain setting J Feed forward Control Feed forward control generally shortens positioning time but has no effect on sys...

Page 100: ...control Time 5 9 4 Guidelines for Setting the Load Inertia Ratio Adjustment guidelines are given below based on the rigidity and load inertia of the mechanical system These values are given as guidel...

Page 101: ...nd speed loop gain to the lower limit of the range of values specified and increase the speed loop in tegration time constant J Machines with Low Rigidity Machines with low rigidity include machines d...

Page 102: ...ield Specifications 6 7 6 4 2 I O Monitor Specifications 6 8 6 4 3 Monitor 1 2 Type Field Specifications 6 9 6 4 4 CONFIG Specifications 6 10 6 4 5 ALM_RD Specifications 6 10 6 4 6 ALM_CLR Specificati...

Page 103: ...based on the MECHATROLINK application layer For more details refer to the following manuals MECHATROLINK System User s Manual SIE S800 26 1 MECHATROLINK Servo Command User s Manual SIE S800 26 2 6 1...

Page 104: ...K station address and is used to select one of the following SGDB jjjN addresses SW1 Station Address 0 Not used Do not set 1 41H Factory setting 2 42H 3 43H 4 44H 5 45H 6 46H 7 47H 8 48H 9 49H A 4AH B...

Page 105: ...peration N A 01 PRM_RD Read parameter D A 02 PRM_WR Write parameter D A 03 ID_RD Read ID D A See note 1 04 CONFIG Set up devices C A See note 1 05 ALM_RD Read alarm or warning D A See note 1 06 ALM_CL...

Page 106: ...2D 2E 2F 30 SMON Status monitoring D A 31 SV_ON Servo ON C A 32 SV_OFF Servo OFF C A 33 34 INTERPOLATE Interpolation feed M S See note 1 35 POSING Positioning M A See note 1 36 FEED Manual feed M A Se...

Page 107: ...used for processing and synchronization classifications Processing Classifications Synchronization Classifications N Network command A Asynchronous command D Data communication command S Synchronous...

Page 108: ...on D Appropriate commands for options Followings are appropriate commands for option fields SV_ON INTERPOLATE POSING FEED LATCH EX_POSING ZRET WDT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Command Option...

Page 109: ...kawa cannot guarantee how the SERVOPACKwill act if the two items above are not followed exactly J Speed Loop P PI Control Switching D6 D5 D4 D3 D2 D1 D0 D7 0 0 0 0 0 0 04 0 Speed loop P PI control swi...

Page 110: ...ription Units POS 0 Position in the reference coordinate system Reference units MPOS 1 Position in the mechanical coordinate system Reference units PERR 2 Position error Reference units APOS 3 Absolut...

Page 111: ...field used to select objects that will be read and it can be specified for each product The following are ALM_RD_MODE specifications for the SGDB jjjN ALM RD ALARM STATUS ALM DATA WDT 1 2 3 4 5 6 7 8...

Page 112: ...s is the field used to select objects that will be cleared and it can be specified for each product The following are ALM_CLR_MODE specifications for the SGDB jjjN ALM CLR WDT 1 2 3 4 5 6 7 8 9 10 11...

Page 113: ...forward Monitor type 1 2 6 4 9 LATCH Interpolation Feed with Position Detection Specifications The speed feed forward function is not supported in LATCH inter polation feed with position detection wi...

Page 114: ...on deceleration time is 8 19s maximum and it is 1 s maximum with a FEED com mand D Feed speed Approx 2 reference units s The feed speed cannot exceed 16383500 reference units s 6 4 11 INTERPOLATE Comm...

Page 115: ...e 00 to 08 are ASCII code 09 is 00H and the software version is binary data 6 4 13 Unsupported Commands Do not use the following commands because they are not supported in the SGDB jjjN Code Name Func...

Page 116: ...er sensor power ON SENS_ON command When the power has been turned ON confirm the following status COMRDY 1 6 Turn ON the main power supply Confirm the following status PON 1 when power ON is completed...

Page 117: ...connection CONNECT command 3 Check device ID etc 4 Write required non volatile parameters by PPRM_WR command When writing has been completed ready for next writing confirm the following status COMRDY...

Page 118: ...ON SV_ON command When the main circuit has been turned ON confirm the following status SVON 1 7 Operation starts 8 Main circuit OFF SV_OFF command and turn OFF the main power supply 9 Communication d...

Page 119: ...alarm 82 Absolute encoder checksum error Servo alarm 83 Absolute encoder battery error Servo alarm 84 Absolute encoder data error Servo alarm 85 Absolute encoder overspeed Servo alarm B1 Gate array 1...

Page 120: ...ants 7 3 7 1 4 Sequence related Constants 7 4 7 1 5 Motion related Constants 7 5 7 1 6 Other Constants 7 8 7 1 7 Memory Switches 7 9 7 2 List of User Constants 7 13 7 3 Memory Switch Bit Details 7 16...

Page 121: ...urned ON do not change the setting during motor running J Cn 0003 Load Inertia Sets the load inertia for the moment of inertia ratio on the motor shaft The allowable setting range is 0 to 65535 but re...

Page 122: ...stant Cn 0001 bit 8 set to 1 for overtravel D Allowable setting range 0 to maximum torque J Cn 0008 Forward Torque Limit D Sets the motor torque limit for forward rotation for reverse rotation with re...

Page 123: ...ON Drive OFF J Cn 0015 Brake Timing During Motor Running Motor Speed for Brake ON Reference D Sets the motor speed at which a brake reference is turned ON during servo OFF D If the motor speed is fas...

Page 124: ...5 mm 0 20 in above the 5 mm 0 20 in pitch ball screw and this distance expressed as micrometers is 5000 m Therefore set Cn 0024 to 32768 and Cn 0025 to 5000 D Make sure that the electronic gear ratio...

Page 125: ...eleration Deceleration Bias D Setsbiastochangelinearacceleration decelerationtoexponentialacceleration deceleration D Allowable setting range 0 to 32767 500 reference units s J Cn 002E Exponential Acc...

Page 126: ...47483647 reference units J Cn 002B Final Travel Distance for External Positioning D Sets the distance from the external signal input during external positioning D Allowable setting range 2147483648 to...

Page 127: ...3 D Allowable setting range 0 to maximum motor torque J Cn 000E Acceleration Mode Switch Level D Sets the acceleration mode switch level D This constant is valid only when acceleration mode switch is...

Page 128: ...0 SV_ON Command Mask D The SV_ON command is disabled when this bit is set to 1 main circuit operating status J Cn 0001 Bit 1 SENS_ON Command Mask D The SENS_ON command is disabled when this bit is set...

Page 129: ...J Cn 0001 Bit 10 Servo OFF Position Error D The position error is held when Cn 0001 bit 10 is set to 1 J Cn 0001 Bit 11 Mode Switch Function D Sets whether the mode switch function will be used D The...

Page 130: ...is enabled when Cn 0002 bit 6 is set to 1 J Cn 0013 Bit 10 MECHATROLINK Communication Check Mask D Cn 0013 bit 10 is used to cancel the communication check for debugging D Normally set Cn 0013 bit 10...

Page 131: ...ib ited when the P OT signal is turned OFF Signal is CLOSED J Cn 0014 Bit 11 N OT Signal Logic D The N OT signal logic is reversed when Cn 0014 bit 11 is set to 1 Reverse drive is prohib ited when the...

Page 132: ...o 20000 400 Cn 0005 Speed loop integration time constant 2 0 01 ms 100 to 65535 2000 Cn 0006 Emergency stop torque 2 0 to MAX MAX Cn 0007 Positioning near detection width 2 Reference units 0 to 10000...

Page 133: ...its s 0 to 65535 50 Cn 0023 Zero point return approach speed 2 2 100 reference units s 0 to 65535 5 Cn 0024 Electronic gear ratio B nu merator 2 1 to 32768 4 Cn 0025 Electronic gear ratio A de nominat...

Page 134: ...th a small load inertia always set the load inertia to around 0 prior to operation 3 Be sure to use an electronic gear ratio Cn 0024 and 0025 within a range where 0 01 B Cn 0024 A Cn 0025 100 4 To avo...

Page 135: ...ON 0 b2 P OT mask 0 Enable the P OT signal 1 Mask always disable P OT signal 0 b3 N OT mask 0 Enable N OT signal 1 Mask always disable N OT signal 0 b4 0 b5 0 b6 Stopping method for base block 0 Dynam...

Page 136: ...F after deceleration to a stop 1 Zero clamping after deceleration to a stop Position clamping 1 bA 0 bB Mode switch function 0 Use the mode switch function depending on bits 12 and 13 1 Disable the mo...

Page 137: ...clockwise direction reverse rotation mode 0 b1 Zero point error detection mask 0 Detect zero point error only with an absolute encoder 1 Do not detect zero point errors 0 b2 0 b3 0 b4 0 b5 0 b6 Softwa...

Page 138: ...b1 0 b2 0 b3 0 b4 0 b5 0 b6 0 b7 0 b8 0 b9 0 bA MECHATROLINK Communication Check Mask for Debugging 0 Perform communication check 1 Communication check masked 0 bB WDT Check Mask for Debugging 0 Check...

Page 139: ...Factory Setting b0 0 b1 Zero point return direction 0 Forward direction 1 Reverse direction 0 b2 P SOT mask 0 Enable forward software limit 1 Mask always disable forward software limit 0 b3 N SOT mas...

Page 140: ...SERVOPACK BRK_ON BRK_OFF command disabled 0 bA P OT signal 0 Positive logic 1 Negative logic 0 bB N OT signal 0 Positive logic 1 Negative logic 0 bC DEC signal 0 Positive logic 1 Negative logic 0 bD...

Page 141: ...other user constants during motor running Number Name Cn 0004 Speed loop gain Cn 0005 Speed loop integration time constant Cn 0008 Positive torque limit Cn 0009 Negative torque limit Cn 0017 Torque re...

Page 142: ...rs can be changed only once after power is turned ON and this must be done prior to executing the SENS_ON command and the motor running Table 7 1 Cn 0037 Servomotor Selection List Group SERVOPACK Serv...

Page 143: ...otor SERVOPACK 60 SGDB 60AN SGMG 55AjA 94H SGMG 60AjB B2H 75 SGDB 75AN SGMG 75AjA 95H 1A SGDB 1AAN SGMG 1AAjA 8CH 1E SGDB 1EAN SGMG 1EAjA 96H Note The setting at user constant Cn 0037 can be changed a...

Page 144: ...PACKs are delivered as well as installation and wiring specifications 8 1 Checking on Delivery 8 2 8 2 Installation 8 3 8 2 1 Installing the Servomotor 8 3 8 2 2 Installing the SERVOPACK 8 4 8 3 Wirin...

Page 145: ...or damage or scratches resulting from transportation Check if the motor shaft rotates smoothly If the motor shaft can be smoothly turned by hand it is normal If the motor has a brake however it cannot...

Page 146: ...rage Before installation clean off the anticorrosive paint thoroughly using a cloth moistened with thinner Avoid getting thinner on other parts of the Servomotor when cleaning the shaft Anticorrosive...

Page 147: ...erent positions on the circumference The difference between the maximum and minimum measurements must be 0 03 mm 0 0012 in or less Turn together with couplings Figure 8 2 Alignment J Allowable Bearing...

Page 148: ...osive gases do not immediately affect the SERVOPACK but will eventually cause magnetic contactors or relays in the reference circuits or main circuits to malfunction Take appropriate action to prevent...

Page 149: ...lartothewallsothatthefrontpanelfacesoutward ME CHATROLINK communication connector mounting surface D Provide sufficient space around each SERVOPACK to allow for cooling by fan or natu ral convection D...

Page 150: ...sts the cable types Table 8 1 Rated Currents of SGDB SERVOPACK External Terminals External Terminal Name Model Rated Current A rms Effective Value Code SGDB 05AN SGDB 10AN SGDB 15AN SGDB 20AN SGDB 30A...

Page 151: ...Conductor 0 12 mm 0 0002 in or more stranded tinned annealed copper wire Finished cable size 16 mm 0 63 in dia max for 1CN and 11 mm 0 43 in dia max for 2CN Ground Terminal HIV 2 0 0 003 min Note 1 Ca...

Page 152: ...m allowable wiring length is as follows 50 m 164 04 ft for I O lines at 24 V power supply 20 m 65 62ft for PG feedback lines and 50 m 164 04 ft for MECHATRO LINK communication line Cut off the excess...

Page 153: ...sures are provided against radio frequency interference Use a noise filter in the power input line when using the SER VOPACKS near residential areas or where they are prone to radio frequency interfer...

Page 154: ...esistors is the permissible power loss If the permissible power loss is exceeded remove the built in Regenerative Resistor from the SERVOPACK and reinstall an external resis tor A SERVOPACK with an ex...

Page 155: ...Encoder and Servomotor End Connectors 9 46 9 2 SERVOPACKS 9 53 9 2 1 SGDB 05ANj to 15ANj SERVOPACKS 0 5 to 1 5 kW 9 53 9 2 2 SGDB 20ANj to 30ANj SERVOPACKS 2 0 to 3 0 kW 9 54 9 2 3 SGDB 50ANj SERVOPA...

Page 156: ...s 9 87 9 4 3 SGMP 15A Servomotor Connectors 9 89 9 4 4 SERVOPACK Encoder Connectors 9 90 9 4 5 1CN 2CN Connector for SERVOPACK 9 92 9 4 6 4CN Connector for SERVOPACK 9 93 9 5 Noise Filters 9 94 9 5 1...

Page 157: ...1 1 SGMG jjAjA Servomotors J Servomotors with 8192 P R Incremental Encoders 4 LZ MTG holes j100 j3 94 0 0016 0 0016 0 0008 0 0016 0 04 55A2A 75A2A 1AA2A 1EA2A only Shaft Extensin SGMG 05A2A to 13A2A...

Page 158: ...47 1 85 89 3 50 145 5 71 140 5 51 88 3 46 30A2A 271 10 67 192 7 56 145 5 71 79 3 11 47 1 85 115 4 53 171 6 73 140 5 51 88 3 46 44A2A 305 12 01 226 8 90 179 7 05 79 3 11 47 1 85 149 5 87 205 8 07 140...

Page 159: ...0 18 0 71 230 9 06 76 2 99 62 2 44 13 5 0 53 35 0 01 0 1 38 0 0004 0 45 1 77 76 2 99 18 39 7 44A2A 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2...

Page 160: ...K B A Channel Output L C B Channel Output M D B Channel Output N E C Channel Output P F C Channel Output R G 0 V S H 5 VDC T J FG Frame Ground Note 1 Terminals K to T are not used 2 Receptacle plug a...

Page 161: ...0 47 165 6 50 45 1 77 9 0 35 19 0 0 013 0 75 0 0 0005 30 1 18 40 1 57 7 5 16 5 09A2AAB 145 5 71 110 0 0 035 4 33 0 0 0014 130 5 12 6 0 24 6 0 24 12 0 47 165 6 50 45 1 77 9 0 35 19 0 0 013 0 75 0 0 00...

Page 162: ...78 415 16 34 142 5 59 168 6 61 88 3 46 142 5 59 Model SGMG Flange Dimensions mm in Shaft End Dimensions mm in Approx Mass k lb LA LB LC LE LF1 LF2 LG LH LJ1 LJ2 LZ S S1 Q kg lb 55A2AAB 200 7 87 114 3...

Page 163: ...nd A Brake terminal B Brake terminal C A Phase U B Phase V C Phase W D FG Frame Ground J Servomotors with 15 bit and 8192 P R Absolute Encoders MTG holes j100 j3 94 0 0016 0 0016 0 0008 Shaft Extensio...

Page 164: ...1 61 2 40 89 3 50 159 6 26 140 5 51 88 3 46 30ASA 285 11 22 206 8 11 145 5 71 79 3 11 61 2 40 115 4 53 185 7 28 140 5 51 88 3 46 44ASA 319 12 56 240 9 45 179 7 05 79 3 11 61 2 40 149 5 87 219 8 62 140...

Page 165: ...0 71 230 9 06 76 2 99 62 2 44 13 5 0 53 35 0 01 0 1 38 0 0004 0 45 1 77 76 2 99 18 5 40 8 44ASA 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2 4...

Page 166: ...ustomer MS3057 12A A A Channel Output K B A Channel Output L C B Channel Output M D B Channel Output N E Z C Channel Output P F Z C Channel Output R Reset G 0 V S 0 V battery H 5 VDC T 3 6 V battery J...

Page 167: ...7 48 129 5 08 58 2 28 61 2 40 56 2 20 169 6 65 120 4 72 88 3 46 09ASAAB 271 10 67 213 8 39 152 5 98 58 2 28 61 2 40 79 3 11 192 7 56 120 4 72 88 3 46 13ASAAB 295 11 61 237 9 33 176 6 93 58 2 28 61 2...

Page 168: ...0 87 0 0 0005 30 1 18 40 1 57 12 26 5 20ASAAB 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2 44 13 5 0 53 35 0 01 0 1 38 0 0004 0 45 1 77 76 2 99...

Page 169: ...k lb LA LB LC LE LF1 LF2 LG LH LJ1 LJ2 LZ S S1 Q kg lb 55ASAAB 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2 44 13 5 0 53 42 0 0 016 1 65 0 0 00...

Page 170: ...6 06A2B 219 8 62 161 6 34 115 4 53 58 2 28 46 1 81 88 3 46 140 5 51 109 4 29 88 3 46 09A2B 243 9 57 185 7 28 139 5 47 58 2 28 46 1 81 112 4 41 164 6 46 109 4 29 88 3 46 12A2B 245 9 65 166 6 54 119 4 6...

Page 171: ...0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2 44 13 5 0 53 35 0 01 0 1 38 0 0004 0 45 1 77 76 2 99 23 50 7 44A2B 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 1...

Page 172: ...Model SGMG L LL LM LR LT KB1 KB2 KL1 KL2 03A2BAB 234 9 21 176 6 93 129 5 08 58 2 28 47 1 85 56 2 20 155 6 10 120 4 72 88 3 46 06A2BAB 257 10 12 199 7 83 152 5 98 58 2 28 47 1 85 79 3 11 178 7 01 120 4...

Page 173: ...40 1 57 12 26 5 12A2BAB 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2 44 13 5 0 53 35 0 01 0 1 38 0 0004 0 45 1 77 76 2 99 19 41 9 20A2BAB 200 7...

Page 174: ...End Dimensions mm in Approx Mass k lb LA LB LC LE LF1 LF2 LG LH LJ1 LJ2 LZ S S1 Q kg lb 44A2BAB 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2 44...

Page 175: ...6 88 3 46 154 6 06 109 4 29 88 3 46 09ASB 257 10 12 199 7 83 139 5 47 58 2 28 60 2 36 112 4 41 178 7 01 109 4 29 88 3 46 12ASB 259 10 20 180 7 09 119 4 69 79 3 11 61 2 40 89 3 50 159 6 26 140 5 51 88...

Page 176: ...20ASB 200 7 87 114 3 0 0 025 4 50 0 0 0010 180 7 09 3 2 0 13 3 0 12 0 5 0 020 18 0 71 230 9 06 76 2 99 62 2 44 13 5 0 53 35 0 01 0 1 38 0 0004 0 45 1 77 76 2 99 18 5 40 8 30ASB 200 7 87 114 3 0 0 025...

Page 177: ...ound Note 1 Terminals K to P are not used 2 Receptacle plug and cable clamp are common regardless of motor capacity Connector Wiring on Servomotor End A Phase U B Phase V C Phase W D Ground terminal J...

Page 178: ...1 77 9 0 35 19 0 0 013 0 75 0 0 0005 30 1 18 40 1 57 7 9 17 4 06ASBAB 145 5 71 110 0 0 035 4 33 0 0 0014 130 5 12 6 0 24 6 0 24 12 0 47 165 6 50 45 1 77 9 0 35 19 0 0 013 0 75 0 0 0005 30 1 18 40 1 57...

Page 179: ...174 6 85 304 11 97 231 9 09 125 4 92 150 5 91 88 3 46 123 4 84 60ASBAB 512 20 16 399 15 71 338 13 31 113 4 45 61 2 40 248 9 76 378 14 88 305 12 01 125 4 92 150 5 91 88 3 46 123 4 84 Model SGMG Flange...

Page 180: ...Connector Wiring on Brake and Servomotor End A Brake terminal B Brake terminal C A Phase U B Phase V C Phase W D FG Frame Ground 9 1 3 SGMS jjA Servomotors J Servomotors with 4096 P R Incremental Enco...

Page 181: ...94 0 0 0005 30 1 18 40 1 57 4 6 10 1 15A6A 115 4 53 95 0 0 035 3 74 0 0 0014 100 3 94 3 0 12 3 0 12 10 0 39 130 5 12 45 1 77 7 0 28 24 0 0 013 0 94 0 0 0005 30 1 18 40 1 57 5 8 12 8 20A6A 115 4 53 95...

Page 182: ...Output R G 0 V S H 5 VDC T J FG Frame Ground Note 1 Terminals K to T are not used Do not connect anything 2 Receptacle plug and cable clamp are common regardless of motor capacity Connector Wiring on...

Page 183: ...39 130 5 12 45 1 77 7 0 28 24 0 0 013 0 94 0 0 0005 30 1 18 40 1 57 6 0 13 2 15A6AAB 115 4 53 95 0 0 035 3 74 0 0 0014 100 3 94 3 0 12 3 0 12 10 0 39 130 5 12 45 1 77 7 0 28 24 0 0 013 0 94 0 0 0005...

Page 184: ...0 2 36 76 2 99 142 5 59 96 3 78 87 3 43 15ASA 234 9 21 189 7 44 129 5 08 45 1 77 60 2 36 102 4 02 168 6 61 96 3 78 87 3 43 20ASA 257 10 12 212 8 35 152 5 98 45 1 77 60 2 36 125 4 92 191 7 52 96 3 78 8...

Page 185: ...30 1 18 55 2 17 11 5 25 4 40ASA 145 5 71 110 0 0 035 4 33 0 0 0014 130 5 12 6 0 24 6 0 24 12 0 47 165 6 50 45 1 77 9 0 35 28 0 0 013 1 10 0 0 0005 30 1 18 55 2 17 14 5 32 0 50ASA 145 5 71 110 0 0 035...

Page 186: ...AB 252 9 92 207 8 15 147 5 79 45 1 77 60 2 36 67 2 64 186 7 32 100 3 94 87 3 43 15ASAAB 278 10 94 233 9 17 173 6 81 45 1 77 60 2 36 93 3 66 212 8 35 100 3 94 87 3 43 20ASAAB 301 11 85 256 10 08 196 7...

Page 187: ...10 0 39 130 5 12 45 1 77 7 0 28 24 0 0 013 0 94 0 0 0005 30 1 18 40 1 57 9 0 19 8 30ASAAB 145 5 71 110 0 0 035 4 33 0 0 0014 130 5 12 6 0 24 6 0 24 12 0 47 165 6 50 45 1 77 9 0 35 28 0 0 013 1 10 0 0...

Page 188: ...he approximate mass is different MTG holes j100 j3 94 0 0016 0 0016 0 0008 Shaft Extension mm in Model SGMD L LL LM LR LT KB1 KB2 KL1 KL2 22A6A 242 9 53 187 7 36 144 5 67 55 2 17 43 1 69 70 2 76 166 6...

Page 189: ...0 0 016 1 26 0 0 0006 45 1 77 60 2 36 21 46 297 26 57 3 Note 1 The Encoder uses a 4096 P R incremental encoder 2 AB at the end of the model number indicates a brake Connector Wiring on Encoder End Rec...

Page 190: ...te mass is different MTG holes j100 j3 94 0 0016 0 0016 0 0008 Shaft Extension mm in Model SGMD L LL LM LR LT KB1 KB2 KL1 KL2 22AWA 256 10 08 201 7 91 144 5 67 55 2 17 57 2 24 70 2 76 180 7 09 165 6 5...

Page 191: ...26 5 58 4 Note 1 The Encoder uses a 12 bit 1024 P R absolute encoder 2 AB at the end of the model number indicates a brake Connector Wiring on Encoder End Receptacle MS3102A20 29 Plug To be prepared b...

Page 192: ...16 0 0008 19h6 19 0 0 013 0 75 0 0 0005 110h7 110 0 0 035 4 37 0 0 0014 j120 j4 72 38 1 50 145 5 71 Model SGMP QK U W T Screw dimensions Output W Approx Mass kg lb Allowable Radial Load N lbf Allowabl...

Page 193: ...ack B channel output Yellow B channel output Yellow Black Green Green Black Gray Red FG Frame Ground Orange 1 2 3 4 1 2 3 4 5 6 7 8 9 C channel output 5 V power supply 0 V power supply Pin 350218 6 or...

Page 194: ...5 0 41 3 5 0 14 19 0 75 0 0016 0 0008 j120 j4 72 38 1 50 145 5 71 10 0 39 Model SGMP QK U W T Screw dimensions Output W Approx Mass kg lb Allowable Radial Load N lbf Allowable Thrust Load N lbf 15A31...

Page 195: ...t Blue Black B channel output Yellow Yellow Black Green Green Black Gray Red FG Frame Ground Orange 1 2 3 4 1 2 3 5 6 7 8 9 Brake terminal Black Brake terminal Black 5 6 B channel output 4 C channel o...

Page 196: ...8 134 5 28 40 1 57 94 7 3 73 10 5 0 41 3 5 0 14 19 0 75 j120 j4 72 38 1 50 10 0 39 Model SGMP QK U W T Screw dimensions Output W Approx Mass kg lb Allowable Radial Load N lbf Allowable Thrust Load N l...

Page 197: ...15 S channel output S channel output Purple White Purple Capacitor reset Gray Reset White Gray 0 V battery 3 6V battery White Orange Orange Terminal to discharge capacitor before shipment Do not use Z...

Page 198: ...7 94 7 3 73 10 5 0 41 3 5 0 14 19 0 75 28 1 10 MAX 10 0 39 Model SGMP QK U W T Screw dimensions Output W Approx Mass kg lb Allowable Radial Load N lbf Allowable Thrust Load N lbf 15AW12B No key 15AW12...

Page 199: ...e Gray 0 V battery 3 6 V battery White Orange Orange Phase U Red Phase V White Phase W Blue FG Green Yellow Motor Wiring Specifications Absolute Encoder Wiring Specifications 1 2 3 4 5 6 Brake termina...

Page 200: ...22 22P MS3108B22 22S MS3106B22 22S MS3057 12A 40AjA 50AjA SGMG 05AjA MS3102A18 10P MS3108B18 10S MS3106B18 10S MS3057 10A 09AjA 13AjA 20AjA MS3102A22 22P MS3108B22 22S MS3106B22 22S MS3057 12A 30AjA 4...

Page 201: ...0AjA 30AjA 40AjA 50AjA SGMG 05AjA MS3102A20 29P MS3108B20 29S MS3106B20 29S MS3057 12A 09AjA 13AjA 20AjA 30AjA 44AjA 55AjA 75AjA 1AAjA 1EAjA SGMG 03AjB MS3102A20 29P MS3108B20 29S MS3106B20 29S MS3057...

Page 202: ...0AjA 44AjA 55AjA MS3102A32 17P MS3108B32 17S MS3106B32 17S MS3057 20A 75AjA MS3102A10SL 3P MS3108B10SL 3S MS3106A10SL 3S MS3057 4A 1AAjA MS3102A10SL 3P MS3108B10SL 3S MS3106A10SL 3S MS3057 4A 1EAjA SG...

Page 203: ...20AjA 30AjA 40AjA 50AjA SGMG 05AjA MS3102A20 29P MS3108B20 29S MS3106B20 29S MS3057 12A 09AjA 13AjA 20AjA 30AjA 44AjA 55AjA 75AjA 1AAjA 1EAjA SGMG 03AjB MS3102A20 29P MS3108B20 29S MS3106B20 29S MS305...

Page 204: ...L04V 2E32 JL04V 6A32 1 1 1 1 Japan Aviation 75AjA 17PE B 7SE p Electronics Indus try Co Ltd 1AAjA try Co Ltd 1EAjA SGMG 03AjB CE05 2A18 MS3106A18 1 CE 18BA S CE02 18BS S CE3057 10A Daiichi Denshi 06Aj...

Page 205: ...AjA JL04HV 2E22 22P JL04 6A22 JL04 22EBL JL04 22EB JL04 2022CK Japan Aviation 30AjA E B 22S 14 p Electronics Indus try Co Ltd 44AjA try Co Ltd 55AjA JL04V 2E32 JL04V 6A32 1 1 1 1 Japan Aviation 75AjA...

Page 206: ...or models 2 Do not modify the receptacle and plug kits in order to conform to IP67 specifications 3 End Bell is the name of a product manufactured by Japan Aviation Electronics Industry Ltd and Back S...

Page 207: ...3 5 8 1 0 F 3CN 2CN 1CN POWER ALARM r R CHARGE jj 4CN 6CN 5CN 1SW Two 5 5 0 22 dia mounting holes 110 4 33 92 3 62 Ground terminal M4 screw 5 5 0 22 7 5 0 30 235 9 25 189 5 7 46 250 9 84 60 5 2 38 Reg...

Page 208: ...2 6 7 9 B D C 4 3 5 8 1 0 F 2CN 1CN r R CHARGE POWER ALARM 4CN j j 6CN 3CN 5CN 1SW Two 5 5 0 22 mounting holes 135 5 31 117 4 61 Ground terminal M4 screw 5 5 0 22 7 5 0 30 235 9 25 250 9 84 189 5 7 4...

Page 209: ...al Terminals M4 Screws Name plate R S T r t P N B U V W 190 7 48 35 1 38 1CN 2CN 5 4 0 21 199 2 7 84 5 4 0 21 214 8 43 137 5 39 156 6 14 69 2 72 255 10 04 5CN 3CN 4CN 2CN 1CN CHARG E j j WARNING POWER...

Page 210: ...ircuit terminal Lower cover Ground terminal A i r flow Approx mass 15 kg 33 1 lb View A 25 3 1 00 9 7 0 38 15 0 59 145 5 71 90 3 54 MAX 240 9 45 E 4CN 3CN 2CN 1CN 5CN R S T N P B U V W P1 ALARM POWER...

Page 211: ...ew A Ground terminals Regenerative resistor terminals Main circuit terminals 152 5 6 00 34 1 34 27 1 06 M8 screws M8 screws M6 screws J Common for SGDB 05 to 1EAN SERVOPACKS Code SERVOPACK End Connect...

Page 212: ...0 80 Mounting Holes Approx mass 4 kg 8 82 lb Mounting surface View of the Mounting Surface 65 2 56 12 0 47 57 2 24 Note The angle shown in the diagram above is required for mounting Maintain a gap at...

Page 213: ...late Hollow Mounting surface View of the Mounting Surface 12 0 47 Note The angle shown in the diagram above is required for mounting Maintain a gap at least 10 mm 0 39 in wide at the top and bottom 11...

Page 214: ...s 8 kg 17 6 lb Detailed View of Installation Hollow Two 6 0 24 mounting holes 5 4 0 21 R S T r t P N B U V W 4CN 3CN 5CN 3CN 4CN 1CN POWER ALARM 2CN 1SW 5CN CHARGE j j 219 4 8 64 235 9 25 250 9 84 15...

Page 215: ...4 335 13 19 7 5 0 30 2 5 0 098 7 5 0 30 11 5 0 45 7 5 0 30 Two 6 0 24 holes 4 x M6 taps Hollow Detailed View of Mounting 3 4 0 13 82 3 23 5 5 0 22 E 2CN 1CN 3CN 5CN 4CN R S T N P B U V W P1 WARNING 3C...

Page 216: ...4 200 7 87 435 17 13 450 17 72 7 5 0 30 View A 26 5 1 04 34 1 34 27 1 06 152 5 6 00 64 5 2 54 9 0 35 Regenerative resistor terminals M6 screws Main circuit terminals M8 screws Ground terminals M8 scre...

Page 217: ...1EANj P SERVOPACKS Code SERVOPACK End Connector Comments 1CN 10226 52A2JL Manufactured by Sumitomo 3M 2CN 10220 52A2JL y Co Ltd 4CN MR 8RMD2 G Manufactured by Honda Tsushin Kogyo Co Ltd 5CN DF11 4DP 2...

Page 218: ...les with Straight Plug Model L mm in DE9407234 1 3000 100 0 118 1 3 94 0 DE9407234 2 5000 100 0 196 85 3 94 0 DE9407234 3 10000 500 0 393 70 19 69 0 DE9407234 4 15000 500 0 590 55 19 69 0 DE9407234 5...

Page 219: ...393 70 19 69 0 DE9406971 4 15000 100 0 590 55 19 69 0 DE9406971 5 20000 100 0 787 40 19 69 0 Case 10320 52A0 008 manufactured by SUMITOMO 3M Ltd Connector 10120 3000VE manufactured by SUMITOMO 3M Ltd...

Page 220: ...DE9407237 4 15000 500 0 590 55 19 69 0 DE9407237 5 20000 500 0 787 40 19 69 0 Absolute Encoder Cables Encoder end Split Leads Model L mm in DE9406972 1 3000 100 0 118 1 3 94 0 DE9406972 2 5000 100 0 1...

Page 221: ...O 3M Ltd Connector Straight plug MS3106B20 29S Cable clamp MS3057 12A Encoder end SERVOPACK end 2CN P Shielded twisted pair wires Purchase plugs cable clamps cases and connectors separately when order...

Page 222: ...hen ordering cable only See 9 4 Connectors for more details 0 12 mm2 0 0002 in2 0 3 mm2 0 0005 in2 T S Green Yellow J For SGM and SGMP Servomotors Incremental Encoder Cables with Connectors on Both En...

Page 223: ...00 100 0 196 85 3 94 0 DP9320086 3 10000 100 0 393 70 19 69 0 DP9320086 4 15000 100 0 590 55 19 69 0 DP9320086 5 20000 100 0 787 40 19 69 0 Cap 172161 1 Socket 170361 1 Encoder end Blue White Blue Yel...

Page 224: ...40 19 69 0 P Shielded twisted pair wires Case 10320 52A0 008 manufactured by SUMITOMO 3M Ltd Connector 10120 3000VE manufactured by SUMITOMO 3M Ltd Cap 172163 1 Socket 170365 1 Encoder end Blue White...

Page 225: ...Blue White Blue Yellow White Yellow Green White Green Red Black Green Yellow SERVOPACK end 2CN 7 8 Purchase plugs cable clamps cases and connectors separately when ordering cable only See 9 4 Connecto...

Page 226: ...oder Yaskawa Drawing DP8409123 Basic Specifications Compound KQVV SW AWG22 3 Cores AWG26 4P Compound KQVV SW AWG22 3 Cores AWG26 6P Finished Dimension 7 5 mm 0 30 in 8 0 mm 0 31 in Internal Structure...

Page 227: ...thout Brakes with Connector and AMP Terminal Model L mm in DP9320827 1 3000 100 0 118 1 3 94 0 DP9320827 2 5000 100 0 196 85 3 94 0 DP9320827 3 10000 500 0 393 70 19 69 0 DP9320827 4 15000 500 0 590 5...

Page 228: ...Cable Length m feet DE9411358 1 10 1 0 32 81 3 28 0 DE9411358 2 20 1 0 65 62 3 28 0 DE9411358 3 30 1 0 98 43 3 28 0 DE9411358 4 50 1 0 164 04 3 28 0 DE9411358 5 100 1 0 328 08 3 28 0 DE9411358 6 200 1...

Page 229: ...ing cases D All Servomotor cables whether or not the Servomotor has a brake D An encoder cable with a SERVOPACK end connector loose leads on the encoder end or an encoder cable only regardless of whet...

Page 230: ...nvironment Connector Combination MS D190 waterproof plug CE XXBA S waterproof angled Back Shell Waterproof cable clamp CE3057 Flexible conduit CE02 XXBS S waterproof straight Back Shell J Servomotor C...

Page 231: ...3AjA 20AjA MS3102A22 22P MS3108B22 22S MS3106B22 22S MS3057 12A 30AjA 44AjA 55AjA MS3102A32 17P MS3108B32 17S MS3106B32 17S MS3057 20A 75AjA 1AAjA 1EAjA SGMG 03AjB MS3102A18 10P MS3108B18 10S MS3106B1...

Page 232: ...3 0 375 53 2 09 32 2 18UNS 18 26 0 718 61 92 2 438 56 33 2 222 1 3 4 18UNS 11 13 0 4382 66 2 60 MS3108B L shaped Plug Shell mm in Shell Size Joint Screw A Length of Joint Por tion J 0 12 0 0047 Overal...

Page 233: ...6 mm in Part Number Applica ble Con nector Shell Size Overall Length A 0 7 0 028 Outer Diam eter B 0 7 0 028 Effec tive Screw Length C D E F G 0 7 0 028 Mounting Screw V Attached Bushing MS3057 10A 18...

Page 234: ...4AjA 55AjA MS3102A32 17P MS3108B32 17S MS3106B32 17S MS3057 20A 75AjA MS3102A10SL 3P MS3108B10SL 3S MS3106A10SL 3S MS3057 4A 1AAjA MS3102A10SL 3P MS3108B10SL 3S MS3106A10SL 3S MS3057 4A 1EAjA SGMG 03A...

Page 235: ...CE05 2A18 MS3106A18 1 CE 18BA S CE02 18BS S CE3057 10A Daiichi Denshi 06AjB 10PD 0S D190 Kogyo Co Ltd 09AjB 12AjB JL04HV 2E22 JL04 6A22 22 JL04 22EBL JL04 22EB JL04 2022CK Japan Aviation 20AjB 22PE B...

Page 236: ...MS3106A10S L 3S D190 1 Ltd Daiichi Denshi 1EAjA 1 Daiichi Denshi Kogyo Co Ltd SGMG 03AjB JL04V 2E20 15 PE JL04V 6A20 1 5SE JL04 20EBL JL04 20EB JL04 2022CK 14 Japan Aviation Electronics Industry 06Aj...

Page 237: ...9 16 24UNEF 2A 7 5 0 30 12 5 0 492 13 49 0 531 20 1 1 4 18UNEF 2B 37 28 1 468 34 11 1 343 1 1 18 18UNEF 2A 12 16 0 479 26 8 1 055 18 26 0 718 Manufactured by Daiichi Denshi Kogyo Co Ltd CE02 XXBS S S...

Page 238: ...W CE 10SLBA S 10SL 9 16 24UNEF 2B 30 6 1 20 22 5 0 885 21 7 0 854 7 9 0 31 21 0 83 28 9 1 14 5 8 24UNEF 2A 7 5 0 30 CE 18BA S 18 1 20UNEF 2B 44 6 1 76 34 1 34 32 4 1 28 13 2 0 520 30 2 1 19 43 4 1 71...

Page 239: ...7 10A 2 11 6 0 457 CE3420 10 2 8 5 0 33 to 11 0 43 CE3057 10A 3 8 7 0 34 CE3420 10 3 5 5 0 22 to 9 7 0 38 CE3057 12A 1 20 22 23 8 0 937 35 1 38 10 3 0 406 41 3 1 63 19 0 748 16 0 63 37 3 1 47 4 0 16 1...

Page 240: ...Size V Screw A B L E G 20 1 1 8 18UNEF 2A 37 3 0 8 1 47 0 0315 27 0 2 1 06 0 0079 31 5 0 4 1 24 0 0157 8 max 0 31 max 32 1 7 8 16UN 2A 56 3 0 8 2 22 0 0315 45 4 0 2 1 79 0 0079 35 8 0 4 1 41 0 0157 1...

Page 241: ...e Clamp JL04 jjCK B Above the lip F clamp range W screw mm in Dimensions Dimensions Name A 0 8 A 0 031 B 0 8 B 0 031 C 0 8 C 0 031 D 0 8 D 0 031 E 0 3 E 0 011 F W screw Applicable Cable Diameter JL04...

Page 242: ...otor cable only whether or not the Servomotor has a brake D An encoder cable with a SERVOPACK end connector loose leads on the encoder end or an encoder cable only regardless of whether the encoder is...

Page 243: ...6 1 9 8 0 39 11 8 0 46 23 7 0 93 4 2 0 17 14 0 55 9 4 3 SGMP 15A Servomotor Connectors Different connectors are used for Servomotors depending on whether Servomotors are with brake or without brake D...

Page 244: ...or is available for the SERVOPACK end encoder common to SGMG SGMS SGMD SGM and SGMP Servomotors J Connector 2 3 0 091 5 1 0 20 Pin no 1 Pin no Last no 2 1 2 54 0 100 1 27 0 050 12 7 0 50 2 9 0 11 6 6...

Page 245: ...der Motor C bl For Encoder Cable For Motor Cable Number Cable Encoder End SERVOPACK End Encoder T Motor B k Cap Socket Connector Case Cap Socket Type Brake Model Qty Model Qty Model Qty Model Qty Mode...

Page 246: ...1 170365 1 1 10 3 10120 3000VE 2 1 10320 52A0 008 2 1 350780 1 1 1 170366 1 1 5 3 DP9420016 2 Incremental encoder With 2 008 2 350781 1 1 1 7 3 DP9420016 3 Absolute encoder Without 172163 1 1 1 16 3...

Page 247: ...nnector Kit Part List Kit Model pp Connector Case Model Qty Model Qty DE9411354 1CN connector for I O 10126 3000VE 2 1 10326 52A0 008 2 1 set DE9411357 4CN MECHATROLINK commu nication connector MR 8F...

Page 248: ...oise Filters Select a noise filter based on SERVOPACK capacity A list of filters is provided in Table 2 8 page 2 22 9 5 1 Dimensional Diagram D LF 300 Series Three phase 200 VAC Class IN Rating plate...

Page 249: ...70 6 69 60 2 36 29 1 14 120 4 72 135 5 31 150 5 91 35 1 38 65 2 56 4 5 7 0 18 0 28 LF 340 180 7 09 160 6 30 50 1 97 30 1 18 200 7 87 220 8 66 240 9 45 40 1 57 80 3 15 6 5 9 0 26 0 35 LF 350 180 7 09 1...

Page 250: ...3 5 0 14 202 5 7 97 7 0 28 0 61 45 1 77 3 5 0 14 0 81 43 1 69 2 0 079 15 5 20 5 9 6 2 Brake Power Supply Brake power supplies are used for Servomotors with brake Brake power supplies are available for...

Page 251: ...the brake power supply it is normally safer to switch the AC side If the DC side is to be switched install a surge suppressor near the brake coil to prevent the surge voltages due to switching the DC...

Page 252: ...Servomotor protection manufactured by Mitsubishi Electric Co Ltd Model MIN50 CF 9 6 4 Magnetic Contactor Magnetic contactors are used to turn the servo power supply ON and OFF Be sure to attach a surg...

Page 253: ...inal M3 5 Main contact terminal M4 45 5 1 79 15 3 0 60 8 2 0 32 9 6 0 38 51 2 01 9 6 0 38 11 3 0 44 11 3 0 44 10 8 0 43 8 2 0 32 29 1 14 50 1 97 85 3 35 91 3 58 65 2 56 39 1 54 4 5 0 18 35 1 38 9 0 35...

Page 254: ...ary NC contact The magnetic contactor is manufactured by Yaskawa Controls 9 6 5 Surge Suppressor Attachasurgesuppressortothemagneticcontactortopreventpowersupplynoiseandtoprotectcon tacts D Recommende...

Page 255: ...4 screw External terminals M5 screw Cement resistor 220 W 25 4 or 8 connected in parallel Terminal Numbers 30 1 18 mm in Model W H D M1 M2 Approx Mass JUSP RA04 220 8 66 350 13 78 92 3 62 180 7 09 335...

Page 256: ...ation and also the procedure for trial operation 10 1 Check Items before Trial Operation 10 2 10 1 1 Servomotors 10 2 10 1 2 SERVOPACKS 10 2 10 2 Trial Operation Procedure 10 3 10 2 1 Preparations for...

Page 257: ...olts and nuts securely tightened D Is the oil seal undamaged and oiled Take appropriate action immediately if one of the items above is incorrect 10 1 2 SERVOPACKS Inspect the following items before c...

Page 258: ...ection command is transfered the red alarm indicator will go out Use the SMON status monitoring command to check SERVOPACK status The data returned from the SERVOPACK is alarm code 99 3 Use the IR_RD...

Page 259: ...th absolute encoders Rapid traverse speed 400 Make sure the Servomotor is running in the proper direction according to the reference Figure 10 1 Servomotor Forward Running 10 2 3 Trial Operation Inspe...

Page 260: ...lt characteristics and servo performance ad justments 11 1 Characteristics when Shipped 11 2 11 2 Resetting 11 2 11 3 Adjusting Servo Performance 11 2 11 3 1 Setting User Constants 11 2 11 3 2 Setting...

Page 261: ...t because of application or usage conditions reset them in according to Chapter 6 MECHATROLINK Communication 11 3 Adjusting Servo Performance 11 3 1 Setting User Constants J Position Loop Gain Cn 001A...

Page 262: ...Factory setting 11 3 2 Setting Optimum Position and Speed Loop Gain J Speed Overshooting and Vibration D Incrementally decrease the position loop gain Cn 001A D Incrementally increase the speed loop g...

Page 263: ...tion and troubleshooting 12 1 Maintenance and Inspection of Servodrives 12 2 12 1 1 Servomotor Inspection 12 2 12 1 2 SERVOPACK Inspection 12 3 12 1 3 Replacing the Battery for Absolute Encoders 12 4...

Page 264: ...eaning According to the degree of dirt Clean with a cloth or compressed air Insulation Resistance Measurement Yearly Disconnect the SERVOPACK and test in sulation resistance at 500 V Must exceed 10 M...

Page 265: ...ken wires due to heat Contact your Yaskawa representative J Guidelines for Replacing Parts The following parts are subject to mechanical wear or deterioration over time To avoid failure replace these...

Page 266: ...ars 1 Turn ON the control power supply of SERVOPACK and wait at least 30 minutes after SENS ON command is transmitted until the capacitor inside the encoder is charged 2 Replace the battery The SERVOP...

Page 267: ...n Faulty connection Check the Phase U V and W lead terminals as well as feedback pulse connection Reconnect the wiring Servomotor overheated Ambient temperature too high Check to see if the ambient te...

Page 268: ...Servomotor and correct Servomotor wiring Ground Main circuit grounded Replace SERVOPACK 40 Overvoltage Lit with normal running or de celeration GD2 load too large Check the load inertia for the moment...

Page 269: ...ad overload or load inertia Feed speed too large Decrease the feed speed 71 Instantaneous overload Lit during driving Operation resumes after turning power OFF and ON Load greatly exceeds the rated to...

Page 270: ...SENS_ON command error only if a 12 bit absolute encoder is used Control board 1PWB defective Replace SERVOPACK 85 Absolute encoder overspeed only if a 12 bit At the SENS_ON command transfer Absolute...

Page 271: ...he main power sup ply Check the sequence At the synchronous command SYNC_SET transfer Communication phase 3 has not been reached Establish a sync by CON NECT command normal synchronum or the SYNC SET...

Page 272: ...LM_CLR command J Problems due to Defective Wiring or Parts Table 12 7 Problems due to Defective Wiring or Parts Symptom Check Areas and Items Remedy Motor will not run with refer ence input Check volt...

Page 273: ...e en coder is an incremental or absolute encoder Set user constant Cn 0001 bit 14 ac cording to the encoder type P OT and N OT inputs are turned OFF If Cn 0001 bits 2 and 3 are 0 Turn ON the P OT and...

Page 274: ...hten the mounting screws Check whether cou pling is misaligned Align the coupling Check whether the coupling is unbal anced Balance the coupling Bearing defective Check noise and vibra tion near the b...

Page 275: ...RPORATION 4F No 49 Wu Kong 6 Rd Wu Ku Industrial Park Taipei Taiwan Phone 886 2 2298 3676 Fax 886 2 2298 3677 YASKAWA ELECTRIC HK COMPANY LIMITED Rm 2909 10 Hong Kong Plaza 186 191 Connaught Road West...

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