electric drives linear motion and hydraulics assembly ... pdfs/brc/motors/ksm/rexroth ksm... ·...
TRANSCRIPT
Electric Drivesand Controls Pneumatics Service
Linear Motion and Assembly TechnologiesHydraulics
Rexroth IndraDrive MiDistributed Servo Drive KSM
Instruction Manual
DOK-INDRV*-KSM01*UL***-IB02-EN-P
RS-0756e64df88f81960a6846a001f443b6-1-en-US-4
Edition Release Date Notes
DOK-INDRV*-KSM01*UL***-IB01-EN-P 2007/10 First editionDOK-INDRV*-KSM01*UL***-IB02-EN-P 2009/06 Changes in comparison
to previous edition: Multi‐lingual information chap‐ter; EMC Measures; Ac‐cessories; Service andSupport; EnvironmentalProtection and Disposal;technical data updated
Purpose of Documentation This documentation provides information on the installation and operation ofthe described products, by persons trained and qualified to work with electricalinstallations.
Copyright © Bosch Rexroth AG, 2009Copying this document, giving it to others and the use or communication of thecontents thereof without express authority, are forbidden. Offenders are liablefor the payment of damages. All rights are reserved in the event of the grant ofa patent or the registration of a utility model or design (DIN 34-1).
Validity The data specified only serve to describe the product. No statements concern‐ing a certain condition or suitability for a certain application can be derived fromour information. The information given does not release the user from the ob‐ligation of own judgement and verification. It must be remembered that ourproducts are subject to a natural process of wear and aging.
Published by Bosch Rexroth AG, Bgm.-Dr.-Nebel-Str. 2, D-97816 Lohr a. MainTelephone +49 (0)93 52 / 40-0, Tx 68 94 21, Fax +49 (0)93 52 / 40-48 85http://www.boschrexroth.deDCC/EDY4 (CR, BB)
Title
Type of Documentation
Document Typecode
Internal File Reference
Record of Revision
Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
English Do not attempt to install or put these products into operation until you havecompletely read, understood and observed the documents supplied with theproduct.If no documents in your language were supplied, please consult your Rexrothsales partner.
Deutsch Nehmen Sie die Produkte erst dann in Betrieb, nachdem Sie die mit demProdukt gelieferten Unterlagen und Sicherheitshinweise vollständigdurchgelesen, verstanden und beachtet haben.Sollten Ihnen keine Unterlagen in Ihrer Landessprache vorliegen, wenden Siesich an Ihren zuständigen Rexroth Vertriebspartner.
Français Ne mettez les produits en service qu'après avoir lu complètement et après avoircompris et respecté les documents et les consignes de sécurité fournis avec leproduit.Si vous ne disposez pas de la documentation dans votre langue, merci deconsulter votre partenaire Rexroth.
Italiano Mettere in funzione i prodotti solo dopo aver letto, compreso e osservato perintero la documentazione e le indicazioni di sicurezza fornite con il prodotto.Se non dovesse essere presente la documentazione nella vostra lingua, sietepregati di rivolgervi al rivenditore Rexroth competente.
Español Los productos no se pueden poner en servicio hasta después de haber leídopor completo, comprendido y tenido en cuenta la documentación y lasadvertencias de seguridad que se incluyen en la entrega.Si no dispusiera de documentación en el idioma de su país, diríjase a sudistribuidor competente de Rexroth.
Português (Brasil) Utilize apenas os produtos depois de ter lido, compreendido e tomado emconsideração a documentação e as instruções de segurança fornecidasjuntamente com o produto.Se não tiver disponível a documentação na sua língua dirija-se ao seu parceirode venda responsável da Rexroth.
Nederlands Stel de producten pas in bedrijf nadat u de met het product geleverdedocumenten en de veiligheidsinformatie volledig gelezen, begrepen en in achtgenomen heeft.Mocht u niet beschikken over documenten in uw landstaal, kunt u contactopnemen met uw plaatselijke Rexroth distributiepartner.
Svenska Använd inte produkterna innan du har läst och förstått den dokumentation ochde säkerhetsanvisningar som medföljer produkten, och följ alla anvisningar.Kontakta din Rexroth återförsäljare om dokumentationen inte medföljer på dittspråk.
Suomi Ota tuote käyttöön vasta sen jälkeen, kun olet lukenut läpi tuotteen mukanatoimitetut asiakirjat ja turvallisuusohjeet, ymmärtänyt ne ja ottanut nehuomioon.Jos asiakirjoja ei ole saatavana omalla äidinkielelläsi, ota yhteysasianomaiseen Rexroth myyntiedustajaan.
Polski Produkty wolno uruchamiać dopiero po przeczytaniu wszystkich dokumentówdostarczonych wraz z produktem oraz wskazówek dotyczącychbezpieczeństwa i ich pełnym zrozumieniu. Wszystkich wskazówek tamzawartych należy przestrzegać.Jeżeli brak jest dokumentów w Państwa języku, proszę się skontaktować zlokalnym partnerem handlowym Rexroth.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG I/VI
Český Před uvedením produktů do provozu pročtěte kompletní dokumentaci abezpečnostní pokyny dodávané s produktem a zajistěte, že jim rozumíte abudete se jimi řídit.Nejsou-li k dispozici podklady ve Vaší řeči, obraťte se na příslušného prodejceproduktů Rexroth.
Magyar Mielőtt üzembe helyezné a terméket, olvassa el, értelmezze, és vegyefigyelembe a csomagban található dokumentumban foglaltakat és a biztonságiútmutatásokat.Amennyiben a csomagban nem talál az Ön nyelvén írt dokumentumokat, vegyefel a kapcsolatot az illetékes Rexroth képviselővel.
Română Punerea în funcţiune a produselor trebuie efectuată după citirea, înţelegereaşi respectarea documentelor şi instrucţiunilor de siguranţă, care sunt livrateîmpreună cu produsele.În cazul în care documentele nu sunt în limba dumneavoastră maternă,contactaţi furnizorul dumneavoastră competent pentru Rexroth.
II/VI Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Table of ContentsPage
1 Important Notes............................................................................................................. 71.1 Safety Instructions.................................................................................................................................. 71.1.1 General Information............................................................................................................................. 71.1.2 Protection Against Contact with Electrical Parts and Housings........................................................... 81.1.3 Protection Against Dangerous Movements......................................................................................... 91.1.4 Protection Against Magnetic and Electromagnetic Fields During Operation and Mounting.............. 111.1.5 Protection Against Contact with Hot Parts......................................................................................... 111.1.6 Protection During Handling and Mounting......................................................................................... 121.2 Appropriate Use.................................................................................................................................... 12
2 Identification................................................................................................................. 132.1 Type Code............................................................................................................................................ 132.2 Type Plates........................................................................................................................................... 142.2.1 Design............................................................................................................................................... 142.3 Scope of Supply.................................................................................................................................... 14
3 Ratings and Dimensions.............................................................................................. 153.1 Ratings.................................................................................................................................................. 153.2 Dimensions........................................................................................................................................... 18
4 Reference Documentations......................................................................................... 234.1 Drive Systems, System Components................................................................................................... 234.2 Motors................................................................................................................................................... 234.3 Cables................................................................................................................................................... 234.4 Firmware............................................................................................................................................... 24
5 Instructions for Use...................................................................................................... 255.1 Handling of the Devices........................................................................................................................ 255.2 Mounting............................................................................................................................................... 265.2.1 Required Steps to Follow.................................................................................................................. 26
Preparations................................................................................................................................... 26Mounting......................................................................................................................................... 26
5.2.2 Mechanical Interfaces........................................................................................................................ 26Mounting the Flange....................................................................................................................... 26
5.3 Installation............................................................................................................................................. 275.3.1 General Information on How to Install the Drive Controller............................................................... 275.3.2 Position of Connection Points............................................................................................................ 285.3.3 SERCOS Address Selector Switches ............................................................................................... 285.3.4 Selecting Hybrid Cable for Appropriate Connection.......................................................................... 305.3.5 Second Connection Point of Equipment Grounding Conductor........................................................ 315.4 Commissioning, Operation, Diagnoses and Maintenance.................................................................... 335.4.1 Notes on Commissioning................................................................................................................... 33
General Information........................................................................................................................ 33
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG III/VI
Table of Contents
Page
Preparation..................................................................................................................................... 33How to Proceed.............................................................................................................................. 33
5.4.2 Notes on Operation........................................................................................................................... 335.4.3 Diagnostic Functions......................................................................................................................... 33
Diagnostic Display at the Device.................................................................................................... 33Firmware Functions........................................................................................................................ 34
5.4.4 Service Functions / Troubleshooting................................................................................................. 35General Information........................................................................................................................ 35Deactivating and Dismounting the Drive........................................................................................ 35Replacement of KSM/KMS............................................................................................................. 36Service Function "Release Holding Brake".................................................................................... 36Saving Parameters......................................................................................................................... 37Firmware Update............................................................................................................................ 37MMC............................................................................................................................................... 37
5.4.5 Maintenance...................................................................................................................................... 38Maintenance of the Motor Component........................................................................................... 38Maintenance of the Electronic System of the Drive........................................................................ 40
6 EMC Measures for Design and Installation.................................................................. 416.1 Rules for Design of Installations With Drive Controllers in Compliance With EMC.............................. 416.2 EMC-Optimal Installation in Facility and Control Cabinet..................................................................... 426.2.1 General Information........................................................................................................................... 426.2.2 Division Into Areas (Zones)............................................................................................................... 426.2.3 Control Cabinet Mounting According to Interference Areas - Exemplary Arrangements.................. 436.2.4 Design and Installation in Area A - Interference-Free Area of Control Cabinet................................. 476.2.5 Design and Installation in Area B - Interference-Susceptible Area of Control Cabinet...................... 486.2.6 Design and Installation in Area C - Strongly Interference-Susceptible Area of Control Cabinet....... 496.3 Ground Connections............................................................................................................................. 516.4 Installing Signal Lines and Signal Cables............................................................................................. 526.5 General Measures of Radio Interference Suppression for Relays, Contactors, Switches, Chokes and
Inductive Loads..................................................................................................................................... 52
7 Accessories.................................................................................................................. 55
8 Service and Support.................................................................................................... 57
9 Environmental Protection and Disposal ...................................................................... 599.1 Environmental Protection...................................................................................................................... 599.2 Disposal................................................................................................................................................ 59
10 Appendix...................................................................................................................... 6110.1 Discharging of Capacitors..................................................................................................................... 6110.1.1 Discharging of DC Bus Capacitors.................................................................................................... 6110.1.2 Discharging Device............................................................................................................................ 61
IV/VI Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Table of Contents
Page
Operating Principle......................................................................................................................... 61Dimensioning.................................................................................................................................. 62Installation...................................................................................................................................... 62Activation........................................................................................................................................ 62
Index............................................................................................................................ 63
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG V/VI
Table of Contents
VI/VI Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
1 Important Notes1.1 Safety Instructions1.1.1 General Information
● Do not attempt to install and operate the electric components of the driveand control system without first reading all documentation provided withthe product. Read and understand these safety instructions and all userdocumentation prior to working with these components. If you do not havethe user documentation for the components, contact your responsibleRexroth sales partner. Ask for these documents to be sent immediately tothe person or persons responsible for the safe operation of the compo‐nents.
● If the supplied documents contain some information you do not under‐stand, it is absolutely necessary that you ask Rexroth for explanationbefore you start working at or with the components.
● If the component is resold, rented and/or passed on to others in any otherform, these safety instructions must be delivered with the component inthe official language of the user's country.
● Only qualified persons may work with components of the drive and controlsystem or within its proximity.In terms of this Instruction Manual, qualified persons are those personswho are familiar with the installation, mounting, commissioning and oper‐ation of the components of the drive and control system, as well as withthe hazards this implies, and who possess the qualifications their workrequires. To comply with these qualifications, it is necessary, among otherthings,– to be trained, instructed or authorized to switch electric circuits and
components safely on and off, to ground them and to mark them,– to be trained or instructed to maintain and use adequate safety
equipment,– to attend a course of instruction in first aid.
● The technical data, connection and installation conditions of the compo‐nents are specified in the respective application documentations and mustbe followed at all times.
● If the components take the form of hardware, then they must remain intheir original state, in other words, no structural changes are permitted. Itis not permitted to decompile software components or alter source codes.
● Do not mount damaged or faulty components or use them in operation.● Only use accessories and spare parts approved by Rexroth.● Follow the safety regulations and requirements of the country in which the
electric components of the drive and control system are operated.● Proper and correct transport, storage, mounting and installation, as well
as care in operation and maintenance, are prerequisites for optimal andsafe operation of the component.
WARNING
Improper use of these components, failure to follow the safety instruc‐tions in this document or tampering with the product, including disablingof safety devices, could result in property damage, injury, electric shockor even death.Observe the safety instructions!
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 7/65
Important Notes
1.1.2 Protection Against Contact with Electrical Parts and HousingsThis section concerns components of the drive and control systemwith voltages of more than 50 volts.
Contact with parts conducting voltages above 50 volts can cause personaldanger and electric shock. When operating components of the drive and controlsystem, it is unavoidable that some parts of these components conduct dan‐gerous voltage.
WARNING
High electrical voltage! Danger to life, risk of injury by electric shock orserious injury!● Only qualified persons are allowed to operate, maintain and/or repair the
electric components of the drive and control system.● Follow the general installation and safety regulations when working on
power installations.● Before switching on, the equipment grounding conductor must have been
permanently connected to all electric components in accordance with theconnection diagram.
● Even for brief measurements or tests, operation is only allowed if theequipment grounding conductor has been permanently connected to thepoints of the components provided for this purpose.
● Before accessing electrical parts with voltage potentials higher than 50 V,you must disconnect electric components from the mains or from the pow‐er supply unit. Secure the electric component from reconnection.
● With electric components, observe the following aspects:Always wait 30 minutes after switching off power to allow live capacitorsto discharge before accessing an electric component. Measure the elec‐trical voltage of live parts before beginning to work to make sure that theequipment is safe to touch.
● Install the covers and guards provided for this purpose before switchingon.
● Never touch electrical connection points of the components while poweris turned on.
● Do not remove or plug in connectors when the component has been pow‐ered.
● As a basic principle, residual-current-operated circuit-breakers cannot beused for electric drives to prevent direct contact.
● Secure built-in devices from penetrating foreign objects and water, as wellas from direct contact, by providing an external housing, for example acontrol cabinet.
8/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Important Notes
WARNING
High housing voltage and high leakage current! Danger to life, risk ofinjury by electric shock!● Before switching on and before commissioning, ground or connect the
components of the drive and control system to the equipment groundingconductor at the grounding points.
● Connect the equipment grounding conductor of the components of thedrive and control system permanently to the main power supply at alltimes. The leakage current is greater than 3.5 mA.
● Establish an equipment grounding connection with a copper wire of across section of at least 10 mm2 (8 AWG) or additionally run a secondequipment grounding conductor of the same cross section as the originalequipment grounding conductor.
1.1.3 Protection Against Dangerous MovementsDangerous movements can be caused by faulty control of connected motors.Some common examples are:● Improper or wrong wiring or cable connection● Operator errors● Wrong input of parameters before commissioning● Malfunction of sensors and encoders● Defective components● Software or firmware errorsThese errors can occur immediately after equipment is switched on or evenafter an unspecified time of trouble-free operation.The monitoring functions in the components of the drive and control system willnormally be sufficient to avoid malfunction in the connected drives. Regardingpersonal safety, especially the danger of injury and/or property damage, thisalone cannot be relied upon to ensure complete safety. Until the integratedmonitoring functions become effective, it must be assumed in any case thatfaulty drive movements will occur. The extent of faulty drive movements de‐pends upon the type of control and the state of operation.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 9/65
Important Notes
WARNING
Dangerous movements! Danger to life, risk of injury, serious injury orproperty damage!● A risk assessment must be prepared for the installation or machine, with
its specific conditions, in which the components of the drive and controlsystem are installed. As a result of the risk assessment, the user mustprovide for monitoring functions and higher-level measures on the instal‐lation side for personal safety. The safety regulations applicable to theinstallation or machine must be taken into consideration. Unintended ma‐chine movements or other malfunctions are possible if safety devices aredisabled, bypassed or not activated.
To avoid accidents, injury and/or property damage:● Keep free and clear of the machine’s range of motion and moving machine
parts. Prevent personnel from accidentally entering the machine’s rangeof motion by using, for example:– Safety fences– Safety guards– Protective coverings– Light barriers
● Make sure the safety fences and protective coverings are strong enoughto resist maximum possible kinetic energy.
● Mount emergency stop switches in the immediate reach of the operator.Before commissioning, verify that the emergency stop equipment works.Do not operate the machine if the emergency stop switch is not working.
● Prevent unintended start-up. Isolate the drive power connection by meansof an emergency stop circuit or use a safe starting lockout.
● Make sure that the drives are brought to a safe standstill before accessingor entering the danger zone.
● Additionally secure vertical axes against falling or dropping after switchingoff the motor power by, for example,– mechanically securing the vertical axes,– adding an external braking/arrester/clamping mechanism or– ensuring sufficient equilibration of the vertical axes.
● The standard equipment motor holding brake or an external holding brakecontrolled by the drive controller is not sufficient to guarantee personalsafety!
● Disconnect electrical power to the components of the drive and controlsystem using the master switch and secure them from reconnection for:– Maintenance and repair work– Cleaning of equipment– Long periods of discontinued equipment use
● Prevent the operation of high-frequency, remote control and radio equip‐ment near electric/electronic components of the drive and control systemand their supply leads. If the use of these devices cannot be avoided,check the machine or installation, before initial commissioning of the driveand control system, for possible malfunctions when operating such high-frequency, remote control and radio equipment in its possible positions ofnormal use. It might possibly be necessary to perform a special electro‐magnetic compatibility (EMC) test.
10/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Important Notes
1.1.4 Protection Against Magnetic and Electromagnetic Fields During Oper‐ation and Mounting
Magnetic and electromagnetic fields generated by current-carrying conductorsor permanent magnets of electric motors represent a serious danger to personswith heart pacemakers, metal implants and hearing aids.
WARNING
Health hazard for persons with heart pacemakers, metal implants andhearing aids in proximity to electric components!● Persons with heart pacemakers and metal implants are not allowed to
enter the following areas:– Areas in which components of the drive and control systems are
mounted, commissioned and operated.– Areas in which parts of motors with permanent magnets are stored,
repaired or mounted.● If it is necessary for somebody with a heart pacemaker to enter such an
area, a doctor must be consulted prior to doing so. The noise immunity ofimplanted heart pacemakers differs greatly so that no general rules canbe given.
● Those with metal implants or metal pieces, as well as with hearing aids,must consult a doctor before they enter the areas described above.
1.1.5 Protection Against Contact with Hot Parts
CAUTION
Hot surfaces of components of the drive and control system. Risk ofburns!● Do not touch hot surfaces of, for example, braking resistors, heat sinks,
supply units and drive controllers, motors, windings and laminated cores!● According to the operating conditions, temperatures of the surfaces can
be higher than 60 °C (140 °F) during or after operation.● Before touching motors after having switched them off, let them cool down
for a sufficiently long time. Cooling down can require up to 140 minutes!The time required for cooling down is approximately five times the thermaltime constant specified in the technical data.
● After switching chokes, supply units and drive controllers off, wait 15 mi‐nutes to allow them to cool down before touching them.
● Wear safety gloves or do not work at hot surfaces.● For certain applications and according to the respective safety regulations,
the manufacturer of the machine or installation has to take measures toavoid injuries caused by burns in the end application. These measurescan be, for example: Warnings at the machine or installation, guards(shieldings or barriers) or safety instructions in the application documen‐tation.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 11/65
Important Notes
1.1.6 Protection During Handling and Mounting
CAUTION
Risk of injury by improper handling! Injury by crushing, shearing, cutting,hitting!● Observe the relevant statutory regulations of accident prevention.● Use suitable equipment for mounting and transport.● Avoid jamming and crushing by appropriate measures.● Always use suitable tools. Use special tools if specified.● Use lifting equipment and tools in the correct manner.● Use suitable protective equipment (hard hat, safety goggles, safety shoes,
safety gloves, for example).● Do not stand under hanging loads.● Immediately clean up any spilled liquids from the floor due to the risk of
slipping.
1.2 Appropriate UseThis product may only be used for the applications mentioned in the referencedocumentations (see index entry "Reference documentations") and under thedescribed application, ambient and operating conditions.This product is exclusively intended for use in machines and systems in anindustrial environment. This is to be understood as applications according toIEC 60204-1 "Safety of machinery, Electric equipment of machines" andNFPA 79 "Electrical Standard for Industrial Machinery".
12/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Important Notes
2 Identification2.1 Type Code
Fig.2-1: Type Code KSM
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 13/65
Identification
2.2 Type Plates2.2.1 Design
1 Trademark2 Type designation3 IndraDrive Mi4 Hardware revision index5 Rated power (t > 10 min)6 Rated input voltage, power (UL)7 Country of manufacture8 Manufacturing plant9 Manufacturer code10 Rated control voltage input (UL)11 Rated power consumption control voltage input at UN3 (UL)12 Insulation system13 Insulation class according to DIN EN 60034‑114 Short circuit current rating (UL)15 Cooling type16 Mass17 Degree of protection according to IEC6052918 Max. connecting voltage19 Maximum speed20 Continuous torque at standstill 60 K21 Ambient conditions according to UL50/50E22 Maximum bypass current (UL)23 UL label24 Company address25 CE conformity label26 Holding brake torque (optional)27 Serial number28 2-D bar code29 Part number30 Production week; example 07W16: year 2007, week 16Fig.2-2: Type Plate
2.3 Scope of SupplyStandard Optional
KSM RKB0006 (interface cable X2 ↔ PC)
PFM02(Memory card module [MultiMediaCard])
Fig.2-3: Scope of Supply KSM
14/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Identification
3 Ratings and Dimensions3.1 Ratings
A distributed servo drive KSM may only be operated in conjunctionwith an electronic control system KCU.
UL Ratings and Dimensions
Description Symbol Unit
KSM01.2B-041C-42N-__-
__0
KSM01.2B-061C-35N-__-
__0
KSM01.2B-061C-61N-__-
__0
KSM01.2B-071C-24N-__-
__0
KSM01.2B-071C-35N-__-
__0
KSM01.2B-076C-35N-__-
__0
Listing according to UL standard(UL) UL 508 C
Listing according to CSA standard(UL) Canadian National Standard(s) C22.2 No. 14-05
UL files (UL) E 134201
Ambient temperature during oper‐ation
Tum °C 0...40
Degree of protection according toIEC60529 --- IP 65
Ambient conditions according toUL50/50E 4X
Mass mmot kg 5,5 9,5 14,0 14,5
Power dissipation at continuouscurrent and continuous DC buspower respectively (UL)1)
PDiss_cont W 70 140 175 165
Data control voltage
Rated control voltage input (UL)2) UN3 V 30...42
Rated power consumption controlvoltage input at UN3 (UL) 3) PN3 W 15,5
Data power section
Short circuit current rating (UL) SCCR A rms 42000
Maximum bypass current (UL) A 25,0
Rated power (t > 10 min) PLN_nenn W 495,0 930,0 800,0 1360,0 1325,0 1240,0
Rated input voltage, power (UL) 4) ULN_nenn V DC 540...750
Data motor stage
Continuous torque at standstill 60 K M0_60 Nm 2,2 6,0 5,5 10,5 10,0 8,7
Maximum torque Mmax Nm 9,4 25,0 18,0 35,0 28,0 29,0
Maximum current Imax(rms) A 6,8 14,9 17,7
Torque constant at 20 °C 5) KM_N Nm/A 1,60 2,03 1,16 2,52 1,85
Last modification: 2009-06-25
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 15/65
Ratings and Dimensions
Description Symbol Unit
KSM01.2B-041C-42N-__-
__0
KSM01.2B-061C-35N-__-
__0
KSM01.2B-061C-61N-__-
__0
KSM01.2B-071C-24N-__-
__0
KSM01.2B-071C-35N-__-
__0
KSM01.2B-076C-35N-__-
__0
Maximum speed nmax min-1 5500 4300 6000 3400 4700
Insulation class according to DINEN 60034‑1 --- 155
Last modification: 2009-06-25
1) Plus dissipation of braking resistor and control section2) Observe supply voltage for motor holding brakes3) HMS, HMD, HCS plus motor holding brake and control section; HCS01
including control section4) DC bus L+, L-; mains input L1, L2, L35) Manufacturing tolerance ±5%Fig.3-1: KSM - UL Ratings and DimensionsUL Ratings and Dimensions
Description Symbol Unit
KSM01.2B-041C-42N-__-
__2
KSM01.2B-061C-35N-__-
__2
KSM01.2B-061C-61N-__-
__2
KSM01.2B-071C-24N-__-
__2
KSM01.2B-071C-35N-__-
__2
KSM01.2B-076C-35N-__-
__2
Listing according to UL standard(UL) UL 508 C
Listing according to CSA standard(UL) Canadian National Standard(s) C22.2 No. 14-05
UL files (UL) E 134201
Ambient temperature during oper‐ation
Tum °C 0...40
Degree of protection according toIEC60529 --- IP 65
Ambient conditions according toUL50/50E 4X
Mass mmot kg 5,8 10,0 15,1 15,6
Power dissipation at continuouscurrent and continuous DC buspower respectively (UL)1)
PDiss_cont W 70 140 175 165
Data control voltage
Rated control voltage input (UL)2) UN3 V 30...42
Rated power consumption controlvoltage input at UN3 (UL) 3) PN3 W 27,5 33,5 39,5
Data power section
Short circuit current rating (UL) SCCR A rms 42000
Maximum bypass current (UL) A 25,0
Rated power (t > 10 min) PLN_nenn W 495,0 930,0 800,0 1360,0 1325,0 1240,0
Last modification: 2009-06-25
16/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Ratings and Dimensions
Description Symbol Unit
KSM01.2B-041C-42N-__-
__2
KSM01.2B-061C-35N-__-
__2
KSM01.2B-061C-61N-__-
__2
KSM01.2B-071C-24N-__-
__2
KSM01.2B-071C-35N-__-
__2
KSM01.2B-076C-35N-__-
__2
Rated input voltage, power (UL) 4) ULN_nenn V DC 540...750
Data motor stage
Continuous torque at standstill 60 K M0_60 Nm 2,2 6,0 5,5 10,5 10,0 8,7
Maximum torque Mmax Nm 9,4 25,0 18,0 35,0 28,0 29,0
Maximum current Imax(rms) A 6,8 14,9 17,7
Torque constant at 20 °C 5) KM_N Nm/A 1,60 2,03 1,16 2,52 1,85
Maximum speed nmax min-1 5500 4300 6000 3400 4700
Insulation class according to DINEN 60034‑1 --- 155
Last modification: 2009-06-25
1) Plus dissipation of braking resistor and control section2) Observe supply voltage for motor holding brakes3) HMS, HMD, HCS plus motor holding brake and control section; HCS01
including control section4) DC bus L+, L-; mains input L1, L2, L35) Manufacturing tolerance ±5%Fig.3-2: KSM - UL Ratings and Dimensions
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 17/65
Ratings and Dimensions
3.2 Dimensions
Fig.3-3: Dimensions KSM01.2B-041
18/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Ratings and Dimensions
Fig.3-4: Dimensions KSM01.2B-061
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 19/65
Ratings and Dimensions
Fig.3-5: Dimensions KSM01.2B-071
20/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Ratings and Dimensions
Fig.3-6: Dimensions KSM01.2-076
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 21/65
Ratings and Dimensions
22/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
4 Reference Documentations4.1 Drive Systems, System ComponentsTitleRexroth IndraDrive …
Kind of documentation Document typecode1)
DOK-INDRV*-…Part number
R911…
Drive System Project Planning Manual SYSTEM*****-PRxx-EN-P 309636
Mi Drive Systems Project Planning Manual KCU+KSM****-PRxx-EN-P 320924
Supply Units and Power Sections Project Planning Manual HMV-S-D+HCS-PRxx-EN-P 318790
Drive Controllers Control Sections Project Planning Manual CSH********-PRxx-EN-P 295012
Additional Components and Accesso‐ries
Project Planning Manual ADDCOMP****-PRxx-EN-P 306140
C Drive Controllers HCS02.1,HCS03.1
Operating Instructions FU**********-IBxx-EN-P 314905
1) In the document typecodes, "xx" is a wild card for the current edition ofthe documentation (example: PR01 is the first edition of a Project Plan‐ning Manual)
Fig.4-1: Documentations – Overview
4.2 MotorsTitleRexroth IndraDyn …
Kind of documentation Document typecode1)
DOK-MOTOR*-…Part number
R911…
A Series Asynchronous Motors Project Planning Manual MAD/MAF****-PRxx-EN-P 295781
H Frameless Synchronous SpindleMotors
Project Planning Manual MBS-H******-PRxx-EN-P 297895
L Synchronous Linear Motors Project Planning Manual MLF********-PRxx-EN-P 293635
S Synchronous Motors Project Planning Manual MSK********-PRxx-EN-P 296289
T Synchronous Torque Motors Project Planning Manual MBT********-PRxx-EN-P 298798
1) In the document typecodes, "xx" is a wild card for the current edition ofthe documentation (example: PR01 is the first edition of a Project Plan‐ning Manual)
Fig.4-2: Documentations – Overview
4.3 CablesTitle Kind of documentation Document typecode1)
DOK-…Part number
R911…
Rexroth Connection Cables Selection Data CONNEC-CABLE*STAND-AUxx-EN-P
282688
1) In the document typecodes, "xx" is a wild card for the current edition ofthe documentation (example: AU03 is the third edition of the documen‐tation "Selection Data")
Fig.4-3: Documentations – Overview
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 23/65
Reference Documentations
4.4 FirmwareTitleRexroth IndraDrive …
Kind of documentation Document typecode1)
DOK-INDRV*-…Part number
R911…
Firmware for Drive Controllers Functional Description MP*-05VRS**-FKxx-EN-P 320182
Firmware for Drive Controllers Functional Description MP*-04VRS**-FKxx-EN-P 315485
Firmware for Drive Controllers Functional Description MP*-03VRS**-FKxx-EN-P 308329
Firmware for Drive Controllers Functional Description MP*-02VRS**-FKxx-EN-P 299223
Firmware for Drive Controllers Parameter Description GEN-**VRS**-PAxx-EN-P 297317
Firmware for Drive Controllers Troubleshooting Guide GEN-**VRS**-WAxx-EN-P 297319
Integrated Safety Technology Functional and ApplicationDescription
SI*-**VRS**-FKxx-EN-P 297838
Rexroth IndraMotion MLD Application Manual MLD-**VRS**-AWxx-EN-P 306084
Rexroth IndraMotion MLD Library Library Description MLD-SYSLIB*-FKxx-EN-P 309224
1) In the document typecodes, "xx" is a wild card for the current edition ofthe documentation (example: PA02 is the second edition of a ParameterDescription)
Fig.4-4: Documentations – Overview
24/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Reference Documentations
5 Instructions for Use5.1 Handling of the Devices
CAUTION
Damage or injuries and invalidation of the warranty due to improperhandling!Avoid mechanical stressing, throwing, tipping or dropping of the products.Use only suitable tackles.Never lift the motor using the optional blower housing.Use suitable protective equipment and protective clothing during transport,wear safety shoes.Protect the products against dampness and corrosion.
At delivery, motors have protective sleeves and covers on the output shafts andon the flange sockets. During transport and storage, the protective sleevesmust remain on the motor.● Remove the protective sleeves just before mounting.● Also use the protective sleeves if you return the goods.
1 Transport protection2 Protective sleeve for shaftFig.5-1: Protective Sleeves● Avoid damage to the motor flange and drive shaft.● Avoid impacts on the drive shaft.
Fig.5-2: Handling the Shaft EndImpacts on the shaft end damage encoder and ball bearing! Driving elements,such as pulleys, coupling disks or toothed wheels, may only be mounted ordismounted by evenly heating up the driving elements or with the appropriatetool for mounting and dismounting.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 25/65
Instructions for Use
5.2 Mounting5.2.1 Required Steps to FollowPreparations
Make the following preparations for mounting the motor:1. Procure tools, auxiliary materials, measuring and test equipment.2. Check all components for visible damage. Defective components mustn't
be mounted.3. Ensure that dimensions and tolerances on the installation side are suitable
for motor attachment (for details, see dimensional drawing).4. Check whether all components, mounting surfaces and threads are clean.5. Ensure that mounting can be done in a dry and dust-free environment.6. Ensure that the holder for the motor flange is without burrs.7. Remove the protective sleeve of the motor shaft and keep the protective
sleeve for further use.If the Optional Holding Brake is
Used1. Check whether the holding brake attains the holding torque specified in
the data sheet.If the brake does not attain the specified holding torque, check the func‐tioning of the holding brake (see index entry "Holding brake → Commis‐sioning").
MountingObserve the following aspects when mounting the motor:1. Avoid jamming or getting stuck of the centering collar on the motor side.2. Avoid damage to the insertion fitting on the installation side.3. Check the stability and precision of the connection before you proceed.
5.2.2 Mechanical InterfacesMounting the Flange
Distributed servo drives KSM are manufactured for flange assembly (type ofconstruction B05). Details for the mounting holes can be found in the corre‐sponding dimensional drawing.For flange mounting, we recommend using the screws and tightening torqueslisted in the table below.
Motor size Recommendedscrew size
Tightening torque[Nm]
Minimum strength
KSM01.2B-041 M6 10,4 8.8
KSM01.2B-061 M8 25 8.8
KSM01.2B-071KSM01.2B-076
M10 51 8.8
The screw specifications apply when screwed into steel; for other materials, determinethe reach of the screws.
Fig.5-3: Mounting Screws
26/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
The screwed connections for flange assembly must be able to takeup both the force due to weight of the motor and the forces actingduring operation.
5.3 Installation5.3.1 General Information on How to Install the Drive Controller
WARNING
Lethal electric shock caused by live parts with more than 50 V!Before working on live parts: De-energize the installation and secure the powerswitch against unintentional or unauthorized re-energization.Wait at least 30 minutes after switching off the supply voltages to allow dis‐charging. To shorten the waiting time until voltage has fallen below 50 V, youcan use a discharging device (see chapter "Appendix").Check whether voltages have fallen below 50 V before touching live parts!
Damage can be caused to the drive controller or circuit boards if electrostaticcharging present in people and/or tools is discharged across them. For thisreason, please observe the following information:
CAUTION
Electrostatic charges can cause damage to electronic components andinterfere with their operational safety!Exposed conductive parts coming into contact with components and circuitboards must be discharged by means of grounding. Otherwise errors may occurwhen controlling motors and moving elements.
Such exposed conductive parts include:● The copper bit when soldering● The human body (ground connection by touching a conductive, grounded
object)● Parts and tools (place them on a conductive support)Endangered components may only be stored or dispatched in conductive pack‐aging.
Rexroth connection diagrams are only to be used for producing in‐stallation circuit diagrams! The machine manufacturer’s installationcircuit diagrams must be used for wiring the installation!
● Lay signal lines separately from the load resistance lines because of theoccurrence of interference.
● Transmit analog signals (e.g. command values, actual values) via shiel‐ded lines.
● Do not connect mains, DC bus or power cores to low voltages or allowthem to come into contact with these.
● When carrying out a high voltage test or an applied-overvoltage withstandtest on the machine’s electrical equipment, disconnect all connections tothe devices. This protects the electronic components (allowed in accord‐ance with EN 60204-1). During their routine testing, Rexroth drive com‐ponents are tested for high voltage and insulation in accordance withEN 50178.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 27/65
Instructions for Use
CAUTION
Risk of damage to the drive controller by connecting and disconnectinglive connections!Do not connect and disconnect live connections.
5.3.2 Position of Connection Points
S5 SERCOS address selector switch (10×)S4 SERCOS address selector switch (1×)X2 Serial interface (RS232)X3.1, X3.2 Hybrid cableX7 MultiMediaCardX37, X38 Digital inputs/outputs2. Second connection point of equipment grounding conductorFig.5-4: Connection Points KSM
5.3.3 SERCOS Address Selector Switches
CAUTION
Risk of damage!Before examining the address which has been set, always switch power off andthen remove connector.
The SERCOS address must be set at each KSM/KMS. To do this, use the twoturn-switches S5 and S4 which are to be found under the connector covers ofX3.1 and X3.2.
28/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
S5 SERCOS address selector switch (×10)S4 SERCOS address selector switch (×1)Fig.5-5: SERCOS Address Selector Switches
Setting Description
"00"S5 = 0S4 = 0
"00" is the factory setting of the address selector switches.This setting is not applied. You have to set the individualdrive address in parameter "P-0-4025, Drive address ofmaster communication", e.g. via the serial interface X2.The factory setting in P-0-4025 is "01".
"01" … "99"S5 = 0 … 9S4 = 0 … 9drive address =S5×10 + S4
Setting of address selector switches is applied to P-0-4025.Example for setting drive address "14":S5 = 1, S4 = 4 ⇒ drive address = 1×10 + 4 = 14
See also documentation Parameter Description:● "P-0-4025, Drive address of master communication"● "P-0-4031, Overview of device addresses"
Fig.5-6: Setting the Drive Address at S4 and S5
Order in string of drivesThe order of the addresses in a string is without significance.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 29/65
Instructions for Use
5.3.4 Selecting Hybrid Cable for Appropriate Connection
Hybrid cable RKH (withdifferent outgoing direc‐tions from connectionpoint X3.1 or X3.2 atKSM and KMS) KCU X3.1 X3.1 X3.1 X3.2 X3.2 X3.2 RKH0700
KCU - - - - RKH0301 RKH0401 RKH0501 RKH0501
X3.1 - RKH0001 RKH0100 RKH0202 - - - RKH0202
X3.1 - RKH0100 RKH0200 RKH0204 - - - RKH0204
X3.1 - RKH0202 RKH0204 RKH0600 - - - RKH0600
X3.2 RKH0301 - - - RKH0002 RKH0101 RKH0203 RKH0203
X3.2 RKH0401 - - - RKH0101 RKH0201 RKH0205 RKH0205
X3.2 RKH0501 - - - RKH0203 RKH0205 RKH0601 RKH0601
RKH0700 RKH0501 RKH0202 RKH0204 RKH0600 RKH0203 RKH0205 RKH0601 -
Fig.5-7: Hybrid Cable RKH
30/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
Selection of Hybrid Cables
Fig.5-8: Example of Drive System With Hybrid CableEach string of distributed servo drives KSM must be terminated with the termi‐nal connector RHS0004.All hybrid cables are suited for use in flexible cable tracks. In the example, thecable RKH0600 is used in a flexible cable track. To quickly replace the flexiblecable track cable for servicing, the cable in the example used in the flexiblecable track has been equipped with connectors at the inputs. Observe themaximum allowed length of the hybrid cable in the flexible cable track.
Identification of Hybrid Cables Hybrid cables are marked according to the following example:RKH0100/030,5The cable designation is made up of:Cable number ⇒ e.g. RKH0100andCable length ⇒ e.g. 30.5 m
Terminal Connector Each string of distributed servo drives KSM must be terminated with the termi‐nal connector.
KSM X3.1 / X3.2
Terminal connector RHS0004
Fig.5-9: Order Code of Terminal Connector
5.3.5 Second Connection Point of Equipment Grounding ConductorParts of the installation with attached KSM/KMS must be connected to theequipment grounding system of the installation. The housings of the KSM/KMSthen are connected to the equipment grounding system of the installation via
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 31/65
Instructions for Use
the flange. This connection is required in addition to the equipment groundingconductor in the hybrid cable, because the leakage current of a distributed ser‐vo drive KSM/KMS is greater than 3.5 mA.Additionally connect the KSM/KMS housing via a second equipment groundingconductor to the equipment grounding system of the installation, when KSM/KMS is attached to parts of the installation which● have bad electroconductive properties
or● cannot be connected to the equipment grounding system of the installa‐
tion.
WARNING
High housing voltage and high leakage current! Risk of death or bodilyinjury by electric shock!In addition to the connection via the hybrid cable, connect the second connec‐tion point of equipment grounding conductor at KSM/KMS to the equipmentgrounding system of the installation, when the electric resistance between themechanical holder of the flange and the equipment grounding system of theinstallation is greater than 5 ohm.
The first equipment grounding conductor is routed via the hybridcable from X3.1 / X3.2 (KSM/KMS) to the connection point X54(KCU) and connected to the equipment grounding system of theinstallation via KCU.
Second Connection Point of Equipment Grounding Conductor at KSM/KMSHousing
View Connection Signal name Function
Equipmentgroundingconductor
Second connection point of equipmentgrounding conductorIs used to connect KSM/KMS to a groun‐ded part of the installation, e.g. the ma‐chine base
Thread M4 (for ring cable lug) Unit Min. Max.
Tightening torque Nm 2,6 3,1
Cable cross section stranded wire mm2 2,5 4
Connection cable AWG 14 12
Fig.5-10: Second Connection Point of Equipment Grounding Conductor, Proper‐ties
32/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
5.4 Commissioning, Operation, Diagnoses and Maintenance5.4.1 Notes on CommissioningGeneral Information
WARNING
High electrical voltage! Danger to life, electric shock and severe bodilyinjury!Read and observe the detailed safety instructions contained in this documen‐tation in chapter "Important Notes".
Preparation1. Keep the documentation of all used products ready.2. Check the products for damage.3. Check all mechanical and electrical connections.4. Activate safety devices and monitoring systems of the installation.
How to ProceedWhen all requirements have been fulfilled, commission the drive system ac‐cording to the instructions contained in the corresponding product documenta‐tion. See the Functional Description of the firmware for the correspondinginformation.The commissioning of controllers and control unit can require additional steps.The check of functionality and performance of the installations is not part ofmotor commissioning; instead, it is carried out within the scope of the commis‐sioning of the machine as a whole. Observe the information and regulations ofthe machine manufacturer.
5.4.2 Notes on OperationMake sure that the ambient conditions described are complied with during op‐eration.
5.4.3 Diagnostic FunctionsDiagnostic Display at the Device
Fig.5-11: LED H14 (Example KSM)At the device, there is a tricolor LED which displays the drive status.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 33/65
Instructions for Use
LED H14Color / status
Significance Measures
Off Supply unit not switched on Check supply unit and, if necessary, switch it on
Cable interrupted Check cable and connector
Hardware defective Replace hardware
Flashinggreen
Drive is error-free, but not yet readyfor drive enable ("Bb")
If necessary, read exact status via "S‑0‑0095, Diagnostic mes‐sage" or similar
Parameter mode
Green Drive in control ("AF", "AH" or drivecommand)
Drive is error-free in operation and runs according to inputsRisk of damage! If you remove the connectors from the devicein this status, this might damage the device!Power on and DC bus voltage avail‐
able ("Ab")
Flashing yel‐low
Warning Read exact status via "S‑0‑0095, Diagnostic message" andcarry out service function
Yellow Firmware update running During the firmware update, do not interrupt the 24V supplyand do not unplug connectors
Flashing red Error Read exact status via "S‑0‑0095, Diagnostic message" andcarry out service function
Red Booting phase Wait until booting phase is over (approx. 2 minutes)
System error Switch off and on; replace hardware, if necessary
Fig.5-12: LED Displays at KSM/KMS
Firmware FunctionsEasy Startup ModeThe easy startup mode is intended for initial commissioning. Easy startup canbe carried out with the commissioning software "Rexroth IndraWorks D". Forthis purpose, connect KSM via its serial interface X2 to a PC (e.g. laptop forcommissioning).For easy startup, the digital inputs have been preset as follows:● I_1 (X37.4): +24 V to activate positive direction of rotation● I_2 (X37.2): +24 V to activate negative direction of rotation● I_3 (X38.4): +24 V to activate drive enableFor the description of the easy startup mode see Functional Description offirmware.
Analog OutputsRexroth IndraDrive Mi has no analog outputs!
Oscilloscope FunctionYou can use the integrated oscilloscope function described in the FunctionalDescription of the firmware!See Functional Description of firmware → chapter "Handling, Diagnostic andService Functions" → "Oscilloscope Function"
34/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
Patch FunctionThe distributed servo drive KSM has a patch function which allows reading orwriting controller-internal memory cells.See Functional Description of firmware → chapter "Handling, Diagnostic andService Functions" → "Extended Diagnostic Possibilities" → "Patch Function".
Monitoring FunctionFor extended diagnostic possibilities, the distributed servo drive KSM has amonitoring function.See Functional Description of firmware → chapter "Handling, Diagnostic andService Functions" → "Extended Diagnostic Possibilities" → "Monitoring Func‐tion".
5.4.4 Service Functions / TroubleshootingGeneral Information
WARNING
Lethal electric shock by live parts with more than 50 V!Wait 30 minutes to allow the DC bus capacitors to discharge or use dischargingdevice for DC bus according to section "Discharging of DC Bus Capaci‐tors" (see Appendix).
The following section explains the tasks required to eliminate errors or mal‐function.We distinguish the following actions:● Replacement of fuses F4 and F5● Deactivation● Dismounting● Replacement of KSM/KMS
Deactivating and Dismounting the DriveDeactivationIn the case of malfunction, maintenance measures or to deactivate the motors,proceed as follows:1. Observe the instructions contained in the machine documentation.2. Use the machine-side control commands to bring the drive to a controlled
standstill.3. Switch off the power voltage and control voltage of the controller.4. Switch off the main switch of the machine.5. Secure the machine against accidental movements and against unau‐
thorized operation.6. Wait to allow the electric systems to discharge and then disconnect all
electrical connections.7. Before dismounting them, secure the motor and, if necessary, the blower
unit against falling or movements, before unfastening the mechanical con‐nections.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 35/65
Instructions for Use
Dismounting
WARNING
Lethal injury caused by errors when controlling motors and working atmoving parts!Do not work at running or unsecured installations.Before starting to dismount, secure the machine against accidental movementsand unauthorized operation.Before dismounting them, secure the motor and the supply lines unit againstfalling or movements, before unfastening the mechanical connections.
WARNING
Burns caused by hot surfaces with temperatures of more than100 °C!Before beginning to work, let the motors cool down. The thermal time constantspecified in the Technical Data is a measure for the time required for coolingdown. Cooling down can require up to 140 minutes!Do not work at hot surfaces.Wear safety gloves.
1. Observe the instructions contained in the machine documentation.2. Observe the Safety Instructions and carry out all steps according to the
above instructions for "deactivation".3. Before dismounting them, secure the motor and the supply lines unit
against falling or movements, before unfastening the mechanical connec‐tions.
4. Dismount the motor from the machine.5. Store the motor appropriately.
Replacement of KSM/KMSIn case servicing becomes necessary, the motor with electronic system is re‐placed by a new motor of the same type. This requires the following steps:1. De-energize the machine (switch off 24V supply, too!)2. Wait 30 minutes to allow the DC bus capacitors to discharge3. Ensure isolation from supply4. Dismount the defective KSM/KMS5. Remove the MMC from the defective KSM/KMS at X76. Set the SERCOS address at the new KSM/KMS7. Plug the removed MMC into the new KSM/KMS, mount the cover and
make sure the sealing ring is undamaged8. Mount the new KSM/KMS and establish the electrical connections9. Switch on 24V supply10. Load the parameter set11. Reestablish the position data reference (homing procedure)
Service Function "Release Holding Brake"Via the interface X2 at KSM/KMS, you can "release" the integrated holdingbrake.To carry out this function, the 24V supply must have been applied to KCU01and KSM/KMS.
36/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
WARNING
Lethal injury caused by errors when controlling motors and working atmoving parts!Do not work at running or unsecured installations.Before starting to dismount, secure the machine against accidental movementsand unauthorized operation.Before dismounting them, secure the motor and the supply lines unit againstfalling or movements, before unfastening the mechanical connections.
For the purpose of commissioning and servicing, release the holding brake viaconnection point X2 by connecting the contacts X2.1 and X2.2.
Saving ParametersFor servicing, the drive parameters must be saved and archived at initial com‐missioning (e.g. with Rexroth IndraWorks D); this is necessary, because youwon't probably be able to read the parameters of the defective drive.Parameters can be administrated in the control unit or saved and loaded viathe RS232 interface (X2) and Rexroth IndraWorks D.
Firmware UpdateSee Functional Description of firmware, chapter "Firmware Replacement".
If the firmware of the MMC differs from the internal firmware, thedevice is operated with the MMC firmware.
Firmware ≥ MPB05: If the firmware update has failed, the drive tries to load thefirmware from the MMC after previous switching off and on.
MMCAfter you have unscrewed the cover, you can remove the MMC (MultiMedia‐Card) from the MMC slot X7. The MMC contains firmware and parameterswhich allows easily programming the drive during commissioning.
Backup Copy Make a backup copy of the content of the MMC (saving parameters) beforechanging firmware or parameters.
CAUTION
Risk of damage!When you plug in the MMC, the contacts must point at the heat sink! Otherwise,the MMC or the device might be damaged when you screw the MMC cover.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 37/65
Instructions for Use
Plugging in the MMC
1 Contacts of MMCFig.5-13: Plugging in the MMC
Data Transfer Use the engineering tool "IndraWorks D" to configure the data transfer from theMMC after control voltage has been switched on.
5.4.5 MaintenanceMaintenance of the Motor Component
General InformationThe motors operate in a maintenance-free way within the given operating con‐ditions and service life. However, operation under unfavorable conditions canlead to limitations in availability.● Increase the availability with regular preventive maintenance measures.
Observe the information in the maintenance schedule of the machinemanufacturer and the maintenance measures described below.
WARNING
Burns caused by hot surfaces with temperatures of more than100 °C!Before beginning to work, let the motors cool down. The thermal time constantspecified in the Technical Data is a measure for the time required for coolingdown. Cooling down can require up to 140 minutes!Do not work at hot surfaces.Wear safety gloves.
CleaningExcessive dirt, dust or shavings may affect the function of the motors adversely,may in extreme cases even cause a failure of the motors. For that reason, youshould clean the cooling ribs of the motors in regular intervals (at the latest,after one year is over).
BearingsThe nominal service life of the bearings is L10h > 30000 h according toDIN ISO 281, ed. 1990, if the permissible radial and axial forces are not ex‐ceeded.
38/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
The motor bearings should be replaced, if● the nominal bearing service life has been reached● running noise can be heard
We recommend that you have the bearings replaced by the BoschRexroth service.
Connection CablesCheck connection cables for damage in regular intervals and replace them, ifnecessary.Check any optionally present cable drag chains (flexible cable tracks) for dam‐age.
WARNING
Risk of injury by electric shock. Live parts with more than 50 V!Do not repair any connection lines provisionally. If the slightest damage is de‐tected in the cable sheath, the installation must be put out of operation imme‐diately. Then the cable must be replaced.
Check the connection of equipment grounding conductor for proper status andtight fit in regular intervals.
Holding Brake–Commissioning and Maintenance Instructions In order to ensure proper functioning of the holding brake, it must be checkedbefore the motors are commissioned. The test as well as the resurfacing maybe carried out "mechanically by hand" or "automatically by means of the soft‐ware function".
Checking and Resurfacing of Hold‐ing Brakes by Hand
Measure the holding torque (M4) of the holding brake. If necessary, resurfacethe holding brake.
Measuring the Holding Torque (M4) of the Holding Brake1. De-energize the motor and secure it against re-energization.2. Measure the transferable holding torque of the holding brake with a torque
wrench. For holding torque (M4) refer to the technical data.If the holding torque (M4) is achieved, the motor is ready for assembly.If the holding torque (M4) is not achieved, the subsequent resurfacing-process can be used to reconstitute the holding torque.
Resurfacing the Holding Brake1. At closed holding brake, turn the output shaft by hand, e.g. with the help
of a torque wrench, by about 5 revolutions.2. Measure the holding torque (M4).
If the holding torque (M4) is achieved, the motor is ready for assembly.If the specified holding torque (M4) is not attained after several grinding-in processes, the holding brake is not operable. Please, contact theRexroth Service.
Checking and Resurfacing of Hold‐ing Brakes by means of the Soft‐
ware Function
Checking the Holding Torque (M4) via P-0-0541, C2100 CommandHolding system check1. The efficiency of the holding brake and the opened state are checked by
the control device by starting the routine "P-0-0541, C2100 CommandHolding system check".
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 39/65
Instructions for Use
If the holding brake is operational, the drive is in an operational state afterthe routine was run through. If the braking torque is too low, the controldevice outputs a corresponding message.
The brake test can also be carried out cyclically in the frameworkof a preventive maintenance.
Restoring the Holding Torque (M4) by means of the Software FunctionThe following possibilities are available:1. Realization of the resurfacing routine IndraDrive "Restoring the holding
torque "(see"P-0-0544, C3900 Command Resurfacing of motor holdingbrake"). A repeated realization of the resurfacing routine is possible.Upon the execution of the command C3900 it is not checked whether theresurfacing of the holding brake was successful. It is recommended toexecute the command C2100 (Command Holding system check) onceagain.
2. Resurfacing routine by superior control. Here, special control programsadapted to the machine and system concepts are required. If necessary,please contact your Bosch Rexroth distribution partner and discuss theresurfacing routine parameters for your application.
For more detailed information about software functions refer to the func‐tional description "Rexroth IndraDrive Firmware for Drive Control Devices MPx-xx, DOK-INDRV*-MP*-xxVRS**-FKxx-EN-P."
Maintenance of the Electronic System of the DriveThe electronic system of the drive (power section and control section) operateswithout wear within the given operating conditions and service life. However,operation under unfavorable conditions (e.g. increased ambient temperature)can lead to limitations in availability.
Mounting KSM for easy servicingMount KSM in such a way that1. the service connector X2 can be accessed2. the MMC slot X7 can be accessed3. the address selector switches S4 and S5 can be set and ac‐
cessed4. the diagnostic LED H14 is visible.
40/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Instructions for Use
6 EMC Measures for Design and Installation6.1 Rules for Design of Installations With Drive Controllers in Com‐
pliance With EMCThe following rules are the basics for designing and installing drives in compli‐ance with EMC.
Mains Filter Correctly use a mains filter recommended by Rexroth for radio interferencesuppression in the supply feeder of the drive system.
Control Cabinet Grounding Connect all metal parts of the cabinet with one another over the largest possiblesurface area to establish a good electrical connection. This, too, applies to themounting of the mains filter. If required, use serrated washers which cut throughthe paint surface. Connect the cabinet door to the control cabinet using theshortest possible grounding straps.
Line Routing Avoid coupling routes between lines with high potential of noise and noise-freelines; therefore, signal, mains and motor lines and power cables have to berouted separately from another. Minimum distance: 10 cm. Provide separatingsheets between power and signal lines. Ground separating sheets severaltimes.The lines with high potential of noise include:● Lines at the mains connection (incl. synchronization connection)● Lines at the motor connection
Lines at the DC bus connectionGenerally, interference injections are reduced by routing cables close to groun‐ded sheet steel plates. For this reason, cables and wires should not be routedfreely in the cabinet, but close to the cabinet housing or mounting panels. Sep‐arate the incoming and outgoing cables of the radio interference suppressionfilter.
Interference Suppression Elements Provide the following components in the control cabinet with interference sup‐pression combinations:● Contactors● Relays● Solenoid valves● Electromechanical operating hours countersConnect these combinations directly at each coil.
Twisted Wires Twist unshielded wires belonging to the same circuit (feeder and return cable)or keep the surface between feeder and return cable as small as possible. Wiresthat are not used have to be grounded at both ends.
Lines of Measuring Systems Lines of measuring systems must be shielded. Connect the shield to ground atboth ends and over the largest possible surface area. The shield may not beinterrupted, e.g. using intermediate terminals.
Digital Signal Lines Ground the shields of digital signal lines at both ends (transmitter and receiver)over the largest possible surface area and with low impedance. In the case ofbad ground connection between transmitter and receiver, additionally route abonding conductor (min. 10 mm2). Braided shields are better than foil shields.
Analog Signal Lines Ground the shields of analog signal lines at one end (transmitter or receiver)over the largest possible surface area and with low impedance. This avoids low-frequency interference current (in the mains frequency range) on the shield.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 41/65
EMC Measures for Design and Installation
Connection of Mains Choke Keep connection lines of the mains choke at the drive controller as short aspossible and twist them.
Installation of Motor Power Cable ● Use shielded motor power cables or run motor power cables in a shieldedduct
● Use the shortest possible motor power cables● Ground shield of motor power cable at both ends over the largest possible
surface area to establish a good electrical connection● Run motor lines in shielded form inside the control cabinet● Do not use any steel-shielded lines● The shield of the motor power cable mustn't be interrupted by mounted
components, such as output chokes, sine filters or motor filters
6.2 EMC-Optimal Installation in Facility and Control Cabinet6.2.1 General Information
For EMC-optimal installation, a spatial separation of the interference-free area(mains connection) and the interference-susceptible area (drive components)is recommended, as shown in the figures below.
For EMC-optimal installation in the control cabinet, use a separatecontrol cabinet panel for the drive components.
6.2.2 Division Into Areas (Zones)Exemplary arrangements in the control cabinet: See section Control CabinetMounting According to Interference Areas - Exemplary Arrangements,page 43.We distinguish three areas:1. Interference-free area of control cabinet (area A):
This includes:● Supply feeder, input terminals, fuse, main switch, mains side of
mains filter for drives and corresponding connecting lines● Control voltage or auxiliary voltage connection with power supply
unit, fuse and other parts unless connection is run via the mains filterof the AC drives
● All components that are not electrically connected with the drive sys‐tem
2. Interference-susceptible area (area B):● Mains connections between drive system and mains filter for drives,
mains contactor● Interface lines of drive controller
3. Strongly interference-susceptible area (area C):● Motor power cables including single cores
Never run lines of one of these areas in parallel with lines of another area sothat there isn't any unwanted interference injection from one area to the otherand that the filter is jumpered with regard to high frequency. Use the shortestpossible connecting lines.Recommendation for complex systems: Install drive components in one cabinetand the control units in a second, separate cabinet.
42/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
EMC Measures for Design and Installation
Badly grounded control cabinet doors act as antennas. Therefore, connect thecontrol cabinet doors to the cabinet on top, in the middle and on the bottom viashort equipment grounding conductors with a cross section of at least 6 mm2
or, even better, via grounding straps with the same cross section. Make sureconnection points have good contact.
6.2.3 Control Cabinet Mounting According to Interference Areas - ExemplaryArrangements
Supply Units With Regeneration Do not operate any additional loads at the mains filter!Do not operate any other loads at the connection from the mainsfilter output to the mains connection of the supply unit.For motor blowers and power supply units, for example, use sepa‐rate mains filters.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 43/65
EMC Measures for Design and Installation
HMVxx.xR Supply Unit
DR1 Mains chokeE1…E5 Equipment grounding conductor of the components
44/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
EMC Measures for Design and Installation
K1 External mains contactor for supply units without integrated mains con‐tactor
ML Motor blowerNT Power supply unitQ1, Q2, Q3 FusingT TransformerZ1, Z2 Shield connection points for cablesFig.6-1: HMVxx.xR – EMC Areas in the Control Cabinet
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 45/65
EMC Measures for Design and Installation
HMVxx.xE Supply Unit or HCSxx.xE Converter
DR1 Mains choke (optional)E1…E5 Equipment grounding conductor of the components
46/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
EMC Measures for Design and Installation
K1 External mains contactor for supply units and converters without inte‐grated mains contactor
ML Motor blowerNT Power supply unitQ2 FusingT TransformerZ1, Z2 Shield connection points for cables* Not allowed at HNF mains filterFig.6-2: HMVxx.xE; HCSxx.xE – EMC Areas in the Control Cabinet
6.2.4 Design and Installation in Area A - Interference-Free Area of ControlCabinet
Arrangement of the Components inthe Control Cabinet
Comply with a distance of at least 200 mm (distance d1 in the figure):● Between components and electrical elements (switches, pushbuttons,
fuses, terminal connectors) in the interference-free area A and the com‐ponents in the two other areas B and C
Comply with a distance of at least 400 mm (distance d4 in the figure):● Between magnetic components (such as transformers, mains chokes and
DC bus chokes that are directly connected to the power connections ofthe drive system) and the interference-free components and lines betweenmains and filter including the mains filter in area A
If these distances are not kept, the magnetic leakage fields are injected to theinterference-free components and lines connected to the mains and the limitvalues at the mains connection are exceeded in spite of the installed filter.
Cable Routing of the Interference-Free Lines to the Mains Connection
Comply with a distance of at least 200 mm (distance d1 and d3 in the figure):● Between supply feeder or lines between filter and exit point from the con‐
trol cabinet in area A and the lines in area B and CIf this is impossible, there are two alternatives:1. Install lines in shielded form and connect the shield at several points (at
least at the beginning and at the end of the line) to the mounting plate orthe control cabinet housing over a large surface area.
2. Separate lines from the other interference-susceptible lines in areas B andC by means of a grounded distance plate vertically attached to the mount‐ing plate.
Install the shortest possible lines within the control cabinet and install themdirectly on the grounded metal surface of the mounting plate or of the controlcabinet housing.Mains supply lines from areas B and C must not be connected to the mainswithout a filter.
In case you do not observe the information on cable routing givenin this section, the effect of the mains filter is totally or partly neu‐tralized. This will cause the noise level of the interference emissionto be higher within the range of 150 kHz to 40 MHz and the limitvalues at the connection points of the machine or installation willthereby be exceeded.
Routing and Connecting a NeutralConductor (N)
If a neutral conductor is used together with a three-phase connection, it mustnot be installed unfiltered in zones B and C, in order to keep interference off themains.
Motor Blower at Mains Filter Single-phase or three-phase supply lines of motor blowers, that are usuallyrouted in parallel with motor power cables or interference-susceptible lines,must be filtered:
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 47/65
EMC Measures for Design and Installation
● In drive systems with regenerative supply units, via a separate single-phase (NFE type) or three-phase filter (HNF type) near the mains con‐nection of the control cabinet
● In drive systems with only infeeding supply units, via the available three-phase filter of the drive system
When switching power off, make sure the blower is not switched off.Loads at Mains Filter of Drive Sys‐
tem Only operate allowed loads at the mains filter of the drive system!At the three-phase filter for the power connection of regenerativesupply units, it is only allowed to operate the following loads:● HMV supply unit with mains choke and, if necessary, mains
contactorDo not operate any motor blowers, power supply units etc. at themains filter of the drive system.
Shielding Mains Supply Lines inControl Cabinet
If there is a high degree of interference injection to the mains supply line withinthe control cabinet, although you have observed the above instructions (to befound out by EMC measurement according to standard), proceed as follows:● Only use shielded lines in area A● Connect shields to the mounting plate at the beginning and the end of the
line by means of clipsThe same procedure may be required for long cables of more than 2 m betweenthe point of power supply connection of the control cabinet and the filter withinthe control cabinet.
Mains Filters for AC Drives Ideally, mount the mains filter on the parting line between area A and B. Makesure the ground connection between filter housing and housing of the drivecontrollers has good electrically conductive properties.If single-phase loads are connected on the load side of the filter, their currentmay be a maximum of 10% of the three-phase operating current. A highly im‐balanced load of the filter would deteriorate its interference suppression ca‐pacity.If the mains voltage is more than 480 V, connect the filter to the output side ofthe transformer and not to the supply side of the transformer.
Grounding In the case of bad ground connections in the installation, the distance betweenthe lines to the grounding points E1, E2 in area A and the other grounding pointsof the drive system should be at least d4 = 400 mm, in order to minimize inter‐ference injection from ground and ground cables to the power input lines.See also 6.2.2 Division Into Areas (Zones), page 42.
Point of Connection for EquipmentGrounding Conductor at Machine,
Installation, Control Cabinet
The equipment grounding conductor of the power cable of the machine, instal‐lation or control cabinet has to be permanently connected at point PE and havea cross section of at least 10 mm2 or to be complemented by a second equip‐ment grounding conductor via separate terminal connectors (according toEN50178/ 1997, section 5.3.2.1). If the cross section of the outer conductor isbigger, the cross section of the equipment grounding conductor must be ac‐cordingly bigger.
6.2.5 Design and Installation in Area B - Interference-Susceptible Area ofControl Cabinet
Arranging Components and Lines Modules, components and lines in area B should be placed at a distance of atleast d1 = 200 mm from modules and lines in area A.
48/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
EMC Measures for Design and Installation
Alternative: Shield modules, components and lines in area B by distance platesmounted vertically on the mounting plate from modules and lines in area A oruse shielded lines.Only connect power supply units for auxiliary or control voltage connections inthe drive system to the mains via a mains filter. See 6.2.2 Division Into Areas(Zones), page 42.Install the shortest possible lines between drive controller and filter.
Control Voltage or Auxiliary VoltageConnection
Only in exceptional cases should you connect power supply unit and fusing forthe control voltage connection to phase and neutral conductor. In this case,mount and install these components in area A far away from the areas B andC of the drive system. For details see section 6.2.4 Design and Installation inArea A - Interference-Free Area of Control Cabinet, page 47.Run the connection between control voltage connection of the drive system andpower supply unit used through area B over the shortest distance.
Line Routing Run the lines along grounded metal surfaces, in order to minimize radiation ofinterference fields to area A (transmitting antenna effect).
6.2.6 Design and Installation in Area C - Strongly Interference-SusceptibleArea of Control Cabinet
Area C mainly concerns the motor power cables, especially at the connectionpoint at the drive controller.
Influence of the Motor Power Cable The longer the motor power cable, the greater its leakage capacitance. Tocomply with a certain EMC limit value, the allowed leakage capacitance of themains filter is limited. For the calculation of the leakage capacitance, see thedocumentation on the drive system of the drive controller used.
● Run the shortest possible motor power cables.● Only use shielded motor power cables by Rexroth.
Routing the Motor Power Cablesand Motor Encoder Cables
Route the motor power cables and motor encoder cables along grounded metalsurfaces, both inside the control cabinet and outside of it, in order to minimizeradiation of interference fields. If possible, route the motor power cables andmotor encoder cables in metal-grounded cable ducts.Route the motor power cables and motor encoder cables● with a distance of at least d5 = 100 mm to interference-free lines, as well
as to signal cables and signal lines(alternatively separated by a grounded distance plate)
● in separate cable ducts, if possibleRouting the Motor Power Cables
and Mains Connection LinesFor converters (drive controllers with individual mains connection), route motorpower cables and (unfiltered) mains connection lines in parallel for a maximumdistance of 300 mm. After that distance, route motor power cables and powersupply cables in opposite directions and preferably in separate cable ducts.Ideally, the outlet of the motor power cables at the control cabinet should beprovided in a distance of at least d3 = 200 mm from the (filtered) power supplycable.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 49/65
EMC Measures for Design and Installation
IndraDrive C and Cs - Routing the Motor Power Cables
With cable duct Without cable duct
B Area BC Area C1 Cable duct for mains connection lines2 Shield connection of motor power cable via
clips at least at one point; alternatively, at thedevice or on mounting plate at control cabinet
3 Cable duct for motor power cables4 Parallel routing of mains connection lines and
motor power cables over a maximum of 300mm
5 Distance of at least 100 mm or separated bya grounded distance plate
Fig.6-3: Routing of Motor Power Cables With CableDuct
B Area BC Area C1 Cable duct for mains connection lines2 Shield connection of motor power cable via
clips at least at one point; alternatively, at thedevice or on mounting plate at control cabinet
3 Control cabinet outlet of motor power cables4 Parallel routing of mains connection lines and
motor power cables over a maximum of 300mm
5 Distance of at least 100 mm or separated bya grounded distance plate
Fig.6-4: Routing of Motor Power Cables Without CableDuct
Fig.6-5: Routing of Cables for IndraDrive C and Cs
50/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
EMC Measures for Design and Installation
IndraDrive M - Routing the Motor Power Cables
With cable duct Without cable duct
B Area BC Area C1 Cable duct for mains connection lines2 Shield connection of motor power cable via
clips at least at one point; alternatively, at thedevice or on mounting plate at control cabinet
3 Cable duct for motor power cablesFig.6-6: Routing of Motor Power Cables With Cable
Duct
B Area BC Area C1 Cable duct for mains connection lines2 Shield connection of motor power cable via
clips at least at one point; alternatively, at thedevice or on mounting plate at control cabinet
3 Control cabinet outlet of motor power cablesFig.6-7: Routing of Motor Power Cables Without Cable
Duct
Fig.6-8: Routing of Cables for IndraDrive M
6.3 Ground ConnectionsHousing and Mounting Plate By means of appropriate ground connections, it is possible to avoid the emis‐
sion of interference, because interference is discharged to ground on theshortest possible way.Ground connections of the metal housings of EMC-critical components (suchas filters, devices of the drive system, connection points of the cable shields,devices with microprocessor and switching power supply units) have to be wellcontacted over a large surface area. This also applies to all screw connectionsbetween mounting plate and control cabinet wall and to the mounting of aground bus to the mounting plate.The best solution is to use a zinc-coated mounting plate. Compared to a lac‐quered plate, the connections in this case have a good long-time stability.
Connection Elements For lacquered mounting plates, always use screw connections with tooth lockwashers and zinc-coated, tinned screws as connection elements. At the con‐nection points, remove the lacquer so that there is safe electrical contact overa large surface area. You achieve contact over a large surface area by meansof bare connection surfaces or several connection screws. For screw connec‐tions, you can establish the contact to lacquered surfaces by using tooth lockwashers.
Metal Surfaces Always use connection elements (screws, nuts, plain washers) with good elec‐troconductive surface.Bare zinc-coated or tinned metal surfaces have good electroconductive prop‐erties.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 51/65
EMC Measures for Design and Installation
Anodized, yellow chromatized, black gunmetal finish or lacquered metal surfa‐ces have bad electroconductive properties.
Ground Wires and Shield Connec‐tions
For connecting ground wires and shield connections, it is not the cross sectionbut the size of contact surface that is important, as the high-frequency interfer‐ence currents mainly flow on the surface of the conductor.Always connect cable shields, especially shields of the motor power cables, toground potential over a large surface area.
6.4 Installing Signal Lines and Signal CablesLine Routing For measures to prevent interference, see the Project Planning Manuals of the
respective device. In addition, we recommend the following measures:● Route signal and control lines separately from the power cables with a
minimum distance of d5 = 100 mm (see 6.2.2 Division Into Areas(Zones), page 42) or with a grounded separating sheet. The optimum wayis to route them in separate cable ducts. If possible, lead signal lines intothe control cabinet at one point only.
● If signal lines are crossing power cables, route them in an angle of 90° inorder to avoid interference injection.
● Ground spare cables, that are not used and have been connected, at leastat both ends so that they do not have any antenna effect.
● Avoid unnecessary line lengths.● Run cables as close as possible to grounded metal surfaces (reference
potential). The ideal solution are closed, grounded cable ducts or metalpipes which, however, is only obligatory for high requirements (sensitiveinstrument leads).
● Avoid suspended lines or lines routed along synthetic carriers, becausethey are functioning like reception antennas (noise immunity) and liketransmitting antennas (emission of interference). Exceptional cases areflexible cable tracks over short distances of a maximum of 5 m.
Shielding Connect the cable shield immediately at the devices in the shortest and mostdirect possible way and over the largest possible surface area.Connect the shield of analog signal lines at one end over a large surface area,normally in the control cabinet at the analog device. Make sure the connectionto ground/housing is short and over a large surface area.Connect the shield of digital signal lines at both ends over a large surface areaand in short form. In the case of potential differences between beginning andend of the line, run an additional bonding conductor in parallel. This preventscompensating current from flowing via the shield. The guide value for the crosssection is 10 mm2.You absolutely have to equip separable connections with connectors withgrounded metal housing.In the case of non-shielded lines belonging to the same circuit, twist feeder andreturn cable.
6.5 General Measures of Radio Interference Suppression for Re‐lays, Contactors, Switches, Chokes and Inductive Loads
If, in conjunction with electronic devices and components, inductive loads, suchas chokes, contactors, relays are switched by contacts or semiconductors, ap‐propriate interference suppression has to be provided for them:● By arranging free-wheeling diodes in the case of d.c. operation
52/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
EMC Measures for Design and Installation
● In the case of a.c. operation, by arranging usual RC interference suppres‐sion elements depending on the contactor type, immediately at the induc‐tance
Only the interference suppression element arranged immediately at the induc‐tance does serve this purpose. Otherwise, the emitted noise level is too highwhich can affect the function of the electronic system and of the drive.If possible, mechanical switches and contacts should only be realized as snapcontacts. Contact pressure and contact material must be suited for the corre‐sponding switching currents.Slow-action contacts should be replaced by snap switches or by solid-stateswitches, because slow-action contacts strongly bounce and are in an unde‐fined switching status for a long time which emits electromagnetic waves in thecase of inductive loads. These waves are an especially critical aspect in thecase of manometric or temperature switches.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 53/65
EMC Measures for Design and Installation
54/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
7 AccessoriesRKB0006Interface cable (X2 ↔ PC)
Fig.7-1: Accessories
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 55/65
Accessories
56/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
8 Service and SupportOur service helpdesk at out headquarters in Lohr, Germany, will assist you withall kinds of enquiries. Out of helpdesk hours please contact our German servicedepartment directly.
Helpdesk Service HotlineGermany
Service HotlineWorldwide
Time 1) Mo-Fr 7:00 am - 6:00 pm CET Mo-Fr 6:00 pm - 7:00 am CETSa-Su 0:00 am - 12:00 pm CET
Outwith Germany please con‐tact our sales/service office inyour area first.For hotline numbers refer to thesales office addresses on theInternet.
Phone +49 (0) 9352 40 50 60 +49 (0) 171 333 88 26or+49 (0) 172 660 04 06
Fax +49 (0) 9352 40 49 41 –
e-mail [email protected] –
Internet http://www.boschrexroth.comYou will also find additional notes regarding service, maintenance (e.g. delivery addresses) andtraining.
1) Central European Time (CET)
Preparing Information For quick and efficient help please have the following information ready:● detailed description of the fault and the circumstances● information on the type plate of the affected products, especially type co‐
des and serial numbers● your phone, fax numbers and e-mail address so we can contact you in
case of questions.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 57/65
Service and Support
58/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
9 Environmental Protection and Disposal9.1 Environmental Protection
Production Processes The products are made with energy- and resource-optimized production pro‐cesses which allow re-using and recycling the resulting waste. We regularly tryto replace pollutant-loaded raw materials and supplies by more environment-friendly alternatives.
Prohibited Substances We guarantee that out products include no substances according to the chem‐icals-ban-decree. We furthermore declare that our products are free of mercury,asbestos, PCB and chlorinated hydrocarbons.
No Release of Hazardous Substan‐ces
Our products do not contain any hazardous substances which may be releasedin the case of appropriate use. Normally, our products will not have any negativinfluences on the environment.
Significant Components Basically, out products contain the following components:Electronic devices Motors∙ Steel ∙ Steel∙ Aluminum ∙ Aluminum∙ Copper ∙ Copper∙ Synthetic materials ∙ Brass∙ Electronic components and modules ∙ Magnetic materials ∙ Electronic components and modules
9.2 DisposalReturn of Products Our products can be returned to our premises free of charge for disposal. It is
a precondition, however, that the products are free of oil, grease or other dirt.Furthermore, the products returned for disposal must not contain any undueforeign material or foreign components.Send the products ”free domicile” to the following address: Bosch Rexroth AG Electric Drives and Controls Buergermeister-Dr.-Nebel-Strasse 2 97816 Lohr am Main, Germany
Packaging The packaging materials consist of cardboard, wood and polystyrene. Thesematerials can be recycled anywhere without any problem.For ecological reasons, please refrain from returning the empty packages tous.
Recycling Most of the products can be recycled due to their high content of metal. In orderto recycle the metal in the best possible way, the products must be disassem‐bled into individual modules.Metals contained in electric and electronic modules can also be recycled bymeans of special separation processes. The synthetic materials remaining afterthese processes can be thermally recycled.If the products contain batteries or accumulators, these have to be removedbefore recycling and disposed of.
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 59/65
Environmental Protection and Disposal
60/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
10 Appendix10.1 Discharging of Capacitors10.1.1 Discharging of DC Bus Capacitors
In the drive system Rexroth IndraDrive, capacitors are used in the DC bus asenergy stores. In drive controllers and particularly in supply units, such capac‐itors have already been integrated.Energy stores maintain their energy even when the supply voltage has beencut off and have to be discharged before somebody gets in contact with them.Discharging devices have been integrated in the components of the drive sys‐tem Rexroth IndraDrive; within the indicated discharging time, these devicesdischarge the voltage below the allowed 50 V.If additional capacitors (such as DC bus capacitor units) are connected, thesecapacitors, too, have to be discharged before somebody gets in contact withthem.Due to the operating principle, the discharging time is the longer● the bigger the energy store (the capacitance value)● the higher the voltage to which the energy store has been charged● the greater the resistance for discharging the capacitorsComponents of the drive system Rexroth IndraDrive have been dimensionedin such a way that after the supply voltage was cut off, the voltage value fallsbelow 50 V within a discharging time of a maximum of 30 minutes.To shorten the waiting time until voltage has fallen below 50 V, you can takethe following measures:● When using HMV01 supply units (exception: HMV01.1R-W0120):
Activate the function "ZKS" (ZKS = DC bus short circuit)● Use the discharging device described below
10.1.2 Discharging DeviceOperating Principle
A contactor is installed to switch a resistor to the terminals L+ and L- of the DCbus connection to discharge the capacitors. The contactor is activated via acontrol input which is supplied with appropriate control voltage.
R Discharging resistorK Contactor contactFig.10-1: Operating Principle of Discharging Device
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 61/65
Appendix
DimensioningThe individual components have to be sufficiently dimensioned:● Value of the discharging resistor: 1000 ohm and at least 1000 W● The discharging resistor and the contactor contact have to withstand the
loads of practical operation (for example in the case of frequent use of thedischarging device of the occurring continuous power).
● The contactor contact has to withstand the occurring direct voltage of aminimum of 1000 V.
● The contactor contact has to withstand the occurring discharge currentaccording to the resistance value that is used, i.e. 1 A with 1000 ohm.
Installation
WARNING
Lethal electric shock caused by live parts with more than 50 V!Before working on live parts: De-energize the installation and secure the powerswitch against unintentional or unauthorized re-energization.Wait at least 30 minutes after switching off the supply voltages to allow dis‐charging.Check whether voltages have fallen below 50 V before touching live parts!
CAUTION
Risk of damage by intense heat!During the discharging process, the discharging resistor generates intenseheat. Therefore, place the discharging resistor as far as possible from heat-sensitive components.
How to install the discharging device1. Preferably install discharging device before switching on supply voltage
for the first time.If you install discharging device after having switched on supply voltagefor the first time, wait 30 minutes to allow discharging. Check whethervoltage has fallen below 50 V before touching live parts!
2. Place discharging resistor as far as possible from heat-sensitive compo‐nents.
ActivationObserve the following order for activating the discharging device:1. De-energize installation and secure power switch against unintentional or
unauthorized re-energization.2. Activate discharging device.
62/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Appendix
IndexAAccessories......................................................... 55Address selector switches
SERCOS ...................................................... 28Analog outputs.................................................... 34
BBearings
Maintenance ................................................. 38
CCables
Maintenance ................................................. 39Selection ...................................................... 30
CapacitorsDischarging .................................................. 61
Cleaning.............................................................. 38Commissioning................................................... 33Connection point of equipment groundingconductor
Second, KMS ............................................... 31Second, KSM ............................................... 31
Connection points............................................... 28Contained substances
see "Significant components" ....................... 59Control cabinet
Area A, interference-free .............................. 47Area B, interference-susceptible .................. 48Area C, strongly interference-susceptible .... 49Interference areas ........................................ 43
Cooling ribs......................................................... 38
DDC bus capacitors
Discharging .................................................. 61Deactivation........................................................ 35Diagnosis
Functions ...................................................... 33LEDs ............................................................ 33
Diagnostic displayAt the device ................................................ 33
Dimensions......................................................... 15Discharging
Of DC bus capacitors ................................... 61Discharging device.............................................. 61Dismounting........................................................ 36Documentation
Overview ...................................................... 23Reference documentations .......................... 23
EEasy startup mode.............................................. 34
EEMC
Measures for design and installation ............ 41
FFirmware
Functions ...................................................... 34Update .......................................................... 37
GGround connections............................................ 51
HH14..................................................................... 33Handling
Of the devices .............................................. 25Hazardous substances....................................... 59Heat dissipation.................................................. 38Holding brake
Commissioning ............................................. 39Hybrid cables
Outgoing direction ........................................ 30Selection ...................................................... 30
Hybrid cable selection......................................... 30
IIdentification........................................................ 13Installation........................................................... 27
EMC measures ............................................ 41General information ...................................... 27Ground connections ..................................... 51Signal lines ................................................... 52
Instructions for use.............................................. 25
KKMS
LED H14 ....................................................... 33Second connection point of equipmentgrounding conductor .................................... 31
KSMLED H14 ....................................................... 33Replacement ................................................ 36Scope of supply ............................................ 14Second connection point of equipmentgrounding conductor .................................... 31
LLED H14............................................................. 33
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 63/65
Index
MMains filter
Motor blower ................................................ 47Other loads ................................................... 48
Maintenance....................................................... 38Measures of radio interference suppression
For relays, contactors, switches, chokes,inductive loads ............................................. 52
MMC.................................................................... 37Monitoring function.............................................. 35Motor blower
Mains filter .................................................... 47Mounting............................................................. 26Mounting the flange............................................ 26
NNotes on operation.............................................. 33
OOscilloscope function.......................................... 34Outgoing direction
Hybrid cables ............................................... 30
PPackaging........................................................... 59Parameters
Saving .......................................................... 37Patch function..................................................... 35PFM02................................................................ 14Power consumption............................................ 15Production processes......................................... 59Prohibited substances......................................... 59
RRatings................................................................ 15Reference documentations................................. 23
RReplacement
KSM ............................................................. 36Return of products.............................................. 59RKB0006
Interface cable (X2 ↔ PC) ............................ 55RKH.................................................................... 30RKH (hybrid cable).............................................. 30Running noise..................................................... 39
SS4, S5
SERCOS address selector switches ............ 28Safety instructions................................................. 7Scope of supply
KSM ............................................................. 14SERCOS
Address selector switches ............................ 28Service Hotline.................................................... 57Signal lines
Installation .................................................... 52Significant components....................................... 59Support
see Service Hotline ...................................... 57
TTroubleshooting.................................................. 35Type plates......................................................... 14
UUse
Instructions ................................................... 25
VVoltage load capacity.......................................... 15
64/65 Bosch Rexroth AG | Electric Drivesand Controls
Rexroth IndraDrive Mi | Instruction Manual
Index
M
Notes
Instruction Manual | Rexroth IndraDrive Mi Electric Drivesand Controls
| Bosch Rexroth AG 65/65
Printed in GermanyDOK-INDRV*-KSM01*UL***-IB02-EN-PR911322511
Bosch Rexroth AGElectric Drives and ControlsP.O. Box 13 5797803 Lohr, GermanyBgm.-Dr.-Nebel-Str. 297816 Lohr, GermanyTel. +49 (0)93 52-40-0Fax +49 (0)93 52-48 85www.boschrexroth.com