Kebco Combivert s6 series User manual

COMBIVERT S6

INSTRUCTIONS FOR USE | INSTALLATION S6 HOUSING 2

Translation of the original manual

Document 20088319 EN 09

PREFACE

Preface

The described hard- and software are developments of the KEB Automation KG. The

enclosed documents correspond to conditions valid at printing. Misprint, mistakes and

technical changes reserved.

Signal words and symbols

Certain operations can cause hazards during the installation, operation or thereafter.

There are safety informations in the documentation in front of these operations. Security

signs are located on the device or machine. A warning contains signal words which are

explained in the following table:

DANGER Dangerous situation, which will cause death or serious injury in case of

non-observance of this safety instruction.

WARNING Dangerous situation, which may cause death or serious injury in case of

non-observance of this safety instruction.

CAUTION Dangerous situation, which may cause minor injury in case of non-ob-

servance of this safety instruction.

NOTICE Situation, which can cause damage to property in case of non-obser-

vance.

RESTRICTION

Is used when certain conditions must meet the validity of statements or the result is

limited to a certain validity range.

Is used when the result will be better, more economic or trouble-free by following

these procedures.

More symbols

► Thisarrowstartsanactionstep.

• / - Enumerations are marked with dots or indents.

=> Cross reference to another chapter or another page.

Note to further documentation.

www.keb.de/service/downloads

PREFACE

Laws and guidelines

KEBAutomationKGconrmswiththeECdeclarationofconformityandtheCEmarkon

the device nameplate that it complies with the essential safety requirements.

The EC declaration of conformity can be downloaded on demand via our website. Fur-

therinformationisprovidedinchapter"Certication".

Warranty and liability

The warranty and liability on design, material or workmanship for the acquired device is

given in the general sales conditions.

Hereyouwillndourgeneralsalesconditions.

www.keb.de/terms-and-conditions

Furtheragreementsorspecicationsrequireawrittenconrmation.

Support

Through multiple applications not every imaginable case has been taken into ac-

count. If you require further information or if problems occur which are not treated de-

tailed in the documentation, you can request the necessary information via the local

KEB Automation KG agency.

The use of our units in the target products is outside of our control and therefore

lies exclusively in the area of responsibility of the customer.

Theinformationcontainedinthetechnicaldocumentation,aswellasanyuser-specic

advice in spoken and written and through tests, are made to best of our knowledge and

information about the intended use. However, they are regarded as being only informal

and changes are expressly reserved, in particular due to technical changes. This also

applies to any violation of industrial property rights of a third-party. Selection of our units

in view of their suitability for the intended use must be done generally by the user.

Tests can only be done within the intended end use of the product (application) by

the customer. They must be repeated, even if only parts of hardware, software or

the unit adjustment are modied.

The customer may use the instructions for use as well as further documents or parts

from it for internal purposes. Copyrights are with KEB Automation KG and remain valid

in its entirety.

This KEB product or parts thereof may contain third-party software, including free and/

or open source software. If applicable, the license terms of this software are contained

in the instructions for use. The instructions for use are already available to you, can be

downloaded free of charge from the KEB website or can be requested from the respec-

tive KEB contact person.

Other wordmarks or/and logos are trademarks (™) or registered trademarks (®) of their

respective owners.

TABLE OF CONTENTS

Table of Contents

Preface ....................................................................................................................................................3

Signal words and symbols .............................................................................................................3

More symbols.................................................................................................................................3

Laws and guidelines.......................................................................................................................4

Warranty and liability......................................................................................................................4

Support ........................................................................................................................................4

Copyright........................................................................................................................................4

Table of Contents ...................................................................................................................................5

List of Figures.........................................................................................................................................8

List of Tables ..........................................................................................................................................9

Glossary ................................................................................................................................................10

Standards for drive converters / control cabinets .............................................................................12

Product standards that apply directly to the drive converter ........................................................12

Basic standards to which drive converter standards refer directly...............................................12

Standards that are used in the environment of the drive converter .............................................13

1 Basic Safety Instructions............................................ 14

1.1 Target group...................................................................................................................................14

1.2 Transport, storage and proper use .............................................................................................. 14

1.3 Installation......................................................................................................................................15

1.4 Electrical connection ....................................................................................................................16

1.4.1 EMC-compatible installation...............................................................................................17

1.4.2 Voltage test.........................................................................................................................17

1.4.3 Insulation measurement.....................................................................................................17

1.5 Start-up and operation ..................................................................................................................18

1.6 Maintenance...................................................................................................................................19

1.8 Repair .............................................................................................................................................20

1.7 Disposal..........................................................................................................................................20

2 Product Description .................................................... 21

2.1 Specied application.....................................................................................................................21

2.1.1 Residual risks.....................................................................................................................21

2.2 Unintended use..............................................................................................................................21

2.3 Product features ............................................................................................................................22

2.4 Part code ........................................................................................................................................23

3 Technical Data.............................................................. 24

3.1 Operating conditions ....................................................................................................................24

3.1.1 Climatic environmental conditions......................................................................................24

3.1.2 Mechanical ambient conditions ..........................................................................................25

3.1.3 Chemical / mechanical active substances..........................................................................25

3.1.4 Electrical operating conditions............................................................................................26

TABLE OF CONTENTS

3.1.4.1 Deviceclassication........................................................................................................26

3.1.4.2 Electromagnetic compatibility..........................................................................................26

3.1.4.3 Mounting instructions for control cabinet installation.......................................................27

3.2 Dimensions and weights ..............................................................................................................27

3.2.1 Built-in version....................................................................................................................27

3.2.2 Control cabinet installation .................................................................................................28

3.3 Unit data 400 V devices.................................................................................................................29

3.3.1 Overview ............................................................................................................................29

3.3.2 Rated operation..................................................................................................................29

3.3.3 Voltage and frequency data................................................................................................30

3.3.3.1 Example for the calculation of the motor voltage ............................................................30

3.3.4 Input and output currents / overload...................................................................................31

3.4 Unit data 230 V devices.................................................................................................................32

3.4.1 Overview ............................................................................................................................32

3.4.2 Rated operation..................................................................................................................32

3.4.3 Voltage and frequency data................................................................................................33

3.4.4 Input and output currents / overload...................................................................................34

3.5 General data...................................................................................................................................35

3.5.1 Overload characteristic (OL) ..............................................................................................35

3.5.1.1 Turn-off time depending on the overload at 400V units ..................................................36

3.5.1.2 Turn-off time depending on the overload at 230V units ..................................................37

3.5.1.3 Maximum current (OL2) ..................................................................................................38

3.5.2 Switching frequency and temperature................................................................................41

3.5.3 Protection of the drive converter ........................................................................................42

3.5.4 DC link / braking transistor function....................................................................................43

3.5.4.1 DC link / braking transistor function of the 400V units ....................................................43

3.5.4.2 DC link / braking transistor function of the 230V units ....................................................43

3.5.5 Power dissipation 400 V units ............................................................................................44

3.5.6 Power dissipation 230 V units ............................................................................................44

3.5.7 Fan .....................................................................................................................................45

3.5.7.1 Switching behaviour of the fan ........................................................................................45

3.5.7.2 Switching points of the fan ..............................................................................................45

4 Installation and Connection........................................ 46

4.1 Overview of the COMBIVERT S6..................................................................................................46

4.2 Connection of the power unit.......................................................................................................48

4.2.1 Connection of the voltage supply .......................................................................................48

4.2.1.1 Line terminal strip X1A ....................................................................................................49

4.2.2 Protective earth and function earth ....................................................................................50

4.2.2.1 Protective earth ...............................................................................................................50

4.2.2.2 Functional earthing..........................................................................................................50

4.2.3 AC connection ....................................................................................................................51

4.2.3.1 AC supply 230V/400V 3-phase......................................................................................51

TABLE OF CONTENTS

4.2.3.2 AC supply 230V 1-phase ................................................................................................52

4.2.3.3 Supply line.......................................................................................................................53

4.2.4 DC connection....................................................................................................................53

4.2.4.1 Connection at DC voltage supply....................................................................................53

4.2.4.2 Terminal strip X1B DC connection...................................................................................53

4.2.5 Connection of the motor.....................................................................................................54

4.2.5.1 Selection of the motor cable............................................................................................54

4.2.5.2 Cable-fed disturbances depending on the motor cable length at AC supply...................54

4.2.5.3 Motor cable length at operation with DC voltage.............................................................54

4.2.5.4 Motor cable length for parallel operation of motors.........................................................55

4.2.5.5 Motor cable cross-section ...............................................................................................55

4.2.5.6 Interconnection of the motor............................................................................................55

4.2.5.7 Terminal strip X1B motor connection...............................................................................55

4.2.5.8 Wiring of the motor..........................................................................................................56

4.2.6 Connection of a braking resistor.........................................................................................56

4.2.6.1 Terminal strip X1B connection braking resistor ...............................................................56

4.2.6.2 Wiring of an intrinsically safe braking resistor .................................................................57

4.2.6.3 Using a non-intrinsically safe braking resistor.................................................................57

4.3 Brake control and temperature detection ...................................................................................58

4.3.1 Specicationandconnectionofthebrakecontrol..............................................................58

4.3.2 Specicationandconnectionofthetemperaturedetection................................................59

4.3.3 Operation without temperature detection ...........................................................................60

4.3.4 Connection of a KTY sensor ..............................................................................................60

4.3.5 Connection of PTC, temperature switch or PT1000...........................................................61

4.4 Brake control and temperature detection ...................................................................................62

4.4.1 Specicationandconnectionofthebrake/relaycontrol...................................................62

4.4.2 Specicationandconnectionofthetemperaturedetection................................................63

4.4.2.1 Operation without temperature detection ........................................................................64

4.4.2.2 Connection of a KTY sensor ...........................................................................................64

4.4.2.3 Connection of PTC, temperature switch or PT1000........................................................65

5 Certication.................................................................. 66

5.1 CE Marking.....................................................................................................................................66

5.2 Functional safety ...........................................................................................................................66

5.3 Annex to the declaration of conformity.......................................................................................66

5.4 UL Marking .....................................................................................................................................68

5.5 Further information and documentation .....................................................................................71

6 Revision History .......................................................... 72

LIST OF FIGURES

List of Figures

Figure 1: Dimensions built-in version housing 2 .............................................................................27

Figure 2: Mounting distances..........................................................................................................28

Figure 3: Control cabinet ventilation................................................................................................28

Figure 4: Switch-off time t depending on the overload I/IN (OL) 400 V units..................................36

Figure 5: Switch-off time t depending on the overload I/IN (OL) 230 V units..................................37

Figure 6: Overload characteristic in the lower speed range (OL2)..................................................38

Figure7: Blockdiagramoftheenergyow.....................................................................................44

Figure 8: Switching behaviour of the fan.........................................................................................45

Figure 9: Overview COMBIVERT S6 ..............................................................................................46

Figure 10: Input circuit/drive converter type 400V units...................................................................48

Figure 11: Input circuit/drive converter type 230V units...................................................................48

Figure 12: Line terminal strip X1A.....................................................................................................49

Figure 13: Connection for protective earth........................................................................................50

Figure 14: Connection of the mains supply 3-phase devices ...........................................................51

Figure 15: Connection of the mains supply 1-phase devices ...........................................................52

Figure 16: Connection at DC voltage supply.....................................................................................53

Figure 17: Terminal strip X1B DC connection ...................................................................................53

Figure 18: Terminal strip X1B motor connection ...............................................................................55

Figure 19: Wiring of the motor...........................................................................................................56

Figure 20: Terminal strip X1B connection braking resistor................................................................56

Figure 21: Wiring of an intrinsically safe braking resistor..................................................................57

Figure 22: Assignment of the terminal block X1C.............................................................................58

Figure 23: Example for the connection of the brake output at X1C ..................................................58

Figure 24: Connection of a KTY sensor............................................................................................60

Figure 25: Connection examples of different temperature sensors ..................................................61

Figure 26: Assignment of the terminal block X1C.............................................................................62

Figure 27: Connection of a KTY sensor............................................................................................64

Figure 28: Connection examples of different temperature sensors ..................................................65

LIST OF TABLES

List of Tables

Table 1: Part code..........................................................................................................................23

Table 2: Climatic environmental conditions ...................................................................................24

Table 3: Mechanical ambient conditions........................................................................................25

Table 4: Chemical / mechanical active substances .......................................................................25

Table5: Deviceclassication.........................................................................................................26

Table 6: Electromagnetic compatibility ..........................................................................................26

Table 7: Mounting instructions for control cabinet installation .......................................................27

Table 8: Overview unit data 400 V devices....................................................................................29

Table 9: Input voltages and frequencies 400V units......................................................................30

Table 10: Input voltages for DC operation 400V units .....................................................................30

Table 11: Output voltages and frequencies 400V units ...................................................................30

Table 12: DC switching level 400V units..........................................................................................30

Table 13: Example for the calculation of the motor voltage.............................................................30

Table 14: Input currents 400V units.................................................................................................31

Table 15: Output currents 400 V units .............................................................................................31

Table 16: Overview unit data 230 V devices....................................................................................32

Table 17: Input voltages and frequencies 230V units......................................................................33

Table 18: Input voltages for DC operation 230V units .....................................................................33

Table 19: Output voltages and frequencies 230V units ...................................................................33

Table 20: DC switching level 230V units..........................................................................................33

Table 21: Input currents 230V units.................................................................................................34

Table 22: Output currents 230V class..............................................................................................34

Table 23: Frequency-dependent maximum current for unit size 07 400V units ..............................39

Table 24: Frequency-dependent maximum current for unit size 09 400V units ..............................39

Table 25: Frequency-dependent maximum current for unit size 10 400V units ..............................39

Table 26: Frequency-dependent maximum current for unit size 07 230V units ..............................40

Table 27: Frequency-dependent maximum current for unit size 09 230V units ..............................40

Table 28: Switching frequency and temperature .............................................................................41

Table 29: Fusing of the drive converters 400 V units, 3-phase .......................................................42

Table 30: Fusing of the drive converters 230V units, 1-phase ........................................................42

Table 31: DC link / braking transistor function of the 400V units.....................................................43

Table 32: DC link / braking transistor function of the 230V units.....................................................43

Table 33: Power dissipation 400 V units..........................................................................................44

Table 34: Power dissipation 230 V units..........................................................................................44

Table 35: Maximum motor cable length at AC supply......................................................................54

Table 36: Maximum motor cable length at DC operation.................................................................54

Table37: Specicationofthebrakecontrol.....................................................................................58

Table38: Specicationofthetemperatureinput .............................................................................59

Table 39: Connection of a KTY sensor............................................................................................60

Table 40: Connection of PTC, temperature switch or PT1000 ........................................................61

Table41: Specicationofthebrakecontrol.....................................................................................62

Table42: Specicationofthetemperatureinput .............................................................................63

Table 43: Connection of a KTY sensor............................................................................................64

Table 44: Connection of PTC, temperature switch or PT1000 ........................................................65

Table 45: Applied standards ............................................................................................................67

GLOSSARY

Glossary

EtherCAT Real-time Ethernet bus system of the

company Beckhoff

Ethernet Real-timebussystem-denespro-

tocols, plugs, types of cables

FE Functional earth

FSoE Functional Safety over Ethernet

FU Drive converter

GND Reference potential, ground

GTR7 Braking transistor

HFlter Highfrequencyltertothemains

Hiperface Bidirectional encoder interface of the

company Sick-Stegmann

HMI Human machine interface (touch

screen)

HSP5 Fast, serial protocol

HTL Incremental signal with an output

voltage (up to 30V) -> TTL

IEC International standard

IP xx Degree of protection (xx for level)

KEB product The KEB product is subject of this

manual

KTY Silicium temperature sensor (pola-

rized)

Manufacturer The manufacturer is KEB, unless

otherwisespecied(e.g.asma-

nufacturer of machines, engines,

vehicles or adhesives)

MCM American unit for large wire cross

sections

Modulation Means in drive technology that the

power semiconductors are controlled

MTTF Mean service life to failure

NN Sea level

OC Overcurrent

OH Overheat

OL Overload

OSSD Output signal swithching device; - an

output signal that is checked in regu-

lar intervals on its shutdown. (safety

technology)

PDS Power drive system incl. motor and

measuring probe

PE Protective earth

PELV Protective Extra Low Voltage

PFD Term used in the safety technology

(EN 61508-1...7) for the size of error

probability

PFH Term used in the safety technology

(EN 61508-1...7) for the size of error

probability per hour

0V Earth-potential-free common point

1ph 1-phase mains

3ph 3-phase mains

AC AC current or voltage

AFE From 07/2019 AIC replaces the pre-

vious name AFE

AFElter From07/2019AIClterreplacesthe

previousnameAFElter

AIC Active Infeed Converter

AIClter Filter for Active Infeed Converter

Application The application is the intended use

of the KEB product

ASCL Asynchronous sensorless closed

loop

Auto motor

ident.

Automaticallymotoridentication;

calibration of resistance and induc-

tance

AWG American wire gauge

B2B Business-to-business

BiSS Open source real-time interface for

sensors and actuators (DIN 5008)

CAN Fieldbus system

CDM Complete drive module including

auxiliary equipment (control cabinet)

COMBIVERT KEB drive converters

COMBIVIS KEB start-up and parameterizing

software

Customer The customer has purchased a KEB

product from KEB and integrates the

KEB product into his product (cus-

tomer product) or resells the KEB

product (dealer)

DC DC current or voltage

DI Demineralized water, also referred to

as deionized (DI) water

DIN German Institut for standardization

DS 402 CiADS402-CANdeviceprolefor

drives

EMC Electromagnetic compatibility

Emergency

stop

Shutdown of a drive in emergency

case (not de-energized)

Emergency

switching off

Switching off the voltage supply in

emergency case

EN European standard

Encoder emu-

lation

Software-generated encoder output

End customer The end customer is the user of the

customer product

Endat Bidirectional encoder interface of the

company Heidenhain

GLOSSARY

PLC Programmable logic controller

PT100 TemperaturesensorwithR0=100Ω

PT1000 TemperaturesensorwithR0=1000Ω

PTC PTC-resistor for temperature detec-

tion

PWM Pulse width modulation

RJ45 Modular connector with 8 lines

SCL Synchronous sensorless closed loop

SELV Safety Extra Low Voltage (<60V)

SIL The security integrity level is a

measure for quantifying the risk

reduction. Term used in the safety

technology (EN 61508 -1...7)

SS1 Safety function „Safe stop 1“ in ac-

cordance with IEC 61800-5-2

SSI Synchronous serial interface for

encoder

STO Safety function „Safe Torque Off“ in

accordance with IEC 61800-5-2

TTL Incremental signal with an output

voltage up to 5V

USB Universal serial bus

VARAN Real-time Ethernet bus system

STANDARDS FOR DRIVE CONVERTERS/CONTROL CABINETS

Standards for drive converters / control cabinets

Product standards that apply directly to the drive converter

EN61800-2 Adjustable speed electrical power drive systems - Part 2: General requirements-

Ratingspecicationsforlowvoltageadjustablefrequencya.c.powerdrive

systems (VDE0160-102, IEC61800-2)

EN61800-3 Speed-adjustableelectricaldrives.Part3:EMCrequirementsandspecictest

methods (VDE0160-103, IEC61800-3)

EN61800-5-1 Adjustable speed electrical power drive systems - Part 5-1: Safety requirements

- Electrical, thermal and energy (IEC 61800-5-1); German version EN 61800-5-1

EN61800-5-2 Adjustable speed electrical power drive systems - Part 5-2: Safety Requirements

- Functional (IEC 22G/264/CD)

UL61800-5-1 American version of the EN 61800-5-1 with „National Deviations“

Basic standards to which drive converter standards refer directly

EN55011 Industrial,scienticandmedicalequipment-Radiofrequencydisturbance

characteristics - Limits and methods of measurement (CISPR 11); German

version EN 55011

EN55021 Interference to mobile radiocommunications in the presence of impulse noise -

Methods of judging degradation and measures to improve performance (IEC/

CISPR/D/230/FDIS); German version prEN 55021

EN60529 Degrees of protection provided by enclosures (IP Code) (IEC 60529)

EN60664-1 Insulation coordination for equipment within low-voltage systems Part 1: Princi-

ples, requirements and tests (IEC 60664-1)

EN60721-3-1 Classicationofenvironmentalconditions-Part3-1:Classicationofgroupsof

environmental parameters and their severities - Section 1: Storage (IEC 60721-

3-1); German version EN 60721-3-1

EN60721-3-2 Classicationofenvironmentalconditions-Part3:Classicationofgroupsof

environmental parameters and their severities - Section 2: Transportation and

handling (IEC 104/670/CD)

EN60721-3-3 Classicationofenvironmentalconditions-Part3:Classicationofgroupsof

environmental parameters and their severities; section 3: Stationary use at

weatherprotected locations; Amendment A2 (IEC 60721-3-3); German version

EN 60721-3-3

EN61000-2-1 Electromagnetic compatibility (EMC) - Part 2: Environment - Section 1: Descrip-

tion of the environment - Electromagnetic environment for low-frequency

conducted disturbances and signalling in public power supply systems

EN61000-2-4 Electromagnetic compatibility (EMC) - Part 2-4: Environment; Compatibility

levels in industrial plants for low-frequency conducted disturbances (IEC 61000-

2-4); German version EN 61000-2-4

EN61000-4-2 Electromagnetic compatibility (EMC) - Part 4-2: Testing and measurement

techniques - Electrostatic discharge immunity test (IEC 61000-4-2); German

version EN 61000-4-2

EN61000-4-3 Electromagnetic compatibility (EMC) - Part 4-3: Testing and measurement

techniques-Radiated,radio-frequency,electromagneticeldimmunitytest(IEC

61000-4-3); German version EN 61000-4-3

EN61000-4-4 Electromagnetic compatibility (EMC) - Part 4-4: Testing and measurement

techniques - Electrical fast transient/burst immunity test (IEC 61000-4-4);

German version EN 61000-4-4

STANDARDS FOR DRIVE CONVERTERS/CONTROL CABINETS

EN61000-4-5 Electromagnetic compatibility (EMC) - Part 4-5: Testing and measurement

techniques - Surge immunity test (IEC 61000-4-5); German version EN 61000-4-5

EN61000-4-6 Electromagnetic compatibility (EMC) - Part 4-6: Testing and measurement

techniques - Immunity to conducted disturbances, induced by radio-frequency

elds(IEC61000-4-6);GermanversionEN61000-4-6

EN61000-4-34 Electromagnetic compatibility (EMC) - Part 4-34: Testing and measurement

techniques - Voltage dips, short interruptions and voltage variations immunity

tests for equipment with mains current more than 16 A per phase (IEC 61000-4-

34); German version EN 61000-4-34

EN61508-1...7 Functional safety of electrical/electronic/programmable electronic safety-related

systems – Part 1...7 (VDE0803-1…7, IEC61508-1…7)

EN62061 Safety of machinery - functional safety of electrical, electronic and program-

mable electronic safety-related systems (VDE0113-50, IEC62061)

EN ISO13849-1 Safety of machinery - safety-related parts of control systems - Part 1: General

principles for design (ISO13849-1); German version EN ISO 13849-1

Standards that are used in the environment of the drive converter

DGUV regulation 3 Electrical installations and equipment

DIN 46228-1 Wire-end ferrules; Tube without plastic sleeve

DIN 46228-4 Wire-end ferrules; Tube with plastic sleeve

DINIEC60364-5-54 Low-voltage electrical installations - Part 5-54: Selection and erection of

electrical equipment - Earthing arrangements, protective conductors and protec-

tive bonding conductors (IEC 64/1610/CD)

DIN VDE 0100-729 Low-voltage electrical installations - Part 7-729: Requirements for special

installations or locations - Operating or maintenance gangways (IEC 60364-7-

729:2007,modied);GermanimplementationHD60364-7-729:2009

DNVGL-CG-0339 Environmentaltestspecicationforelectrical,electronicandprogrammable

equipment and systems

EN1037 Safety of machinery - Prevention of unexpected start-up; German version EN 1037

EN 12502-1...5 Protection of metallic materials against corrosion - Part 1...5

EN60204-1 Safety of machinery - electrical equipment of machines Part 1: General require-

ments (VDE0113-1, IEC44/709/CDV)

EN60439-1 Low-voltage switchgear and controlgear assemblies - Part 1: Type-tested and

partially type-tested assemblies (IEC 60439-1); German version EN 60439-1

EN 60947-7-1 Low-voltage switchgear and controlgear - Part 7-1: Ancillary equipment -

Terminal blocks for copper conductors (IEC 60947-7-1:2009); German version

EN 60947-7-1:2009

EN 60947-8 Low-voltage switchgear and controlgear - Part 8: Control units for built-in

thermal protection (PTC) for rotating electrical machines (IEC 60947-8:2003 +

A1:2006 + A2:2011)

EN61373 Railway applications - Rolling stock equipment - Shock and vibration tests (IEC

61373); German version EN 61373

EN61439-1 Low-voltage switchgear and controlgear assemblies - Part 1: General rules (IEC

121B/40/CDV); German version FprEN 61439-1

VGB R 455 P Water treatment and use of materials in cooling systems

ISO 4017 Fasteners - Hexagon head screws - Product grades A and B

ISO 4762 Hexagon socket head cap screws

ISO 7090 Plain washers, chamfered - Normal series - Product grade A

ISO 7092 Plain washers - Small series - Product grade A

ISO 7045 Pan head screws with type H or type Z cross recess - Product grade A

BASIC SAFETY INSTRUCTIONS

1 Basic Safety Instructions

The COMBIVERT is designed and constructed in accordance with state-of-the-art tech-

nology and the recognised safety rules and regulations However, the use of such de-

vices may cause functional hazards for life and limb of the user or third parties, or dama-

ges to the system and other material property.

The following safety instructions have been created by the manufacturer for the area of

electric drive technology. They can be supplemented by local, country- or application-

specic safety instructions. This list is not exhaustive. Non-observance of the safety

instructions by the customer, user or other third party leads to the loss of all resulting

claims against the manufacturer.

NOTICE Hazards and risks through ignorance.

►Read the instructions for use !

►Observe the safety and warning instructions !

►If anything is unclear, please contact KEB Automation KG !

1.1 Target group

This instruction manual is determined exclusively for electrical personnel. Electrical per-

sonnelforthepurposeofthisinstructionmanualmusthavethefollowingqualications:

• Knowledge and understanding of the safety instructions.

• Skills for installation and assembly.

• Start-up and operation of the product.

• Understanding of the function in the used machine.

• Detection of hazards and risks of the electrical drive technology.

• Knowledge of DIN IEC 60364-5-54.

• Knowledge of national safety regulations (e.g. DGUV regulation 3).

1.2 Transport, storage and proper use

The transport is carried out by qualified persons in accordance with the environmental

conditions specified in this manual. Drive converter shall be protected against excessive

strains.

Transport of drive converters with an edge length >75 cm

The transport by forklift without suitable tools can cause a deflection of the heat

sink. This leads to premature aging or destruction of internal components.

►Transport of drive converters on suitable pallets.

►Do not stack drive converters or burden them with other heavy objects.

BASIC SAFETY INSTRUCTIONS

ESD

Drive converters contain electrostatic sensitive components.

►Avoid contact.

►Wear ESD-protective clothing.

Do not store drive converters

• in the environment of aggressive and/or conductive liquids or gases.

• with direct sunlight.

• outside the specified environmental conditions.

1.3 Installation

DANGER Do not operate in an explosive environment!

►The COMBIVERT is not intended for the use in potentially explosive

environment.

CAUTION Maximum design edges and high weight!

Contusions and bruises!

►Never stand under suspended loads.

►Wear safety shoes.

►Secure drive converter accordingly when using lifting gear.

• To prevent damages to the device:

• Make sure that no components are bent and/or isolation distances are changed.

• The device must not be put into operation in case of mechanical defects. Non-

compliance with the applicable standards.

• Do not allow moisture or mist to penetrate the unit.

• Avoiddustpermeatingthedevice.Allowforsufcientheatdissipationifinstalledin

a dust-proof housing.

• Note installation position and minimum distances to surrounding elements. Do not

cover the ventilation openings.

• Mountthedriveinverteraccordingtothespecieddegreeofprotection.

• Make sure that no small parts fall into the COMBIVERT during assembly and wiring

(drilling chips, screws etc.). This also applies to mechanical components, which can

lose small parts during operation.

• Checkthereliabletofthedeviceconnectionsinordertoavoidcontactresistances

and sparking.

• Do not walk-on drive converter.

• The safety instructions are to be kept!

BASIC SAFETY INSTRUCTIONS

1.4 Electrical connection

DANGER Voltage at the terminals and in the device !

Danger to life due to electric shock !

►Never work on the open device or never touch exposed parts.

►For any work on the unit switch off the supply voltage, secure it

against switching on and check absence of voltage by measure-

ment.

►Wait until all drives has been stopped in order that no regenerative

energy can be generated.

►Await capacitor discharge time (5 minutes) if necessary, measure

DC voltage at the terminals.

►If personal protection is required, install suitable protective devices

for drive converters.

►Never bridge upstream protective devices (also not for test pur-

poses).

►Connect the protective earth conductor always to drive converter

and motor.

►Install all required covers and protective devices for operation.

►The control cabinet shall be kept closed during operation.

►Residual current: This product may cause a dc current in the pro-

tective earth conductor. When a residual current protective device

(RCD) or a residual current monitoring device (RCM) is used for the

protection against direct or indirect contact, only a RCD or RCM type

B is permitted on the power supply side of this product.

►Drive converters with a leakage current >3.5mA AC current (10mA

DC current) are intended for a stationary connection. Protective

earth conductors must be designed in accordance with the local

regulations for equipment with high leakage currents according to

EN 61800-5-1, EN 60204-1 or DIN IEC 60364-5-54 .

If personnel protection is required during installation of the

system, suitable protective devices must be used for drive

converters.

www.keb.de/leadmin/media/Manuals/knowledge/04_techinfo/00_gene-

ral/ti_rcd_0400_0002_gbr.pdf

Installations which include drive converter shall be equipped with additional control and

protective devices in accordance with the relevant applicable safety requirements, e.g.

act respecting technical equipment, accident prevention rules etc. They must always be

complied with, also for drive converter bearing a CE marking.

BASIC SAFETY INSTRUCTIONS

For a trouble-free and safe operation, please pay attention to the following instructions:

• The electrical installation shall be carried out in accordance with the relevant re-

quirements.

• Cable cross-sections and fuses must be dimensioned by the user according to the

speciedminimum/maximumvaluesfortheapplication.

• Thewiringmustbemadewithexiblecoppercableforatemperature>75°C.

• Connection of the drive converter is only permissible on symmetrical networks with

a maximum line voltage (L1, L2, L3) with respect to earth (N/PE) of max. 300V. An

isolating transformer must be used for supply networks which exceed this value! In

case of non-compliance the control is not longer considered to be a PELV circuit.

• With existing or newly wired circuits the person installing the units or machines must

ensure that the PELV requirements are met.

• For drive converters that are not isolated from the supply circuit (in accordance with

EN 60721-3-2) all control lines must be included in other protective measures (e.g.

double insulation or shielded, earthed and insulated).

• When using components without isolated inputs/outputs, it is necessary that equi-

potential bonding exists between the components to be connected (e.g. by the equi-

potential line). Disregard can cause destruction of the components by equalizing

currents.

1.4.1 EMC-compatible installation

Observance of the limit values required by EMC law is the responsibility of the customer.

Notes on EMC-compatible installation can be found here.

www.keb.de/leadmin/media/Manuals/emv/0000neb0000.pdf

1.4.2 Voltage test

Testing with AC voltage (in accordance with EN 60204-1 chapter 18.4) may not be exe-

cuted, since there is danger for the power semiconductors in the drive inverter.

Due to the radio interference suppression capacitors, the test generator will

switch off immediately with a current fault.

According to EN 60204-1 it is permissible to disconnect already tested com-

ponents. Drive converters of the KEB Automation KG are delivered ex works

voltage tested to 100% according to product standard.

1.4.3 Insulation measurement

An insulation measurement (in accordance with EN 60204-1 chapter 18.3) with DC

500V is permissible, if all power unit connections (grid-connected potential) and all con-

trol connections are bridged with PE. The insulation resistance of the respective device

can be found in the technical data.

BASIC SAFETY INSTRUCTIONS

NOTICE Continuous operation (S1) with load > 60 % or from a rated motor

power of 55 kW !

Premature ageing of the electrolytic capacitors !

►Mains choke with Uk= 4% absolutely necessary.

1.5 Start-up and operation

The drive converter must not be started until it is determined that the installation com-

plies with the machine directive; Account is to be taken of EN 60204-1.

WARNING Software protection and programming !

Hazards caused by unintentional behavior of the drive!

►Check especially during initial start-up or replacement of the drive

converter if parameterization is compatible to application.

►Securing a unit solely with software-supported functions is not suf-

cient.Itisimperativetoinstallexternalprotectivemeasures(e.g.

limit switch) that are independent of the drive converter.

►Secure motors against automatic restart.

CAUTION High temperatures at heat sink and coolant!

Burning of the skin!

►Cover hot surfaces safe-to-touch.

►If necessary, attach warning signs on the system.

►Before touching, check the surface and coolant lines.

►Before working let the unit cool down.

• During operation, all covers and doors shall be kept closed.

• Use only approved accessories for this device.

• Never touch terminals, busbars or cable ends.

If a drive converter with electrolytic capacitors in a DC link

(see technical data) has not been in operation for more than

one year, observe the following instructions.

www.keb.de/leadmin/media/Manuals/knowledge/04_techinfo/00_gene-

ral/ti_format_capacitors_0400_0001_gbr.pdf

BASIC SAFETY INSTRUCTIONS

Short-circuit resistance

The drive converters are conditional short-circuit proof. After resetting the internal pro-

tection devices, the function as directed is guaranteed.

Exceptions:

• If an earth-leakage fault or short-circuit often occurs at the output, this can lead to a

defect in the unit.

• If a short-circuit occurs during regenerative operation (2nd or 4th quadrant, regen-

eration into the DC link), this can lead to a defect in the unit.

Switching at the output

Switching between motor and drive converter is prohibited for single drives during ope-

ration as this may trigger the protection gear of the device. Function ‚speed search‘ must

be activated if switching can not be avoided. Speed search may only be triggered after

closing the motor contactor (e.g. by switching the control release).

Connecting and disconnecting is permissible with multiple motor drives if at least 1 mo-

tor is running during the switch-over process. The drive converter must be dimensioned

to the occurring starting currents.

The ‚speed search‘ function must be activated if the motor is still running during a restart

of the drive converter (mains on) (e.g. due to large rotating masses).

Switching an the input

For applications that require cyclic switching off and on of the drive converter, maintain

an off-time of at least 5 min after the last switch on. If you require shorter cycle times

please contact KEB Automation KG.

1.6 Maintenance

The following maintenance work has to be carried out when required, but at least once

per year by authorized and trained personnel.Check unit for loose screws and plugs and

tighten if necessary.

►Check system for loose screws and plugs and tighten if necessary.

►Clean drive converter from dirt and dust deposits. Pay attention especially to coo-

lingnsandprotectivegridofthefans.

► Examineandcleanextractedairlterandcoolingairlterofthecontrolcabinet.

►Check the function of the fans of the drive converter. The fan must be replaced in

case of audible vibrations or squeak.

►In the case of liquid-cooled drive converters a visual test of the cooling circuit for

leaks and corrosion must be carried out.The cooling circuit must be completely

empty if a unit shall be switched off for a longer period. The cooling circuit must be

blownoutadditionallywithcompressedairattemperaturesbelow0°C.

BASIC SAFETY INSTRUCTIONS

1.8 Repair

In case of malfunction, unusual noises or smells inform a person in charge!

DANGER Unauthorized exchange, repair and modications!

Unpredictable malfunctions!

►The function of the drive converter is dependent on its parameteri-

zation. Never replace without knowledge of the application.

► ModicationorrepairispermittedonlybyKEBAutomationKGau-

thorized personnel.

►Only use original manufacturer parts.

►Infringement will annul the liability for resulting consequences.

In case of failure, please contact the machine manufacturer. Only the machine manu-

facturer knows the parameterisation of the used drive converter and can provide an

appropriate replacement or induce the maintenance.

1.7 Disposal

Electronic devices of the KEB Automation KG are exclusively professional devices for

further industrial processing (so-called B2B devices).

Manufacturers of B2B devices are obliged to take back and recycle devices manufac-

tured after 14.08.2018. These devices may not be disposed at the collection centres of

public sector disposal organisations.

If no deviating agreement has been made between the customer and

KEB or no deviating mandatory legal regulation exists, KEB products

marked in this way can be returned. Company and keyword to the return

point can be taken from the list below. Shipping costs are paid by the

customer. Thereupon the devices will be professionally recycled and

disposed.

Theentrynumbersarelistedcountry-specicinthefollowingtable.Thecorresponding

KEB return addresses can be found on our website.

Withdrawal by WEEE-Reg.-No. Keyword

Austria

KEB Automation GmbH ERA: 51976 Stichwort „Rücknahme WEEE“

France

RÉCYLUM - Recycle point ADEME: FR021806 Mots clés „KEB DEEE“

Germany

KEB Automation KG EAR: DE12653519 Stichwort „Rücknahme WEEE“

Italy

COBAT AEE: (IT) 19030000011216 Parola chiave „Ritiro RAEE“

The packaging must be feed to paper and cardboard recycling.

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