Kebco Combivert f6 User manual

Instrcutions for Use

COMBIVERT F6

Installation F6 Control PRO

Übersetzung der Originalanleitung

Dokument 20182705 EN 06

Impressum

KEB Automation KG

Südstraße 38, D-32683 Barntrup

Deutschland

Tel: +49 5263 401-0 • Fax: +49 5263 401-116

E-Mail: [email protected] • URL: https://www.keb.de

ma_dr_f6-cu-p-inst-20182705_en

Version 06 • Ausgabe 09/11/2022

Table of Contents

ma_dr_f6-cu-p-inst-20182705_en iii

Table of Contents

1 Introduction ................................................................................................................................................... 7

1.1 Markings................................................................................................................................................ 7

1.1.1 Warnings................................................................................................................................. 7

1.1.2 Information notes .................................................................................................................... 7

1.1.3 Symbols and markers ............................................................................................................. 8

1.2 Laws and guidelines.............................................................................................................................. 8

1.3 Warranty and liability............................................................................................................................. 8

1.4 Support.................................................................................................................................................. 8

1.5 Copyright............................................................................................................................................... 8

1.6 Validity of this manual ........................................................................................................................... 9

2 General Safety Instructions.......................................................................................................................... 10

2.1 Installation............................................................................................................................................. 10

2.2 Start-up and operation .......................................................................................................................... 11

2.3 Maintenance.......................................................................................................................................... 11

3 Product description ...................................................................................................................................... 12

3.1 Description of the control board PRO ................................................................................................... 12

3.2 Variants of the control board Pro .......................................................................................................... 12

3.3 Accessories........................................................................................................................................... 12

3.4 Connection and control elements.......................................................................................................... 13

3.5 Motor monitoring X1C (temperature, brake) ......................................................................................... 13

3.6 Control terminal strip X2A ..................................................................................................................... 13

3.7 Safety terminal block X2B..................................................................................................................... 14

3.8 Encoder interfaces X3A, X3B................................................................................................................ 14

3.9 Diagnostic interface X4A....................................................................................................................... 14

3.10 Fieldbus interface X4B.......................................................................................................................... 14

3.11 Fieldbus interface X4C.......................................................................................................................... 14

3.12 Rotary coding switch S1, S2 ................................................................................................................. 14

3.13 Status LEDs .......................................................................................................................................... 14

3.13.1 Boot display ............................................................................................................................ 14

3.13.2 VCC - LED .............................................................................................................................. 15

3.13.3 NET ST - LED......................................................................................................................... 15

3.13.4 DEV ST - LED......................................................................................................................... 15

3.13.5 OPT - LED .............................................................................................................................. 15

4 Connection of the control............................................................................................................................. 16

4.1 Assembly of wires ................................................................................................................................. 16

4.2 Terminal strip X2A................................................................................................................................. 17

4.2.1 Digital Inputs ........................................................................................................................... 17

4.2.2 Digital Outputs ........................................................................................................................ 18

4.2.3 Relay output;........................................................................................................................... 19

4.2.4 Analog input............................................................................................................................ 20

4.2.5 Analog output.......................................................................................................................... 21

4.2.6 Voltage supply ........................................................................................................................ 22

5 Safety module X2B........................................................................................................................................ 26

5.1 Safety manual type 5 ............................................................................................................................ 26

Table of Contents KEB Automation KG

iv ma_dr_f6-cu-p-inst-20182705_en

6 Diagnosis/visualisation X4A ........................................................................................................................ 27

6.1 Assignment of the terminal strip X4A.................................................................................................... 27

6.2 Data cable RS232 PC-Drive Controller................................................................................................. 27

6.3 USB-serial converter............................................................................................................................. 28

6.4 Connection of the RS485 interface ....................................................................................................... 28

7 Fieldbus interfaces........................................................................................................................................ 29

7.1 Type code fieldbus................................................................................................................................ 29

7.2 CAN....................................................................................................................................................... 29

7.3 Ethernet fieldbus interface .................................................................................................................... 30

7.3.1 EtherCAT ................................................................................................................................ 30

7.4 RS485 potential-free ............................................................................................................................. 32

8 Encoder interfaces ........................................................................................................................................ 34

8.1 Type code encoder interface................................................................................................................. 34

8.2 Multi-Encoder-Interface......................................................................................................................... 34

8.3 Input signals.......................................................................................................................................... 35

8.4 Encoder sockets X3A/X3B.................................................................................................................... 36

8.5 Encoder cable length ............................................................................................................................ 36

8.6 Description of the encoder interfaces.................................................................................................... 37

9 Brake control and temperature detection ................................................................................................... 39

9.1 Brake control......................................................................................................................................... 39

9.2 Temperature detection.......................................................................................................................... 40

9.2.1 Operation without temperature detection................................................................................ 41

9.2.2 Connection of a KTY sensor................................................................................................... 41

9.2.3 Connection of PTC, temperature switch or PT1000 ............................................................... 41

10 Revision History ............................................................................................................................................ 43

Glossary ......................................................................................................................................................... 44

Index ............................................................................................................................................................... 46

List of Figures

ma_dr_f6-cu-p-inst-20182705_en 5

List of Figures

Abb. 1 Pin assignment socket D-Sub-9 (top view) ............................................................................................ 27

Abb. 2 Serial cable for the connection to a PC.................................................................................................. 27

Abb. 3 Connection CAN bus.............................................................................................................................. 29

Abb. 4 RJ45 socket front view ........................................................................................................................... 31

Abb. 5 RJ45 socket front view ........................................................................................................................... 33

Abb. 6 Assignment of the input signals (as difference signals) ......................................................................... 35

Abb. 7 Encoder cable length ............................................................................................................................. 37

Abb. 8 Connection of a brake ............................................................................................................................ 40

List of Tables KEB Automation KG

6 ma_dr_f6-cu-p-inst-20182705_en

List of Tables

Tab. 1 Connector sets ....................................................................................................................................... 13

Tab. 2 Overview Connection and control elements........................................................................................... 13

Tab. 3 LEDs at power on................................................................................................................................... 14

Tab. 4 Function VCC LED................................................................................................................................. 15

Tab. 5 Function NET ST - LED ......................................................................................................................... 15

Tab. 6 Function DEV ST - LED ......................................................................................................................... 15

Tab. 7 Function OPT - LED............................................................................................................................... 15

Tab. 8 Wire-end ferrules and stripping length ................................................................................................... 16

Tab. 9 Assignment of the terminal strip X2A ..................................................................................................... 17

Tab. 10 Calculation the current consumption...................................................................................................... 22

Tab. 11 Serial interfaces ..................................................................................................................................... 27

Tab. 12 Connecting cable ................................................................................................................................... 27

Tab. 13 PIN assignment RJ45 EtherCAT............................................................................................................ 31

Tab. 14 Function of the LEDs.............................................................................................................................. 31

Tab. 15 Error status list ....................................................................................................................................... 32

Tab. 16 PIN assignment RJ45 RS485 potential-free .......................................................................................... 33

Tab. 17 Assignment of the encoder sockets X3A and X3B................................................................................. 36

Tab. 18 Encoder specifications ........................................................................................................................... 37

Tab. 19 Assignment of the terminal block X1C ................................................................................................... 39

Tab. 20 Connection examples ............................................................................................................................ 41

Introduction | 1

ma_dr_f6-cu-p-inst-20182705_en 7

1 Introduction

The described devices, accessories, hardware and/or software are products of

KEB Automation KG. The enclosed documents correspond to conditions valid at

printing. Misprint, mistakes and technical changes reserved.

1.1 Markings

1.1.1 Warnings

Certain operations can cause hazards during the installation, operation or there-

after. There are safety informations in the documentation in front of these opera-

tions.

Warnings contain signal words for the severity of the hazard, the type and/or

source of the hazard, the consequence of non-compliance and the measures to

avoid or reduce the hazard.

GEFAHR Type and/or source of the hazard.

Leads to death or serious bodily injury if not observed.

a) Measures to avoid the hazard.

b) Can be supplemented by an additional danger sign or pictogram.

WARNUNG Type and/or source of the hazard.

May cause death or serious injury if not observed.

a) Measures to avoid the hazard.

b) Can be supplemented by an additional danger sign or pictogram.

VORSICHT Type and/or source of the hazard.

May cause bodily injury if not observed.

a) Measures to avoid the hazard.

b) Can be supplemented by an additional danger sign or pictogram.

ACHTUNG Type and/or source of the hazard.

Can cause damage to property if not observed.

a) Measures to avoid the hazard.

b) Can be supplemented by an additional danger sign or pictogram.

1.1.2 Information notes

Indicates to the user a special condition, prerequisite, scope or simplifica-

tion.

This is a reference to further documentation with barcode

for smartphones and link for online users.

https://www.keb.co.uk/nc/search

1 | Introduction KEB Automation KG

8 ma_dr_f6-cu-p-inst-20182705_en

Notes on conformity for use in the North American or Canadian mar-

ket.

1.1.3 Symbols and markers

üCondition

a) Action step

ðResult or intermediate result

Hyperlink

Lexicon entry

1.2 Laws and guidelines

KEB Automation KG confirms with the CE mark and the EU declaration of conform-

ity, that our device complies with the essential safety requirements.

The EU declaration of conformity can be downloaded on demand via our website.

1.3 Warranty and liability

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

device is given in the general conditions of sale.

Here you will find our general sales conditions.

https://www.keb.co.uk/terms-and-conditions

Further agreements or specifications require a written confirmation.

1.4 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

detailed 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 beyond of our control and

therefore exclusively the responsibility of the customer.

The information contained in the technical documentation, as well as any user-spe-

cific advice in spoken and written and through tests, are made to best of our know-

ledge and information about the intended use. However, they are considered for in-

formation only without responsibility and changes are expressly reserved, in partic-

ular due to technical changes. This also applies to any violation of industrial prop-

erty 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 carried out within the scope of 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 modified.

1.5 Copyright

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 re-

main valid in its entirety.

Introduction | 1

ma_dr_f6-cu-p-inst-20182705_en 9

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

their respective owners.

1.6 Validity of this manual

This part of the instruction manual describes the implemented control card. It

• is only valid in conjunction with the instructions for use of the power part.

• contains only supplementary safety instructions.

• if certain functions or properties are version-dependent, this is indicated at the

appropriate place. The version number of the COMBIVERT can be found in

brackets after the material number.

2 | General Safety Instructions KEB Automation KG

10 ma_dr_f6-cu-p-inst-20182705_en

2 General Safety Instructions

The products are developed and built according to the state of the art and recog-

nized safety rules. Nevertheless, their use may create dangers to life and limb of

the user or third parties or damage to the machine 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-specific 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.

ACHTUNG Hazards and risks through ignorance!

a) Read the instructions for use.

b) Observe the safety and warning instructions.

c) Ask if something is unclear.

2.1 Installation

GEFAHR Electrical voltage at terminals and in the device!

Danger to life due to electric shock !

üFor any work on the device

a) Switch off the supply voltage.

b) Secure it against switching on.

c) Wait until all drives has been stopped in order that no regenerative energy can

be generated.

d) Await capacitor discharge time (min. 5 minutes). Measure DC voltage at the

terminals.

e) Never bridge upstream protective devices. Also not for test purposes.

ACHTUNG Use of unsuitable voltage sources!

Electric Shock!

a) Use for the connection only suitable voltage sources with safe isolation (SELV/

PELV) in accordance with VDE 0100 with nominal voltage of DC 24 V ±10 %.

b) Pay attention on a sufficient overvoltage category of the voltage supply.

c) With existing or newly wired circuits the person installing the units or machines

must ensure that the PELV requirements are met.

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

tions:

• 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 specified minimum/maximum values for the application.

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

with EN 61800-5-1) all control lines must be included in other protective meas-

ures (e.g. double insulation or shielded, earthed and insulated).

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

equipotential bonding exists between the components to be connected (e.g. by

the equipotential line). Disregard can cause destruction of the components by

equalizing currents.

General Safety Instructions | 2

ma_dr_f6-cu-p-inst-20182705_en 11

2.2 Start-up and operation

The start-up (i.e. the starting of normal operation) is prohibited until the machinery

has been proved to conform to the provisions Directive 2006/42/EG and Directive

2014/30/EU; EN 60204-1 must be observed.

WARNUNG Wrong parameterization

Unintentional behaviour of the drive

üDuring initial start-up or replacement of the drive controller

a) Secure motors against automatic restart.

b) Check whether the appropriate parameter list for the application has been im-

ported.

WARNUNG Software protection functions as sole protection.

Protection function in case of software problems without function.

üSecuring a unit solely with software-supported functions is not sufficient.

a) Install external protective measures (e.g. limit switch) that are independent of

the drive controller.

2.3 Maintenance

3 | Product description KEB Automation KG

12 ma_dr_f6-cu-p-inst-20182705_en

3 Product description

3.1 Description of the control board PRO

Die Steuerkarte PRO stellt folgende Grundfunktionen zur Verfügung:

• Digital and analog inputs and outputs

• Serial diagnostic interface for connection to a PC

• Hardware of the control circuit „safety separated“ according to EN 61800-5-1

• Brake control, supply and feedback

• Motor protection by I²t, KTY, PT1000 or PTC input

• Internal supply of the control board possible.

• External supply of the control board

3.2 Variants of the control board Pro

Der 11-stellige Typenschlüssel zeigt die Varianten der Steuerkarte an. Nicht aufgeführte

Stellen sind für diese Anleitung ohne Bedeutung.

1. and 2. digit Device size

10…33 For motor power from 2.2…450 kW

3. and 4. digit Series

F6 COMBIVERT F6

5. digit Control type

P PRO

6. digit Variants

4 reserved

5 Safety module type 5

7. digit Housing

8. digit Connection, voltage, options

9. digit Switching frequency, software current limit, overcurrent

10. digit Control board variant

3 PRO | Multi encoder interface, CAN®, Ethernet fieldbus interface, RS485 po-

tential-free

4 PRO | no encoder interface, CAN®, Ethernet fieldbus interface, safe relay

5 PRO | Multi encoder interface, CAN®, Ethernet fieldbus interface, safe relay

11. digit Heat sink version

3.3 Accessories

To be able to use preassembled cables provided by the customer, the connectors of the

control are optionally available. The following connector sets are available according to

the used options:

Product description | 3

ma_dr_f6-cu-p-inst-20182705_en 13

Control board Set contains Material number

PRO terminal strip 28-pole

terminal strip 10-pole ter-

minal strip 8-pole

00F6V80-005P

Tab.1: Connector sets

3.4 Connection and control elements

X2A

NET ST

VCC

DEV ST

X2B

X4A

X4C

X4B S1

X3BX3AX1C

FS ST

OPT

X1C Temperature monitoring, brake

control/ monitoring

X2A Control terminal block for digital in-

puts/outputs; 24V supply; relay out-

put;analog inputs and outputs;CAN

bus

X2B Safety module

X3A Encoder interface channel A

X3B Encoder interface channel B

X4A Diagnostic interface with

RS232/485 interface according to

DIN 66019II protocol; operator slot

X4B Fieldbus input / port 0 / RS485 po-

tential-free

X4C Fieldbus output / Port 1

S1 Rotary coding switch 1 (Low-Byte)

S2 Rotary coding switch 2 (High-Byte)

FS ST LED Safety state

VCC LED voltage supply (24V)

NET ST LED network / fieldbus status

DEV ST LED Inverter / device status

OPT optional

Tab.2: Overview Connection and control elements

3.5 Motor monitoring X1C (temperature, brake)

The terminal block X1C is a 10-pole, pluggable terminal block with spring-cage connec-

tion. It contains:

• 2 outputs for control of 24V motor brakes

• 2 control inputs for brakes or relays

• 1 analog input for temperature detection

3.6 Control terminal strip X2A

The control terminal strip X2A is a 28-pole pluggable, double-row terminal strip with

spring-cage connection. It contains:

3 | Product description KEB Automation KG

14 ma_dr_f6-cu-p-inst-20182705_en

• 8 digital inputs

• 2 digital outputs

• 1 Relay output

• 2 analog inputs (plus 1 switchable analog input)

• 1 analog output

• CAN bus interface

• 24V input and output

3.7 Safety terminal block X2B

The design of the terminal strip X2B depends on the safety module. The description is

given in a separate manual for the safety module.

3.8 Encoder interfaces X3A, X3B

Der COMBIVERT contains two universal encoder interfaces. The interfaces can be adap-

ted independently to different encoders.

3.9 Diagnostic interface X4A

The integrated RS232/485 interface serves for the connection of service tools (e.g. COM-

BIVIS) displays or the F6 operator. Telegram DIN 66019II is used as communication pro-

tocol.

3.10 Fieldbus interface X4B

The fieldbus interface X4B supports the following protocols:

•EtherCAT IN (fieldbus; Variant 4 and 5 only)

• Ethernet (fieldbus)

• RS485 potential-free (only variant 3)

3.11 Fieldbus interface X4C

The fieldbus interface X4B supports the following protocols:

•EtherCAT OUT (fieldbus; Variant 4 and 5 only)

• Ethernet (fieldbus)

3.12 Rotary coding switch S1, S2

If the CAN protocol is active, the rotary coding switches S1 (low byte) and S2 (high byte)

define the node ID. If both switches are set to "0" or a faulty node ID is set, the node ID

from fb64 is active.

The rotary coding switch is only available at variants 4 and 5.

3.13 Status LEDs

3.13.1 Boot display

Before the LEDs start their normal function, they signal the boot procedure after switching

on:

LEDs Status Note

VCC

NET

DEV

OPT

off Device off

Product description | 3

ma_dr_f6-cu-p-inst-20182705_en 15

LEDs Status Note

VCC

NET

DEV

OPT

Initialization Control is supplied with 24 V

VCC

NET

DEV

OPT

ready for operation Device is ready for operation and the LEDs start

with their normal function (approx. 3 s)

Tab.3: LEDs at power on

3.13.2 VCC - LED

VCC LED colour Description

off - Power supply of the control card switched off.

on green Control is supplied with 24 V.

Tab.4: Function VCC LED

3.13.3 NET ST - LED

NET ST LED colour Description

off - Device off or booting.

Blink

code

various depending on fieldbus => fieldbus interfaces.

Tab.5: Function NET ST - LED

3.13.4 DEV ST - LED

DEV ST LED colour Description

off - Device off or booting.

on red Error

on yellow No error, DC link not loaded.

on green no error, ready for operation.

flashing green No error, is used for identification of the unit (fb32).

Tab.6: Function DEV ST - LED

3.13.5 OPT - LED

OPT LED colour Description

- - reserved for options.

Tab.7: Function OPT - LED

4 | Connection of the control KEB Automation KG

16 ma_dr_f6-cu-p-inst-20182705_en

4 Connection of the control

Observe the following instructions to avoid malfunctions!

• Install control cables and power cables separately (approx. 10…20 cm distance);

Lay crossings in a right angle.

• In case of inductive load on the relay outputs a protective wiring must be

provided (e.g. free-wheeling diode).

• Electro magnetic interferences can be prevented by the following measures:

– Always use twisted and shielded cables for analog control lines. Connect

the shield at one side at the signal source.

– Twist digital control cables. Up from 3 m a shield may be required. In this

case connect the shield at both ends.

– Connect the shield of the brake and temperature monitoring together with

the motor shield. Leave the inner shields longer in order to avoid interfer-

ence coupling or decoupling (the latter during temperature measurement)

as far as possible.

The terminals of the control terminal block, enocder inputs and communication in-

terface are securely isolated in accordance with EN 61800-5-1.

4.1 Assembly of wires

ACHTUNG Loose and slack cable connections!

Malfunctions due to loose contacts.

a) Observe metal sleeve length and stripping length according to table.

b) Use a suitable pressing tool.

c) Make sure that all wires are inserted into the wire-end sleeve.

d) After inserting the cable into the terminal, check that it is firmly seated.

Cross-section Wire-end ferrule Metal sleeve

length

Stripping length

0.5 mm² with plastic collars 10 mm 12 mm

0.75 mm² 12 mm 14 mm

1.0 mm² 12 mm 15 mm

1.5 mm² without plastic col-

lars

10 mm 10 mm

0.2…1.5 mm²

ein- oder

feindrähtig

without wire-end

ferrule

- 10…12 mm

Tab.8: Wire-end ferrules and stripping length

Connection of the control | 4

ma_dr_f6-cu-p-inst-20182705_en 17

4.2 Terminal strip X2A

PIN Name Description

1 DI1 / AN3 Digital input 1 / analog input 3 (switchable via software)

2 DI2 Digital input 2

3 DI3 Digital input 3

4 DI4 Digital input 4

5 DI5 Digital input 5

6 DI6 Digital input 6

7 DI7 Digital input 7 (fast input => see programming manual)

8 DI8 Digital input 8 (fast input => see programming manual)

9 0V Reference potential for digital output

10 DO1 Digital output 1

11 0V Reference potential for digital output

12 DO2 Digital output 2

13 RLB Relay output / NC contact (no function at relais variant „relay with positively driven contacts“)

14 RLA Relay output / NO contact

15 RLC Relay output/ switching contact

16 24Vout DC voltage output 24V (max. 100 mA together with terminal 26) for control the inputs (SELV).

17 AN1- non-isolated difference input 1

18 AN1+ Non-isolated difference input 1

19 AN2- non-isolated difference input 2

20 AN2+ Non-isolated difference input 2

21 0V Reference potential for analog inputs and outputs

22 ANOUT Analog output DC 0…10 V

23 CAN low CAN bus ISO High Speed according to ISO/DIN 11896 => fieldbus interfaces

24 CAN high CAN bus ISO High Speed according to ISO/DIN 11896 => fieldbus interfaces

25 CAN GND CAN ground isolated => fieldbus interfaces

26 24VoutCtrl DC voltage output 24V for supply the control board (SELV). Attention, do not link with voltag

supplies of other devices!

27 0V Reference potential for P24Vin at external supply

28 P24Vin Voltage output DC 24V for supply the control board and the brake

Tab.9: Assignment of the terminal strip X2A

4.2.1 Digital Inputs

Specification Number 8

4 | Connection of the control KEB Automation KG

18 ma_dr_f6-cu-p-inst-20182705_en

Name DI1…DI8

Terminals X2A.1…X2A.8

Classification Type 3 in accordance with DIN EN 61131-2

Low level (logical 0) -3 … +5 V / 3 mA

High level (logical 1) 11 … 30 V / 2 … 6 mA

Special features DI1 is switchable via software as analog input

AN3.

Connection Internal voltage supply External voltage supply

4 6 8

1 5 7 16

4 6 8

1 5 7 9

4.2.2 Digital Outputs

Specification Number 4 (2 at X2A and 2 at X2B)

Name DO1 … DO4

Terminals X2A.10, X2A.12

Type 24 V high-side switch

Classification DIN EN 61131-2

Output voltage Minimum P24Vin – 3 V

maximum P24Vin

Output current Maximum 100 mA per output (short-circuit proof)

Special features only ohmic load; no internal free-wheeling path

Connection of the control | 4

ma_dr_f6-cu-p-inst-20182705_en 19

Connection Connection appliance Connection external control

119

10 12

COMDI1DI2

ext.

4.2.3 Relay output;

The relay output is depending on the ordered variant => Variants of the control

board Pro [}12].

• Relay output 3-pole

• Safe relay 2-pole with positive-driven contacts

4.2.3.1 Relay output 3-pole

Specification relay output 3-pole Number 1

Name R1

Terminals X2A.13 (NC contact)

X2A.14 (NO contact)

X2A.15 (switching contact)

Type 3-pole, switching contacts

Voltage Maximum DC 30 V

Current 0.01…1 A

Switching cycles 108 mechanical

500,000 at 30 V / 1 A

Special features Only ohmic load; no internal free-wheeling path

Connection relay output 3-pole Connection relay output 3-pole

13 15

4 | Connection of the control KEB Automation KG

20 ma_dr_f6-cu-p-inst-20182705_en

4.2.3.2 Relay output 2-pole

Specification safe relay 2-pole

with positive-driven contacts Number 1

Name R1

Terminals X2A.14; X2A.15

Type 2-pole, NO contact

Switching voltage (rated) DC 24 V

Current 0.01…1 A

Switching frequency 0.1 Hz

Switching cycles 10,000,000 mechanical

500.000 at 30 V / 1 A

Delay time Switch on (close) maximum 50 ms

switch off (open) maximum 50 ms

Special features Only ohmic load; no internal free-wheeling path;

control only via safety module

WARNUNG No internal protection of the relay contacts!

Welding of the relay contacts due to inadmissible overload!

a) Limit the current by the normally open contact to 2 A (e.g. by using a fuse type

2A gG).

b) Observe further instructions in the safety manual.

Connection safe relay 2-pole with

positive-driven contacts Connection safe relay 2-pole with positive-driven contacts

4.2.4 Analog input

4.2.4.1 Differential input

ACHTUNG No potential separation of the analog inputs to the control voltage!

Malfunction or defect caused by voltage differences.

a) A potential equalizing line between analog value source and analog input is re-

quired if the analog value is outside the common mode range.

b) Connect potential equalizing line with 0V of the control terminal block.

Specification (differential inputs) Number 2

Name AN1, AN2

Terminals X2A.18 (AN1)

X2A.20 (AN2)

Classification Non-isolated differential input

Other manuals for COMBIVERT F6

Table of contents

Other KEBCO Industrial Electrical manuals

KEBCO

KEBCO COMBIVERT F5 Instructions for use

Popular Industrial Electrical manuals by other brands

Eaton

Eaton COOPER POWER SERIES installation instructions

Tyco Electronics

Tyco Electronics AMP 3K Customer's manual

schmersal

schmersal AZM201Z-CC-T-1P2PW-DU manual

Murata

Murata GJM0335C1E6R5CB01 Series Reference sheet

Murata

Murata GRM0335C1H8R3DA01 Series Reference sheet

Murata

Murata GRM188R71H332MA01 Series Reference sheet

Murata

Murata GRM0225C1E8R0CA03 Series Reference sheet

Murata

Murata GRT31CC80J226KE01 Series Reference sheet

ABB

ABB 6AGC085345 installation manual

Murata

Murata GRM186R60G226ME15 Series Reference sheet

Murata

Murata GRM1885C1H6R5CA01 Series Reference sheet

Rockwell Automation

Rockwell Automation Allen-Bradley PowerFlex 700 Drive Frame 9 installation instructions

Eaton

Eaton DIULM7 Instruction leaflet

Elektro-Automatik

Elektro-Automatik ELR 9000 HP operating manual

Peter electronic

Peter electronic VB 230-6LT Assembly and commissioning instructions

ABB

ABB SACE Emax 2 E2.2 manual

Murata

Murata GRM21BR71C475KE51 Series Reference sheet

Kemo Electronic

Kemo Electronic M091A Connection Example

KEBCO COMBIVERT F6 User manual

Popular Industrial Electrical manuals by other brands