WAGO ETS3 Plugin

for the Configuration of WAGO KNX Devices

User Manual

Technical description

Version 1.0.

6

ii •

General

Copyright

© 200 8 by WAGO Kontakttechnik GmbH

All rights reserved.

WAGO Kontakttechnik GmbH

Hansastraße 27

D-32423 Minden

Germany

Tel.: +49 (0) 571/8 87 – 0

Fax: +49 (0) 571/8 87 – 1 69

E-Mail: [email protected]

Web: http://www.wago.com

Support

Tel.: +49 (0) 571/8 87 – 7 77

Fax: +49 (0) 571/8 87 – 87 77

E-Mail: [email protected]

Every conceivable measure has been taken to ensure the correctness and completeness of this documentation. However, as errors can never be fully excluded we would appreciate any information or ideas at any time.

We expressively point out that the software and hardware designations and brand names of individual companies used in this user manual are subject to general trade name, trade mark or patent protection.

WAGO-I/O-SYSTEM

Plugin

Table of Contents

Table of Contents • iii

1 Important Comments.................................................................................. 5

1.1.1 Copyright ............................................................................................. 5

1.2 Symbols .................................................................................................... 6

Conventions ..................................................................................... 7

1.5 Scope ........................................................................................................ 5

1.6 Abbreviations ........................................................................................... 8

2 General......................................................................................................... 9

2.1 System

ETS3................................................................................................ 10

2.3 The WAGO ETS3 Plugin....................................................................... 10

2.3.1

Access to KNX Devices via ETS ...................................................... 11

2.3.2

Data Point Types (DPTs)................................................................... 12

3 KNX/EIB/TP1 Module / KNX IP Controller.......................................... 12

3.1 Setup of the KNX Module and the KNX IP Controller ......................... 20

3.1.1

Importing the Application Program into the ETS3............................ 20

Elements ................................................................................ 22

3.2.1

The Graphical User Interface............................................................. 24

Menu ........................................................................................ 25

3.2.2.1

Menu Item "File" .......................................................................... 25

3.2.2.1.1 Exporting a Configuration File ..................................................... 27

3.2.2.1.2 Importing a Configuration File ..................................................... 28

3.2.2.2

Menu Item "View" ........................................................................ 28

3.2.2.3

Menu Item "Options".................................................................... 28

3.2.2.4

Menu Item "Help"......................................................................... 29

Menu ................................................................................ 29

3.2.3 Toolbar............................................................................................... 30

Variables............................................................................. 31

3.2.6

Associations with Group Addresses .................................................. 32

3.2.7

Available Group Addresses ............................................................... 32

3.2.8

Properties of a Selected Group .......................................................... 33

Window............................................................................... 33

3.3 Function.................................................................................................. 34

Associations ........................................................................ 34

3.3.1.1

Drag & Drop from the Main Group Window ............................... 35

3.3.1.2

Drag & Drop from the Network Variables Window .................... 35

3.3.1.3

Group Address Context Menu ...................................................... 35

3.3.1.4

Network Variables Context Menu ................................................ 37

3.3.2 Deleting

WAGO-I/O-SYSTEM 759

ETS3 Plugin

iv • Table of Contents

3.3.3

Configuration of Network Variables/Communication Objects ......... 39

3.3.3.1

Network Variables Section ........................................................... 39

3.3.3.2 Communication

Deinstallation ..........................................................................40

4 The KNXnet/IP Router............................................................................. 41

4.1 Setup of the KNXnet/IP Router..............................................................41

4.1.1

Importing the Application Program into the ETS3............................41

Menu .....................................................................................43

4.2.2

Menu Item "Help".............................................................................. 44

4.3 Function.................................................................................................. 44

4.3.1

Parameterization of the Device Settings............................................44

4.3.2 Bus

4.3.2.1

Main Groups 0 to 13 ..................................................................... 46

4.3.2.2

Main Groups 14 and 15................................................................. 46

Addressed

4.3.2.4

Telegram Confirmation of Group Oriented Telegrams ................ 46

4.3.3.1

Main Groups 0 to 13 ..................................................................... 47

4.3.3.2

Main Groups 14 and 15................................................................. 47

4.3.4

Parameterization of the KNXnet/IP Router....................................... 47

4.3.4.1

Setting the KNXnet/IP Router via BootP or DHCP ..................... 48

4.3.4.2

Manual Setting of the KNXnet/IP Router.....................................49

Index................................................................................................................ 52

WAGO-I/O-SYSTEM

Plugin

Symbols

1 Important Comments

To ensure fast installation and start-up of the units described in this manual, we strongly recommend that the following information and explanations are carefully read and abided by.

1.1.1 Copyright

This manual is copyrighted, together with all figures and illustrations contained therein. Any use of this manual which infringes the copyright provisions stipulated herein, is not permitted. Reproduction, translation and electronic and photo-technical archiving and amendments require the written consent of WAGO Kontakttechnik GmbH. Non-observance will entail the right of claims for damages.

WAGO Kontakttechnik GmbH reserves the right to perform modifications allowed by technical progress. In case of grant of a patent or legal protection of utility patents all rights are reserved by WAGO Kontakttechnik GmbH.

Products of other manufacturers are always named without referring to patent rights. The existence of such rights can therefore not be ruled out.

1.1.2 Personnel Qualification

The use of the product detailed in this manual is exclusively geared to specialists having qualifications in PLC programming, electrical specialists or persons instructed by electrical specialists who are also familiar with the valid standards. WAGO Kontakttechnik GmbH declines all liability resulting from improper action and damage to WAGO products and third party products due to non-observance of the information contained in this manual.

1.1.3 Intended Use

For each individual application, the components supplied are to work with a dedicated hardware and software configuration. Modifications are only permitted within the framework of the possibilities documented in the manuals. All other changes to the hardware and/or software and the nonconforming use of the components entail the exclusion of liability on part of

WAGO Kontakttechnik GmbH.

Please direct any requirements pertaining to a modified and/or new hardware or software configuration directly to WAGO Kontakttechnik GmbH.

WAGO-I/O-SYSTEM 759

ETS3 Plugin

6 •

Important Comments

Symbols

1.2 Symbols

Danger

Always abide by this information to protect persons from injury.

Warning

Always abide by this information to prevent damage to the device.

Attention

Marginal conditions must always be observed to ensure smooth operation.

ESD (Electrostatic Discharge)

Warning of damage to the components by electrostatic discharge. Observe the precautionary measure for handling components at risk.

Note

Routines or advice for efficient use of the device and software optimization.

More information

References on additional literature, manuals, data sheets and INTERNET pages

WAGO-I/O-SYSTEM

Plugin

1.3 Font Conventions

Italic

Italic

\

E

ND

< >

Courier

Names of path and files are marked italic i.e.: C:\programs\WAGO-IO-CHECK

Menu items are marked as bold italic i.e.: Save

A backslash between two names marks a sequence of menu items i.e.: File\New

Press buttons are marked as bold with small capitals i.e.: E

NTER

Keys are marked bold within angle brackets i.e.: <F5>

Program code is printed with the font Courier. i.e.: END_VAR

1.4 Number Notation

Number Code Example

Decimal 100

Hexadecimal 0x64

Binary '100'

'0110.0100'

Note

Within ',

Nibble separated with dots

WAGO-I/O-SYSTEM 759

ETS3 Plugin

8 •

Important Comments

Scope

1.5 Scope

This manual describes the following components:

Components

WAGO ETS3 Plugin

1.6 Abbreviations

AI

AO

DI

DO

I/O

Analog Input

Analog Output

Digital Input

Digital Output

Input/Output

WAGO-I/O-SYSTEM

Plugin

Intended Use

2 General

2.1 System Configuration

The same conditions apply as to the ETS3.0

f.

Minimal system requirement:

PC

Min. 1 Ghz processor capacity

Operating System Windows 98, Windows 2000, Windows XP (XP recommended)

Main memory

256 MB

Fixed disk storage 3 GB

Monitor

Super VGA or higher

Resolution

1024x768

Mouse

Drive

Interface

Others

recommended

-

USB, serial, KNXnet/IP controller 750-849 as router, KNXnet/IP

The plugin requires the ETS version 3.0

f or higher.

WAGO-I/O-SYSTEM 759

ETS3 Plugin

10 •

The ETS3

2.2 The ETS3

The ETS (Engineering Tool Software) was developed specifically for the planning, project design, and setup of KNX/EIB networks. The ETS has been optimized with the current version 3.0d – providing user friendly tools for the creation, maintenance, service, expansion etc. of KNX networks.

The software integrates all major components of the network, such as, lines, devices, building areas, etc. into one package that can be operated intuitively where controls and behavior of the devices can be easily planned and changed.

In addition, the software tool permits the programming and configuration of individual devices within the bus system, resulting in quick and easy changes.

Using certified standards, manufacturers in the building automation industry are able to integrate their devices into the product database of the ETS due to the manufacturer-neutral design. This manual describes such devices supplied by WAGO Kontakttechnik GmbH & Co.KG.

Further information

Additional information to the ETS can be found on the manufacturer website http://www.konnex.org

.

2.3 The WAGO ETS3 Plugin

The WAGO ETS3 PlugIn shown below represents an expansion of the ETS3 product database, for the application of WAGO products such as the

KNX/EIB/TP1 module 753-646, the KNX IP controller 750-849 and the

KNXnet/IP Router (consisting of KNX module and KNX IP controller). The

PlugIn acts as a kind of control software providing the ETS3 access to the new options of the WAGO devices and enabling their configuration.

The software has been designed with a similar look and feel for experienced

ETS users as well as structured and intuitive navigation for beginners.

An important feature of the KNX/EIB/TP1 module or controller software is the 1:1 mapping of WAGO network variables to communication objects in the

ETS. At the first assignment of a group address, the communication object is displayed within the ETS3. When the objects are unlinked, they will be hidden in the ETS.

Communication objects receive the same name as the network variable to which they are mapped. This means that the internal mapping of the WAGO software is visible in the ETS as well.

WAGO-I/O-SYSTEM

Plugin

The WAGO ETS3 Plugin

• 11

Access to KNX Devices via ETS

2.3.1 Access to KNX Devices via ETS

Attention

The ETS version 3.0d (in the following just "ETS3") will be required.

For accessing KNX devices within a bus system via ETS3, the following options are available in ETS3:

• Serial, using the COM interface, e.g., PEI 10

• Via USB

• Via ETHERNET (KNXnet/IP)

For the connection to the bus via KNXnet/IP router, couplers are required

(performing the conversion to KNX twisted-pair).

The PC used for the project design and loaded with the ETS3, must be connected to a KNX interface. The interface can then be configured in the

Extras / Options / Communication menu in the ETS3. This procedure applies to all selected connection types. More information can be found in the Help menu of the ETS3.

Fig. 2-1: ETS Connection Manager

If the KNX IP controller functions as KNXnet/IP router, it can be connected directly to a standard ETHERNET interface of the PC using a RJ45 cable.

From a technical point of view, ETHERNET is routed to twisted-pair and twisted-pair is routed to ETHERNET, using the KNX IP controller 750-849

and the KNX/EIB/TP1 modules (see chapter 4).

WAGO-I/O-SYSTEM 759

ETS3 Plugin

12 •

The WAGO ETS3 Plugin

Data Point Types (DPTs)

2.3.2 Data Point Types (DPTs)

DPTs describe defined formats of communication objects and are assigned to the same via ETS3. The following table provides an overview of the DPTs and their data structure.

DPT 1 – Boolean

Format: 1 bit

V={0.1}

Tab. 2-1: DPT 1 – Boolean

Subtype:

1,001 DPT_Switch

1,002 DPT_Bool

1,003

1,004

DPT_Enable

DPT_Ramp

1,005 DPT_Alarm

1,006 DPT_BinaryValue

1,007

1,008

DPT_Step

DPT_UpDown

1,009 DPT_OpenClose

1,010 DPT_Start

1,011 DPT_State

1,012 DPT_Invert

1,013 DPT_DimSendStyle

1,014 DPT_InputSource

DPT 2 – 1 Bit Controlled

Description:

0 1 off false disable no ramp no alarm low degrease up open stop inactive not inverted start/stop fixed on true enable ramp alarm high increase down close start active inverted cyclically calculated general

Use: only in function block (FB) general in FB only

Range: C={0.1} 0 = no control, 1 = control

V={0.1} as DPT 1.xxx

Tab. 2-2: DPT 2 – 1 Bit Controlled

Subtype:

Coding:

C V

2,001 DPT_Switch_Control

2,002 DPT_Bool_Control

2,007 DPT_Step_Control

2,008 DPT_Direction1_Control

2,003 DPT_Enable_Control

2,004 DPT_Ramp_Control

C V

2,005 DPT_Alarm_Control

2,006 DPT_BinaryValue_Control

0 0 no control value 0

2,010 DPT_Start_Control

2,011 DPT_State_Control

2,012 DPT_Invert_Control value 1 general in FB only

Use:

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• 13

Data Point Types (DPTs)

DPT 3 – 3 Bit Controlled

Format: 4

Range: C ={0,1}, V={see Coding}

Tab. 2-3: DPT 3 – 3 Bit Controlled

Subtype:

3,008 DPT_Control_Blinds

3,009 DPT_Mode_Boiler

Coding:

C VVV as1,008

Range[000b…11b]

001b...111b:Step, 000b:Break as1,014 Range:{001,010,100}

VVV Active Mode

in FB only

Use:

010 Mode1

100 Mode2

DPT 4 – Character Set bit

Coding: see

Tab. 2-4: DPT 4 – Character Set

WAGO-I/O-SYSTEM 759

ETS3 Plugin

Subtype: Range:

4,001 DPT_Char_ASCII [0…127]

4,002 DPT_Char_8859_1 [0…255]

AAAA AAAA LSN = Least Significant Nibble

MSN LSN MSN = Most Significant Nibble general

Use:

LSN

P p

¡

° À Ð à ð

± Á Ñ á ñ

¢ ² Â Ò â ò

£ ³

¤ ´

Ã Ó ã ó

Ä Ô ä ô

7 BEL ‘ 7 G W g w

¥ μ Å Õ å õ

¦ ¶ Æ Ö æ ö

§ · Ç × ç ÷

¨ ¸

© ¹

È Ø è ø

É Ù é ù

ª º Ê Ú ê ú

« » Ë Û ë û

C FF FS , < L \ l | ¬ ¼ Ì

½ Í

® ¾ Î

ø ¿ Ï

Ü ì

Ý í

Þ î

ß ï

ü

ý

þ

ÿ

14 •

The WAGO ETS3 Plugin

Data Point Types (DPTs)

DPT 5 – 8 Bit Unsigned Value bit

Range: U = [0...255] Binary Encoded

Tab. 2-5: DPT 5 – 8 Bit Unsigned Value

Subtype:

Range

(from ... to):

5,001 DPT_Scaling

5,003 DPT_Angle

[0...100]

[0...360]

5,004 DPT_Percent_U8 [0..255]

5,010 DPT_Value_1_Ucount [0...255]

Unit:

%

°

%

DPT 6 – 8 Bit Signed Value

bit

Range: -128...+127

Coding:

Use:

lsb msb

UUUUUUUU

00000000 = range min./off

00000001 = value “low”

...

11111111 = range max. general general in FB only general

Tab. 2-6: DPT 6 – 8 Bit Signed Value

Subtype:

6,010 DPT_Value_1_Count

Unit min ... max:

DPT 6 – Status with Mode

bit

Range: A, B, C, D, E = (0.1) FFF = (001b, 010b, 100b)

Use: general

Tab. 2-7: DPT 6 – Status with Mode

Subtype:

6,020 DPT_Status_Mode3

DPT 7 – 2 Octet Unsigned Value

Format: 2 octet (2 Byte)

Range: U = [0..65535]

Coding:

A, B, C, D, E

0 = set

1 = clear

FFF

001 b

= mode 0 = active

010 b

= mode 1 = active

100 b

= mode 2 = active

Tab. 2-8: DPT 7 – 2 Octet Unsigned Value

Subtype:

7,001 DPT_Value_2_Ucount

7,010 DPT_PropDataType

Unit:

Counter value

No unit in FB only

Use:

Coding:

binary binary

Use:

general in FB only

WAGO-I/O-SYSTEM

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The WAGO ETS3 Plugin

• 15

Data Point Types (DPTs)

DPT 7 – Time Period

Format: 2 octet (2 Byte)

Table

Tab. 2-9: DPT 7 – 2 Octet Unsigned Value

Subtype:

7.002 DPT_TimePeriodMsec

7.003 DPT_TimePeriod10Msec

7.004 DPT_TimePeriod10Msec

7.005 DPT_TimePeriodSec

7.006 DPT_TimePeriodMin

7.007 DPT_TimePeriodHrs

DPT 8 – 2 Octet Signed Value

Format: 2 octet (2 Byte)

Range: -32768...+32767

Range

(from ... to):

0 … 65535

0 … 655,35

0 … 6 553,5

0 … 65 535

0 … 65 535

0 … 65 535

Unit:

ms s s s min h

Coding: Use:

binary general

Tab. 2-10: DPT 8 – 2 Octet Signed Value

Subtype:

8,010 2 byte signed value

Unit:

Counter value

DPT 9 – 2 Octet Float Value

Format: 2 octet (2 Byte)

Range: -671088.64...+670760.96

Coding:

Two's complement general

Use:

Tab. 2-11: DPT 9 – 2 Octet Float Value

Subtype:

9,001 DPT_Value_Temp

Range:

-273...+670760

9,003 DPT_Value_Tempa -670760...+670760

9,004 DPT_Value_Lux 0...670760

9,005 DPT_Value_Wsp 0..670760

°C

K/h

Lux m/s

Unit:

general

Use:

9,020 DPT_Value_Volt

9,021 DPT_Value_Curr

-670760...+670760

-670760...+670760 mV mA

WAGO-I/O-SYSTEM 759

ETS3 Plugin

16 •

The WAGO ETS3 Plugin

Data Point Types (DPTs)

DPT 10 – Time

Format: 3 octet (3 Byte) for day, hour, minute, second

Tab. 2-12: DPT 10 – Time

Subtype: Range:

10,00 DPT_TimeOfDay

[0 - 7] 3 Bit

[0 - 23] 4 bit

[0 - 59] 6 bit

[0 - 59] 6 bit

Unit:

days hours minutes seconds

Coding:

d

…

7 = Sunday h m binary s

0 = no day

1 = Monday

2 = Tuesday

DPT 11 – Date

Format: 3 octet (3 Byte) for day, month, year

Range: see general

Use:

Tab. 2-13: DPT 11 – Date

Subtype:

11,00 DPT_Date

Range:

[1 - 31]

[1-12]

[0 - 99]

DPT 12 – 4 Octet Unsigned Value

Format: 4 octet (4 Byte)

Range: see

Unit:

day month year

Tab. 2-14: DPT 12 – 4 Octet Unsigned Value

Subtype: Range: Unit:

12,00 DPT_Value_4_Ucount 0..4294967295 without unit

DPT 13 – 4 Octet Signed Value

Coding:

D

M

Y general

Use:

Coding:

binary general

Use:

Tab. 2-15: DPT 12 – 4 Octet Unsigned Value

13,001

Subtype:

DPT_Value_4_Count

Range: Unit:

-2147483648

...+2147483647 without unit

Coding:

Two's complement general

Use:

WAGO-I/O-SYSTEM

Plugin

The WAGO ETS3 Plugin

• 17

Data Point Types (DPTs)

DPT 14 – 4 Octet Float Value

Format: 4 octet (4 Byte)

Range: S = {0,1}, e = [0..255], f = [0..8388607] Seeeeeee efffffff ffffffff ffffffff

Coding: as per IEEE 754

Use: general

Tab. 2-16: DPT 14 – 4 Octet Float Value

Subtype: Unit: Description:

14,000 DPT_Value_Acceleration

14,001 DPT_Value_Acceleration_Angular

14,002 DPT_Value_Activation_Energy

14,003 DPT_Value_Activity

14,004 DPT_Value_Mol

14,005 DPT_Value_Amplitude

14,006 DPT_Value_AngleRad

14,007 DPT_Value_AngleDeg

14,008 DPT_Value_Angular_Momentum

14,009 DPT_Value_Angular_Velocity

14,010 DPT_Value_Area

14,011 DPT_Value_Capacitance

14,012 DPT_Value_Charge_DensitySurface

14,013 DPT_Value_Charge_DensityVolume

14,014 DPT_Value_Compressibility m s-2 rad s

-2 mol

-1 s-1 mol

- rad

° js rad s

-1 m²

14,015 DPT_Value_Conductance

14,016 DPT_Value_Electrical_Conductivity

14,017 DPT_Value_Density

14,018 DPT_Value_Electric_Charge

14,019 DPT_Value_Electric_Current

14,020

14,021

DPT_Value_Electric_CurrentDensity

DPT_Value_Electric_DipoleMoment

14,022 DPT_Value_Electric_Displacement

14,023 DPT_Value_Electric_FieldStrength

14,024 DPT_Value_Electric_Flux

14,025 DPT_Value_Electric_FluxDensity

14,026 DPT_Value_Electric_Polarization

14,027 DPT_Value_Electric_Potential V

14,028 DPT_Value_Electric_PotentialDifference V

A

A m

-

²

C m

C m-2

V c

C m-2

C m-2 linear acceleration radioactive energy amplitude angle radiant angle degree angular momentum area

F

C m-2 capacitance charge density (surface)

C charge m²N

-1

compressibility

S=

Ω

−1 conductance

S m-1 electrical conductivity kg density

C electric charge current electric current density electric dipole moment electric displacement electric field strength electric flux electric flux density electric polarization electric potential electric potential difference

14,030 DPT_Value_Electromotive_Force

14,031 DPT_Value_Energy

14,032 DPT_Value_Force

14,033 DPT_Value_Frequency

14,034 DPT_Value_Angular_Frequency

14,035 DPT_Value_Heat_Capacity

14,036 DPT_Value_Heat_FlowRate

14,037 DPT_Value_Heat_Quantity

14,038 DPT_Value_Impedance

14,039 DPT_Value_Length

14,040 DPT_Value_Light_Quantity

14,041 DPT_Value_Luminance

14,042 DPT_Value_Luminous_Flux

14,043 DPT_Value_Luminous_Intensity

14,044 DPT_Value_Magnetic_FieldStrength

14,045 DPT_Value_Magnetic_Flux

14,046 DPT_Value_Magnetic_FluxDensity

14,047 DPT_Value_Magnetic_Moment

WAGO-I/O-SYSTEM 759

ETS3 Plugin

V electromagnetic force

J

N energy force

Hz rad s

-1 frequency

J K

-1 capacity

W

J heat flow rate heat quantity

Ω m impedance length lm s light quantity cd luminance lm luminous flux cd

A m-2

Wb

T luminous intensity magnetic field strength magnetic flux magnetic flux density

18 •

The WAGO ETS3 Plugin

Data Point Types (DPTs)

14,048 DPT_Value_Magnetic_Polarization

14,049 DPT_Value_Magnetization

14,050 DPT_Value_MagnetomotiveForce

14,051 DPT_Value_Mass

14,052 DPT_Value_MassFlux

14,053 DPT_Value_Momentum

14,054 DPT_Value_Phase_AngleRad

14,055 DPT_Value_Phase_AngleDeg

14,056 DPT_Value_Power

14,057 DPT_Value_Power_Factor

14,058 DPT_Value_Pressure

14,059 DPT_Value_Reactance

14,060 DPT_Value_Resistance

14,061 DPT_Value_Resistivity

14,062 DPT_Value_SelfInductance

14,063 DPT_Value_SolidAngle

14,064 DPT_Value_Sound_Intensity

14,065 DPT_Value_Speed

14,066 DPT_Value_Stress

14,067 DPT_Value_Surface_Tension surface

14,068 DPT_Value_Common_Temperature

14,069 DPT_Value_Absolute_Temperature

14,070 DPT_Value_TemperatureDifference

14,071 DPT_Value_Thermal_Capacity

14,072 DPT_Value_Thermal_Conductivity

14,073 DPT_Value_ThermoelectricPower

14,074 DPT_Value_Time

14,075 DPT_Value_Torque

14,076 DPT_Value_Volume

14,077 DPT_Value_Volume_Flux

14,078 DPT_Value_Weight

14,079 DPT_Value_Work

T magnetic polarization

A magnetization

A magnetomotive force kg kg s

-1

N s-1 rad

°

W cos ϕ

Pa

Ω

Ω

Ωm

H sr momentum phase angle radiant phase angle degree power power factor

Atmospheric pressure reactive impedance resistance specific resistance selfinduction solid angle speed

Pa = Nm

-2

N m

-1

°C temperature Celsius

K temperature Kelvin

K

J K

-1

W K

-1 conductivity

V K

-1 s

Nm m³ m³ s

-1

N

J time torque volume weight work

WAGO-I/O-SYSTEM

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The WAGO ETS3 Plugin

• 19

Data Point Types (DPTs)

DPT 15 – Access

Format: 4 octet (4Byte)

Tab. 2-17: DPT 15 – Access

Subtype:

15,000 DPT_Access_Data

Coding:

[D6D6D6D6 D5D5D5D5] [D4D4D4D4

D3D3D3D3] [D2D2D2D2 D1D1D1D1]

[EPDCNNN]

D6D5D4D3D2D1: binary [0 to 9]

N: binary [0 to 15]

E, P, D, C: {0,1}

D

C

N

D x

E

P

24 bit access ID code, card number or key number

On error; reading failed

Permisson

= 0 not accepted

= 1 accepted

Read Direction

= 0 from left to right

= 1 from right to left access information encrypted

= 0 no

= 1 yes index access ID code

DPT 16 –String

Format: 14 octet (14 Byte)

Coding: ASCII string general

Use:

Tab. 2-18: DPT 16 – String

Subtype:

16,00 DPT_String_ASCII

16,00 DPT_String_8859_1

Range:

same as Character String (ASCII) (1..127)4.001 same as Character String (ISO 8859-1) (0..255)4.002 general

Use:

WAGO-I/O-SYSTEM 759

ETS3 Plugin

20 •

Setup of the KNX Module and the KNX IP Controller

Importing the Application Program into the ETS3

3 KNX/EIB/TP1 Module / KNX IP Controller

The KNX/EIB/TP1 module 753-646, a.K.a. the KNX module, and the KNX IP controller 750-849 use the same ETS3 PlugIn (the controller offers additional functionality). For this reason, this description applies for both, the KNX module and the controller.

3.1 Setup of the KNX Module and the KNX IP Controller

The following chapter describes the steps required for utilizing the ETS3

PlugIn for the KNX module and the KNX IP controller (within the ETS3).

3.1.1 Importing the Application Program into the ETS3

For the import of the ETS3 PlugIn, select the corresponding vd4 file via the

F

ILE

/ I

MPORT

function of the ETS3. The ETS3 product database will be updated automatically and will then contain the KNX module and/or the KNX

IP controller. The following path is valid for the operation of the KNX module, as well as the controller.

Fig. 3-1: Importing the application module

Using the A

DD

D

EVICE

function, the required module (KNX IP controller or

KNX module) is added to the ETS3. The IP router will be discussed below.

The product finder of the ETS3 opens for the selection of the KNX module.

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Setup of the KNX Module and the KNX IP Controller

• 21

Importing the Application Program into the ETS3

Fig. 3-2: Adding the device with product finder

During the adding process, the installation routine is started automatically, integrating the ETS3 PlugIn for the KNX module or KNX IP controller into the ETS3. The following screen appears:

Fig. 3-3: Installation of the software, part 1

Please read the licensing agreement carefully and select "I accept the license agreement". Then confirm by clicking N

EXT

. Setup will now install the

PlugIn. If you do not agree with the license agreement, setup will be cancelled by clicking the C

ANCEL

button.

Note

If the ETS3 PlugIn was already installed for a KNX module, the KNX IP controller or the KNXnet/IP router, the above dialog will not appear.

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Operating Elements

Importing the Application Program into the ETS3

3.2 Operating Elements

For configuration of the device and opening of the ETS3 PlugIn user interface, select the E

DIT

P

ARAMETERS

function in the device context menu of the

ETS3.

Fig. 3-4: Opening the ETS3-PlugIn

The following window appears:

Fig. 3-5: Selecting the SYM-XML file

A SYM-XML file containing the specific configuration of the KNX module or

KNX IP controller, must be selected and loaded for operation. This file is generated with the WAGO tool "WAGO-I/O-Pro CAA".

The checkbox below the SYM-XML file entry is only enabled after specifying a SYM-XML source file. If it is checked, the current device configuration will be synchronized with the parameters specified in the SYM-XML file. If the

WAGO-I/O-SYSTEM

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Importing the Application Program into the ETS3

box is not checked, the device configuration will be overwritten with the data in the SYM-XML file. It is recommended to regularly save the respective

configurations (see chapter 3.2.2.1.1) and to activate the auto save function

(see chapter 3.2.2.3).

The module index is specified in "Settings", coresponding to the position in the hardware configuration. The first module in the node starts with Index 1.

Note

If a second KNX module is used on a KNX IP controller 750-849, the module will operate in device mode. The first KNX module is automatically set to router mode. Although the first module cannot be accessed via the IEC application (WAGO-I/O-PRO CAA), the subsequent second KNX module is addressed via index 2 (see also the manual of the KNX IP controller 750-

849).

Note

It is not possible to configure several KNX modules simultaneously. The selected module index influences the naming of the network variables (see

chapter 3.2.5).

If the correct file name including path is not displayed in the "SYM-XML file" field, the "Open file" dialog is activated by clicking on S

EARCH

, for a selection of the correct SYM-XML file.

Fig. 3-6: Selecting the SYM-XML file

Upon successful conclusion of the SYM-XML file import, the graphical user interface of the KNX module, as specified in the module index, appears.

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Operating Elements

The Graphical User Interface

3.2.1 The Graphical User Interface

The graphical user interface clearly displays all relevant data regarding the configuration of the KNX module. The main window is divided into the following sections:

Fig. 3-7: Overview ETS3 PlugIn

Legend:

1 Main menu (see chapter 3.2.2)

2 Toolbar (see chapter 3.2.3)

3 KNX data types (see chapter 3.2.4)

4 Network variables (see chapter3.2.5)

5 Association with group addresses (see chapter 3.2.6)

6 Available group addresses (see chapter 3.2.7)

7 Properties of the selected group (see chapter 3.2.8)

8 Property window (see chapter 3.3.3)

9 Percentage bar (see chapter 3.2.10)

This display structure cannot be changed, although the property window may be hidden or displayed. Also, using the mouse cursor, the individual window panes can be dragged to the desired height and width.

WAGO-I/O-SYSTEM

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3.2.2 Main Menu

The menu navigation of the PlugIn is designed as follows:

Main Menu

Fig. 3-8: Main menu

The items "File", "View" and "Help" are shown below.

3.2.2.1 Menu Item "File"

File. 3-9: Menu item "File"

Import SYM-XML file…

Save

Export configuration…

Imports one SYM-XML file, similar to 3.2,

“Selecting the SYM-XML file”

Saves the settings to the database of the

ETS3. The basic changes made via the ETS3

PlugIn (e.g. creating new groups) will be stored in the ETS3. These settings are primarily relevant for the ETS3. The menu item is first activated when changes are being performed.

Exports the current configuration as XML file

(no SYM-XML file). All settings of WAGO devices (assignment of network variables, their properties, the settings of network variables and the assignment of communication objects to group addresses, etc.) will be saved as XML file. This file is used as backup or as template for the ETS3

PlugIn. When importing this file, the predefined settings are stored in the devices and current settings will eventually be replaced.

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Operating Elements

Import configuration…

Print… current configuration. Two options are available:

Imports one configuration as XML file. This is not a SYM-XML file.

Based on group addresses (excerpt):

Fig. 3-10: Printout based on GA, shown for the KNX module

WAGO-I/O-SYSTEM

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Main Menu

Based on network variables (excerpt):

Fig. 3-11: Printout based on network variables, shown for the KNX module

Print preview…

End…

Displays a print preview. The same two view options as for Print are available.

Ends the PlugIn. If the modifications have not been saved, the software will return a prompt with the option to save the changes.

3.2.2.1.1 Exporting a Configuration File

Upon selection of "Export configuration", a dialog appears requesting the input of a freely selectable storage location. Clicking the left mouse button executes the save command and closes the dialog.

Note

It is recommended to regularly export the configuration.

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Operating Elements

3.2.2.1.2 Importing a Configuration File

Upon selection of "Import configuration", a dialog appears for the navigation to an existing configuration file. Clicking the left mouse button on O

PEN

executes the import command and closes the dialog.

Note

The export or import function provides for the recovery of previous settings after a new installation of the ETS3, or to load them to another PC.

3.2.2.2 Menu Item "View"

Fig. 3-12: Menu item "View"

Show Toolbar

Show Property window

When activated, the toolbar is displayed.

Otherwise, it will be hidden otherwise.

When activated, the property window will be displayed. Otherwise, it will be hidden otherwise.

3.2.2.3 Menu Item "Options"

The Options dialog provides the possibility to set automatic saving of the current configuration. For this, the "Activate automatic saving the configuration" checkbox must be activated. Then, a number can be entered, specifying the saving interval in minutes. Unlike the "Export configuration..." function, XML files are not saved, but the behavior of the auto-save function corresponds to the standard "Save" function and saves the changes to the

ETS3 database.

Fig. 3-13: Menu item "Options"

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3.2.2.4 Menu Item "Help"

Main Menu

Fig. 3-14: Menu item "Help"

Online help…

About…

Activates the online help

Displays information on the PlugIn

3.2.2.5 System Menu

The Windows system menu contains the following commands:

Fig. 3-15: System menu

Restore Displays the active window in its original dimensions.

Move The active window is moved on the screen.

Size

Minimize

Maximize

Close

The dimensions of the active window are changed.

The active window is displayed as an icon.

The active window is shown in full monitor size.

The active window is closed.

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Operating Elements

Toolbar

3.2.3 Toolbar

The toolbar provides a fast and convenient access to the most common functions of the main menu.

Fig. 3-16: Toolbar

Button Action

Imports a SYM-XML file, similar to 3.2, “Selecting the SYM_XML file”

Saves the settings to the ETS3. The SYM-XML file is not changed.

Prints the current configuration.

Hides/shows the property window.

Opens the Options menu

Exports the current configuration as XML file (not SYM-XML).

Imports a configuration (not SYM-XML file).

Opens the online help.

3.2.4 KNX Data Types

In the upper left corner of the screen, the window of EIB data types and EIS

types is displayed (see Fig. 3-7: Overview ETS3 PlugIn). These types

represent the data point types available in the ETS. Depending on the selected data type or EIS type, only network variables corresponding to the selected type are displayed. The KNX data type window can therefore be used as a filter for the network variables.

Fig. 3-17: Selecting EIS type 4 corresponding to EIB type DPT_Date

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Fig. 3-18: Selecting EIB type DPT_Date corresponding to EIS type 4

Note

Onle one data type can be specified as a filter at any given time. Multiple selection is not possible in the EIB data type window.

3.2.5 Network Variables

In the central position, the available network variables that can be linked to

group address from the ETS3, are listed (see Fig. 3-7: Overview ETS3

PlugIn). These network variables have a specific data point type (e.g.,

DPT_Access_Data) with an equivalent in the ETS environment (e.g.,

"Entrance access"), or "DPT_Control_Dimming" to "3 bit controlled".

The network variables may also be filtered as EIS types; corresponding to the above example, this would be "EIS 12" for "DPT_Access_Data and "EIS 2" for "DPT_Control_Dimming". DPTs/network variables of equal length are summarized in the display.

In addition, the list of network variables shows the current settings of the

network variables, e.g., "Read after reset", etc. (see chapter 3.3.3).

Note

If the first KNX module is edited, its network variables will not receive a prefix (e.g., Name: Enable2).

If a different KNX module is edited, e.g., the third, its network variables will receive a prefix (e.g., Name: KNX3_Enable2).

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Operating Elements

Associations with Group Addresses

3.2.6 Associations with Group Addresses

The window of the Associations with group addresses is located in the upper right section of the screen and shows which group addresses are currently associated with the network variable selected in the "List of network

variables" window (see Fig. 3-7: Overview ETS3 PlugIn). In addition to the

actual group address, the name of this specific address is displayed, as is the flag status. These flags are based on the ETS3, for more information please refer to the ETS3 documentation.

Fig. 3-19: Properties of selected network variables

3.2.7 Available Group Addresses

This section of the WAGO user interface displays the available group addresses in the standard ETS3 format. The tree view permits the selection of the required group address.

Note

Only one group address can be selected at a given time.

It is possible to add new group addresses. For this, the context menu of the superordinate intermediate group is opened using the right mouse button, and the "Add new group address" item is selected. The following dialog opens:

Fig. 3-20: Add new group address

The name of the group address can be freely selected. The address of the group address is combined from its main and intermediate group, and a number between 0...255, which can be set in this dialog. If the address entered has already been assigned, the ETS3 PlugIn will return a corresponding message.

WAGO-I/O-SYSTEM

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Properties of a Selected Group

Fig. 3-21: Group address already in use

In this case, a new, unassigned number must be selected.

Similar to adding a new group address, new main and intermediate groups can also be created.

3.2.8 Properties of a Selected Group

This section of the WAGO user interface displays the network variables associated with a group address highlighted in the "Available group addresses" window. It also displays the current settings of the network variables.

Fig. 3-22: Properties of highlighted group address (excerpt)

3.2.9 Property Window

The property window displays the current properties of the network variables

and permits the modification of the variables' behavior (see chapter 3.3.3

"Configuration of Network Variables/Communication Objects ).

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Function

3.2.10 Percentage bar

The percentage display indicates the relative capacity of the ETS3 PlugIn based on the following limits:

• 253 communication objects for the configuration of the controller and module

• 254 group addresses for the configuration of the controller and module

• 254 associations for the configuration in the controller and module

The percentage display results from the respective amounts.

Example:

If 253 communication objects or 254 group addresses or 254 associations are available, the system is used at 100% capacity.

If 2 communication objects are linked to 127 group addresses each, this results in 254 associations, so that the system is used at 100% capacity.

No additional assignments are possible when the system is used at 100% capacity.

3.3 Function

The principal task of the software is the visualization, and editable creation, of the association of network variables from the KNX module (or the KNX IP controller) with the group addresses of the ETS3.

Network variables and group addresses can also be easily configured.

3.3.1 Creating Associations

Four options are available for the creation of a valid association network variable <> group address. All options have the common feature of a plausibility check performed internally by the ETS3 PlugIn. Invalid association attempts are detected and reported.

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Note

When a group address is associated with a network variable, only other network variables of the same type can be linked to the group address.

Fig. 3-23: Creating an association using Drag & Drop (excerpt)

3.3.1.1 Drag & Drop from the Main Group Window

For the creation of an association from the main group window (using drag & drop), click and hold the left mouse button on the required group address.

Then drag the mouse cursor on the target network variable in the window

"List of network variables" and release the left mouse button. The source group address will now appear in the "Association to group addresses"

window of the target network variables (see Fig. 3-7: Overview ETS3 PlugIn).

3.3.1.2 Drag & Drop from the Network Variables Window

For the creation of an association from the network variables window via drag

& drop, click and hold the left mouse button on the required network variable in the "List of network variables" window. Then drag the mouse cursor to the target group address (in the group address window) and release the left mouse button. The target group address will appear in the "Association to group

address" window of the source network variables. (see Fig. 3-7: Overview

ETS3 PlugIn).

3.3.1.3 Group Address Context Menu

Upon selection of the context menu of a group address and an activation of the

"Associate with network variable ..." entry, a table with all available network variables of the project appears.

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Function

Fig. 3-24: Creating associations with several network variables

As soon as a network variable is selected, the dialog is redrawn and displays only those network variables matching those already selected if available. In the example shown, one of the "Enable" network variables was selected, resulting in a dialog displaying only the network variables matching the DPT.

Fig. 3-25: Example for the automatic filtering when selecting a network variable

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Note

Only those network variables are shown, whose type matches the current group address.

In this list, one or multiple network variables can be selected. Closing the dialog with OK generates the selected associations. If C

ANCEL

is selected, the changes are discarded. The target network variable or variables appear(s) in

the "Properties of the selected group" window (see Fig. 3-7: Overview ETS3

PlugIn).

3.3.1.4 Network Variables Context Menu

Upon selection of the context menu of a network variable and activation of the

"Associate with group address..." entry, a new "Associate network variable" dialog appears. This dialog permits the selection of a required target group address from a list of current group addresses and the creation of an association, or the direct creation of a new group address which will immediately be assocaited with the network variable.

Fig. 3-26: "Associate network variable" dialog

The target group address appears in the "Associations with group addresses"

window of the source network variables (see Fig. 3-7: Overview ETS3

PlugIn).

Note

If the address of a group address already present in the system is entered when the "New group address" option is selected, an association is created with the already existing group address. A new group address will not be created.

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Function

3.3.1.5 Error messages

Assignment errors occurring for simple connections between a group address and a network variable are displayed via the status bar.

Errors occurring for multiple assignments of group addresses to network variables are displayed as popup windows including the lists of group addresses used and showing possible causes of errors.

3.3.2 Deleting Associations

There are two options to remove an association network variable <> group address.

When a group address is selected in the group address window, the corresponding network variables are displayed in the "Properties of the selected group" window. The association can be removed by highlighting it with a left mouse click and a subsequent click on the "REMOVE" button.

Alternatively, the association can be removed by opening the association's context menu and clicking on the "Unlink network variable" or "Unlink group address" entry.

Fig. 3-27: Unlinking a network variable using the context menu (excerpt)

All deletion processes will display a security prompt prior to the final deletion, permitting cancellation of the action.

Fig. 3-28: Security prompt prior to final deletion of an association

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Configuration of Network Variables/Communication Objects

3.3.3 Configuration of Network Variables/Communication Objects

The flags are defined in the property window. Depending on whether the property window is hidden or visible, the icon in the upper left corner of the

property window will appear different (see chapter 3.2.2.2).

Fig. 3-29: Property window

Button Action

Hides the property window

Shows the property window

3.3.3.1 Network Variables Section

The currently selected network variable is displayed in the left side of the property window. A network variable can be configured for several actions.

Sending after Reset Sends the value of the communication object after a device reset. This reset occurs after a voltage reset, a node reset from the ETS and a software reset of the IEC application.

Read after Reset

Cyclical sending

Timeout

Time base

WAGO-I/O-SYSTEM 759

ETS3 Plugin

Requests the device to read the current value from the bus after a reset.

When activated, the device sends its value to the bus in intervals specified in the box to the right..

When activated, after a time interval without telegram update, the device will display a timeout on the associated FbDPT function block in the PLC.

Only active when cyclical sending or timeout is activated. Sets the time unit of the interval or timeout. Possible units are second and minute.

40 •

Software Deinstallation

Configuration of Network Variables/Communication Objects

3.3.3.2 Communication Object Section

The currently selected communication object is displayed in the right side of the property window. A communication object can be configured with several values.

Number system in dependence to the association sequence. This value cannot be changed.

Write

Transmit

Read

Send group

ETS3 flag for communication objects. See

ETS3 manual.

ETS3 flag for communication objects. See

ETS3 manual.

ETS3 flag for communication objects. See

ETS3 manual.

A group address must be available as a sending group to each communication object.

As default, the ETS3 defines the first assigned group address as "sending group".

All available group address are displayed in the dropdown menu and are selected there.

3.4 Software Deinstallation

If the software is to be removed from the system, please select the "Software" function group in your control panel. Using the uninstall function, the

"KNXTP1-IEC61131 Controller-IpRouter" entry can be removed.

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Setup of the KNXnet/IP Router

• 41

Importing the Application Program into the ETS3

4 The KNXnet/IP Router

The KNXnet/IP router routes the telegram from IP to Twisted-pair and vice versa. The KNX IP controller in combination with the first KNX module, functions as KNXnet/IP router.

4.1 Setup of the KNXnet/IP Router

The following chapter describes the steps required for utilizing the KNXnet/IP router within the ETS3. The first KNX module downstream from the KNX IP controller (and possibly downstream from other KNX incompatible modules) expands the KNX IP controller to a KNXnet/IP router. The subsequent KNX modules, if available, work in device mode.

4.1.1 Importing the Application Program into the ETS3

For the import of the ETS3 PlugIn, the corresponding vd4 file must be selected with the F

ILE

/ I

MPORT

function of the ETS3. The product database will then be updated automatically.

Fig. 4-1: Importing the application program

Using the A

DD

D

EVICE

function in ETS3, the WAGO device can be integrated into the project. The product finder of the ETS3 will be displayed for the selection of the KNXnet/IP router.

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Setup of the KNXnet/IP Router

Importing the Application Program into the ETS3

Fig. 4-2: Importing the application program, product finder

When the device in the ETS3 topology is clicked with the right mouse button, the installation routine will start. This process will be executed only once, at the first invocation.

Fig. 4-3: Software installation, part 1

Please read the license agreement carefully and select "I accept the license agreement". The dialog is then confirmed with N

EXT

. Setup now installs the

PlugIn.

Note

If the software has been installed already for a KNX module, the KNX IP controller or the KNXnet/IP router, the above dialog will not displayed.

WAGO-I/O-SYSTEM

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System Menu

4.2 Operating Elements

For the parameterization of the device, the "Edit parameter..." function in the context menu must be activated. The graphical user interface of the

KNXnet/IP router will appear:

Fig. 4-4: User interface of the KNXnet/IP router

4.2.1 System Menu

The Windows system menu contains the following commands:

Fig. 4-5: System menu

Restore Restores the active window to its original dimensions.

Move Moves the active window on the screen.

Size

Minimize

Maximize

Close

WAGO-I/O-SYSTEM 759

ETS3 Plugin

Changes the dimensions of the active window.

Displays the active window as an icon.

Displays the active window over the whole screen.

Closes the active window.

44 •

Function

Menu Item "Help"

4.2.2 Menu Item "Help"

Fig. 4-6: Menu item "Help"

Help Index... Open the online help

About... Displays information to the PlugIn

4.3 Function

The principal task of the software is the setup of the KNXnet/IP router and its adaptation to the network.

4.3.1 Parameterization of the Device Settings

In the device settings section of the user interface, general data, such as device name, project number or installation number can be viewed and defined.

Fig. 4-7: Device settings of the KNXnet/IP router

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Parameterization of the Device Settings

This data can be modified with the following limitations:

• the device name must not have more than 30 characters

• the project number must be within the value range 1...4096

• the installation number must be within the value range 1...15

• the behavior on bus voltage loss can be set

A tunneling address must also be entered for the communication of the KNX devices via multicast communication.

Note

The project and installation numbers provide for the compatibility of future

ETS development and should have the value 0 for current ETS projects.

Note

Erroneous entries will not be saved.

Note

The project number of the above dialog is not identical with the project number assigned in the ETS3.

Caution

The physical address (tunneling address) must originate in the line to which the KNXnet/IP router will be coupled, i.e.

Physical address: 1.3.XXX, where X must be a number between 0 and 255..

Caution

The tunneling address is not managed by the ETS3. For this reason, the ETS3 cannot prevent a double assignment of the same physical address and it is recommended to use an address in the upper value range (e.g. 1.1.254, or similar).

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Bus IP Settings

4.3.2 Bus ! IP Settings

This section describes the settings used to filter and confirm the telegrams that are transmitted from the bus to the IP.

Abb. 4-8: Bus->IP settings

4.3.2.1 Main Groups 0 to 13

Filtering telegrams of main groups 0 to 13 can be set as follows:

• Filter (normal): Filtering is done using the filter table.

• Transmit: All telegrams are forwarded.

• Block: All telegrams are blocked.

4.3.2.2 Main Groups 14 and 15

Filtering telegrams of main groups 14 and 15 can be set as follows:

• Transmit: All telegrams are forwarded.

• Block: All telegrams are blocked.

4.3.2.3 Individually Addressed and Broadcast Telegrams

Filtering individually addressed and broadcast telegrams can be set as follows:

• Filter (normal): Filtering is done using the filter table.

• Transmit: All telegrams are forwarded.

• Block: All telegrams are blocked.

4.3.2.4 Telegram Confirmation of Group Oriented Telegrams

This section describes the settings used to confirm group oriented telegrams:

• Only if routed: All routed telegrams are confirmed.

• Always: All telegrams are confirmed.

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IP Bus Settings

4.3.3 IP ! Bus Settings

This section describes the settings used to filter and confirm the telegrams that are transmitted from the IP to the bus.

Abb. 4-9: IP->Bus settings

4.3.3.1 Main Groups 0 to 13

Filtering telegrams of main groups 0 to 13 can be set as follows:

• Filter normal: Filtering is done using the filter table.

• Transmit: All telegrams are forwarded.

• Block: All telegrams are blocked.

4.3.3.2 Main Groups 14 and 15

Filtering telegrams of main groups 14 and 15 can be set as follows:

• Transmit: All telegrams are forwarded.

• Block: All telegrams are blocked.

4.3.3.3 Individually Addressed and Broadcast Telegrams

Filtering individually addressed and broadcast telegrams can be set as follows:

• Filter normal: Filtering is done using the filter table.

• Transmit: All telegrams are forwarded.

• Block: All telegrams are blocked.

4.3.4 Parameterization of the KNXnet/IP Router

For proper integration of the device into the network, the KNXnet/IP router requires an IP address. In combination with the subset mask, the IP address uniquely defines the device in the network and is, therefore, the most important property of any network device.

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Parameterization of the KNXnet/IP Router

Fig. 4-10: KNXnet/IP parameters of the KNXnet/IP router

There are four methods to assign an IP address to the KNXnet/IP router, explained below.

4.3.4.1 Setting the KNXnet/IP Router via BootP or DHCP

Besides manual address allocation, two other options are available to automatically assign an IP address to the KNXnet/IP router. Common to both versions is that they independently assign a valid IP address to the KNXnet/IP router, only the configuration on the server side must be adjusted by the system administrator if required.

BootP

The "bootstrap protocol" BootP, which communicates based on UDP, assigns required data, such as IP address, subnet mask, etc., to a coupler or controller during the boot process. For this process, a BootP server is required. During booting, a client sends an UDP request as a broadcast to the available network to which the BootP server responds. It then returns a packet with the required data to the client. The BootP server is not necessarily required to be located in the same subnet as the client, however, in this case,a BootP gateway will be required.

DHCP

DHCP is a further development of BootP. Whereas BootP assigns IP addresses from an address table to the clients and cannot accept further clients when all addresses from the table have been assigned, DHCP offers the benefit of a possible dynamic assignment.

DHCP assignment techniques

• Static assignment

This assignment corresponds to the assignment by BootP. Each client always receives the same address.

• Automatic assgniment

The server receives a list of IP addresses (defined by addressing space and subnet masks) from which it assigns a free address to a client. The client receives this address for an unlimited time.

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Function

• 49

Parameterization of the KNXnet/IP Router

• Dynamic assignment

Similar to the automatic assignment, but after a defined time, the client loses its IP address.

In all previously mentioned cases, it is mandatory to enter the MAC address which enables a globally unique assignment of a network device. The MAC address is shown on the address label at one side of the KNXnet/IP controller.

Fig. 4-11: MAC address on the controller

A routing multicast address representing an IP address must also be defined

(see chapter 4.3.4.2).

4.3.4.2 Manual Setting of the KNXnet/IP Router

If the KNXnet/IP router is to be configured manually, the following data are required from the network administrator:

• IP address

• Subnet mask

• Standard gateway

• Routing multicast address

• MAC address

An IP address (Internet Protocol address) is a number for the addressing of computers and other devices in an IP network.

The subnet mask is a bit mask separating an IP address into a network and a device or host component. They are used in IP networks for routing decisions.

The gateway is a device which switches as interface between the various transmission protocols; depending on the network structure, it may have different features but it is valid for the whole network.

WAGO-I/O-SYSTEM 759

ETS3 Plugin

50 •

Function

Parameterization of the KNXnet/IP Router

The IP routing mulitcast address is used for the routing of telegrams to IP. The multicast IP address 224.0.23.12 was reserved by IANA (Internet Assigned

Numbers Authority) for this purpose (KNXnet/IP or EibNet/IP). If a different multicast IP address is required, it must originate in the range 239.0.0.0 to

239.255.255.255.

The "IP parameter setting" checkbox defines the plug-in's behavior. If the checkbox is deactivated, manual parameter setting is not allowed and the settings will not be downloaded to the device. However, if the checkbox is activated, the user will be allowed to set the parameters manually.

The "Scan IP" button allows users to search the network for the IP address of the router that is specified by the MAC address. If no suitable device is for

MAC address, this will be indicated. Automatic device search is also performed directly after opening the parameter dialog.

Further information

More information on the "Internet Assigned Numbers Authority" can be found on the website http://www.iana.org

.

An overview of reserved multicast addresses is found under http://www.iana.org/assignments/multicast-addresses .

In conclusion, the MAC address represents the unique identification of a network-capable device. This address cannot be changed. The MAC address consists of 48 bit, numbered from 47 to 0. The addresses are usually written in hexadecimal format, e.g., 00:30:DE:01:40:22.

Note

This writing convention is also used by the KNXnet/IP router, hence you should use this notation.

These parameters can be provided by the network administrator.

The following figure shows a fully configured KNX module operating as

KNXnet/IP router.

WAGO-I/O-SYSTEM

Plugin

Parameterization of the KNXnet/IP Router

Fig. 4-12: Fully configured KNXnet/IP router

The "Advanced device settings" are described in chapter 4.3.1.

4.4 Software Deinstallation

If the software is to be removed from the system, please select the "Software" function group in your control panel. Using the uninstall function, the

"KNXTP1-IEC61131 Controller-IpRouter" entry can be removed.

WAGO-I/O-SYSTEM 759

ETS3 Plugin

52 • Index

Index

A

Abbreviations · 8

Add Device · 19

Auto Save Function · 22

AutoIP · 47

Automatic Saving · 27

B

BootP · 47

C

COM interface · 11

Communication Object · 39

Configuration of Network Variables/Communication Objects · 32,

38

Coupler · 11

Creating Associations · 33

D

Data Point Type (DPT) · 12

Data Point Types (DPT) · 29

Deinstallation · 39, 50

Deleting Associations · 37

DHCP · 47

DPT 1 – Boolean · 12

DPT 10 – Time · 15

DPT 11 – Date · 16

DPT 12 – 4 Octet Unsigned Value · 16

DPT 13 – 4 Octet Signed Value · 16

DPT 14 – 4 Octet Float Value · 16

DPT 15 – Access · 18

DPT 16 –String · 18

DPT 2 – 1 Bit Controlled · 12

DPT 3 – 3 Bit Controlled · 13

DPT 4 – Character Set · 13

DPT 5 – 8 Bit Unsigned Value · 14

DPT 6 – 8 Bit Signed Value · 14

DPT 6 – Status with Mode · 14

DPT 7 – 2 Octet Unsigned Value · 14

DPT 8 – 2 Octet Signed Value · 15

DPT 9 – 2 Octet Float Value · 15

Drive · 9

E

Edit Parameters · 21

ETHERNET · 11

ETS3 · 10

ETS3 Database · 27

ETS3 Product Database · 10

Exporting a Configuration File · 26

F

Fixed disk storage · 9

Function · 33, 43

G

Graphical User Interface · 23

Group Addresses · 25, 31, 34

I

Importing a Configuration File · 27

Importing the Application Program · 19, 40

Installation · 20

K

KNX/EIB/TP1 Module 753-646 · 10, 19

KNXnet/IP Controller 750-849 · 10, 19

KNXnet/IP Router · 10, 11, 40

L

License Agreement · 20

M

Main memory · 9

Menus · 28, 42

System Menu · 28, 42

Mouse · 9

N

Network Variables · 29, 30, 34

O

Operating Elements · 21, 42

Operating System · 9

P

Parameterization · 43, 46

PC · 9

Print · 25

Product Finder · 19

R

RJ45 · 11

S

Setup · 19, 40

SYM-XML file · 21

System Configuration · 9

System Menu · 28, 42

T

Twisted-Pair · 11

U

USB · 11

User Interface · 21

W

WAGO ETS3 PlugIn · 10

WAGO-I/O-Pro CAA · 21

WAGO-I/O-SYSTEM

Plugin

WAGO-I/O-SYSTEM 759

ETS3 Plugin

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