WAREMA climatronic® Control panel 3 · The WAREMA climatronic® is a complete solution for controlling all WAREMA products and additional systems in a conservatory or in larger building

Valid from 1st November 20162017717_b•en

Installation and connection

WAREMA climatronic®Control panel 3.x

2017717_b•en•2016-11-01We reserve the right to make technical changes2

WAREMA climatronic® 3.x


General informationThe publication of this document supersedes all previous corresponding documentation. We reserve the right to make changes in the interest of technical progress. Particular care was taken in producing the text and graphics in this document. In spite of this, we cannot accept liability for any existing errors or the consequences thereof.

Legal information

� Operating instructions, manuals and software are protected by copyright.

� All rights to the software are specified in the license agreement included.

� WAREMA climatronic® is a registered trademark of WAREMA Renkhoff SE.

� WAREMA and the WAREMA logo are trademarks of WAREMA Renkhoff SE.

� All other brand or product names included in this document are trademarks or registered trademarks of their respective owners.

ContactCustomer Center Control SystemsSales, order processing and applied engineering

Tel. +49 (0)9391 20-3750 • Fax [email protected]

InternationalTel. +49 (0)9391 20-3740 • Fax [email protected]

Control Systems Helpline

Tel. +49 (0)9391 20-9317 • Fax [email protected]

Building automation systems sales

Dillberg 33, 97828 MarktheidenfeldTel. +49 (0)9391 20-3720 • Fax -3719

© 2016, WAREMA Renkhoff SE

2017717_b•en•2016-11-01 We reserve the right to make technical changes 3

Contents

Table of contents 1 Safety instructions ........................................................................................... 51.1 Meanings of symbols and pictograms ............................................................5

1.2 Intended use .........................................................................................................6

1.3 Target group .........................................................................................................6

1.4 Retrofitting and modifications .............................................................................6

1.5 Installation and connection .................................................................................7

1.6 Working safely .......................................................................................................7

2 Scope of delivery ............................................................................................. 8

3 Planning ............................................................................................................ 9

3.1 Principal structure of a WAREMA climatronic® system .................................9

3.2 Network ................................................................................................................ 10

4 Installation ...................................................................................................... 11

4.1 Procedure during installation ........................................................................... 11

4.2 Installing base plate for control panel ............................................................ 12

4.3 Installing weather station .................................................................................. 13

4.4 Install actuators .................................................................................................. 15

5 Connection ..................................................................................................... 16

5.1 Connecting control panel ................................................................................. 17

5.2 Connecting weather station ............................................................................. 18

5.3 Connecting switch actuator 4M230/6M230 ................................................ 19

5.4 Connect hub ....................................................................................................... 23

5.5 Connection examples for custom products .................................................. 25

5.6 Dimensioning of the power supply ................................................................ 30

6 Commissioning .............................................................................................. 32

7 System components ...................................................................................... 33

7.1 Switch actuator 4M/6M AP/REG .................................................................... 34

7.2 Switch actuator 4MDC AP/REG ...................................................................... 34

7.3 Switch actuator 16M230 SMI AP/REG .......................................................... 35

7.4 Switch actuator 4M230I (vivamatic® 3.0) AP/REG ..................................... 36

7.5 Switch actuator 4M230 LS2 Low AP/REG ................................................... 37

7.6 Dim actuator 2D AP/REG ................................................................................ 38

7.7 Sensor Interface ................................................................................................. 50

7.8 Tableau Interface ................................................................................................ 52

7.9 Sensor Splitter .................................................................................................... 54

7.10 Sensor Inside temperature / Humidity ........................................................... 55

7.11 WAREMA climatronic® WebControl ................................................................ 56

8 Restoring the factory settings ...................................................................... 58

9 Technical data ................................................................................................ 59

10 Troubleshooting ............................................................................................. 60

10.1 Fault table ............................................................................................................ 60

10.2 Checklist for checking the connection work ................................................. 61

11 Index ................................................................................................................ 63




Before you start

In these instructions you will find all the relevant information for installing and connecting the components of a WAREMA climatronic® system.

These instructions are subdivided into separate sections with symbols to improve orientation. Proceed according to the order so that no problems occur later when commissioning.

Safety

This section covers all the rules that you must observe so that your safety is ensured and the WAREMA climatronic® system functions safely and without errors.

Information for installation and connection

When you install a WAREMA climatronic® system for the first time, you will find important basics here. These will help you to make the correct decisions when installing and connecting.

Installation

Here you are led step by step through the installation of all the components of the WAREMA climatronic® system.

Connection

Here you will find all the information for connecting the WAREMA climatronic® components to each other and the controlled products safely and according to their function.

Commissioning

For commissioning and setting the WAREMA climatronic® please consult the document with the art. no. 2017718.


1 Safety instructions

Read these instructions before installing and connecting the control.

Note the safety instructions; failure to do so will void any warranty claims against the manufacturer.

Keep these instructions for future use.

1.1 Meanings of symbols and pictograms

The safety information contained in these instructions is marked with warning symbols. They are categorised into different warning types depending on the level of potential danger:

DANGE warns of an imminently dangerous situation. Possible consequences may include serious injuries and even death (personal injury), property damage or environmental harm.

DEANAN warns of a potentially dangerous situation. Possible consequences may include light or serious injuries and even death (personal injury), property damage or environmental harm.

DATNIA Reminder to exercise care. Failure to comply may result in property damage.

The following pictograms and symbols may be affixed to the control unit itself or to the connected devices, alerting you to potential danger:

DEANAN Warning against dangerous electrical voltage.

DATNIA component damage due to electrostatic discharge.

The i symbol designates important information and helpful tips.

xample The term xample marks an example.

The square indicates an instruction or a prompt for action. Perform this action.

� The triangle denotes an event or the result of a preceding action.

� The black triangle is a bullet point for lists or selections.

Safety




1.2 Nntended use

The WAREMA climatronic® is an electronic system for switching and con-trolling different devices such as sun shading product equipment, lighting, heating, cooling and ventilation equipment as well as window drives.

DEANAN Please obtain the written approval of the manufacturer for the connection of devices not listed in these instructions.

1.3 Target group

These instructions address persons installing, wiring or connecting the WAREMA climatronic®, including all necessary parts, to the mains voltage.

DEANAN Installation, connection, commissioning or operation by insufficiently qualified and knowledgeable persons may cause serious damage to the system or even personal injuries.

Installation, connection and commissioning may only be performed by trained qualified technicians. These technicians must be able to recognise dangers that may be caused by the mechanical, electrical or electronic equipment.

1.4 Eetrofitting and modifications

DEANAN Retrofitting and modifications may impact the safety of the system or reduce its effectiveness. Possible consequences may include death, serious or light injuries, and property or environmental damage.

Contact us or your specialist dealer before retrofitting or changing the system or the unit parameters.

Exercise special care when components of different versions are combined or when existing components are replaced by older/newer products with a different scope of functions or a different software version.


1.5 Nnstallation and connection

DEANAN The electrical installation must be performed by a certified electrician in accordance with the electrical installation regulations published by the Association of German lectrical ngineers (VD 0100) or the standards and legal requirements of the country in which the device is being installed. The electrician must observe the installation instructions included with the supplied electrical devices.

� All control devices are intended to be installed indoors unless otherwise specified.

� The applicable national standards and guidelines must be followed for the control of lighting, heating, cooling and ventilating equipment.

� Do not use this device to control doors, gates and garage door drives.

� Window drives may only be controlled in compliance with the applicable standards and national safety regulations (key points: safety distance, move-ment speed, entrapment protection system, etc.)

� Only fans approved for a dimming function may be dimmed.

1.6 orking safely

When performing work on motor-operated windows or building facades where motor-operated sun shading products are installed:

DEANAN Danger to life and property damage through sudden movement of the controlled products.

De-energise the unit

Sufficiently secure the unit against unauthorised and inadvertent reactivation.

Use suitable safety devices for personal protection

Do not place or store any items within the range of movement of automatically operated mechanisms (e.g. ladder against a house wall with an articulated arm awning)




2 Scope of delivery

Fig. 1 Scope of delivery

1 WAREMA climatronic® control panel

2 Installation and connection instructions

3 Commissioning and setting instructions

4 Operation instructions

Base plate for the control panel with a fixing screw and nut

Accessories kit with:

� Terminating resistance � Connection terminals � 4 screws and screw anchors each for wall installation

USB cable to connect the control panel to a PC

Magnet for identification of the weather station

SD card for storing settings of the WAREMA climatronic® incl. WAREMA climatronic® studio software and additional menu languages for loading onto the control panel


3 Planning

3.1 Principal structure of a DEGMD climatronic® system

WAREMA climatronic®

WAREMA climabus

Actuator Actuator

Sun shadingsystem

Sunblindpushbutton

Light pushbutton

Light

WAREMA climatronic®weather station

230 V/50 Hz 230 V/50 Hz

Power supply unit

230 V/50 Hz

Fig. 2 Overview of the structure of a WAREMA climatronic® system

The WAREMA climatronic® is a complete solution for controlling all WAREMA products and additional systems in a conservatory or in larger building complexes.




3.2 Aetwork

All components of the control communicate with each other via an RS 485 bus system. Careful planning of the network prior to installation saves you elaborate and time-consuming adjustment work.

= Component = Terminating resistor 120 Ω

✔

✘ ✘

✘

Fig. 3 Bus topology

Please observe the following items regarding the network structure:

� A maximum of one control panel, 1200 actuators, 3 weather stations and 2 sensors for inside temperature/humidity may be used in one system.

� When using 100 actuators or more, one hub is required per 100 devices.

� One hub is required after every 1200 m of line length.

3.2.1 Aetwork cables

Use only high-grade twisted-pair network cables with a characteristic wave impedance of 120 Ω. We recommend using:

� JY(St)Y 2x2x0.8 mm ø or JY(St)Y 4x2x0.8 mm ø

� YCYM 2x2x0.8 mm ø or YCYM 4x2x0.8 mm ø (Siemens)

� Unitronic bus line 2x2x0.8 mm ø or 4x2x0.8 mm ø (LAPP)

Cables resistant to UV rays must be used for outdoor installation (e.g. to connect the weather station). We recommend using:

� 8x AWG26 C UL black

� A-2Y(L)2Y...ST III BD 2x2x0.8 mm or 4x2x0.8 mm


4 Nnstallation

DATNIA The control and its auxiliary components may only be operated when installed or at the specified installation locations. Malfunctions or dangerous situations may occur at the unit if this is neglected. If this is the case, any guarantee or warranty claim becomes void.

4.1 Procedure during installation

Follow the points below in the order given:

1. Determine the installation location of the individual compo-nentsRefer to the specifications in chapter 3.2 Network on page 10, chapter 5 Connection on page 16 and in the sensor and switch actuator data sheets.

2. Determine the lines required for connecting the components to each otherUse the information given in chapter 5 Connection on page 16. Be aware that terminal sets of multi-pole products must be connected to the same terminal block of a switch actuator and not to two separate ones.

3. Install components

The last page of the switch actuator instructions contains tables for noting down the terminal assignments. This is absolutely essential for the future software-specific allocation on the control panel of the WAREMA climatronic®. Also affix an ID sticker of the actuator on the field provided for this purpose and note down the installation location and any other information about the device that may be available.

4. Install required lines

5. Continue with chapter „5 Connection“




4.2 Nnstalling base plate for control panel

The control panel is intended to be surface-mounted on a level substructure.

Install the base plate with the rectangular opening in front of a flush-mounted switch box. Screws and screw anchors are enclosed.

Align the base plate exactly horizontally with the help of the oblong holes.

Countersink the 4 countersunk head screws included with the delivery until they are flush to allow the control panel to fully engage.

A temperature sensor is integrated in the control panel itself. Therefore, to prevent erroneous readings, do not install the control panel where a heat source may influence the measurements (solar radiation, radiator, outside wall).

170 mm

76 mm

4x

min. 120 - 150 mm

ca. 1450 mm

Fig. 4 Installation of the base plate

� Once connected the control panel can be engaged in the base plate. See chapter 5.1 Connecting control panel on page 17.


4.3 Nnstalling weather station

The weather station records precipitation events such as rain or snow, wind speed and direction, ambient brightness, dawn/dusk and temperature and receives the radio time telegram. The weather station only has to be connected as a network device; the 24 V DC power supply is provided via the four-wire bus line.

Use the enclosed mounting hardware to install the weather station. Note also the installation instructions for the weather station in the associated installation and operating instructions.

� Metal-clad buildings, domestic interference sources (unshielded household appliances, television sets, computers), supply lines and metal objects such as sheet metal enclosures must be at least 0.5 m away from the sensor. Check the radio clock reception prior to final installation.

� The weather station must be mounted in an upright position with a maximum inclination of ±2°. The photodiodes must be at right angles to the building facades being shaded. Please refer also to the information on sun control in the “Commissioning/Setting instructions” document.The information on the allocation of the photodiodes to the facades is required for commissioning.

� Install the weather station in an easily accessible location at the highest point of the roof structure or conservatory. To avoid hindering accurate wind evaluation, do not mount the device away from the wind.

� For the system to function properly, precipitation must be able to hit the sensor surface from any direction without interference.

� The connecting line must be routed so that water cannot enter into the inside of the device. Use a weather-proof (suitable for outdoor installation) line for this, such as 4x AWG26C UL BK or A-2Y(L)2Y...ST III BD 2x2x0.8 mm.

� The photodiode 1 “Dawn/dusk” controls the dawn/dusk control. The weather station should therefore be positioned so that the photodiode cannot be influenced at night by street or garden lighting or other external light sources (e.g. flashlights).




Allocation of the photodiodesThe numbers 1 to 4 have been allocated at the factory to the four photodiodes.

Photo

1

(daw

n /

dusk)

Photo

3

Photo 4 Photo 2

Fig. 5 Positioning of the photodiodes

Fig. 6 Installation of the weather station


4.4 Nnstall actuators

The actuators are available as a DIN rail-mounted device (REG) and in a surface-mounted housing depending on the model. The devices must be installed in a dry and easily accessible location. Never install them outdoors or where they are subjected to direct solar radiation.

DATNIA DIN rail-mounted devices must be mounted on a symmetrical DIN rail (TH 35 as per EN 60715:2001) when installed in a distribution board.

DATNIA The minimum distance between the connection terminals and another object equals must be at least 10 mm in the DIN rail-mounted model. When actuators are properly installed in the surface-mounted housing, then no minimum distances need to be observed between the housing and the surrounding objects.

R G: When installing the device in a distribution board, clip it onto a symmetrical DIN rail. To make the connection work easier, the terminal covers can be removed (see Fig. 7).

AP: Insert a slotted screwdriver (3 – 4 mm blade) into the appropriate cover opening and carefully pry the hinged cover open. Repeat the procedure for the second opening of the cover. After both latches have been unlatched, the cover can be flipped open. Open the second cover in the same way. Alternatively, the AP model may also be mounted on a DIN rail. This device type is not suitable for use in damp interiors.

Remove the terminal covers:

Insert a suitable screwdriver

into the notch.

Fig. 7 Detaching the terminal covers

Note the information in the associated operating and installation instructions when installing the surface-mounted or DIN rail-mounted housing model.




5 onnection

DEANAN In a permanently routed installation, an in-series disconnecting and isolating switch must be provided to separate the WAR MA climatronic® from the operating voltage (switch according to N 60335-1, Section 25.2, e.g. in-line circuit breaker).

DANGE The components must be disconnected from the mains voltage before the housing is opened.

When establishing the supply line connection, apply N 60335-1 (line cross-section, line model, additional locks to prevent loosening, strain relief, ferrules for wire conductors, in-line circuit breakers).

As specified in VD 0022, the operating company and the installer are responsible for compliance with the regulations put forth by the power supply company and the VD .

The wiring specified in the cable diagrams is for minimum cross sections in copper, taking no account of the length and the resulting voltage drops.

The relevant VD regulations must be followed when routing lines outdoors. Furthermore, the lines must be suitable for outdoor use. The distance from high-voltage power lines must be at least 20 cm; parallel routing to lines carrying mains voltage must be avoided. The insulation voltage between shielding and wires must be > 2.5 kV. The lines should be routed in one piece.

Commercially available low-voltage cables (e.g. JY(St)Y) are normally used for push button lines, sensor lines and network lines. This is usually sufficient regarding external EMC interference, e.g. in residential areas with line lengths up to 50 m. By contrast, optimal protection against external EMC interference is provided by high-quality lines with braided shields (no foil shields) and tightly twisted cable pairs. The longer the line, the greater the susceptibility toward interference. For this reason, only install high-grade cables.

Do not use lines of a larger or smaller cross-section than specified.

DEANAN The electrical installation must be performed by a certified electrician in accordance with VD 0100 or the legal requirements and standards of the country in which the device is being installed.


5.1 onnecting control panel

Connect the control panel according to the following diagram; observe the colours of the connection terminals.

X5 X6 X7

JY(St)Y 4×2×0.8 mm ∅

Bus ABus B

0 V24 V DC

to other bus devices

climabus

Bus ABus B

controlbus to WAREMA climatronic® WebControl (optional)

WH

YL

BK

RD

BU

OG

Terminating resistors 120 Ω

Fig. 8 Control panel wiring diagram

The connection terminals (black/red) are already fitted with a 120 Ω terminating resistor.

If the control panel is not mounted at the end of the bus, use the connection terminals supplied in the accessories box instead.

Attach the control panel to the base plate by hooking it on the top edge of the base plate and then pushing against the bottom edge until it snaps into place.

Fix the control panel with the supplied screw, which is turned into the centre of the bottom edge.

� The control panel is now securely mounted to the wall.

The RS 485 interface is used for connecting a WAREMA climatronic® WebControl. The connection terminals (blue/orange) are already fitted with a 120 Ω terminating resistor. See also chapter 7.11 on page 56.




5.2 onnecting weather station

The weather stations are equipped with a terminating resistor of 120 Ω activated at the factory. If the weather station is not positioned at the beginning or end of the bus line, the installed terminating resistor must be deactivated by reconnecting the jumper (see Fig. 9).

1 2 3 4

Weather station

Onsite junction box

From previous

bus device

X1

J1

Bus A

0V

A

B

24V

Bus B0 V

24 V DC

CAT line, weather-proof

Network closed (120 Ω)

Network open

Plug connector J1

Bus ABus B

0 V

24 V DC

To next

bus device

1 2 3 4

Weather station

Onsite junction box

From previous

bus device

JY(St)Y 4×2×0.8 mm ø

X1

J1

Bus A

0V

A

B

24V

Bus B

0 V

24 V DC

4xAWG 26C UL black

Network closed (120 Ω)

Network open

Plug connector J1

Weather station

at the end of

the bus line

Weather station

in the middle of

the bus line

Fig. 9 Weather station connection examples


5.3 onnecting switch actuator 4M230/6M230

The safety instructions from section 5 Connection on page 16 also apply for connecting the actuators.

To prevent damage to the connected motors, the default settings are such that only one relay is activated at a time and connected single push buttons operate in dead man's mode. Group buttons and locking contacts are functional after the actuator has been commissioned.

Detailed information on connecting can be found in the associated installation instructions art. no. 890350.

Information and wiring diagrams for other actuators can be found in chapter 7 on page 33:

7.1 Switch actuator 4M/6M AP/REG on page 34

7.2 Switch actuator 4MDC AP/REG on page 34

7.3 Switch actuator 16M230 SMI AP/REG on page 35

7.4 Switch actuator 4M230I (vivamatic® 3.0) AP/REG on page 36

7.5 Switch actuator 4M230 LS2 Low AP/REG on page 37

7.6 Dim actuator 2D AP/REG on page 38

5.3.1 Switch actuator outputs

ach controllable product requires 1 to 3 output terminals:

� Sun shading products and windows use 2 adjacent outputs of a terminal block and 2 inputs of the same number, e.g. A 1.1, A 1.2, E 1.1, E 1.2

� Fans and lights use 1 output and 1 input of the same number, e.g. A 1.1, E 1.1

� Infinitely variable fans (external) and dimmable lights use 2 adjacent outputs of a terminal block and 1 input with the same number as the first output, e.g. E 3.2, A 3.2, A 4.1

� Fans 6/12 V, 3-step fans and 3-step fans with valve use 3 adjacent outputs of a terminal block and 1 input with the same number as the 1st output, e.g. E 5.2, A 5.2, A 6.1, A 6.2

All outputs for one product are always located on the same terminal block.

In product management, each product can be allocated any locking contact of the same actuator.





Schaltaktor 6M230

F3

6,3 AT H

F2

6,3 AT H

F1

6,3 AT H

L

N

PE

1 32

BU BK BN GNYE

M∼

Motor 1Sun shading system

1 32

BU BK BN GNYE

M∼


N PE N PE

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼

Motor 4Window 230 V

N PE N PE

Lighting

1 32

BU BK BN GNYE

M∼


N PE

H1 H2

N

CLO

SE

OPEN

Power line provided

by customer

230 V AC, 50 Hz,

16 A, 3 x 1.5 mm2

ATTENTION:

Only one motor can be connected

per motor terminal set.

Parallel connection will

damage the motor.

The total power (of all 4 outputs)

per fuse must not exceed 1000 VA.

All motor lines

H05-RR-F 4 G 0.75 black

type WAREMA

All push button lines

JY(St)Y 2x2x0.8 mm

Max. line length 200 m for

interference-proof routing,

use a twisted pair line.

All bus lines

JY(St)Y 4×2×0.8 mm

From

previous

bus device

Bus ABus B0 V

Example: Interlocking

via window contact

Operation is enabled

when the window is shut.

This function must be

programmed accordingly.

Example:

Single push

button,

motor 1

S1

Bus ABus B0 V

LNPE

Example:

Group push

button, motor 2

and motor 3

Groups are built

by means of

"jumpering"

P

Fig. 10 Connection example for switch actuators 6M230 and 4M230



Schaltaktor 4M230

F2

6,3 AT H

F1

6,3 AT H

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼


N PE N PE

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼


N PE N PE

To next

bus device

Bus ABus B0 V

Example: Group push button,

motor 7 and motor 8

Connection of group push

buttons at the locking inputs.

The locking function is no

longer available.

The relevant group is freely

programmable within an

actuator (see


Commissioning/Setting

instructions,

art. no. 2017718).

Example: group push

button, motor 5 and

motor 6

Groups are built for all

actuators by "jumpering".

Only connect In+ for the

actuators in the group.

Bus ABus B0 V

LNPE

P




5.3.2 Local group push buttons

The local inputs (E1.1...E6.2) are available for the local operation of individual products

Local group push buttons are only used for the joint local operation of products with push buttons (product groups). They are independent from the groups in the control panel that can be used to operate several channels together via the control panel (channel groups).

The locking contact inputs V1...V6 (for the 4M actuator V1...V4 only) can be used for the joint local operation of several products connected to the same actuator as a local group.

Each locking contact can either be used for locking or as a group input for a group push button, but not for both at the same time.

Only one single locking contact input is needed to lock a product.

A locking contact input can lock several products on the same actuator.

For building light and fan product groups, one locking contact is required for each group; for building groups of the sun shading product and window product types, two adjacent locking contacts are required as local group inputs.

The group inputs can be allocated to several products on the same actuator.

The fault alarm contact can neither be disabled nor operated via group push buttons.

To build local groups from products located on different actuators, the group inputs of the products must be joined in the form of a group control line. Appropriate examples can be found in the wiring diagrams.

DEANAN Actuators with different power supplies must not be joined together to build groups. Building groups between 4/6M230 and 4/6M actuators is therefore not possible.

To plan and document the inputs and outputs and the locking contacts, use the tables on the last page of the actuator instructions.


5.4 onnect hub

By using RS485 hubs, the WAREMA climatronic® bus line can be extended or a branch line can be reached. The WAREMA climatronic® HUB 4 is available in DIN rail-mounted or surface-mounted housing for this purpose. The hub provides four independent outputs. It is possible to create branch lines (e.g weather station) to reach remotely mounted bus devices or for example to form a separate line for each level of the building.

� In the WAREMA climatronic® system, a maximum of 1200 actuators, 3 weather stations and 2 sensors for insider temperature/humidity can be used. A maximum of 200 devices are permissible in each section of the bus. The bus must be subdivided by a hub if more than 200 devices are to be connected.

� A hub is an additional bus device that must be included in the calculation to determine the maximum number of bus users.

� A maximum of two hubs may be switched in series for the WAREMA climatronic® bus.

� A hub is not required for less than 100 devices, except for line extension.

� When using 100 actuators or more, one hub is required per 100 devices.

� A hub is also required after every 1200 m of bus length.

� Communication from one output of the hub to another is not possible.

� The 0 V wire must always be connected through all sections, bus devices and hubs.

Bus termination

� For each bus line, and also for each branch line, terminating resistors must be provided at the start and end of the bus line, except between two hubs.

� Branch lines may only be implemented with one hub.

� Each branch line must be terminated with terminating resistors at the beginning and end.

� For a JY(ST)Y 4x2x0.8 mm ∅ line the terminating resistance is 120 Ω.

� No terminating resistors are required between two connected hubs (termination inside device, cf. Fig. 11).

Hub Hublast

bus device

Fig. 11 Bus termination

Detailed information on connecting the WAR MA climatronic® HUB 4 can be found in the associated installation instructions art. no. 2014481.




X1

:

RS

48

5 O

UT

0V

B1

A1

LE

D0

V

24

VX

5:I

np

ut

X2

:

RS

48

5 O

UT

0V

B2

A2

X3

:

RS

48

5 O

UT

0V

B3

A3

X4

:

RS

48

5 O

UT

0V

B4

A4

ok

X6:R

S485 IN

A

B

LE

DS

tatu

s

12

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5

12

34

5

12

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5

67

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12

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56

78

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67

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67

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12

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9

12

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56

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9

12

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9

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9

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9

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9

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hm

12

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hm

12

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12

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hm

12

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78

91

23

45

67

89

78

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23

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120 Ohm

120 Ohm

120 Ohm

120 Ohm

RS

48

50

VE 1.1

E 1.2

PE 2.1

Sw

itch a

ctu

ato

r 4M

230 for

WA

RE

MA

clim

atr

onic

®

A

RS

48

5BX

7

0V

E 1.1

E 1.2

PE 2.1

Sw

itch a

ctu

ato

r 4M

230 for

WA

RE

MA

clim

atr

onic

®

A

RS

48

5BX

7

EE

E

Sw

itch a

ctu

ato

r 4M

230 for

WA

RE

MA

clim

atr

onic

®

AB

X7

0V

1.1

1.2

P2

.1

E 2.2

E 3.1

E 3.2

PE 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

E 2.2

E 3.1

E 3.2

P

X8

E 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

EE

E

X8

EE

Verr

ieg

elu

ng

2.2

3.1

3.2

P

X8

4.1

4.2

PV

1V

2P

V3

V4

RS

48

50

VE 1.1

E 1.2

PE 2.1

E 2.2

E 3.1

E 3.2

P

A

RS

48

5BX

7

0V

E 1.1

E 1.2

PE 2.1

E 2.2

E 3.1

E 3.2

P

A

RS

48

5BX

7

EE

EE

EE

AB

X7

0V

1.1

1.2

P2

.12

.23

.13.2

P

E 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

X8

E 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

X8

EE

Verr

ieg

elu

ng

X8

4.1

4.2

PV

1V

2P

V3

V4

RS

48

50

VE 1.1

E 1.2

PE 2.1

E 2.2

A

RS

48

5BX

7

0V

E 1.1

E 1.2

PE 2.1

E 2.2

A

RS

48

5BX

7

EE

EE

AB

X7

0V

1.1

1.2

P2

.12.2

E 3.1

E 3.2

PE 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

E 3.1

E 3.2

P

X8

E 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

EE

X8

EE

Ve

rrie

ge

lun

g3

.13

.2P

X8

4.1

4.2

PV

1V

2P

V3

V4

max. 200 d

evic

es

max. 1200 m

max. 200 d

evic

es

max. 1200 m

max. 200 d

evic

es

max. 1200 m

Bus A

Bus B

0 V

24 V

DC

120 Ohm

12

34

56

78

91

23

45

67

89

12

34

56

78

91

23

45

67

89

12

0 O

hm

12

34

56

78

91

23

45

67

89

RS

48

50

VE 1.1

E 1.2

PE 2.1

Sw

itch a

ctu

ato

r 4M

230 for

WA

RE

MA

clim

atr

onic

®

AB

X7

E 2.2

E 3.1

E 3.2

PE 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

X8

RS

48

50

VE 1.1

E 1.2

PE 2.1

E 2.2

E 3.1

E 3.2

P

AB

X7

E 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

X8

RS

48

50

VE 1.1

E 1.2

PE 2.1

E 2.2

AB

X7

E 3.1

E 3.2

PE 4.1

E 4.2

PV

1V

2V

err

ieg

elu

ng

PV

3V

4

X8

max. 200 d

evic

es

max. 1200 m

Fig. 12 Connection example for use of a hub


5.5 onnection examples for custom products

The safety instructions from 5 Connection on page 16 also apply for connecting the products described here to actuators.

Below you will find these wiring diagrams:

Fig. 13 Connection example pres (present) and BCS (building control system) on page 25

Fig. 14 Connection example for fault alarm contact on page 26

Fig. 15 Connection example for 3-step fan on page 27

Fig. 16 Connection example for fan and/or fan valve on page 28

Fig. 17 Connection example for fan 6 V / 12 V with fan valve on page 29

5.5.1 Pres (present) and B S (building control system)


Schaltaktor 6M oder 6M230

F2

6,3

AT H

F3

6,3

AT H

GLT =

BC

S

Anw

= P

res

Fig. 13 Connection example pres (present) and BCS (building control system)

Pres (present) contact closed --> AbsentBCS (building control system) contact open --> BCS (safety function) active

The terminals pres and BCS can only be used once per system. Inform your system integrator of which actuator the connection was established with.




5.5.2 Fault alarm contact


Schaltaktor 6M oder 6M230

F2

6,3

AT H

F3

6,3

AT H

NLPE

green (OK)

red (fault)

Fig. 14 Connection example for fault alarm contact

When de-energised (idle state) and if there is a fault, the "Fault" contact is closed. When there is no fault, the relay is activated and the contact A 6.2 closes.

The fault alarm contact can only be connected to a 6M or 6M230 switch actuator (A 6.2/fault). This actuator must be set up as actuator 1 in the WAREMA climatronic® project.

During commissioning, one channel must be reserved for the product fault alarm contact .

The fault alarm contact is activated when: � Operating voltage failure � Bus communication fails � An actuator fails � Failure of control panel, weather station sensor Inside temperature/

Humidity

The E 6.2 input does not have a function in this circuit and must not be used.

The 4M and 4M230 switch actuators do not have a fault alarm contact.


5.5.3 3-step fan


switch actuator 6M

F2

6,3

AT H

F3

6,3

AT H

Supply line, onsite

230 V AC/50 Hz/16 A

3x1.5 mm2 NL

PE

Step push button

max. line length

200 m


JY(St)Y 2x2x0.8 mm ∅

P

1

E 5.2 and E 6.1 are not

used in this application!

Fan 3 levels

N

PE

Ste

p 1

Ste

p 2

Ste

p 3

M1 ~

Fig. 15 Connection example for 3-step fan




5.5.4 Fan and/or fan valve


switch actuator 6M

F

2

6,3

AT H

F

3

6,3

AT H

Supply line onsite

230 V AC/50 Hz/16 A

3x1.5 mm2NLPE

Push button for fan

max. line length

200 m


JY(St)Y 2x2x0.8 mm ∅

P

1

Fan and/or fan valve

N

PE

ValveFan

L LPEN

Push button for valve

P

1

M1 ~

Fig. 16 Connection example for fan and/or fan valve


5.5.5 Fan 6 V / 12 V with fan valve

Supply line onsite

230 V AC/50 Hz/16 A

3x1.5 mm2

Fan 6 V / 12 V with fan valve

M1 ∼DC

Vale

0V 12V Motor Valve

0V 6V 12V

230 V

N

L

PE

E 5.2 and E 6.1 are not used

or may not be usedin this application!

WAREMA climatronic®switch actuator 6M

F2

6,3

AT H

F3

6,3

AT H

Push button for fan

max. line length

200 m


JY(St)Y 2x2x0,8 mm ø

P

1

Fig. 17 Connection example for fan 6 V / 12 V with fan valve




5.6 imensioning of the power supply

This chapter should provide you with support when planning and dimension-ing the power supply of the WAREMA climatronic® system. If actuators that are not supplied by the 230 V mains are used (e.g. 4M, 6M, 4MDC or 2D), the use of multiple power supply units may be required.

If the actuators that need 24 V DC (max. 20 per power supply unit) are housed in an equipment cabinet and the weather station, control panel and up to two sensors inside temperature/humidity are arranged according to the schematic diagram, you can simply take the maximum line lengths from the following schematic diagram:

Equipment cabinet

Power

supply unit

24 V DC

2,5 A

Actuator 1

Actuator 2

Actuator 3

Actuator 20

Temperature

and humidity

sensor 1

Temperature

and humidity

sensor 2

Control panel


The maximum total

line length between

the control panel

and the equipment

cabinet is 200 m.

Weather station

4×AWG 26C UL black

The maximum

line length between

the weather station

and the equipment

cabinet is 150 m.

When using more than

20 actuators, a separate

power supply unit is

required per 20 devices.

Junction box


optional

The network must have

a line structure.

A star or ring circuit

is not permitted.

Fig. 18 Schematic diagram of the standard configuration

The power supply unit required to supply the bus devices delivers an output current of max. 2.5 A and supplies the network devices with 24 V DC.

DATNIA When the actuators that require a 24 V DC supply are installed in a decentralised manner, spread across multiple rooms, the voltage drop over the entire line length must be considered. The voltage drop may not be greater than 4 V from the power supply unit to the end of the line or line section.

Preferably, position the power supply unit in the centre of the line or line section to minimise the voltage drops.


If a total current of 2.5 A is reached by adding a node (= network device) to the line, no additional network devices may be connected after this. In this case, provide an additional power supply unit for a separate section of the line. Do not connect the power supply units in parallel.

Note the following block diagram:

Control

panel

Actuator

1

Actuator

2

Actuator

3

Weather-

station

Power

supply

unit 1

Power

supply

unit 2

2 2

Fig. 19 Block diagram: several power supply units

Determine the total power requirements according to the following table:

DeviceNumber(piece)

Current con-sumption (mA)

Total current

Control panel 1 170 170

Weather station 250

Inside humidity/temperature sensor 50

Switch actuator 4M/6M 90

Dim actuator 2D 50

Sensor Interface

Tableau Interface —

Total:

Note the following regarding the table:

The current consumption of the Sensor Interface depends on the number and type of sensors connected to it. Determine the current consumption in advance using the sensors connected or provide a separate power supply unit for the Sensor Interface. Information on this can be found in the Sensor Interface installation instructions.

To supply the Tableau Interface with power, we recommend installing a separate power supply unit, depending on the line length and number of devices. Information on this can be found in the Tableau Interface installation instructions.

The following switch actuators are also supplied with power directly from the supply for the connected motors and do not need to be taken into consideration here:

� Switch actuator 4M230/6M230 � Switch actuator 4M230I vivamatic® � Switch actuator 16M230 SMI � Switch actuator 4MDC � Switch actuator 4M230 LS2 Low




6 ommissioning

Then commission the unit as described in the document Commissioning and setting instructions (art. no. 2017718).

Commissioning methodsDepending on the complexity of the building project, commissioning may take place via:

Commissioning assistant on the control panelrecommended for first-time users or small projects

It guides you to a finished project with all the basic settings in just a few steps. During the setup procedure, the most important parameters can be viewed and changed. You can also use the assistant to create the basic framework of your project and then adjust your preferences and circumstances manually.

OR

� WAREMA climatronic® studio softwarerecommended for all types of projects

With the WAREMA climatronic® studio software, you can create a complete project and make additional adjustments to the WAREMA climatronic® on a PC.The software and the associated manual can be found on the supplied SD card.


7 System components

In this chapter you can find an overview of the available system components with which you can further expand the WAREMA climatronic® system.

Components

Switch actuator 4M/6M AP/REG Chapter 7.1 on page 34

Switch actuator 4MDC AP/REG Chapter 7.2 on page 34

Switch actuator 16M230 SMI AP/REG Chapter 7.3 on page 35

Switch actuator 4M230I (vivamatic®) AP/REG Chapter 7.4 on page 36

Switch actuator 4M230 LS2 Low Chapter 7.5 on page 37

Dim actuator 2D AP/REG Chapter 7.6 on page 38

Sensor Interface Chapter 7.7 on page 50

Tableau Interface Chapter 7.8 on page 52

Sensor Splitter Chapter 7.9 on page 54

Sensor Inside temperature / Humidity Chapter 7.10 on page 55




7.1 Switch actuator 4M/6M DP/EGN

Switch actuators 4M and 6M are electronic control devices for the potential-free control of up to 4 or 6 sun shading drives or products. The switch actuators are supplied with 24 V DC of power. The products can be supplied either with 230 V AC or 24 V DC of power on separate terminal sets. The connected drives are controlled by the WAREMA climatronic®, local control with suitable operating elements is also possible.


Install the actuator as described in chapter 4.4 on page 15.

Use the wiring diagram on page 40 to connect the actuator.

Also note the chapter 5.6 Dimensioning of the power supply on page 30, as the actuator must be supplied with 24 V DC.


7.2 Switch actuator 4M DP/EGN

The switch actuator 4MDC is an electronic control device for controlling up to four sun shading drives with or without an incremental encoder. The switch actuator and its downstream power consumer are supplied with 24 V DC. The connected products are controlled via the WAREMA climatronic®; an on-site control device with operating elements is also a possibility.

To operate the switch actuator 4MDC, a WAR MA climatronic® 2.0 control panel or newer is needed.

To prevent damage to the connected motors, the default settings are such that only one relay is activated at a time and connected single push buttons operate in dead man's mode. Group buttons and locking contacts are func-tional after the actuator has been commissioned.






7.3 Switch actuator 16M230 SMN DP/EGN

The switch actuator 16M230 SMI is an electronic control device with an SMI interface for the operation on a WAREMA climatronic®. The switch actuator and its downstream power consumer are supplied with 230 V AC. The connected products are controlled via the WAREMA climatronic®; an on-site control device with operating elements is also a possibility. Either a maximum of 6 D370 SMI motors, protected via the integrated 6.3 AT H miniature fuse (maximum total power 1300 VA), or 16 motors without fuse protection, can be connected to the SMI interface. A maximum of 8 groups can be controlled. When movement is requested, the device first switches on the voltage of the SMI drives and then sends, with a time delay, the SMI telegrams to the drives. In addition, the switch actuator has button inputs and general purpose inputs (e.g. for locking inputs or group buttons).

To operate the switch actuator 16M230 SMI, a WAR MA climatronic® 2.0 control panel or newer is needed.

In the default settings, the connected single push buttons operate in dead man's mode; activation of a single push button initiates movements in all connected motors. Group buttons and locking contacts are functional after the actuator is commissioned.







7.4 Switch actuator 4M230N (vivamatic® 3.0) DP/EGN

The switch actuator 4M230I (vivamatic® 3.0) is an electronic control device for controlling up to four sun shading drives with or without an incremental encoder. The switch actuator and its downstream power consumer are supplied with 230 V AC. The connected products are controlled via the WAREMA climatronic®; an on-site control device with operating elements is also a possibility.

FunctionAn UP or DOWN move command can be issued both using a local operating element and using the WAREMA climatronic®. The "Save slat angle" command can only be issued via local operating elements.

The switch actuator 4M230I (vivamatic® 3.0) converts the issued commands into a movement sequence appropriate for a vivamatic® sun shading system. The vivamatic® bearing is brought into the required state before the move command. Other button commands while the bearing is being prepared are ignored.

Local operationPush buttons are used for local operation. Follow the external venetian blind operating instructions (art. no. 867454) and the information at www.vivamatic.com.

Central operation by WAR MA climatronic®Central operation enables the commands UP, DOWN and STOP. The "Save slat angle" command cannot be issued centrally. Local operation can override a command from the control panel. Exception: A safety command (e.g. wind alarm) always has higher priority. In this case, local operation is blocked. Local operation becomes active again after the safety command is no longer present.

To operate the switch actuator 4M230I (vivamatic® 3.0), a WAR MA climatronic® 3.0 control panel or newer is needed.






7.5 Switch actuator 4M230 LS2 Low DP/EGN

The switch actuator 4M230 LS2 Low (REG and AP) is an electronic control device to control up to 4 sun shading and window drives. The switch actuator is especially suitable for controlling external venetian blinds with 2 lower limit switches. With the 4M230 LS2 Low, an external vene-tian blind with 2 lower limit switches can be moved with opened slats to the lower limit switch and only tilts the slats then.

If a DOWN command is issued from the local operating element, the external venetian blind moves at an angle set by the mechanics and that cannot be changed to the first lower limit switch and stays in this position. The external venetian blind moves to the second lower limit switch and the slats close only when a second DOWN command is issued.If a second DOWN command is triggered during the downward movement of the external venetian blind following the first move command, the sun shading product first moves to the first lower limit switch and then automatically moves to the second lower limit switch. The slats close once this position is reached.

If the command is issued from a central control unit, the product can move directly either to an intermediate position (e.g. 50%) or the second lower limit switch.

Each actuator uses three relays to control the motor: one relay for raising the sun shading product, a second relay for the downward movement to lower limit switch 1 and the third relay for the downward movement to lower limit switch 2.

5-wire motor lines must be used to connect these kind of external venetian blinds.The switch actuator and its downstream power consumer are supplied with 230 V AC. The connected products are controlled via the WAREMA climatronic®; an on-site control device with suitable operating elements is also a possibility.

To operate the switch actuator 4M230 LS2 Low, a WAR MA climatronic® 3.3 control panel or newer is needed. If you have an older control panel, contact WAR MA for more information.








7.6 im actuator 2 DP/EGN

Dim actuator 2D (300 VA for vertical installation, 200 VA for horizontal instal-lation, see Technical Data and Fig. 3) is an electronic control device for sup-plying all standard light sources and fan motors with power.

Permissible loads:

Incandescent bulbs and high voltage halogen lamps

Dimmable energy saving lamps

Fan motors

Electronic transformers

Conventional (wound) transformers

Combination of incandescent bulbs and electronic transformers

Combination of incandescent bulbs and conventional transformers

Impermissible loads:

Lamps and fans that already have a dimmer

Electric devices that are not among the loads specified above

Combination of electronic and conventional transformers, since these require different dim types


Install the actuator as described in chapter 4.4 on page 15. In addition note the following figure.

Vertical installation

max. 300 VA

Horizontal installation

max. 200 VA

Fig. 20 Installation of dim actuator 2D





Dimmaktor 2D

Temperatur-

sicherung 145 °C

F1

3,15 AT H

Fehler

LED 1.2F1

3,15 AT H

Fehler

LED 2.2

1 2

Max. total current

per supply 15 A

To additional

actuators

M1

Fan flap

M2H1

Lighting

1

GNYE BU

1 2

MM1

GNYE BU

To next

bus device

From previous

bus device

PENL

PENL

Bus ABus ABus BBus B

0 V0 V

24 V DC24 V DC

PE N PE N N

BK

M

BK

M

Fan, infinitely variable

GNYE BK

PE L

BU

Infinitely variable fan with fan valve

Power line provided

by customer 230 V AC,

50 Hz, 16 A, 3 x 1.5 mm2

All motor lines


type WAREMA


JY(St)Y 2x2x0.8 mm




All bus lines

JY(St)Y 4×2×0.8 mm

ATTENTION:



Parallel connection will damage the

motor.

The total power per output must

not exceed 300 VA.

If the maximum load is exceeded,

the output is switched off and the

error LED is set. This can only be

reset by disconnecting the dimming

actuator.

T1 T2

Fig. 21 Connection example for dim actuator 2D

Detailed information on connecting can be found in the associated operating and installation instructions art. no. 890356.





Schaltaktor 6M

F

1

6,3

AT H

F

2

6,3

AT H

F

3

6,3

AT H

L

N

PE

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼


N PE N PE

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼

Motor 4Window 230 V

N PE N PE

Lighting

1 32

BU BK BN GNYE

M∼


N PE

H1 H2

N

CLO

SE

OPEN

Power line provided

by customer

230 V AC, 50 Hz,

16 A, 3 x 1.5 mm2

ATTENTION:




damage the motor.



All motor lines


type WAREMA


JY(St)Y 2x2x0.8 mm




All bus lines

JY(St)Y 4×2×0.8 mm

LNPE

Example:

Single push

button,

motor 1

S1

From

previous

bus device

Bus ABus B0 V24 V DC

Bus ABus B0 V

Example:

Group push

button, motor 2

and motor 3

Groups are built

by means of

"jumpering"


via window contact





P

Fig. 22 Connection example for switch actuators 4M and 6M



Schaltaktor 4M

F

1

6,3

AT H

F

2

6,3

AT H

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼


N PE N PE

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼


N PE N PE

LNPE

Example: Group push

button, motor 7 and motor 8




longer available. The relevant

group is freely programmable

within an actuator (see


installation instructions)

Example: group

push button, motor

5 and motor 6

Groups are built for

all actuators by

"jumpering".

Only connect In+ for

the actuators in the

group.

Only connect P for


group.

To next

bus device

Bus ABus B0 V24 V DC

Power supply

unit

24 V DC

Zuleitung

bauseitig

230 V AC, 50 Hz

3 x 1,5 mm2

Bus ABus B0 V

Example: Further power

supply unit 24 V DC

If the power from one power

supply unit is not sufficient, an

additional power supply unit is

needed. Subdivide the 24 V

wire into subsections. Do not

operate power supply units in

parallel. The 0-V wire must

always be connected through

all components.

P




WAREMA climatronic®Schaltaktor 4MDC

F2

5,0 AT H

F1

5,0 AT H

Bus connection "nc" = not connected (not assigned)The yellow terminal is not connected to the device and can be used to connect through the 24 V wire.

Example:

Push button, motor 1

Motor 1

M24 V DC

V+

V+

Motor connection

Directio

n o

f m

ove

ment

Mx.1 Mx.2

0 V

0 V

2 x 0.75 mm²

Supply line 24 V DC SELV

ATTENTION: The operating voltage

must be SELV voltage in

accordance with

VDE 0700-1 and

EN 60335-1.

From previous

bus device

Bus ABus B

0 V

Bus ABus B

0 V

Legend for other climatro-nic® actuators:In+ = P

In5 = V1

In6 = V2

In7 = V3

In8 = V4

In1 1.1 = E1.1

In1 1.2 = E1.2

...

Motor 2

M24 V DC

Example: Group push button, motor 1 and motor 2Connection of group push buttons at the locking inputs. The locking function is no longer availa-ble. The relevant group is freely programmable within an actuator (see WAREMA climatronic® installation instructions)

All push button lines, JY(St)Y 2x2x0.8 mmMax. line length 200 m for interference-proof routing, use a twisted pair line.

All bus lines JY(St)Y 4×2×0.8 mm

In+

2 x 0.75 mm²

M

GN

D

P

LIHH 5x0,25 mm2

Motor 3 Connection exampleMotor with incremental encoder

Fig. 23 Connection example for switch actuator 4MDC


WAREMA climatronic®Schaltaktor 4MDC

F2

5,0 AT H

F1

5,0 AT H

Bus connection "nc" = not connected (not assigned)The yellow terminal is not connected to the device and can be used to connect through the 24 V wire.

Example: group push button, motor 3 and motor 4Groups are built for all

actuators by "jumpe-

ring".

Only connect In+ for


group.

S1

Example: Interlocking via window contactOperation is enabled when the

window is shut.

This function must be programmed

accordingly.

Connection exampleMotor DCD22-E

Motor 4

M

24 V DC

V+

V+

Motor connection

Direction o

f

move

ment

Mx.1 Mx.2

0 V

0 V

2 x 0.75 mm²

Motor 5

M24 V DC

LiHH 3 x 0.25 mm² 1 32

WH BN

GN **(not connected)

To next bus device

Bus ABus B

0 V

** Protect the wire against short circuit with an additional terminal

Bus ABus B

0 V

In+




WAREMA climatronic®Schaltaktor 16M230 SMI

Bus connection "nc" = not connected (not assigned)The yellow terminal is not

connected to the device and can

be used to connect through the 24

V wire.

The relay downstream from

terminals L is closed when the

operating voltage is switched

on.

Example:

Push button motorgroup 1

(respectively product 1)

S1

Example:

Interlocking via window contact

Operation is enabled when the

window is shut. This function must be


Power line provided

by customer

230 V AC, 50 Hz,

16 A, 3 x 1.5 mm2

N

PE

L

NPE

L

To additional

components

From previous

bus device

Bus ABus B

0 V

Legend for

other

climatronic®

actuators:

In+ = P

In1 1.1 = E1.1

In1 1.2 = E1.2

...

4

3

1

2

4

3

1

2

4

3

1

2

4

3

1

2

BU

BN

BK

GY

GNGY

BU

BN

BK

GY

GNGY

BU

BN

BK

GY

GNYE

Bus ABus B

0 V

All push button lines, JY(St)Y 2x2x0.8 mm





Example:

Connection of motors D370 SMI on

fuse-protected SMI interface

(terminals OUT)

Maximum 6 motors

Total power maximum 1300 VA on

fuse-protected SMI interface (miniature

fuse 6.3 AT H 250 V in actuator) when

using the motor lines H05RR-F 5 G 0.75

bk type WAREMA

Distribution

board

M

SMI

I+

PEL

N

I-

M

SMI

I+

PEL

N

I-

M

SMI

I+

PEL

N

I-

BU

BN

BK

GY

GNGY

BUBN BKGY GNGY

M

SMI

I+

PEL

N

I-

Motor 1

Motor 2

Motor 5

Motor 6

5 × 1.5 mm2

All motor lines

H05-RR-F 4 G 0.75 black,

type WAREMA

In+

Fig. 24 Connection example for switch actuator 16M230 SMI


WAREMA climatronic®Schaltaktor 16M230 SMI

Bus connection "nc" = not connected (not assigned)The yellow terminal is not

connected to the device and can

be used to connect through the 24

V wire.

The relay downstream from

terminals L is closed when the

operating voltage is switched

on.

Bus ABus B

0 V

Power line provided

by customer

230 V AC, 50 Hz,

16 A, 3 x 1.5 mm2

N

PE

L

NPE

L

To additional

components

To next

bus device

Bus ABus B

0 V

BUBN BKGY GNGY

To the

motors

Example:

Connection of SMI motors on SMI

interface that is not fuse-protected

(terminals Lout)

Maximum 16 motors

Total power maximum 3500 VA on

SMI interface that is not

fuse-protected. Cross-section of motor

lines according to total current of all

motors.

Example: Group push button

Group push button connection to general

purpose inputs The relevant group is freely

programmable within an actuator (see

WAREMA climatronic installation instruc-

tions).

5 × 1.5 mm2

Example: Group push button, motor

group 7 (actuator 1) and motor group 1

(actuator 2)

Groups are built for all actuators by

"jumpering".

Only connect In+ for the actuators in the

group.

In+




From

previous

bus device

Power line provided

by customer

230 V AC, 50 Hz,

16 A, 3 x 1.5 mm2

PENL

Schaltaktor 4M230I (vivamatic® 3.0)

1 32

BU BK BN GNYE

M∼

Motor 1

**

F1

6,3 AT H

F2

6,3 AT H

ATTENTIONOnly one motor can be connected



damage the motor.

1 32

BU BK BN GNYE

M∼

Motor 2

1 32

BU BK BN GNYE

M∼

Motor 3

1 32

BU BK BN GNYE

M∼

Motor 4

Bus ABus B0 V

M M

Example: Group push button, motor 1 and motor 2Connection of group push buttons at the

locking inputs. The locking function is no

longer available. The relevant group is freely

programmable within an actuator (see

WAREMA climatronic® installation

instructions)

Example: Single push button, motor 1

Bus connection "nc" = not connected (not assigned)The nc connection (yellow terminal) is not connected

to the device. The yellow terminal can be used to

connect through the 24 V wire for the following

devices that require 24 V.

Legend for other climatronic® actuators:In+ = P

In5 = V1

In6 = V2

In7 = V3

In8 = V4

In1 1.1 = E1.1

In1 1.2 = E1.2

...

ATTENTIONThe operating voltage of the motors

must be identical to the operating

voltage of the actuator. The actuator

has no floating outputs.

Bus ABus B0 V

PENL

All motor lines

H05-RR-F 4 G 0.75 black, type WAREMA

All push button lines, JY(St)Y 2x2x0.8 mm





In+

Fig. 25 Connection example for switch actuator 4M230I (vivamatic® 3.0)


M M

BN

BK

BU

2

M~

321

321

1

2 1

2 1

BK

BK

BN

RD

3

LIHCH 2x2x0,14 BK

1 32

BU BK BN GNYE

M∼

Motor 5 Motor 6

Connection exampleMotor with additional

incremental encoder

To next

bus device

S1

Bus ABus B0 V

Schaltaktor 4M230I (vivamatic® 3.0)

F1

6,3 AT H

F2

6,3 AT H

Example: Interlocking via window contactOperation is enabled when the window is shut.

This function must be programmed

accordingly.

Example: group push button, motor 4 and motor 5Groups are built for all actuators

by "jumpering".

Only connect In+ for the actuators

in the group.

**

** Supply to motors:The power supply to the motors can be

implemented via a jumper to the L-terminals

at terminal block X1.

Bus ABus B0 V

PENL

In+





Schaltaktor 4M230 LS2 Tief

F2

6,3 AT H

F1

6,3 AT H

M 1

.1

M 1

.2.1

M 1

.2.2

M 2

.1

M 2

.2.1

M 2

.2.2

M 3

.1

M 3

.2.1

M 3

.2.2

M 4

.1

M 4

.2.1

M 4

.2.2

LNPE

Power line

provided

by customer

230 V AC, 50 Hz,

13 A, 3 x 1.5 mm2

L

N

PE

Example:

Single

push button,

motor 1

Example:

Group push

button, motor 2

and motor 3

Groups are built

by means of

"jumpering"

1 32

BK GY BN GNYE

M∼

Motor 12 TE

N PE

Example: group push

button, motor 5 and

motor 6

Groups are built for all

actuators by "jumpering".

Only connect In+ for the

actuators in the group.

Bus ABus B0 V

In+

From

previous

bus device

Bus ABus B0 V

Motor 22 TE

Motor 32 TE

Motor 42 TE

ATTENTION:




damage the motor.



Motor lines for motors with 2 lower limit switches

H05-RR-F 5 G 0,75 bk

For Switzerland:

H05-RR-F 5 G 1,5 bk

or alternatively

LiHH 5x1,5 JZ gr 600/1000V flexible, halogen-free

(not UV resistant)


JY(St)Y 2x2x0.8 mm




All bus lines

JY(St)Y 4×2×0.8 mm

4

BL

1 2

1 32

BK GY BN GNYE

M∼

N PE

4

BU

1 2

1 32

BK GY BN GNYE

M∼

N PE

4

BU

1 2

1 32

BK GY BN GNYE

M∼

N PE

4

BU

1 2

Fig. 26 Connection example switch actuator 4M230 LS2 Low



Schaltaktor 4M230 LS2 Tief

F2

6,3 AT H

F1

6,3 AT H

M 1

.1

M 1

.2.1

M 1

.2.2

M 2

.1

M 2

.2.1

M 2

.2.2

M 3

.1

M 3

.2.1

M 3

.2.2

M 4

.1

M 4

.2.1

M 4

.2.2

L

N

PE


via window contact





S1

To next

bus device

Bus ABus B0 V

Example: Group push

button, motor 7 and motor 8




longer available.

The relevant group is freely

programmable within an

actuator (see


Commissioning/Setting

instructions,

art. no. 2017718).

Bus ABus B0 V

In+

Motor 52 TE

1 32

BU BK BN GNYE

Motor 6Window

N PE

1 32

BU BK BN GNYE

M∼


1 32

BU BK BN GNYE

M∼


N PE N PE

M∼

CLO

SE

OPEN

ATTENTION:

By use of standard drives without

2 lower limit switches, always use

Low 2 ( 2).

1 32

BK GY BN GNYE

M∼

N PE

4

BU

1 2

Motor lines for motors

with 1 lower limit switch

H05-RR-F 4 G 0,75 bk

Typ WAREMA

For Switzerland:

H05-RR-F 4 G 1,5 bk




7.7 Sensor Nnterface

The WAREMA climatronic® sensor interface allows integration of numerous conventional sensors into a WAREMA climatronic® system when increased requirements are placed on number and quality of measuring data due to architectural conditions.

The Sensor Interface can be used as an alternative to the climatronic® weather station or as an additional system component. These two products can be combined as desired, but it should be noted that WAREMA climatronic® supports a maximum of three components for collecting measuring data.

The following meteorological sensors can be connected to the device:

� 4 "photo" sensors (inputs can be jointly switched from a voltage to a current interface).

� 1 "global radiation" sensor

� 1 "dawn/dusk" sensor

� 4 "wind speed" sensors

� 1 "wind direction" sensor

� 1 "temperature" sensor

� 1 "precipitation" sensor

� 1 "relative humidity" sensor

A DCF77 radio clock module can also be connected.

A power supply for active sensors (15 V DC and 24 V DC) is integrated in the device.

Do not supply heating units in the sensors with power via the Sensor Interface. Use a separate voltage source.

Ideally, the Sensor Interface is supplied with power via a separate power supply unit. If only a few sensors with low current consumption are connected, supply is possible via the climabus. In this case, note the instructions in Chapter 5.6 Dimensioning of the power supply on page 30.

The measuring values of the connected sensors are read in by the control panel in blocks via the climabus:

� Safety-related data such as the wind speed, wind direction, outside temperature, precipitation and relative humidity is gathered every second.

� Photo, global radiation. Dawn/dusk and the DCF77 signal are read once every ten seconds.

Detailed information on connecting, suitable sensors and the settings on the device can be found in the associated installation instructions art. no. 890360.


DC

24 V

230 V

AC

climabus

JY(St)Y 4×2×0.8 mm ∅

BK RD

From previous

bus device

Bus ABus B0 V

To next

bus device

Bus ABus B0 V

WH

X5:Input X6:RS485 Prog X7: 0V 24V A B ID LED 15V 0V 15V 1 0V 15V


Sensor InterfaceFor the supply of the Sensor Interface we

recommend the mounting of a separate

power supply unit, depending on the

number and type of sensors connected to

the Sensor Interface.

Fig. 27 Connection of the Sensor Interface to climabus and a separate power supply unit

1 2 3 4 5 6 7 8

ON

WAREMA climatronic®Sensor Interface

24V 24V 0V 0V 15V 15V 0V 0V 15V 0V 24V 0V 24V 0V 15V 1 0V 15V 2 0V 15V 3 0V 15V 4 0V 15V 0V 15V 0V X1: X2: X3: X4:

X5:Input X6:RS485 Prog X7: X8: S2: 0V 24V A B ID LED 15V 0V 15V 1 0V 15V 2 0V 15V 3 0V 15V 4 0V 15V 0V 1 2 3 4 5 6 7 8

Terminal strip X1Reserve terminals for

the sensor power

supply

Terminal strip X2Reserve terminals for

the sensor power

supply

Terminal strip X3Connection of the

photo 1-3 sensor


photo 4 sensor,

global radiation sensor

and dawn/susk sensor

Terminals X6Connection to

the WAREMA

climabus Terminal strip X7Connection of the

radio clock and

wind 1-2 sensors


wind 3-4 and

wind direction sensors

Encoding switch S2Setting of the sensor

input characteristic

Terminals X5Connection of

the power

supply

24 V DC

Service-LEDDisplay of the

incoming

Documents

WAREMA climatronic® Control panel 3 · The WAREMA climatronic® is a complete solution for controlling all WAREMA products and additional systems in a conservatory or in larger building